Merge branch 'storageareas' of github.com:ZoneMinder/ZoneMinder into storageareas

This commit is contained in:
Isaac Connor 2016-04-30 10:09:52 -04:00
commit 408fba8d24
115 changed files with 28012 additions and 27185 deletions

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@ -45,4 +45,4 @@ script:
- mysql -uzmuser -pzmpass < db/zm_create.sql - mysql -uzmuser -pzmpass < db/zm_create.sql
- mysql -uzmuser -pzmpass zm < db/test.monitor.sql - mysql -uzmuser -pzmpass zm < db/test.monitor.sql
- sudo zmpkg.pl start - sudo zmpkg.pl start
- sudo zmfilter.pl -f purgewhenfull - sudo zmfilter.pl --filter purgewhenfull

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@ -3,51 +3,51 @@
set -e set -e
if [ "$1" = "configure" ]; then if [ "$1" = "configure" ]; then
if [ -e "/etc/init.d/mysql" ]; then
#
# Get mysql started if it isn't
#
if ! $(/etc/init.d/mysql status >/dev/null 2>&1); then
invoke-rc.d mysql start
fi
if $(/etc/init.d/mysql status >/dev/null 2>&1); then
mysqladmin --defaults-file=/etc/mysql/debian.cnf -f reload
# test if database if already present...
if ! $(echo quit | mysql --defaults-file=/etc/mysql/debian.cnf zm > /dev/null 2> /dev/null) ; then
cat /usr/share/zoneminder/db/zm_create.sql | mysql --defaults-file=/etc/mysql/debian.cnf
echo 'grant lock tables, alter,select,insert,update,delete on zm.* to 'zmuser'@localhost identified by "zmpass";' | mysql --defaults-file=/etc/mysql/debian.cnf mysql
fi
invoke-rc.d zoneminder stop || true . /etc/zm/zm.conf
zmupdate.pl --nointeractive
else # The logs can contain passwords, etc... so by setting group root, only www-data can read them, not people in the www-data group.
echo 'NOTE: mysql not running, please start mysql and run dpkg-reconfigure zoneminder when it is running.' chown www-data:root /var/log/zm
fi chown www-data:www-data /var/lib/zm
else
echo 'mysql not found, assuming remote server.'
fi
chown www-data:www-data /var/log/zm
chown www-data:www-data /var/lib/zm/
if [ -z "$2" ]; then if [ -z "$2" ]; then
chown www-data:www-data -R /var/cache/zoneminder chown www-data:www-data /var/cache/zoneminder /var/cache/zoneminder/*
fi fi
fi
# Ensure zoneminder is stopped... # Do this every time the package is installed or upgraded
if [ -x "/etc/init.d/zoneminder" ]; then
if invoke-rc.d zoneminder status ; then if [ "$ZM_DB_HOST" = "localhost" ]; then
invoke-rc.d zoneminder stop || exit $? if [ -e "/etc/init.d/mysql" ]; then
#
# Get mysql started if it isn't
#
if ! $(/etc/init.d/mysql status >/dev/null 2>&1); then
invoke-rc.d mysql start
fi
if $(/etc/init.d/mysql status >/dev/null 2>&1); then
mysqladmin --defaults-file=/etc/mysql/debian.cnf -f reload
# test if database if already present...
if ! $(echo quit | mysql --defaults-file=/etc/mysql/debian.cnf zm > /dev/null 2> /dev/null) ; then
cat /usr/share/zoneminder/db/zm_create.sql | mysql --defaults-file=/etc/mysql/debian.cnf
# This creates the user.
echo "grant lock tables, alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost identified by \"${ZM_DB_PASS}\";" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
else
echo "grant lock tables, alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost;" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
fi
# Ensure zoneminder is stopped
invoke-rc.d zoneminder stop || true
zmupdate.pl --nointeractive
zmupdate.pl --nointeractive -f
invoke-rc.d zoneminder start || true
else
echo 'NOTE: mysql not running, please start mysql and run dpkg-reconfigure zoneminder when it is running.'
fi
else
echo 'mysql not found, assuming remote server.'
fi fi
fi
if [ "$1" = "configure" ]; then
if [ -z "$2" ]; then
chown www-data:www-data /var/log/zm
chown www-data:www-data /var/lib/zm/
chown www-data:www-data -R /var/cache/zoneminder
else else
chown www-data:www-data /var/log/zm echo "Not doing database upgrade due to remote db server ($ZM_DB_HOST)"
zmupdate.pl fi
fi
fi fi
#DEBHELPER# #DEBHELPER#

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@ -1,3 +1,9 @@
zoneminder (1.30.2-trusty-2016042801) trusty; urgency=medium
* Merge video
-- Isaac Connor <iconnor@connortechnology.com> Thu, 28 Apr 2016 12:54:08 -0400
zoneminder (1.28.1+1-vivid-SNAPSHOT2015081701) vivid; urgency=medium zoneminder (1.28.1+1-vivid-SNAPSHOT2015081701) vivid; urgency=medium
* include api, switch to cmake build * include api, switch to cmake build

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@ -3,11 +3,51 @@
set -e set -e
if [ "$1" = "configure" ]; then if [ "$1" = "configure" ]; then
chown www-data:root /var/log/zm
chown www-data:www-data /var/lib/zm . /etc/zm/zm.conf
if [ -z "$2" ]; then
chown www-data:www-data -R /var/cache/zoneminder # The logs can contain passwords, etc... so by setting group root, only www-data can read them, not people in the www-data group
fi chown www-data:root /var/log/zm
chown www-data:www-data /var/lib/zm
if [ -z "$2" ]; then
chown www-data:www-data /var/cache/zoneminder /var/cache/zoneminder/*
fi
# Do this every time the package is installed or upgraded
if [ "$ZM_DB_HOST" = "localhost" ]; then
if [ -e "/etc/init.d/mysql" ]; then
#
# Get mysql started if it isn't
#
if ! $(/etc/init.d/mysql status >/dev/null 2>&1); then
invoke-rc.d mysql start
fi
if $(/etc/init.d/mysql status >/dev/null 2>&1); then
mysqladmin --defaults-file=/etc/mysql/debian.cnf -f reload
# test if database if already present...
if ! $(echo quit | mysql --defaults-file=/etc/mysql/debian.cnf zm > /dev/null 2> /dev/null) ; then
cat /usr/share/zoneminder/db/zm_create.sql | mysql --defaults-file=/etc/mysql/debian.cnf
# This creates the user.
echo "grant lock tables, alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost identified by \"${ZM_DB_PASS}\";" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
else
echo "grant lock tables, alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost;" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
fi
# Ensure zoneminder is stopped
invoke-rc.d zoneminder stop || true
zmupdate.pl --nointeractive
zmupdate.pl --nointeractive -f
invoke-rc.d zoneminder start || true
else
echo 'NOTE: mysql not running, please start mysql and run dpkg-reconfigure zoneminder when it is running.'
fi
else
echo 'mysql not found, assuming remote server.'
fi
else
echo "Not doing database upgrade due to remote db server ($ZM_DB_HOST)"
fi
fi fi
#DEBHELPER# #DEBHELPER#

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@ -1,3 +1,15 @@
zoneminder (1.30.2-trusty-2016033001) trusty; urgency=medium
* merge master
-- Isaac Connor <iconnor@connortechnology.com> Wed, 30 Mar 2016 14:09:48 -0400
zoneminder (1.30.2-trusty-2016032901) trusty; urgency=medium
* filter fixes, merge options rework by Kyle
-- Isaac Connor <iconnor@connortechnology.com> Tue, 29 Mar 2016 12:27:57 -0400
zoneminder (1.30.2-trusty-2016030702) trusty; urgency=medium zoneminder (1.30.2-trusty-2016030702) trusty; urgency=medium
* *

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@ -6,6 +6,7 @@ Uploaders: Vagrant Cascadian <vagrant@debian.org>
Build-Depends: debhelper (>= 9), dh-systemd, python-sphinx | python3-sphinx, apache2-dev, dh-linktree Build-Depends: debhelper (>= 9), dh-systemd, python-sphinx | python3-sphinx, apache2-dev, dh-linktree
,cmake ,cmake
,libavcodec-ffmpeg-dev, libavformat-ffmpeg-dev, libswscale-ffmpeg-dev, libavutil-ffmpeg-dev, libavdevice-ffmpeg-dev ,libavcodec-ffmpeg-dev, libavformat-ffmpeg-dev, libswscale-ffmpeg-dev, libavutil-ffmpeg-dev, libavdevice-ffmpeg-dev
,libx264-dev, libmp4v2-dev,
,libbz2-dev ,libbz2-dev
,libgcrypt-dev ,libgcrypt-dev
,libcurl4-gnutls-dev ,libcurl4-gnutls-dev
@ -34,10 +35,8 @@ Architecture: any
Depends: ${shlibs:Depends}, ${misc:Depends}, ${perl:Depends} Depends: ${shlibs:Depends}, ${misc:Depends}, ${perl:Depends}
,javascript-common ,javascript-common
,libav-tools ,libav-tools
,libdate-manip-perl ,libdate-manip-perl, libmime-lite-perl, libmime-tools-perl
,libdbd-mysql-perl ,libdbd-mysql-perl
,libmime-lite-perl
,libmime-tools-perl
,libphp-serialization-perl ,libphp-serialization-perl
,libmodule-load-conditional-perl ,libmodule-load-conditional-perl
,libnet-sftp-foreign-perl ,libnet-sftp-foreign-perl
@ -57,12 +56,12 @@ Depends: ${shlibs:Depends}, ${misc:Depends}, ${perl:Depends}
,libsys-cpu-perl, libsys-meminfo-perl ,libsys-cpu-perl, libsys-meminfo-perl
,mysql-client | virtual-mysql-client ,mysql-client | virtual-mysql-client
,perl-modules ,perl-modules
,php5-mysql ,php5-mysql | php-mysql, php5-gd | php-gd
,policykit-1 ,policykit-1
,rsyslog | system-log-daemon ,rsyslog | system-log-daemon
,zip ,zip
Recommends: ${misc:Recommends} Recommends: ${misc:Recommends}
,libapache2-mod-php5 | php5-fpm ,libapache2-mod-php5 | libapache2-mod-php7 | php5-fpm
,mysql-server | virtual-mysql-server ,mysql-server | virtual-mysql-server
,zoneminder-doc (>= ${source:Version}) ,zoneminder-doc (>= ${source:Version})
Suggests: fcgiwrap, logrotate Suggests: fcgiwrap, logrotate

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@ -2,28 +2,57 @@
set -e set -e
. /etc/zm/zm.conf
if [ "$1" = "configure" ]; then if [ "$1" = "configure" ]; then
chown www-data:root /var/log/zm
chown www-data:www-data /var/lib/zm . /etc/zm/zm.conf
if [ -z "$2" ]; then
chown www-data:www-data -R /var/cache/zoneminder # The logs can contain passwords, etc... so by setting group root, only www-data can read them, not people in the www-data group
fi chown www-data:root /var/log/zm
chown www-data:www-data /var/lib/zm
if [ -z "$2" ]; then
chown www-data:www-data /var/cache/zoneminder /var/cache/zoneminder/*
fi
# Do this every time the package is installed or upgraded # Do this every time the package is installed or upgraded
# Test for database presence to avoid failure of zmupdate.pl
# Ensure zoneminder is stopped
deb-systemd-invoke stop zoneminder.service || exit $?
if [ "$ZM_DB_HOST" = "localhost" ]; then if [ "$ZM_DB_HOST" = "localhost" ]; then
echo 'grant lock tables, create, index, alter on zm.* to 'zmuser'@localhost identified by "zmpass";' | mysql --defaults-file=/etc/mysql/debian.cnf mysql
# Run the ZoneMinder update tool if [ -e "/etc/init.d/mysql" ]; then
zmupdate.pl --nointeractive
else #
# Get mysql started if it isn't
#
if ! $(/etc/init.d/mysql status >/dev/null 2>&1); then
deb-systemd-invoke start mysql.service || exit $?
fi
if $(/etc/init.d/mysql status >/dev/null 2>&1); then
mysqladmin --defaults-file=/etc/mysql/debian.cnf -f reload
# test if database if already present...
if ! $(echo quit | mysql --defaults-file=/etc/mysql/debian.cnf zm > /dev/null 2> /dev/null) ; then
cat /usr/share/zoneminder/db/zm_create.sql | mysql --defaults-file=/etc/mysql/debian.cnf
# This creates the user.
echo "grant lock tables,alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost identified by \"${ZM_DB_PASS}\";" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
else
echo "grant lock tables,alter,select,insert,update,delete,create,index on ${ZM_DB_NAME}.* to '${ZM_DB_USER}'@localhost;" | mysql --defaults-file=/etc/mysql/debian.cnf mysql
fi
# Ensure zoneminder is stopped
deb-systemd-invoke stop zoneminder.service || exit $?
zmupdate.pl --nointeractive
zmupdate.pl --nointeractive -f
deb-systemd-invoke start zoneminder.service || exit $?
else
echo 'NOTE: mysql not running, please start mysql and run dpkg-reconfigure zoneminder when it is running.'
fi
else
echo 'mysql not found, assuming remote server.'
fi
else
echo "Not doing database upgrade due to remote db server ($ZM_DB_HOST)" echo "Not doing database upgrade due to remote db server ($ZM_DB_HOST)"
fi; fi
fi fi

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@ -514,6 +514,8 @@ You do not need to rebuild ZM for X10 support. You will need to install the perl
Extending Zoneminder Extending Zoneminder
------------------------ ------------------------
.. _runstate_cron_example:
How can I get ZM to do different things at different times of day or week? How can I get ZM to do different things at different times of day or week?
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

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@ -67,8 +67,14 @@ own empty screen.
* **D**: This is the core of ZoneMinder - recording events. It gives you a count of how many events were recorded over the hour, day, week, month. * **D**: This is the core of ZoneMinder - recording events. It gives you a count of how many events were recorded over the hour, day, week, month.
* **E**: These are the "Zones". Zones are areas within the camera that you mark as 'hotspots' for motion detection. Simply put, when you first configure your monitors (cameras), by default Zoneminder uses the entire field of view of the camera to detect motion. You may not want this. You may want to create "zones" specifically for detecting motion and ignore others. For example, lets consider a room with a fan that spins. You surely don't want to consider the fan moving continuously a reason for triggering a record? Probably not - in that case, you'd leave the fan out while making your zones. * **E**: These are the "Zones". Zones are areas within the camera that you mark as 'hotspots' for motion detection. Simply put, when you first configure your monitors (cameras), by default Zoneminder uses the entire field of view of the camera to detect motion. You may not want this. You may want to create "zones" specifically for detecting motion and ignore others. For example, lets consider a room with a fan that spins. You surely don't want to consider the fan moving continuously a reason for triggering a record? Probably not - in that case, you'd leave the fan out while making your zones.
* **F**: This is the "source" column that tells you the type of the camera - if its an IP camera, a USB camera or more. In this example, they are all IP cameras. Note the color red on item F ? Well that means there is something wrong with that camera. No wonder the log also shows red. Good indication for you to tap on logs and investigate * **F**: This is the "source" column that tells you the type of the camera - if its an IP camera, a USB camera or more. In this example, they are all IP cameras. Note the color red on item F ? Well that means there is something wrong with that camera. No wonder the log also shows red. Good indication for you to tap on logs and investigate
* **G**: This defines how Zoneminder will record events. There are various modes. In brief Modect == record if a motion is detected,Record = always record 24x7, Mocord = always record PLUS detect motion, Monitor = just provide a live view but don't record anytime, Nodect = Don't record till an externa entity via zmtrigger tells Zoneminder to (this is advanced usage). * **G**: This defines how Zoneminder will record events. There are various modes. In brief Modect == record if a motion is detected,Record = always record 24x7, Mocord = always record PLUS detect motion, Monitor = just provide a live view but don't record anytime, Nodect = Don't record till an external entity via zmtrigger tells Zoneminder to (this is advanced usage).
* **H**: If you click on these links you can view a "Montage" of all your configured monitors or cycle through each one * **H**: If you click on these links you can view a "Montage" of all your configured monitors or cycle through each one
* **I**: One of the most often missed features is the ability of ZoneMinder to maintain "run states". If you click on the "Running" text, ZoneMinder brings up a popup that allows you to define additional "states" (referred to as runstates). A runstate is essentially a snapshot that records the state of each monitor and you can switch between states easily. For example, you might have a run state defined that switches all monitors to "monitor" mode in which they are not recording anything while another state that sets some of the monitors to "modect". Why would you want this? A great example is to disable recording when you are at home and enable when you are away, based on time of day or other triggers. You can switch states by selecting an appropriate state manually, or do it automatically via cron jobs, for example. An example of using cron to automatically switch is provided in the :ref:`FAQ <runstate_cron_example>`. More esoteric examples of switching run states based on phone location can be found `here <https://forums.zoneminder.com/viewtopic.php?f=9&t=23026>`__.
Here is an example of multiple run states that I've defined. Each one of these runstates changes the mode of specific monitors depending on time of day and other conditions. Use your imagination to decide which conditions require state changes.
.. image:: images/runstates.png
Adding Monitors Adding Monitors

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@ -3825,6 +3825,41 @@ body = "ZM alarm detected - %EL% secs, %EF%/%EFA% frames, t%EST%/m%ESM%/a%ESA% s
readonly => 1, readonly => 1,
category => "dynamic", category => "dynamic",
}, },
{
name => "ZM_SSMTP_MAIL",
default => "no",
description => qqq("
Use a SSMTP mail server if available.
NEW_MAIL_MODULES must be enabled
"),
requires => [
{ name => "ZM_OPT_EMAIL", value => "yes" },
{ name => "ZM_OPT_MESSAGE", value => "yes" },
{ name => "ZM_NEW_MAIL_MODULES", value => "yes" }
],
help => qqq("
SSMTP is a lightweight and efficient method to send email.
The SSMTP application is not installed by default.
NEW_MAIL_MODULES must also be enabled.
Please visit: http://www.zoneminder.com/wiki/index.php/How_to_get_ssmtp_working_with_Zoneminder
for setup and configuration help.
"),
type => $types{boolean},
category => "mail",
},
{
name => "ZM_SSMTP_PATH",
default => "",
description => "SSMTP executable path",
requires => [{ name => "ZM_SSMTP_MAIL", value => "yes" }],
help => qqq("
Recommend setting the path to the SSMTP application.
If path is not defined. Zoneminder will try to determine
the path via shell command. Example path: /usr/sbin/ssmtp.
"),
type => $types{string},
category => "mail",
},
); );
our %options_hash = map { ( $_->{name}, $_ ) } @options; our %options_hash = map { ( $_->{name}, $_ ) } @options;

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@ -155,10 +155,12 @@ MAIN: while( $loop ) {
Fatal("ZM_AUDIT_MIN_AGE is not set in config."); Fatal("ZM_AUDIT_MIN_AGE is not set in config.");
} }
my %Monitors;
my $db_monitors; my $db_monitors;
my $monitorSelectSql = "select Id from Monitors order by Id"; my $monitorSelectSql = "select * from Monitors order by Id";
my $monitorSelectSth = $dbh->prepare_cached( $monitorSelectSql ) my $monitorSelectSth = $dbh->prepare_cached( $monitorSelectSql )
or Fatal( "Can't prepare '$monitorSelectSql': ".$dbh->errstr() ); or Fatal( "Can't prepare '$monitorSelectSql': ".$dbh->errstr() );
my $eventSelectSql = "SELECT Id, (unix_timestamp() - unix_timestamp(StartTime)) as Age my $eventSelectSql = "SELECT Id, (unix_timestamp() - unix_timestamp(StartTime)) as Age
FROM Events WHERE MonitorId = ? ORDER BY Id"; FROM Events WHERE MonitorId = ? ORDER BY Id";
my $eventSelectSth = $dbh->prepare_cached( $eventSelectSql ) my $eventSelectSth = $dbh->prepare_cached( $eventSelectSql )
@ -169,6 +171,8 @@ MAIN: while( $loop ) {
or Fatal( "Can't execute: ".$monitorSelectSth->errstr() ); or Fatal( "Can't execute: ".$monitorSelectSth->errstr() );
while( my $monitor = $monitorSelectSth->fetchrow_hashref() ) while( my $monitor = $monitorSelectSth->fetchrow_hashref() )
{ {
$Monitors{$$monitor{Id}} = $monitor;
Debug( "Found database monitor '$monitor->{Id}'" ); Debug( "Found database monitor '$monitor->{Id}'" );
my $db_events = $db_monitors->{$monitor->{Id}} = {}; my $db_events = $db_monitors->{$monitor->{Id}} = {};
my $res = $eventSelectSth->execute( $monitor->{Id} ) my $res = $eventSelectSth->execute( $monitor->{Id} )
@ -467,20 +471,30 @@ MAIN: while( $loop ) {
# New audit to close any events that were left open for longer than MIN_AGE seconds # New audit to close any events that were left open for longer than MIN_AGE seconds
my $selectUnclosedEventsSql = my $selectUnclosedEventsSql =
"SELECT E.Id, #"SELECT E.Id, ANY_VALUE(E.MonitorId),
max(F.TimeStamp) as EndTime, #
unix_timestamp(max(F.TimeStamp)) - unix_timestamp(E.StartTime) as Length, #max(F.TimeStamp) as EndTime,
max(F.FrameId) as Frames, #unix_timestamp(max(F.TimeStamp)) - unix_timestamp(E.StartTime) as Length,
#max(F.FrameId) as Frames,
#count(if(F.Score>0,1,NULL)) as AlarmFrames,
#sum(F.Score) as TotScore,
#max(F.Score) as MaxScore
#FROM Events as E
#INNER JOIN Frames as F on E.Id = F.EventId
#WHERE isnull(E.Frames) or isnull(E.EndTime)
#GROUP BY E.Id HAVING EndTime < (now() - interval ".$Config{ZM_AUDIT_MIN_AGE}." second)"
#;
"SELECT *, unix_timestamp(StartTime) AS TimeStamp FROM Events WHERE EndTime IS NULL AND StartTime < (now() - interval ".$Config{ZM_AUDIT_MIN_AGE}." second)";
my $selectFrameDataSql = "SELECT max(TimeStamp) as EndTime, unix_timestamp(max(TimeStamp)) AS EndTimeStamp, max(FrameId) as Frames,
count(if(F.Score>0,1,NULL)) as AlarmFrames, count(if(F.Score>0,1,NULL)) as AlarmFrames,
sum(F.Score) as TotScore, sum(F.Score) as TotScore,
max(F.Score) as MaxScore, max(F.Score) as MaxScore
M.EventPrefix as Prefix FROM Frames WHERE EventId=?";
FROM Events as E my $selectFrameDataSth = $dbh->prepare_cached($selectFrameDataSql)
LEFT JOIN Monitors as M on E.MonitorId = M.Id or Fatal( "Can't prepare '$selectFrameDataSql': ".$dbh->errstr() );
INNER JOIN Frames as F on E.Id = F.EventId
WHERE isnull(E.Frames) or isnull(E.EndTime)
GROUP BY E.Id HAVING EndTime < (now() - interval ".$Config{ZM_AUDIT_MIN_AGE}." second)"
;
my $selectUnclosedEventsSth = $dbh->prepare_cached( $selectUnclosedEventsSql ) my $selectUnclosedEventsSth = $dbh->prepare_cached( $selectUnclosedEventsSql )
or Fatal( "Can't prepare '$selectUnclosedEventsSql': ".$dbh->errstr() ); or Fatal( "Can't prepare '$selectUnclosedEventsSql': ".$dbh->errstr() );
my $updateUnclosedEventsSql = my $updateUnclosedEventsSql =
@ -505,26 +519,32 @@ MAIN: while( $loop ) {
aud_print( "Found open event '$event->{Id}'" ); aud_print( "Found open event '$event->{Id}'" );
if ( confirm( 'close', 'closing' ) ) if ( confirm( 'close', 'closing' ) )
{ {
$res = $updateUnclosedEventsSth->execute $res = $selectFrameDataSth->execute( $event->{Id} );
( my $frame = $selectFrameDataSth->fetchrow_hashref();
sprintf("%s%d%s", if ( $frame ) {
$event->{Prefix}, $res = $updateUnclosedEventsSth->execute
$event->{Id}, (
RECOVER_TAG sprintf("%s%d%s",
), $Monitors{$event->{MonitorId}}->{EventPrefix},
$event->{EndTime}, $event->{Id},
$event->{Length}, RECOVER_TAG
$event->{Frames}, ),
$event->{AlarmFrames}, $frame->{EndTime},
$event->{TotScore}, $frame->{EndTimeStamp} - $event->{TimeStamp},
$event->{AlarmFrames} $frame->{Frames},
? int($event->{TotScore} / $event->{AlarmFrames}) $frame->{AlarmFrames},
: 0 $frame->{TotScore},
, $frame->{AlarmFrames}
$event->{MaxScore}, ? int($frame->{TotScore} / $frame->{AlarmFrames})
RECOVER_TEXT, : 0
$event->{Id} ,
) or Fatal( "Can't execute: ".$updateUnclosedEventsSth->errstr() ); $frame->{MaxScore},
RECOVER_TEXT,
$event->{Id}
) or Fatal( "Can't execute: ".$updateUnclosedEventsSth->errstr() );
} else {
Error("SHOULD DELETE");
} # end if has frame data
} }
} }

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@ -862,7 +862,7 @@ sub killAll
my $killall; my $killall;
if ( '@HOST_OS@' eq 'BSD' ) if ( '@HOST_OS@' eq 'BSD' )
{ {
$killall = 'killall -'; $killall = 'killall -q -';
} elsif ( '@HOST_OS@' eq 'solaris' ) { } elsif ( '@HOST_OS@' eq 'solaris' ) {
$killall = 'pkill -'; $killall = 'pkill -';
} else { } else {

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@ -779,9 +779,31 @@ sub sendEmail
Disposition => "attachment" Disposition => "attachment"
); );
} }
if ( $Config{ZM_SSMTP_MAIL} ){
my $ssmtp_location = $Config{ZM_SSMTP_PATH};
if( ! $ssmtp_location ){
$ssmtp_location = qx('which ssmtp');
if ( logDebugging() )
{
Debug( "which ssmtp: $ssmtp_location - set ssmtp path in options to suppress this message\n" );
}
}
$mail->send( 'sendmail', $ssmtp_location, $Config{ZM_EMAIL_ADDRESS} );
}else{
MIME::Lite->send( "smtp", $Config{ZM_EMAIL_HOST}, Timeout=>60 );
$mail->send();
}
### Send the Message ### Send the Message
MIME::Lite->send( "smtp", $Config{ZM_EMAIL_HOST}, Timeout=>60 ); #MIME::Lite->send( "smtp", $Config{ZM_EMAIL_HOST}, Timeout=>60 );
$mail->send(); #$mail->send();
} }
else else
{ {

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@ -26,8 +26,8 @@
#include "zm_config.h" #include "zm_config.h"
#ifdef SOLARIS #ifdef SOLARIS
#undef DEFAULT_TYPE // pthread defines this which breaks StreamType DEFAULT_TYPE #undef DEFAULT_TYPE // pthread defines this which breaks StreamType DEFAULT_TYPE
#include <string.h> // define strerror() and friends #include <string.h> // define strerror() and friends
#endif #endif
#include "zm_logger.h" #include "zm_logger.h"

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@ -36,39 +36,39 @@
class Box class Box
{ {
private: private:
Coord lo, hi; Coord lo, hi;
Coord size; Coord size;
public: public:
inline Box() inline Box()
{ {
} }
inline Box( int p_size ) : lo( 0, 0 ), hi ( p_size-1, p_size-1 ), size( Coord::Range( hi, lo ) ) { } inline Box( int p_size ) : lo( 0, 0 ), hi ( p_size-1, p_size-1 ), size( Coord::Range( hi, lo ) ) { }
inline Box( int p_x_size, int p_y_size ) : lo( 0, 0 ), hi ( p_x_size-1, p_y_size-1 ), size( Coord::Range( hi, lo ) ) { } inline Box( int p_x_size, int p_y_size ) : lo( 0, 0 ), hi ( p_x_size-1, p_y_size-1 ), size( Coord::Range( hi, lo ) ) { }
inline Box( int lo_x, int lo_y, int hi_x, int hi_y ) : lo( lo_x, lo_y ), hi( hi_x, hi_y ), size( Coord::Range( hi, lo ) ) { } inline Box( int lo_x, int lo_y, int hi_x, int hi_y ) : lo( lo_x, lo_y ), hi( hi_x, hi_y ), size( Coord::Range( hi, lo ) ) { }
inline Box( const Coord &p_lo, const Coord &p_hi ) : lo( p_lo ), hi( p_hi ), size( Coord::Range( hi, lo ) ) { } inline Box( const Coord &p_lo, const Coord &p_hi ) : lo( p_lo ), hi( p_hi ), size( Coord::Range( hi, lo ) ) { }
inline const Coord &Lo() const { return( lo ); } inline const Coord &Lo() const { return( lo ); }
inline int LoX() const { return( lo.X() ); } inline int LoX() const { return( lo.X() ); }
inline int LoY() const { return( lo.Y() ); } inline int LoY() const { return( lo.Y() ); }
inline const Coord &Hi() const { return( hi ); } inline const Coord &Hi() const { return( hi ); }
inline int HiX() const { return( hi.X() ); } inline int HiX() const { return( hi.X() ); }
inline int HiY() const { return( hi.Y() ); } inline int HiY() const { return( hi.Y() ); }
inline const Coord &Size() const { return( size ); } inline const Coord &Size() const { return( size ); }
inline int Width() const { return( size.X() ); } inline int Width() const { return( size.X() ); }
inline int Height() const { return( size.Y() ); } inline int Height() const { return( size.Y() ); }
inline int Area() const { return( size.X()*size.Y() ); } inline int Area() const { return( size.X()*size.Y() ); }
inline const Coord Centre() const inline const Coord Centre() const
{ {
int mid_x = int(round(lo.X()+(size.X()/2.0))); int mid_x = int(round(lo.X()+(size.X()/2.0)));
int mid_y = int(round(lo.Y()+(size.Y()/2.0))); int mid_y = int(round(lo.Y()+(size.Y()/2.0)));
return( Coord( mid_x, mid_y ) ); return( Coord( mid_x, mid_y ) );
} }
inline bool Inside( const Coord &coord ) const inline bool Inside( const Coord &coord ) const
{ {
return( coord.X() >= lo.X() && coord.X() <= hi.X() && coord.Y() >= lo.Y() && coord.Y() <= hi.Y() ); return( coord.X() >= lo.X() && coord.X() <= hi.X() && coord.Y() >= lo.Y() && coord.Y() <= hi.Y() );
} }
}; };
#endif // ZM_BOX_H #endif // ZM_BOX_H

View File

@ -25,57 +25,57 @@
unsigned int Buffer::assign( const unsigned char *pStorage, unsigned int pSize ) unsigned int Buffer::assign( const unsigned char *pStorage, unsigned int pSize )
{ {
if ( mAllocation < pSize ) if ( mAllocation < pSize )
{ {
delete[] mStorage; delete[] mStorage;
mAllocation = pSize; mAllocation = pSize;
mHead = mStorage = new unsigned char[pSize]; mHead = mStorage = new unsigned char[pSize];
} }
mSize = pSize; mSize = pSize;
memcpy( mStorage, pStorage, mSize ); memcpy( mStorage, pStorage, mSize );
mHead = mStorage; mHead = mStorage;
mTail = mHead + mSize; mTail = mHead + mSize;
return( mSize ); return( mSize );
} }
unsigned int Buffer::expand( unsigned int count ) unsigned int Buffer::expand( unsigned int count )
{ {
int spare = mAllocation - mSize; int spare = mAllocation - mSize;
int headSpace = mHead - mStorage; int headSpace = mHead - mStorage;
int tailSpace = spare - headSpace; int tailSpace = spare - headSpace;
int width = mTail - mHead; int width = mTail - mHead;
if ( spare > (int)count ) if ( spare > (int)count )
{
if ( tailSpace < (int)count )
{ {
if ( tailSpace < (int)count ) memmove( mStorage, mHead, mSize );
{ mHead = mStorage;
memmove( mStorage, mHead, mSize ); mTail = mHead + width;
mHead = mStorage;
mTail = mHead + width;
}
} }
else }
else
{
mAllocation += count;
unsigned char *newStorage = new unsigned char[mAllocation];
if ( mStorage )
{ {
mAllocation += count; memcpy( newStorage, mHead, mSize );
unsigned char *newStorage = new unsigned char[mAllocation]; delete[] mStorage;
if ( mStorage )
{
memcpy( newStorage, mHead, mSize );
delete[] mStorage;
}
mStorage = newStorage;
mHead = mStorage;
mTail = mHead + width;
} }
return( mSize ); mStorage = newStorage;
mHead = mStorage;
mTail = mHead + width;
}
return( mSize );
} }
int Buffer::read_into( int sd, unsigned int bytes ) { int Buffer::read_into( int sd, unsigned int bytes ) {
// Make sure there is enough space // Make sure there is enough space
this->expand(bytes); this->expand(bytes);
int bytes_read = read( sd, mTail, bytes ); int bytes_read = read( sd, mTail, bytes );
if ( bytes_read > 0 ) { if ( bytes_read > 0 ) {
mTail += bytes_read; mTail += bytes_read;
mSize += bytes_read; mSize += bytes_read;
} }
return bytes_read; return bytes_read;
} }

View File

@ -27,183 +27,183 @@
class Buffer class Buffer
{ {
protected: protected:
unsigned char *mStorage; unsigned char *mStorage;
unsigned int mAllocation; unsigned int mAllocation;
unsigned int mSize; unsigned int mSize;
unsigned char *mHead; unsigned char *mHead;
unsigned char *mTail; unsigned char *mTail;
public: public:
Buffer() : mStorage( 0 ), mAllocation( 0 ), mSize( 0 ), mHead( 0 ), mTail( 0 ) Buffer() : mStorage( 0 ), mAllocation( 0 ), mSize( 0 ), mHead( 0 ), mTail( 0 )
{
}
Buffer( unsigned int pSize ) : mAllocation( pSize ), mSize( 0 )
{
mHead = mStorage = new unsigned char[mAllocation];
mTail = mHead;
}
Buffer( const unsigned char *pStorage, unsigned int pSize ) : mAllocation( pSize ), mSize( pSize )
{
mHead = mStorage = new unsigned char[mSize];
memcpy( mStorage, pStorage, mSize );
mTail = mHead + mSize;
}
Buffer( const Buffer &buffer ) : mAllocation( buffer.mSize ), mSize( buffer.mSize )
{
mHead = mStorage = new unsigned char[mSize];
memcpy( mStorage, buffer.mHead, mSize );
mTail = mHead + mSize;
}
~Buffer()
{
delete[] mStorage;
}
unsigned char *head() const { return( mHead ); }
unsigned char *tail() const { return( mTail ); }
unsigned int size() const { return( mSize ); }
bool empty() const { return( mSize == 0 ); }
unsigned int size( unsigned int pSize )
{
if ( mSize < pSize )
{ {
expand( pSize-mSize );
} }
Buffer( unsigned int pSize ) : mAllocation( pSize ), mSize( 0 ) return( mSize );
{ }
mHead = mStorage = new unsigned char[mAllocation]; //unsigned int Allocation() const { return( mAllocation ); }
mTail = mHead;
}
Buffer( const unsigned char *pStorage, unsigned int pSize ) : mAllocation( pSize ), mSize( pSize )
{
mHead = mStorage = new unsigned char[mSize];
memcpy( mStorage, pStorage, mSize );
mTail = mHead + mSize;
}
Buffer( const Buffer &buffer ) : mAllocation( buffer.mSize ), mSize( buffer.mSize )
{
mHead = mStorage = new unsigned char[mSize];
memcpy( mStorage, buffer.mHead, mSize );
mTail = mHead + mSize;
}
~Buffer()
{
delete[] mStorage;
}
unsigned char *head() const { return( mHead ); }
unsigned char *tail() const { return( mTail ); }
unsigned int size() const { return( mSize ); }
bool empty() const { return( mSize == 0 ); }
unsigned int size( unsigned int pSize )
{
if ( mSize < pSize )
{
expand( pSize-mSize );
}
return( mSize );
}
//unsigned int Allocation() const { return( mAllocation ); }
void clear() void clear()
{
mSize = 0;
mHead = mTail = mStorage;
}
unsigned int assign( const unsigned char *pStorage, unsigned int pSize );
unsigned int assign( const Buffer &buffer )
{
return( assign( buffer.mHead, buffer.mSize ) );
}
// Trim from the front of the buffer
unsigned int consume( unsigned int count )
{
if ( count > mSize )
{ {
mSize = 0; Warning( "Attempt to consume %d bytes of buffer, size is only %d bytes", count, mSize );
count = mSize;
}
mHead += count;
mSize -= count;
tidy( 0 );
return( count );
}
// Trim from the end of the buffer
unsigned int shrink( unsigned int count )
{
if ( count > mSize )
{
Warning( "Attempt to shrink buffer by %d bytes, size is only %d bytes", count, mSize );
count = mSize;
}
mSize -= count;
if ( mTail > (mHead + mSize) )
mTail = mHead + mSize;
tidy( 0 );
return( count );
}
// Add to the end of the buffer
unsigned int expand( unsigned int count );
// Return pointer to the first pSize bytes and advance the head
unsigned char *extract( unsigned int pSize )
{
if ( pSize > mSize )
{
Warning( "Attempt to extract %d bytes of buffer, size is only %d bytes", pSize, mSize );
pSize = mSize;
}
unsigned char *oldHead = mHead;
mHead += pSize;
mSize -= pSize;
tidy( 0 );
return( oldHead );
}
// Add bytes to the end of the buffer
unsigned int append( const unsigned char *pStorage, unsigned int pSize )
{
expand( pSize );
memcpy( mTail, pStorage, pSize );
mTail += pSize;
mSize += pSize;
return( mSize );
}
unsigned int append( const char *pStorage, unsigned int pSize )
{
return( append( (const unsigned char *)pStorage, pSize ) );
}
unsigned int append( const Buffer &buffer )
{
return( append( buffer.mHead, buffer.mSize ) );
}
void tidy( bool level=0 )
{
if ( mHead != mStorage )
{
if ( mSize == 0 )
mHead = mTail = mStorage; mHead = mTail = mStorage;
} else if ( level )
{
unsigned int assign( const unsigned char *pStorage, unsigned int pSize ); if ( (mHead-mStorage) > mSize )
unsigned int assign( const Buffer &buffer )
{
return( assign( buffer.mHead, buffer.mSize ) );
}
// Trim from the front of the buffer
unsigned int consume( unsigned int count )
{
if ( count > mSize )
{ {
Warning( "Attempt to consume %d bytes of buffer, size is only %d bytes", count, mSize ); memcpy( mStorage, mHead, mSize );
count = mSize; mHead = mStorage;
mTail = mHead + mSize;
} }
mHead += count; }
mSize -= count;
tidy( 0 );
return( count );
} }
// Trim from the end of the buffer }
unsigned int shrink( unsigned int count )
{
if ( count > mSize )
{
Warning( "Attempt to shrink buffer by %d bytes, size is only %d bytes", count, mSize );
count = mSize;
}
mSize -= count;
if ( mTail > (mHead + mSize) )
mTail = mHead + mSize;
tidy( 0 );
return( count );
}
// Add to the end of the buffer
unsigned int expand( unsigned int count );
// Return pointer to the first pSize bytes and advance the head Buffer &operator=( const Buffer &buffer )
unsigned char *extract( unsigned int pSize ) {
{ assign( buffer );
if ( pSize > mSize ) return( *this );
{ }
Warning( "Attempt to extract %d bytes of buffer, size is only %d bytes", pSize, mSize ); Buffer &operator+=( const Buffer &buffer )
pSize = mSize; {
} append( buffer );
unsigned char *oldHead = mHead; return( *this );
mHead += pSize; }
mSize -= pSize; Buffer &operator+=( unsigned int count )
tidy( 0 ); {
return( oldHead ); expand( count );
} return( *this );
// Add bytes to the end of the buffer }
unsigned int append( const unsigned char *pStorage, unsigned int pSize ) Buffer &operator-=( unsigned int count )
{ {
expand( pSize ); consume( count );
memcpy( mTail, pStorage, pSize ); return( *this );
mTail += pSize; }
mSize += pSize; operator unsigned char *() const
return( mSize ); {
} return( mHead );
unsigned int append( const char *pStorage, unsigned int pSize ) }
{ operator char *() const
return( append( (const unsigned char *)pStorage, pSize ) ); {
} return( (char *)mHead );
unsigned int append( const Buffer &buffer ) }
{ unsigned char *operator+(int offset) const
return( append( buffer.mHead, buffer.mSize ) ); {
} return( (unsigned char *)(mHead+offset) );
void tidy( bool level=0 ) }
{ unsigned char operator[](int index) const
if ( mHead != mStorage ) {
{ return( *(mHead+index) );
if ( mSize == 0 ) }
mHead = mTail = mStorage; operator int () const
else if ( level ) {
{ return( (int)mSize );
if ( (mHead-mStorage) > mSize ) }
{ int read_into( int sd, unsigned int bytes );
memcpy( mStorage, mHead, mSize );
mHead = mStorage;
mTail = mHead + mSize;
}
}
}
}
Buffer &operator=( const Buffer &buffer )
{
assign( buffer );
return( *this );
}
Buffer &operator+=( const Buffer &buffer )
{
append( buffer );
return( *this );
}
Buffer &operator+=( unsigned int count )
{
expand( count );
return( *this );
}
Buffer &operator-=( unsigned int count )
{
consume( count );
return( *this );
}
operator unsigned char *() const
{
return( mHead );
}
operator char *() const
{
return( (char *)mHead );
}
unsigned char *operator+(int offset) const
{
return( (unsigned char *)(mHead+offset) );
}
unsigned char operator[](int index) const
{
return( *(mHead+index) );
}
operator int () const
{
return( (int)mSize );
}
int read_into( int sd, unsigned int bytes );
}; };
#endif // ZM_BUFFER_H #endif // ZM_BUFFER_H

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File diff suppressed because it is too large Load Diff

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@ -117,7 +117,8 @@ void zmLoadConfig()
Debug( 1, "Fetching ZM_SERVER_ID For Name = %s", staticConfig.SERVER_NAME.c_str() ); Debug( 1, "Fetching ZM_SERVER_ID For Name = %s", staticConfig.SERVER_NAME.c_str() );
std::string sql = stringtf("SELECT Id FROM Servers WHERE Name='%s'", staticConfig.SERVER_NAME.c_str() ); std::string sql = stringtf("SELECT Id FROM Servers WHERE Name='%s'", staticConfig.SERVER_NAME.c_str() );
if ( MYSQL_ROW dbrow = zmDbFetchOne( sql.c_str() ) ) { zmDbRow dbrow;
if ( dbrow.fetch( sql.c_str() ) ) {
staticConfig.SERVER_ID = atoi(dbrow[0]); staticConfig.SERVER_ID = atoi(dbrow[0]);
} else { } else {
Fatal("Can't get ServerId for Server %s", staticConfig.SERVER_NAME.c_str() ); Fatal("Can't get ServerId for Server %s", staticConfig.SERVER_NAME.c_str() );
@ -128,7 +129,8 @@ void zmLoadConfig()
Debug( 1, "Fetching ZM_SERVER_NAME For Id = %d", staticConfig.SERVER_ID ); Debug( 1, "Fetching ZM_SERVER_NAME For Id = %d", staticConfig.SERVER_ID );
std::string sql = stringtf("SELECT Name FROM Servers WHERE Id='%d'", staticConfig.SERVER_ID ); std::string sql = stringtf("SELECT Name FROM Servers WHERE Id='%d'", staticConfig.SERVER_ID );
if ( MYSQL_ROW dbrow = zmDbFetchOne( sql.c_str() ) ) { zmDbRow dbrow;
if ( dbrow.fetch( sql.c_str() ) ) {
staticConfig.SERVER_NAME = std::string(dbrow[0]); staticConfig.SERVER_NAME = std::string(dbrow[0]);
} else { } else {
Fatal("Can't get ServerName for Server ID %d", staticConfig.SERVER_ID ); Fatal("Can't get ServerName for Server ID %d", staticConfig.SERVER_ID );

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@ -25,48 +25,48 @@
#include <string> #include <string>
#define ZM_CONFIG "@ZM_CONFIG@" // Path to config file #define ZM_CONFIG "@ZM_CONFIG@" // Path to config file
#define ZM_VERSION "@VERSION@" // ZoneMinder Version #define ZM_VERSION "@VERSION@" // ZoneMinder Version
#define ZM_HAS_V4L1 @ZM_HAS_V4L1@ #define ZM_HAS_V4L1 @ZM_HAS_V4L1@
#define ZM_HAS_V4L2 @ZM_HAS_V4L2@ #define ZM_HAS_V4L2 @ZM_HAS_V4L2@
#define ZM_HAS_V4L @ZM_HAS_V4L@ #define ZM_HAS_V4L @ZM_HAS_V4L@
#ifdef HAVE_LIBAVFORMAT #ifdef HAVE_LIBAVFORMAT
#define ZM_HAS_FFMPEG 1 #define ZM_HAS_FFMPEG 1
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT
#define ZM_MAX_IMAGE_WIDTH 2048 // The largest image we imagine ever handling #define ZM_MAX_IMAGE_WIDTH 2048 // The largest image we imagine ever handling
#define ZM_MAX_IMAGE_HEIGHT 1536 // The largest image we imagine ever handling #define ZM_MAX_IMAGE_HEIGHT 1536 // The largest image we imagine ever handling
#define ZM_MAX_IMAGE_COLOURS 4 // The largest image we imagine ever handling #define ZM_MAX_IMAGE_COLOURS 4 // The largest image we imagine ever handling
#define ZM_MAX_IMAGE_DIM (ZM_MAX_IMAGE_WIDTH*ZM_MAX_IMAGE_HEIGHT) #define ZM_MAX_IMAGE_DIM (ZM_MAX_IMAGE_WIDTH*ZM_MAX_IMAGE_HEIGHT)
#define ZM_MAX_IMAGE_SIZE (ZM_MAX_IMAGE_DIM*ZM_MAX_IMAGE_COLOURS) #define ZM_MAX_IMAGE_SIZE (ZM_MAX_IMAGE_DIM*ZM_MAX_IMAGE_COLOURS)
#define ZM_SCALE_BASE 100 // The factor by which we bump up 'scale' to simulate FP #define ZM_SCALE_BASE 100 // The factor by which we bump up 'scale' to simulate FP
#define ZM_RATE_BASE 100 // The factor by which we bump up 'rate' to simulate FP #define ZM_RATE_BASE 100 // The factor by which we bump up 'rate' to simulate FP
#define ZM_SQL_BATCH_SIZE 50 // Limit the size of multi-row SQL statements #define ZM_SQL_BATCH_SIZE 50 // Limit the size of multi-row SQL statements
#define ZM_SQL_SML_BUFSIZ 256 // Size of SQL buffer #define ZM_SQL_SML_BUFSIZ 256 // Size of SQL buffer
#define ZM_SQL_MED_BUFSIZ 1024 // Size of SQL buffer #define ZM_SQL_MED_BUFSIZ 1024 // Size of SQL buffer
#define ZM_SQL_LGE_BUFSIZ 8192 // Size of SQL buffer #define ZM_SQL_LGE_BUFSIZ 8192 // Size of SQL buffer
#define ZM_NETWORK_BUFSIZ 32768 // Size of network buffer #define ZM_NETWORK_BUFSIZ 32768 // Size of network buffer
#define ZM_MAX_FPS 30 // The maximum frame rate we expect to handle #define ZM_MAX_FPS 30 // The maximum frame rate we expect to handle
#define ZM_SAMPLE_RATE int(1000000/ZM_MAX_FPS) // A general nyquist sample frequency for delays etc #define ZM_SAMPLE_RATE int(1000000/ZM_MAX_FPS) // A general nyquist sample frequency for delays etc
#define ZM_SUSPENDED_RATE int(1000000/4) // A slower rate for when disabled etc #define ZM_SUSPENDED_RATE int(1000000/4) // A slower rate for when disabled etc
extern void zmLoadConfig(); extern void zmLoadConfig();
struct StaticConfig struct StaticConfig
{ {
std::string DB_HOST; std::string DB_HOST;
std::string DB_NAME; std::string DB_NAME;
std::string DB_USER; std::string DB_USER;
std::string DB_PASS; std::string DB_PASS;
std::string PATH_WEB; std::string PATH_WEB;
std::string SERVER_NAME; std::string SERVER_NAME;
unsigned int SERVER_ID; unsigned int SERVER_ID;
}; };
extern StaticConfig staticConfig; extern StaticConfig staticConfig;
@ -74,63 +74,63 @@ extern StaticConfig staticConfig;
class ConfigItem class ConfigItem
{ {
private: private:
char *name; char *name;
char *value; char *value;
char *type; char *type;
mutable enum { CFG_BOOLEAN, CFG_INTEGER, CFG_DECIMAL, CFG_STRING } cfg_type; mutable enum { CFG_BOOLEAN, CFG_INTEGER, CFG_DECIMAL, CFG_STRING } cfg_type;
mutable union mutable union
{ {
bool boolean_value; bool boolean_value;
int integer_value; int integer_value;
double decimal_value; double decimal_value;
char *string_value; char *string_value;
} cfg_value; } cfg_value;
mutable bool accessed; mutable bool accessed;
public: public:
ConfigItem( const char *p_name, const char *p_value, const char *const p_type ); ConfigItem( const char *p_name, const char *p_value, const char *const p_type );
~ConfigItem(); ~ConfigItem();
void ConvertValue() const; void ConvertValue() const;
bool BooleanValue() const; bool BooleanValue() const;
int IntegerValue() const; int IntegerValue() const;
double DecimalValue() const; double DecimalValue() const;
const char *StringValue() const; const char *StringValue() const;
inline operator bool() const inline operator bool() const
{ {
return( BooleanValue() ); return( BooleanValue() );
} }
inline operator int() const inline operator int() const
{ {
return( IntegerValue() ); return( IntegerValue() );
} }
inline operator double() const inline operator double() const
{ {
return( DecimalValue() ); return( DecimalValue() );
} }
inline operator const char *() const inline operator const char *() const
{ {
return( StringValue() ); return( StringValue() );
} }
}; };
class Config class Config
{ {
public: public:
ZM_CFG_DECLARE_LIST ZM_CFG_DECLARE_LIST
private: private:
int n_items; int n_items;
ConfigItem **items; ConfigItem **items;
public: public:
Config(); Config();
~Config(); ~Config();
void Load(); void Load();
void Assign(); void Assign();
const ConfigItem &Item( int id ); const ConfigItem &Item( int id );
}; };
extern Config config; extern Config config;

View File

@ -28,40 +28,40 @@
class Coord class Coord
{ {
private: private:
int x, y; int x, y;
public: public:
inline Coord() : x(0), y(0) inline Coord() : x(0), y(0)
{ {
} }
inline Coord( int p_x, int p_y ) : x(p_x), y(p_y) inline Coord( int p_x, int p_y ) : x(p_x), y(p_y)
{ {
} }
inline Coord( const Coord &p_coord ) : x(p_coord.x), y(p_coord.y) inline Coord( const Coord &p_coord ) : x(p_coord.x), y(p_coord.y)
{ {
} }
inline int &X() { return( x ); } inline int &X() { return( x ); }
inline const int &X() const { return( x ); } inline const int &X() const { return( x ); }
inline int &Y() { return( y ); } inline int &Y() { return( y ); }
inline const int &Y() const { return( y ); } inline const int &Y() const { return( y ); }
inline static Coord Range( const Coord &coord1, const Coord &coord2 ) inline static Coord Range( const Coord &coord1, const Coord &coord2 )
{ {
Coord result( (coord1.x-coord2.x)+1, (coord1.y-coord2.y)+1 ); Coord result( (coord1.x-coord2.x)+1, (coord1.y-coord2.y)+1 );
return( result ); return( result );
} }
inline bool operator==( const Coord &coord ) { return( x == coord.x && y == coord.y ); } inline bool operator==( const Coord &coord ) { return( x == coord.x && y == coord.y ); }
inline bool operator!=( const Coord &coord ) { return( x != coord.x || y != coord.y ); } inline bool operator!=( const Coord &coord ) { return( x != coord.x || y != coord.y ); }
inline bool operator>( const Coord &coord ) { return( x > coord.x && y > coord.y ); } inline bool operator>( const Coord &coord ) { return( x > coord.x && y > coord.y ); }
inline bool operator>=( const Coord &coord ) { return( !(operator<(coord)) ); } inline bool operator>=( const Coord &coord ) { return( !(operator<(coord)) ); }
inline bool operator<( const Coord &coord ) { return( x < coord.x && y < coord.y ); } inline bool operator<( const Coord &coord ) { return( x < coord.x && y < coord.y ); }
inline bool operator<=( const Coord &coord ) { return( !(operator>(coord)) ); } inline bool operator<=( const Coord &coord ) { return( !(operator>(coord)) ); }
inline Coord &operator+=( const Coord &coord ) { x += coord.x; y += coord.y; return( *this ); } inline Coord &operator+=( const Coord &coord ) { x += coord.x; y += coord.y; return( *this ); }
inline Coord &operator-=( const Coord &coord ) { x -= coord.x; y -= coord.y; return( *this ); } inline Coord &operator-=( const Coord &coord ) { x -= coord.x; y -= coord.y; return( *this ); }
inline friend Coord operator+( const Coord &coord1, const Coord &coord2 ) { Coord result( coord1 ); result += coord2; return( result ); } inline friend Coord operator+( const Coord &coord1, const Coord &coord2 ) { Coord result( coord1 ); result += coord2; return( result ); }
inline friend Coord operator-( const Coord &coord1, const Coord &coord2 ) { Coord result( coord1 ); result -= coord2; return( result ); } inline friend Coord operator-( const Coord &coord1, const Coord &coord2 ) { Coord result( coord1 ); result -= coord2; return( result ); }
}; };
#endif // ZM_COORD_H #endif // ZM_COORD_H

View File

@ -29,85 +29,104 @@ int zmDbConnected = false;
void zmDbConnect() void zmDbConnect()
{ {
if ( !mysql_init( &dbconn ) ) if ( !mysql_init( &dbconn ) )
{ {
Error( "Can't initialise database connection: %s", mysql_error( &dbconn ) ); Error( "Can't initialise database connection: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );
} }
my_bool reconnect = 1; my_bool reconnect = 1;
if ( mysql_options( &dbconn, MYSQL_OPT_RECONNECT, &reconnect ) ) if ( mysql_options( &dbconn, MYSQL_OPT_RECONNECT, &reconnect ) )
Fatal( "Can't set database auto reconnect option: %s", mysql_error( &dbconn ) ); Fatal( "Can't set database auto reconnect option: %s", mysql_error( &dbconn ) );
std::string::size_type colonIndex = staticConfig.DB_HOST.find( ":/" ); std::string::size_type colonIndex = staticConfig.DB_HOST.find( ":/" );
if ( colonIndex != std::string::npos ) if ( colonIndex != std::string::npos )
{
std::string dbHost = staticConfig.DB_HOST.substr( 0, colonIndex );
std::string dbPort = staticConfig.DB_HOST.substr( colonIndex+1 );
if ( !mysql_real_connect( &dbconn, dbHost.c_str(), staticConfig.DB_USER.c_str(), staticConfig.DB_PASS.c_str(), 0, atoi(dbPort.c_str()), 0, 0 ) )
{ {
std::string dbHost = staticConfig.DB_HOST.substr( 0, colonIndex ); Error( "Can't connect to server: %s", mysql_error( &dbconn ) );
std::string dbPort = staticConfig.DB_HOST.substr( colonIndex+1 ); exit( mysql_errno( &dbconn ) );
if ( !mysql_real_connect( &dbconn, dbHost.c_str(), staticConfig.DB_USER.c_str(), staticConfig.DB_PASS.c_str(), 0, atoi(dbPort.c_str()), 0, 0 ) )
{
Error( "Can't connect to server: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) );
}
} }
else }
else
{
if ( !mysql_real_connect( &dbconn, staticConfig.DB_HOST.c_str(), staticConfig.DB_USER.c_str(), staticConfig.DB_PASS.c_str(), 0, 0, 0, 0 ) )
{ {
if ( !mysql_real_connect( &dbconn, staticConfig.DB_HOST.c_str(), staticConfig.DB_USER.c_str(), staticConfig.DB_PASS.c_str(), 0, 0, 0, 0 ) ) Error( "Can't connect to server: %s", mysql_error( &dbconn ) );
{ exit( mysql_errno( &dbconn ) );
Error( "Can't connect to server: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) );
}
} }
if ( mysql_select_db( &dbconn, staticConfig.DB_NAME.c_str() ) ) }
{ if ( mysql_select_db( &dbconn, staticConfig.DB_NAME.c_str() ) )
Error( "Can't select database: %s", mysql_error( &dbconn ) ); {
exit( mysql_errno( &dbconn ) ); Error( "Can't select database: %s", mysql_error( &dbconn ) );
} exit( mysql_errno( &dbconn ) );
zmDbConnected = true; }
zmDbConnected = true;
} }
void zmDbClose() void zmDbClose()
{ {
if ( zmDbConnected ) if ( zmDbConnected )
{ {
mysql_close( &dbconn ); mysql_close( &dbconn );
// mysql_init() call implicitly mysql_library_init() but // mysql_init() call implicitly mysql_library_init() but
// mysql_close() does not call mysql_library_end() // mysql_close() does not call mysql_library_end()
mysql_library_end(); mysql_library_end();
zmDbConnected = false; zmDbConnected = false;
} }
} }
MYSQL_RES * zmDbFetch( const char * query ) { MYSQL_RES * zmDbFetch( const char * query ) {
if ( ! zmDbConnected ) { if ( ! zmDbConnected ) {
Error( "Not connected." ); Error( "Not connected." );
return NULL; return NULL;
} }
if ( mysql_query( &dbconn, query ) ) { if ( mysql_query( &dbconn, query ) ) {
Error( "Can't run query: %s", mysql_error( &dbconn ) ); Error( "Can't run query: %s", mysql_error( &dbconn ) );
return NULL; return NULL;
} }
Debug( 4, "Success running query: %s", query ); Debug( 4, "Success running query: %s", query );
MYSQL_RES *result = mysql_store_result( &dbconn ); MYSQL_RES *result = mysql_store_result( &dbconn );
if ( !result ) { if ( !result ) {
Error( "Can't use query result: %s for query %s", mysql_error( &dbconn ), query ); Error( "Can't use query result: %s for query %s", mysql_error( &dbconn ), query );
return NULL; return NULL;
} }
return result; return result;
} // end MYSQL_RES * zmDbFetch( const char * query ); } // end MYSQL_RES * zmDbFetch( const char * query );
MYSQL_ROW zmDbFetchOne( const char *query ) { zmDbRow *zmDbFetchOne( const char *query ) {
MYSQL_RES *result = zmDbFetch( query ); zmDbRow *row = new zmDbRow();
int n_rows = mysql_num_rows( result ); if ( row->fetch( query ) ) {
if ( n_rows != 1 ) { return row;
Error( "Bogus number of lines return from query, %d returned for query %s.", n_rows, query ); }
return NULL; delete row;
} return NULL;
}
MYSQL_ROW dbrow = mysql_fetch_row( result );
mysql_free_result( result ); MYSQL_RES *zmDbRow::fetch( const char *query ) {
if ( ! dbrow ) { result_set = zmDbFetch( query );
Error("Error getting row from query %s. Error is %s", query, mysql_error( &dbconn ) ); if ( ! result_set ) return result_set;
return NULL;
} int n_rows = mysql_num_rows( result_set );
return dbrow; if ( n_rows != 1 ) {
Error( "Bogus number of lines return from query, %d returned for query %s.", n_rows, query );
mysql_free_result( result_set );
result_set = NULL;
return result_set;
}
row = mysql_fetch_row( result_set );
if ( ! row ) {
mysql_free_result( result_set );
result_set = NULL;
Error("Error getting row from query %s. Error is %s", query, mysql_error( &dbconn ) );
} else {
Debug(3, "Succes");
}
return result_set;
}
zmDbRow::~zmDbRow() {
if ( result_set )
mysql_free_result( result_set );
} }

View File

@ -22,6 +22,21 @@
#include <mysql/mysql.h> #include <mysql/mysql.h>
class zmDbRow {
private:
MYSQL_RES *result_set;
MYSQL_ROW row;
public:
zmDbRow() { result_set = NULL; row = NULL; };
MYSQL_RES *fetch( const char *query );
zmDbRow( MYSQL_RES *, MYSQL_ROW *row );
~zmDbRow();
char *operator[](unsigned int index) const {
return row[index];
}
};
#ifdef __cplusplus #ifdef __cplusplus
extern "C" { extern "C" {
#endif #endif
@ -33,7 +48,7 @@ void zmDbConnect();
void zmDbClose(); void zmDbClose();
MYSQL_RES * zmDbFetch( const char *query ); MYSQL_RES * zmDbFetch( const char *query );
MYSQL_ROW zmDbFetchOne( const char *query ); zmDbRow *zmDbFetchOne( const char *query );
#ifdef __cplusplus #ifdef __cplusplus
} /* extern "C" */ } /* extern "C" */

File diff suppressed because it is too large Load Diff

View File

@ -42,246 +42,246 @@
class Zone; class Zone;
class Monitor; class Monitor;
#define MAX_PRE_ALARM_FRAMES 16 // Maximum number of prealarm frames that can be stored #define MAX_PRE_ALARM_FRAMES 16 // Maximum number of prealarm frames that can be stored
// //
// Class describing events, i.e. captured periods of activity. // Class describing events, i.e. captured periods of activity.
// //
class Event class Event
{ {
friend class EventStream; friend class EventStream;
protected: protected:
static bool initialised; static bool initialised;
static char capture_file_format[PATH_MAX]; static char capture_file_format[PATH_MAX];
static char analyse_file_format[PATH_MAX]; static char analyse_file_format[PATH_MAX];
static char general_file_format[PATH_MAX]; static char general_file_format[PATH_MAX];
static char video_file_format[PATH_MAX]; static char video_file_format[PATH_MAX];
protected: protected:
static int sd; static int sd;
public: public:
typedef std::set<std::string> StringSet; typedef std::set<std::string> StringSet;
typedef std::map<std::string,StringSet> StringSetMap; typedef std::map<std::string,StringSet> StringSetMap;
protected: protected:
typedef enum { NORMAL, BULK, ALARM } FrameType; typedef enum { NORMAL, BULK, ALARM } FrameType;
struct PreAlarmData struct PreAlarmData
{ {
Image *image; Image *image;
struct timeval timestamp; struct timeval timestamp;
unsigned int score; unsigned int score;
Image *alarm_frame; Image *alarm_frame;
}; };
static int pre_alarm_count; static int pre_alarm_count;
static PreAlarmData pre_alarm_data[MAX_PRE_ALARM_FRAMES]; static PreAlarmData pre_alarm_data[MAX_PRE_ALARM_FRAMES];
protected: protected:
unsigned int id; unsigned int id;
Monitor *monitor; Monitor *monitor;
struct timeval start_time; struct timeval start_time;
struct timeval end_time; struct timeval end_time;
std::string cause; std::string cause;
StringSetMap noteSetMap; StringSetMap noteSetMap;
bool videoEvent; bool videoEvent;
int frames; int frames;
int alarm_frames; int alarm_frames;
unsigned int tot_score; unsigned int tot_score;
unsigned int max_score; unsigned int max_score;
char path[PATH_MAX]; char path[PATH_MAX];
VideoWriter* videowriter; VideoWriter* videowriter;
FILE* timecodes_fd; FILE* timecodes_fd;
char video_name[PATH_MAX]; char video_name[PATH_MAX];
char video_file[PATH_MAX]; char video_file[PATH_MAX];
char timecodes_name[PATH_MAX]; char timecodes_name[PATH_MAX];
char timecodes_file[PATH_MAX]; char timecodes_file[PATH_MAX];
protected: protected:
int last_db_frame; int last_db_frame;
protected: protected:
static void Initialise() static void Initialise()
{ {
if ( initialised ) if ( initialised )
return; return;
snprintf( capture_file_format, sizeof(capture_file_format), "%%s/%%0%dd-capture.jpg", config.event_image_digits ); snprintf( capture_file_format, sizeof(capture_file_format), "%%s/%%0%dd-capture.jpg", config.event_image_digits );
snprintf( analyse_file_format, sizeof(analyse_file_format), "%%s/%%0%dd-analyse.jpg", config.event_image_digits ); snprintf( analyse_file_format, sizeof(analyse_file_format), "%%s/%%0%dd-analyse.jpg", config.event_image_digits );
snprintf( general_file_format, sizeof(general_file_format), "%%s/%%0%dd-%%s", config.event_image_digits ); snprintf( general_file_format, sizeof(general_file_format), "%%s/%%0%dd-%%s", config.event_image_digits );
snprintf( video_file_format, sizeof(video_file_format), "%%s/%%s"); snprintf( video_file_format, sizeof(video_file_format), "%%s/%%s");
initialised = true; initialised = true;
} }
void createNotes( std::string &notes ); void createNotes( std::string &notes );
public: public:
static bool OpenFrameSocket( int ); static bool OpenFrameSocket( int );
static bool ValidateFrameSocket( int ); static bool ValidateFrameSocket( int );
public: public:
Event( Monitor *p_monitor, struct timeval p_start_time, const std::string &p_cause, const StringSetMap &p_noteSetMap, bool p_videoEvent=false ); Event( Monitor *p_monitor, struct timeval p_start_time, const std::string &p_cause, const StringSetMap &p_noteSetMap, bool p_videoEvent=false );
~Event(); ~Event();
int Id() const { return( id ); } int Id() const { return( id ); }
const std::string &Cause() { return( cause ); } const std::string &Cause() { return( cause ); }
int Frames() const { return( frames ); } int Frames() const { return( frames ); }
int AlarmFrames() const { return( alarm_frames ); } int AlarmFrames() const { return( alarm_frames ); }
const struct timeval &StartTime() const { return( start_time ); } const struct timeval &StartTime() const { return( start_time ); }
const struct timeval &EndTime() const { return( end_time ); } const struct timeval &EndTime() const { return( end_time ); }
struct timeval &EndTime() { return( end_time ); } struct timeval &EndTime() { return( end_time ); }
bool SendFrameImage( const Image *image, bool alarm_frame=false ); bool SendFrameImage( const Image *image, bool alarm_frame=false );
bool WriteFrameImage( Image *image, struct timeval timestamp, const char *event_file, bool alarm_frame=false ); bool WriteFrameImage( Image *image, struct timeval timestamp, const char *event_file, bool alarm_frame=false );
bool WriteFrameVideo( const Image *image, const struct timeval timestamp, VideoWriter* videow ); bool WriteFrameVideo( const Image *image, const struct timeval timestamp, VideoWriter* videow );
void updateNotes( const StringSetMap &stringSetMap ); void updateNotes( const StringSetMap &stringSetMap );
void AddFrames( int n_frames, Image **images, struct timeval **timestamps ); void AddFrames( int n_frames, Image **images, struct timeval **timestamps );
void AddFrame( Image *image, struct timeval timestamp, int score=0, Image *alarm_frame=NULL ); void AddFrame( Image *image, struct timeval timestamp, int score=0, Image *alarm_frame=NULL );
private: private:
void AddFramesInternal( int n_frames, int start_frame, Image **images, struct timeval **timestamps ); void AddFramesInternal( int n_frames, int start_frame, Image **images, struct timeval **timestamps );
public: public:
static const char *getSubPath( struct tm *time ) static const char *getSubPath( struct tm *time )
{
static char subpath[PATH_MAX] = "";
snprintf( subpath, sizeof(subpath), "%02d/%02d/%02d/%02d/%02d/%02d", time->tm_year-100, time->tm_mon+1, time->tm_mday, time->tm_hour, time->tm_min, time->tm_sec );
return( subpath );
}
static const char *getSubPath( time_t *time )
{
return( Event::getSubPath( localtime( time ) ) );
}
char* getEventFile(void){
return video_file;
}
public:
static int PreAlarmCount()
{
return( pre_alarm_count );
}
static void EmptyPreAlarmFrames()
{
if ( pre_alarm_count > 0 )
{ {
static char subpath[PATH_MAX] = ""; for ( int i = 0; i < MAX_PRE_ALARM_FRAMES; i++ )
snprintf( subpath, sizeof(subpath), "%02d/%02d/%02d/%02d/%02d/%02d", time->tm_year-100, time->tm_mon+1, time->tm_mday, time->tm_hour, time->tm_min, time->tm_sec ); {
return( subpath ); delete pre_alarm_data[i].image;
delete pre_alarm_data[i].alarm_frame;
}
memset( pre_alarm_data, 0, sizeof(pre_alarm_data) );
} }
static const char *getSubPath( time_t *time ) pre_alarm_count = 0;
}
static void AddPreAlarmFrame( Image *image, struct timeval timestamp, int score=0, Image *alarm_frame=NULL )
{
pre_alarm_data[pre_alarm_count].image = new Image( *image );
pre_alarm_data[pre_alarm_count].timestamp = timestamp;
pre_alarm_data[pre_alarm_count].score = score;
if ( alarm_frame )
{ {
return( Event::getSubPath( localtime( time ) ) ); pre_alarm_data[pre_alarm_count].alarm_frame = new Image( *alarm_frame );
} }
pre_alarm_count++;
char* getEventFile(void){ }
return video_file; void SavePreAlarmFrames()
{
for ( int i = 0; i < pre_alarm_count; i++ )
{
AddFrame( pre_alarm_data[i].image, pre_alarm_data[i].timestamp, pre_alarm_data[i].score, pre_alarm_data[i].alarm_frame );
} }
EmptyPreAlarmFrames();
public: }
static int PreAlarmCount()
{
return( pre_alarm_count );
}
static void EmptyPreAlarmFrames()
{
if ( pre_alarm_count > 0 )
{
for ( int i = 0; i < MAX_PRE_ALARM_FRAMES; i++ )
{
delete pre_alarm_data[i].image;
delete pre_alarm_data[i].alarm_frame;
}
memset( pre_alarm_data, 0, sizeof(pre_alarm_data) );
}
pre_alarm_count = 0;
}
static void AddPreAlarmFrame( Image *image, struct timeval timestamp, int score=0, Image *alarm_frame=NULL )
{
pre_alarm_data[pre_alarm_count].image = new Image( *image );
pre_alarm_data[pre_alarm_count].timestamp = timestamp;
pre_alarm_data[pre_alarm_count].score = score;
if ( alarm_frame )
{
pre_alarm_data[pre_alarm_count].alarm_frame = new Image( *alarm_frame );
}
pre_alarm_count++;
}
void SavePreAlarmFrames()
{
for ( int i = 0; i < pre_alarm_count; i++ )
{
AddFrame( pre_alarm_data[i].image, pre_alarm_data[i].timestamp, pre_alarm_data[i].score, pre_alarm_data[i].alarm_frame );
}
EmptyPreAlarmFrames();
}
}; };
class EventStream : public StreamBase class EventStream : public StreamBase
{ {
public: public:
typedef enum { MODE_SINGLE, MODE_ALL, MODE_ALL_GAPLESS } StreamMode; typedef enum { MODE_SINGLE, MODE_ALL, MODE_ALL_GAPLESS } StreamMode;
protected: protected:
struct FrameData { struct FrameData {
//unsigned long id; //unsigned long id;
time_t timestamp; time_t timestamp;
time_t offset; time_t offset;
double delta; double delta;
bool in_db; bool in_db;
}; };
struct EventData struct EventData
{ {
unsigned long event_id; unsigned long event_id;
unsigned long monitor_id; unsigned long monitor_id;
unsigned long storage_id; unsigned long storage_id;
unsigned long frame_count; unsigned long frame_count;
time_t start_time; time_t start_time;
double duration; double duration;
char path[PATH_MAX]; char path[PATH_MAX];
int n_frames; int n_frames;
FrameData *frames; FrameData *frames;
char video_file[PATH_MAX]; char video_file[PATH_MAX];
}; };
protected: protected:
static const int STREAM_PAUSE_WAIT = 250000; // Microseconds static const int STREAM_PAUSE_WAIT = 250000; // Microseconds
static const StreamMode DEFAULT_MODE = MODE_SINGLE; static const StreamMode DEFAULT_MODE = MODE_SINGLE;
protected: protected:
StreamMode mode; StreamMode mode;
bool forceEventChange; bool forceEventChange;
protected: protected:
int curr_frame_id; int curr_frame_id;
double curr_stream_time; double curr_stream_time;
EventData *event_data; EventData *event_data;
protected: protected:
bool loadEventData( int event_id ); bool loadEventData( int event_id );
bool loadInitialEventData( int init_event_id, int init_frame_id ); bool loadInitialEventData( int init_event_id, unsigned int init_frame_id );
bool loadInitialEventData( int monitor_id, time_t event_time ); bool loadInitialEventData( int monitor_id, time_t event_time );
void checkEventLoaded(); void checkEventLoaded();
void processCommand( const CmdMsg *msg ); void processCommand( const CmdMsg *msg );
bool sendFrame( int delta_us ); bool sendFrame( int delta_us );
public: public:
EventStream() EventStream()
{ {
mode = DEFAULT_MODE; mode = DEFAULT_MODE;
forceEventChange = false; forceEventChange = false;
curr_frame_id = 0; curr_frame_id = 0;
curr_stream_time = 0.0; curr_stream_time = 0.0;
event_data = 0; event_data = 0;
} }
void setStreamStart( int init_event_id, int init_frame_id=0 ) void setStreamStart( int init_event_id, unsigned int init_frame_id=0 )
{ {
loadInitialEventData( init_event_id, init_frame_id ); loadInitialEventData( init_event_id, init_frame_id );
loadMonitor( event_data->monitor_id ); loadMonitor( event_data->monitor_id );
} }
void setStreamStart( int monitor_id, time_t event_time ) void setStreamStart( int monitor_id, time_t event_time )
{ {
loadInitialEventData( monitor_id, event_time ); loadInitialEventData( monitor_id, event_time );
loadMonitor( monitor_id ); loadMonitor( monitor_id );
} }
void setStreamMode( StreamMode p_mode ) void setStreamMode( StreamMode p_mode )
{ {
mode = p_mode; mode = p_mode;
} }
void runStream(); void runStream();
Image *getImage(); Image *getImage();
}; };
#endif // ZM_EVENT_H #endif // ZM_EVENT_H

View File

@ -27,42 +27,42 @@
class Exception class Exception
{ {
protected: protected:
typedef enum { INFO, WARNING, ERROR, FATAL } Severity; typedef enum { INFO, WARNING, ERROR, FATAL } Severity;
protected: protected:
std::string mMessage; std::string mMessage;
Severity mSeverity; Severity mSeverity;
public: public:
Exception( const std::string &message, Severity severity=ERROR ) : mMessage( message ), mSeverity( severity ) Exception( const std::string &message, Severity severity=ERROR ) : mMessage( message ), mSeverity( severity )
{ {
} }
public: public:
const std::string &getMessage() const const std::string &getMessage() const
{ {
return( mMessage ); return( mMessage );
} }
Severity getSeverity() const Severity getSeverity() const
{ {
return( mSeverity ); return( mSeverity );
} }
bool isInfo() const bool isInfo() const
{ {
return( mSeverity == INFO ); return( mSeverity == INFO );
} }
bool isWarning() const bool isWarning() const
{ {
return( mSeverity == WARNING ); return( mSeverity == WARNING );
} }
bool isError() const bool isError() const
{ {
return( mSeverity == ERROR ); return( mSeverity == ERROR );
} }
bool isFatal() const bool isFatal() const
{ {
return( mSeverity == FATAL ); return( mSeverity == FATAL );
} }
}; };
#endif // ZM_EXCEPTION_H #endif // ZM_EXCEPTION_H

View File

@ -167,12 +167,21 @@ int SWScale::Convert(const uint8_t* in_buffer, const size_t in_buffer_size, uint
#endif #endif
/* Check the buffer sizes */ /* Check the buffer sizes */
size_t insize = avpicture_get_size(in_pf, width, height); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
size_t insize = av_image_get_buffer_size(in_pf, width, height,1);
#else
size_t insize = avpicture_get_size(in_pf, width, height);
#endif
if(insize != in_buffer_size) { if(insize != in_buffer_size) {
Error("The input buffer size does not match the expected size for the input format. Required: %d Available: %d", insize, in_buffer_size); Error("The input buffer size does not match the expected size for the input format. Required: %d Available: %d", insize, in_buffer_size);
return -4; return -4;
} }
size_t outsize = avpicture_get_size(out_pf, width, height); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
size_t outsize = av_image_get_buffer_size(out_pf, width, height,1);
#else
size_t outsize = avpicture_get_size(out_pf, width, height);
#endif
if(outsize < out_buffer_size) { if(outsize < out_buffer_size) {
Error("The output buffer is undersized for the output format. Required: %d Available: %d", outsize, out_buffer_size); Error("The output buffer is undersized for the output format. Required: %d Available: %d", outsize, out_buffer_size);
return -5; return -5;
@ -186,13 +195,29 @@ int SWScale::Convert(const uint8_t* in_buffer, const size_t in_buffer_size, uint
} }
/* Fill in the buffers */ /* Fill in the buffers */
if(!avpicture_fill( (AVPicture*)input_avframe, (uint8_t*)in_buffer, in_pf, width, height ) ) { #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
Error("Failed filling input frame with input buffer"); if(av_image_fill_arrays(input_avframe->data, input_avframe->linesize,
return -7; (uint8_t*)in_buffer, in_pf, width, height, 1) <= 0)
{
#else
if(avpicture_fill( (AVPicture*)input_avframe, (uint8_t*)in_buffer,
in_pf, width, height ) <= 0)
{
#endif
Error("Failed filling input frame with input buffer");
return -7;
} }
if(!avpicture_fill( (AVPicture*)output_avframe, out_buffer, out_pf, width, height ) ) { #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
Error("Failed filling output frame with output buffer"); if(av_image_fill_arrays(output_avframe->data, output_avframe->linesize,
return -8; out_buffer, out_pf, width, height, 1) <= 0)
{
#else
if(avpicture_fill( (AVPicture*)output_avframe, out_buffer,
out_pf, width, height ) <= 0)
{
#endif
Error("Failed filling output frame with output buffer");
return -8;
} }
/* Do the conversion */ /* Do the conversion */
@ -338,15 +363,9 @@ void zm_dump_stream_format(AVFormatContext *ic, int i, int index, int is_output)
int flags = (is_output ? ic->oformat->flags : ic->iformat->flags); int flags = (is_output ? ic->oformat->flags : ic->iformat->flags);
AVStream *st = ic->streams[i]; AVStream *st = ic->streams[i];
AVDictionaryEntry *lang = av_dict_get(st->metadata, "language", NULL, 0); AVDictionaryEntry *lang = av_dict_get(st->metadata, "language", NULL, 0);
unsigned char *separator = ic->dump_separator; char separator = '\n';
char **codec_separator = (char **)av_opt_ptr(st->codec->av_class, st->codec, "dump_separator");
int use_format_separator = !*codec_separator;
if (use_format_separator)
*codec_separator = av_strdup((const char *)separator);
avcodec_string(buf, sizeof(buf), st->codec, is_output); avcodec_string(buf, sizeof(buf), st->codec, is_output);
if (use_format_separator)
av_freep(codec_separator);
Debug(3, " Stream #%d:%d", index, i); Debug(3, " Stream #%d:%d", index, i);
/* the pid is an important information, so we display it */ /* the pid is an important information, so we display it */

View File

@ -48,6 +48,12 @@ extern "C" {
#else #else
#include <libavcodec/opt.h> #include <libavcodec/opt.h>
#endif #endif
#if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
#include <libavutil/imgutils.h>
#else
#include <libavutil/avutil.h>
#endif
#elif HAVE_FFMPEG_AVUTIL_H #elif HAVE_FFMPEG_AVUTIL_H
#include <ffmpeg/avutil.h> #include <ffmpeg/avutil.h>
#include <ffmpeg/base64.h> #include <ffmpeg/base64.h>

View File

@ -61,6 +61,7 @@ FfmpegCamera::FfmpegCamera( int p_id, const std::string &p_path, const std::stri
mOpenStart = 0; mOpenStart = 0;
mReopenThread = 0; mReopenThread = 0;
wasRecording = false; wasRecording = false;
videoStore = NULL;
#if HAVE_LIBSWSCALE #if HAVE_LIBSWSCALE
mConvertContext = NULL; mConvertContext = NULL;
@ -99,6 +100,7 @@ void FfmpegCamera::Initialise()
av_log_set_level( AV_LOG_QUIET ); av_log_set_level( AV_LOG_QUIET );
av_register_all(); av_register_all();
avformat_network_init();
} }
void FfmpegCamera::Terminate() void FfmpegCamera::Terminate()
@ -191,7 +193,13 @@ int FfmpegCamera::Capture( Image &image )
if ( frameComplete ) { if ( frameComplete ) {
Debug( 4, "Got frame %d", frameCount ); Debug( 4, "Got frame %d", frameCount );
avpicture_fill( (AVPicture *)mFrame, directbuffer, imagePixFormat, width, height); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(mFrame->data, mFrame->linesize,
directbuffer, imagePixFormat, width, height, 1);
#else
avpicture_fill( (AVPicture *)mFrame, directbuffer,
imagePixFormat, width, height);
#endif
#if HAVE_LIBSWSCALE #if HAVE_LIBSWSCALE
if(mConvertContext == NULL) { if(mConvertContext == NULL) {
@ -350,7 +358,8 @@ int FfmpegCamera::OpenFfmpeg() {
if ( mAudioStreamId == -1 ) if ( mAudioStreamId == -1 )
Debug( 2, "Unable to locate audio stream in %s", mPath.c_str() ); Debug( 2, "Unable to locate audio stream in %s", mPath.c_str() );
Debug ( 1, "Found video stream" ); Debug ( 3, "Found video stream at index %d", mVideoStreamId );
Debug ( 3, "Found audio stream at index %d", mAudioStreamId );
mCodecContext = mFormatContext->streams[mVideoStreamId]->codec; mCodecContext = mFormatContext->streams[mVideoStreamId]->codec;
@ -392,12 +401,17 @@ int FfmpegCamera::OpenFfmpeg() {
Debug ( 1, "Allocated frames" ); Debug ( 1, "Allocated frames" );
#if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
int pSize = av_image_get_buffer_size( imagePixFormat, width, height,1 );
#else
int pSize = avpicture_get_size( imagePixFormat, width, height ); int pSize = avpicture_get_size( imagePixFormat, width, height );
#endif
if( (unsigned int)pSize != imagesize) { if( (unsigned int)pSize != imagesize) {
Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize); Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize);
} }
Debug ( 1, "Validated imagesize" ); Debug ( 1, "Validated imagesize %d", pSize );
#if HAVE_LIBSWSCALE #if HAVE_LIBSWSCALE
Debug ( 1, "Calling sws_isSupportedInput" ); Debug ( 1, "Calling sws_isSupportedInput" );
@ -579,9 +593,11 @@ int FfmpegCamera::CaptureAndRecord( Image &image, bool recording, char* event_fi
avpicture_fill( (AVPicture *)mFrame, directbuffer, imagePixFormat, width, height); avpicture_fill( (AVPicture *)mFrame, directbuffer, imagePixFormat, width, height);
//Keep the last keyframe so we can establish immediate video //Keep the last keyframe so we can establish immediate video
/*if(packet.flags & AV_PKT_FLAG_KEY) if(packet.flags & AV_PKT_FLAG_KEY) {
av_copy_packet(&lastKeyframePkt, &packet);*/ //Debug(4, "Have keyframe");
//TODO I think we need to store the key frame location for seeking as part of the event //av_copy_packet(&lastKeyframePkt, &packet);
//TODO I think we need to store the key frame location for seeking as part of the event
}
//Video recording //Video recording
if ( recording && !wasRecording ) { if ( recording && !wasRecording ) {
@ -592,6 +608,9 @@ int FfmpegCamera::CaptureAndRecord( Image &image, bool recording, char* event_fi
wasRecording = true; wasRecording = true;
strcpy(oldDirectory, event_file); strcpy(oldDirectory, event_file);
// Need to write out all the frames from the last keyframe?
} else if ( ( ! recording ) && wasRecording && videoStore ) { } else if ( ( ! recording ) && wasRecording && videoStore ) {
Info("Deleting videoStore instance"); Info("Deleting videoStore instance");
delete videoStore; delete videoStore;
@ -649,9 +668,10 @@ int FfmpegCamera::CaptureAndRecord( Image &image, bool recording, char* event_fi
} }
if ( videoStore && recording ) { if ( videoStore && recording ) {
if ( record_audio ) { if ( record_audio ) {
Debug(3, "Recording audio packet" ); Debug(3, "Recording audio packet streamindex(%d) packetstreamindex(%d)", mAudioStreamId, packet.stream_index );
//Write the packet to our video store //Write the packet to our video store
int ret = videoStore->writeAudioFramePacket(&packet, mFormatContext->streams[packet.stream_index]); //FIXME no relevance of last key frame //FIXME no relevance of last key frame
int ret = videoStore->writeAudioFramePacket( &packet, mFormatContext->streams[packet.stream_index] );
if ( ret < 0 ) {//Less than zero and we skipped a frame if ( ret < 0 ) {//Less than zero and we skipped a frame
av_free_packet( &packet ); av_free_packet( &packet );
return 0; return 0;
@ -661,7 +681,11 @@ int FfmpegCamera::CaptureAndRecord( Image &image, bool recording, char* event_fi
} }
} }
} else { } else {
#if LIBAVUTIL_VERSION_CHECK(54, 23, 0, 23, 0)
Debug( 3, "Some other stream index %d, %s", packet.stream_index, av_get_media_type_string( mFormatContext->streams[packet.stream_index]->codec->codec_type) ); Debug( 3, "Some other stream index %d, %s", packet.stream_index, av_get_media_type_string( mFormatContext->streams[packet.stream_index]->codec->codec_type) );
#else
Debug( 3, "Some other stream index %d", packet.stream_index );
#endif
} }
av_free_packet( &packet ); av_free_packet( &packet );
} // end while ! frameComplete } // end while ! frameComplete

View File

@ -64,7 +64,9 @@ protected:
bool wasRecording; bool wasRecording;
VideoStore *videoStore; VideoStore *videoStore;
char oldDirectory[4096]; char oldDirectory[4096];
//AVPacket lastKeyframePkt;
// Last Key frame
AVPacket lastKeyframePkt;
#if HAVE_LIBSWSCALE #if HAVE_LIBSWSCALE
struct SwsContext *mConvertContext; struct SwsContext *mConvertContext;

File diff suppressed because it is too large Load Diff

File diff suppressed because it is too large Load Diff

View File

@ -7,7 +7,7 @@
*/ */
ImageAnalyser::ImageAnalyser(const ImageAnalyser& source) ImageAnalyser::ImageAnalyser(const ImageAnalyser& source)
{ {
m_Detectors = source.m_Detectors; m_Detectors = source.m_Detectors;
} }
@ -17,18 +17,18 @@ ImageAnalyser::ImageAnalyser(const ImageAnalyser& source)
*/ */
ImageAnalyser& ImageAnalyser::operator=(const ImageAnalyser& source) ImageAnalyser& ImageAnalyser::operator=(const ImageAnalyser& source)
{ {
m_Detectors = source.m_Detectors; m_Detectors = source.m_Detectors;
return *this; return *this;
} }
ImageAnalyser::~ImageAnalyser() ImageAnalyser::~ImageAnalyser()
{ {
for(DetectorsList::reverse_iterator It = m_Detectors.rbegin(); for(DetectorsList::reverse_iterator It = m_Detectors.rbegin();
It != m_Detectors.rend(); It != m_Detectors.rend();
++It) ++It)
delete *It; delete *It;
} }
@ -42,23 +42,23 @@ ImageAnalyser::~ImageAnalyser()
*/ */
int ImageAnalyser::DoDetection(const Image &comp_image, Zone** zones, int n_numZones, Event::StringSetMap noteSetMap, std::string& det_cause) int ImageAnalyser::DoDetection(const Image &comp_image, Zone** zones, int n_numZones, Event::StringSetMap noteSetMap, std::string& det_cause)
{ {
Event::StringSet zoneSet; Event::StringSet zoneSet;
int score = 0; int score = 0;
for(DetectorsList::iterator It = m_Detectors.begin(); for(DetectorsList::iterator It = m_Detectors.begin();
It != m_Detectors.end(); It != m_Detectors.end();
++It) ++It)
{
int detect_score = (*It)->Detect(comp_image, zones, n_numZones, zoneSet);
if (detect_score)
{ {
int detect_score = (*It)->Detect(comp_image, zones, n_numZones, zoneSet); score += detect_score;
if (detect_score) noteSetMap[(*It)->getDetectionCause()] = zoneSet;
{ if (det_cause.length())
score += detect_score; det_cause += ", ";
noteSetMap[(*It)->getDetectionCause()] = zoneSet; det_cause += (*It)->getDetectionCause();
if (det_cause.length())
det_cause += ", ";
det_cause += (*It)->getDetectionCause();
}
} }
return score; }
return score;
} }

View File

@ -23,17 +23,17 @@ using namespace std;
class ImageAnalyser { class ImageAnalyser {
public: public:
//!Default constructor. //!Default constructor.
ImageAnalyser() {}; ImageAnalyser() {};
//! Destructor. //! Destructor.
~ImageAnalyser(); ~ImageAnalyser();
//! Copy constructor. //! Copy constructor.
ImageAnalyser(const ImageAnalyser& source); ImageAnalyser(const ImageAnalyser& source);
//! Overloaded operator=. //! Overloaded operator=.
ImageAnalyser& operator=(const ImageAnalyser& source); ImageAnalyser& operator=(const ImageAnalyser& source);
private: private:

View File

@ -32,65 +32,65 @@ static int jpeg_err_count = 0;
void zm_jpeg_error_exit( j_common_ptr cinfo ) void zm_jpeg_error_exit( j_common_ptr cinfo )
{ {
static char buffer[JMSG_LENGTH_MAX]; static char buffer[JMSG_LENGTH_MAX];
zm_error_ptr zmerr = (zm_error_ptr)cinfo->err; zm_error_ptr zmerr = (zm_error_ptr)cinfo->err;
(zmerr->pub.format_message)( cinfo, buffer ); (zmerr->pub.format_message)( cinfo, buffer );
Error( "%s", buffer ); Error( "%s", buffer );
if ( ++jpeg_err_count == MAX_JPEG_ERRS ) if ( ++jpeg_err_count == MAX_JPEG_ERRS )
{ {
Fatal( "Maximum number (%d) of JPEG errors reached, exiting", jpeg_err_count ); Fatal( "Maximum number (%d) of JPEG errors reached, exiting", jpeg_err_count );
} }
longjmp( zmerr->setjmp_buffer, 1 ); longjmp( zmerr->setjmp_buffer, 1 );
} }
void zm_jpeg_emit_message( j_common_ptr cinfo, int msg_level ) void zm_jpeg_emit_message( j_common_ptr cinfo, int msg_level )
{ {
static char buffer[JMSG_LENGTH_MAX]; static char buffer[JMSG_LENGTH_MAX];
zm_error_ptr zmerr = (zm_error_ptr)cinfo->err; zm_error_ptr zmerr = (zm_error_ptr)cinfo->err;
if ( msg_level < 0 ) if ( msg_level < 0 )
{ {
/* It's a warning message. Since corrupt files may generate many warnings, /* It's a warning message. Since corrupt files may generate many warnings,
* the policy implemented here is to show only the first warning, * the policy implemented here is to show only the first warning,
* unless trace_level >= 3. * unless trace_level >= 3.
*/ */
if ( zmerr->pub.num_warnings == 0 || zmerr->pub.trace_level >= 3 ) if ( zmerr->pub.num_warnings == 0 || zmerr->pub.trace_level >= 3 )
{ {
(zmerr->pub.format_message)( cinfo, buffer ); (zmerr->pub.format_message)( cinfo, buffer );
if (!strstr(buffer, "Corrupt JPEG data:")) if (!strstr(buffer, "Corrupt JPEG data:"))
Warning( "%s", buffer ); Warning( "%s", buffer );
} }
/* Always count warnings in num_warnings. */ /* Always count warnings in num_warnings. */
zmerr->pub.num_warnings++; zmerr->pub.num_warnings++;
} }
else else
{ {
/* It's a trace message. Show it if trace_level >= msg_level. */ /* It's a trace message. Show it if trace_level >= msg_level. */
if ( zmerr->pub.trace_level >= msg_level ) if ( zmerr->pub.trace_level >= msg_level )
{ {
(zmerr->pub.format_message)( cinfo, buffer ); (zmerr->pub.format_message)( cinfo, buffer );
Debug( msg_level, "%s", buffer ); Debug( msg_level, "%s", buffer );
} }
} }
} }
/* Expanded data destination object for memory */ /* Expanded data destination object for memory */
typedef struct typedef struct
{ {
struct jpeg_destination_mgr pub; /* public fields */ struct jpeg_destination_mgr pub; /* public fields */
JOCTET *outbuffer; /* target buffer */ JOCTET *outbuffer; /* target buffer */
int *outbuffer_size; int *outbuffer_size;
JOCTET *buffer; /* start of buffer */ JOCTET *buffer; /* start of buffer */
} mem_destination_mgr; } mem_destination_mgr;
typedef mem_destination_mgr * mem_dest_ptr; typedef mem_destination_mgr * mem_dest_ptr;
#define OUTPUT_BUF_SIZE 4096 /* choose an efficiently fwrite'able size */ #define OUTPUT_BUF_SIZE 4096 /* choose an efficiently fwrite'able size */
/* /*
* Initialize destination --- called by jpeg_start_compress * Initialize destination --- called by jpeg_start_compress
@ -99,15 +99,15 @@ typedef mem_destination_mgr * mem_dest_ptr;
static void init_destination (j_compress_ptr cinfo) static void init_destination (j_compress_ptr cinfo)
{ {
mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest; mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest;
/* Allocate the output buffer --- it will be released when done with image */ /* Allocate the output buffer --- it will be released when done with image */
dest->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE, OUTPUT_BUF_SIZE * SIZEOF(JOCTET)); dest->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE, OUTPUT_BUF_SIZE * SIZEOF(JOCTET));
dest->pub.next_output_byte = dest->buffer; dest->pub.next_output_byte = dest->buffer;
dest->pub.free_in_buffer = OUTPUT_BUF_SIZE; dest->pub.free_in_buffer = OUTPUT_BUF_SIZE;
*(dest->outbuffer_size) = 0; *(dest->outbuffer_size) = 0;
} }
@ -136,15 +136,15 @@ static void init_destination (j_compress_ptr cinfo)
static boolean empty_output_buffer (j_compress_ptr cinfo) static boolean empty_output_buffer (j_compress_ptr cinfo)
{ {
mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest; mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest;
memcpy( dest->outbuffer+*(dest->outbuffer_size), dest->buffer, OUTPUT_BUF_SIZE ); memcpy( dest->outbuffer+*(dest->outbuffer_size), dest->buffer, OUTPUT_BUF_SIZE );
*(dest->outbuffer_size) += OUTPUT_BUF_SIZE; *(dest->outbuffer_size) += OUTPUT_BUF_SIZE;
dest->pub.next_output_byte = dest->buffer; dest->pub.next_output_byte = dest->buffer;
dest->pub.free_in_buffer = OUTPUT_BUF_SIZE; dest->pub.free_in_buffer = OUTPUT_BUF_SIZE;
return( TRUE ); return( TRUE );
} }
/* /*
@ -158,14 +158,14 @@ static boolean empty_output_buffer (j_compress_ptr cinfo)
static void term_destination (j_compress_ptr cinfo) static void term_destination (j_compress_ptr cinfo)
{ {
mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest; mem_dest_ptr dest = (mem_dest_ptr) cinfo->dest;
size_t datacount = OUTPUT_BUF_SIZE - dest->pub.free_in_buffer; size_t datacount = OUTPUT_BUF_SIZE - dest->pub.free_in_buffer;
if ( datacount > 0 ) if ( datacount > 0 )
{ {
memcpy( dest->outbuffer+*(dest->outbuffer_size), dest->buffer, datacount ); memcpy( dest->outbuffer+*(dest->outbuffer_size), dest->buffer, datacount );
*(dest->outbuffer_size) += datacount; *(dest->outbuffer_size) += datacount;
} }
} }
@ -177,45 +177,45 @@ static void term_destination (j_compress_ptr cinfo)
void zm_jpeg_mem_dest (j_compress_ptr cinfo, JOCTET *outbuffer, int *outbuffer_size ) void zm_jpeg_mem_dest (j_compress_ptr cinfo, JOCTET *outbuffer, int *outbuffer_size )
{ {
mem_dest_ptr dest; mem_dest_ptr dest;
/* The destination object is made permanent so that multiple JPEG images /* The destination object is made permanent so that multiple JPEG images
* can be written to the same file without re-executing jpeg_stdio_dest. * can be written to the same file without re-executing jpeg_stdio_dest.
* This makes it dangerous to use this manager and a different destination * This makes it dangerous to use this manager and a different destination
* manager serially with the same JPEG object, because their private object * manager serially with the same JPEG object, because their private object
* sizes may be different. Caveat programmer. * sizes may be different. Caveat programmer.
*/ */
if ( cinfo->dest == NULL ) if ( cinfo->dest == NULL )
{ {
/* first time for this JPEG object? */ /* first time for this JPEG object? */
cinfo->dest = (struct jpeg_destination_mgr *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, SIZEOF(mem_destination_mgr)); cinfo->dest = (struct jpeg_destination_mgr *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, SIZEOF(mem_destination_mgr));
} }
dest = (mem_dest_ptr) cinfo->dest; dest = (mem_dest_ptr) cinfo->dest;
dest->pub.init_destination = init_destination; dest->pub.init_destination = init_destination;
dest->pub.empty_output_buffer = empty_output_buffer; dest->pub.empty_output_buffer = empty_output_buffer;
dest->pub.term_destination = term_destination; dest->pub.term_destination = term_destination;
dest->outbuffer = outbuffer; dest->outbuffer = outbuffer;
dest->outbuffer_size = outbuffer_size; dest->outbuffer_size = outbuffer_size;
} }
/* Expanded data source object for memory input */ /* Expanded data source object for memory input */
typedef struct typedef struct
{ {
struct jpeg_source_mgr pub; /* public fields */ struct jpeg_source_mgr pub; /* public fields */
JOCTET * inbuffer; /* source stream */ JOCTET * inbuffer; /* source stream */
int inbuffer_size; int inbuffer_size;
int inbuffer_size_hwm; /* High water mark */ int inbuffer_size_hwm; /* High water mark */
JOCTET * buffer; /* start of buffer */ JOCTET * buffer; /* start of buffer */
boolean start_of_data; /* have we gotten any data yet? */ boolean start_of_data; /* have we gotten any data yet? */
} mem_source_mgr; } mem_source_mgr;
typedef mem_source_mgr * mem_src_ptr; typedef mem_source_mgr * mem_src_ptr;
#define INPUT_BUF_SIZE 4096 /* choose an efficiently fread'able size */ #define INPUT_BUF_SIZE 4096 /* choose an efficiently fread'able size */
/* /*
* Initialize source --- called by jpeg_read_header * Initialize source --- called by jpeg_read_header
@ -224,14 +224,14 @@ typedef mem_source_mgr * mem_src_ptr;
static void init_source (j_decompress_ptr cinfo) static void init_source (j_decompress_ptr cinfo)
{ {
mem_src_ptr src = (mem_src_ptr) cinfo->src; mem_src_ptr src = (mem_src_ptr) cinfo->src;
/* We reset the empty-input-file flag for each image, /* We reset the empty-input-file flag for each image,
* but we don't clear the input buffer. * but we don't clear the input buffer.
* This is correct behavior for reading a series of images from one source. * This is correct behavior for reading a series of images from one source.
*/ */
src->start_of_data = TRUE; src->start_of_data = TRUE;
src->pub.bytes_in_buffer = 0; src->pub.bytes_in_buffer = 0;
} }
@ -270,26 +270,26 @@ static void init_source (j_decompress_ptr cinfo)
static boolean fill_input_buffer (j_decompress_ptr cinfo) static boolean fill_input_buffer (j_decompress_ptr cinfo)
{ {
mem_src_ptr src = (mem_src_ptr) cinfo->src; mem_src_ptr src = (mem_src_ptr) cinfo->src;
size_t nbytes; size_t nbytes;
memcpy( src->buffer, src->inbuffer, (size_t) src->inbuffer_size ); memcpy( src->buffer, src->inbuffer, (size_t) src->inbuffer_size );
nbytes = src->inbuffer_size; nbytes = src->inbuffer_size;
if ( nbytes <= 0 ) if ( nbytes <= 0 )
{ {
if ( src->start_of_data ) /* Treat empty input file as fatal error */ if ( src->start_of_data ) /* Treat empty input file as fatal error */
ERREXIT(cinfo, JERR_INPUT_EMPTY); ERREXIT(cinfo, JERR_INPUT_EMPTY);
WARNMS(cinfo, JWRN_JPEG_EOF); WARNMS(cinfo, JWRN_JPEG_EOF);
/* Insert a fake EOI marker */ /* Insert a fake EOI marker */
src->buffer[0] = (JOCTET) 0xFF; src->buffer[0] = (JOCTET) 0xFF;
src->buffer[1] = (JOCTET) JPEG_EOI; src->buffer[1] = (JOCTET) JPEG_EOI;
nbytes = 2; nbytes = 2;
} }
src->pub.next_input_byte = src->buffer; src->pub.next_input_byte = src->buffer;
src->pub.bytes_in_buffer = nbytes; src->pub.bytes_in_buffer = nbytes;
src->start_of_data = FALSE; src->start_of_data = FALSE;
return( TRUE ); return( TRUE );
} }
@ -309,25 +309,25 @@ static boolean fill_input_buffer (j_decompress_ptr cinfo)
static void skip_input_data (j_decompress_ptr cinfo, long num_bytes) static void skip_input_data (j_decompress_ptr cinfo, long num_bytes)
{ {
mem_src_ptr src = (mem_src_ptr) cinfo->src; mem_src_ptr src = (mem_src_ptr) cinfo->src;
/* Just a dumb implementation for now. Could use fseek() except /* Just a dumb implementation for now. Could use fseek() except
* it doesn't work on pipes. Not clear that being smart is worth * it doesn't work on pipes. Not clear that being smart is worth
* any trouble anyway --- large skips are infrequent. * any trouble anyway --- large skips are infrequent.
*/ */
if ( num_bytes > 0 ) if ( num_bytes > 0 )
{
while ( num_bytes > (long) src->pub.bytes_in_buffer )
{ {
while ( num_bytes > (long) src->pub.bytes_in_buffer ) num_bytes -= (long) src->pub.bytes_in_buffer;
{ (void) fill_input_buffer(cinfo);
num_bytes -= (long) src->pub.bytes_in_buffer; /* note we assume that fill_input_buffer will never return FALSE,
(void) fill_input_buffer(cinfo); * so suspension need not be handled.
/* note we assume that fill_input_buffer will never return FALSE, */
* so suspension need not be handled.
*/
}
src->pub.next_input_byte += (size_t) num_bytes;
src->pub.bytes_in_buffer -= (size_t) num_bytes;
} }
src->pub.next_input_byte += (size_t) num_bytes;
src->pub.bytes_in_buffer -= (size_t) num_bytes;
}
} }
@ -342,7 +342,7 @@ static void skip_input_data (j_decompress_ptr cinfo, long num_bytes)
static void term_source (j_decompress_ptr cinfo) static void term_source (j_decompress_ptr cinfo)
{ {
/* no work necessary here */ /* no work necessary here */
} }
@ -354,113 +354,113 @@ static void term_source (j_decompress_ptr cinfo)
void zm_jpeg_mem_src( j_decompress_ptr cinfo, const JOCTET *inbuffer, int inbuffer_size ) void zm_jpeg_mem_src( j_decompress_ptr cinfo, const JOCTET *inbuffer, int inbuffer_size )
{ {
mem_src_ptr src; mem_src_ptr src;
/* The source object and input buffer are made permanent so that a series
* of JPEG images can be read from the same file by calling zm_jpeg_mem_src
* only before the first one. (If we discarded the buffer at the end of
* one image, we'd likely lose the start of the next one.)
* This makes it unsafe to use this manager and a different source
* manager serially with the same JPEG object. Caveat programmer.
*/
if ( cinfo->src == NULL )
{
/* first time for this JPEG object? */
cinfo->src = (struct jpeg_source_mgr *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, SIZEOF(mem_source_mgr));
src = (mem_src_ptr) cinfo->src;
src->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, inbuffer_size * SIZEOF(JOCTET));
src->inbuffer_size_hwm = inbuffer_size;
}
else
{
src = (mem_src_ptr) cinfo->src;
if ( src->inbuffer_size_hwm < inbuffer_size )
{
src->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, inbuffer_size * SIZEOF(JOCTET));
src->inbuffer_size_hwm = inbuffer_size;
}
}
/* The source object and input buffer are made permanent so that a series
* of JPEG images can be read from the same file by calling zm_jpeg_mem_src
* only before the first one. (If we discarded the buffer at the end of
* one image, we'd likely lose the start of the next one.)
* This makes it unsafe to use this manager and a different source
* manager serially with the same JPEG object. Caveat programmer.
*/
if ( cinfo->src == NULL )
{
/* first time for this JPEG object? */
cinfo->src = (struct jpeg_source_mgr *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, SIZEOF(mem_source_mgr));
src = (mem_src_ptr) cinfo->src; src = (mem_src_ptr) cinfo->src;
src->pub.init_source = init_source; src->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, inbuffer_size * SIZEOF(JOCTET));
src->pub.fill_input_buffer = fill_input_buffer; src->inbuffer_size_hwm = inbuffer_size;
src->pub.skip_input_data = skip_input_data; }
src->pub.resync_to_restart = jpeg_resync_to_restart; /* use default method */ else
src->pub.term_source = term_source; {
src->inbuffer = (JOCTET *)inbuffer; src = (mem_src_ptr) cinfo->src;
src->inbuffer_size = inbuffer_size; if ( src->inbuffer_size_hwm < inbuffer_size )
src->pub.bytes_in_buffer = 0; /* forces fill_input_buffer on first read */ {
src->pub.next_input_byte = NULL; /* until buffer loaded */ src->buffer = (JOCTET *)(*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_PERMANENT, inbuffer_size * SIZEOF(JOCTET));
src->inbuffer_size_hwm = inbuffer_size;
}
}
src = (mem_src_ptr) cinfo->src;
src->pub.init_source = init_source;
src->pub.fill_input_buffer = fill_input_buffer;
src->pub.skip_input_data = skip_input_data;
src->pub.resync_to_restart = jpeg_resync_to_restart; /* use default method */
src->pub.term_source = term_source;
src->inbuffer = (JOCTET *)inbuffer;
src->inbuffer_size = inbuffer_size;
src->pub.bytes_in_buffer = 0; /* forces fill_input_buffer on first read */
src->pub.next_input_byte = NULL; /* until buffer loaded */
} }
void zm_use_std_huff_tables( j_decompress_ptr cinfo ) { void zm_use_std_huff_tables( j_decompress_ptr cinfo ) {
/* JPEG standard Huffman tables (cf. JPEG standard section K.3) */ /* JPEG standard Huffman tables (cf. JPEG standard section K.3) */
/* IMPORTANT: these are only valid for 8-bit data precision! */ /* IMPORTANT: these are only valid for 8-bit data precision! */
static const JHUFF_TBL dclumin = { static const JHUFF_TBL dclumin = {
{ /* 0-base */ 0, 0, 1, 5, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 }, { /* 0-base */ 0, 0, 1, 5, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 },
{ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 },
FALSE FALSE
}; };
static const JHUFF_TBL dcchrome = { static const JHUFF_TBL dcchrome = {
{ /* 0-base */ 0, 0, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 }, { /* 0-base */ 0, 0, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 },
{ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 },
FALSE FALSE
}; };
static const JHUFF_TBL aclumin = { static const JHUFF_TBL aclumin = {
{ /* 0-base */ 0, 0, 2, 1, 3, 3, 2, 4, 3, 5, 5, 4, 4, 0, 0, 1, 0x7d }, { /* 0-base */ 0, 0, 2, 1, 3, 3, 2, 4, 3, 5, 5, 4, 4, 0, 0, 1, 0x7d },
{ 0x01, 0x02, 0x03, 0x00, 0x04, 0x11, 0x05, 0x12, { 0x01, 0x02, 0x03, 0x00, 0x04, 0x11, 0x05, 0x12,
0x21, 0x31, 0x41, 0x06, 0x13, 0x51, 0x61, 0x07, 0x21, 0x31, 0x41, 0x06, 0x13, 0x51, 0x61, 0x07,
0x22, 0x71, 0x14, 0x32, 0x81, 0x91, 0xa1, 0x08, 0x22, 0x71, 0x14, 0x32, 0x81, 0x91, 0xa1, 0x08,
0x23, 0x42, 0xb1, 0xc1, 0x15, 0x52, 0xd1, 0xf0, 0x23, 0x42, 0xb1, 0xc1, 0x15, 0x52, 0xd1, 0xf0,
0x24, 0x33, 0x62, 0x72, 0x82, 0x09, 0x0a, 0x16, 0x24, 0x33, 0x62, 0x72, 0x82, 0x09, 0x0a, 0x16,
0x17, 0x18, 0x19, 0x1a, 0x25, 0x26, 0x27, 0x28, 0x17, 0x18, 0x19, 0x1a, 0x25, 0x26, 0x27, 0x28,
0x29, 0x2a, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x29, 0x2a, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39,
0x3a, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49, 0x3a, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49,
0x4a, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59, 0x4a, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59,
0x5a, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69, 0x5a, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69,
0x6a, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x79, 0x6a, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x79,
0x7a, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89, 0x7a, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89,
0x8a, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98, 0x8a, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98,
0x99, 0x9a, 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7, 0x99, 0x9a, 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7,
0xa8, 0xa9, 0xaa, 0xb2, 0xb3, 0xb4, 0xb5, 0xb6, 0xa8, 0xa9, 0xaa, 0xb2, 0xb3, 0xb4, 0xb5, 0xb6,
0xb7, 0xb8, 0xb9, 0xba, 0xc2, 0xc3, 0xc4, 0xc5, 0xb7, 0xb8, 0xb9, 0xba, 0xc2, 0xc3, 0xc4, 0xc5,
0xc6, 0xc7, 0xc8, 0xc9, 0xca, 0xd2, 0xd3, 0xd4, 0xc6, 0xc7, 0xc8, 0xc9, 0xca, 0xd2, 0xd3, 0xd4,
0xd5, 0xd6, 0xd7, 0xd8, 0xd9, 0xda, 0xe1, 0xe2, 0xd5, 0xd6, 0xd7, 0xd8, 0xd9, 0xda, 0xe1, 0xe2,
0xe3, 0xe4, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9, 0xea, 0xe3, 0xe4, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9, 0xea,
0xf1, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7, 0xf8, 0xf1, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7, 0xf8,
0xf9, 0xfa }, 0xf9, 0xfa },
FALSE FALSE
}; };
static const JHUFF_TBL acchrome = { static const JHUFF_TBL acchrome = {
{ /* 0-base */ 0, 0, 2, 1, 2, 4, 4, 3, 4, 7, 5, 4, 4, 0, 1, 2, 0x77 }, { /* 0-base */ 0, 0, 2, 1, 2, 4, 4, 3, 4, 7, 5, 4, 4, 0, 1, 2, 0x77 },
{ 0x00, 0x01, 0x02, 0x03, 0x11, 0x04, 0x05, 0x21, { 0x00, 0x01, 0x02, 0x03, 0x11, 0x04, 0x05, 0x21,
0x31, 0x06, 0x12, 0x41, 0x51, 0x07, 0x61, 0x71, 0x31, 0x06, 0x12, 0x41, 0x51, 0x07, 0x61, 0x71,
0x13, 0x22, 0x32, 0x81, 0x08, 0x14, 0x42, 0x91, 0x13, 0x22, 0x32, 0x81, 0x08, 0x14, 0x42, 0x91,
0xa1, 0xb1, 0xc1, 0x09, 0x23, 0x33, 0x52, 0xf0, 0xa1, 0xb1, 0xc1, 0x09, 0x23, 0x33, 0x52, 0xf0,
0x15, 0x62, 0x72, 0xd1, 0x0a, 0x16, 0x24, 0x34, 0x15, 0x62, 0x72, 0xd1, 0x0a, 0x16, 0x24, 0x34,
0xe1, 0x25, 0xf1, 0x17, 0x18, 0x19, 0x1a, 0x26, 0xe1, 0x25, 0xf1, 0x17, 0x18, 0x19, 0x1a, 0x26,
0x27, 0x28, 0x29, 0x2a, 0x35, 0x36, 0x37, 0x38, 0x27, 0x28, 0x29, 0x2a, 0x35, 0x36, 0x37, 0x38,
0x39, 0x3a, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x39, 0x3a, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48,
0x49, 0x4a, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x49, 0x4a, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58,
0x59, 0x5a, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x59, 0x5a, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68,
0x69, 0x6a, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x69, 0x6a, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78,
0x79, 0x7a, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, 0x79, 0x7a, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87,
0x88, 0x89, 0x8a, 0x92, 0x93, 0x94, 0x95, 0x96, 0x88, 0x89, 0x8a, 0x92, 0x93, 0x94, 0x95, 0x96,
0x97, 0x98, 0x99, 0x9a, 0xa2, 0xa3, 0xa4, 0xa5, 0x97, 0x98, 0x99, 0x9a, 0xa2, 0xa3, 0xa4, 0xa5,
0xa6, 0xa7, 0xa8, 0xa9, 0xaa, 0xb2, 0xb3, 0xb4, 0xa6, 0xa7, 0xa8, 0xa9, 0xaa, 0xb2, 0xb3, 0xb4,
0xb5, 0xb6, 0xb7, 0xb8, 0xb9, 0xba, 0xc2, 0xc3, 0xb5, 0xb6, 0xb7, 0xb8, 0xb9, 0xba, 0xc2, 0xc3,
0xc4, 0xc5, 0xc6, 0xc7, 0xc8, 0xc9, 0xca, 0xd2, 0xc4, 0xc5, 0xc6, 0xc7, 0xc8, 0xc9, 0xca, 0xd2,
0xd3, 0xd4, 0xd5, 0xd6, 0xd7, 0xd8, 0xd9, 0xda, 0xd3, 0xd4, 0xd5, 0xd6, 0xd7, 0xd8, 0xd9, 0xda,
0xe2, 0xe3, 0xe4, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9, 0xe2, 0xe3, 0xe4, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9,
0xea, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7, 0xf8, 0xea, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7, 0xf8,
0xf9, 0xfa }, 0xf9, 0xfa },
FALSE FALSE
}; };
cinfo->dc_huff_tbl_ptrs[0] = (JHUFF_TBL*)&dclumin; cinfo->dc_huff_tbl_ptrs[0] = (JHUFF_TBL*)&dclumin;
cinfo->dc_huff_tbl_ptrs[1] = (JHUFF_TBL*)&dcchrome; cinfo->dc_huff_tbl_ptrs[1] = (JHUFF_TBL*)&dcchrome;
cinfo->ac_huff_tbl_ptrs[0] = (JHUFF_TBL*)&aclumin; cinfo->ac_huff_tbl_ptrs[0] = (JHUFF_TBL*)&aclumin;
cinfo->ac_huff_tbl_ptrs[1] = (JHUFF_TBL*)&acchrome; cinfo->ac_huff_tbl_ptrs[1] = (JHUFF_TBL*)&acchrome;
} }

View File

@ -32,8 +32,8 @@ extern "C"
/* Stuff for overriden error handlers */ /* Stuff for overriden error handlers */
struct zm_error_mgr struct zm_error_mgr
{ {
struct jpeg_error_mgr pub; struct jpeg_error_mgr pub;
jmp_buf setjmp_buffer; jmp_buf setjmp_buffer;
}; };
typedef struct zm_error_mgr *zm_error_ptr; typedef struct zm_error_mgr *zm_error_ptr;

View File

@ -644,7 +644,11 @@ LocalCamera::LocalCamera(
if ( !tmpPicture ) if ( !tmpPicture )
Fatal( "Could not allocate temporary picture" ); Fatal( "Could not allocate temporary picture" );
int pSize = avpicture_get_size( imagePixFormat, width, height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
int pSize = av_image_get_buffer_size( imagePixFormat, width, height,1 );
#else
int pSize = avpicture_get_size( imagePixFormat, width, height );
#endif
if( (unsigned int)pSize != imagesize) { if( (unsigned int)pSize != imagesize) {
Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize); Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize);
} }
@ -877,7 +881,18 @@ void LocalCamera::Initialise()
#endif #endif
if ( !capturePictures[i] ) if ( !capturePictures[i] )
Fatal( "Could not allocate picture" ); Fatal( "Could not allocate picture" );
avpicture_fill( (AVPicture *)capturePictures[i], (uint8_t*)v4l2_data.buffers[i].start, capturePixFormat, v4l2_data.fmt.fmt.pix.width, v4l2_data.fmt.fmt.pix.height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(capturePictures[i]->data,
capturePictures[i]->linesize,
(uint8_t*)v4l2_data.buffers[i].start,capturePixFormat,
v4l2_data.fmt.fmt.pix.width,
v4l2_data.fmt.fmt.pix.height, 1);
#else
avpicture_fill( (AVPicture *)capturePictures[i],
(uint8_t*)v4l2_data.buffers[i].start, capturePixFormat,
v4l2_data.fmt.fmt.pix.width,
v4l2_data.fmt.fmt.pix.height );
#endif
#endif // HAVE_LIBSWSCALE #endif // HAVE_LIBSWSCALE
} }
@ -1035,7 +1050,16 @@ void LocalCamera::Initialise()
#endif #endif
if ( !capturePictures[i] ) if ( !capturePictures[i] )
Fatal( "Could not allocate picture" ); Fatal( "Could not allocate picture" );
avpicture_fill( (AVPicture *)capturePictures[i], (unsigned char *)v4l1_data.bufptr+v4l1_data.frames.offsets[i], capturePixFormat, width, height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(capturePictures[i]->data,
capturePictures[i]->linesize,
(unsigned char *)v4l1_data.bufptr+v4l1_data.frames.offsets[i],
capturePixFormat, width, height, 1);
#else
avpicture_fill( (AVPicture *)capturePictures[i],
(unsigned char *)v4l1_data.bufptr+v4l1_data.frames.offsets[i],
capturePixFormat, width, height );
#endif
} }
#endif // HAVE_LIBSWSCALE #endif // HAVE_LIBSWSCALE
@ -2131,7 +2155,14 @@ int LocalCamera::Capture( Image &image )
Debug( 9, "Calling sws_scale to perform the conversion" ); Debug( 9, "Calling sws_scale to perform the conversion" );
/* Use swscale to convert the image directly into the shared memory */ /* Use swscale to convert the image directly into the shared memory */
avpicture_fill( (AVPicture *)tmpPicture, directbuffer, imagePixFormat, width, height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(tmpPicture->data,
tmpPicture->linesize, directbuffer,
imagePixFormat, width, height, 1);
#else
avpicture_fill( (AVPicture *)tmpPicture, directbuffer,
imagePixFormat, width, height );
#endif
sws_scale( imgConversionContext, capturePictures[capture_frame]->data, capturePictures[capture_frame]->linesize, 0, height, tmpPicture->data, tmpPicture->linesize ); sws_scale( imgConversionContext, capturePictures[capture_frame]->data, capturePictures[capture_frame]->linesize, 0, height, tmpPicture->data, tmpPicture->linesize );
} }
#endif #endif

View File

@ -615,7 +615,7 @@ void Logger::logPrint( bool hex, const char * const filepath, const int line, co
{ {
int priority = smSyslogPriorities[level]; int priority = smSyslogPriorities[level];
//priority |= LOG_DAEMON; //priority |= LOG_DAEMON;
syslog( priority, "%s [%s]", classString, syslogStart ); syslog( priority, "%s [%s] [%s]", classString, mId.c_str(), syslogStart );
} }
if ( level <= FATAL ) if ( level <= FATAL )

View File

@ -33,190 +33,190 @@
class Logger class Logger
{ {
public: public:
enum { enum {
NOOPT=-6, NOOPT=-6,
NOLOG, NOLOG,
PANIC, PANIC,
FATAL, FATAL,
ERROR, ERROR,
WARNING, WARNING,
INFO, INFO,
DEBUG1, DEBUG1,
DEBUG2, DEBUG2,
DEBUG3, DEBUG3,
DEBUG4, DEBUG4,
DEBUG5, DEBUG5,
DEBUG6, DEBUG6,
DEBUG7, DEBUG7,
DEBUG8, DEBUG8,
DEBUG9 DEBUG9
}; };
typedef int Level; typedef int Level;
typedef std::map<Level,std::string> StringMap; typedef std::map<Level,std::string> StringMap;
typedef std::map<Level,int> IntMap; typedef std::map<Level,int> IntMap;
class Options class Options
{ {
public: public:
int mTermLevel; int mTermLevel;
int mDatabaseLevel; int mDatabaseLevel;
int mFileLevel; int mFileLevel;
int mSyslogLevel; int mSyslogLevel;
std::string mLogPath;
std::string mLogFile;
public:
Options( Level termLevel=NOOPT, Level databaseLevel=NOOPT, Level fileLevel=NOOPT, Level syslogLevel=NOOPT, const std::string &logPath=".", const std::string &logFile="" ) :
mTermLevel( termLevel ),
mDatabaseLevel( databaseLevel ),
mFileLevel( fileLevel ),
mSyslogLevel( syslogLevel ),
mLogPath( logPath ),
mLogFile( logFile )
{
}
};
private:
static bool smInitialised;
static Logger *smInstance;
static StringMap smCodes;
static IntMap smSyslogPriorities;
private:
bool mInitialised;
std::string mId;
std::string mIdRoot;
std::string mIdArgs;
Level mLevel; // Level that is currently in operation
Level mTermLevel; // Maximum level output via terminal
Level mDatabaseLevel; // Maximum level output via database
Level mFileLevel; // Maximum level output via file
Level mSyslogLevel; // Maximum level output via syslog
Level mEffectiveLevel; // Level optimised to take account of maxima
bool mDbConnected;
MYSQL mDbConnection;
std::string mLogPath; std::string mLogPath;
std::string mLogFile; std::string mLogFile;
FILE *mLogFileFP;
bool mHasTerm; public:
bool mFlush; Options( Level termLevel=NOOPT, Level databaseLevel=NOOPT, Level fileLevel=NOOPT, Level syslogLevel=NOOPT, const std::string &logPath=".", const std::string &logFile="" ) :
mTermLevel( termLevel ),
mDatabaseLevel( databaseLevel ),
mFileLevel( fileLevel ),
mSyslogLevel( syslogLevel ),
mLogPath( logPath ),
mLogFile( logFile )
{
}
};
private: private:
static void usrHandler( int sig ); static bool smInitialised;
static Logger *smInstance;
public: static StringMap smCodes;
friend void logInit( const char *name, const Options &options ); static IntMap smSyslogPriorities;
friend void logTerm();
static Logger *fetch()
{
if ( !smInstance )
{
smInstance = new Logger();
Options options;
smInstance->initialise( "undef", options );
}
return( smInstance );
}
private: private:
Logger(); bool mInitialised;
~Logger();
public: std::string mId;
void initialise( const std::string &id, const Options &options ); std::string mIdRoot;
void terminate(); std::string mIdArgs;
Level mLevel; // Level that is currently in operation
Level mTermLevel; // Maximum level output via terminal
Level mDatabaseLevel; // Maximum level output via database
Level mFileLevel; // Maximum level output via file
Level mSyslogLevel; // Maximum level output via syslog
Level mEffectiveLevel; // Level optimised to take account of maxima
bool mDbConnected;
MYSQL mDbConnection;
std::string mLogPath;
std::string mLogFile;
FILE *mLogFileFP;
bool mHasTerm;
bool mFlush;
private: private:
int limit( int level ) static void usrHandler( int sig );
{
if ( level > DEBUG9 )
return( DEBUG9 );
if ( level < NOLOG )
return( NOLOG );
return( level );
}
bool boolEnv( const std::string &name, bool defaultValue=false );
int intEnv( const std::string &name, bool defaultValue=0 );
std::string strEnv( const std::string &name, const std::string defaultValue="" );
char *getTargettedEnv( const std::string &name );
void loadEnv();
public: public:
const std::string &id() const friend void logInit( const char *name, const Options &options );
friend void logTerm();
static Logger *fetch()
{
if ( !smInstance )
{ {
return( mId ); smInstance = new Logger();
Options options;
smInstance->initialise( "undef", options );
} }
return( smInstance );
const std::string &id( const std::string &id ); }
Level level() const
{
return( mLevel );
}
Level level( Level=NOOPT );
bool debugOn()
{
return( mEffectiveLevel >= DEBUG1 );
}
Level termLevel( Level=NOOPT );
Level databaseLevel( Level=NOOPT );
Level fileLevel( Level=NOOPT );
Level syslogLevel( Level=NOOPT );
private: private:
void logFile( const std::string &logFile ); Logger();
void openFile(); ~Logger();
void closeFile();
void openSyslog();
void closeSyslog();
void closeDatabase();
public: public:
void logPrint( bool hex, const char * const filepath, const int line, const int level, const char *fstring, ... ); void initialise( const std::string &id, const Options &options );
void terminate();
private:
int limit( int level )
{
if ( level > DEBUG9 )
return( DEBUG9 );
if ( level < NOLOG )
return( NOLOG );
return( level );
}
bool boolEnv( const std::string &name, bool defaultValue=false );
int intEnv( const std::string &name, bool defaultValue=0 );
std::string strEnv( const std::string &name, const std::string defaultValue="" );
char *getTargettedEnv( const std::string &name );
void loadEnv();
public:
const std::string &id() const
{
return( mId );
}
const std::string &id( const std::string &id );
Level level() const
{
return( mLevel );
}
Level level( Level=NOOPT );
bool debugOn()
{
return( mEffectiveLevel >= DEBUG1 );
}
Level termLevel( Level=NOOPT );
Level databaseLevel( Level=NOOPT );
Level fileLevel( Level=NOOPT );
Level syslogLevel( Level=NOOPT );
private:
void logFile( const std::string &logFile );
void openFile();
void closeFile();
void openSyslog();
void closeSyslog();
void closeDatabase();
public:
void logPrint( bool hex, const char * const filepath, const int line, const int level, const char *fstring, ... );
}; };
void logInit( const char *name, const Logger::Options &options=Logger::Options() ); void logInit( const char *name, const Logger::Options &options=Logger::Options() );
void logTerm(); void logTerm();
inline const std::string &logId() inline const std::string &logId()
{ {
return( Logger::fetch()->id() ); return( Logger::fetch()->id() );
} }
inline Logger::Level logLevel() inline Logger::Level logLevel()
{ {
return( Logger::fetch()->level() ); return( Logger::fetch()->level() );
} }
inline void logCapLevel( Logger::Level level ) inline void logCapLevel( Logger::Level level )
{ {
Logger::fetch()->level( level ); Logger::fetch()->level( level );
} }
inline Logger::Level logDebugging() inline Logger::Level logDebugging()
{ {
return( Logger::fetch()->debugOn() ); return( Logger::fetch()->debugOn() );
} }
#define logPrintf(logLevel,params...) {\ #define logPrintf(logLevel,params...) {\
if ( logLevel <= Logger::fetch()->level() )\ if ( logLevel <= Logger::fetch()->level() )\
Logger::fetch()->logPrint( false, __FILE__, __LINE__, logLevel, ##params );\ Logger::fetch()->logPrint( false, __FILE__, __LINE__, logLevel, ##params );\
} }
#define logHexdump(logLevel,data,len) {\ #define logHexdump(logLevel,data,len) {\
if ( logLevel <= Logger::fetch()->level() )\ if ( logLevel <= Logger::fetch()->level() )\
Logger::fetch()->logPrint( true, __FILE__, __LINE__, logLevel, "%p (%d)", data, len );\ Logger::fetch()->logPrint( true, __FILE__, __LINE__, logLevel, "%p (%d)", data, len );\
} }
/* Debug compiled out */ /* Debug compiled out */
#ifndef DBG_OFF #ifndef DBG_OFF
@ -228,16 +228,16 @@ inline Logger::Level logDebugging()
#endif #endif
/* Standard debug calls */ /* Standard debug calls */
#define Info(params...) logPrintf(Logger::INFO,##params) #define Info(params...) logPrintf(Logger::INFO,##params)
#define Warning(params...) logPrintf(Logger::WARNING,##params) #define Warning(params...) logPrintf(Logger::WARNING,##params)
#define Error(params...) logPrintf(Logger::ERROR,##params) #define Error(params...) logPrintf(Logger::ERROR,##params)
#define Fatal(params...) logPrintf(Logger::FATAL,##params) #define Fatal(params...) logPrintf(Logger::FATAL,##params)
#define Panic(params...) logPrintf(Logger::PANIC,##params) #define Panic(params...) logPrintf(Logger::PANIC,##params)
#define Mark() Info("Mark/%s/%d",__FILE__,__LINE__) #define Mark() Info("Mark/%s/%d",__FILE__,__LINE__)
#define Log() Info("Log") #define Log() Info("Log")
#ifdef __GNUC__ #ifdef __GNUC__
#define Enter(level) logPrintf(level,("Entering %s",__PRETTY_FUNCTION__)) #define Enter(level) logPrintf(level,("Entering %s",__PRETTY_FUNCTION__))
#define Exit(level) logPrintf(level,("Exiting %s",__PRETTY_FUNCTION__)) #define Exit(level) logPrintf(level,("Exiting %s",__PRETTY_FUNCTION__))
#else #else
#define Enter(level) #define Enter(level)
#define Exit(level) #define Exit(level)

View File

@ -24,138 +24,138 @@
#include "zm.h" #include "zm.h"
inline void* zm_mallocaligned(unsigned int reqalignment, size_t reqsize) { inline void* zm_mallocaligned(unsigned int reqalignment, size_t reqsize) {
uint8_t* retptr; uint8_t* retptr;
#if HAVE_POSIX_MEMALIGN #if HAVE_POSIX_MEMALIGN
if(posix_memalign((void**)&retptr,reqalignment,reqsize) != 0) if(posix_memalign((void**)&retptr,reqalignment,reqsize) != 0)
return NULL; return NULL;
return retptr; return retptr;
#else #else
uint8_t* alloc; uint8_t* alloc;
retptr = (uint8_t*)malloc(reqsize+reqalignment+sizeof(void*)); retptr = (uint8_t*)malloc(reqsize+reqalignment+sizeof(void*));
if(retptr == NULL) if(retptr == NULL)
return NULL; return NULL;
alloc = retptr + sizeof(void*); alloc = retptr + sizeof(void*);
if(((long)alloc % reqalignment) != 0) if(((long)alloc % reqalignment) != 0)
alloc = alloc + (reqalignment - ((long)alloc % reqalignment)); alloc = alloc + (reqalignment - ((long)alloc % reqalignment));
/* Store a pointer before to the start of the block, just before returned aligned memory */ /* Store a pointer before to the start of the block, just before returned aligned memory */
*(void**)(alloc - sizeof(void*)) = retptr; *(void**)(alloc - sizeof(void*)) = retptr;
return alloc; return alloc;
#endif #endif
} }
inline void zm_freealigned(void* ptr) { inline void zm_freealigned(void* ptr) {
#if HAVE_POSIX_MEMALIGN #if HAVE_POSIX_MEMALIGN
free(ptr); free(ptr);
#else #else
/* Start of block is stored before the block if it was allocated by zm_mallocaligned */ /* Start of block is stored before the block if it was allocated by zm_mallocaligned */
free(*(void**)((uint8_t*)ptr - sizeof(void*))); free(*(void**)((uint8_t*)ptr - sizeof(void*)));
#endif #endif
} }
inline char *mempbrk( register const char *s, const char *accept, size_t limit ) inline char *mempbrk( register const char *s, const char *accept, size_t limit )
{ {
if ( limit <= 0 || !s || !accept || !*accept ) if ( limit <= 0 || !s || !accept || !*accept )
return( 0 );
register unsigned int i,j;
size_t acc_len = strlen( accept );
for ( i = 0; i < limit; s++, i++ )
{
for ( j = 0; j < acc_len; j++ )
{
if ( *s == accept[j] )
{
return( (char *)s );
}
}
}
return( 0 ); return( 0 );
register unsigned int i,j;
size_t acc_len = strlen( accept );
for ( i = 0; i < limit; s++, i++ )
{
for ( j = 0; j < acc_len; j++ )
{
if ( *s == accept[j] )
{
return( (char *)s );
}
}
}
return( 0 );
} }
inline char *memstr( register const char *s, const char *n, size_t limit ) inline char *memstr( register const char *s, const char *n, size_t limit )
{ {
if ( limit <= 0 || !s || !n ) if ( limit <= 0 || !s || !n )
return( 0 );
if ( !*n )
return( (char *)s );
register unsigned int i,j,k;
size_t n_len = strlen( n );
for ( i = 0; i < limit; i++, s++ )
{
if ( *s != *n )
continue;
j = 1;
k = 1;
while ( true )
{
if ( k >= n_len )
return( (char *)s );
if ( s[j++] != n[k++] )
break;
}
}
return( 0 ); return( 0 );
if ( !*n )
return( (char *)s );
register unsigned int i,j,k;
size_t n_len = strlen( n );
for ( i = 0; i < limit; i++, s++ )
{
if ( *s != *n )
continue;
j = 1;
k = 1;
while ( true )
{
if ( k >= n_len )
return( (char *)s );
if ( s[j++] != n[k++] )
break;
}
}
return( 0 );
} }
inline size_t memspn( register const char *s, const char *accept, size_t limit ) inline size_t memspn( register const char *s, const char *accept, size_t limit )
{ {
if ( limit <= 0 || !s || !accept || !*accept ) if ( limit <= 0 || !s || !accept || !*accept )
return( 0 ); return( 0 );
register unsigned int i,j; register unsigned int i,j;
size_t acc_len = strlen( accept ); size_t acc_len = strlen( accept );
for ( i = 0; i < limit; s++, i++ ) for ( i = 0; i < limit; s++, i++ )
{
register bool found = false;
for ( j = 0; j < acc_len; j++ )
{ {
register bool found = false; if ( *s == accept[j] )
for ( j = 0; j < acc_len; j++ ) {
{ found = true;
if ( *s == accept[j] ) break;
{ }
found = true;
break;
}
}
if ( !found )
{
return( i );
}
} }
return( limit ); if ( !found )
{
return( i );
}
}
return( limit );
} }
inline size_t memcspn( register const char *s, const char *reject, size_t limit ) inline size_t memcspn( register const char *s, const char *reject, size_t limit )
{ {
if ( limit <= 0 || !s || !reject ) if ( limit <= 0 || !s || !reject )
return( 0 ); return( 0 );
if ( !*reject ) if ( !*reject )
return( limit );
register unsigned int i,j;
size_t rej_len = strlen( reject );
for ( i = 0; i < limit; s++, i++ )
{
for ( j = 0; j < rej_len; j++ )
{
if ( *s == reject[j] )
{
return( i );
}
}
}
return( limit ); return( limit );
register unsigned int i,j;
size_t rej_len = strlen( reject );
for ( i = 0; i < limit; s++, i++ )
{
for ( j = 0; j < rej_len; j++ )
{
if ( *s == reject[j] )
{
return( i );
}
}
}
return( limit );
} }
#endif // ZM_MEM_UTILS_H #endif // ZM_MEM_UTILS_H

File diff suppressed because it is too large Load Diff

View File

@ -48,505 +48,505 @@
// //
class Monitor class Monitor
{ {
friend class MonitorStream; friend class MonitorStream;
public: public:
typedef enum typedef enum
{ {
QUERY=0, QUERY=0,
CAPTURE, CAPTURE,
ANALYSIS ANALYSIS
} Purpose; } Purpose;
typedef enum typedef enum
{ {
NONE=1, NONE=1,
MONITOR, MONITOR,
MODECT, MODECT,
RECORD, RECORD,
MOCORD, MOCORD,
NODECT NODECT
} Function; } Function;
typedef enum typedef enum
{ {
ROTATE_0=1, ROTATE_0=1,
ROTATE_90, ROTATE_90,
ROTATE_180, ROTATE_180,
ROTATE_270, ROTATE_270,
FLIP_HORI, FLIP_HORI,
FLIP_VERT FLIP_VERT
} Orientation; } Orientation;
typedef enum typedef enum
{ {
IDLE, IDLE,
PREALARM, PREALARM,
ALARM, ALARM,
ALERT, ALERT,
TAPE TAPE
} State; } State;
protected: protected:
typedef std::set<Zone *> ZoneSet; typedef std::set<Zone *> ZoneSet;
typedef enum { GET_SETTINGS=0x1, SET_SETTINGS=0x2, RELOAD=0x4, SUSPEND=0x10, RESUME=0x20 } Action; typedef enum { GET_SETTINGS=0x1, SET_SETTINGS=0x2, RELOAD=0x4, SUSPEND=0x10, RESUME=0x20 } Action;
typedef enum { CLOSE_TIME, CLOSE_IDLE, CLOSE_ALARM } EventCloseMode; typedef enum { CLOSE_TIME, CLOSE_IDLE, CLOSE_ALARM } EventCloseMode;
/* sizeof(SharedData) expected to be 336 bytes on 32bit and 64bit */ /* sizeof(SharedData) expected to be 336 bytes on 32bit and 64bit */
typedef struct typedef struct
{ {
uint32_t size; /* +0 */ uint32_t size; /* +0 */
uint32_t last_write_index; /* +4 */ uint32_t last_write_index; /* +4 */
uint32_t last_read_index; /* +8 */ uint32_t last_read_index; /* +8 */
uint32_t state; /* +12 */ uint32_t state; /* +12 */
uint32_t last_event; /* +16 */ uint32_t last_event; /* +16 */
uint32_t action; /* +20 */ uint32_t action; /* +20 */
int32_t brightness; /* +24 */ int32_t brightness; /* +24 */
int32_t hue; /* +28 */ int32_t hue; /* +28 */
int32_t colour; /* +32 */ int32_t colour; /* +32 */
int32_t contrast; /* +36 */ int32_t contrast; /* +36 */
int32_t alarm_x; /* +40 */ int32_t alarm_x; /* +40 */
int32_t alarm_y; /* +44 */ int32_t alarm_y; /* +44 */
uint8_t valid; /* +48 */ uint8_t valid; /* +48 */
uint8_t active; /* +49 */ uint8_t active; /* +49 */
uint8_t signal; /* +50 */ uint8_t signal; /* +50 */
uint8_t format; /* +51 */ uint8_t format; /* +51 */
uint32_t imagesize; /* +52 */ uint32_t imagesize; /* +52 */
uint32_t epadding1; /* +56 */ uint32_t epadding1; /* +56 */
uint32_t epadding2; /* +60 */ uint32_t epadding2; /* +60 */
/* /*
** This keeps 32bit time_t and 64bit time_t identical and compatible as long as time is before 2038. ** This keeps 32bit time_t and 64bit time_t identical and compatible as long as time is before 2038.
** Shared memory layout should be identical for both 32bit and 64bit and is multiples of 16. ** Shared memory layout should be identical for both 32bit and 64bit and is multiples of 16.
*/ */
union { /* +64 */ union { /* +64 */
time_t last_write_time; time_t last_write_time;
uint64_t extrapad1; uint64_t extrapad1;
}; };
union { /* +72 */ union { /* +72 */
time_t last_read_time; time_t last_read_time;
uint64_t extrapad2; uint64_t extrapad2;
}; };
uint8_t control_state[256]; /* +80 */ uint8_t control_state[256]; /* +80 */
} SharedData; } SharedData;
typedef enum { TRIGGER_CANCEL, TRIGGER_ON, TRIGGER_OFF } TriggerState; typedef enum { TRIGGER_CANCEL, TRIGGER_ON, TRIGGER_OFF } TriggerState;
/* sizeof(TriggerData) expected to be 560 on 32bit & and 64bit */ /* sizeof(TriggerData) expected to be 560 on 32bit & and 64bit */
typedef struct typedef struct
{ {
uint32_t size; uint32_t size;
uint32_t trigger_state; uint32_t trigger_state;
uint32_t trigger_score; uint32_t trigger_score;
uint32_t padding; uint32_t padding;
char trigger_cause[32]; char trigger_cause[32];
char trigger_text[256]; char trigger_text[256];
char trigger_showtext[256]; char trigger_showtext[256];
} TriggerData; } TriggerData;
/* sizeof(Snapshot) expected to be 16 bytes on 32bit and 32 bytes on 64bit */ /* sizeof(Snapshot) expected to be 16 bytes on 32bit and 32 bytes on 64bit */
struct Snapshot struct Snapshot
{ {
struct timeval *timestamp; struct timeval *timestamp;
Image *image; Image *image;
void* padding; void* padding;
}; };
//TODO: Technically we can't exclude this struct when people don't have avformat as the Memory.pm module doesn't know about avformat //TODO: Technically we can't exclude this struct when people don't have avformat as the Memory.pm module doesn't know about avformat
#if 1 #if 1
//sizeOf(VideoStoreData) expected to be 4104 bytes on 32bit and 64bit //sizeOf(VideoStoreData) expected to be 4104 bytes on 32bit and 64bit
typedef struct typedef struct
{ {
uint32_t size; uint32_t size;
char event_file[4096]; char event_file[4096];
uint32_t recording; //bool arch dependent so use uint32 instead uint32_t recording; //bool arch dependent so use uint32 instead
//uint32_t frameNumber; //uint32_t frameNumber;
} VideoStoreData; } VideoStoreData;
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT
class MonitorLink { class MonitorLink {
protected: protected:
unsigned int id; unsigned int id;
char name[64]; char name[64];
bool connected; bool connected;
time_t last_connect_time; time_t last_connect_time;
#if ZM_MEM_MAPPED #if ZM_MEM_MAPPED
int map_fd; int map_fd;
char mem_file[PATH_MAX]; char mem_file[PATH_MAX];
#else // ZM_MEM_MAPPED #else // ZM_MEM_MAPPED
int shm_id; int shm_id;
#endif // ZM_MEM_MAPPED #endif // ZM_MEM_MAPPED
off_t mem_size; off_t mem_size;
unsigned char *mem_ptr; unsigned char *mem_ptr;
volatile SharedData *shared_data; volatile SharedData *shared_data;
volatile TriggerData *trigger_data; volatile TriggerData *trigger_data;
volatile VideoStoreData *video_store_data; volatile VideoStoreData *video_store_data;
int last_state; int last_state;
int last_event; int last_event;
public: public:
MonitorLink( int p_id, const char *p_name ); MonitorLink( int p_id, const char *p_name );
~MonitorLink(); ~MonitorLink();
inline int Id() const { inline int Id() const {
return( id ); return( id );
} }
inline const char *Name() const { inline const char *Name() const {
return( name ); return( name );
} }
inline bool isConnected() const { inline bool isConnected() const {
return( connected ); return( connected );
} }
inline time_t getLastConnectTime() const { inline time_t getLastConnectTime() const {
return( last_connect_time ); return( last_connect_time );
} }
bool connect(); bool connect();
bool disconnect(); bool disconnect();
bool isAlarmed(); bool isAlarmed();
bool inAlarm(); bool inAlarm();
bool hasAlarmed(); bool hasAlarmed();
}; };
protected: protected:
// These are read from the DB and thereafter remain unchanged // These are read from the DB and thereafter remain unchanged
unsigned int id; unsigned int id;
char name[64]; char name[64];
unsigned int server_id; // Id of the Server object unsigned int server_id; // Id of the Server object
unsigned int storage_id; // Id of the Storage Object, which currently will just provide a path, but in future may do more. unsigned int storage_id; // Id of the Storage Object, which currently will just provide a path, but in future may do more.
Function function; // What the monitor is doing Function function; // What the monitor is doing
bool enabled; // Whether the monitor is enabled or asleep bool enabled; // Whether the monitor is enabled or asleep
unsigned int width; // Normally the same as the camera, but not if partly rotated unsigned int width; // Normally the same as the camera, but not if partly rotated
unsigned int height; // Normally the same as the camera, but not if partly rotated unsigned int height; // Normally the same as the camera, but not if partly rotated
bool v4l_multi_buffer; bool v4l_multi_buffer;
unsigned int v4l_captures_per_frame; unsigned int v4l_captures_per_frame;
Orientation orientation; // Whether the image has to be rotated at all Orientation orientation; // Whether the image has to be rotated at all
unsigned int deinterlacing; unsigned int deinterlacing;
int savejpegspref; int savejpegspref;
int videowriterpref; int videowriterpref;
std::string encoderparams; std::string encoderparams;
std::vector<EncoderParameter_t> encoderparamsvec; std::vector<EncoderParameter_t> encoderparamsvec;
bool record_audio; // Whether to store the audio that we receive bool record_audio; // Whether to store the audio that we receive
int brightness; // The statically saved brightness of the camera int brightness; // The statically saved brightness of the camera
int contrast; // The statically saved contrast of the camera int contrast; // The statically saved contrast of the camera
int hue; // The statically saved hue of the camera int hue; // The statically saved hue of the camera
int colour; // The statically saved colour of the camera int colour; // The statically saved colour of the camera
char event_prefix[64]; // The prefix applied to event names as they are created char event_prefix[64]; // The prefix applied to event names as they are created
char label_format[64]; // The format of the timestamp on the images char label_format[64]; // The format of the timestamp on the images
Coord label_coord; // The coordinates of the timestamp on the images Coord label_coord; // The coordinates of the timestamp on the images
int label_size; // Size of the timestamp on the images int label_size; // Size of the timestamp on the images
int image_buffer_count; // Size of circular image buffer, at least twice the size of the pre_event_count int image_buffer_count; // Size of circular image buffer, at least twice the size of the pre_event_count
int pre_event_buffer_count; // Size of dedicated circular pre event buffer used when analysis is not performed at capturing framerate, int pre_event_buffer_count; // Size of dedicated circular pre event buffer used when analysis is not performed at capturing framerate,
// value is pre_event_count + alarm_frame_count - 1 // value is pre_event_count + alarm_frame_count - 1
int warmup_count; // How many images to process before looking for events int warmup_count; // How many images to process before looking for events
int pre_event_count; // How many images to hold and prepend to an alarm event int pre_event_count; // How many images to hold and prepend to an alarm event
int post_event_count; // How many unalarmed images must occur before the alarm state is reset int post_event_count; // How many unalarmed images must occur before the alarm state is reset
int stream_replay_buffer; // How many frames to store to support DVR functions, IGNORED from this object, passed directly into zms now int stream_replay_buffer; // How many frames to store to support DVR functions, IGNORED from this object, passed directly into zms now
int section_length; // How long events should last in continuous modes int section_length; // How long events should last in continuous modes
bool adaptive_skip; // Whether to use the newer adaptive algorithm for this monitor bool adaptive_skip; // Whether to use the newer adaptive algorithm for this monitor
int frame_skip; // How many frames to skip in continuous modes int frame_skip; // How many frames to skip in continuous modes
int motion_frame_skip; // How many frames to skip in motion detection int motion_frame_skip; // How many frames to skip in motion detection
double analysis_fps; // Target framerate for video analysis double analysis_fps; // Target framerate for video analysis
unsigned int analysis_update_delay; // How long we wait before updating analysis parameters unsigned int analysis_update_delay; // How long we wait before updating analysis parameters
int capture_delay; // How long we wait between capture frames int capture_delay; // How long we wait between capture frames
int alarm_capture_delay; // How long we wait between capture frames when in alarm state int alarm_capture_delay; // How long we wait between capture frames when in alarm state
int alarm_frame_count; // How many alarm frames are required before an event is triggered int alarm_frame_count; // How many alarm frames are required before an event is triggered
int fps_report_interval; // How many images should be captured/processed between reporting the current FPS int fps_report_interval; // How many images should be captured/processed between reporting the current FPS
int ref_blend_perc; // Percentage of new image going into reference image. int ref_blend_perc; // Percentage of new image going into reference image.
int alarm_ref_blend_perc; // Percentage of new image going into reference image during alarm. int alarm_ref_blend_perc; // Percentage of new image going into reference image during alarm.
bool track_motion; // Whether this monitor tries to track detected motion bool track_motion; // Whether this monitor tries to track detected motion
Rgb signal_check_colour; // The colour that the camera will emit when no video signal detected Rgb signal_check_colour; // The colour that the camera will emit when no video signal detected
bool embed_exif; // Whether to embed Exif data into each image frame or not bool embed_exif; // Whether to embed Exif data into each image frame or not
double fps; double fps;
Image delta_image; Image delta_image;
Image ref_image; Image ref_image;
Image alarm_image; // Used in creating analysis images, will be initialized in Analysis Image alarm_image; // Used in creating analysis images, will be initialized in Analysis
Image write_image; // Used when creating snapshot images Image write_image; // Used when creating snapshot images
Purpose purpose; // What this monitor has been created to do Purpose purpose; // What this monitor has been created to do
int event_count; int event_count;
int image_count; int image_count;
int ready_count; int ready_count;
int first_alarm_count; int first_alarm_count;
int last_alarm_count; int last_alarm_count;
int buffer_count; int buffer_count;
int prealarm_count; int prealarm_count;
State state; State state;
time_t start_time; time_t start_time;
time_t last_fps_time; time_t last_fps_time;
time_t auto_resume_time; time_t auto_resume_time;
unsigned int last_motion_score; unsigned int last_motion_score;
EventCloseMode event_close_mode; EventCloseMode event_close_mode;
#if ZM_MEM_MAPPED #if ZM_MEM_MAPPED
int map_fd; int map_fd;
char mem_file[PATH_MAX]; char mem_file[PATH_MAX];
#else // ZM_MEM_MAPPED #else // ZM_MEM_MAPPED
int shm_id; int shm_id;
#endif // ZM_MEM_MAPPED #endif // ZM_MEM_MAPPED
off_t mem_size; off_t mem_size;
unsigned char *mem_ptr; unsigned char *mem_ptr;
Storage *storage; Storage *storage;
SharedData *shared_data; SharedData *shared_data;
TriggerData *trigger_data; TriggerData *trigger_data;
VideoStoreData *video_store_data; VideoStoreData *video_store_data;
Snapshot *image_buffer; Snapshot *image_buffer;
Snapshot next_buffer; /* Used by four field deinterlacing */ Snapshot next_buffer; /* Used by four field deinterlacing */
Snapshot *pre_event_buffer; Snapshot *pre_event_buffer;
Camera *camera; Camera *camera;
Event *event; Event *event;
int n_zones; int n_zones;
Zone **zones; Zone **zones;
struct timeval **timestamps; struct timeval **timestamps;
Image **images; Image **images;
const unsigned char *privacy_bitmask; const unsigned char *privacy_bitmask;
int n_linked_monitors; int n_linked_monitors;
MonitorLink **linked_monitors; MonitorLink **linked_monitors;
public: public:
// OurCheckAlarms seems to be unused. Check it on zm_monitor.cpp for more info. // OurCheckAlarms seems to be unused. Check it on zm_monitor.cpp for more info.
//bool OurCheckAlarms( Zone *zone, const Image *pImage ); //bool OurCheckAlarms( Zone *zone, const Image *pImage );
Monitor( Monitor(
int p_id, int p_id,
const char *p_name, const char *p_name,
unsigned int p_server_id, unsigned int p_server_id,
unsigned int p_storage_id, unsigned int p_storage_id,
int p_function, int p_function,
bool p_enabled, bool p_enabled,
const char *p_linked_monitors, const char *p_linked_monitors,
Camera *p_camera, Camera *p_camera,
int p_orientation, int p_orientation,
unsigned int p_deinterlacing, unsigned int p_deinterlacing,
int p_savejpegs, int p_savejpegs,
int p_videowriter, int p_videowriter,
std::string p_encoderparams, std::string p_encoderparams,
bool p_record_audio, bool p_record_audio,
const char *p_event_prefix, const char *p_event_prefix,
const char *p_label_format, const char *p_label_format,
const Coord &p_label_coord, const Coord &p_label_coord,
int label_size, int label_size,
int p_image_buffer_count, int p_image_buffer_count,
int p_warmup_count, int p_warmup_count,
int p_pre_event_count, int p_pre_event_count,
int p_post_event_count, int p_post_event_count,
int p_stream_replay_buffer, int p_stream_replay_buffer,
int p_alarm_frame_count, int p_alarm_frame_count,
int p_section_length, int p_section_length,
int p_frame_skip, int p_frame_skip,
int p_motion_frame_skip, int p_motion_frame_skip,
double p_analysis_fps, double p_analysis_fps,
unsigned int p_analysis_update_delay, unsigned int p_analysis_update_delay,
int p_capture_delay, int p_capture_delay,
int p_alarm_capture_delay, int p_alarm_capture_delay,
int p_fps_report_interval, int p_fps_report_interval,
int p_ref_blend_perc, int p_ref_blend_perc,
int p_alarm_ref_blend_perc, int p_alarm_ref_blend_perc,
bool p_track_motion, bool p_track_motion,
Rgb p_signal_check_colour, Rgb p_signal_check_colour,
bool p_embed_exif, bool p_embed_exif,
Purpose p_purpose, Purpose p_purpose,
int p_n_zones=0, int p_n_zones=0,
Zone *p_zones[]=0 Zone *p_zones[]=0
); );
~Monitor(); ~Monitor();
void AddZones( int p_n_zones, Zone *p_zones[] ); void AddZones( int p_n_zones, Zone *p_zones[] );
void AddPrivacyBitmask( Zone *p_zones[] ); void AddPrivacyBitmask( Zone *p_zones[] );
bool connect(); bool connect();
inline int ShmValid() const { inline int ShmValid() const {
return( shared_data->valid ); return( shared_data->valid );
} }
inline int Id() const { inline int Id() const {
return( id ); return( id );
} }
inline const char *Name() const { inline const char *Name() const {
return( name ); return( name );
} }
inline Storage *getStorage() { inline Storage *getStorage() {
if ( ! storage ) { if ( ! storage ) {
storage = new Storage( storage_id ); storage = new Storage( storage_id );
} }
return( storage ); return( storage );
} }
inline Function GetFunction() const { inline Function GetFunction() const {
return( function ); return( function );
} }
inline bool Enabled() { inline bool Enabled() {
if ( function <= MONITOR ) if ( function <= MONITOR )
return( false ); return( false );
return( enabled ); return( enabled );
} }
inline const char *EventPrefix() const { inline const char *EventPrefix() const {
return( event_prefix ); return( event_prefix );
} }
inline bool Ready() { inline bool Ready() {
if ( function <= MONITOR ) if ( function <= MONITOR )
return( false ); return( false );
return( image_count > ready_count ); return( image_count > ready_count );
} }
inline bool Active() { inline bool Active() {
if ( function <= MONITOR ) if ( function <= MONITOR )
return( false ); return( false );
return( enabled && shared_data->active ); return( enabled && shared_data->active );
} }
inline bool Exif() { inline bool Exif() {
return( embed_exif ); return( embed_exif );
} }
unsigned int Width() const { return( width ); } unsigned int Width() const { return width; }
unsigned int Height() const { return( height ); } unsigned int Height() const { return height; }
unsigned int Colours() const { return( camera->Colours() ); } unsigned int Colours() const { return( camera->Colours() ); }
unsigned int SubpixelOrder() const { return( camera->SubpixelOrder() ); } unsigned int SubpixelOrder() const { return( camera->SubpixelOrder() ); }
int GetOptSaveJPEGs() const { return( savejpegspref ); } int GetOptSaveJPEGs() const { return( savejpegspref ); }
int GetOptVideoWriter() const { return( videowriterpref ); } int GetOptVideoWriter() const { return( videowriterpref ); }
const std::vector<EncoderParameter_t>* GetOptEncoderParams() const { return( &encoderparamsvec ); } const std::vector<EncoderParameter_t>* GetOptEncoderParams() const { return( &encoderparamsvec ); }
State GetState() const; State GetState() const;
int GetImage( int index=-1, int scale=100 ); int GetImage( int index=-1, int scale=100 );
struct timeval GetTimestamp( int index=-1 ) const; struct timeval GetTimestamp( int index=-1 ) const;
void UpdateAdaptiveSkip(); void UpdateAdaptiveSkip();
useconds_t GetAnalysisRate(); useconds_t GetAnalysisRate();
unsigned int GetAnalysisUpdateDelay() const { return( analysis_update_delay ); } unsigned int GetAnalysisUpdateDelay() const { return( analysis_update_delay ); }
int GetCaptureDelay() const { return( capture_delay ); } int GetCaptureDelay() const { return( capture_delay ); }
int GetAlarmCaptureDelay() const { return( alarm_capture_delay ); } int GetAlarmCaptureDelay() const { return( alarm_capture_delay ); }
unsigned int GetLastReadIndex() const; unsigned int GetLastReadIndex() const;
unsigned int GetLastWriteIndex() const; unsigned int GetLastWriteIndex() const;
unsigned int GetLastEvent() const; unsigned int GetLastEvent() const;
double GetFPS() const; double GetFPS() const;
void ForceAlarmOn( int force_score, const char *force_case, const char *force_text="" ); void ForceAlarmOn( int force_score, const char *force_case, const char *force_text="" );
void ForceAlarmOff(); void ForceAlarmOff();
void CancelForced(); void CancelForced();
TriggerState GetTriggerState() const { return( (TriggerState)(trigger_data?trigger_data->trigger_state:TRIGGER_CANCEL )); } TriggerState GetTriggerState() const { return( (TriggerState)(trigger_data?trigger_data->trigger_state:TRIGGER_CANCEL )); }
void actionReload(); void actionReload();
void actionEnable(); void actionEnable();
void actionDisable(); void actionDisable();
void actionSuspend(); void actionSuspend();
void actionResume(); void actionResume();
int actionBrightness( int p_brightness=-1 ); int actionBrightness( int p_brightness=-1 );
int actionHue( int p_hue=-1 ); int actionHue( int p_hue=-1 );
int actionColour( int p_colour=-1 ); int actionColour( int p_colour=-1 );
int actionContrast( int p_contrast=-1 ); int actionContrast( int p_contrast=-1 );
inline int PrimeCapture() { inline int PrimeCapture() {
return( camera->PrimeCapture() ); return( camera->PrimeCapture() );
} }
inline int PreCapture() { inline int PreCapture() {
return( camera->PreCapture() ); return( camera->PreCapture() );
} }
int Capture(); int Capture();
int PostCapture() { int PostCapture() {
return( camera->PostCapture() ); return( camera->PostCapture() );
} }
unsigned int DetectMotion( const Image &comp_image, Event::StringSet &zoneSet ); unsigned int DetectMotion( const Image &comp_image, Event::StringSet &zoneSet );
// DetectBlack seems to be unused. Check it on zm_monitor.cpp for more info. // DetectBlack seems to be unused. Check it on zm_monitor.cpp for more info.
//unsigned int DetectBlack( const Image &comp_image, Event::StringSet &zoneSet ); //unsigned int DetectBlack( const Image &comp_image, Event::StringSet &zoneSet );
bool CheckSignal( const Image *image ); bool CheckSignal( const Image *image );
bool Analyse(); bool Analyse();
void DumpImage( Image *dump_image ) const; void DumpImage( Image *dump_image ) const;
void TimestampImage( Image *ts_image, const struct timeval *ts_time ) const; void TimestampImage( Image *ts_image, const struct timeval *ts_time ) const;
bool closeEvent(); bool closeEvent();
void Reload(); void Reload();
void ReloadZones(); void ReloadZones();
void ReloadLinkedMonitors( const char * ); void ReloadLinkedMonitors( const char * );
bool DumpSettings( char *output, bool verbose ); bool DumpSettings( char *output, bool verbose );
void DumpZoneImage( const char *zone_string=0 ); void DumpZoneImage( const char *zone_string=0 );
#if ZM_HAS_V4L #if ZM_HAS_V4L
static int LoadLocalMonitors( const char *device, Monitor **&monitors, Purpose purpose ); static int LoadLocalMonitors( const char *device, Monitor **&monitors, Purpose purpose );
#endif // ZM_HAS_V4L #endif // ZM_HAS_V4L
static int LoadRemoteMonitors( const char *protocol, const char *host, const char*port, const char*path, Monitor **&monitors, Purpose purpose ); static int LoadRemoteMonitors( const char *protocol, const char *host, const char*port, const char*path, Monitor **&monitors, Purpose purpose );
static int LoadFileMonitors( const char *file, Monitor **&monitors, Purpose purpose ); static int LoadFileMonitors( const char *file, Monitor **&monitors, Purpose purpose );
#if HAVE_LIBAVFORMAT #if HAVE_LIBAVFORMAT
static int LoadFfmpegMonitors( const char *file, Monitor **&monitors, Purpose purpose ); static int LoadFfmpegMonitors( const char *file, Monitor **&monitors, Purpose purpose );
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT
static Monitor *Load( unsigned int id, bool load_zones, Purpose purpose ); static Monitor *Load( unsigned int id, bool load_zones, Purpose purpose );
//void writeStreamImage( Image *image, struct timeval *timestamp, int scale, int mag, int x, int y ); //void writeStreamImage( Image *image, struct timeval *timestamp, int scale, int mag, int x, int y );
//void StreamImages( int scale=100, int maxfps=10, time_t ttl=0, int msq_id=0 ); //void StreamImages( int scale=100, int maxfps=10, time_t ttl=0, int msq_id=0 );
//void StreamImagesRaw( int scale=100, int maxfps=10, time_t ttl=0 ); //void StreamImagesRaw( int scale=100, int maxfps=10, time_t ttl=0 );
//void StreamImagesZip( int scale=100, int maxfps=10, time_t ttl=0 ); //void StreamImagesZip( int scale=100, int maxfps=10, time_t ttl=0 );
void SingleImage( int scale=100 ); void SingleImage( int scale=100 );
void SingleImageRaw( int scale=100 ); void SingleImageRaw( int scale=100 );
void SingleImageZip( int scale=100 ); void SingleImageZip( int scale=100 );
#if HAVE_LIBAVCODEC #if HAVE_LIBAVCODEC
//void StreamMpeg( const char *format, int scale=100, int maxfps=10, int bitrate=100000 ); //void StreamMpeg( const char *format, int scale=100, int maxfps=10, int bitrate=100000 );
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC
}; };
#define MOD_ADD( var, delta, limit ) (((var)+(limit)+(delta))%(limit)) #define MOD_ADD( var, delta, limit ) (((var)+(limit)+(delta))%(limit))
class MonitorStream : public StreamBase { class MonitorStream : public StreamBase {
protected: protected:
typedef struct SwapImage { typedef struct SwapImage {
bool valid; bool valid;
struct timeval timestamp; struct timeval timestamp;
char file_name[PATH_MAX]; char file_name[PATH_MAX];
} SwapImage; } SwapImage;
private: private:
SwapImage *temp_image_buffer; SwapImage *temp_image_buffer;
int temp_image_buffer_count; int temp_image_buffer_count;
int temp_read_index; int temp_read_index;
int temp_write_index; int temp_write_index;
protected: protected:
time_t ttl; time_t ttl;
protected: protected:
int playback_buffer; int playback_buffer;
bool delayed; bool delayed;
int frame_count; int frame_count;
protected: protected:
bool checkSwapPath( const char *path, bool create_path ); bool checkSwapPath( const char *path, bool create_path );
bool sendFrame( const char *filepath, struct timeval *timestamp ); bool sendFrame( const char *filepath, struct timeval *timestamp );
bool sendFrame( Image *image, struct timeval *timestamp ); bool sendFrame( Image *image, struct timeval *timestamp );
void processCommand( const CmdMsg *msg ); void processCommand( const CmdMsg *msg );
public: public:
MonitorStream() : playback_buffer( 0 ), delayed( false ), frame_count( 0 ) { MonitorStream() : playback_buffer( 0 ), delayed( false ), frame_count( 0 ) {
} }
void setStreamBuffer( int p_playback_buffer ) { void setStreamBuffer( int p_playback_buffer ) {
playback_buffer = p_playback_buffer; playback_buffer = p_playback_buffer;
} }
void setStreamTTL( time_t p_ttl ) { void setStreamTTL( time_t p_ttl ) {
ttl = p_ttl; ttl = p_ttl;
} }
bool setStreamStart( int monitor_id ) { bool setStreamStart( int monitor_id ) {
return loadMonitor( monitor_id ); return loadMonitor( monitor_id );
} }
void runStream(); void runStream();
}; };
#endif // ZM_MONITOR_H #endif // ZM_MONITOR_H

View File

@ -333,7 +333,13 @@ void VideoStream::OpenStream( )
Panic( "Could not allocate opicture" ); Panic( "Could not allocate opicture" );
} }
#if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
int size = av_image_get_buffer_size( c->pix_fmt, c->width,
c->height, 1 );
#else
int size = avpicture_get_size( c->pix_fmt, c->width, c->height ); int size = avpicture_get_size( c->pix_fmt, c->width, c->height );
#endif
uint8_t *opicture_buf = (uint8_t *)av_malloc( size ); uint8_t *opicture_buf = (uint8_t *)av_malloc( size );
if ( !opicture_buf ) if ( !opicture_buf )
{ {
@ -344,7 +350,13 @@ void VideoStream::OpenStream( )
#endif #endif
Panic( "Could not allocate opicture_buf" ); Panic( "Could not allocate opicture_buf" );
} }
avpicture_fill( (AVPicture *)opicture, opicture_buf, c->pix_fmt, c->width, c->height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(opicture->data, opicture->linesize,
opicture_buf, c->pix_fmt, c->width, c->height, 1);
#else
avpicture_fill( (AVPicture *)opicture, opicture_buf, c->pix_fmt,
c->width, c->height );
#endif
/* if the output format is not identical to the input format, then a temporary /* if the output format is not identical to the input format, then a temporary
picture is needed too. It is then converted to the required picture is needed too. It is then converted to the required
@ -361,7 +373,12 @@ void VideoStream::OpenStream( )
{ {
Panic( "Could not allocate tmp_opicture" ); Panic( "Could not allocate tmp_opicture" );
} }
#if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
int size = av_image_get_buffer_size( pf, c->width,
c->height,1 );
#else
int size = avpicture_get_size( pf, c->width, c->height ); int size = avpicture_get_size( pf, c->width, c->height );
#endif
uint8_t *tmp_opicture_buf = (uint8_t *)av_malloc( size ); uint8_t *tmp_opicture_buf = (uint8_t *)av_malloc( size );
if ( !tmp_opicture_buf ) if ( !tmp_opicture_buf )
{ {
@ -372,7 +389,14 @@ void VideoStream::OpenStream( )
#endif #endif
Panic( "Could not allocate tmp_opicture_buf" ); Panic( "Could not allocate tmp_opicture_buf" );
} }
avpicture_fill( (AVPicture *)tmp_opicture, tmp_opicture_buf, pf, c->width, c->height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(tmp_opicture->data,
tmp_opicture->linesize, tmp_opicture_buf, pf,
c->width, c->height, 1);
#else
avpicture_fill( (AVPicture *)tmp_opicture,
tmp_opicture_buf, pf, c->width, c->height );
#endif
} }
} }
@ -678,14 +702,14 @@ double VideoStream::ActuallyEncodeFrame( const uint8_t *buffer, int buffer_size,
#endif #endif
if ( got_packet ) if ( got_packet )
{ {
if ( c->coded_frame->key_frame ) // if ( c->coded_frame->key_frame )
{ // {
#if LIBAVCODEC_VERSION_CHECK(52, 30, 2, 30, 2) //#if LIBAVCODEC_VERSION_CHECK(52, 30, 2, 30, 2)
pkt->flags |= AV_PKT_FLAG_KEY; // pkt->flags |= AV_PKT_FLAG_KEY;
#else //#else
pkt->flags |= PKT_FLAG_KEY; // pkt->flags |= PKT_FLAG_KEY;
#endif //#endif
} // }
if ( pkt->pts != (int64_t)AV_NOPTS_VALUE ) if ( pkt->pts != (int64_t)AV_NOPTS_VALUE )
{ {

View File

@ -27,60 +27,60 @@
class VideoStream class VideoStream
{ {
protected: protected:
struct MimeData struct MimeData
{ {
const char *format; const char *format;
const char *mime_type; const char *mime_type;
}; };
protected: protected:
static bool initialised; static bool initialised;
static struct MimeData mime_data[]; static struct MimeData mime_data[];
protected: protected:
char *codec_and_format; char *codec_and_format;
const char *filename; const char *filename;
const char *format; const char *format;
const char *codec_name; const char *codec_name;
enum _AVPIXELFORMAT pf; enum _AVPIXELFORMAT pf;
AVOutputFormat *of; AVOutputFormat *of;
AVFormatContext *ofc; AVFormatContext *ofc;
AVStream *ost; AVStream *ost;
AVCodec *codec; AVCodec *codec;
AVFrame *opicture; AVFrame *opicture;
AVFrame *tmp_opicture; AVFrame *tmp_opicture;
uint8_t *video_outbuf; uint8_t *video_outbuf;
int video_outbuf_size; int video_outbuf_size;
double last_pts; double last_pts;
pthread_t streaming_thread; pthread_t streaming_thread;
bool do_streaming; bool do_streaming;
uint8_t *buffer_copy; uint8_t *buffer_copy;
bool add_timestamp; bool add_timestamp;
unsigned int timestamp; unsigned int timestamp;
pthread_mutex_t *buffer_copy_lock; pthread_mutex_t *buffer_copy_lock;
int buffer_copy_size; int buffer_copy_size;
int buffer_copy_used; int buffer_copy_used;
AVPacket** packet_buffers; AVPacket** packet_buffers;
int packet_index; int packet_index;
int SendPacket(AVPacket *packet); int SendPacket(AVPacket *packet);
static void* StreamingThreadCallback(void *ctx); static void* StreamingThreadCallback(void *ctx);
protected: protected:
static void Initialise(); static void Initialise();
void SetupFormat( ); void SetupFormat( );
void SetupCodec( int colours, int subpixelorder, int width, int height, int bitrate, double frame_rate ); void SetupCodec( int colours, int subpixelorder, int width, int height, int bitrate, double frame_rate );
void SetParameters(); void SetParameters();
void ActuallyOpenStream(); void ActuallyOpenStream();
double ActuallyEncodeFrame( const uint8_t *buffer, int buffer_size, bool add_timestamp=false, unsigned int timestamp=0 ); double ActuallyEncodeFrame( const uint8_t *buffer, int buffer_size, bool add_timestamp=false, unsigned int timestamp=0 );
public: public:
VideoStream( const char *filename, const char *format, int bitrate, double frame_rate, int colours, int subpixelorder, int width, int height ); VideoStream( const char *filename, const char *format, int bitrate, double frame_rate, int colours, int subpixelorder, int width, int height );
~VideoStream(); ~VideoStream();
const char *MimeType() const; const char *MimeType() const;
void OpenStream(); void OpenStream();
double EncodeFrame( const uint8_t *buffer, int buffer_size, bool add_timestamp=false, unsigned int timestamp=0 ); double EncodeFrame( const uint8_t *buffer, int buffer_size, bool add_timestamp=false, unsigned int timestamp=0 );
}; };
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC

View File

@ -28,95 +28,95 @@
void Polygon::calcArea() void Polygon::calcArea()
{ {
double float_area = 0.0L; double float_area = 0.0L;
for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ ) for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ )
{ {
double trap_area = ((coords[i].X()-coords[j].X())*((coords[i].Y()+coords[j].Y())))/2.0L; double trap_area = ((coords[i].X()-coords[j].X())*((coords[i].Y()+coords[j].Y())))/2.0L;
float_area += trap_area; float_area += trap_area;
//printf( "%.2f (%.2f)\n", float_area, trap_area ); //printf( "%.2f (%.2f)\n", float_area, trap_area );
} }
area = (int)round(fabs(float_area)); area = (int)round(fabs(float_area));
} }
void Polygon::calcCentre() void Polygon::calcCentre()
{ {
if ( !area && n_coords ) if ( !area && n_coords )
calcArea(); calcArea();
double float_x = 0.0L, float_y = 0.0L; double float_x = 0.0L, float_y = 0.0L;
for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ ) for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ )
{ {
float_x += ((coords[i].Y()-coords[j].Y())*((coords[i].X()*2)+(coords[i].X()*coords[j].X())+(coords[j].X()*2))); float_x += ((coords[i].Y()-coords[j].Y())*((coords[i].X()*2)+(coords[i].X()*coords[j].X())+(coords[j].X()*2)));
float_y += ((coords[j].X()-coords[i].X())*((coords[i].Y()*2)+(coords[i].Y()*coords[j].Y())+(coords[j].Y()*2))); float_y += ((coords[j].X()-coords[i].X())*((coords[i].Y()*2)+(coords[i].Y()*coords[j].Y())+(coords[j].Y()*2)));
} }
float_x /= (6*area); float_x /= (6*area);
float_y /= (6*area); float_y /= (6*area);
//printf( "%.2f,%.2f\n", float_x, float_y ); //printf( "%.2f,%.2f\n", float_x, float_y );
centre = Coord( (int)round(float_x), (int)round(float_y) ); centre = Coord( (int)round(float_x), (int)round(float_y) );
} }
Polygon::Polygon( int p_n_coords, const Coord *p_coords ) : n_coords( p_n_coords ) Polygon::Polygon( int p_n_coords, const Coord *p_coords ) : n_coords( p_n_coords )
{ {
coords = new Coord[n_coords]; coords = new Coord[n_coords];
int min_x = -1; int min_x = -1;
int max_x = -1; int max_x = -1;
int min_y = -1; int min_y = -1;
int max_y = -1; int max_y = -1;
for( int i = 0; i < n_coords; i++ ) for( int i = 0; i < n_coords; i++ )
{ {
coords[i] = p_coords[i]; coords[i] = p_coords[i];
if ( min_x == -1 || coords[i].X() < min_x ) if ( min_x == -1 || coords[i].X() < min_x )
min_x = coords[i].X(); min_x = coords[i].X();
if ( max_x == -1 || coords[i].X() > max_x ) if ( max_x == -1 || coords[i].X() > max_x )
max_x = coords[i].X(); max_x = coords[i].X();
if ( min_y == -1 || coords[i].Y() < min_y ) if ( min_y == -1 || coords[i].Y() < min_y )
min_y = coords[i].Y(); min_y = coords[i].Y();
if ( max_y == -1 || coords[i].Y() > max_y ) if ( max_y == -1 || coords[i].Y() > max_y )
max_y = coords[i].Y(); max_y = coords[i].Y();
} }
extent = Box( min_x, min_y, max_x, max_y ); extent = Box( min_x, min_y, max_x, max_y );
calcArea(); calcArea();
calcCentre(); calcCentre();
} }
Polygon::Polygon( const Polygon &p_polygon ) : n_coords( p_polygon.n_coords ), extent( p_polygon.extent ), area( p_polygon.area ), centre( p_polygon.centre ) Polygon::Polygon( const Polygon &p_polygon ) : n_coords( p_polygon.n_coords ), extent( p_polygon.extent ), area( p_polygon.area ), centre( p_polygon.centre )
{ {
coords = new Coord[n_coords]; coords = new Coord[n_coords];
for( int i = 0; i < n_coords; i++ ) for( int i = 0; i < n_coords; i++ )
{ {
coords[i] = p_polygon.coords[i]; coords[i] = p_polygon.coords[i];
} }
} }
Polygon &Polygon::operator=( const Polygon &p_polygon ) Polygon &Polygon::operator=( const Polygon &p_polygon )
{ {
if ( n_coords < p_polygon.n_coords ) if ( n_coords < p_polygon.n_coords )
{ {
delete[] coords; delete[] coords;
coords = new Coord[p_polygon.n_coords]; coords = new Coord[p_polygon.n_coords];
} }
n_coords = p_polygon.n_coords; n_coords = p_polygon.n_coords;
for( int i = 0; i < n_coords; i++ ) for( int i = 0; i < n_coords; i++ )
{ {
coords[i] = p_polygon.coords[i]; coords[i] = p_polygon.coords[i];
} }
extent = p_polygon.extent; extent = p_polygon.extent;
area = p_polygon.area; area = p_polygon.area;
centre = p_polygon.centre; centre = p_polygon.centre;
return( *this ); return( *this );
} }
bool Polygon::isInside( const Coord &coord ) const bool Polygon::isInside( const Coord &coord ) const
{ {
bool inside = false; bool inside = false;
for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ ) for ( int i = 0, j = n_coords-1; i < n_coords; j = i++ )
{ {
if ( (((coords[i].Y() <= coord.Y()) && (coord.Y() < coords[j].Y()) ) if ( (((coords[i].Y() <= coord.Y()) && (coord.Y() < coords[j].Y()) )
|| ((coords[j].Y() <= coord.Y()) && (coord.Y() < coords[i].Y()))) || ((coords[j].Y() <= coord.Y()) && (coord.Y() < coords[i].Y())))
&& (coord.X() < (coords[j].X() - coords[i].X()) * (coord.Y() - coords[i].Y()) / (coords[j].Y() - coords[i].Y()) + coords[i].X())) && (coord.X() < (coords[j].X() - coords[i].X()) * (coord.Y() - coords[i].Y()) / (coords[j].Y() - coords[i].Y()) + coords[i].X()))
{ {
inside = !inside; inside = !inside;
} }
} }
return( inside ); return( inside );
} }

View File

@ -33,93 +33,93 @@
class Polygon class Polygon
{ {
protected: protected:
struct Edge struct Edge
{ {
int min_y; int min_y;
int max_y; int max_y;
double min_x; double min_x;
double _1_m; double _1_m;
static int CompareYX( const void *p1, const void *p2 ) static int CompareYX( const void *p1, const void *p2 )
{ {
const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2; const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2;
if ( e1->min_y == e2->min_y ) if ( e1->min_y == e2->min_y )
return( int(e1->min_x - e2->min_x) ); return( int(e1->min_x - e2->min_x) );
else else
return( int(e1->min_y - e2->min_y) ); return( int(e1->min_y - e2->min_y) );
} }
static int CompareX( const void *p1, const void *p2 ) static int CompareX( const void *p1, const void *p2 )
{ {
const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2; const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2;
return( int(e1->min_x - e2->min_x) ); return( int(e1->min_x - e2->min_x) );
} }
}; };
struct Slice struct Slice
{ {
int min_x; int min_x;
int max_x; int max_x;
int n_edges; int n_edges;
int *edges; int *edges;
Slice() Slice()
{ {
n_edges = 0; n_edges = 0;
edges = 0; edges = 0;
} }
~Slice() ~Slice()
{ {
delete edges; delete edges;
} }
}; };
protected: protected:
int n_coords; int n_coords;
Coord *coords; Coord *coords;
Box extent; Box extent;
int area; int area;
Coord centre; Coord centre;
Edge *edges; Edge *edges;
Slice *slices; Slice *slices;
protected: protected:
void initialiseEdges(); void initialiseEdges();
void calcArea(); void calcArea();
void calcCentre(); void calcCentre();
public: public:
inline Polygon() : n_coords( 0 ), coords( 0 ), area( 0 ) inline Polygon() : n_coords( 0 ), coords( 0 ), area( 0 )
{ {
} }
Polygon( int p_n_coords, const Coord *p_coords ); Polygon( int p_n_coords, const Coord *p_coords );
Polygon( const Polygon &p_polygon ); Polygon( const Polygon &p_polygon );
~Polygon() ~Polygon()
{ {
delete[] coords; delete[] coords;
} }
Polygon &operator=( const Polygon &p_polygon ); Polygon &operator=( const Polygon &p_polygon );
inline int getNumCoords() const { return( n_coords ); } inline int getNumCoords() const { return( n_coords ); }
inline const Coord &getCoord( int index ) const inline const Coord &getCoord( int index ) const
{ {
return( coords[index] ); return( coords[index] );
} }
inline const Box &Extent() const { return( extent ); } inline const Box &Extent() const { return( extent ); }
inline int LoX() const { return( extent.LoX() ); } inline int LoX() const { return( extent.LoX() ); }
inline int HiX() const { return( extent.HiX() ); } inline int HiX() const { return( extent.HiX() ); }
inline int LoY() const { return( extent.LoY() ); } inline int LoY() const { return( extent.LoY() ); }
inline int HiY() const { return( extent.HiY() ); } inline int HiY() const { return( extent.HiY() ); }
inline int Width() const { return( extent.Width() ); } inline int Width() const { return( extent.Width() ); }
inline int Height() const { return( extent.Height() ); } inline int Height() const { return( extent.Height() ); }
inline int Area() const { return( area ); } inline int Area() const { return( area ); }
inline const Coord &Centre() const inline const Coord &Centre() const
{ {
return( centre ); return( centre );
} }
bool isInside( const Coord &coord ) const; bool isInside( const Coord &coord ) const;
}; };
#endif // ZM_POLY_H #endif // ZM_POLY_H

View File

@ -26,99 +26,99 @@
RegExpr::RegExpr( const char *pattern, int flags, int p_max_matches ) : max_matches( p_max_matches ), match_buffers( 0 ), match_lengths( 0 ), match_valid( 0 ) RegExpr::RegExpr( const char *pattern, int flags, int p_max_matches ) : max_matches( p_max_matches ), match_buffers( 0 ), match_lengths( 0 ), match_valid( 0 )
{ {
const char *errstr; const char *errstr;
int erroffset = 0; int erroffset = 0;
if ( !(regex = pcre_compile( pattern, flags, &errstr, &erroffset, 0 )) ) if ( !(regex = pcre_compile( pattern, flags, &errstr, &erroffset, 0 )) )
{ {
Panic( "pcre_compile(%s): %s at %d", pattern, errstr, erroffset ); Panic( "pcre_compile(%s): %s at %d", pattern, errstr, erroffset );
} }
regextra = pcre_study( regex, 0, &errstr ); regextra = pcre_study( regex, 0, &errstr );
if ( errstr ) if ( errstr )
{ {
Panic( "pcre_study(%s): %s", pattern, errstr ); Panic( "pcre_study(%s): %s", pattern, errstr );
} }
if ( (ok = (bool)regex) ) if ( (ok = (bool)regex) )
{ {
match_vectors = new int[3*max_matches]; match_vectors = new int[3*max_matches];
memset( match_vectors, 0, sizeof(*match_vectors)*3*max_matches ); memset( match_vectors, 0, sizeof(*match_vectors)*3*max_matches );
match_buffers = new char *[max_matches]; match_buffers = new char *[max_matches];
memset( match_buffers, 0, sizeof(*match_buffers)*max_matches ); memset( match_buffers, 0, sizeof(*match_buffers)*max_matches );
match_lengths = new int[max_matches]; match_lengths = new int[max_matches];
memset( match_lengths, 0, sizeof(*match_lengths)*max_matches ); memset( match_lengths, 0, sizeof(*match_lengths)*max_matches );
match_valid = new bool[max_matches]; match_valid = new bool[max_matches];
memset( match_valid, 0, sizeof(*match_valid)*max_matches ); memset( match_valid, 0, sizeof(*match_valid)*max_matches );
} }
n_matches = 0; n_matches = 0;
} }
RegExpr::~RegExpr() RegExpr::~RegExpr()
{ {
for ( int i = 0; i < max_matches; i++ ) for ( int i = 0; i < max_matches; i++ )
{ {
if ( match_buffers[i] ) if ( match_buffers[i] )
{ {
delete[] match_buffers[i]; delete[] match_buffers[i];
} }
} }
delete[] match_valid; delete[] match_valid;
delete[] match_lengths; delete[] match_lengths;
delete[] match_buffers; delete[] match_buffers;
delete[] match_vectors; delete[] match_vectors;
} }
int RegExpr::Match( const char *subject_string, int subject_length, int flags ) int RegExpr::Match( const char *subject_string, int subject_length, int flags )
{ {
match_string = subject_string; match_string = subject_string;
n_matches = pcre_exec( regex, regextra, subject_string, subject_length, 0, flags, match_vectors, 2*max_matches ); n_matches = pcre_exec( regex, regextra, subject_string, subject_length, 0, flags, match_vectors, 2*max_matches );
if ( n_matches <= 0 ) if ( n_matches <= 0 )
{ {
if ( n_matches < PCRE_ERROR_NOMATCH ) if ( n_matches < PCRE_ERROR_NOMATCH )
{ {
Error( "Error %d executing regular expression", n_matches ); Error( "Error %d executing regular expression", n_matches );
} }
return( n_matches = 0 ); return( n_matches = 0 );
} }
for( int i = 0; i < max_matches; i++ ) for( int i = 0; i < max_matches; i++ )
{ {
match_valid[i] = false; match_valid[i] = false;
} }
return( n_matches ); return( n_matches );
} }
const char *RegExpr::MatchString( int match_index ) const const char *RegExpr::MatchString( int match_index ) const
{ {
if ( match_index > n_matches ) if ( match_index > n_matches )
{ {
return( 0 ); return( 0 );
} }
if ( !match_valid[match_index] ) if ( !match_valid[match_index] )
{ {
int match_len = match_vectors[(2*match_index)+1]-match_vectors[2*match_index]; int match_len = match_vectors[(2*match_index)+1]-match_vectors[2*match_index];
if ( match_lengths[match_index] < (match_len+1) ) if ( match_lengths[match_index] < (match_len+1) )
{ {
delete[] match_buffers[match_index]; delete[] match_buffers[match_index];
match_buffers[match_index] = new char[match_len+1]; match_buffers[match_index] = new char[match_len+1];
match_lengths[match_index] = match_len+1; match_lengths[match_index] = match_len+1;
} }
memcpy( match_buffers[match_index], match_string+match_vectors[2*match_index], match_len ); memcpy( match_buffers[match_index], match_string+match_vectors[2*match_index], match_len );
match_buffers[match_index][match_len] = '\0'; match_buffers[match_index][match_len] = '\0';
match_valid[match_index] = true; match_valid[match_index] = true;
} }
return( match_buffers[match_index] ); return( match_buffers[match_index] );
} }
int RegExpr::MatchLength( int match_index ) const int RegExpr::MatchLength( int match_index ) const
{ {
if ( match_index > n_matches ) if ( match_index > n_matches )
{ {
return( 0 ); return( 0 );
} }
return( match_vectors[(2*match_index)+1]-match_vectors[2*match_index] ); return( match_vectors[(2*match_index)+1]-match_vectors[2*match_index] );
} }
#endif // HAVE_LIBPCRE #endif // HAVE_LIBPCRE

View File

@ -35,29 +35,29 @@
class RegExpr class RegExpr
{ {
protected: protected:
pcre *regex; pcre *regex;
pcre_extra *regextra; pcre_extra *regextra;
int max_matches; int max_matches;
int *match_vectors; int *match_vectors;
mutable char **match_buffers; mutable char **match_buffers;
int *match_lengths; int *match_lengths;
bool *match_valid; bool *match_valid;
protected: protected:
const char *match_string; const char *match_string;
int n_matches; int n_matches;
protected: protected:
bool ok; bool ok;
public: public:
RegExpr( const char *pattern, int cflags=0, int p_max_matches=32 ); RegExpr( const char *pattern, int cflags=0, int p_max_matches=32 );
~RegExpr(); ~RegExpr();
bool Ok() const { return( ok ); } bool Ok() const { return( ok ); }
int MatchCount() const { return( n_matches ); } int MatchCount() const { return( n_matches ); }
int Match( const char *subject_string, int subject_length, int flags=0 ); int Match( const char *subject_string, int subject_length, int flags=0 );
const char *MatchString( int match_index ) const; const char *MatchString( int match_index ) const;
int MatchLength( int match_index ) const; int MatchLength( int match_index ) const;
}; };
#endif // HAVE_LIBPCRE #endif // HAVE_LIBPCRE

View File

@ -238,13 +238,18 @@ int RemoteCameraRtsp::PrimeCapture()
mFrame = avcodec_alloc_frame(); mFrame = avcodec_alloc_frame();
#endif #endif
if(mRawFrame == NULL || mFrame == NULL) if(mRawFrame == NULL || mFrame == NULL)
Fatal( "Unable to allocate frame(s)"); Fatal( "Unable to allocate frame(s)");
#if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
int pSize = av_image_get_buffer_size( imagePixFormat, width, height, 1 );
#else
int pSize = avpicture_get_size( imagePixFormat, width, height ); int pSize = avpicture_get_size( imagePixFormat, width, height );
if( (unsigned int)pSize != imagesize) { #endif
Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize);
} if( (unsigned int)pSize != imagesize) {
Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize);
}
/* /*
#if HAVE_LIBSWSCALE #if HAVE_LIBSWSCALE
if(!sws_isSupportedInput(mCodecContext->pix_fmt)) { if(!sws_isSupportedInput(mCodecContext->pix_fmt)) {
@ -299,24 +304,6 @@ int RemoteCameraRtsp::Capture( Image &image ) {
if ( !buffer.size() ) if ( !buffer.size() )
return( -1 ); return( -1 );
int avResult = av_read_frame( mFormatContext, &packet );
if ( avResult < 0 ) {
char errbuf[AV_ERROR_MAX_STRING_SIZE];
av_strerror(avResult, errbuf, AV_ERROR_MAX_STRING_SIZE);
if (
// Check if EOF.
(avResult == AVERROR_EOF || (mFormatContext->pb && mFormatContext->pb->eof_reached)) ||
// Check for Connection failure.
(avResult == -110)
) {
Info( "av_read_frame returned \"%s\". Reopening stream.", errbuf);
//ReopenFfmpeg();
}
Error( "Unable to read packet from stream %d: error %d \"%s\".", packet.stream_index, avResult, errbuf );
return( -1 );
}
if(mCodecContext->codec_id == AV_CODEC_ID_H264) { if(mCodecContext->codec_id == AV_CODEC_ID_H264) {
// SPS and PPS frames should be saved and appended to IDR frames // SPS and PPS frames should be saved and appended to IDR frames
int nalType = (buffer.head()[3] & 0x1f); int nalType = (buffer.head()[3] & 0x1f);
@ -339,6 +326,8 @@ int avResult = av_read_frame( mFormatContext, &packet );
buffer += lastSps; buffer += lastSps;
buffer += lastPps; buffer += lastPps;
} }
} else {
Debug(3, "Not an h264 packet");
} }
av_init_packet( &packet ); av_init_packet( &packet );
@ -498,9 +487,15 @@ int RemoteCameraRtsp::CaptureAndRecord( Image &image, bool recording, char* even
Debug( 3, "Got frame %d", frameCount ); Debug( 3, "Got frame %d", frameCount );
avpicture_fill( (AVPicture *)mFrame, directbuffer, imagePixFormat, width, height ); #if LIBAVUTIL_VERSION_CHECK(54, 6, 0, 6, 0)
av_image_fill_arrays(mFrame->data, mFrame->linesize,
directbuffer, imagePixFormat, width, height, 1);
#else
avpicture_fill( (AVPicture *)mFrame, directbuffer,
imagePixFormat, width, height);
#endif
//Video recording //Video recording
if ( recording && !wasRecording ) { if ( recording && !wasRecording ) {
//Instantiate the video storage module //Instantiate the video storage module

View File

@ -20,80 +20,80 @@
#ifndef ZM_RGB_H #ifndef ZM_RGB_H
#define ZM_RGB_H #define ZM_RGB_H
typedef uint32_t Rgb; // RGB colour type typedef uint32_t Rgb; // RGB colour type
#define WHITE 0xff #define WHITE 0xff
#define WHITE_R 0xff #define WHITE_R 0xff
#define WHITE_G 0xff #define WHITE_G 0xff
#define WHITE_B 0xff #define WHITE_B 0xff
#define BLACK 0x00 #define BLACK 0x00
#define BLACK_R 0x00 #define BLACK_R 0x00
#define BLACK_G 0x00 #define BLACK_G 0x00
#define BLACK_B 0x00 #define BLACK_B 0x00
#define RGB_WHITE (0x00ffffff) #define RGB_WHITE (0x00ffffff)
#define RGB_BLACK (0x00000000) #define RGB_BLACK (0x00000000)
#define RGB_RED (0x000000ff) #define RGB_RED (0x000000ff)
#define RGB_GREEN (0x0000ff00) #define RGB_GREEN (0x0000ff00)
#define RGB_BLUE (0x00ff0000) #define RGB_BLUE (0x00ff0000)
#define RGB_ORANGE (0x0000a5ff) #define RGB_ORANGE (0x0000a5ff)
#define RGB_PURPLE (0x00800080) #define RGB_PURPLE (0x00800080)
#define RGB_TRANSPARENT (0x01000000) #define RGB_TRANSPARENT (0x01000000)
#define RGB_VAL(v,c) (((v)>>(16-((c)*8)))&0xff) #define RGB_VAL(v,c) (((v)>>(16-((c)*8)))&0xff)
/* RGB or RGBA macros */ /* RGB or RGBA macros */
#define BLUE_VAL_RGBA(v) (((v)>>16)&0xff) #define BLUE_VAL_RGBA(v) (((v)>>16)&0xff)
#define GREEN_VAL_RGBA(v) (((v)>>8)&0xff) #define GREEN_VAL_RGBA(v) (((v)>>8)&0xff)
#define RED_VAL_RGBA(v) ((v)&0xff) #define RED_VAL_RGBA(v) ((v)&0xff)
#define ALPHA_VAL_RGBA(v) ((v)>>24)&0xff) #define ALPHA_VAL_RGBA(v) ((v)>>24)&0xff)
#define RED_PTR_RGBA(ptr) (*((uint8_t*)ptr)) #define RED_PTR_RGBA(ptr) (*((uint8_t*)ptr))
#define GREEN_PTR_RGBA(ptr) (*((uint8_t*)ptr+1)) #define GREEN_PTR_RGBA(ptr) (*((uint8_t*)ptr+1))
#define BLUE_PTR_RGBA(ptr) (*((uint8_t*)ptr+2)) #define BLUE_PTR_RGBA(ptr) (*((uint8_t*)ptr+2))
#define ALPHA_PTR_RGBA(ptr) (*((uint8_t*)ptr+3)) #define ALPHA_PTR_RGBA(ptr) (*((uint8_t*)ptr+3))
/* BGR or BGRA */ /* BGR or BGRA */
#define RED_VAL_BGRA(v) (((v)>>16)&0xff) #define RED_VAL_BGRA(v) (((v)>>16)&0xff)
#define GREEN_VAL_BGRA(v) (((v)>>8)&0xff) #define GREEN_VAL_BGRA(v) (((v)>>8)&0xff)
#define BLUE_VAL_BGRA(v) ((v)&0xff) #define BLUE_VAL_BGRA(v) ((v)&0xff)
#define ALPHA_VAL_BGRA(v) ((v)>>24)&0xff) #define ALPHA_VAL_BGRA(v) ((v)>>24)&0xff)
#define RED_PTR_BGRA(ptr) (*((uint8_t*)ptr+2)) #define RED_PTR_BGRA(ptr) (*((uint8_t*)ptr+2))
#define GREEN_PTR_BGRA(ptr) (*((uint8_t*)ptr+1)) #define GREEN_PTR_BGRA(ptr) (*((uint8_t*)ptr+1))
#define BLUE_PTR_BGRA(ptr) (*((uint8_t*)ptr)) #define BLUE_PTR_BGRA(ptr) (*((uint8_t*)ptr))
#define ALPHA_PTR_BGRA(ptr) (*((uint8_t*)ptr+3)) #define ALPHA_PTR_BGRA(ptr) (*((uint8_t*)ptr+3))
/* ARGB */ /* ARGB */
#define BLUE_VAL_ARGB(v) (((v)>>24)&0xff) #define BLUE_VAL_ARGB(v) (((v)>>24)&0xff)
#define GREEN_VAL_ARGB(v) (((v)>>16)&0xff) #define GREEN_VAL_ARGB(v) (((v)>>16)&0xff)
#define RED_VAL_ARGB(v) (((v)>>8)&0xff) #define RED_VAL_ARGB(v) (((v)>>8)&0xff)
#define ALPHA_VAL_ARGB(v) ((v)&0xff) #define ALPHA_VAL_ARGB(v) ((v)&0xff)
#define RED_PTR_ARGB(ptr) (*((uint8_t*)ptr+1)) #define RED_PTR_ARGB(ptr) (*((uint8_t*)ptr+1))
#define GREEN_PTR_ARGB(ptr) (*((uint8_t*)ptr+2)) #define GREEN_PTR_ARGB(ptr) (*((uint8_t*)ptr+2))
#define BLUE_PTR_ARGB(ptr) (*((uint8_t*)ptr+3)) #define BLUE_PTR_ARGB(ptr) (*((uint8_t*)ptr+3))
#define ALPHA_PTR_ARGB(ptr) (*((uint8_t*)ptr)) #define ALPHA_PTR_ARGB(ptr) (*((uint8_t*)ptr))
/* ABGR */ /* ABGR */
#define BLUE_VAL_ABGR(v) (((v)>>8)&0xff) #define BLUE_VAL_ABGR(v) (((v)>>8)&0xff)
#define GREEN_VAL_ABGR(v) (((v)>>16)&0xff) #define GREEN_VAL_ABGR(v) (((v)>>16)&0xff)
#define RED_VAL_ABGR(v) (((v)>>24)&0xff) #define RED_VAL_ABGR(v) (((v)>>24)&0xff)
#define ALPHA_VAL_ABGR(v) ((v)&0xff) #define ALPHA_VAL_ABGR(v) ((v)&0xff)
#define RED_PTR_ABGR(ptr) (*((uint8_t*)ptr+3)) #define RED_PTR_ABGR(ptr) (*((uint8_t*)ptr+3))
#define GREEN_PTR_ABGR(ptr) (*((uint8_t*)ptr+2)) #define GREEN_PTR_ABGR(ptr) (*((uint8_t*)ptr+2))
#define BLUE_PTR_ABGR(ptr) (*((uint8_t*)ptr+1)) #define BLUE_PTR_ABGR(ptr) (*((uint8_t*)ptr+1))
#define ALPHA_PTR_ABGR(ptr) (*((uint8_t*)ptr)) #define ALPHA_PTR_ABGR(ptr) (*((uint8_t*)ptr))
#define RGBA_BGRA_ZEROALPHA(v) ((v)&0x00ffffff) #define RGBA_BGRA_ZEROALPHA(v) ((v)&0x00ffffff)
#define ARGB_ABGR_ZEROALPHA(v) ((v)&0xffffff00) #define ARGB_ABGR_ZEROALPHA(v) ((v)&0xffffff00)
/* ITU-R BT.709: Y = (0.2126 * R) + (0.7152 * G) + (0.0722 * B) */ /* ITU-R BT.709: Y = (0.2126 * R) + (0.7152 * G) + (0.0722 * B) */
/* ITU-R BT.601: Y = (0.299 * R) + (0.587 * G) + (0.114 * B) */ /* ITU-R BT.601: Y = (0.299 * R) + (0.587 * G) + (0.114 * B) */
/* The formulas below produce an almost identical result to the weighted algorithms from the ITU-R BT.601 standard and the newer ITU-R BT.709 standard, but a lot faster */ /* The formulas below produce an almost identical result to the weighted algorithms from the ITU-R BT.601 standard and the newer ITU-R BT.709 standard, but a lot faster */
// #define RGB_FASTLUM_SINGLE_ITU709(v) ((RED(v)+RED(v)+BLUE(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v))>>3) // #define RGB_FASTLUM_SINGLE_ITU709(v) ((RED(v)+RED(v)+BLUE(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v))>>3)
// #define RGB_FASTLUM_VALUES_ITU709(ra,ga,ba) (((ra)+(ra)+(ba)+(ga)+(ga)+(ga)+(ga)+(ga))>>3) // #define RGB_FASTLUM_VALUES_ITU709(ra,ga,ba) (((ra)+(ra)+(ba)+(ga)+(ga)+(ga)+(ga)+(ga))>>3)
// #define RGB_FASTLUM_SINGLE_ITU601(v) ((RED(v)+RED(v)+RED(v)+BLUE(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v))>>3) // #define RGB_FASTLUM_SINGLE_ITU601(v) ((RED(v)+RED(v)+RED(v)+BLUE(v)+GREEN(v)+GREEN(v)+GREEN(v)+GREEN(v))>>3)
// #define RGB_FASTLUM_VALUES_ITU601(ra,ga,ba) (((ra)+(ra)+(ra)+(ba)+(ga)+(ga)+(ga)+(ga))>>3) // #define RGB_FASTLUM_VALUES_ITU601(ra,ga,ba) (((ra)+(ra)+(ra)+(ba)+(ga)+(ga)+(ga)+(ga))>>3)
/* ZM colours */ /* ZM colours */
#define ZM_COLOUR_RGB32 4 #define ZM_COLOUR_RGB32 4
@ -112,46 +112,46 @@ typedef uint32_t Rgb; // RGB colour type
/* A macro to use default subpixel order for a specified colour. */ /* A macro to use default subpixel order for a specified colour. */
/* for grayscale it will use NONE, for 3 colours it will use R,G,B, for 4 colours it will use R,G,B,A */ /* for grayscale it will use NONE, for 3 colours it will use R,G,B, for 4 colours it will use R,G,B,A */
#define ZM_SUBPIX_ORDER_DEFAULT_FOR_COLOUR(c) ((c)<<1) #define ZM_SUBPIX_ORDER_DEFAULT_FOR_COLOUR(c) ((c)<<1)
/* Convert RGB colour value into BGR\ARGB\ABGR */ /* Convert RGB colour value into BGR\ARGB\ABGR */
inline Rgb rgb_convert(Rgb p_col, int p_subpixorder) { inline Rgb rgb_convert(Rgb p_col, int p_subpixorder) {
Rgb result; Rgb result;
switch(p_subpixorder) { switch(p_subpixorder) {
case ZM_SUBPIX_ORDER_BGR: case ZM_SUBPIX_ORDER_BGR:
case ZM_SUBPIX_ORDER_BGRA: case ZM_SUBPIX_ORDER_BGRA:
{ {
BLUE_PTR_BGRA(&result) = BLUE_VAL_RGBA(p_col); BLUE_PTR_BGRA(&result) = BLUE_VAL_RGBA(p_col);
GREEN_PTR_BGRA(&result) = GREEN_VAL_RGBA(p_col); GREEN_PTR_BGRA(&result) = GREEN_VAL_RGBA(p_col);
RED_PTR_BGRA(&result) = RED_VAL_RGBA(p_col); RED_PTR_BGRA(&result) = RED_VAL_RGBA(p_col);
} }
break; break;
case ZM_SUBPIX_ORDER_ARGB: case ZM_SUBPIX_ORDER_ARGB:
{ {
BLUE_PTR_ARGB(&result) = BLUE_VAL_RGBA(p_col); BLUE_PTR_ARGB(&result) = BLUE_VAL_RGBA(p_col);
GREEN_PTR_ARGB(&result) = GREEN_VAL_RGBA(p_col); GREEN_PTR_ARGB(&result) = GREEN_VAL_RGBA(p_col);
RED_PTR_ARGB(&result) = RED_VAL_RGBA(p_col); RED_PTR_ARGB(&result) = RED_VAL_RGBA(p_col);
} }
break; break;
case ZM_SUBPIX_ORDER_ABGR: case ZM_SUBPIX_ORDER_ABGR:
{ {
BLUE_PTR_ABGR(&result) = BLUE_VAL_RGBA(p_col); BLUE_PTR_ABGR(&result) = BLUE_VAL_RGBA(p_col);
GREEN_PTR_ABGR(&result) = GREEN_VAL_RGBA(p_col); GREEN_PTR_ABGR(&result) = GREEN_VAL_RGBA(p_col);
RED_PTR_ABGR(&result) = RED_VAL_RGBA(p_col); RED_PTR_ABGR(&result) = RED_VAL_RGBA(p_col);
} }
break; break;
/* Grayscale */ /* Grayscale */
case ZM_SUBPIX_ORDER_NONE: case ZM_SUBPIX_ORDER_NONE:
result = p_col & 0xff; result = p_col & 0xff;
break; break;
default: default:
return p_col; return p_col;
break; break;
} }
return result; return result;
} }
#endif // ZM_RGB_H #endif // ZM_RGB_H

View File

@ -34,343 +34,343 @@ RtpCtrlThread::RtpCtrlThread( RtspThread &rtspThread, RtpSource &rtpSource ) : m
int RtpCtrlThread::recvPacket( const unsigned char *packet, ssize_t packetLen ) int RtpCtrlThread::recvPacket( const unsigned char *packet, ssize_t packetLen )
{ {
const RtcpPacket *rtcpPacket; const RtcpPacket *rtcpPacket;
rtcpPacket = (RtcpPacket *)packet; rtcpPacket = (RtcpPacket *)packet;
int consumed = 0; int consumed = 0;
//printf( "C: " ); //printf( "C: " );
//for ( int i = 0; i < packetLen; i++ ) //for ( int i = 0; i < packetLen; i++ )
//printf( "%02x ", (unsigned char)packet[i] ); //printf( "%02x ", (unsigned char)packet[i] );
//printf( "\n" ); //printf( "\n" );
int ver = rtcpPacket->header.version; int ver = rtcpPacket->header.version;
int count = rtcpPacket->header.count; int count = rtcpPacket->header.count;
int pt = rtcpPacket->header.pt; int pt = rtcpPacket->header.pt;
int len = ntohs(rtcpPacket->header.lenN); int len = ntohs(rtcpPacket->header.lenN);
Debug( 5, "RTCP Ver: %d", ver ); Debug( 5, "RTCP Ver: %d", ver );
Debug( 5, "RTCP Count: %d", count ); Debug( 5, "RTCP Count: %d", count );
Debug( 5, "RTCP Pt: %d", pt ); Debug( 5, "RTCP Pt: %d", pt );
Debug( 5, "RTCP len: %d", len ); Debug( 5, "RTCP len: %d", len );
switch( pt ) switch( pt )
{
case RTCP_SR :
{ {
case RTCP_SR : uint32_t ssrc = ntohl(rtcpPacket->body.sr.ssrcN);
{
uint32_t ssrc = ntohl(rtcpPacket->body.sr.ssrcN);
Debug( 5, "RTCP Got SR (%x)", ssrc ); Debug( 5, "RTCP Got SR (%x)", ssrc );
if ( mRtpSource.getSsrc() ) if ( mRtpSource.getSsrc() )
{ {
if ( ssrc != mRtpSource.getSsrc() ) if ( ssrc != mRtpSource.getSsrc() )
{ {
Warning( "Discarding packet for unrecognised ssrc %x", ssrc ); Warning( "Discarding packet for unrecognised ssrc %x", ssrc );
return( -1 ); return( -1 );
} }
} }
else if ( ssrc ) else if ( ssrc )
{ {
mRtpSource.setSsrc( ssrc ); mRtpSource.setSsrc( ssrc );
} }
if ( len > 1 ) if ( len > 1 )
{ {
//printf( "NTPts:%d.%d, RTPts:%d\n", $ntptsmsb, $ntptslsb, $rtpts ); //printf( "NTPts:%d.%d, RTPts:%d\n", $ntptsmsb, $ntptslsb, $rtpts );
uint16_t ntptsmsb = ntohl(rtcpPacket->body.sr.ntpSecN); uint16_t ntptsmsb = ntohl(rtcpPacket->body.sr.ntpSecN);
uint16_t ntptslsb = ntohl(rtcpPacket->body.sr.ntpFracN); uint16_t ntptslsb = ntohl(rtcpPacket->body.sr.ntpFracN);
//printf( "NTPts:%x.%04x, RTPts:%x\n", $ntptsmsb, $ntptslsb, $rtpts ); //printf( "NTPts:%x.%04x, RTPts:%x\n", $ntptsmsb, $ntptslsb, $rtpts );
//printf( "Pkts:$sendpkts, Octs:$sendocts\n" ); //printf( "Pkts:$sendpkts, Octs:$sendocts\n" );
uint32_t rtpTime = ntohl(rtcpPacket->body.sr.rtpTsN); uint32_t rtpTime = ntohl(rtcpPacket->body.sr.rtpTsN);
mRtpSource.updateRtcpData( ntptsmsb, ntptslsb, rtpTime ); mRtpSource.updateRtcpData( ntptsmsb, ntptslsb, rtpTime );
} }
break; break;
}
case RTCP_SDES :
{
ssize_t contentLen = packetLen - sizeof(rtcpPacket->header);
while ( contentLen )
{
Debug( 5, "RTCP CL: %zd", contentLen );
uint32_t ssrc = ntohl(rtcpPacket->body.sdes.srcN);
Debug( 5, "RTCP Got SDES (%x), %d items", ssrc, count );
if ( mRtpSource.getSsrc() && (ssrc != mRtpSource.getSsrc()) )
{
Warning( "Discarding packet for unrecognised ssrc %x", ssrc );
return( -1 );
}
unsigned char *sdesPtr = (unsigned char *)&rtcpPacket->body.sdes.item;
for ( int i = 0; i < count; i++ )
{
RtcpSdesItem *item = (RtcpSdesItem *)sdesPtr;
Debug( 5, "RTCP Item length %d", item->len );
switch( item->type )
{
case RTCP_SDES_CNAME :
{
std::string cname( item->data, item->len );
Debug( 5, "RTCP Got CNAME %s", cname.c_str() );
break;
}
case RTCP_SDES_END :
case RTCP_SDES_NAME :
case RTCP_SDES_EMAIL :
case RTCP_SDES_PHONE :
case RTCP_SDES_LOC :
case RTCP_SDES_TOOL :
case RTCP_SDES_NOTE :
case RTCP_SDES_PRIV :
default :
{
Error( "Received unexpected SDES item type %d, ignoring", item->type );
return( -1 );
}
}
int paddedLen = 4+2+item->len+1; // Add null byte
paddedLen = (((paddedLen-1)/4)+1)*4; // Round to nearest multiple of 4
Debug( 5, "RTCP PL:%d", paddedLen );
sdesPtr += paddedLen;
contentLen = ( paddedLen <= contentLen ) ? ( contentLen - paddedLen ) : 0;
}
}
break;
}
case RTCP_BYE :
{
Debug( 5, "RTCP Got BYE" );
mStop = true;
break;
}
case RTCP_APP :
{
// Ignoring as per RFC 3550
Debug( 5, "Received RTCP_APP packet, ignoring.");
break;
}
case RTCP_RR :
{
Error( "Received RTCP_RR packet." );
return( -1 );
}
default :
{
// Ignore unknown packet types. Some cameras do this by design.
Debug( 5, "Received unexpected packet type %d, ignoring", pt );
break;
}
} }
consumed = sizeof(uint32_t)*(len+1); case RTCP_SDES :
return( consumed ); {
ssize_t contentLen = packetLen - sizeof(rtcpPacket->header);
while ( contentLen )
{
Debug( 5, "RTCP CL: %zd", contentLen );
uint32_t ssrc = ntohl(rtcpPacket->body.sdes.srcN);
Debug( 5, "RTCP Got SDES (%x), %d items", ssrc, count );
if ( mRtpSource.getSsrc() && (ssrc != mRtpSource.getSsrc()) )
{
Warning( "Discarding packet for unrecognised ssrc %x", ssrc );
return( -1 );
}
unsigned char *sdesPtr = (unsigned char *)&rtcpPacket->body.sdes.item;
for ( int i = 0; i < count; i++ )
{
RtcpSdesItem *item = (RtcpSdesItem *)sdesPtr;
Debug( 5, "RTCP Item length %d", item->len );
switch( item->type )
{
case RTCP_SDES_CNAME :
{
std::string cname( item->data, item->len );
Debug( 5, "RTCP Got CNAME %s", cname.c_str() );
break;
}
case RTCP_SDES_END :
case RTCP_SDES_NAME :
case RTCP_SDES_EMAIL :
case RTCP_SDES_PHONE :
case RTCP_SDES_LOC :
case RTCP_SDES_TOOL :
case RTCP_SDES_NOTE :
case RTCP_SDES_PRIV :
default :
{
Error( "Received unexpected SDES item type %d, ignoring", item->type );
return( -1 );
}
}
int paddedLen = 4+2+item->len+1; // Add null byte
paddedLen = (((paddedLen-1)/4)+1)*4; // Round to nearest multiple of 4
Debug( 5, "RTCP PL:%d", paddedLen );
sdesPtr += paddedLen;
contentLen = ( paddedLen <= contentLen ) ? ( contentLen - paddedLen ) : 0;
}
}
break;
}
case RTCP_BYE :
{
Debug( 5, "RTCP Got BYE" );
mStop = true;
break;
}
case RTCP_APP :
{
// Ignoring as per RFC 3550
Debug( 5, "Received RTCP_APP packet, ignoring.");
break;
}
case RTCP_RR :
{
Error( "Received RTCP_RR packet." );
return( -1 );
}
default :
{
// Ignore unknown packet types. Some cameras do this by design.
Debug( 5, "Received unexpected packet type %d, ignoring", pt );
break;
}
}
consumed = sizeof(uint32_t)*(len+1);
return( consumed );
} }
int RtpCtrlThread::generateRr( const unsigned char *packet, ssize_t packetLen ) int RtpCtrlThread::generateRr( const unsigned char *packet, ssize_t packetLen )
{ {
RtcpPacket *rtcpPacket = (RtcpPacket *)packet; RtcpPacket *rtcpPacket = (RtcpPacket *)packet;
int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.rr)+sizeof(rtcpPacket->body.rr.rr[0]); int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.rr)+sizeof(rtcpPacket->body.rr.rr[0]);
int wordLen = ((byteLen-1)/sizeof(uint32_t))+1; int wordLen = ((byteLen-1)/sizeof(uint32_t))+1;
rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.version = RTP_VERSION;
rtcpPacket->header.p = 0; rtcpPacket->header.p = 0;
rtcpPacket->header.pt = RTCP_RR; rtcpPacket->header.pt = RTCP_RR;
rtcpPacket->header.count = 1; rtcpPacket->header.count = 1;
rtcpPacket->header.lenN = htons(wordLen-1); rtcpPacket->header.lenN = htons(wordLen-1);
mRtpSource.updateRtcpStats(); mRtpSource.updateRtcpStats();
Debug( 5, "Ssrc = %d", mRtspThread.getSsrc()+1 ); Debug( 5, "Ssrc = %d", mRtspThread.getSsrc()+1 );
Debug( 5, "Ssrc_1 = %d", mRtpSource.getSsrc() ); Debug( 5, "Ssrc_1 = %d", mRtpSource.getSsrc() );
Debug( 5, "Last Seq = %d", mRtpSource.getMaxSeq() ); Debug( 5, "Last Seq = %d", mRtpSource.getMaxSeq() );
Debug( 5, "Jitter = %d", mRtpSource.getJitter() ); Debug( 5, "Jitter = %d", mRtpSource.getJitter() );
Debug( 5, "Last SR = %d", mRtpSource.getLastSrTimestamp() ); Debug( 5, "Last SR = %d", mRtpSource.getLastSrTimestamp() );
rtcpPacket->body.rr.ssrcN = htonl(mRtspThread.getSsrc()+1); rtcpPacket->body.rr.ssrcN = htonl(mRtspThread.getSsrc()+1);
rtcpPacket->body.rr.rr[0].ssrcN = htonl(mRtpSource.getSsrc()); rtcpPacket->body.rr.rr[0].ssrcN = htonl(mRtpSource.getSsrc());
rtcpPacket->body.rr.rr[0].lost = mRtpSource.getLostPackets(); rtcpPacket->body.rr.rr[0].lost = mRtpSource.getLostPackets();
rtcpPacket->body.rr.rr[0].fraction = mRtpSource.getLostFraction(); rtcpPacket->body.rr.rr[0].fraction = mRtpSource.getLostFraction();
rtcpPacket->body.rr.rr[0].lastSeqN = htonl(mRtpSource.getMaxSeq()); rtcpPacket->body.rr.rr[0].lastSeqN = htonl(mRtpSource.getMaxSeq());
rtcpPacket->body.rr.rr[0].jitterN = htonl(mRtpSource.getJitter()); rtcpPacket->body.rr.rr[0].jitterN = htonl(mRtpSource.getJitter());
rtcpPacket->body.rr.rr[0].lsrN = htonl(mRtpSource.getLastSrTimestamp()); rtcpPacket->body.rr.rr[0].lsrN = htonl(mRtpSource.getLastSrTimestamp());
rtcpPacket->body.rr.rr[0].dlsrN = 0; rtcpPacket->body.rr.rr[0].dlsrN = 0;
return( wordLen*sizeof(uint32_t) ); return( wordLen*sizeof(uint32_t) );
} }
int RtpCtrlThread::generateSdes( const unsigned char *packet, ssize_t packetLen ) int RtpCtrlThread::generateSdes( const unsigned char *packet, ssize_t packetLen )
{ {
RtcpPacket *rtcpPacket = (RtcpPacket *)packet; RtcpPacket *rtcpPacket = (RtcpPacket *)packet;
const std::string &cname = mRtpSource.getCname(); const std::string &cname = mRtpSource.getCname();
int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.sdes)+sizeof(rtcpPacket->body.sdes.item[0])+cname.size(); int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.sdes)+sizeof(rtcpPacket->body.sdes.item[0])+cname.size();
int wordLen = ((byteLen-1)/sizeof(uint32_t))+1; int wordLen = ((byteLen-1)/sizeof(uint32_t))+1;
rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.version = RTP_VERSION;
rtcpPacket->header.p = 0; rtcpPacket->header.p = 0;
rtcpPacket->header.pt = RTCP_SDES; rtcpPacket->header.pt = RTCP_SDES;
rtcpPacket->header.count = 1; rtcpPacket->header.count = 1;
rtcpPacket->header.lenN = htons(wordLen-1); rtcpPacket->header.lenN = htons(wordLen-1);
rtcpPacket->body.sdes.srcN = htonl(mRtpSource.getSsrc()+1); rtcpPacket->body.sdes.srcN = htonl(mRtpSource.getSsrc()+1);
rtcpPacket->body.sdes.item[0].type = RTCP_SDES_CNAME; rtcpPacket->body.sdes.item[0].type = RTCP_SDES_CNAME;
rtcpPacket->body.sdes.item[0].len = cname.size(); rtcpPacket->body.sdes.item[0].len = cname.size();
memcpy( rtcpPacket->body.sdes.item[0].data, cname.data(), cname.size() ); memcpy( rtcpPacket->body.sdes.item[0].data, cname.data(), cname.size() );
return( wordLen*sizeof(uint32_t) ); return( wordLen*sizeof(uint32_t) );
} }
int RtpCtrlThread::generateBye( const unsigned char *packet, ssize_t packetLen ) int RtpCtrlThread::generateBye( const unsigned char *packet, ssize_t packetLen )
{ {
RtcpPacket *rtcpPacket = (RtcpPacket *)packet; RtcpPacket *rtcpPacket = (RtcpPacket *)packet;
int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.bye)+sizeof(rtcpPacket->body.bye.srcN[0]); int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.bye)+sizeof(rtcpPacket->body.bye.srcN[0]);
int wordLen = ((byteLen-1)/sizeof(uint32_t))+1; int wordLen = ((byteLen-1)/sizeof(uint32_t))+1;
rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.version = RTP_VERSION;
rtcpPacket->header.p = 0; rtcpPacket->header.p = 0;
rtcpPacket->header.pt = RTCP_BYE; rtcpPacket->header.pt = RTCP_BYE;
rtcpPacket->header.count = 1; rtcpPacket->header.count = 1;
rtcpPacket->header.lenN = htons(wordLen-1); rtcpPacket->header.lenN = htons(wordLen-1);
rtcpPacket->body.bye.srcN[0] = htonl(mRtpSource.getSsrc()); rtcpPacket->body.bye.srcN[0] = htonl(mRtpSource.getSsrc());
return( wordLen*sizeof(uint32_t) ); return( wordLen*sizeof(uint32_t) );
} }
int RtpCtrlThread::recvPackets( unsigned char *buffer, ssize_t nBytes ) int RtpCtrlThread::recvPackets( unsigned char *buffer, ssize_t nBytes )
{ {
unsigned char *bufferPtr = buffer; unsigned char *bufferPtr = buffer;
// u_int32 len; /* length of compound RTCP packet in words */ // u_int32 len; /* length of compound RTCP packet in words */
// rtcp_t *r; /* RTCP header */ // rtcp_t *r; /* RTCP header */
// rtcp_t *end; /* end of compound RTCP packet */ // rtcp_t *end; /* end of compound RTCP packet */
// if ((*(u_int16 *)r & RTCP_VALID_MASK) != RTCP_VALID_VALUE) { // if ((*(u_int16 *)r & RTCP_VALID_MASK) != RTCP_VALID_VALUE) {
// /* something wrong with packet format */ // /* something wrong with packet format */
// } // }
// end = (rtcp_t *)((u_int32 *)r + len); // end = (rtcp_t *)((u_int32 *)r + len);
// do r = (rtcp_t *)((u_int32 *)r + r->common.length + 1); // do r = (rtcp_t *)((u_int32 *)r + r->common.length + 1);
// while (r < end && r->common.version == 2); // while (r < end && r->common.version == 2);
// if (r != end) { // if (r != end) {
// /* something wrong with packet format */ // /* something wrong with packet format */
// } // }
while ( nBytes > 0 ) while ( nBytes > 0 )
{ {
int consumed = recvPacket( bufferPtr, nBytes ); int consumed = recvPacket( bufferPtr, nBytes );
if ( consumed <= 0 ) if ( consumed <= 0 )
break; break;
bufferPtr += consumed; bufferPtr += consumed;
nBytes -= consumed; nBytes -= consumed;
} }
return( nBytes ); return( nBytes );
} }
int RtpCtrlThread::run() int RtpCtrlThread::run()
{ {
Debug( 2, "Starting control thread %x on port %d", mRtpSource.getSsrc(), mRtpSource.getLocalCtrlPort() ); Debug( 2, "Starting control thread %x on port %d", mRtpSource.getSsrc(), mRtpSource.getLocalCtrlPort() );
SockAddrInet localAddr, remoteAddr; SockAddrInet localAddr, remoteAddr;
bool sendReports; bool sendReports;
UdpInetSocket rtpCtrlServer; UdpInetSocket rtpCtrlServer;
if ( mRtpSource.getLocalHost() != "" ) if ( mRtpSource.getLocalHost() != "" )
{
localAddr.resolve( mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort(), "udp" );
if ( !rtpCtrlServer.bind( localAddr ) )
Fatal( "Failed to bind RTCP server" );
sendReports = false;
Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() );
}
else
{
localAddr.resolve( mRtpSource.getLocalCtrlPort(), "udp" );
if ( !rtpCtrlServer.bind( localAddr ) )
Fatal( "Failed to bind RTCP server" );
Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() );
remoteAddr.resolve( mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort(), "udp" );
if ( !rtpCtrlServer.connect( remoteAddr ) )
Fatal( "Failed to connect RTCP server" );
Debug( 3, "Connected to %s:%d", mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort() );
sendReports = true;
}
// The only reason I can think of why we would have a timeout period is so that we can regularly send RR packets.
// Why 10 seconds? If anything I think this should be whatever timeout value was given in the DESCRIBE response
Select select( 10 );
select.addReader( &rtpCtrlServer );
unsigned char buffer[ZM_NETWORK_BUFSIZ];
time_t last_receive = time(NULL);
bool timeout = false; // used as a flag that we had a timeout, and then sent an RR to see if we wake back up. Real timeout will happen when this is true.
while ( !mStop && select.wait() >= 0 ) {
time_t now = time(NULL);
Select::CommsList readable = select.getReadable();
if ( readable.size() == 0 )
{ {
localAddr.resolve( mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort(), "udp" ); if ( ! timeout ) {
if ( !rtpCtrlServer.bind( localAddr ) ) // With this code here, we will send an SDES and RR packet every 10 seconds
Fatal( "Failed to bind RTCP server" ); ssize_t nBytes;
sendReports = false; unsigned char *bufferPtr = buffer;
Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() ); bufferPtr += generateRr( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
bufferPtr += generateSdes( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
Debug( 3, "Preventing timeout by sending %zd bytes on sd %d. Time since last receive: %d", bufferPtr-buffer, rtpCtrlServer.getWriteDesc(), ( now-last_receive) );
if ( (nBytes = rtpCtrlServer.send( buffer, bufferPtr-buffer )) < 0 )
Error( "Unable to send: %s", strerror( errno ) );
timeout = true;
continue;
} else {
//Error( "RTCP timed out" );
Debug(1, "RTCP timed out. Time since last receive: %d", ( now-last_receive) );
continue;
//break;
}
} else {
timeout = false;
last_receive = time(NULL);
} }
else for ( Select::CommsList::iterator iter = readable.begin(); iter != readable.end(); iter++ )
{ {
localAddr.resolve( mRtpSource.getLocalCtrlPort(), "udp" ); if ( UdpInetSocket *socket = dynamic_cast<UdpInetSocket *>(*iter) )
if ( !rtpCtrlServer.bind( localAddr ) ) {
Fatal( "Failed to bind RTCP server" ); ssize_t nBytes = socket->recv( buffer, sizeof(buffer) );
Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() ); Debug( 4, "Read %zd bytes on sd %d", nBytes, socket->getReadDesc() );
remoteAddr.resolve( mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort(), "udp" );
if ( !rtpCtrlServer.connect( remoteAddr ) )
Fatal( "Failed to connect RTCP server" );
Debug( 3, "Connected to %s:%d", mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort() );
sendReports = true;
}
// The only reason I can think of why we would have a timeout period is so that we can regularly send RR packets. if ( nBytes )
// Why 10 seconds? If anything I think this should be whatever timeout value was given in the DESCRIBE response
Select select( 10 );
select.addReader( &rtpCtrlServer );
unsigned char buffer[ZM_NETWORK_BUFSIZ];
time_t last_receive = time(NULL);
bool timeout = false; // used as a flag that we had a timeout, and then sent an RR to see if we wake back up. Real timeout will happen when this is true.
while ( !mStop && select.wait() >= 0 ) {
time_t now = time(NULL);
Select::CommsList readable = select.getReadable();
if ( readable.size() == 0 )
{ {
if ( ! timeout ) { recvPackets( buffer, nBytes );
// With this code here, we will send an SDES and RR packet every 10 seconds
ssize_t nBytes;
unsigned char *bufferPtr = buffer;
bufferPtr += generateRr( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
bufferPtr += generateSdes( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
Debug( 3, "Preventing timeout by sending %zd bytes on sd %d. Time since last receive: %d", bufferPtr-buffer, rtpCtrlServer.getWriteDesc(), ( now-last_receive) );
if ( (nBytes = rtpCtrlServer.send( buffer, bufferPtr-buffer )) < 0 )
Error( "Unable to send: %s", strerror( errno ) );
timeout = true;
continue;
} else {
//Error( "RTCP timed out" );
Debug(1, "RTCP timed out. Time since last receive: %d", ( now-last_receive) );
continue;
//break;
}
} else {
timeout = false;
last_receive = time(NULL);
}
for ( Select::CommsList::iterator iter = readable.begin(); iter != readable.end(); iter++ )
{
if ( UdpInetSocket *socket = dynamic_cast<UdpInetSocket *>(*iter) )
{
ssize_t nBytes = socket->recv( buffer, sizeof(buffer) );
Debug( 4, "Read %zd bytes on sd %d", nBytes, socket->getReadDesc() );
if ( nBytes ) if ( sendReports )
{ {
recvPackets( buffer, nBytes ); unsigned char *bufferPtr = buffer;
bufferPtr += generateRr( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
if ( sendReports ) bufferPtr += generateSdes( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) );
{ Debug( 3, "Sending %zd bytes on sd %d", bufferPtr-buffer, rtpCtrlServer.getWriteDesc() );
unsigned char *bufferPtr = buffer; if ( (nBytes = rtpCtrlServer.send( buffer, bufferPtr-buffer )) < 0 )
bufferPtr += generateRr( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) ); Error( "Unable to send: %s", strerror( errno ) );
bufferPtr += generateSdes( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) ); //Debug( 4, "Sent %d bytes on sd %d", nBytes, rtpCtrlServer.getWriteDesc() );
Debug( 3, "Sending %zd bytes on sd %d", bufferPtr-buffer, rtpCtrlServer.getWriteDesc() ); }
if ( (nBytes = rtpCtrlServer.send( buffer, bufferPtr-buffer )) < 0 ) } else {
Error( "Unable to send: %s", strerror( errno ) ); // Here is another case of not receiving some data causing us to terminate... why? Sometimes there are pauses in the interwebs.
//Debug( 4, "Sent %d bytes on sd %d", nBytes, rtpCtrlServer.getWriteDesc() ); mStop = true;
} break;
} else {
// Here is another case of not receiving some data causing us to terminate... why? Sometimes there are pauses in the interwebs.
mStop = true;
break;
}
}
else
{
Panic( "Barfed" );
}
} }
}
else
{
Panic( "Barfed" );
}
} }
rtpCtrlServer.close(); }
mRtspThread.stop(); rtpCtrlServer.close();
return( 0 ); mRtspThread.stop();
return( 0 );
} }
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT

View File

@ -25,7 +25,7 @@
#include "zm_thread.h" #include "zm_thread.h"
// Defined in ffmpeg rtp.h // Defined in ffmpeg rtp.h
//#define RTP_MAX_SDES 255 // maximum text length for SDES //#define RTP_MAX_SDES 255 // maximum text length for SDES
// Big-endian mask for version, padding bit and packet type pair // Big-endian mask for version, padding bit and packet type pair
#define RTCP_VALID_MASK (0xc000 | 0x2000 | 0xfe) #define RTCP_VALID_MASK (0xc000 | 0x2000 | 0xfe)
@ -39,119 +39,119 @@ class RtpCtrlThread : public Thread
friend class RtspThread; friend class RtspThread;
private: private:
typedef enum typedef enum
{
RTCP_SR = 200,
RTCP_RR = 201,
RTCP_SDES = 202,
RTCP_BYE = 203,
RTCP_APP = 204
} RtcpType;
typedef enum
{
RTCP_SDES_END = 0,
RTCP_SDES_CNAME = 1,
RTCP_SDES_NAME = 2,
RTCP_SDES_EMAIL = 3,
RTCP_SDES_PHONE = 4,
RTCP_SDES_LOC = 5,
RTCP_SDES_TOOL = 6,
RTCP_SDES_NOTE = 7,
RTCP_SDES_PRIV = 8
} RtcpSdesType;
struct RtcpCommonHeader
{
uint8_t count:5; // varies by packet type
uint8_t p:1; // padding flag
uint8_t version:2; // protocol version
uint8_t pt; // RTCP packet type
uint16_t lenN; // pkt len in words, w/o this word, network order
};
// Reception report block
struct RtcpRr
{
uint32_t ssrcN; // data source being reported
int32_t lost:24; // cumul. no. pkts lost (signed!)
uint32_t fraction:8; // fraction lost since last SR/RR
uint32_t lastSeqN; // extended last seq. no. received, network order
uint32_t jitterN; // interarrival jitter, network order
uint32_t lsrN; // last SR packet from this source, network order
uint32_t dlsrN; // delay since last SR packet, network order
};
// SDES item
struct RtcpSdesItem
{
uint8_t type; // type of item (rtcp_sdes_type_t)
uint8_t len; // length of item (in octets)
char data[]; // text, not null-terminated
};
// RTCP packet
struct RtcpPacket
{
RtcpCommonHeader header; // common header
union
{ {
RTCP_SR = 200, // Sender Report (SR)
RTCP_RR = 201, struct Sr
RTCP_SDES = 202, {
RTCP_BYE = 203, uint32_t ssrcN; // sender generating this report, network order
RTCP_APP = 204 uint32_t ntpSecN; // NTP timestamp, network order
} RtcpType; uint32_t ntpFracN;
uint32_t rtpTsN; // RTP timestamp, network order
uint32_t pSentN; // packets sent, network order
uint32_t oSentN; // octets sent, network order
RtcpRr rr[]; // variable-length list
} sr;
typedef enum // Reception Report (RR)
{ struct Rr
RTCP_SDES_END = 0, {
RTCP_SDES_CNAME = 1, uint32_t ssrcN; // receiver generating this report
RTCP_SDES_NAME = 2, RtcpRr rr[]; // variable-length list
RTCP_SDES_EMAIL = 3, } rr;
RTCP_SDES_PHONE = 4,
RTCP_SDES_LOC = 5,
RTCP_SDES_TOOL = 6,
RTCP_SDES_NOTE = 7,
RTCP_SDES_PRIV = 8
} RtcpSdesType;
struct RtcpCommonHeader // source description (SDES)
{ struct Sdes
uint8_t count:5; // varies by packet type {
uint8_t p:1; // padding flag uint32_t srcN; // first SSRC/CSRC
uint8_t version:2; // protocol version RtcpSdesItem item[]; // list of SDES items
uint8_t pt; // RTCP packet type } sdes;
uint16_t lenN; // pkt len in words, w/o this word, network order
};
// Reception report block // BYE
struct RtcpRr struct Bye
{ {
uint32_t ssrcN; // data source being reported uint32_t srcN[]; // list of sources
int32_t lost:24; // cumul. no. pkts lost (signed!) // can't express trailing text for reason (what does this mean? it's not even english!)
uint32_t fraction:8; // fraction lost since last SR/RR } bye;
uint32_t lastSeqN; // extended last seq. no. received, network order } body;
uint32_t jitterN; // interarrival jitter, network order };
uint32_t lsrN; // last SR packet from this source, network order
uint32_t dlsrN; // delay since last SR packet, network order
};
// SDES item
struct RtcpSdesItem
{
uint8_t type; // type of item (rtcp_sdes_type_t)
uint8_t len; // length of item (in octets)
char data[]; // text, not null-terminated
};
// RTCP packet
struct RtcpPacket
{
RtcpCommonHeader header; // common header
union
{
// Sender Report (SR)
struct Sr
{
uint32_t ssrcN; // sender generating this report, network order
uint32_t ntpSecN; // NTP timestamp, network order
uint32_t ntpFracN;
uint32_t rtpTsN; // RTP timestamp, network order
uint32_t pSentN; // packets sent, network order
uint32_t oSentN; // octets sent, network order
RtcpRr rr[]; // variable-length list
} sr;
// Reception Report (RR)
struct Rr
{
uint32_t ssrcN; // receiver generating this report
RtcpRr rr[]; // variable-length list
} rr;
// source description (SDES)
struct Sdes
{
uint32_t srcN; // first SSRC/CSRC
RtcpSdesItem item[]; // list of SDES items
} sdes;
// BYE
struct Bye
{
uint32_t srcN[]; // list of sources
// can't express trailing text for reason (what does this mean? it's not even english!)
} bye;
} body;
};
private: private:
RtspThread &mRtspThread; RtspThread &mRtspThread;
RtpSource &mRtpSource; RtpSource &mRtpSource;
int mPort; int mPort;
bool mStop; bool mStop;
private: private:
int recvPacket( const unsigned char *packet, ssize_t packetLen ); int recvPacket( const unsigned char *packet, ssize_t packetLen );
int generateRr( const unsigned char *packet, ssize_t packetLen ); int generateRr( const unsigned char *packet, ssize_t packetLen );
int generateSdes( const unsigned char *packet, ssize_t packetLen ); int generateSdes( const unsigned char *packet, ssize_t packetLen );
int generateBye( const unsigned char *packet, ssize_t packetLen ); int generateBye( const unsigned char *packet, ssize_t packetLen );
int recvPackets( unsigned char *buffer, ssize_t nBytes ); int recvPackets( unsigned char *buffer, ssize_t nBytes );
int run(); int run();
public: public:
RtpCtrlThread( RtspThread &rtspThread, RtpSource &rtpSource ); RtpCtrlThread( RtspThread &rtspThread, RtpSource &rtpSource );
void stop() void stop()
{ {
mStop = true; mStop = true;
} }
}; };
#endif // ZM_RTP_CTRL_H #endif // ZM_RTP_CTRL_H

View File

@ -33,88 +33,88 @@ RtpDataThread::RtpDataThread( RtspThread &rtspThread, RtpSource &rtpSource ) : m
bool RtpDataThread::recvPacket( const unsigned char *packet, size_t packetLen ) bool RtpDataThread::recvPacket( const unsigned char *packet, size_t packetLen )
{ {
const RtpDataHeader *rtpHeader; const RtpDataHeader *rtpHeader;
rtpHeader = (RtpDataHeader *)packet; rtpHeader = (RtpDataHeader *)packet;
//printf( "D: " ); //printf( "D: " );
//for ( int i = 0; i < 32; i++ ) //for ( int i = 0; i < 32; i++ )
//printf( "%02x ", (unsigned char)packet[i] ); //printf( "%02x ", (unsigned char)packet[i] );
//printf( "\n" ); //printf( "\n" );
Debug( 5, "Ver: %d", rtpHeader->version ); Debug( 5, "Ver: %d", rtpHeader->version );
Debug( 5, "P: %d", rtpHeader->p ); Debug( 5, "P: %d", rtpHeader->p );
Debug( 5, "Pt: %d", rtpHeader->pt ); Debug( 5, "Pt: %d", rtpHeader->pt );
Debug( 5, "Mk: %d", rtpHeader->m ); Debug( 5, "Mk: %d", rtpHeader->m );
Debug( 5, "Seq: %d", ntohs(rtpHeader->seqN) ); Debug( 5, "Seq: %d", ntohs(rtpHeader->seqN) );
Debug( 5, "T/S: %x", ntohl(rtpHeader->timestampN) ); Debug( 5, "T/S: %x", ntohl(rtpHeader->timestampN) );
Debug( 5, "SSRC: %x", ntohl(rtpHeader->ssrcN) ); Debug( 5, "SSRC: %x", ntohl(rtpHeader->ssrcN) );
//unsigned short seq = ntohs(rtpHeader->seqN); //unsigned short seq = ntohs(rtpHeader->seqN);
unsigned long ssrc = ntohl(rtpHeader->ssrcN); unsigned long ssrc = ntohl(rtpHeader->ssrcN);
if ( mRtpSource.getSsrc() && (ssrc != mRtpSource.getSsrc()) ) if ( mRtpSource.getSsrc() && (ssrc != mRtpSource.getSsrc()) )
{ {
Warning( "Discarding packet for unrecognised ssrc %lx", ssrc ); Warning( "Discarding packet for unrecognised ssrc %lx", ssrc );
return( false ); return( false );
} }
return( mRtpSource.handlePacket( packet, packetLen ) ); return( mRtpSource.handlePacket( packet, packetLen ) );
} }
int RtpDataThread::run() int RtpDataThread::run()
{ {
Debug( 2, "Starting data thread %d on port %d", mRtpSource.getSsrc(), mRtpSource.getLocalDataPort() ); Debug( 2, "Starting data thread %d on port %d", mRtpSource.getSsrc(), mRtpSource.getLocalDataPort() );
SockAddrInet localAddr; SockAddrInet localAddr;
UdpInetServer rtpDataSocket; UdpInetServer rtpDataSocket;
if ( mRtpSource.getLocalHost() != "" ) if ( mRtpSource.getLocalHost() != "" )
localAddr.resolve( mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalDataPort(), "udp" ); localAddr.resolve( mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalDataPort(), "udp" );
else else
localAddr.resolve( mRtpSource.getLocalDataPort(), "udp" ); localAddr.resolve( mRtpSource.getLocalDataPort(), "udp" );
if ( !rtpDataSocket.bind( localAddr ) ) if ( !rtpDataSocket.bind( localAddr ) )
Fatal( "Failed to bind RTP server" ); Fatal( "Failed to bind RTP server" );
Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalDataPort() ); Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalDataPort() );
Select select( 3 ); Select select( 3 );
select.addReader( &rtpDataSocket ); select.addReader( &rtpDataSocket );
unsigned char buffer[ZM_NETWORK_BUFSIZ]; unsigned char buffer[ZM_NETWORK_BUFSIZ];
while ( !mStop && select.wait() >= 0 ) while ( !mStop && select.wait() >= 0 )
{ {
if ( mStop ) if ( mStop )
break; break;
Select::CommsList readable = select.getReadable(); Select::CommsList readable = select.getReadable();
if ( readable.size() == 0 ) if ( readable.size() == 0 )
{
Error( "RTP timed out" );
mStop = true;
break;
}
for ( Select::CommsList::iterator iter = readable.begin(); iter != readable.end(); iter++ )
{
if ( UdpInetServer *socket = dynamic_cast<UdpInetServer *>(*iter) )
{
int nBytes = socket->recv( buffer, sizeof(buffer) );
Debug( 4, "Got %d bytes on sd %d", nBytes, socket->getReadDesc() );
if ( nBytes )
{ {
Error( "RTP timed out" ); recvPacket( buffer, nBytes );
mStop = true;
break;
} }
for ( Select::CommsList::iterator iter = readable.begin(); iter != readable.end(); iter++ ) else
{ {
if ( UdpInetServer *socket = dynamic_cast<UdpInetServer *>(*iter) ) mStop = true;
{ break;
int nBytes = socket->recv( buffer, sizeof(buffer) );
Debug( 4, "Got %d bytes on sd %d", nBytes, socket->getReadDesc() );
if ( nBytes )
{
recvPacket( buffer, nBytes );
}
else
{
mStop = true;
break;
}
}
else
{
Panic( "Barfed" );
}
} }
} }
rtpDataSocket.close(); else
mRtspThread.stop(); {
return( 0 ); Panic( "Barfed" );
}
}
}
rtpDataSocket.close();
mRtspThread.stop();
return( 0 );
} }
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT

View File

@ -30,16 +30,16 @@ class RtpSource;
struct RtpDataHeader struct RtpDataHeader
{ {
uint8_t cc:4; // CSRC count uint8_t cc:4; // CSRC count
uint8_t x:1; // header extension flag uint8_t x:1; // header extension flag
uint8_t p:1; // padding flag uint8_t p:1; // padding flag
uint8_t version:2; // protocol version uint8_t version:2; // protocol version
uint8_t pt:7; // payload type uint8_t pt:7; // payload type
uint8_t m:1; // marker bit uint8_t m:1; // marker bit
uint16_t seqN; // sequence number, network order uint16_t seqN; // sequence number, network order
uint32_t timestampN; // timestamp, network order uint32_t timestampN; // timestamp, network order
uint32_t ssrcN; // synchronization source, network order uint32_t ssrcN; // synchronization source, network order
uint32_t csrc[]; // optional CSRC list uint32_t csrc[]; // optional CSRC list
}; };
class RtpDataThread : public Thread class RtpDataThread : public Thread
@ -47,21 +47,21 @@ class RtpDataThread : public Thread
friend class RtspThread; friend class RtspThread;
private: private:
RtspThread &mRtspThread; RtspThread &mRtspThread;
RtpSource &mRtpSource; RtpSource &mRtpSource;
bool mStop; bool mStop;
private: private:
bool recvPacket( const unsigned char *packet, size_t packetLen ); bool recvPacket( const unsigned char *packet, size_t packetLen );
int run(); int run();
public: public:
RtpDataThread( RtspThread &rtspThread, RtpSource &rtpSource ); RtpDataThread( RtspThread &rtspThread, RtpSource &rtpSource );
void stop() void stop()
{ {
mStop = true; mStop = true;
} }
}; };
#endif // ZM_RTP_DATA_H #endif // ZM_RTP_DATA_H

View File

@ -35,152 +35,152 @@ struct RtpDataHeader;
class RtpSource class RtpSource
{ {
public: public:
typedef enum { EMPTY, FILLING, READY } FrameState; typedef enum { EMPTY, FILLING, READY } FrameState;
private: private:
static const int RTP_SEQ_MOD = 1<<16; static const int RTP_SEQ_MOD = 1<<16;
static const int MAX_DROPOUT = 3000; static const int MAX_DROPOUT = 3000;
static const int MAX_MISORDER = 100; static const int MAX_MISORDER = 100;
static const int MIN_SEQUENTIAL = 2; static const int MIN_SEQUENTIAL = 2;
private: private:
// Identity // Identity
int mId; // General id (usually monitor id) int mId; // General id (usually monitor id)
std::string mCname; // Canonical name, for SDES std::string mCname; // Canonical name, for SDES
// RTP/RTCP fields // RTP/RTCP fields
uint32_t mSsrc; uint32_t mSsrc;
uint16_t mMaxSeq; // highest seq. number seen uint16_t mMaxSeq; // highest seq. number seen
uint32_t mCycles; // shifted count of seq. number cycles uint32_t mCycles; // shifted count of seq. number cycles
uint32_t mBaseSeq; // base seq number uint32_t mBaseSeq; // base seq number
uint32_t mBadSeq; // last 'bad' seq number + 1 uint32_t mBadSeq; // last 'bad' seq number + 1
uint32_t mProbation; // sequ. packets till source is valid uint32_t mProbation; // sequ. packets till source is valid
uint32_t mReceivedPackets; // packets received uint32_t mReceivedPackets; // packets received
uint32_t mExpectedPrior; // packet expected at last interval uint32_t mExpectedPrior; // packet expected at last interval
uint32_t mReceivedPrior; // packet received at last interval uint32_t mReceivedPrior; // packet received at last interval
uint32_t mTransit; // relative trans time for prev pkt uint32_t mTransit; // relative trans time for prev pkt
uint32_t mJitter; // estimated jitter uint32_t mJitter; // estimated jitter
// Ports/Channels // Ports/Channels
std::string mLocalHost; std::string mLocalHost;
int mLocalPortChans[2]; int mLocalPortChans[2];
std::string mRemoteHost; std::string mRemoteHost;
int mRemotePortChans[2]; int mRemotePortChans[2];
// Time keys // Time keys
uint32_t mRtpClock; uint32_t mRtpClock;
uint32_t mRtpFactor; uint32_t mRtpFactor;
struct timeval mBaseTimeReal; struct timeval mBaseTimeReal;
struct timeval mBaseTimeNtp; struct timeval mBaseTimeNtp;
uint32_t mBaseTimeRtp; uint32_t mBaseTimeRtp;
struct timeval mLastSrTimeReal; struct timeval mLastSrTimeReal;
uint32_t mLastSrTimeNtpSecs; uint32_t mLastSrTimeNtpSecs;
uint32_t mLastSrTimeNtpFrac; uint32_t mLastSrTimeNtpFrac;
struct timeval mLastSrTimeNtp; struct timeval mLastSrTimeNtp;
uint32_t mLastSrTimeRtp; uint32_t mLastSrTimeRtp;
// Stats, intermittently updated // Stats, intermittently updated
uint32_t mExpectedPackets; uint32_t mExpectedPackets;
uint32_t mLostPackets; uint32_t mLostPackets;
uint8_t mLostFraction; uint8_t mLostFraction;
_AVCODECID mCodecId; _AVCODECID mCodecId;
Buffer mFrame; Buffer mFrame;
int mFrameCount; int mFrameCount;
bool mFrameGood; bool mFrameGood;
bool prevM; bool prevM;
ThreadData<bool> mFrameReady; ThreadData<bool> mFrameReady;
ThreadData<bool> mFrameProcessed; ThreadData<bool> mFrameProcessed;
private: private:
void init( uint16_t seq ); void init( uint16_t seq );
public: public:
RtpSource( int id, const std::string &localHost, int localPortBase, const std::string &remoteHost, int remotePortBase, uint32_t ssrc, uint16_t seq, uint32_t rtpClock, uint32_t rtpTime, _AVCODECID codecId ); RtpSource( int id, const std::string &localHost, int localPortBase, const std::string &remoteHost, int remotePortBase, uint32_t ssrc, uint16_t seq, uint32_t rtpClock, uint32_t rtpTime, _AVCODECID codecId );
bool updateSeq( uint16_t seq ); bool updateSeq( uint16_t seq );
void updateJitter( const RtpDataHeader *header ); void updateJitter( const RtpDataHeader *header );
void updateRtcpData( uint32_t ntpTimeSecs, uint32_t ntpTimeFrac, uint32_t rtpTime ); void updateRtcpData( uint32_t ntpTimeSecs, uint32_t ntpTimeFrac, uint32_t rtpTime );
void updateRtcpStats(); void updateRtcpStats();
bool handlePacket( const unsigned char *packet, size_t packetLen ); bool handlePacket( const unsigned char *packet, size_t packetLen );
uint32_t getSsrc() const uint32_t getSsrc() const
{ {
return( mSsrc ); return( mSsrc );
} }
void setSsrc( uint32_t ssrc ) void setSsrc( uint32_t ssrc )
{ {
mSsrc = ssrc; mSsrc = ssrc;
} }
bool getFrame( Buffer &buffer ); bool getFrame( Buffer &buffer );
const std::string &getCname() const const std::string &getCname() const
{ {
return( mCname ); return( mCname );
} }
const std::string &getLocalHost() const const std::string &getLocalHost() const
{ {
return( mLocalHost ); return( mLocalHost );
} }
int getLocalDataPort() const int getLocalDataPort() const
{ {
return( mLocalPortChans[0] ); return( mLocalPortChans[0] );
} }
int getLocalCtrlPort() const int getLocalCtrlPort() const
{ {
return( mLocalPortChans[1] ); return( mLocalPortChans[1] );
} }
const std::string &getRemoteHost() const const std::string &getRemoteHost() const
{ {
return( mRemoteHost ); return( mRemoteHost );
} }
int getRemoteDataPort() const int getRemoteDataPort() const
{ {
return( mRemotePortChans[0] ); return( mRemotePortChans[0] );
} }
int getRemoteCtrlPort() const int getRemoteCtrlPort() const
{ {
return( mRemotePortChans[1] ); return( mRemotePortChans[1] );
} }
uint32_t getMaxSeq() const uint32_t getMaxSeq() const
{ {
return( mCycles + mMaxSeq ); return( mCycles + mMaxSeq );
} }
uint32_t getExpectedPackets() const uint32_t getExpectedPackets() const
{ {
return( mExpectedPackets ); return( mExpectedPackets );
} }
uint32_t getLostPackets() const uint32_t getLostPackets() const
{ {
return( mLostPackets ); return( mLostPackets );
} }
uint8_t getLostFraction() const uint8_t getLostFraction() const
{ {
return( mLostFraction ); return( mLostFraction );
} }
uint32_t getJitter() const uint32_t getJitter() const
{ {
return( mJitter >> 4 ); return( mJitter >> 4 );
} }
uint32_t getLastSrTimestamp() const uint32_t getLastSrTimestamp() const
{ {
return( ((mLastSrTimeNtpSecs&0xffff)<<16)|(mLastSrTimeNtpFrac>>16) ); return( ((mLastSrTimeNtpSecs&0xffff)<<16)|(mLastSrTimeNtpFrac>>16) );
} }
}; };
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC

File diff suppressed because it is too large Load Diff

View File

@ -34,110 +34,110 @@
class RtspThread : public Thread class RtspThread : public Thread
{ {
public: public:
typedef enum { RTP_UNICAST, RTP_MULTICAST, RTP_RTSP, RTP_RTSP_HTTP } RtspMethod; typedef enum { RTP_UNICAST, RTP_MULTICAST, RTP_RTSP, RTP_RTSP_HTTP } RtspMethod;
typedef enum { UNDEFINED, UNICAST, MULTICAST } RtspDist; typedef enum { UNDEFINED, UNICAST, MULTICAST } RtspDist;
private: private:
typedef std::set<int> PortSet; typedef std::set<int> PortSet;
typedef std::set<uint32_t> SsrcSet; typedef std::set<uint32_t> SsrcSet;
typedef std::map<uint32_t,RtpSource *> SourceMap; typedef std::map<uint32_t,RtpSource *> SourceMap;
private: private:
static int smMinDataPort; static int smMinDataPort;
static int smMaxDataPort; static int smMaxDataPort;
static PortSet smLocalSsrcs; static PortSet smLocalSsrcs;
static PortSet smAssignedPorts; static PortSet smAssignedPorts;
private: private:
int mId; int mId;
RtspMethod mMethod; RtspMethod mMethod;
std::string mProtocol; std::string mProtocol;
std::string mHost; std::string mHost;
std::string mPort; std::string mPort;
std::string mPath; std::string mPath;
bool mRtspDescribe; bool mRtspDescribe;
std::string mUrl; std::string mUrl;
// Reworked authentication system // Reworked authentication system
// First try without authentication, even if we have a username and password // First try without authentication, even if we have a username and password
// on receiving a 401 response, select authentication method (basic or digest) // on receiving a 401 response, select authentication method (basic or digest)
// fill required fields and set needAuth // fill required fields and set needAuth
// subsequent requests can set the required authentication header. // subsequent requests can set the required authentication header.
bool mNeedAuth; bool mNeedAuth;
int respCode; int respCode;
zm::Authenticator* mAuthenticator; zm::Authenticator* mAuthenticator;
std::string mHttpSession; ///< Only for RTSP over HTTP sessions std::string mHttpSession; ///< Only for RTSP over HTTP sessions
TcpInetClient mRtspSocket; TcpInetClient mRtspSocket;
TcpInetClient mRtspSocket2; TcpInetClient mRtspSocket2;
SourceMap mSources; SourceMap mSources;
SessionDescriptor *mSessDesc; SessionDescriptor *mSessDesc;
AVFormatContext *mFormatContext; AVFormatContext *mFormatContext;
uint16_t mSeq; uint16_t mSeq;
uint32_t mSession; uint32_t mSession;
uint32_t mSsrc; uint32_t mSsrc;
int mRemotePorts[2]; int mRemotePorts[2];
int mRemoteChannels[2]; int mRemoteChannels[2];
RtspDist mDist; RtspDist mDist;
unsigned long mRtpTime; unsigned long mRtpTime;
bool mStop; bool mStop;
private: private:
bool sendCommand( std::string message ); bool sendCommand( std::string message );
bool recvResponse( std::string &response ); bool recvResponse( std::string &response );
void checkAuthResponse(std::string &response); void checkAuthResponse(std::string &response);
public: public:
RtspThread( int id, RtspMethod method, const std::string &protocol, const std::string &host, const std::string &port, const std::string &path, const std::string &auth, bool rtsp_describe ); RtspThread( int id, RtspMethod method, const std::string &protocol, const std::string &host, const std::string &port, const std::string &path, const std::string &auth, bool rtsp_describe );
~RtspThread(); ~RtspThread();
public: public:
int requestPorts(); int requestPorts();
void releasePorts( int port ); void releasePorts( int port );
bool isValidSsrc( uint32_t ssrc ); bool isValidSsrc( uint32_t ssrc );
bool updateSsrc( uint32_t ssrc, const RtpDataHeader *header ); bool updateSsrc( uint32_t ssrc, const RtpDataHeader *header );
uint32_t getSsrc() const uint32_t getSsrc() const
{ {
return( mSsrc ); return( mSsrc );
} }
bool hasSources() const bool hasSources() const
{ {
return( !mSources.empty() ); return( !mSources.empty() );
} }
AVFormatContext *getFormatContext() AVFormatContext *getFormatContext()
{ {
return( mFormatContext ); return( mFormatContext );
} }
bool getFrame( Buffer &frame ) bool getFrame( Buffer &frame )
{ {
SourceMap::iterator iter = mSources.begin(); SourceMap::iterator iter = mSources.begin();
if ( iter == mSources.end() ) if ( iter == mSources.end() )
return( false ); return( false );
return( iter->second->getFrame( frame ) ); return( iter->second->getFrame( frame ) );
} }
int run(); int run();
void stop() void stop()
{ {
mStop = true; mStop = true;
} }
bool stopped() const bool stopped() const
{ {
return( mStop ); return( mStop );
} }
}; };
#endif // ZM_RTSP_H #endif // ZM_RTSP_H

View File

@ -28,206 +28,206 @@ namespace zm {
Authenticator::Authenticator(std::string &username, std::string password) { Authenticator::Authenticator(std::string &username, std::string password) {
#ifdef HAVE_GCRYPT_H #ifdef HAVE_GCRYPT_H
// Special initialisation for libgcrypt // Special initialisation for libgcrypt
if ( !gcry_check_version( GCRYPT_VERSION ) ) if ( !gcry_check_version( GCRYPT_VERSION ) )
{ {
Fatal( "Unable to initialise libgcrypt" ); Fatal( "Unable to initialise libgcrypt" );
} }
gcry_control( GCRYCTL_DISABLE_SECMEM, 0 ); gcry_control( GCRYCTL_DISABLE_SECMEM, 0 );
gcry_control( GCRYCTL_INITIALIZATION_FINISHED, 0 ); gcry_control( GCRYCTL_INITIALIZATION_FINISHED, 0 );
#endif // HAVE_GCRYPT_H #endif // HAVE_GCRYPT_H
fAuthMethod = AUTH_UNDEFINED; fAuthMethod = AUTH_UNDEFINED;
fUsername = username; fUsername = username;
fPassword = password; fPassword = password;
nc = 1; nc = 1;
fCnonce = "0a4f113b"; fCnonce = "0a4f113b";
} }
Authenticator::~Authenticator() { Authenticator::~Authenticator() {
reset(); reset();
} }
void Authenticator::reset() { void Authenticator::reset() {
fRealm.clear(); fRealm.clear();
fNonce.clear(); fNonce.clear();
fUsername.clear(); fUsername.clear();
fPassword.clear(); fPassword.clear();
fAuthMethod = AUTH_UNDEFINED; fAuthMethod = AUTH_UNDEFINED;
} }
void Authenticator::authHandleHeader(std::string headerData) void Authenticator::authHandleHeader(std::string headerData)
{ {
const char* basic_match = "Basic "; const char* basic_match = "Basic ";
const char* digest_match = "Digest "; const char* digest_match = "Digest ";
size_t digest_match_len = strlen(digest_match); size_t digest_match_len = strlen(digest_match);
// Check if basic auth // Check if basic auth
if (strncasecmp(headerData.c_str(),basic_match,strlen(basic_match)) == 0) if (strncasecmp(headerData.c_str(),basic_match,strlen(basic_match)) == 0)
{
fAuthMethod = AUTH_BASIC;
Debug( 2, "Set authMethod to Basic");
}
// Check if digest auth
else if (strncasecmp( headerData.c_str(),digest_match,digest_match_len ) == 0)
{
fAuthMethod = AUTH_DIGEST;
Debug( 2, "Set authMethod to Digest");
StringVector subparts = split(headerData.substr(digest_match_len, headerData.length() - digest_match_len), ",");
// subparts are key="value"
for ( size_t i = 0; i < subparts.size(); i++ )
{ {
fAuthMethod = AUTH_BASIC; StringVector kvPair = split( trimSpaces( subparts[i] ), "=" );
Debug( 2, "Set authMethod to Basic"); std::string key = trimSpaces( kvPair[0] );
} if (key == "realm") {
// Check if digest auth fRealm = trimSet( kvPair[1], "\"");
else if (strncasecmp( headerData.c_str(),digest_match,digest_match_len ) == 0) continue;
{ }
fAuthMethod = AUTH_DIGEST; if (key == "nonce") {
Debug( 2, "Set authMethod to Digest"); fNonce = trimSet( kvPair[1], "\"");
StringVector subparts = split(headerData.substr(digest_match_len, headerData.length() - digest_match_len), ","); continue;
// subparts are key="value" }
for ( size_t i = 0; i < subparts.size(); i++ ) if (key == "qop") {
{ fQop = trimSet( kvPair[1], "\"");
StringVector kvPair = split( trimSpaces( subparts[i] ), "=" ); continue;
std::string key = trimSpaces( kvPair[0] ); }
if (key == "realm") {
fRealm = trimSet( kvPair[1], "\"");
continue;
}
if (key == "nonce") {
fNonce = trimSet( kvPair[1], "\"");
continue;
}
if (key == "qop") {
fQop = trimSet( kvPair[1], "\"");
continue;
}
}
Debug( 2, "Auth data completed. User: %s, realm: %s, nonce: %s, qop: %s", username().c_str(), fRealm.c_str(), fNonce.c_str(), fQop.c_str() );
} }
Debug( 2, "Auth data completed. User: %s, realm: %s, nonce: %s, qop: %s", username().c_str(), fRealm.c_str(), fNonce.c_str(), fQop.c_str() );
}
} }
std::string Authenticator::quote(std::string src) std::string Authenticator::quote(std::string src)
{ {
return replaceAll(replaceAll(src, "\\", "\\\\"), "\"", "\\\""); return replaceAll(replaceAll(src, "\\", "\\\\"), "\"", "\\\"");
} }
std::string Authenticator::getAuthHeader(std::string method, std::string uri) std::string Authenticator::getAuthHeader(std::string method, std::string uri)
{ {
std::string result = "Authorization: "; std::string result = "Authorization: ";
if (fAuthMethod == AUTH_BASIC) if (fAuthMethod == AUTH_BASIC)
{ {
result += "Basic " + base64Encode( username() + ":" + password() ); result += "Basic " + base64Encode( username() + ":" + password() );
}
else if (fAuthMethod == AUTH_DIGEST)
{
result += std::string("Digest ") +
"username=\"" + quote(username()) + "\", realm=\"" + quote(realm()) + "\", " +
"nonce=\"" + quote(nonce()) + "\", uri=\"" + quote(uri) + "\"";
if ( ! fQop.empty() ) {
result += ", qop=" + fQop;
result += ", nc=" + stringtf("%08x",nc);
result += ", cnonce=\"" + fCnonce + "\"";
} }
else if (fAuthMethod == AUTH_DIGEST) result += ", response=\"" + computeDigestResponse(method, uri) + "\"";
{ result += ", algorithm=\"MD5\"";
result += std::string("Digest ") +
"username=\"" + quote(username()) + "\", realm=\"" + quote(realm()) + "\", " +
"nonce=\"" + quote(nonce()) + "\", uri=\"" + quote(uri) + "\"";
if ( ! fQop.empty() ) {
result += ", qop=" + fQop;
result += ", nc=" + stringtf("%08x",nc);
result += ", cnonce=\"" + fCnonce + "\"";
}
result += ", response=\"" + computeDigestResponse(method, uri) + "\"";
result += ", algorithm=\"MD5\"";
//Authorization: Digest username="zm", //Authorization: Digest username="zm",
// realm="NC-336PW-HD-1080P", // realm="NC-336PW-HD-1080P",
// nonce="de8859d97609a6fcc16eaba490dcfd80", // nonce="de8859d97609a6fcc16eaba490dcfd80",
// uri="rtsp://10.192.16.8:554/live/0/h264.sdp", // uri="rtsp://10.192.16.8:554/live/0/h264.sdp",
// response="4092120557d3099a163bd51a0d59744d", // response="4092120557d3099a163bd51a0d59744d",
// algorithm=MD5, // algorithm=MD5,
// opaque="5ccc069c403ebaf9f0171e9517f40e41", // opaque="5ccc069c403ebaf9f0171e9517f40e41",
// qop="auth", // qop="auth",
// cnonce="c8051140765877dc", // cnonce="c8051140765877dc",
// nc=00000001 // nc=00000001
} }
result += "\r\n"; result += "\r\n";
return result; return result;
} }
std::string Authenticator::computeDigestResponse(std::string &method, std::string &uri) { std::string Authenticator::computeDigestResponse(std::string &method, std::string &uri) {
#if HAVE_DECL_MD5 || HAVE_DECL_GNUTLS_FINGERPRINT #if HAVE_DECL_MD5 || HAVE_DECL_GNUTLS_FINGERPRINT
// The "response" field is computed as: // The "response" field is computed as:
// md5(md5(<username>:<realm>:<password>):<nonce>:md5(<cmd>:<url>)) // md5(md5(<username>:<realm>:<password>):<nonce>:md5(<cmd>:<url>))
size_t md5len = 16; size_t md5len = 16;
unsigned char md5buf[md5len]; unsigned char md5buf[md5len];
char md5HexBuf[md5len*2+1]; char md5HexBuf[md5len*2+1];
// Step 1: md5(<username>:<realm>:<password>) // Step 1: md5(<username>:<realm>:<password>)
std::string ha1Data = username() + ":" + realm() + ":" + password(); std::string ha1Data = username() + ":" + realm() + ":" + password();
Debug( 2, "HA1 pre-md5: %s", ha1Data.c_str() ); Debug( 2, "HA1 pre-md5: %s", ha1Data.c_str() );
#if HAVE_DECL_MD5 #if HAVE_DECL_MD5
MD5((unsigned char*)ha1Data.c_str(), ha1Data.length(), md5buf); MD5((unsigned char*)ha1Data.c_str(), ha1Data.length(), md5buf);
#elif HAVE_DECL_GNUTLS_FINGERPRINT #elif HAVE_DECL_GNUTLS_FINGERPRINT
gnutls_datum_t md5dataha1 = { (unsigned char*)ha1Data.c_str(), ha1Data.length() }; gnutls_datum_t md5dataha1 = { (unsigned char*)ha1Data.c_str(), ha1Data.length() };
gnutls_fingerprint( GNUTLS_DIG_MD5, &md5dataha1, md5buf, &md5len ); gnutls_fingerprint( GNUTLS_DIG_MD5, &md5dataha1, md5buf, &md5len );
#endif #endif
for ( unsigned int j = 0; j < md5len; j++ ) for ( unsigned int j = 0; j < md5len; j++ )
{ {
sprintf(&md5HexBuf[2*j], "%02x", md5buf[j] ); sprintf(&md5HexBuf[2*j], "%02x", md5buf[j] );
} }
md5HexBuf[md5len*2]='\0'; md5HexBuf[md5len*2]='\0';
std::string ha1Hash = md5HexBuf; std::string ha1Hash = md5HexBuf;
// Step 2: md5(<cmd>:<url>) // Step 2: md5(<cmd>:<url>)
std::string ha2Data = method + ":" + uri; std::string ha2Data = method + ":" + uri;
Debug( 2, "HA2 pre-md5: %s", ha2Data.c_str() ); Debug( 2, "HA2 pre-md5: %s", ha2Data.c_str() );
#if HAVE_DECL_MD5 #if HAVE_DECL_MD5
MD5((unsigned char*)ha2Data.c_str(), ha2Data.length(), md5buf ); MD5((unsigned char*)ha2Data.c_str(), ha2Data.length(), md5buf );
#elif HAVE_DECL_GNUTLS_FINGERPRINT #elif HAVE_DECL_GNUTLS_FINGERPRINT
gnutls_datum_t md5dataha2 = { (unsigned char*)ha2Data.c_str(), ha2Data.length() }; gnutls_datum_t md5dataha2 = { (unsigned char*)ha2Data.c_str(), ha2Data.length() };
gnutls_fingerprint( GNUTLS_DIG_MD5, &md5dataha2, md5buf, &md5len ); gnutls_fingerprint( GNUTLS_DIG_MD5, &md5dataha2, md5buf, &md5len );
#endif #endif
for ( unsigned int j = 0; j < md5len; j++ ) for ( unsigned int j = 0; j < md5len; j++ )
{ {
sprintf( &md5HexBuf[2*j], "%02x", md5buf[j] ); sprintf( &md5HexBuf[2*j], "%02x", md5buf[j] );
} }
md5HexBuf[md5len*2]='\0'; md5HexBuf[md5len*2]='\0';
std::string ha2Hash = md5HexBuf; std::string ha2Hash = md5HexBuf;
// Step 3: md5(ha1:<nonce>:ha2) // Step 3: md5(ha1:<nonce>:ha2)
std::string digestData = ha1Hash + ":" + nonce(); std::string digestData = ha1Hash + ":" + nonce();
if ( ! fQop.empty() ) { if ( ! fQop.empty() ) {
digestData += ":" + stringtf("%08x", nc) + ":"+fCnonce + ":" + fQop; digestData += ":" + stringtf("%08x", nc) + ":"+fCnonce + ":" + fQop;
nc ++; nc ++;
// if qop was specified, then we have to include t and a cnonce and an nccount // if qop was specified, then we have to include t and a cnonce and an nccount
} }
digestData += ":" + ha2Hash; digestData += ":" + ha2Hash;
Debug( 2, "pre-md5: %s", digestData.c_str() ); Debug( 2, "pre-md5: %s", digestData.c_str() );
#if HAVE_DECL_MD5 #if HAVE_DECL_MD5
MD5((unsigned char*)digestData.c_str(), digestData.length(), md5buf); MD5((unsigned char*)digestData.c_str(), digestData.length(), md5buf);
#elif HAVE_DECL_GNUTLS_FINGERPRINT #elif HAVE_DECL_GNUTLS_FINGERPRINT
gnutls_datum_t md5datadigest = { (unsigned char*)digestData.c_str(), digestData.length() }; gnutls_datum_t md5datadigest = { (unsigned char*)digestData.c_str(), digestData.length() };
gnutls_fingerprint( GNUTLS_DIG_MD5, &md5datadigest, md5buf, &md5len ); gnutls_fingerprint( GNUTLS_DIG_MD5, &md5datadigest, md5buf, &md5len );
#endif #endif
for ( unsigned int j = 0; j < md5len; j++ ) for ( unsigned int j = 0; j < md5len; j++ )
{ {
sprintf( &md5HexBuf[2*j], "%02x", md5buf[j] ); sprintf( &md5HexBuf[2*j], "%02x", md5buf[j] );
} }
md5HexBuf[md5len*2]='\0'; md5HexBuf[md5len*2]='\0';
return md5HexBuf; return md5HexBuf;
#else // HAVE_DECL_MD5 #else // HAVE_DECL_MD5
Error( "You need to build with gnutls or openssl installed to use digest authentication" ); Error( "You need to build with gnutls or openssl installed to use digest authentication" );
return( 0 ); return( 0 );
#endif // HAVE_DECL_MD5 #endif // HAVE_DECL_MD5
} }
void Authenticator::checkAuthResponse(std::string &response) { void Authenticator::checkAuthResponse(std::string &response) {
std::string authLine; std::string authLine;
StringVector lines = split( response, "\r\n" ); StringVector lines = split( response, "\r\n" );
const char* authenticate_match = "WWW-Authenticate:"; const char* authenticate_match = "WWW-Authenticate:";
size_t authenticate_match_len = strlen(authenticate_match); size_t authenticate_match_len = strlen(authenticate_match);
for ( size_t i = 0; i < lines.size(); i++ ) { for ( size_t i = 0; i < lines.size(); i++ ) {
// stop at end of headers // stop at end of headers
if (lines[i].length()==0) if (lines[i].length()==0)
break; break;
if (strncasecmp(lines[i].c_str(),authenticate_match,authenticate_match_len) == 0) { if (strncasecmp(lines[i].c_str(),authenticate_match,authenticate_match_len) == 0) {
authLine = lines[i]; authLine = lines[i];
Debug( 2, "Found auth line at %d", i); Debug( 2, "Found auth line at %d", i);
break; break;
} }
} }
if (!authLine.empty()) { if (!authLine.empty()) {
Debug( 2, "Analyze auth line %s", authLine.c_str()); Debug( 2, "Analyze auth line %s", authLine.c_str());
authHandleHeader( trimSpaces(authLine.substr(authenticate_match_len,authLine.length()-authenticate_match_len)) ); authHandleHeader( trimSpaces(authLine.substr(authenticate_match_len,authLine.length()-authenticate_match_len)) );
} else { } else {
Debug( 2, "Didn't find auth line in %s", authLine.c_str()); Debug( 2, "Didn't find auth line in %s", authLine.c_str());
} }
} }
} // namespace zm } // namespace zm

View File

@ -37,19 +37,19 @@ namespace zm {
enum AuthMethod { AUTH_UNDEFINED = 0, AUTH_BASIC = 1, AUTH_DIGEST = 2 }; enum AuthMethod { AUTH_UNDEFINED = 0, AUTH_BASIC = 1, AUTH_DIGEST = 2 };
class Authenticator { class Authenticator {
public: public:
Authenticator(std::string &username, std::string password); Authenticator(std::string &username, std::string password);
virtual ~Authenticator(); virtual ~Authenticator();
void reset(); void reset();
std::string realm() { return fRealm; } std::string realm() { return fRealm; }
std::string nonce() { return fNonce; } std::string nonce() { return fNonce; }
std::string username() { return fUsername; } std::string username() { return fUsername; }
AuthMethod auth_method() const { return fAuthMethod; } AuthMethod auth_method() const { return fAuthMethod; }
std::string computeDigestResponse( std::string &cmd, std::string &url ); std::string computeDigestResponse( std::string &cmd, std::string &url );
void authHandleHeader( std::string headerData ); void authHandleHeader( std::string headerData );
std::string getAuthHeader( std::string method, std::string path ); std::string getAuthHeader( std::string method, std::string path );
void checkAuthResponse(std::string &response); void checkAuthResponse(std::string &response);
private: private:
std::string password() { return fPassword; } std::string password() { return fPassword; }
@ -61,7 +61,7 @@ private:
std::string fUsername; std::string fUsername;
std::string fPassword; std::string fPassword;
std::string quote( std::string src ); std::string quote( std::string src );
int nc; int nc;
}; };
} // namespace zm } // namespace zm

View File

@ -25,489 +25,489 @@
#if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0)) #if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0))
SessionDescriptor::StaticPayloadDesc SessionDescriptor::smStaticPayloads[] = { SessionDescriptor::StaticPayloadDesc SessionDescriptor::smStaticPayloads[] = {
{ 0, "PCMU", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_MULAW, 8000, 1 }, { 0, "PCMU", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_MULAW, 8000, 1 },
{ 3, "GSM", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 3, "GSM", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 4, "G723", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 4, "G723", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 5, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 5, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 6, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 16000, 1 }, { 6, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 16000, 1 },
{ 7, "LPC", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 7, "LPC", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 8, "PCMA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_ALAW, 8000, 1 }, { 8, "PCMA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_ALAW, 8000, 1 },
{ 9, "G722", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 9, "G722", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 10, "L16", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_S16BE, 44100, 2 }, { 10, "L16", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_S16BE, 44100, 2 },
{ 11, "L16", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_S16BE, 44100, 1 }, { 11, "L16", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_PCM_S16BE, 44100, 1 },
{ 12, "QCELP", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_QCELP, 8000, 1 }, { 12, "QCELP", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_QCELP, 8000, 1 },
{ 13, "CN", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 13, "CN", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 14, "MPA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_MP2, -1, -1 }, { 14, "MPA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_MP2, -1, -1 },
{ 14, "MPA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_MP3, -1, -1 }, { 14, "MPA", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_MP3, -1, -1 },
{ 15, "G728", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 15, "G728", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 16, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 11025, 1 }, { 16, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 11025, 1 },
{ 17, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 22050, 1 }, { 17, "DVI4", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 22050, 1 },
{ 18, "G729", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 }, { 18, "G729", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_NONE, 8000, 1 },
{ 25, "CelB", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_NONE, 90000, -1 }, { 25, "CelB", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_NONE, 90000, -1 },
{ 26, "JPEG", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MJPEG, 90000, -1 }, { 26, "JPEG", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MJPEG, 90000, -1 },
{ 28, "nv", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_NONE, 90000, -1 }, { 28, "nv", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_NONE, 90000, -1 },
{ 31, "H261", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H261, 90000, -1 }, { 31, "H261", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H261, 90000, -1 },
{ 32, "MPV", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG1VIDEO, 90000, -1 }, { 32, "MPV", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG1VIDEO, 90000, -1 },
{ 32, "MPV", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG2VIDEO, 90000, -1 }, { 32, "MPV", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG2VIDEO, 90000, -1 },
{ 33, "MP2T", AVMEDIA_TYPE_DATA, AV_CODEC_ID_MPEG2TS, 90000, -1 }, { 33, "MP2T", AVMEDIA_TYPE_DATA, AV_CODEC_ID_MPEG2TS, 90000, -1 },
{ 34, "H263", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H263, 90000, -1 }, { 34, "H263", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H263, 90000, -1 },
{ -1, "", AVMEDIA_TYPE_UNKNOWN, AV_CODEC_ID_NONE, -1, -1 } { -1, "", AVMEDIA_TYPE_UNKNOWN, AV_CODEC_ID_NONE, -1, -1 }
}; };
SessionDescriptor::DynamicPayloadDesc SessionDescriptor::smDynamicPayloads[] = { SessionDescriptor::DynamicPayloadDesc SessionDescriptor::smDynamicPayloads[] = {
{ "MP4V-ES", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG4 }, { "MP4V-ES", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_MPEG4 },
{ "mpeg4-generic", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_AAC }, { "mpeg4-generic", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_AAC },
{ "H264", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H264 }, { "H264", AVMEDIA_TYPE_VIDEO, AV_CODEC_ID_H264 },
{ "AMR", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_AMR_NB }, { "AMR", AVMEDIA_TYPE_AUDIO, AV_CODEC_ID_AMR_NB },
{ "vnd.onvif.metadata", AVMEDIA_TYPE_DATA, AV_CODEC_ID_NONE } { "vnd.onvif.metadata", AVMEDIA_TYPE_DATA, AV_CODEC_ID_NONE }
}; };
#else #else
SessionDescriptor::StaticPayloadDesc SessionDescriptor::smStaticPayloads[] = { SessionDescriptor::StaticPayloadDesc SessionDescriptor::smStaticPayloads[] = {
{ 0, "PCMU", CODEC_TYPE_AUDIO, CODEC_ID_PCM_MULAW, 8001, 1 }, { 0, "PCMU", CODEC_TYPE_AUDIO, CODEC_ID_PCM_MULAW, 8001, 1 },
{ 3, "GSM", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 3, "GSM", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 4, "G723", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 4, "G723", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 5, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 5, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 6, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 16000, 1 }, { 6, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 16000, 1 },
{ 7, "LPC", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 7, "LPC", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 8, "PCMA", CODEC_TYPE_AUDIO, CODEC_ID_PCM_ALAW, 8000, 1 }, { 8, "PCMA", CODEC_TYPE_AUDIO, CODEC_ID_PCM_ALAW, 8000, 1 },
{ 9, "G722", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 9, "G722", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 10, "L16", CODEC_TYPE_AUDIO, CODEC_ID_PCM_S16BE, 44100, 2 }, { 10, "L16", CODEC_TYPE_AUDIO, CODEC_ID_PCM_S16BE, 44100, 2 },
{ 11, "L16", CODEC_TYPE_AUDIO, CODEC_ID_PCM_S16BE, 44100, 1 }, { 11, "L16", CODEC_TYPE_AUDIO, CODEC_ID_PCM_S16BE, 44100, 1 },
{ 12, "QCELP", CODEC_TYPE_AUDIO, CODEC_ID_QCELP, 8000, 1 }, { 12, "QCELP", CODEC_TYPE_AUDIO, CODEC_ID_QCELP, 8000, 1 },
{ 13, "CN", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 13, "CN", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 14, "MPA", CODEC_TYPE_AUDIO, CODEC_ID_MP2, -1, -1 }, { 14, "MPA", CODEC_TYPE_AUDIO, CODEC_ID_MP2, -1, -1 },
{ 14, "MPA", CODEC_TYPE_AUDIO, CODEC_ID_MP3, -1, -1 }, { 14, "MPA", CODEC_TYPE_AUDIO, CODEC_ID_MP3, -1, -1 },
{ 15, "G728", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 15, "G728", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 16, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 11025, 1 }, { 16, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 11025, 1 },
{ 17, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 22050, 1 }, { 17, "DVI4", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 22050, 1 },
{ 18, "G729", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 }, { 18, "G729", CODEC_TYPE_AUDIO, CODEC_ID_NONE, 8000, 1 },
{ 25, "CelB", CODEC_TYPE_VIDEO, CODEC_ID_NONE, 90000, -1 }, { 25, "CelB", CODEC_TYPE_VIDEO, CODEC_ID_NONE, 90000, -1 },
{ 26, "JPEG", CODEC_TYPE_VIDEO, CODEC_ID_MJPEG, 90000, -1 }, { 26, "JPEG", CODEC_TYPE_VIDEO, CODEC_ID_MJPEG, 90000, -1 },
{ 28, "nv", CODEC_TYPE_VIDEO, CODEC_ID_NONE, 90000, -1 }, { 28, "nv", CODEC_TYPE_VIDEO, CODEC_ID_NONE, 90000, -1 },
{ 31, "H261", CODEC_TYPE_VIDEO, CODEC_ID_H261, 90000, -1 }, { 31, "H261", CODEC_TYPE_VIDEO, CODEC_ID_H261, 90000, -1 },
{ 32, "MPV", CODEC_TYPE_VIDEO, CODEC_ID_MPEG1VIDEO, 90000, -1 }, { 32, "MPV", CODEC_TYPE_VIDEO, CODEC_ID_MPEG1VIDEO, 90000, -1 },
{ 32, "MPV", CODEC_TYPE_VIDEO, CODEC_ID_MPEG2VIDEO, 90000, -1 }, { 32, "MPV", CODEC_TYPE_VIDEO, CODEC_ID_MPEG2VIDEO, 90000, -1 },
{ 33, "MP2T", CODEC_TYPE_DATA, CODEC_ID_MPEG2TS, 90000, -1 }, { 33, "MP2T", CODEC_TYPE_DATA, CODEC_ID_MPEG2TS, 90000, -1 },
{ 34, "H263", CODEC_TYPE_VIDEO, CODEC_ID_H263, 90000, -1 }, { 34, "H263", CODEC_TYPE_VIDEO, CODEC_ID_H263, 90000, -1 },
{ -1, "", CODEC_TYPE_UNKNOWN, CODEC_ID_NONE, -1, -1 } { -1, "", CODEC_TYPE_UNKNOWN, CODEC_ID_NONE, -1, -1 }
}; };
SessionDescriptor::DynamicPayloadDesc SessionDescriptor::smDynamicPayloads[] = { SessionDescriptor::DynamicPayloadDesc SessionDescriptor::smDynamicPayloads[] = {
{ "MP4V-ES", CODEC_TYPE_VIDEO, CODEC_ID_MPEG4 }, { "MP4V-ES", CODEC_TYPE_VIDEO, CODEC_ID_MPEG4 },
{ "mpeg4-generic", CODEC_TYPE_AUDIO, CODEC_ID_AAC }, { "mpeg4-generic", CODEC_TYPE_AUDIO, CODEC_ID_AAC },
{ "H264", CODEC_TYPE_VIDEO, CODEC_ID_H264 }, { "H264", CODEC_TYPE_VIDEO, CODEC_ID_H264 },
{ "AMR", CODEC_TYPE_AUDIO, CODEC_ID_AMR_NB }, { "AMR", CODEC_TYPE_AUDIO, CODEC_ID_AMR_NB },
{ "vnd.onvif.metadata", CODEC_TYPE_DATA, CODEC_ID_NONE } { "vnd.onvif.metadata", CODEC_TYPE_DATA, CODEC_ID_NONE }
}; };
#endif #endif
SessionDescriptor::ConnInfo::ConnInfo( const std::string &connInfo ) : SessionDescriptor::ConnInfo::ConnInfo( const std::string &connInfo ) :
mTtl( 16 ), mTtl( 16 ),
mNoAddresses( 0 ) mNoAddresses( 0 )
{ {
StringVector tokens = split( connInfo, " " ); StringVector tokens = split( connInfo, " " );
if ( tokens.size() < 3 ) if ( tokens.size() < 3 )
throw Exception( "Unable to parse SDP connection info from '"+connInfo+"'" ); throw Exception( "Unable to parse SDP connection info from '"+connInfo+"'" );
mNetworkType = tokens[0]; mNetworkType = tokens[0];
if ( mNetworkType != "IN" ) if ( mNetworkType != "IN" )
throw Exception( "Invalid SDP network type '"+mNetworkType+"' in connection info '"+connInfo+"'" ); throw Exception( "Invalid SDP network type '"+mNetworkType+"' in connection info '"+connInfo+"'" );
mAddressType = tokens[1]; mAddressType = tokens[1];
if ( mAddressType != "IP4" ) if ( mAddressType != "IP4" )
throw Exception( "Invalid SDP address type '"+mAddressType+"' in connection info '"+connInfo+"'" ); throw Exception( "Invalid SDP address type '"+mAddressType+"' in connection info '"+connInfo+"'" );
StringVector addressTokens = split( tokens[2], "/" ); StringVector addressTokens = split( tokens[2], "/" );
if ( addressTokens.size() < 1 ) if ( addressTokens.size() < 1 )
throw Exception( "Invalid SDP address '"+tokens[2]+"' in connection info '"+connInfo+"'" ); throw Exception( "Invalid SDP address '"+tokens[2]+"' in connection info '"+connInfo+"'" );
mAddress = addressTokens[0]; mAddress = addressTokens[0];
if ( addressTokens.size() >= 2 ) if ( addressTokens.size() >= 2 )
mTtl = atoi(addressTokens[1].c_str()); mTtl = atoi(addressTokens[1].c_str());
if ( addressTokens.size() >= 3 ) if ( addressTokens.size() >= 3 )
mNoAddresses = atoi(addressTokens[2].c_str()); mNoAddresses = atoi(addressTokens[2].c_str());
} }
SessionDescriptor::BandInfo::BandInfo( const std::string &bandInfo ) : SessionDescriptor::BandInfo::BandInfo( const std::string &bandInfo ) :
mValue( 0 ) mValue( 0 )
{ {
StringVector tokens = split( bandInfo, ":" ); StringVector tokens = split( bandInfo, ":" );
if ( tokens.size() < 2 ) if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP bandwidth info from '"+bandInfo+"'" ); throw Exception( "Unable to parse SDP bandwidth info from '"+bandInfo+"'" );
mType = tokens[0]; mType = tokens[0];
//if ( mNetworkType != "IN" ) //if ( mNetworkType != "IN" )
//throw Exception( "Invalid SDP network type '"+mNetworkType+"' in connection info '"+connInfo+"'" ); //throw Exception( "Invalid SDP network type '"+mNetworkType+"' in connection info '"+connInfo+"'" );
mValue = atoi(tokens[1].c_str()); mValue = atoi(tokens[1].c_str());
} }
SessionDescriptor::MediaDescriptor::MediaDescriptor( const std::string &type, int port, int numPorts, const std::string &transport, int payloadType ) : SessionDescriptor::MediaDescriptor::MediaDescriptor( const std::string &type, int port, int numPorts, const std::string &transport, int payloadType ) :
mType( type ), mType( type ),
mPort( port ), mPort( port ),
mNumPorts( numPorts ), mNumPorts( numPorts ),
mTransport( transport ), mTransport( transport ),
mPayloadType( payloadType ), mPayloadType( payloadType ),
mFrameRate( 0.0 ), mFrameRate( 0.0 ),
mClock( 0 ), mClock( 0 ),
mWidth( 0 ), mWidth( 0 ),
mHeight( 0 ), mHeight( 0 ),
mSprops( "" ), mSprops( "" ),
mConnInfo( 0 ) mConnInfo( 0 )
{ {
} }
SessionDescriptor::SessionDescriptor( const std::string &url, const std::string &sdp ) : SessionDescriptor::SessionDescriptor( const std::string &url, const std::string &sdp ) :
mUrl( url ), mUrl( url ),
mConnInfo( 0 ), mConnInfo( 0 ),
mBandInfo( 0 ) mBandInfo( 0 )
{ {
MediaDescriptor *currMedia = 0; MediaDescriptor *currMedia = 0;
StringVector lines = split( sdp, "\r\n" ); StringVector lines = split( sdp, "\r\n" );
for ( StringVector::const_iterator iter = lines.begin(); iter != lines.end(); iter++ ) for ( StringVector::const_iterator iter = lines.begin(); iter != lines.end(); iter++ )
{
std::string line = *iter;
if ( line.empty() )
break;
Debug( 3, "Processing SDP line '%s'", line.c_str() );
const char sdpType = line[0];
if ( line[1] != '=' )
throw Exception( "Invalid SDP format at '"+line+"'" );
line.erase( 0, 2 );
switch( sdpType )
{ {
std::string line = *iter; case 'v' :
if ( line.empty() ) mVersion = line;
break; break;
case 'o' :
Debug( 3, "Processing SDP line '%s'", line.c_str() ); mOwner = line;
const char sdpType = line[0]; break;
if ( line[1] != '=' ) case 's' :
throw Exception( "Invalid SDP format at '"+line+"'" ); mName = line;
break;
line.erase( 0, 2 ); case 'i' :
switch( sdpType ) mInfo = line;
break;
case 'c' :
// This prevent a memory leak if the field appears more than one time
if ( mConnInfo )
delete mConnInfo;
mConnInfo = new ConnInfo( line );
break;
case 'b' :
// This prevent a memory leak if the field appears more than one time
if ( mBandInfo )
delete mBandInfo;
mBandInfo = new BandInfo( line );
break;
case 't' :
mTimeInfo = line;
break;
case 'a' :
{
mAttributes.push_back( line );
StringVector tokens = split( line, ":", 2 );
std::string attrName = tokens[0];
if ( currMedia )
{ {
case 'v' : if ( attrName == "control" )
mVersion = line; {
break; if ( tokens.size() < 2 )
case 'o' : throw Exception( "Unable to parse SDP control attribute '"+line+"' for media '"+currMedia->getType()+"'" );
mOwner = line; currMedia->setControlUrl( tokens[1] );
break; }
case 's' : else if ( attrName == "range" )
mName = line; {
break; }
case 'i' : else if ( attrName == "rtpmap" )
mInfo = line; {
break; // a=rtpmap:96 MP4V-ES/90000
case 'c' : if ( tokens.size() < 2 )
// This prevent a memory leak if the field appears more than one time throw Exception( "Unable to parse SDP rtpmap attribute '"+line+"' for media '"+currMedia->getType()+"'" );
if ( mConnInfo ) StringVector attrTokens = split( tokens[1], " " );
delete mConnInfo; int payloadType = atoi(attrTokens[0].c_str());
mConnInfo = new ConnInfo( line ); if ( payloadType != currMedia->getPayloadType() )
break; throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
case 'b' : std::string payloadDesc = attrTokens[1];
// This prevent a memory leak if the field appears more than one time //currMedia->setPayloadType( payloadType );
if ( mBandInfo ) if ( attrTokens.size() > 1 )
delete mBandInfo;
mBandInfo = new BandInfo( line );
break;
case 't' :
mTimeInfo = line;
break;
case 'a' :
{ {
mAttributes.push_back( line ); StringVector payloadTokens = split( attrTokens[1], "/" );
StringVector tokens = split( line, ":", 2 ); std::string payloadDesc = payloadTokens[0];
std::string attrName = tokens[0]; int payloadClock = atoi(payloadTokens[1].c_str());
if ( currMedia ) currMedia->setPayloadDesc( payloadDesc );
currMedia->setClock( payloadClock );
}
}
else if ( attrName == "framesize" )
{
// a=framesize:96 320-240
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP framesize attribute '"+line+"' for media '"+currMedia->getType()+"'" );
StringVector attrTokens = split( tokens[1], " " );
int payloadType = atoi(attrTokens[0].c_str());
if ( payloadType != currMedia->getPayloadType() )
throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
//currMedia->setPayloadType( payloadType );
StringVector sizeTokens = split( attrTokens[1], "-" );
int width = atoi(sizeTokens[0].c_str());
int height = atoi(sizeTokens[1].c_str());
currMedia->setFrameSize( width, height );
}
else if ( attrName == "framerate" )
{
// a=framerate:5.0
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP framerate attribute '"+line+"' for media '"+currMedia->getType()+"'" );
double frameRate = atof(tokens[1].c_str());
currMedia->setFrameRate( frameRate );
}
else if ( attrName == "fmtp" )
{
// a=fmtp:96 profile-level-id=247; config=000001B0F7000001B509000001000000012008D48D8803250F042D14440F
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP fmtp attribute '"+line+"' for media '"+currMedia->getType()+"'" );
StringVector attrTokens = split( tokens[1], " ", 2 );
int payloadType = atoi(attrTokens[0].c_str());
if ( payloadType != currMedia->getPayloadType() )
throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
//currMedia->setPayloadType( payloadType );
if ( attrTokens.size() > 1 )
{
StringVector attr2Tokens = split( attrTokens[1], "; " );
for ( unsigned int i = 0; i < attr2Tokens.size(); i++ )
{
StringVector attr3Tokens = split( attr2Tokens[i], "=" );
//Info( "Name = %s, Value = %s", attr3Tokens[0].c_str(), attr3Tokens[1].c_str() );
if ( attr3Tokens[0] == "profile-level-id" )
{ {
if ( attrName == "control" ) }
{ else if ( attr3Tokens[0] == "config" )
if ( tokens.size() < 2 ) {
throw Exception( "Unable to parse SDP control attribute '"+line+"' for media '"+currMedia->getType()+"'" ); }
currMedia->setControlUrl( tokens[1] ); else if ( attr3Tokens[0] == "sprop-parameter-sets" )
} {
else if ( attrName == "range" ) size_t t = attr2Tokens[i].find("=");
{ char *c = (char *)attr2Tokens[i].c_str() + t + 1;
} Debug(4, "sprop-parameter-sets value %s", c);
else if ( attrName == "rtpmap" ) currMedia->setSprops(std::string(c));
{ }
// a=rtpmap:96 MP4V-ES/90000 else if ( attr3Tokens[0] == "sprop-parameter-sets" )
if ( tokens.size() < 2 ) {
throw Exception( "Unable to parse SDP rtpmap attribute '"+line+"' for media '"+currMedia->getType()+"'" ); size_t t = attr2Tokens[i].find("=");
StringVector attrTokens = split( tokens[1], " " ); char *c = (char *)attr2Tokens[i].c_str() + t + 1;
int payloadType = atoi(attrTokens[0].c_str()); Debug(4, "sprop-parameter-sets value %s", c);
if ( payloadType != currMedia->getPayloadType() ) currMedia->setSprops(std::string(c));
throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
std::string payloadDesc = attrTokens[1];
//currMedia->setPayloadType( payloadType );
if ( attrTokens.size() > 1 )
{
StringVector payloadTokens = split( attrTokens[1], "/" );
std::string payloadDesc = payloadTokens[0];
int payloadClock = atoi(payloadTokens[1].c_str());
currMedia->setPayloadDesc( payloadDesc );
currMedia->setClock( payloadClock );
}
}
else if ( attrName == "framesize" )
{
// a=framesize:96 320-240
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP framesize attribute '"+line+"' for media '"+currMedia->getType()+"'" );
StringVector attrTokens = split( tokens[1], " " );
int payloadType = atoi(attrTokens[0].c_str());
if ( payloadType != currMedia->getPayloadType() )
throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
//currMedia->setPayloadType( payloadType );
StringVector sizeTokens = split( attrTokens[1], "-" );
int width = atoi(sizeTokens[0].c_str());
int height = atoi(sizeTokens[1].c_str());
currMedia->setFrameSize( width, height );
}
else if ( attrName == "framerate" )
{
// a=framerate:5.0
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP framerate attribute '"+line+"' for media '"+currMedia->getType()+"'" );
double frameRate = atof(tokens[1].c_str());
currMedia->setFrameRate( frameRate );
}
else if ( attrName == "fmtp" )
{
// a=fmtp:96 profile-level-id=247; config=000001B0F7000001B509000001000000012008D48D8803250F042D14440F
if ( tokens.size() < 2 )
throw Exception( "Unable to parse SDP fmtp attribute '"+line+"' for media '"+currMedia->getType()+"'" );
StringVector attrTokens = split( tokens[1], " ", 2 );
int payloadType = atoi(attrTokens[0].c_str());
if ( payloadType != currMedia->getPayloadType() )
throw Exception( stringtf( "Payload type mismatch, expected %d, got %d in '%s'", currMedia->getPayloadType(), payloadType, line.c_str() ) );
//currMedia->setPayloadType( payloadType );
if ( attrTokens.size() > 1 )
{
StringVector attr2Tokens = split( attrTokens[1], "; " );
for ( unsigned int i = 0; i < attr2Tokens.size(); i++ )
{
StringVector attr3Tokens = split( attr2Tokens[i], "=" );
//Info( "Name = %s, Value = %s", attr3Tokens[0].c_str(), attr3Tokens[1].c_str() );
if ( attr3Tokens[0] == "profile-level-id" )
{
}
else if ( attr3Tokens[0] == "config" )
{
}
else if ( attr3Tokens[0] == "sprop-parameter-sets" )
{
size_t t = attr2Tokens[i].find("=");
char *c = (char *)attr2Tokens[i].c_str() + t + 1;
Debug(4, "sprop-parameter-sets value %s", c);
currMedia->setSprops(std::string(c));
}
else if ( attr3Tokens[0] == "sprop-parameter-sets" )
{
size_t t = attr2Tokens[i].find("=");
char *c = (char *)attr2Tokens[i].c_str() + t + 1;
Debug(4, "sprop-parameter-sets value %s", c);
currMedia->setSprops(std::string(c));
}
else
{
Debug( 3, "Ignoring SDP fmtp attribute '%s' for media '%s'", attr3Tokens[0].c_str(), currMedia->getType().c_str() )
}
}
}
}
else if ( attrName == "mpeg4-iod" )
{
// a=mpeg4-iod: "data:application/mpeg4-iod;base64,AoEAAE8BAf73AQOAkwABQHRkYXRhOmFwcGxpY2F0aW9uL21wZWc0LW9kLWF1O2Jhc2U2NCxBVGdCR3dVZkF4Y0F5U1FBWlFRTklCRUVrK0FBQWEyd0FBR3RzQVlCQkFFWkFwOERGUUJsQlFRTlFCVUFDN2dBQVBvQUFBRDZBQVlCQXc9PQQNAQUABAAAAAAAAAAAAAYJAQAAAAAAAAAAA0IAAkA+ZGF0YTphcHBsaWNhdGlvbi9tcGVnNC1iaWZzLWF1O2Jhc2U2NCx3QkFTZ1RBcUJYSmhCSWhRUlFVL0FBPT0EEgINAAACAAAAAAAAAAAFAwAAQAYJAQAAAAAAAAAA"
}
else if ( attrName == "mpeg4-esid" )
{
// a=mpeg4-esid:201
}
else
{
Debug( 3, "Ignoring SDP attribute '%s' for media '%s'", line.c_str(), currMedia->getType().c_str() )
}
} }
else else
{ {
Debug( 3, "Ignoring general SDP attribute '%s'", line.c_str() ); Debug( 3, "Ignoring SDP fmtp attribute '%s' for media '%s'", attr3Tokens[0].c_str(), currMedia->getType().c_str() )
} }
break; }
}
case 'm' :
{
StringVector tokens = split( line, " " );
if ( tokens.size() < 4 )
throw Exception( "Can't parse SDP media description '"+line+"'" );
std::string mediaType = tokens[0];
if ( mediaType != "audio" && mediaType != "video" && mediaType != "application" )
throw Exception( "Unsupported media type '"+mediaType+"' in SDP media attribute '"+line+"'" );
StringVector portTokens = split( tokens[1], "/" );
int mediaPort = atoi(portTokens[0].c_str());
int mediaNumPorts = 1;
if ( portTokens.size() > 1 )
mediaNumPorts = atoi(portTokens[1].c_str());
std::string mediaTransport = tokens[2];
if ( mediaTransport != "RTP/AVP" )
throw Exception( "Unsupported media transport '"+mediaTransport+"' in SDP media attribute '"+line+"'" );
int payloadType = atoi(tokens[3].c_str());
currMedia = new MediaDescriptor( mediaType, mediaPort, mediaNumPorts, mediaTransport, payloadType );
mMediaList.push_back( currMedia );
break;
} }
}
else if ( attrName == "mpeg4-iod" )
{
// a=mpeg4-iod: "data:application/mpeg4-iod;base64,AoEAAE8BAf73AQOAkwABQHRkYXRhOmFwcGxpY2F0aW9uL21wZWc0LW9kLWF1O2Jhc2U2NCxBVGdCR3dVZkF4Y0F5U1FBWlFRTklCRUVrK0FBQWEyd0FBR3RzQVlCQkFFWkFwOERGUUJsQlFRTlFCVUFDN2dBQVBvQUFBRDZBQVlCQXc9PQQNAQUABAAAAAAAAAAAAAYJAQAAAAAAAAAAA0IAAkA+ZGF0YTphcHBsaWNhdGlvbi9tcGVnNC1iaWZzLWF1O2Jhc2U2NCx3QkFTZ1RBcUJYSmhCSWhRUlFVL0FBPT0EEgINAAACAAAAAAAAAAAFAwAAQAYJAQAAAAAAAAAA"
}
else if ( attrName == "mpeg4-esid" )
{
// a=mpeg4-esid:201
}
else
{
Debug( 3, "Ignoring SDP attribute '%s' for media '%s'", line.c_str(), currMedia->getType().c_str() )
}
} }
else
{
Debug( 3, "Ignoring general SDP attribute '%s'", line.c_str() );
}
break;
}
case 'm' :
{
StringVector tokens = split( line, " " );
if ( tokens.size() < 4 )
throw Exception( "Can't parse SDP media description '"+line+"'" );
std::string mediaType = tokens[0];
if ( mediaType != "audio" && mediaType != "video" && mediaType != "application" )
throw Exception( "Unsupported media type '"+mediaType+"' in SDP media attribute '"+line+"'" );
StringVector portTokens = split( tokens[1], "/" );
int mediaPort = atoi(portTokens[0].c_str());
int mediaNumPorts = 1;
if ( portTokens.size() > 1 )
mediaNumPorts = atoi(portTokens[1].c_str());
std::string mediaTransport = tokens[2];
if ( mediaTransport != "RTP/AVP" )
throw Exception( "Unsupported media transport '"+mediaTransport+"' in SDP media attribute '"+line+"'" );
int payloadType = atoi(tokens[3].c_str());
currMedia = new MediaDescriptor( mediaType, mediaPort, mediaNumPorts, mediaTransport, payloadType );
mMediaList.push_back( currMedia );
break;
}
} }
}
} }
SessionDescriptor::~SessionDescriptor() SessionDescriptor::~SessionDescriptor()
{ {
if ( mConnInfo ) if ( mConnInfo )
delete mConnInfo; delete mConnInfo;
if ( mBandInfo ) if ( mBandInfo )
delete mBandInfo; delete mBandInfo;
for ( unsigned int i = 0; i < mMediaList.size(); i++ ) for ( unsigned int i = 0; i < mMediaList.size(); i++ )
delete mMediaList[i]; delete mMediaList[i];
} }
AVFormatContext *SessionDescriptor::generateFormatContext() const AVFormatContext *SessionDescriptor::generateFormatContext() const
{ {
AVFormatContext *formatContext = avformat_alloc_context(); AVFormatContext *formatContext = avformat_alloc_context();
strncpy( formatContext->filename, mUrl.c_str(), sizeof(formatContext->filename) ); strncpy( formatContext->filename, mUrl.c_str(), sizeof(formatContext->filename) );
/* /*
if ( mName.length() ) if ( mName.length() )
strncpy( formatContext->title, mName.c_str(), sizeof(formatContext->title) ); strncpy( formatContext->title, mName.c_str(), sizeof(formatContext->title) );
if ( mInfo.length() ) if ( mInfo.length() )
strncpy( formatContext->comment, mInfo.c_str(), sizeof(formatContext->comment) ); strncpy( formatContext->comment, mInfo.c_str(), sizeof(formatContext->comment) );
*/ */
//formatContext->nb_streams = mMediaList.size(); //formatContext->nb_streams = mMediaList.size();
for ( unsigned int i = 0; i < mMediaList.size(); i++ ) for ( unsigned int i = 0; i < mMediaList.size(); i++ )
{ {
const MediaDescriptor *mediaDesc = mMediaList[i]; const MediaDescriptor *mediaDesc = mMediaList[i];
#if !LIBAVFORMAT_VERSION_CHECK(53, 10, 0, 17, 0) #if !LIBAVFORMAT_VERSION_CHECK(53, 10, 0, 17, 0)
AVStream *stream = av_new_stream( formatContext, i ); AVStream *stream = av_new_stream( formatContext, i );
#else #else
AVStream *stream = avformat_new_stream( formatContext, NULL ); AVStream *stream = avformat_new_stream( formatContext, NULL );
stream->id = i; stream->id = i;
#endif #endif
Debug( 1, "Looking for codec for %s payload type %d / %s", mediaDesc->getType().c_str(), mediaDesc->getPayloadType(), mediaDesc->getPayloadDesc().c_str() ); Debug( 1, "Looking for codec for %s payload type %d / %s", mediaDesc->getType().c_str(), mediaDesc->getPayloadType(), mediaDesc->getPayloadDesc().c_str() );
#if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0)) #if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0))
if ( mediaDesc->getType() == "video" ) if ( mediaDesc->getType() == "video" )
stream->codec->codec_type = AVMEDIA_TYPE_VIDEO; stream->codec->codec_type = AVMEDIA_TYPE_VIDEO;
else if ( mediaDesc->getType() == "audio" ) else if ( mediaDesc->getType() == "audio" )
stream->codec->codec_type = AVMEDIA_TYPE_AUDIO; stream->codec->codec_type = AVMEDIA_TYPE_AUDIO;
else if ( mediaDesc->getType() == "application" ) else if ( mediaDesc->getType() == "application" )
stream->codec->codec_type = AVMEDIA_TYPE_DATA; stream->codec->codec_type = AVMEDIA_TYPE_DATA;
#else #else
if ( mediaDesc->getType() == "video" ) if ( mediaDesc->getType() == "video" )
stream->codec->codec_type = CODEC_TYPE_VIDEO; stream->codec->codec_type = CODEC_TYPE_VIDEO;
else if ( mediaDesc->getType() == "audio" ) else if ( mediaDesc->getType() == "audio" )
stream->codec->codec_type = CODEC_TYPE_AUDIO; stream->codec->codec_type = CODEC_TYPE_AUDIO;
else if ( mediaDesc->getType() == "application" ) else if ( mediaDesc->getType() == "application" )
stream->codec->codec_type = CODEC_TYPE_DATA; stream->codec->codec_type = CODEC_TYPE_DATA;
#endif #endif
#if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103) #if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103)
std::string codec_name; std::string codec_name;
#endif #endif
if ( mediaDesc->getPayloadType() < PAYLOAD_TYPE_DYNAMIC ) if ( mediaDesc->getPayloadType() < PAYLOAD_TYPE_DYNAMIC )
{
// Look in static table
for ( unsigned int i = 0; i < (sizeof(smStaticPayloads)/sizeof(*smStaticPayloads)); i++ )
{
if ( smStaticPayloads[i].payloadType == mediaDesc->getPayloadType() )
{ {
// Look in static table Debug( 1, "Got static payload type %d, %s", smStaticPayloads[i].payloadType, smStaticPayloads[i].payloadName );
for ( unsigned int i = 0; i < (sizeof(smStaticPayloads)/sizeof(*smStaticPayloads)); i++ )
{
if ( smStaticPayloads[i].payloadType == mediaDesc->getPayloadType() )
{
Debug( 1, "Got static payload type %d, %s", smStaticPayloads[i].payloadType, smStaticPayloads[i].payloadName );
#if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103) #if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103)
codec_name = std::string( smStaticPayloads[i].payloadName ); codec_name = std::string( smStaticPayloads[i].payloadName );
#else #else
strncpy( stream->codec->codec_name, smStaticPayloads[i].payloadName, sizeof(stream->codec->codec_name) );; strncpy( stream->codec->codec_name, smStaticPayloads[i].payloadName, sizeof(stream->codec->codec_name) );;
#endif #endif
stream->codec->codec_type = smStaticPayloads[i].codecType; stream->codec->codec_type = smStaticPayloads[i].codecType;
stream->codec->codec_id = smStaticPayloads[i].codecId; stream->codec->codec_id = smStaticPayloads[i].codecId;
stream->codec->sample_rate = smStaticPayloads[i].clockRate; stream->codec->sample_rate = smStaticPayloads[i].clockRate;
break; break;
}
}
} }
else }
}
else
{
// Look in dynamic table
for ( unsigned int i = 0; i < (sizeof(smDynamicPayloads)/sizeof(*smDynamicPayloads)); i++ )
{
if ( smDynamicPayloads[i].payloadName == mediaDesc->getPayloadDesc() )
{ {
// Look in dynamic table Debug( 1, "Got dynamic payload type %d, %s", mediaDesc->getPayloadType(), smDynamicPayloads[i].payloadName );
for ( unsigned int i = 0; i < (sizeof(smDynamicPayloads)/sizeof(*smDynamicPayloads)); i++ )
{
if ( smDynamicPayloads[i].payloadName == mediaDesc->getPayloadDesc() )
{
Debug( 1, "Got dynamic payload type %d, %s", mediaDesc->getPayloadType(), smDynamicPayloads[i].payloadName );
#if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103) #if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103)
codec_name = std::string( smStaticPayloads[i].payloadName ); codec_name = std::string( smStaticPayloads[i].payloadName );
#else #else
strncpy( stream->codec->codec_name, smDynamicPayloads[i].payloadName, sizeof(stream->codec->codec_name) );; strncpy( stream->codec->codec_name, smDynamicPayloads[i].payloadName, sizeof(stream->codec->codec_name) );;
#endif #endif
stream->codec->codec_type = smDynamicPayloads[i].codecType; stream->codec->codec_type = smDynamicPayloads[i].codecType;
stream->codec->codec_id = smDynamicPayloads[i].codecId; stream->codec->codec_id = smDynamicPayloads[i].codecId;
stream->codec->sample_rate = mediaDesc->getClock(); stream->codec->sample_rate = mediaDesc->getClock();
break; break;
}
}
}
#if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103)
if ( codec_name.empty() )
#else
if ( !stream->codec->codec_name[0] )
#endif
{
Warning( "Can't find payload details for %s payload type %d, name %s", mediaDesc->getType().c_str(), mediaDesc->getPayloadType(), mediaDesc->getPayloadDesc().c_str() );
//return( 0 );
}
if ( mediaDesc->getWidth() )
stream->codec->width = mediaDesc->getWidth();
if ( mediaDesc->getHeight() )
stream->codec->height = mediaDesc->getHeight();
if ( stream->codec->codec_id == AV_CODEC_ID_H264 && mediaDesc->getSprops().size())
{
uint8_t start_sequence[]= { 0, 0, 1 };
stream->codec->extradata_size= 0;
stream->codec->extradata= NULL;
char pvalue[1024], *value = pvalue;
strcpy(pvalue, mediaDesc->getSprops().c_str());
while (*value) {
char base64packet[1024];
uint8_t decoded_packet[1024];
uint32_t packet_size;
char *dst = base64packet;
while (*value && *value != ','
&& (dst - base64packet) < (long)(sizeof(base64packet)) - 1) {
*dst++ = *value++;
}
*dst++ = '\0';
if (*value == ',')
value++;
packet_size= av_base64_decode(decoded_packet, (const char *)base64packet, (int)sizeof(decoded_packet));
Hexdump(4, (char *)decoded_packet, packet_size);
if (packet_size) {
uint8_t *dest =
(uint8_t *)av_malloc(packet_size + sizeof(start_sequence) +
stream->codec->extradata_size +
FF_INPUT_BUFFER_PADDING_SIZE);
if(dest) {
if(stream->codec->extradata_size) {
// av_realloc?
memcpy(dest, stream->codec->extradata, stream->codec->extradata_size);
av_free(stream->codec->extradata);
}
memcpy(dest+stream->codec->extradata_size, start_sequence, sizeof(start_sequence));
memcpy(dest+stream->codec->extradata_size+sizeof(start_sequence), decoded_packet, packet_size);
memset(dest+stream->codec->extradata_size+sizeof(start_sequence)+
packet_size, 0, FF_INPUT_BUFFER_PADDING_SIZE);
stream->codec->extradata= dest;
stream->codec->extradata_size+= sizeof(start_sequence)+packet_size;
// } else {
// av_log(codec, AV_LOG_ERROR, "Unable to allocate memory for extradata!");
// return AVERROR(ENOMEM);
}
}
}
} }
}
} }
return( formatContext ); #if LIBAVCODEC_VERSION_CHECK(55, 50, 3, 60, 103)
if ( codec_name.empty() )
#else
if ( !stream->codec->codec_name[0] )
#endif
{
Warning( "Can't find payload details for %s payload type %d, name %s", mediaDesc->getType().c_str(), mediaDesc->getPayloadType(), mediaDesc->getPayloadDesc().c_str() );
//return( 0 );
}
if ( mediaDesc->getWidth() )
stream->codec->width = mediaDesc->getWidth();
if ( mediaDesc->getHeight() )
stream->codec->height = mediaDesc->getHeight();
if ( stream->codec->codec_id == AV_CODEC_ID_H264 && mediaDesc->getSprops().size())
{
uint8_t start_sequence[]= { 0, 0, 1 };
stream->codec->extradata_size= 0;
stream->codec->extradata= NULL;
char pvalue[1024], *value = pvalue;
strcpy(pvalue, mediaDesc->getSprops().c_str());
while (*value) {
char base64packet[1024];
uint8_t decoded_packet[1024];
uint32_t packet_size;
char *dst = base64packet;
while (*value && *value != ','
&& (dst - base64packet) < (long)(sizeof(base64packet)) - 1) {
*dst++ = *value++;
}
*dst++ = '\0';
if (*value == ',')
value++;
packet_size= av_base64_decode(decoded_packet, (const char *)base64packet, (int)sizeof(decoded_packet));
Hexdump(4, (char *)decoded_packet, packet_size);
if (packet_size) {
uint8_t *dest =
(uint8_t *)av_malloc(packet_size + sizeof(start_sequence) +
stream->codec->extradata_size +
FF_INPUT_BUFFER_PADDING_SIZE);
if(dest) {
if(stream->codec->extradata_size) {
// av_realloc?
memcpy(dest, stream->codec->extradata, stream->codec->extradata_size);
av_free(stream->codec->extradata);
}
memcpy(dest+stream->codec->extradata_size, start_sequence, sizeof(start_sequence));
memcpy(dest+stream->codec->extradata_size+sizeof(start_sequence), decoded_packet, packet_size);
memset(dest+stream->codec->extradata_size+sizeof(start_sequence)+
packet_size, 0, FF_INPUT_BUFFER_PADDING_SIZE);
stream->codec->extradata= dest;
stream->codec->extradata_size+= sizeof(start_sequence)+packet_size;
// } else {
// av_log(codec, AV_LOG_ERROR, "Unable to allocate memory for extradata!");
// return AVERROR(ENOMEM);
}
}
}
}
}
return( formatContext );
} }
#endif // HAVE_LIBAVFORMAT #endif // HAVE_LIBAVFORMAT

View File

@ -34,204 +34,204 @@
class SessionDescriptor class SessionDescriptor
{ {
protected: protected:
enum { PAYLOAD_TYPE_DYNAMIC=96 }; enum { PAYLOAD_TYPE_DYNAMIC=96 };
struct StaticPayloadDesc struct StaticPayloadDesc
{ {
int payloadType; int payloadType;
const char payloadName[6]; const char payloadName[6];
#if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0)) #if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0))
AVMediaType codecType; AVMediaType codecType;
#else #else
enum CodecType codecType; enum CodecType codecType;
#endif #endif
_AVCODECID codecId; _AVCODECID codecId;
int clockRate; int clockRate;
int autoChannels; int autoChannels;
}; };
struct DynamicPayloadDesc struct DynamicPayloadDesc
{ {
const char payloadName[32]; const char payloadName[32];
#if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0)) #if (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0))
AVMediaType codecType; AVMediaType codecType;
#else #else
enum CodecType codecType; enum CodecType codecType;
#endif #endif
_AVCODECID codecId; _AVCODECID codecId;
//int clockRate; //int clockRate;
//int autoChannels; //int autoChannels;
}; };
public: public:
class ConnInfo class ConnInfo
{ {
protected: protected:
std::string mNetworkType; std::string mNetworkType;
std::string mAddressType; std::string mAddressType;
std::string mAddress; std::string mAddress;
int mTtl; int mTtl;
int mNoAddresses; int mNoAddresses;
public: public:
ConnInfo( const std::string &connInfo ); ConnInfo( const std::string &connInfo );
}; };
class BandInfo class BandInfo
{ {
protected: protected:
std::string mType; std::string mType;
int mValue; int mValue;
public: public:
BandInfo( const std::string &bandInfo ); BandInfo( const std::string &bandInfo );
}; };
class MediaDescriptor class MediaDescriptor
{ {
protected: protected:
std::string mType; std::string mType;
int mPort; int mPort;
int mNumPorts; int mNumPorts;
std::string mTransport; std::string mTransport;
int mPayloadType; int mPayloadType;
std::string mPayloadDesc; std::string mPayloadDesc;
std::string mControlUrl; std::string mControlUrl;
double mFrameRate; double mFrameRate;
int mClock; int mClock;
int mWidth; int mWidth;
int mHeight; int mHeight;
std::string mSprops; std::string mSprops;
ConnInfo *mConnInfo;
public:
MediaDescriptor( const std::string &type, int port, int numPorts, const std::string &transport, int payloadType );
const std::string &getType() const
{
return( mType );
}
int getPort() const
{
return( mPort );
}
int getNumPorts() const
{
return( mNumPorts );
}
const std::string &getTransport() const
{
return( mTransport );
}
const int getPayloadType() const
{
return( mPayloadType );
}
const std::string &getPayloadDesc() const
{
return( mPayloadDesc );
}
void setPayloadDesc( const std::string &payloadDesc )
{
mPayloadDesc = payloadDesc;
}
const std::string &getControlUrl() const
{
return( mControlUrl );
}
void setControlUrl( const std::string &controlUrl )
{
mControlUrl = controlUrl;
}
const int getClock() const
{
return( mClock );
}
void setClock( int clock )
{
mClock = clock;
}
void setFrameSize( int width, int height )
{
mWidth = width;
mHeight = height;
}
int getWidth() const
{
return( mWidth );
}
int getHeight() const
{
return( mHeight );
}
void setSprops(const std::string props)
{
mSprops = props;
}
const std::string getSprops() const
{
return ( mSprops );
}
const double getFrameRate() const
{
return( mFrameRate );
}
void setFrameRate( double frameRate )
{
mFrameRate = frameRate;
}
};
typedef std::vector<MediaDescriptor *> MediaList;
protected:
static StaticPayloadDesc smStaticPayloads[];
static DynamicPayloadDesc smDynamicPayloads[];
protected:
std::string mUrl;
std::string mVersion;
std::string mOwner;
std::string mName;
std::string mInfo;
ConnInfo *mConnInfo; ConnInfo *mConnInfo;
BandInfo *mBandInfo;
std::string mTimeInfo;
StringVector mAttributes;
MediaList mMediaList; public:
MediaDescriptor( const std::string &type, int port, int numPorts, const std::string &transport, int payloadType );
const std::string &getType() const
{
return( mType );
}
int getPort() const
{
return( mPort );
}
int getNumPorts() const
{
return( mNumPorts );
}
const std::string &getTransport() const
{
return( mTransport );
}
const int getPayloadType() const
{
return( mPayloadType );
}
const std::string &getPayloadDesc() const
{
return( mPayloadDesc );
}
void setPayloadDesc( const std::string &payloadDesc )
{
mPayloadDesc = payloadDesc;
}
const std::string &getControlUrl() const
{
return( mControlUrl );
}
void setControlUrl( const std::string &controlUrl )
{
mControlUrl = controlUrl;
}
const int getClock() const
{
return( mClock );
}
void setClock( int clock )
{
mClock = clock;
}
void setFrameSize( int width, int height )
{
mWidth = width;
mHeight = height;
}
int getWidth() const
{
return( mWidth );
}
int getHeight() const
{
return( mHeight );
}
void setSprops(const std::string props)
{
mSprops = props;
}
const std::string getSprops() const
{
return ( mSprops );
}
const double getFrameRate() const
{
return( mFrameRate );
}
void setFrameRate( double frameRate )
{
mFrameRate = frameRate;
}
};
typedef std::vector<MediaDescriptor *> MediaList;
protected:
static StaticPayloadDesc smStaticPayloads[];
static DynamicPayloadDesc smDynamicPayloads[];
protected:
std::string mUrl;
std::string mVersion;
std::string mOwner;
std::string mName;
std::string mInfo;
ConnInfo *mConnInfo;
BandInfo *mBandInfo;
std::string mTimeInfo;
StringVector mAttributes;
MediaList mMediaList;
public: public:
SessionDescriptor( const std::string &url, const std::string &sdp ); SessionDescriptor( const std::string &url, const std::string &sdp );
~SessionDescriptor(); ~SessionDescriptor();
const std::string &getUrl() const const std::string &getUrl() const
{ {
return( mUrl ); return( mUrl );
} }
int getNumStreams() const int getNumStreams() const
{ {
return( mMediaList.size() ); return( mMediaList.size() );
} }
MediaDescriptor *getStream( int index ) MediaDescriptor *getStream( int index )
{ {
if ( index < 0 || (unsigned int)index >= mMediaList.size() ) if ( index < 0 || (unsigned int)index >= mMediaList.size() )
return( 0 ); return( 0 );
return( mMediaList[index] ); return( mMediaList[index] );
} }
AVFormatContext *generateFormatContext() const; AVFormatContext *generateFormatContext() const;
}; };
#if 0 #if 0
v=0 v=0

View File

@ -1,30 +1,30 @@
#ifdef HAVE_SENDFILE4_SUPPORT #ifdef HAVE_SENDFILE4_SUPPORT
#include <sys/sendfile.h> #include <sys/sendfile.h>
int zm_sendfile(int out_fd, int in_fd, off_t *offset, size_t size) { int zm_sendfile(int out_fd, int in_fd, off_t *offset, size_t size) {
int err; int err;
err = sendfile(out_fd, in_fd, offset, size); err = sendfile(out_fd, in_fd, offset, size);
if (err < 0) if (err < 0)
return -errno; return -errno;
return err; return err;
} }
#elif HAVE_SENDFILE7_SUPPORT #elif HAVE_SENDFILE7_SUPPORT
#include <sys/types.h> #include <sys/types.h>
#include <sys/socket.h> #include <sys/socket.h>
#include <sys/uio.h> #include <sys/uio.h>
int zm_sendfile(int out_fd, int in_fd, off_t *offset, off_t size) { int zm_sendfile(int out_fd, int in_fd, off_t *offset, off_t size) {
int err; int err;
err = sendfile(in_fd, out_fd, *offset, size, NULL, &size, 0); err = sendfile(in_fd, out_fd, *offset, size, NULL, &size, 0);
if (err && errno != EAGAIN) if (err && errno != EAGAIN)
return -errno; return -errno;
if (size) { if (size) {
*offset += size; *offset += size;
return size; return size;
} }
return -EAGAIN; return -EAGAIN;
} }
#else #else
#error "Your platform does not support sendfile. Sorry." #error "Your platform does not support sendfile. Sorry."

View File

@ -47,15 +47,12 @@ RETSIGTYPE zm_die_handler(int signal, siginfo_t * info, void *context)
RETSIGTYPE zm_die_handler(int signal) RETSIGTYPE zm_die_handler(int signal)
#endif #endif
{ {
#if (defined(__i386__) || defined(__x86_64__))
void *cr2 = 0;
void *ip = 0;
#endif
Error("Got signal %d (%s), crashing", signal, strsignal(signal)); Error("Got signal %d (%s), crashing", signal, strsignal(signal));
#if (defined(__i386__) || defined(__x86_64__)) #if (defined(__i386__) || defined(__x86_64__))
// Get more information if available // Get more information if available
#if ( HAVE_SIGINFO_T && HAVE_UCONTEXT_T ) #if ( HAVE_SIGINFO_T && HAVE_UCONTEXT_T )
void *ip = 0;
void *cr2 = 0;
if (info && context) { if (info && context) {
Debug(1, Debug(1,
@ -65,19 +62,19 @@ RETSIGTYPE zm_die_handler(int signal)
ucontext_t *uc = (ucontext_t *) context; ucontext_t *uc = (ucontext_t *) context;
cr2 = info->si_addr; cr2 = info->si_addr;
#if defined(__x86_64__) #if defined(__x86_64__)
#ifdef __FreeBSD_kernel__ #ifdef __FreeBSD_kernel__
ip = (void *)(uc->uc_mcontext.mc_rip); ip = (void *)(uc->uc_mcontext.mc_rip);
#else #else
ip = (void *)(uc->uc_mcontext.gregs[REG_RIP]); ip = (void *)(uc->uc_mcontext.gregs[REG_RIP]);
#endif #endif
#else #else
#ifdef __FreeBSD_kernel__ #ifdef __FreeBSD_kernel__
ip = (void *)(uc->uc_mcontext.mc_eip); ip = (void *)(uc->uc_mcontext.mc_eip);
#else #else
ip = (void *)(uc->uc_mcontext.gregs[REG_EIP]); ip = (void *)(uc->uc_mcontext.gregs[REG_EIP]);
#endif #endif
#endif // defined(__x86_64__) #endif // defined(__x86_64__)
// Print the signal address and instruction pointer if available // Print the signal address and instruction pointer if available
if (ip) { if (ip) {
@ -86,11 +83,11 @@ RETSIGTYPE zm_die_handler(int signal)
Error("Signal address is %p, no instruction pointer", cr2); Error("Signal address is %p, no instruction pointer", cr2);
} }
} }
#endif // ( HAVE_SIGINFO_T && HAVE_UCONTEXT_T ) #endif // ( HAVE_SIGINFO_T && HAVE_UCONTEXT_T )
// Print backtrace if enabled and available // Print backtrace if enabled and available
#if ( !defined(ZM_NO_CRASHTRACE) && HAVE_DECL_BACKTRACE && HAVE_DECL_BACKTRACE_SYMBOLS ) #if ( !defined(ZM_NO_CRASHTRACE) && HAVE_DECL_BACKTRACE && HAVE_DECL_BACKTRACE_SYMBOLS )
void *trace[TRACE_SIZE]; void *trace[TRACE_SIZE];
int trace_size = 0; int trace_size = 0;
trace_size = backtrace(trace, TRACE_SIZE); trace_size = backtrace(trace, TRACE_SIZE);
@ -111,7 +108,7 @@ RETSIGTYPE zm_die_handler(int signal)
Info("Backtrace complete, please execute the following command for more information"); Info("Backtrace complete, please execute the following command for more information");
Info(cmd); Info(cmd);
#endif // ( !defined(ZM_NO_CRASHTRACE) && HAVE_DECL_BACKTRACE && HAVE_DECL_BACKTRACE_SYMBOLS ) #endif // ( !defined(ZM_NO_CRASHTRACE) && HAVE_DECL_BACKTRACE && HAVE_DECL_BACKTRACE_SYMBOLS )
#endif // (defined(__i386__) || defined(__x86_64__) #endif // (defined(__i386__) || defined(__x86_64__)
exit(signal); exit(signal);
} }

View File

@ -50,8 +50,8 @@ Storage::Storage( unsigned int p_id ) {
char sql[ZM_SQL_SML_BUFSIZ]; char sql[ZM_SQL_SML_BUFSIZ];
snprintf( sql, sizeof(sql), "SELECT Id, Name, Path from Storage WHERE Id=%d", p_id ); snprintf( sql, sizeof(sql), "SELECT Id, Name, Path from Storage WHERE Id=%d", p_id );
Debug(1,"Loading Storage for %d using %s", p_id, sql ); Debug(1,"Loading Storage for %d using %s", p_id, sql );
MYSQL_ROW dbrow = zmDbFetchOne( sql ); zmDbRow dbrow;
if ( ! dbrow ) { if ( ! dbrow.fetch( sql ) ) {
Error( "Unable to load storage area for id %d: %s", p_id, mysql_error( &dbconn ) ); Error( "Unable to load storage area for id %d: %s", p_id, mysql_error( &dbconn ) );
} else { } else {
unsigned int index = 0; unsigned int index = 0;

View File

@ -32,326 +32,326 @@
StreamBase::~StreamBase() StreamBase::~StreamBase()
{ {
#if HAVE_LIBAVCODEC #if HAVE_LIBAVCODEC
if ( vid_stream ) if ( vid_stream )
{ {
delete vid_stream; delete vid_stream;
vid_stream = NULL; vid_stream = NULL;
} }
#endif #endif
closeComms(); closeComms();
} }
bool StreamBase::loadMonitor( int monitor_id ) bool StreamBase::loadMonitor( int monitor_id )
{ {
if ( !(monitor = Monitor::Load( monitor_id, false, Monitor::QUERY )) ) if ( !(monitor = Monitor::Load( monitor_id, false, Monitor::QUERY )) )
{ {
Fatal( "Unable to load monitor id %d for streaming", monitor_id ); Fatal( "Unable to load monitor id %d for streaming", monitor_id );
return( false ); return( false );
} }
monitor->connect(); monitor->connect();
return( true ); return( true );
} }
bool StreamBase::checkInitialised() bool StreamBase::checkInitialised()
{ {
if ( !monitor ) if ( !monitor )
{ {
Fatal( "Cannot stream, not initialised" ); Fatal( "Cannot stream, not initialised" );
return( false ); return( false );
} }
return( true ); return( true );
} }
void StreamBase::updateFrameRate( double fps ) void StreamBase::updateFrameRate( double fps )
{ {
base_fps = fps; base_fps = fps;
effective_fps = (base_fps*abs(replay_rate))/ZM_RATE_BASE; effective_fps = (base_fps*abs(replay_rate))/ZM_RATE_BASE;
frame_mod = 1; frame_mod = 1;
Debug( 3, "FPS:%.2f, MXFPS:%.2f, BFPS:%.2f, EFPS:%.2f, FM:%d", fps, maxfps, base_fps, effective_fps, frame_mod ); Debug( 3, "FPS:%.2f, MXFPS:%.2f, BFPS:%.2f, EFPS:%.2f, FM:%d", fps, maxfps, base_fps, effective_fps, frame_mod );
// Min frame repeat? // Min frame repeat?
while( effective_fps > maxfps ) while( effective_fps > maxfps )
{ {
effective_fps /= 2.0; effective_fps /= 2.0;
frame_mod *= 2; frame_mod *= 2;
} }
Debug( 3, "aEFPS:%.2f, aFM:%d", effective_fps, frame_mod ); Debug( 3, "aEFPS:%.2f, aFM:%d", effective_fps, frame_mod );
} }
bool StreamBase::checkCommandQueue() bool StreamBase::checkCommandQueue()
{ {
if ( sd >= 0 ) if ( sd >= 0 )
{
CmdMsg msg;
memset( &msg, 0, sizeof(msg) );
int nbytes = recvfrom( sd, &msg, sizeof(msg), MSG_DONTWAIT, 0, 0 );
if ( nbytes < 0 )
{ {
CmdMsg msg; if ( errno != EAGAIN )
memset( &msg, 0, sizeof(msg) ); {
int nbytes = recvfrom( sd, &msg, sizeof(msg), MSG_DONTWAIT, 0, 0 ); Fatal( "recvfrom(), errno = %d, error = %s", errno, strerror(errno) );
if ( nbytes < 0 ) }
{
if ( errno != EAGAIN )
{
Fatal( "recvfrom(), errno = %d, error = %s", errno, strerror(errno) );
}
}
//else if ( (nbytes != sizeof(msg)) )
//{
//Error( "Partial message received, expected %d bytes, got %d", sizeof(msg), nbytes );
//}
else
{
processCommand( &msg );
return( true );
}
} }
return( false ); //else if ( (nbytes != sizeof(msg)) )
//{
//Error( "Partial message received, expected %d bytes, got %d", sizeof(msg), nbytes );
//}
else
{
processCommand( &msg );
return( true );
}
}
return( false );
} }
Image *StreamBase::prepareImage( Image *image ) Image *StreamBase::prepareImage( Image *image )
{ {
static int last_scale = 0; static int last_scale = 0;
static int last_zoom = 0; static int last_zoom = 0;
static int last_x = 0; static int last_x = 0;
static int last_y = 0; static int last_y = 0;
if ( !last_scale ) if ( !last_scale )
last_scale = scale;
if ( !last_zoom )
last_zoom = zoom;
// Do not bother to scale zoomed in images, just crop them and let the browser scale
// Works in FF2 but breaks FF3 which doesn't like image sizes changing in mid stream.
bool optimisedScaling = false;
bool image_copied = false;
int mag = (scale * zoom) / ZM_SCALE_BASE;
int act_mag = optimisedScaling?(mag > ZM_SCALE_BASE?ZM_SCALE_BASE:mag):mag;
Debug( 3, "Scaling by %d, zooming by %d = magnifying by %d(%d)", scale, zoom, mag, act_mag );
int last_mag = (last_scale * last_zoom) / ZM_SCALE_BASE;
int last_act_mag = last_mag > ZM_SCALE_BASE?ZM_SCALE_BASE:last_mag;
Debug( 3, "Last scaling by %d, zooming by %d = magnifying by %d(%d)", last_scale, last_zoom, last_mag, last_act_mag );
int base_image_width = image->Width(), base_image_height = image->Height();
Debug( 3, "Base image width = %d, height = %d", base_image_width, base_image_height );
int virt_image_width = (base_image_width * mag) / ZM_SCALE_BASE, virt_image_height = (base_image_height * mag) / ZM_SCALE_BASE;
Debug( 3, "Virtual image width = %d, height = %d", virt_image_width, virt_image_height );
int last_virt_image_width = (base_image_width * last_mag) / ZM_SCALE_BASE, last_virt_image_height = (base_image_height * last_mag) / ZM_SCALE_BASE;
Debug( 3, "Last virtual image width = %d, height = %d", last_virt_image_width, last_virt_image_height );
int act_image_width = (base_image_width * act_mag ) / ZM_SCALE_BASE, act_image_height = (base_image_height * act_mag ) / ZM_SCALE_BASE;
Debug( 3, "Actual image width = %d, height = %d", act_image_width, act_image_height );
int last_act_image_width = (base_image_width * last_act_mag ) / ZM_SCALE_BASE, last_act_image_height = (base_image_height * last_act_mag ) / ZM_SCALE_BASE;
Debug( 3, "Last actual image width = %d, height = %d", last_act_image_width, last_act_image_height );
int disp_image_width = (image->Width() * scale) / ZM_SCALE_BASE, disp_image_height = (image->Height() * scale) / ZM_SCALE_BASE;
Debug( 3, "Display image width = %d, height = %d", disp_image_width, disp_image_height );
int last_disp_image_width = (image->Width() * last_scale) / ZM_SCALE_BASE, last_disp_image_height = (image->Height() * last_scale) / ZM_SCALE_BASE;
Debug( 3, "Last display image width = %d, height = %d", last_disp_image_width, last_disp_image_height );
int send_image_width = (disp_image_width * act_mag ) / mag, send_image_height = (disp_image_height * act_mag ) / mag;
Debug( 3, "Send image width = %d, height = %d", send_image_width, send_image_height );
int last_send_image_width = (last_disp_image_width * last_act_mag ) / last_mag, last_send_image_height = (last_disp_image_height * last_act_mag ) / last_mag;
Debug( 3, "Last send image width = %d, height = %d", last_send_image_width, last_send_image_height );
if ( mag != ZM_SCALE_BASE )
{
if ( act_mag != ZM_SCALE_BASE )
{
Debug( 3, "Magnifying by %d", mag );
if ( !image_copied )
{
static Image copy_image;
copy_image.Assign( *image );
image = &copy_image;
image_copied = true;
}
image->Scale( mag );
}
}
Debug( 3, "Real image width = %d, height = %d", image->Width(), image->Height() );
if ( disp_image_width < virt_image_width || disp_image_height < virt_image_height )
{
static Box last_crop;
if ( mag != last_mag || x != last_x || y != last_y )
{
Debug( 3, "Got click at %d,%d x %d", x, y, mag );
//if ( !last_mag )
//last_mag = mag;
if ( !(last_disp_image_width < last_virt_image_width || last_disp_image_height < last_virt_image_height) )
last_crop = Box();
Debug( 3, "Recalculating crop" );
// Recalculate crop parameters, as %ges
int click_x = (last_crop.LoX() * 100 ) / last_act_image_width; // Initial crop offset from last image
click_x += ( x * 100 ) / last_virt_image_width;
int click_y = (last_crop.LoY() * 100 ) / last_act_image_height; // Initial crop offset from last image
click_y += ( y * 100 ) / last_virt_image_height;
Debug( 3, "Got adjusted click at %d%%,%d%%", click_x, click_y );
// Convert the click locations to the current image pixels
click_x = ( click_x * act_image_width ) / 100;
click_y = ( click_y * act_image_height ) / 100;
Debug( 3, "Got readjusted click at %d,%d", click_x, click_y );
int lo_x = click_x - (send_image_width/2);
if ( lo_x < 0 )
lo_x = 0;
int hi_x = lo_x + (send_image_width-1);
if ( hi_x >= act_image_width )
{
hi_x = act_image_width - 1;
lo_x = hi_x - (send_image_width - 1);
}
int lo_y = click_y - (send_image_height/2);
if ( lo_y < 0 )
lo_y = 0;
int hi_y = lo_y + (send_image_height-1);
if ( hi_y >= act_image_height )
{
hi_y = act_image_height - 1;
lo_y = hi_y - (send_image_height - 1);
}
last_crop = Box( lo_x, lo_y, hi_x, hi_y );
}
Debug( 3, "Cropping to %d,%d -> %d,%d", last_crop.LoX(), last_crop.LoY(), last_crop.HiX(), last_crop.HiY() );
if ( !image_copied )
{
static Image copy_image;
copy_image.Assign( *image );
image = &copy_image;
image_copied = true;
}
image->Crop( last_crop );
}
last_scale = scale; last_scale = scale;
if ( !last_zoom )
last_zoom = zoom; last_zoom = zoom;
last_x = x;
last_y = y;
return( image ); // Do not bother to scale zoomed in images, just crop them and let the browser scale
// Works in FF2 but breaks FF3 which doesn't like image sizes changing in mid stream.
bool optimisedScaling = false;
bool image_copied = false;
int mag = (scale * zoom) / ZM_SCALE_BASE;
int act_mag = optimisedScaling?(mag > ZM_SCALE_BASE?ZM_SCALE_BASE:mag):mag;
Debug( 3, "Scaling by %d, zooming by %d = magnifying by %d(%d)", scale, zoom, mag, act_mag );
int last_mag = (last_scale * last_zoom) / ZM_SCALE_BASE;
int last_act_mag = last_mag > ZM_SCALE_BASE?ZM_SCALE_BASE:last_mag;
Debug( 3, "Last scaling by %d, zooming by %d = magnifying by %d(%d)", last_scale, last_zoom, last_mag, last_act_mag );
int base_image_width = image->Width(), base_image_height = image->Height();
Debug( 3, "Base image width = %d, height = %d", base_image_width, base_image_height );
int virt_image_width = (base_image_width * mag) / ZM_SCALE_BASE, virt_image_height = (base_image_height * mag) / ZM_SCALE_BASE;
Debug( 3, "Virtual image width = %d, height = %d", virt_image_width, virt_image_height );
int last_virt_image_width = (base_image_width * last_mag) / ZM_SCALE_BASE, last_virt_image_height = (base_image_height * last_mag) / ZM_SCALE_BASE;
Debug( 3, "Last virtual image width = %d, height = %d", last_virt_image_width, last_virt_image_height );
int act_image_width = (base_image_width * act_mag ) / ZM_SCALE_BASE, act_image_height = (base_image_height * act_mag ) / ZM_SCALE_BASE;
Debug( 3, "Actual image width = %d, height = %d", act_image_width, act_image_height );
int last_act_image_width = (base_image_width * last_act_mag ) / ZM_SCALE_BASE, last_act_image_height = (base_image_height * last_act_mag ) / ZM_SCALE_BASE;
Debug( 3, "Last actual image width = %d, height = %d", last_act_image_width, last_act_image_height );
int disp_image_width = (image->Width() * scale) / ZM_SCALE_BASE, disp_image_height = (image->Height() * scale) / ZM_SCALE_BASE;
Debug( 3, "Display image width = %d, height = %d", disp_image_width, disp_image_height );
int last_disp_image_width = (image->Width() * last_scale) / ZM_SCALE_BASE, last_disp_image_height = (image->Height() * last_scale) / ZM_SCALE_BASE;
Debug( 3, "Last display image width = %d, height = %d", last_disp_image_width, last_disp_image_height );
int send_image_width = (disp_image_width * act_mag ) / mag, send_image_height = (disp_image_height * act_mag ) / mag;
Debug( 3, "Send image width = %d, height = %d", send_image_width, send_image_height );
int last_send_image_width = (last_disp_image_width * last_act_mag ) / last_mag, last_send_image_height = (last_disp_image_height * last_act_mag ) / last_mag;
Debug( 3, "Last send image width = %d, height = %d", last_send_image_width, last_send_image_height );
if ( mag != ZM_SCALE_BASE )
{
if ( act_mag != ZM_SCALE_BASE )
{
Debug( 3, "Magnifying by %d", mag );
if ( !image_copied )
{
static Image copy_image;
copy_image.Assign( *image );
image = &copy_image;
image_copied = true;
}
image->Scale( mag );
}
}
Debug( 3, "Real image width = %d, height = %d", image->Width(), image->Height() );
if ( disp_image_width < virt_image_width || disp_image_height < virt_image_height )
{
static Box last_crop;
if ( mag != last_mag || x != last_x || y != last_y )
{
Debug( 3, "Got click at %d,%d x %d", x, y, mag );
//if ( !last_mag )
//last_mag = mag;
if ( !(last_disp_image_width < last_virt_image_width || last_disp_image_height < last_virt_image_height) )
last_crop = Box();
Debug( 3, "Recalculating crop" );
// Recalculate crop parameters, as %ges
int click_x = (last_crop.LoX() * 100 ) / last_act_image_width; // Initial crop offset from last image
click_x += ( x * 100 ) / last_virt_image_width;
int click_y = (last_crop.LoY() * 100 ) / last_act_image_height; // Initial crop offset from last image
click_y += ( y * 100 ) / last_virt_image_height;
Debug( 3, "Got adjusted click at %d%%,%d%%", click_x, click_y );
// Convert the click locations to the current image pixels
click_x = ( click_x * act_image_width ) / 100;
click_y = ( click_y * act_image_height ) / 100;
Debug( 3, "Got readjusted click at %d,%d", click_x, click_y );
int lo_x = click_x - (send_image_width/2);
if ( lo_x < 0 )
lo_x = 0;
int hi_x = lo_x + (send_image_width-1);
if ( hi_x >= act_image_width )
{
hi_x = act_image_width - 1;
lo_x = hi_x - (send_image_width - 1);
}
int lo_y = click_y - (send_image_height/2);
if ( lo_y < 0 )
lo_y = 0;
int hi_y = lo_y + (send_image_height-1);
if ( hi_y >= act_image_height )
{
hi_y = act_image_height - 1;
lo_y = hi_y - (send_image_height - 1);
}
last_crop = Box( lo_x, lo_y, hi_x, hi_y );
}
Debug( 3, "Cropping to %d,%d -> %d,%d", last_crop.LoX(), last_crop.LoY(), last_crop.HiX(), last_crop.HiY() );
if ( !image_copied )
{
static Image copy_image;
copy_image.Assign( *image );
image = &copy_image;
image_copied = true;
}
image->Crop( last_crop );
}
last_scale = scale;
last_zoom = zoom;
last_x = x;
last_y = y;
return( image );
} }
bool StreamBase::sendTextFrame( const char *frame_text ) bool StreamBase::sendTextFrame( const char *frame_text )
{ {
Debug( 2, "Sending text frame '%s'", frame_text ); Debug( 2, "Sending text frame '%s'", frame_text );
Image image( monitor->Width(), monitor->Height(), monitor->Colours(), monitor->SubpixelOrder() ); Image image( monitor->Width(), monitor->Height(), monitor->Colours(), monitor->SubpixelOrder() );
image.Annotate( frame_text, image.centreCoord( frame_text ) ); image.Annotate( frame_text, image.centreCoord( frame_text ) );
if ( scale != 100 ) if ( scale != 100 )
{ {
image.Scale( scale ); image.Scale( scale );
} }
#if HAVE_LIBAVCODEC #if HAVE_LIBAVCODEC
if ( type == STREAM_MPEG ) if ( type == STREAM_MPEG )
{
if ( !vid_stream )
{ {
if ( !vid_stream ) vid_stream = new VideoStream( "pipe:", format, bitrate, effective_fps, image.Colours(), image.SubpixelOrder(), image.Width(), image.Height() );
{ fprintf( stdout, "Content-type: %s\r\n\r\n", vid_stream->MimeType() );
vid_stream = new VideoStream( "pipe:", format, bitrate, effective_fps, image.Colours(), image.SubpixelOrder(), image.Width(), image.Height() ); vid_stream->OpenStream();
fprintf( stdout, "Content-type: %s\r\n\r\n", vid_stream->MimeType() );
vid_stream->OpenStream();
}
/* double pts = */ vid_stream->EncodeFrame( image.Buffer(), image.Size() );
} }
else /* double pts = */ vid_stream->EncodeFrame( image.Buffer(), image.Size() );
}
else
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC
{
static unsigned char buffer[ZM_MAX_IMAGE_SIZE];
int n_bytes = 0;
image.EncodeJpeg( buffer, &n_bytes );
fprintf( stdout, "--ZoneMinderFrame\r\n" );
fprintf( stdout, "Content-Length: %d\r\n", n_bytes );
fprintf( stdout, "Content-Type: image/jpeg\r\n\r\n" );
if ( fwrite( buffer, n_bytes, 1, stdout ) != 1 )
{ {
static unsigned char buffer[ZM_MAX_IMAGE_SIZE]; Error( "Unable to send stream text frame: %s", strerror(errno) );
int n_bytes = 0; return( false );
image.EncodeJpeg( buffer, &n_bytes );
fprintf( stdout, "--ZoneMinderFrame\r\n" );
fprintf( stdout, "Content-Length: %d\r\n", n_bytes );
fprintf( stdout, "Content-Type: image/jpeg\r\n\r\n" );
if ( fwrite( buffer, n_bytes, 1, stdout ) != 1 )
{
Error( "Unable to send stream text frame: %s", strerror(errno) );
return( false );
}
fprintf( stdout, "\r\n\r\n" );
fflush( stdout );
} }
last_frame_sent = TV_2_FLOAT( now ); fprintf( stdout, "\r\n\r\n" );
return( true ); fflush( stdout );
}
last_frame_sent = TV_2_FLOAT( now );
return( true );
} }
void StreamBase::openComms() void StreamBase::openComms()
{ {
if ( connkey > 0 ) if ( connkey > 0 )
{
snprintf( sock_path_lock, sizeof(sock_path_lock), "%s/zms-%06d.lock", config.path_socks, connkey);
lock_fd = open(sock_path_lock, O_CREAT|O_WRONLY, S_IRUSR | S_IWUSR);
if ( lock_fd <= 0 )
{ {
Error("Unable to open sock lock file %s: %s", sock_path_lock, strerror(errno) );
snprintf( sock_path_lock, sizeof(sock_path_lock), "%s/zms-%06d.lock", config.path_socks, connkey); lock_fd = 0;
lock_fd = open(sock_path_lock, O_CREAT|O_WRONLY, S_IRUSR | S_IWUSR);
if ( lock_fd <= 0 )
{
Error("Unable to open sock lock file %s: %s", sock_path_lock, strerror(errno) );
lock_fd = 0;
}
else if ( flock(lock_fd, LOCK_EX) != 0 )
{
Error("Unable to lock sock lock file %s: %s", sock_path_lock, strerror(errno) );
close(lock_fd);
lock_fd = 0;
}
else
{
Debug( 1, "We have obtained a lock on %s fd: %d", sock_path_lock, lock_fd);
}
sd = socket( AF_UNIX, SOCK_DGRAM, 0 );
if ( sd < 0 )
{
Fatal( "Can't create socket: %s", strerror(errno) );
}
snprintf( loc_sock_path, sizeof(loc_sock_path), "%s/zms-%06ds.sock", config.path_socks, connkey );
unlink( loc_sock_path );
strncpy( loc_addr.sun_path, loc_sock_path, sizeof(loc_addr.sun_path) );
loc_addr.sun_family = AF_UNIX;
if ( bind( sd, (struct sockaddr *)&loc_addr, strlen(loc_addr.sun_path)+sizeof(loc_addr.sun_family)) < 0 )
{
Fatal( "Can't bind: %s", strerror(errno) );
}
snprintf( rem_sock_path, sizeof(rem_sock_path), "%s/zms-%06dw.sock", config.path_socks, connkey );
strncpy( rem_addr.sun_path, rem_sock_path, sizeof(rem_addr.sun_path) );
rem_addr.sun_family = AF_UNIX;
} }
else if ( flock(lock_fd, LOCK_EX) != 0 )
{
Error("Unable to lock sock lock file %s: %s", sock_path_lock, strerror(errno) );
close(lock_fd);
lock_fd = 0;
}
else
{
Debug( 1, "We have obtained a lock on %s fd: %d", sock_path_lock, lock_fd);
}
sd = socket( AF_UNIX, SOCK_DGRAM, 0 );
if ( sd < 0 )
{
Fatal( "Can't create socket: %s", strerror(errno) );
}
snprintf( loc_sock_path, sizeof(loc_sock_path), "%s/zms-%06ds.sock", config.path_socks, connkey );
unlink( loc_sock_path );
strncpy( loc_addr.sun_path, loc_sock_path, sizeof(loc_addr.sun_path) );
loc_addr.sun_family = AF_UNIX;
if ( bind( sd, (struct sockaddr *)&loc_addr, strlen(loc_addr.sun_path)+sizeof(loc_addr.sun_family)) < 0 )
{
Fatal( "Can't bind: %s", strerror(errno) );
}
snprintf( rem_sock_path, sizeof(rem_sock_path), "%s/zms-%06dw.sock", config.path_socks, connkey );
strncpy( rem_addr.sun_path, rem_sock_path, sizeof(rem_addr.sun_path) );
rem_addr.sun_family = AF_UNIX;
}
} }
void StreamBase::closeComms() void StreamBase::closeComms()
{ {
if ( connkey > 0 ) if ( connkey > 0 )
{
if ( sd >= 0 )
{ {
if ( sd >= 0 ) close( sd );
{ sd = -1;
close( sd );
sd = -1;
}
if ( loc_sock_path[0] )
{
unlink( loc_sock_path );
}
if (lock_fd > 0)
{
close(lock_fd); //close it rather than unlock it incase it got deleted.
unlink(sock_path_lock);
}
} }
if ( loc_sock_path[0] )
{
unlink( loc_sock_path );
}
if (lock_fd > 0)
{
close(lock_fd); //close it rather than unlock it incase it got deleted.
unlink(sock_path_lock);
}
}
} }

View File

@ -33,149 +33,149 @@ class Monitor;
class StreamBase class StreamBase
{ {
public: public:
typedef enum { STREAM_JPEG, STREAM_RAW, STREAM_ZIP, STREAM_SINGLE, STREAM_MPEG } StreamType; typedef enum { STREAM_JPEG, STREAM_RAW, STREAM_ZIP, STREAM_SINGLE, STREAM_MPEG } StreamType;
protected: protected:
static const int MAX_STREAM_DELAY = 5; // Seconds static const int MAX_STREAM_DELAY = 5; // Seconds
static const StreamType DEFAULT_TYPE = STREAM_JPEG; static const StreamType DEFAULT_TYPE = STREAM_JPEG;
enum { DEFAULT_RATE=ZM_RATE_BASE }; enum { DEFAULT_RATE=ZM_RATE_BASE };
enum { DEFAULT_SCALE=ZM_SCALE_BASE }; enum { DEFAULT_SCALE=ZM_SCALE_BASE };
enum { DEFAULT_ZOOM=ZM_SCALE_BASE }; enum { DEFAULT_ZOOM=ZM_SCALE_BASE };
enum { DEFAULT_MAXFPS=10 }; enum { DEFAULT_MAXFPS=10 };
enum { DEFAULT_BITRATE=100000 }; enum { DEFAULT_BITRATE=100000 };
protected: protected:
typedef struct { typedef struct {
int msg_type; int msg_type;
char msg_data[16]; char msg_data[16];
} CmdMsg; } CmdMsg;
typedef struct { typedef struct {
int msg_type; int msg_type;
char msg_data[256]; char msg_data[256];
} DataMsg; } DataMsg;
typedef enum { MSG_CMD=1, MSG_DATA_WATCH, MSG_DATA_EVENT } MsgType; typedef enum { MSG_CMD=1, MSG_DATA_WATCH, MSG_DATA_EVENT } MsgType;
typedef enum { CMD_NONE=0, CMD_PAUSE, CMD_PLAY, CMD_STOP, CMD_FASTFWD, CMD_SLOWFWD, CMD_SLOWREV, CMD_FASTREV, CMD_ZOOMIN, CMD_ZOOMOUT, CMD_PAN, CMD_SCALE, CMD_PREV, CMD_NEXT, CMD_SEEK, CMD_VARPLAY, CMD_GET_IMAGE, CMD_QUIT, CMD_QUERY=99 } MsgCommand; typedef enum { CMD_NONE=0, CMD_PAUSE, CMD_PLAY, CMD_STOP, CMD_FASTFWD, CMD_SLOWFWD, CMD_SLOWREV, CMD_FASTREV, CMD_ZOOMIN, CMD_ZOOMOUT, CMD_PAN, CMD_SCALE, CMD_PREV, CMD_NEXT, CMD_SEEK, CMD_VARPLAY, CMD_GET_IMAGE, CMD_QUIT, CMD_QUERY=99 } MsgCommand;
protected: protected:
Monitor *monitor; Monitor *monitor;
StreamType type; StreamType type;
const char *format; const char *format;
int replay_rate; int replay_rate;
int scale; int scale;
int zoom; int zoom;
double maxfps; double maxfps;
int bitrate; int bitrate;
unsigned short x, y; unsigned short x, y;
protected: protected:
int connkey; int connkey;
int sd; int sd;
char loc_sock_path[PATH_MAX]; char loc_sock_path[PATH_MAX];
struct sockaddr_un loc_addr; struct sockaddr_un loc_addr;
char rem_sock_path[PATH_MAX]; char rem_sock_path[PATH_MAX];
struct sockaddr_un rem_addr; struct sockaddr_un rem_addr;
char sock_path_lock[PATH_MAX]; char sock_path_lock[PATH_MAX];
int lock_fd; int lock_fd;
protected: protected:
bool paused; bool paused;
int step; int step;
struct timeval now; struct timeval now;
double base_fps; double base_fps;
double effective_fps; double effective_fps;
int frame_mod; int frame_mod;
double last_frame_sent; double last_frame_sent;
struct timeval last_frame_timestamp; struct timeval last_frame_timestamp;
#if HAVE_LIBAVCODEC #if HAVE_LIBAVCODEC
VideoStream *vid_stream; VideoStream *vid_stream;
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC
CmdMsg msg; CmdMsg msg;
protected: protected:
bool loadMonitor( int monitor_id ); bool loadMonitor( int monitor_id );
bool checkInitialised(); bool checkInitialised();
void updateFrameRate( double fps ); void updateFrameRate( double fps );
Image *prepareImage( Image *image ); Image *prepareImage( Image *image );
bool sendTextFrame( const char *text ); bool sendTextFrame( const char *text );
bool checkCommandQueue(); bool checkCommandQueue();
virtual void processCommand( const CmdMsg *msg )=0; virtual void processCommand( const CmdMsg *msg )=0;
public: public:
StreamBase() StreamBase()
{ {
monitor = 0; monitor = 0;
type = DEFAULT_TYPE; type = DEFAULT_TYPE;
format = ""; format = "";
replay_rate = DEFAULT_RATE; replay_rate = DEFAULT_RATE;
scale = DEFAULT_SCALE; scale = DEFAULT_SCALE;
zoom = DEFAULT_ZOOM; zoom = DEFAULT_ZOOM;
maxfps = DEFAULT_MAXFPS; maxfps = DEFAULT_MAXFPS;
bitrate = DEFAULT_BITRATE; bitrate = DEFAULT_BITRATE;
paused = false; paused = false;
step = 0; step = 0;
x = 0; x = 0;
y = 0; y = 0;
connkey = 0; connkey = 0;
sd = -1; sd = -1;
lock_fd = 0; lock_fd = 0;
memset( &loc_sock_path, 0, sizeof(loc_sock_path) ); memset( &loc_sock_path, 0, sizeof(loc_sock_path) );
memset( &loc_addr, 0, sizeof(loc_addr) ); memset( &loc_addr, 0, sizeof(loc_addr) );
memset( &rem_sock_path, 0, sizeof(rem_sock_path) ); memset( &rem_sock_path, 0, sizeof(rem_sock_path) );
memset( &rem_addr, 0, sizeof(rem_addr) ); memset( &rem_addr, 0, sizeof(rem_addr) );
base_fps = 0.0; base_fps = 0.0;
effective_fps = 0.0; effective_fps = 0.0;
frame_mod = 1; frame_mod = 1;
#if HAVE_LIBAVCODEC #if HAVE_LIBAVCODEC
vid_stream = 0; vid_stream = 0;
#endif // HAVE_LIBAVCODEC #endif // HAVE_LIBAVCODEC
} }
virtual ~StreamBase(); virtual ~StreamBase();
void setStreamType( StreamType p_type ) void setStreamType( StreamType p_type )
{ {
type = p_type; type = p_type;
} }
void setStreamFormat( const char *p_format ) void setStreamFormat( const char *p_format )
{ {
format = p_format; format = p_format;
} }
void setStreamScale( int p_scale ) void setStreamScale( int p_scale )
{ {
scale = p_scale; scale = p_scale;
} }
void setStreamReplayRate( int p_rate ) void setStreamReplayRate( int p_rate )
{ {
replay_rate = p_rate; replay_rate = p_rate;
} }
void setStreamMaxFPS( double p_maxfps ) void setStreamMaxFPS( double p_maxfps )
{ {
maxfps = p_maxfps; maxfps = p_maxfps;
} }
void setStreamBitrate( int p_bitrate ) void setStreamBitrate( int p_bitrate )
{ {
bitrate = p_bitrate; bitrate = p_bitrate;
} }
void setStreamQueue( int p_connkey ) void setStreamQueue( int p_connkey )
{ {
connkey = p_connkey; connkey = p_connkey;
} }
virtual void openComms(); virtual void openComms();
virtual void closeComms(); virtual void closeComms();
virtual void runStream()=0; virtual void runStream()=0;
}; };
#endif // ZM_STREAM_H #endif // ZM_STREAM_H

View File

@ -29,311 +29,310 @@
struct timespec getTimeout( int secs ) struct timespec getTimeout( int secs )
{ {
struct timespec timeout; struct timespec timeout;
struct timeval temp_timeout; struct timeval temp_timeout;
gettimeofday( &temp_timeout, 0 ); gettimeofday( &temp_timeout, 0 );
timeout.tv_sec = temp_timeout.tv_sec + secs; timeout.tv_sec = temp_timeout.tv_sec + secs;
timeout.tv_nsec = temp_timeout.tv_usec*1000; timeout.tv_nsec = temp_timeout.tv_usec*1000;
return( timeout ); return( timeout );
} }
struct timespec getTimeout( double secs ) struct timespec getTimeout( double secs )
{ {
struct timespec timeout; struct timespec timeout;
struct timeval temp_timeout; struct timeval temp_timeout;
gettimeofday( &temp_timeout, 0 ); gettimeofday( &temp_timeout, 0 );
timeout.tv_sec = temp_timeout.tv_sec + int(secs); timeout.tv_sec = temp_timeout.tv_sec + int(secs);
timeout.tv_nsec = temp_timeout.tv_usec += (long int)(1000000000.0*(secs-int(secs))); timeout.tv_nsec = temp_timeout.tv_usec += (long int)(1000000000.0*(secs-int(secs)));
if ( timeout.tv_nsec > 1000000000 ) if ( timeout.tv_nsec > 1000000000 )
{ {
timeout.tv_sec += 1; timeout.tv_sec += 1;
timeout.tv_nsec -= 1000000000; timeout.tv_nsec -= 1000000000;
} }
return( timeout ); return( timeout );
} }
Mutex::Mutex() Mutex::Mutex()
{ {
if ( pthread_mutex_init( &mMutex, NULL ) < 0 ) if ( pthread_mutex_init( &mMutex, NULL ) < 0 )
throw ThreadException( stringtf( "Unable to create pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to create pthread mutex: %s", strerror(errno) ) );
} }
Mutex::~Mutex() Mutex::~Mutex()
{ {
if ( locked() ) if ( locked() )
Warning( "Destroying mutex when locked" ); Warning( "Destroying mutex when locked" );
if ( pthread_mutex_destroy( &mMutex ) < 0 ) if ( pthread_mutex_destroy( &mMutex ) < 0 )
throw ThreadException( stringtf( "Unable to destroy pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to destroy pthread mutex: %s", strerror(errno) ) );
} }
void Mutex::lock() void Mutex::lock()
{ {
if ( pthread_mutex_lock( &mMutex ) < 0 ) if ( pthread_mutex_lock( &mMutex ) < 0 )
throw ThreadException( stringtf( "Unable to lock pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to lock pthread mutex: %s", strerror(errno) ) );
} }
void Mutex::lock( int secs ) void Mutex::lock( int secs )
{ {
struct timespec timeout = getTimeout( secs ); struct timespec timeout = getTimeout( secs );
if ( pthread_mutex_timedlock( &mMutex, &timeout ) < 0 ) if ( pthread_mutex_timedlock( &mMutex, &timeout ) < 0 )
throw ThreadException( stringtf( "Unable to timedlock pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to timedlock pthread mutex: %s", strerror(errno) ) );
} }
void Mutex::lock( double secs ) void Mutex::lock( double secs )
{ {
struct timespec timeout = getTimeout( secs ); struct timespec timeout = getTimeout( secs );
if ( pthread_mutex_timedlock( &mMutex, &timeout ) < 0 ) if ( pthread_mutex_timedlock( &mMutex, &timeout ) < 0 )
throw ThreadException( stringtf( "Unable to timedlock pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to timedlock pthread mutex: %s", strerror(errno) ) );
} }
void Mutex::unlock() void Mutex::unlock()
{ {
if ( pthread_mutex_unlock( &mMutex ) < 0 ) if ( pthread_mutex_unlock( &mMutex ) < 0 )
throw ThreadException( stringtf( "Unable to unlock pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to unlock pthread mutex: %s", strerror(errno) ) );
} }
bool Mutex::locked() bool Mutex::locked()
{ {
int state = pthread_mutex_trylock( &mMutex ); int state = pthread_mutex_trylock( &mMutex );
if ( state != 0 && state != EBUSY ) if ( state != 0 && state != EBUSY )
throw ThreadException( stringtf( "Unable to trylock pthread mutex: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to trylock pthread mutex: %s", strerror(errno) ) );
if ( state != EBUSY ) if ( state != EBUSY )
unlock(); unlock();
return( state == EBUSY ); return( state == EBUSY );
} }
Condition::Condition( Mutex &mutex ) : mMutex( mutex ) Condition::Condition( Mutex &mutex ) : mMutex( mutex )
{ {
if ( pthread_cond_init( &mCondition, NULL ) < 0 ) if ( pthread_cond_init( &mCondition, NULL ) < 0 )
throw ThreadException( stringtf( "Unable to create pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to create pthread condition: %s", strerror(errno) ) );
} }
Condition::~Condition() Condition::~Condition()
{ {
if ( pthread_cond_destroy( &mCondition ) < 0 ) if ( pthread_cond_destroy( &mCondition ) < 0 )
throw ThreadException( stringtf( "Unable to destroy pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to destroy pthread condition: %s", strerror(errno) ) );
} }
void Condition::wait() void Condition::wait()
{ {
// Locking done outside of this function // Locking done outside of this function
if ( pthread_cond_wait( &mCondition, mMutex.getMutex() ) < 0 ) if ( pthread_cond_wait( &mCondition, mMutex.getMutex() ) < 0 )
throw ThreadException( stringtf( "Unable to wait pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to wait pthread condition: %s", strerror(errno) ) );
} }
bool Condition::wait( int secs ) bool Condition::wait( int secs )
{ {
// Locking done outside of this function // Locking done outside of this function
Debug( 8, "Waiting for %d seconds", secs ); Debug( 8, "Waiting for %d seconds", secs );
struct timespec timeout = getTimeout( secs ); struct timespec timeout = getTimeout( secs );
if ( pthread_cond_timedwait( &mCondition, mMutex.getMutex(), &timeout ) < 0 && errno != ETIMEDOUT ) if ( pthread_cond_timedwait( &mCondition, mMutex.getMutex(), &timeout ) < 0 && errno != ETIMEDOUT )
throw ThreadException( stringtf( "Unable to timedwait pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to timedwait pthread condition: %s", strerror(errno) ) );
return( errno != ETIMEDOUT ); return( errno != ETIMEDOUT );
} }
bool Condition::wait( double secs ) bool Condition::wait( double secs )
{ {
// Locking done outside of this function // Locking done outside of this function
struct timespec timeout = getTimeout( secs ); struct timespec timeout = getTimeout( secs );
if ( pthread_cond_timedwait( &mCondition, mMutex.getMutex(), &timeout ) < 0 && errno != ETIMEDOUT ) if ( pthread_cond_timedwait( &mCondition, mMutex.getMutex(), &timeout ) < 0 && errno != ETIMEDOUT )
throw ThreadException( stringtf( "Unable to timedwait pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to timedwait pthread condition: %s", strerror(errno) ) );
return( errno != ETIMEDOUT ); return( errno != ETIMEDOUT );
} }
void Condition::signal() void Condition::signal()
{ {
if ( pthread_cond_signal( &mCondition ) < 0 ) if ( pthread_cond_signal( &mCondition ) < 0 )
throw ThreadException( stringtf( "Unable to signal pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to signal pthread condition: %s", strerror(errno) ) );
} }
void Condition::broadcast() void Condition::broadcast()
{ {
if ( pthread_cond_broadcast( &mCondition ) < 0 ) if ( pthread_cond_broadcast( &mCondition ) < 0 )
throw ThreadException( stringtf( "Unable to broadcast pthread condition: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Unable to broadcast pthread condition: %s", strerror(errno) ) );
} }
template <class T> const T ThreadData<T>::getValue() const template <class T> const T ThreadData<T>::getValue() const
{ {
mMutex.lock(); mMutex.lock();
const T valueCopy = mValue; const T valueCopy = mValue;
mMutex.unlock(); mMutex.unlock();
return( valueCopy ); return( valueCopy );
} }
template <class T> T ThreadData<T>::setValue( const T value ) template <class T> T ThreadData<T>::setValue( const T value )
{ {
mMutex.lock(); mMutex.lock();
const T valueCopy = mValue = value; const T valueCopy = mValue = value;
mMutex.unlock(); mMutex.unlock();
return( valueCopy ); return( valueCopy );
} }
template <class T> const T ThreadData<T>::getUpdatedValue() const template <class T> const T ThreadData<T>::getUpdatedValue() const
{ {
Debug( 8, "Waiting for value update, %p", this ); Debug( 8, "Waiting for value update, %p", this );
mMutex.lock(); mMutex.lock();
mChanged = false; mChanged = false;
//do { //do {
mCondition.wait(); mCondition.wait();
//} while ( !mChanged ); //} while ( !mChanged );
const T valueCopy = mValue; const T valueCopy = mValue;
mMutex.unlock(); mMutex.unlock();
Debug( 9, "Got value update, %p", this ); Debug( 9, "Got value update, %p", this );
return( valueCopy ); return( valueCopy );
} }
template <class T> const T ThreadData<T>::getUpdatedValue( double secs ) const template <class T> const T ThreadData<T>::getUpdatedValue( double secs ) const
{ {
Debug( 8, "Waiting for value update, %.2f secs, %p", secs, this ); Debug( 8, "Waiting for value update, %.2f secs, %p", secs, this );
mMutex.lock(); mMutex.lock();
mChanged = false; mChanged = false;
//do { //do {
mCondition.wait( secs ); mCondition.wait( secs );
//} while ( !mChanged ); //} while ( !mChanged );
const T valueCopy = mValue; const T valueCopy = mValue;
mMutex.unlock(); mMutex.unlock();
Debug( 9, "Got value update, %p", this ); Debug( 9, "Got value update, %p", this );
return( valueCopy ); return( valueCopy );
} }
template <class T> const T ThreadData<T>::getUpdatedValue( int secs ) const template <class T> const T ThreadData<T>::getUpdatedValue( int secs ) const
{ {
Debug( 8, "Waiting for value update, %d secs, %p", secs, this ); Debug( 8, "Waiting for value update, %d secs, %p", secs, this );
mMutex.lock(); mMutex.lock();
mChanged = false; mChanged = false;
//do { //do {
mCondition.wait( secs ); mCondition.wait( secs );
//} while ( !mChanged ); //} while ( !mChanged );
const T valueCopy = mValue; const T valueCopy = mValue;
mMutex.unlock(); mMutex.unlock();
Debug( 9, "Got value update, %p", this ); Debug( 9, "Got value update, %p", this );
return( valueCopy ); return( valueCopy );
} }
template <class T> void ThreadData<T>::updateValueSignal( const T value ) template <class T> void ThreadData<T>::updateValueSignal( const T value )
{ {
Debug( 8, "Updating value with signal, %p", this ); Debug( 8, "Updating value with signal, %p", this );
mMutex.lock(); mMutex.lock();
mValue = value; mValue = value;
mChanged = true; mChanged = true;
mCondition.signal(); mCondition.signal();
mMutex.unlock(); mMutex.unlock();
Debug( 9, "Updated value, %p", this ); Debug( 9, "Updated value, %p", this );
} }
template <class T> void ThreadData<T>::updateValueBroadcast( const T value ) template <class T> void ThreadData<T>::updateValueBroadcast( const T value )
{ {
Debug( 8, "Updating value with broadcast, %p", this ); Debug( 8, "Updating value with broadcast, %p", this );
mMutex.lock(); mMutex.lock();
mValue = value; mValue = value;
mChanged = true; mChanged = true;
mCondition.broadcast(); mCondition.broadcast();
mMutex.unlock(); mMutex.unlock();
Debug( 9, "Updated value, %p", this ); Debug( 9, "Updated value, %p", this );
} }
Thread::Thread() : Thread::Thread() :
mThreadCondition( mThreadMutex ), mThreadCondition( mThreadMutex ),
mPid( -1 ), mPid( -1 ),
mStarted( false ), mStarted( false ),
mRunning( false ) mRunning( false )
{ {
Debug( 1, "Creating thread" ); Debug( 1, "Creating thread" );
} }
Thread::~Thread() Thread::~Thread()
{ {
Debug( 1, "Destroying thread %d", mPid ); Debug( 1, "Destroying thread %d", mPid );
if ( mStarted ) if ( mStarted )
join(); join();
} }
void *Thread::mThreadFunc( void *arg ) void *Thread::mThreadFunc( void *arg )
{ {
Debug( 2, "Invoking thread" ); Debug( 2, "Invoking thread" );
Thread *thisPtr = (Thread *)arg; Thread *thisPtr = (Thread *)arg;
void *status = 0; thisPtr->status = 0;
try try
{ {
thisPtr->mThreadMutex.lock(); thisPtr->mThreadMutex.lock();
thisPtr->mPid = thisPtr->id(); thisPtr->mPid = thisPtr->id();
thisPtr->mThreadCondition.signal(); thisPtr->mThreadCondition.signal();
thisPtr->mThreadMutex.unlock(); thisPtr->mThreadMutex.unlock();
thisPtr->mRunning = true; thisPtr->mRunning = true;
int run=(thisPtr->run()); thisPtr->status = thisPtr->run();
status = (void *)&run; thisPtr->mRunning = false;
thisPtr->mRunning = false; Debug( 2, "Exiting thread, status %p", (void *)&(thisPtr->status) );
Debug( 2, "Exiting thread, status %p", status ); return (void *)&(thisPtr->status);
} }
catch ( const ThreadException &e ) catch ( const ThreadException &e )
{ {
Error( "%s", e.getMessage().c_str() ); Error( "%s", e.getMessage().c_str() );
thisPtr->mRunning = false; thisPtr->mRunning = false;
status = (void *)-1; Debug( 2, "Exiting thread after exception, status %p", (void *)-1 );
Debug( 2, "Exiting thread after exception, status %p", status ); return (void *)-1;
} }
return( status );
} }
void Thread::start() void Thread::start()
{ {
Debug( 1, "Starting thread" ); Debug( 1, "Starting thread" );
if ( isThread() ) if ( isThread() )
throw ThreadException( "Can't self start thread" ); throw ThreadException( "Can't self start thread" );
mThreadMutex.lock(); mThreadMutex.lock();
if ( !mStarted ) if ( !mStarted )
{ {
pthread_attr_t threadAttrs; pthread_attr_t threadAttrs;
pthread_attr_init( &threadAttrs ); pthread_attr_init( &threadAttrs );
pthread_attr_setscope( &threadAttrs, PTHREAD_SCOPE_SYSTEM ); pthread_attr_setscope( &threadAttrs, PTHREAD_SCOPE_SYSTEM );
mStarted = true; mStarted = true;
if ( pthread_create( &mThread, &threadAttrs, mThreadFunc, this ) < 0 ) if ( pthread_create( &mThread, &threadAttrs, mThreadFunc, this ) < 0 )
throw ThreadException( stringtf( "Can't create thread: %s", strerror(errno) ) ); throw ThreadException( stringtf( "Can't create thread: %s", strerror(errno) ) );
pthread_attr_destroy( &threadAttrs ); pthread_attr_destroy( &threadAttrs );
} }
else else
{ {
Error( "Attempt to start already running thread %d", mPid ); Error( "Attempt to start already running thread %d", mPid );
} }
mThreadCondition.wait(); mThreadCondition.wait();
mThreadMutex.unlock(); mThreadMutex.unlock();
Debug( 1, "Started thread %d", mPid ); Debug( 1, "Started thread %d", mPid );
} }
void Thread::join() void Thread::join()
{ {
Debug( 1, "Joining thread %d", mPid ); Debug( 1, "Joining thread %d", mPid );
if ( isThread() ) if ( isThread() )
throw ThreadException( "Can't self join thread" ); throw ThreadException( "Can't self join thread" );
mThreadMutex.lock(); mThreadMutex.lock();
if ( mPid >= 0 ) if ( mPid >= 0 )
{
if ( mStarted )
{ {
if ( mStarted ) void *threadStatus = 0;
{ if ( pthread_join( mThread, &threadStatus ) < 0 )
void *threadStatus = 0; throw ThreadException( stringtf( "Can't join sender thread: %s", strerror(errno) ) );
if ( pthread_join( mThread, &threadStatus ) < 0 ) mStarted = false;
throw ThreadException( stringtf( "Can't join sender thread: %s", strerror(errno) ) ); Debug( 1, "Thread %d exited, status %p", mPid, threadStatus );
mStarted = false;
Debug( 1, "Thread %d exited, status %p", mPid, threadStatus );
}
else
{
Warning( "Attempt to join already finished thread %d", mPid );
}
} }
else else
{ {
Warning( "Attempt to join non-started thread %d", mPid ); Warning( "Attempt to join already finished thread %d", mPid );
} }
mThreadMutex.unlock(); }
Debug( 1, "Joined thread %d", mPid ); else
{
Warning( "Attempt to join non-started thread %d", mPid );
}
mThreadMutex.unlock();
Debug( 1, "Joined thread %d", mPid );
} }
void Thread::kill( int signal ) void Thread::kill( int signal )
{ {
pthread_kill( mThread, signal ); pthread_kill( mThread, signal );
} }
// Some explicit template instantiations // Some explicit template instantiations

View File

@ -36,27 +36,27 @@ class ThreadException : public Exception
{ {
private: private:
#ifndef SOLARIS #ifndef SOLARIS
pid_t pid() { pid_t pid() {
pid_t tid; pid_t tid;
#ifdef __FreeBSD__ #ifdef __FreeBSD__
long lwpid; long lwpid;
thr_self(&lwpid); thr_self(&lwpid);
tid = lwpid; tid = lwpid;
#else #else
#ifdef __FreeBSD_kernel__ #ifdef __FreeBSD_kernel__
if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id
# else # else
tid=syscall(SYS_gettid); tid=syscall(SYS_gettid);
#endif #endif
#endif #endif
return tid; return tid;
} }
#else #else
pthread_t pid() { return( pthread_self() ); } pthread_t pid() { return( pthread_self() ); }
#endif #endif
public: public:
ThreadException( const std::string &message ) : Exception( stringtf( "(%d) "+message, (long int)pid() ) ) { ThreadException( const std::string &message ) : Exception( stringtf( "(%d) "+message, (long int)pid() ) ) {
} }
}; };
class Mutex class Mutex
@ -64,214 +64,215 @@ class Mutex
friend class Condition; friend class Condition;
private: private:
pthread_mutex_t mMutex; pthread_mutex_t mMutex;
public: public:
Mutex(); Mutex();
~Mutex(); ~Mutex();
private: private:
pthread_mutex_t *getMutex() pthread_mutex_t *getMutex()
{ {
return( &mMutex ); return( &mMutex );
} }
public: public:
void lock(); void lock();
void lock( int secs ); void lock( int secs );
void lock( double secs ); void lock( double secs );
void unlock(); void unlock();
bool locked(); bool locked();
}; };
class ScopedMutex class ScopedMutex
{ {
private: private:
Mutex &mMutex; Mutex &mMutex;
public: public:
ScopedMutex( Mutex &mutex ) : mMutex( mutex ) ScopedMutex( Mutex &mutex ) : mMutex( mutex )
{ {
mMutex.lock(); mMutex.lock();
} }
~ScopedMutex() ~ScopedMutex()
{ {
mMutex.unlock(); mMutex.unlock();
} }
private: private:
ScopedMutex( const ScopedMutex & ); ScopedMutex( const ScopedMutex & );
}; };
class Condition class Condition
{ {
private: private:
Mutex &mMutex; Mutex &mMutex;
pthread_cond_t mCondition; pthread_cond_t mCondition;
public: public:
Condition( Mutex &mutex ); Condition( Mutex &mutex );
~Condition(); ~Condition();
void wait(); void wait();
bool wait( int secs ); bool wait( int secs );
bool wait( double secs ); bool wait( double secs );
void signal(); void signal();
void broadcast(); void broadcast();
}; };
class Semaphore : public Condition class Semaphore : public Condition
{ {
private: private:
Mutex mMutex; Mutex mMutex;
public: public:
Semaphore() : Condition( mMutex ) Semaphore() : Condition( mMutex )
{ {
} }
void wait() void wait()
{ {
mMutex.lock(); mMutex.lock();
Condition::wait(); Condition::wait();
mMutex.unlock(); mMutex.unlock();
} }
bool wait( int secs ) bool wait( int secs )
{ {
mMutex.lock(); mMutex.lock();
bool result = Condition::wait( secs ); bool result = Condition::wait( secs );
mMutex.unlock(); mMutex.unlock();
return( result ); return( result );
} }
bool wait( double secs ) bool wait( double secs )
{ {
mMutex.lock(); mMutex.lock();
bool result = Condition::wait( secs ); bool result = Condition::wait( secs );
mMutex.unlock(); mMutex.unlock();
return( result ); return( result );
} }
void signal() void signal()
{ {
mMutex.lock(); mMutex.lock();
Condition::signal(); Condition::signal();
mMutex.unlock(); mMutex.unlock();
} }
void broadcast() void broadcast()
{ {
mMutex.lock(); mMutex.lock();
Condition::broadcast(); Condition::broadcast();
mMutex.unlock(); mMutex.unlock();
} }
}; };
template <class T> class ThreadData template <class T> class ThreadData
{ {
private: private:
T mValue; T mValue;
mutable bool mChanged; mutable bool mChanged;
mutable Mutex mMutex; mutable Mutex mMutex;
mutable Condition mCondition; mutable Condition mCondition;
public: public:
__attribute__((used)) ThreadData() : mCondition( mMutex ) __attribute__((used)) ThreadData() : mCondition( mMutex )
{ {
} }
__attribute__((used)) ThreadData( T value ) : mValue( value ), mCondition( mMutex ) __attribute__((used)) ThreadData( T value ) : mValue( value ), mCondition( mMutex )
{ {
} }
//~ThreadData() {} //~ThreadData() {}
__attribute__((used)) operator T() const __attribute__((used)) operator T() const
{ {
return( getValue() ); return( getValue() );
} }
__attribute__((used)) const T operator=( const T value ) __attribute__((used)) const T operator=( const T value )
{ {
return( setValue( value ) ); return( setValue( value ) );
} }
__attribute__((used)) const T getValueImmediate() const __attribute__((used)) const T getValueImmediate() const
{ {
return( mValue ); return( mValue );
} }
__attribute__((used)) T setValueImmediate( const T value ) __attribute__((used)) T setValueImmediate( const T value )
{ {
return( mValue = value ); return( mValue = value );
} }
__attribute__((used)) const T getValue() const; __attribute__((used)) const T getValue() const;
__attribute__((used)) T setValue( const T value ); __attribute__((used)) T setValue( const T value );
__attribute__((used)) const T getUpdatedValue() const; __attribute__((used)) const T getUpdatedValue() const;
__attribute__((used)) const T getUpdatedValue( double secs ) const; __attribute__((used)) const T getUpdatedValue( double secs ) const;
__attribute__((used)) const T getUpdatedValue( int secs ) const; __attribute__((used)) const T getUpdatedValue( int secs ) const;
__attribute__((used)) void updateValueSignal( const T value ); __attribute__((used)) void updateValueSignal( const T value );
__attribute__((used)) void updateValueBroadcast( const T value ); __attribute__((used)) void updateValueBroadcast( const T value );
}; };
class Thread class Thread
{ {
public: public:
typedef void *(*ThreadFunc)( void * ); typedef void *(*ThreadFunc)( void * );
protected: protected:
pthread_t mThread; pthread_t mThread;
Mutex mThreadMutex; Mutex mThreadMutex;
Condition mThreadCondition; Condition mThreadCondition;
#ifndef SOLARIS #ifndef SOLARIS
pid_t mPid; pid_t mPid;
#else #else
pthread_t mPid; pthread_t mPid;
#endif #endif
bool mStarted; bool mStarted;
bool mRunning; bool mRunning;
int status; // Used in various funcions to get around return a local variable
protected: protected:
Thread(); Thread();
virtual ~Thread(); virtual ~Thread();
#ifndef SOLARIS #ifndef SOLARIS
pid_t id() const pid_t id() const
{ {
pid_t tid; pid_t tid;
#ifdef __FreeBSD__ #ifdef __FreeBSD__
long lwpid; long lwpid;
thr_self(&lwpid); thr_self(&lwpid);
tid = lwpid; tid = lwpid;
#else #else
#ifdef __FreeBSD_kernel__ #ifdef __FreeBSD_kernel__
if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id
#else #else
tid=syscall(SYS_gettid); tid=syscall(SYS_gettid);
#endif #endif
#endif #endif
return tid; return tid;
} }
#else #else
pthread_t id() const pthread_t id() const
{ {
return( pthread_self() ); return( pthread_self() );
} }
#endif #endif
void exit( int status = 0 ) void exit( int p_status = 0 )
{ {
//INFO( "Exiting" ); //INFO( "Exiting" );
pthread_exit( (void *)&status ); pthread_exit( (void *)&p_status );
} }
static void *mThreadFunc( void *arg ); static void *mThreadFunc( void *arg );
public: public:
virtual int run() = 0; virtual int run() = 0;
void start(); void start();
void join(); void join();
void kill( int signal ); void kill( int signal );
bool isThread() bool isThread()
{ {
return( mPid > -1 && pthread_equal( pthread_self(), mThread ) ); return( mPid > -1 && pthread_equal( pthread_self(), mThread ) );
} }
bool isStarted() const { return( mStarted ); } bool isStarted() const { return( mStarted ); }
bool isRunning() const { return( mRunning ); } bool isRunning() const { return( mRunning ); }
}; };
#endif // ZM_THREAD_H #endif // ZM_THREAD_H

View File

@ -29,48 +29,48 @@
struct DeltaTimeval struct DeltaTimeval
{ {
bool positive; bool positive;
unsigned long delta; unsigned long delta;
unsigned long sec; unsigned long sec;
unsigned long fsec; unsigned long fsec;
unsigned long prec; unsigned long prec;
}; };
#define DT_GRAN_1000000 1000000 #define DT_GRAN_1000000 1000000
#define DT_PREC_6 DT_GRAN_1000000 #define DT_PREC_6 DT_GRAN_1000000
#define DT_GRAN_100000 100000 #define DT_GRAN_100000 100000
#define DT_PREC_5 DT_GRAN_100000 #define DT_PREC_5 DT_GRAN_100000
#define DT_GRAN_10000 10000 #define DT_GRAN_10000 10000
#define DT_PREC_4 DT_GRAN_10000 #define DT_PREC_4 DT_GRAN_10000
#define DT_GRAN_1000 1000 #define DT_GRAN_1000 1000
#define DT_PREC_3 DT_GRAN_1000 #define DT_PREC_3 DT_GRAN_1000
#define DT_GRAN_100 100 #define DT_GRAN_100 100
#define DT_PREC_2 DT_GRAN_100 #define DT_PREC_2 DT_GRAN_100
#define DT_GRAN_10 10 #define DT_GRAN_10 10
#define DT_PREC_1 DT_GRAN_10 #define DT_PREC_1 DT_GRAN_10
#define DT_MAXGRAN DT_GRAN_1000000 #define DT_MAXGRAN DT_GRAN_1000000
// This obviously wouldn't work for massive deltas but as it's mostly // This obviously wouldn't work for massive deltas but as it's mostly
// for frames it will only usually be a fraction of a second or so // for frames it will only usually be a fraction of a second or so
#define DELTA_TIMEVAL( result, time1, time2, precision ) \ #define DELTA_TIMEVAL( result, time1, time2, precision ) \
{ \ { \
int delta = (((time1).tv_sec-(time2).tv_sec)*(precision))+(((time1).tv_usec-(time2).tv_usec)/(DT_MAXGRAN/(precision))); \ int delta = (((time1).tv_sec-(time2).tv_sec)*(precision))+(((time1).tv_usec-(time2).tv_usec)/(DT_MAXGRAN/(precision))); \
result.positive = (delta>=0); \ result.positive = (delta>=0); \
result.delta = abs(delta); \ result.delta = abs(delta); \
result.sec = result.delta/(precision); \ result.sec = result.delta/(precision); \
result.fsec = result.delta%(precision); \ result.fsec = result.delta%(precision); \
result.prec = (precision); \ result.prec = (precision); \
} }
#define TIMEVAL_INTERVAL( result, time1, time2, precision ) \ #define TIMEVAL_INTERVAL( result, time1, time2, precision ) \
{ \ { \
int delta = (((time1).tv_sec-(time2).tv_sec)*(precision))+(((time1).tv_usec-(time2).tv_usec)/(DT_MAXGRAN/(precision))); \ int delta = (((time1).tv_sec-(time2).tv_sec)*(precision))+(((time1).tv_usec-(time2).tv_usec)/(DT_MAXGRAN/(precision))); \
result.positive = (delta>=0); \ result.positive = (delta>=0); \
result.delta = abs(delta); \ result.delta = abs(delta); \
result.sec = result.delta/(precision); \ result.sec = result.delta/(precision); \
result.fsec = result.delta%(precision); \ result.fsec = result.delta%(precision); \
result.prec = (precision); \ result.prec = (precision); \
} }
#define USEC_PER_SEC 1000000 #define USEC_PER_SEC 1000000
@ -82,128 +82,128 @@ typedef typeof(tv.tv_usec) ast_suseconds_t;
inline int tvDiffUsec( struct timeval first, struct timeval last ) inline int tvDiffUsec( struct timeval first, struct timeval last )
{ {
return( (last.tv_sec - first.tv_sec) * USEC_PER_SEC) + ((USEC_PER_SEC + last.tv_usec - first.tv_usec) - USEC_PER_SEC ); return( (last.tv_sec - first.tv_sec) * USEC_PER_SEC) + ((USEC_PER_SEC + last.tv_usec - first.tv_usec) - USEC_PER_SEC );
} }
inline int tvDiffUsec( struct timeval first ) inline int tvDiffUsec( struct timeval first )
{ {
struct timeval now; struct timeval now;
gettimeofday( &now, NULL ); gettimeofday( &now, NULL );
return( tvDiffUsec( first, now ) ); return( tvDiffUsec( first, now ) );
} }
inline int tvDiffMsec( struct timeval first, struct timeval last ) inline int tvDiffMsec( struct timeval first, struct timeval last )
{ {
return( (last.tv_sec - first.tv_sec) * MSEC_PER_SEC) + (((MSEC_PER_SEC + last.tv_usec - first.tv_usec) / MSEC_PER_SEC) - MSEC_PER_SEC ); return( (last.tv_sec - first.tv_sec) * MSEC_PER_SEC) + (((MSEC_PER_SEC + last.tv_usec - first.tv_usec) / MSEC_PER_SEC) - MSEC_PER_SEC );
} }
inline int tvDiffMsec( struct timeval first ) inline int tvDiffMsec( struct timeval first )
{ {
struct timeval now; struct timeval now;
gettimeofday( &now, NULL ); gettimeofday( &now, NULL );
return( tvDiffMsec( first, now ) ); return( tvDiffMsec( first, now ) );
} }
inline double tvDiffSec( struct timeval first, struct timeval last ) inline double tvDiffSec( struct timeval first, struct timeval last )
{ {
return( double(last.tv_sec - first.tv_sec) + double(((USEC_PER_SEC + last.tv_usec - first.tv_usec) - USEC_PER_SEC) / (1.0*USEC_PER_SEC) ) ); return( double(last.tv_sec - first.tv_sec) + double(((USEC_PER_SEC + last.tv_usec - first.tv_usec) - USEC_PER_SEC) / (1.0*USEC_PER_SEC) ) );
} }
inline double tvDiffSec( struct timeval first ) inline double tvDiffSec( struct timeval first )
{ {
struct timeval now; struct timeval now;
gettimeofday( &now, NULL ); gettimeofday( &now, NULL );
return( tvDiffSec( first, now ) ); return( tvDiffSec( first, now ) );
} }
inline struct timeval tvZero() inline struct timeval tvZero()
{ {
struct timeval t = { 0, 0 }; struct timeval t = { 0, 0 };
return( t ); return( t );
} }
inline int tvIsZero( const struct timeval t ) inline int tvIsZero( const struct timeval t )
{ {
return( t.tv_sec == 0 && t.tv_usec == 0 ); return( t.tv_sec == 0 && t.tv_usec == 0 );
} }
inline int tvCmp( struct timeval t1, struct timeval t2 ) inline int tvCmp( struct timeval t1, struct timeval t2 )
{ {
if ( t1.tv_sec < t2.tv_sec ) if ( t1.tv_sec < t2.tv_sec )
return( -1 ); return( -1 );
if ( t1.tv_sec > t2.tv_sec ) if ( t1.tv_sec > t2.tv_sec )
return( 1 ); return( 1 );
if ( t1.tv_usec < t2.tv_usec ) if ( t1.tv_usec < t2.tv_usec )
return( -1 ); return( -1 );
if ( t1.tv_usec > t2.tv_usec ) if ( t1.tv_usec > t2.tv_usec )
return( 1 ); return( 1 );
return( 0 ); return( 0 );
} }
inline int tvEq( struct timeval t1, struct timeval t2 ) inline int tvEq( struct timeval t1, struct timeval t2 )
{ {
return( t1.tv_sec == t2.tv_sec && t1.tv_usec == t2.tv_usec ); return( t1.tv_sec == t2.tv_sec && t1.tv_usec == t2.tv_usec );
} }
inline struct timeval tvNow( void ) inline struct timeval tvNow( void )
{ {
struct timeval t; struct timeval t;
gettimeofday( &t, NULL ); gettimeofday( &t, NULL );
return( t ); return( t );
} }
inline struct timeval tvCheck( struct timeval &t ) inline struct timeval tvCheck( struct timeval &t )
{ {
if ( t.tv_usec >= USEC_PER_SEC ) if ( t.tv_usec >= USEC_PER_SEC )
{ {
Warning( "Timestamp too large %ld.%ld\n", t.tv_sec, (long int) t.tv_usec ); Warning( "Timestamp too large %ld.%ld\n", t.tv_sec, (long int) t.tv_usec );
t.tv_sec += t.tv_usec / USEC_PER_SEC; t.tv_sec += t.tv_usec / USEC_PER_SEC;
t.tv_usec %= USEC_PER_SEC; t.tv_usec %= USEC_PER_SEC;
} }
else if ( t.tv_usec < 0 ) else if ( t.tv_usec < 0 )
{ {
Warning( "Got negative timestamp %ld.%ld\n", t.tv_sec, (long int)t.tv_usec ); Warning( "Got negative timestamp %ld.%ld\n", t.tv_sec, (long int)t.tv_usec );
t.tv_usec = 0; t.tv_usec = 0;
} }
return( t ); return( t );
} }
// Add t2 to t1 // Add t2 to t1
inline struct timeval tvAdd( struct timeval t1, struct timeval t2 ) inline struct timeval tvAdd( struct timeval t1, struct timeval t2 )
{ {
tvCheck(t1); tvCheck(t1);
tvCheck(t2); tvCheck(t2);
t1.tv_sec += t2.tv_sec; t1.tv_sec += t2.tv_sec;
t1.tv_usec += t2.tv_usec; t1.tv_usec += t2.tv_usec;
if ( t1.tv_usec >= USEC_PER_SEC ) if ( t1.tv_usec >= USEC_PER_SEC )
{ {
t1.tv_sec++; t1.tv_sec++;
t1.tv_usec -= USEC_PER_SEC; t1.tv_usec -= USEC_PER_SEC;
} }
return( t1 ); return( t1 );
} }
// Subtract t2 from t1 // Subtract t2 from t1
inline struct timeval tvSub( struct timeval t1, struct timeval t2 ) inline struct timeval tvSub( struct timeval t1, struct timeval t2 )
{ {
tvCheck(t1); tvCheck(t1);
tvCheck(t2); tvCheck(t2);
t1.tv_sec -= t2.tv_sec; t1.tv_sec -= t2.tv_sec;
t1.tv_usec -= t2.tv_usec; t1.tv_usec -= t2.tv_usec;
if ( t1.tv_usec < 0 ) if ( t1.tv_usec < 0 )
{ {
t1.tv_sec--; t1.tv_sec--;
t1.tv_usec += USEC_PER_SEC; t1.tv_usec += USEC_PER_SEC;
} }
return( t1 ) ; return( t1 ) ;
} }
inline struct timeval tvMake( time_t sec, suseconds_t usec ) inline struct timeval tvMake( time_t sec, suseconds_t usec )
{ {
struct timeval t; struct timeval t;
t.tv_sec = sec; t.tv_sec = sec;
t.tv_usec = usec; t.tv_usec = usec;
return( t ); return( t );
} }
#endif // ZM_TIME_H #endif // ZM_TIME_H

View File

@ -24,96 +24,96 @@
int Timer::TimerThread::mNextTimerId = 0; int Timer::TimerThread::mNextTimerId = 0;
Timer::TimerThread::TimerThread( Timer &timer, int duration, bool repeat ) : Timer::TimerThread::TimerThread( Timer &timer, int duration, bool repeat ) :
mTimerId( 0 ), mTimerId( 0 ),
mTimer( timer ), mTimer( timer ),
mDuration( duration ), mDuration( duration ),
mRepeat( repeat ), mRepeat( repeat ),
mReset( false ), mReset( false ),
mExpiryFlag( true ) mExpiryFlag( true )
{ {
mAccessMutex.lock(); mAccessMutex.lock();
mTimerId = mNextTimerId++; mTimerId = mNextTimerId++;
Debug( 5, "Creating timer %d for %d seconds%s", mTimerId, mDuration, mRepeat?", repeating":"" ); Debug( 5, "Creating timer %d for %d seconds%s", mTimerId, mDuration, mRepeat?", repeating":"" );
mAccessMutex.unlock(); mAccessMutex.unlock();
} }
Timer::TimerThread::~TimerThread() Timer::TimerThread::~TimerThread()
{ {
cancel(); cancel();
} }
void Timer::TimerThread::cancel() void Timer::TimerThread::cancel()
{ {
mAccessMutex.lock(); mAccessMutex.lock();
if ( mRunning ) if ( mRunning )
{ {
Debug( 4, "Cancelling timer %d", mTimerId ); Debug( 4, "Cancelling timer %d", mTimerId );
mRepeat = false; mRepeat = false;
mReset = false; mReset = false;
mExpiryFlag.updateValueSignal( false ); mExpiryFlag.updateValueSignal( false );
} }
mAccessMutex.unlock(); mAccessMutex.unlock();
} }
void Timer::TimerThread::reset() void Timer::TimerThread::reset()
{ {
mAccessMutex.lock(); mAccessMutex.lock();
if ( mRunning ) if ( mRunning )
{ {
Debug( 4, "Resetting timer" ); Debug( 4, "Resetting timer" );
mReset = true; mReset = true;
mExpiryFlag.updateValueSignal( false ); mExpiryFlag.updateValueSignal( false );
} }
else else
{ {
Error( "Attempting to reset expired timer %d", mTimerId ); Error( "Attempting to reset expired timer %d", mTimerId );
} }
mAccessMutex.unlock(); mAccessMutex.unlock();
} }
int Timer::TimerThread::run() int Timer::TimerThread::run()
{ {
Debug( 4, "Starting timer %d for %d seconds", mTimerId, mDuration ); Debug( 4, "Starting timer %d for %d seconds", mTimerId, mDuration );
bool timerExpired = false; bool timerExpired = false;
do do
{
mAccessMutex.lock();
mReset = false;
mExpiryFlag.setValue( true );
mAccessMutex.unlock();
timerExpired = mExpiryFlag.getUpdatedValue( mDuration );
mAccessMutex.lock();
if ( timerExpired )
{ {
mAccessMutex.lock(); Debug( 4, "Timer %d expired", mTimerId );
mReset = false; mTimer.expire();
mExpiryFlag.setValue( true ); }
mAccessMutex.unlock(); else
timerExpired = mExpiryFlag.getUpdatedValue( mDuration ); {
mAccessMutex.lock(); Debug( 4, "Timer %d %s", mTimerId, mReset?"reset":"cancelled" );
if ( timerExpired ) }
{ mAccessMutex.unlock();
Debug( 4, "Timer %d expired", mTimerId ); } while ( mRepeat || (mReset && !timerExpired) );
mTimer.expire(); return( timerExpired );
}
else
{
Debug( 4, "Timer %d %s", mTimerId, mReset?"reset":"cancelled" );
}
mAccessMutex.unlock();
} while ( mRepeat || (mReset && !timerExpired) );
return( timerExpired );
} }
Timer::Timer( int timeout, bool repeat ) : mTimerThread( *this, timeout, repeat ) Timer::Timer( int timeout, bool repeat ) : mTimerThread( *this, timeout, repeat )
{ {
mTimerThread.start(); mTimerThread.start();
} }
Timer::~Timer() Timer::~Timer()
{ {
//cancel(); //cancel();
} }
void Timer::Timer::cancel() void Timer::Timer::cancel()
{ {
mTimerThread.cancel(); mTimerThread.cancel();
} }
void Timer::Timer::reset() void Timer::Timer::reset()
{ {
mTimerThread.reset(); mTimerThread.reset();
} }

View File

@ -30,81 +30,81 @@
class Timer class Timer
{ {
private: private:
class TimerException : public Exception class TimerException : public Exception
{ {
private: private:
#ifndef SOLARIS #ifndef SOLARIS
pid_t pid() { pid_t pid() {
pid_t tid; pid_t tid;
#ifdef __FreeBSD__ #ifdef __FreeBSD__
long lwpid; long lwpid;
thr_self(&lwpid); thr_self(&lwpid);
tid = lwpid; tid = lwpid;
#else #else
#ifdef __FreeBSD_kernel__ #ifdef __FreeBSD_kernel__
if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id if ( (syscall(SYS_thr_self, &tid)) < 0 ) // Thread/Process id
#else #else
tid=syscall(SYS_gettid); tid=syscall(SYS_gettid);
#endif #endif
#endif #endif
return tid; return tid;
} }
#else #else
pthread_t pid() { return( pthread_self() ); } pthread_t pid() { return( pthread_self() ); }
#endif #endif
public: public:
TimerException( const std::string &message ) : Exception( stringtf( "(%d) "+message, (long int)pid() ) ) TimerException( const std::string &message ) : Exception( stringtf( "(%d) "+message, (long int)pid() ) )
{
}
};
class TimerThread : public Thread
{ {
private: }
typedef ThreadData<bool> ExpiryFlag; };
private: class TimerThread : public Thread
static int mNextTimerId; {
private:
typedef ThreadData<bool> ExpiryFlag;
private: private:
int mTimerId; static int mNextTimerId;
Timer &mTimer;
int mDuration;
int mRepeat;
int mReset;
ExpiryFlag mExpiryFlag;
Mutex mAccessMutex;
private: private:
void quit() int mTimerId;
{ Timer &mTimer;
cancel(); int mDuration;
} int mRepeat;
int mReset;
ExpiryFlag mExpiryFlag;
Mutex mAccessMutex;
public: private:
TimerThread( Timer &timer, int timeout, bool repeat ); void quit()
~TimerThread(); {
cancel();
}
void cancel(); public:
void reset(); TimerThread( Timer &timer, int timeout, bool repeat );
int run(); ~TimerThread();
};
protected:
TimerThread mTimerThread;
protected:
Timer( int timeout, bool repeat=false );
public:
virtual ~Timer();
protected:
virtual void expire()=0;
public:
void cancel(); void cancel();
void reset(); void reset();
int run();
};
protected:
TimerThread mTimerThread;
protected:
Timer( int timeout, bool repeat=false );
public:
virtual ~Timer();
protected:
virtual void expire()=0;
public:
void cancel();
void reset();
}; };
#endif // ZM_TIMER_H #endif // ZM_TIMER_H

View File

@ -29,119 +29,119 @@
User::User() User::User()
{ {
username[0] = password[0] = 0; username[0] = password[0] = 0;
enabled = false; enabled = false;
stream = events = control = monitors = system = PERM_NONE; stream = events = control = monitors = system = PERM_NONE;
monitor_ids = 0; monitor_ids = 0;
} }
User::User( MYSQL_ROW &dbrow ) User::User( MYSQL_ROW &dbrow )
{ {
int index = 0; int index = 0;
strncpy( username, dbrow[index++], sizeof(username) ); strncpy( username, dbrow[index++], sizeof(username) );
strncpy( password, dbrow[index++], sizeof(password) ); strncpy( password, dbrow[index++], sizeof(password) );
enabled = (bool)atoi( dbrow[index++] ); enabled = (bool)atoi( dbrow[index++] );
stream = (Permission)atoi( dbrow[index++] ); stream = (Permission)atoi( dbrow[index++] );
events = (Permission)atoi( dbrow[index++] ); events = (Permission)atoi( dbrow[index++] );
control = (Permission)atoi( dbrow[index++] ); control = (Permission)atoi( dbrow[index++] );
monitors = (Permission)atoi( dbrow[index++] ); monitors = (Permission)atoi( dbrow[index++] );
system = (Permission)atoi( dbrow[index++] ); system = (Permission)atoi( dbrow[index++] );
monitor_ids = 0; monitor_ids = 0;
char *monitor_ids_str = dbrow[index++]; char *monitor_ids_str = dbrow[index++];
if ( monitor_ids_str && *monitor_ids_str ) if ( monitor_ids_str && *monitor_ids_str )
{ {
monitor_ids = new int[strlen(monitor_ids_str)]; monitor_ids = new int[strlen(monitor_ids_str)];
int n_monitor_ids = 0; int n_monitor_ids = 0;
const char *ptr = monitor_ids_str; const char *ptr = monitor_ids_str;
do do
{ {
int id = 0; int id = 0;
while( isdigit( *ptr ) ) while( isdigit( *ptr ) )
{ {
id *= 10; id *= 10;
id += *ptr-'0'; id += *ptr-'0';
ptr++; ptr++;
} }
if ( id ) if ( id )
{ {
monitor_ids[n_monitor_ids++] = id; monitor_ids[n_monitor_ids++] = id;
if ( !*ptr ) if ( !*ptr )
break; break;
} }
while ( !isdigit( *ptr ) ) while ( !isdigit( *ptr ) )
ptr++; ptr++;
} while( *ptr ); } while( *ptr );
monitor_ids[n_monitor_ids] = 0; monitor_ids[n_monitor_ids] = 0;
} }
} }
User::~User() User::~User()
{ {
delete monitor_ids; delete monitor_ids;
} }
bool User::canAccess( int monitor_id ) bool User::canAccess( int monitor_id )
{ {
if ( !monitor_ids ) if ( !monitor_ids )
{ {
return( true ); return( true );
} }
for ( int i = 0; monitor_ids[i]; i++ ) for ( int i = 0; monitor_ids[i]; i++ )
{ {
if ( monitor_ids[i] == monitor_id ) if ( monitor_ids[i] == monitor_id )
{ {
return( true ); return( true );
} }
} }
return( false ); return( false );
} }
// Function to load a user from username and password // Function to load a user from username and password
// Please note that in auth relay mode = none, password is NULL // Please note that in auth relay mode = none, password is NULL
User *zmLoadUser( const char *username, const char *password ) User *zmLoadUser( const char *username, const char *password )
{ {
char sql[ZM_SQL_SML_BUFSIZ] = ""; char sql[ZM_SQL_SML_BUFSIZ] = "";
char safer_username[65]; // current db username size is 32 char safer_username[65]; // current db username size is 32
char safer_password[129]; // current db password size is 64 char safer_password[129]; // current db password size is 64
// According to docs, size of safer_whatever must be 2*length+1 due to unicode conversions + null terminator. // According to docs, size of safer_whatever must be 2*length+1 due to unicode conversions + null terminator.
mysql_real_escape_string(&dbconn, safer_username, username, strlen( username ) ); mysql_real_escape_string(&dbconn, safer_username, username, strlen( username ) );
if ( password ) { if ( password ) {
mysql_real_escape_string(&dbconn, safer_password, password, strlen( password ) ); mysql_real_escape_string(&dbconn, safer_password, password, strlen( password ) );
snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Username = '%s' and Password = password('%s') and Enabled = 1", safer_username, safer_password ); snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Username = '%s' and Password = password('%s') and Enabled = 1", safer_username, safer_password );
} else { } else {
snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Username = '%s' and Enabled = 1", safer_username ); snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Username = '%s' and Enabled = 1", safer_username );
} }
if ( mysql_query( &dbconn, sql ) ) if ( mysql_query( &dbconn, sql ) )
{ {
Error( "Can't run query: %s", mysql_error( &dbconn ) ); Error( "Can't run query: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );
} }
MYSQL_RES *result = mysql_store_result( &dbconn ); MYSQL_RES *result = mysql_store_result( &dbconn );
if ( !result ) if ( !result )
{ {
Error( "Can't use query result: %s", mysql_error( &dbconn ) ); Error( "Can't use query result: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );
} }
int n_users = mysql_num_rows( result ); int n_users = mysql_num_rows( result );
if ( n_users != 1 ) if ( n_users != 1 )
{ {
Warning( "Unable to authenticate user %s", username ); Warning( "Unable to authenticate user %s", username );
return( 0 ); return( 0 );
} }
MYSQL_ROW dbrow = mysql_fetch_row( result ); MYSQL_ROW dbrow = mysql_fetch_row( result );
User *user = new User( dbrow ); User *user = new User( dbrow );
Info( "Authenticated user '%s'", user->getUsername() ); Info( "Authenticated user '%s'", user->getUsername() );
mysql_free_result( result ); mysql_free_result( result );
return( user ); return( user );
} }
// Function to validate an authentication string // Function to validate an authentication string
@ -149,102 +149,102 @@ User *zmLoadAuthUser( const char *auth, bool use_remote_addr )
{ {
#if HAVE_DECL_MD5 || HAVE_DECL_GNUTLS_FINGERPRINT #if HAVE_DECL_MD5 || HAVE_DECL_GNUTLS_FINGERPRINT
#ifdef HAVE_GCRYPT_H #ifdef HAVE_GCRYPT_H
// Special initialisation for libgcrypt // Special initialisation for libgcrypt
if ( !gcry_check_version( GCRYPT_VERSION ) ) if ( !gcry_check_version( GCRYPT_VERSION ) )
{ {
Fatal( "Unable to initialise libgcrypt" ); Fatal( "Unable to initialise libgcrypt" );
} }
gcry_control( GCRYCTL_DISABLE_SECMEM, 0 ); gcry_control( GCRYCTL_DISABLE_SECMEM, 0 );
gcry_control( GCRYCTL_INITIALIZATION_FINISHED, 0 ); gcry_control( GCRYCTL_INITIALIZATION_FINISHED, 0 );
#endif // HAVE_GCRYPT_H #endif // HAVE_GCRYPT_H
const char *remote_addr = ""; const char *remote_addr = "";
if ( use_remote_addr ) if ( use_remote_addr )
{ {
remote_addr = getenv( "REMOTE_ADDR" ); remote_addr = getenv( "REMOTE_ADDR" );
if ( !remote_addr ) if ( !remote_addr )
{ {
Warning( "Can't determine remote address, using null" ); Warning( "Can't determine remote address, using null" );
remote_addr = ""; remote_addr = "";
} }
} }
Debug( 1, "Attempting to authenticate user from auth string '%s'", auth ); Debug( 1, "Attempting to authenticate user from auth string '%s'", auth );
char sql[ZM_SQL_SML_BUFSIZ] = ""; char sql[ZM_SQL_SML_BUFSIZ] = "";
snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Enabled = 1" ); snprintf( sql, sizeof(sql), "select Username, Password, Enabled, Stream+0, Events+0, Control+0, Monitors+0, System+0, MonitorIds from Users where Enabled = 1" );
if ( mysql_query( &dbconn, sql ) ) if ( mysql_query( &dbconn, sql ) )
{ {
Error( "Can't run query: %s", mysql_error( &dbconn ) ); Error( "Can't run query: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );
} }
MYSQL_RES *result = mysql_store_result( &dbconn ); MYSQL_RES *result = mysql_store_result( &dbconn );
if ( !result ) if ( !result )
{ {
Error( "Can't use query result: %s", mysql_error( &dbconn ) ); Error( "Can't use query result: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );
} }
int n_users = mysql_num_rows( result ); int n_users = mysql_num_rows( result );
if ( n_users < 1 ) if ( n_users < 1 )
{ {
Warning( "Unable to authenticate user" ); Warning( "Unable to authenticate user" );
return( 0 ); return( 0 );
} }
while( MYSQL_ROW dbrow = mysql_fetch_row( result ) ) while( MYSQL_ROW dbrow = mysql_fetch_row( result ) )
{ {
const char *user = dbrow[0]; const char *user = dbrow[0];
const char *pass = dbrow[1]; const char *pass = dbrow[1];
char auth_key[512] = ""; char auth_key[512] = "";
char auth_md5[32+1] = ""; char auth_md5[32+1] = "";
size_t md5len = 16; size_t md5len = 16;
unsigned char md5sum[md5len]; unsigned char md5sum[md5len];
time_t now = time( 0 ); time_t now = time( 0 );
int max_tries = 2; int max_tries = 2;
for ( int i = 0; i < max_tries; i++, now -= (60*60) ) for ( int i = 0; i < max_tries; i++, now -= (60*60) )
{ {
struct tm *now_tm = localtime( &now ); struct tm *now_tm = localtime( &now );
snprintf( auth_key, sizeof(auth_key), "%s%s%s%s%d%d%d%d", snprintf( auth_key, sizeof(auth_key), "%s%s%s%s%d%d%d%d",
config.auth_hash_secret, config.auth_hash_secret,
user, user,
pass, pass,
remote_addr, remote_addr,
now_tm->tm_hour, now_tm->tm_hour,
now_tm->tm_mday, now_tm->tm_mday,
now_tm->tm_mon, now_tm->tm_mon,
now_tm->tm_year now_tm->tm_year
); );
#if HAVE_DECL_MD5 #if HAVE_DECL_MD5
MD5( (unsigned char *)auth_key, strlen(auth_key), md5sum ); MD5( (unsigned char *)auth_key, strlen(auth_key), md5sum );
#elif HAVE_DECL_GNUTLS_FINGERPRINT #elif HAVE_DECL_GNUTLS_FINGERPRINT
gnutls_datum_t md5data = { (unsigned char *)auth_key, strlen(auth_key) }; gnutls_datum_t md5data = { (unsigned char *)auth_key, strlen(auth_key) };
gnutls_fingerprint( GNUTLS_DIG_MD5, &md5data, md5sum, &md5len ); gnutls_fingerprint( GNUTLS_DIG_MD5, &md5data, md5sum, &md5len );
#endif #endif
auth_md5[0] = '\0'; auth_md5[0] = '\0';
for ( unsigned int j = 0; j < md5len; j++ ) for ( unsigned int j = 0; j < md5len; j++ )
{ {
sprintf( &auth_md5[2*j], "%02x", md5sum[j] ); sprintf( &auth_md5[2*j], "%02x", md5sum[j] );
} }
Debug( 1, "Checking auth_key '%s' -> auth_md5 '%s'", auth_key, auth_md5 ); Debug( 1, "Checking auth_key '%s' -> auth_md5 '%s'", auth_key, auth_md5 );
if ( !strcmp( auth, auth_md5 ) ) if ( !strcmp( auth, auth_md5 ) )
{ {
// We have a match // We have a match
User *user = new User( dbrow ); User *user = new User( dbrow );
Debug(1, "Authenticated user '%s'", user->getUsername() ); Debug(1, "Authenticated user '%s'", user->getUsername() );
return( user ); return( user );
} }
} }
} }
#else // HAVE_DECL_MD5 #else // HAVE_DECL_MD5
Error( "You need to build with gnutls or openssl installed to use hash based authentication" ); Error( "You need to build with gnutls or openssl installed to use hash based authentication" );
#endif // HAVE_DECL_MD5 #endif // HAVE_DECL_MD5
return( 0 ); return( 0 );
} }

View File

@ -39,33 +39,33 @@
class User class User
{ {
public: public:
typedef enum { PERM_NONE=1, PERM_VIEW, PERM_EDIT } Permission; typedef enum { PERM_NONE=1, PERM_VIEW, PERM_EDIT } Permission;
protected: protected:
char username[32+1]; char username[32+1];
char password[64+1]; char password[64+1];
bool enabled; bool enabled;
Permission stream; Permission stream;
Permission events; Permission events;
Permission control; Permission control;
Permission monitors; Permission monitors;
Permission system; Permission system;
int *monitor_ids; int *monitor_ids;
public: public:
User(); User();
User( MYSQL_ROW &dbrow ); User( MYSQL_ROW &dbrow );
~User(); ~User();
const char *getUsername() const { return( username ); } const char *getUsername() const { return( username ); }
const char *getPassword() const { return( password ); } const char *getPassword() const { return( password ); }
bool isEnabled() const { return( enabled ); } bool isEnabled() const { return( enabled ); }
Permission getStream() const { return( stream ); } Permission getStream() const { return( stream ); }
Permission getEvents() const { return( events ); } Permission getEvents() const { return( events ); }
Permission getControl() const { return( control ); } Permission getControl() const { return( control ); }
Permission getMonitors() const { return( monitors ); } Permission getMonitors() const { return( monitors ); }
Permission getSystem() const { return( system ); } Permission getSystem() const { return( system ); }
bool canAccess( int monitor_id ); bool canAccess( int monitor_id );
}; };
User *zmLoadUser( const char *username, const char *password=0 ); User *zmLoadUser( const char *username, const char *password=0 );

View File

@ -28,256 +28,256 @@
unsigned int sseversion = 0; unsigned int sseversion = 0;
std::string trimSet(std::string str, std::string trimset) { std::string trimSet(std::string str, std::string trimset) {
// Trim Both leading and trailing sets // Trim Both leading and trailing sets
size_t startpos = str.find_first_not_of(trimset); // Find the first character position after excluding leading blank spaces size_t startpos = str.find_first_not_of(trimset); // Find the first character position after excluding leading blank spaces
size_t endpos = str.find_last_not_of(trimset); // Find the first character position from reverse af size_t endpos = str.find_last_not_of(trimset); // Find the first character position from reverse af
// if all spaces or empty return an empty string // if all spaces or empty return an empty string
if(( std::string::npos == startpos ) || ( std::string::npos == endpos)) if(( std::string::npos == startpos ) || ( std::string::npos == endpos))
{ {
return std::string(""); return std::string("");
} }
else else
return str.substr( startpos, endpos-startpos+1 ); return str.substr( startpos, endpos-startpos+1 );
} }
std::string trimSpaces(std::string str) std::string trimSpaces(std::string str)
{ {
return trimSet(str, " \t"); return trimSet(str, " \t");
} }
std::string replaceAll(std::string str, std::string from, std::string to) { std::string replaceAll(std::string str, std::string from, std::string to) {
if(from.empty()) if(from.empty())
return str;
size_t start_pos = 0;
while((start_pos = str.find(from, start_pos)) != std::string::npos) {
str.replace(start_pos, from.length(), to);
start_pos += to.length(); // In case 'to' contains 'from', like replacing 'x' with 'yx'
}
return str; return str;
size_t start_pos = 0;
while((start_pos = str.find(from, start_pos)) != std::string::npos) {
str.replace(start_pos, from.length(), to);
start_pos += to.length(); // In case 'to' contains 'from', like replacing 'x' with 'yx'
}
return str;
} }
const std::string stringtf( const char *format, ... ) const std::string stringtf( const char *format, ... )
{ {
va_list ap; va_list ap;
char tempBuffer[8192]; char tempBuffer[8192];
std::string tempString; std::string tempString;
va_start(ap, format ); va_start(ap, format );
vsnprintf( tempBuffer, sizeof(tempBuffer), format , ap ); vsnprintf( tempBuffer, sizeof(tempBuffer), format , ap );
va_end(ap); va_end(ap);
tempString = tempBuffer; tempString = tempBuffer;
return( tempString ); return( tempString );
} }
const std::string stringtf( const std::string &format, ... ) const std::string stringtf( const std::string &format, ... )
{ {
va_list ap; va_list ap;
char tempBuffer[8192]; char tempBuffer[8192];
std::string tempString; std::string tempString;
va_start(ap, format ); va_start(ap, format );
vsnprintf( tempBuffer, sizeof(tempBuffer), format.c_str() , ap ); vsnprintf( tempBuffer, sizeof(tempBuffer), format.c_str() , ap );
va_end(ap); va_end(ap);
tempString = tempBuffer; tempString = tempBuffer;
return( tempString ); return( tempString );
} }
bool startsWith( const std::string &haystack, const std::string &needle ) bool startsWith( const std::string &haystack, const std::string &needle )
{ {
return( haystack.substr( 0, needle.length() ) == needle ); return( haystack.substr( 0, needle.length() ) == needle );
} }
StringVector split( const std::string &string, const std::string chars, int limit ) StringVector split( const std::string &string, const std::string chars, int limit )
{ {
StringVector stringVector; StringVector stringVector;
std::string tempString = string; std::string tempString = string;
std::string::size_type startIndex = 0; std::string::size_type startIndex = 0;
std::string::size_type endIndex = 0; std::string::size_type endIndex = 0;
//Info( "Looking for '%s' in '%s', limit %d", chars.c_str(), string.c_str(), limit ); //Info( "Looking for '%s' in '%s', limit %d", chars.c_str(), string.c_str(), limit );
do do
{
// Find delimiters
endIndex = string.find_first_of( chars, startIndex );
//Info( "Got endIndex at %d", endIndex );
if ( endIndex > 0 )
{ {
// Find delimiters //Info( "Adding '%s'", string.substr( startIndex, endIndex-startIndex ).c_str() );
endIndex = string.find_first_of( chars, startIndex ); stringVector.push_back( string.substr( startIndex, endIndex-startIndex ) );
//Info( "Got endIndex at %d", endIndex ); }
if ( endIndex > 0 ) if ( endIndex == std::string::npos )
{ break;
//Info( "Adding '%s'", string.substr( startIndex, endIndex-startIndex ).c_str() ); // Find non-delimiters
stringVector.push_back( string.substr( startIndex, endIndex-startIndex ) ); startIndex = tempString.find_first_not_of( chars, endIndex );
} if ( limit && (stringVector.size() == (unsigned int)(limit-1)) )
if ( endIndex == std::string::npos ) {
break; stringVector.push_back( string.substr( startIndex ) );
// Find non-delimiters break;
startIndex = tempString.find_first_not_of( chars, endIndex ); }
if ( limit && (stringVector.size() == (unsigned int)(limit-1)) ) //Info( "Got new startIndex at %d", startIndex );
{ } while ( startIndex != std::string::npos );
stringVector.push_back( string.substr( startIndex ) ); //Info( "Finished with %d strings", stringVector.size() );
break;
}
//Info( "Got new startIndex at %d", startIndex );
} while ( startIndex != std::string::npos );
//Info( "Finished with %d strings", stringVector.size() );
return( stringVector ); return( stringVector );
} }
const std::string join(const StringVector v, const char * delim ) { const std::string join(const StringVector v, const char * delim ) {
std::stringstream ss; std::stringstream ss;
for(size_t i = 0; i < v.size(); ++i) { for(size_t i = 0; i < v.size(); ++i) {
if(i != 0) if(i != 0)
ss << ","; ss << ",";
ss << v[i]; ss << v[i];
} }
return ss.str(); return ss.str();
} }
const std::string base64Encode( const std::string &inString ) const std::string base64Encode( const std::string &inString )
{ {
static char base64_table[64] = { '\0' }; static char base64_table[64] = { '\0' };
if ( !base64_table[0] ) if ( !base64_table[0] )
{ {
int i = 0; int i = 0;
for ( char c = 'A'; c <= 'Z'; c++ ) for ( char c = 'A'; c <= 'Z'; c++ )
base64_table[i++] = c; base64_table[i++] = c;
for ( char c = 'a'; c <= 'z'; c++ ) for ( char c = 'a'; c <= 'z'; c++ )
base64_table[i++] = c; base64_table[i++] = c;
for ( char c = '0'; c <= '9'; c++ ) for ( char c = '0'; c <= '9'; c++ )
base64_table[i++] = c; base64_table[i++] = c;
base64_table[i++] = '+'; base64_table[i++] = '+';
base64_table[i++] = '/'; base64_table[i++] = '/';
} }
std::string outString; std::string outString;
outString.reserve( 2 * inString.size() ); outString.reserve( 2 * inString.size() );
const char *inPtr = inString.c_str(); const char *inPtr = inString.c_str();
while( *inPtr ) while( *inPtr )
{ {
unsigned char selection = *inPtr >> 2; unsigned char selection = *inPtr >> 2;
unsigned char remainder = (*inPtr++ & 0x03) << 4; unsigned char remainder = (*inPtr++ & 0x03) << 4;
outString += base64_table[selection]; outString += base64_table[selection];
if ( *inPtr ) if ( *inPtr )
{ {
selection = remainder | (*inPtr >> 4); selection = remainder | (*inPtr >> 4);
remainder = (*inPtr++ & 0x0f) << 2; remainder = (*inPtr++ & 0x0f) << 2;
outString += base64_table[selection]; outString += base64_table[selection];
if ( *inPtr ) if ( *inPtr )
{ {
selection = remainder | (*inPtr >> 6); selection = remainder | (*inPtr >> 6);
outString += base64_table[selection]; outString += base64_table[selection];
selection = (*inPtr++ & 0x3f); selection = (*inPtr++ & 0x3f);
outString += base64_table[selection]; outString += base64_table[selection];
} }
else else
{ {
outString += base64_table[remainder]; outString += base64_table[remainder];
outString += '='; outString += '=';
} }
} }
else else
{ {
outString += base64_table[remainder]; outString += base64_table[remainder];
outString += '='; outString += '=';
outString += '='; outString += '=';
} }
} }
return( outString ); return( outString );
} }
int split(const char* string, const char delim, std::vector<std::string>& items) { int split(const char* string, const char delim, std::vector<std::string>& items) {
if(string == NULL) if(string == NULL)
return -1; return -1;
if(string[0] == 0) if(string[0] == 0)
return -2; return -2;
std::string str(string); std::string str(string);
size_t pos; size_t pos;
while(true) { while(true) {
pos = str.find(delim); pos = str.find(delim);
items.push_back(str.substr(0, pos)); items.push_back(str.substr(0, pos));
str.erase(0, pos+1); str.erase(0, pos+1);
if(pos == std::string::npos) if(pos == std::string::npos)
break; break;
} }
return items.size(); return items.size();
} }
int pairsplit(const char* string, const char delim, std::string& name, std::string& value) { int pairsplit(const char* string, const char delim, std::string& name, std::string& value) {
if(string == NULL) if(string == NULL)
return -1; return -1;
if(string[0] == 0) if(string[0] == 0)
return -2; return -2;
std::string str(string); std::string str(string);
size_t pos = str.find(delim); size_t pos = str.find(delim);
if(pos == std::string::npos || pos == 0 || pos >= str.length()) if(pos == std::string::npos || pos == 0 || pos >= str.length())
return -3; return -3;
name = str.substr(0, pos); name = str.substr(0, pos);
value = str.substr(pos+1, std::string::npos); value = str.substr(pos+1, std::string::npos);
return 0; return 0;
} }
/* Sets sse_version */ /* Sets sse_version */
void ssedetect() { void ssedetect() {
#if (defined(__i386__) || defined(__x86_64__)) #if (defined(__i386__) || defined(__x86_64__))
/* x86 or x86-64 processor */ /* x86 or x86-64 processor */
uint32_t r_edx, r_ecx; uint32_t r_edx, r_ecx;
__asm__ __volatile__( __asm__ __volatile__(
#if defined(__i386__) #if defined(__i386__)
"pushl %%ebx;\n\t" "pushl %%ebx;\n\t"
#endif #endif
"mov $0x1,%%eax\n\t" "mov $0x1,%%eax\n\t"
"cpuid\n\t" "cpuid\n\t"
#if defined(__i386__) #if defined(__i386__)
"popl %%ebx;\n\t" "popl %%ebx;\n\t"
#endif #endif
: "=d" (r_edx), "=c" (r_ecx) : "=d" (r_edx), "=c" (r_ecx)
: :
: "%eax" : "%eax"
#if !defined(__i386__) #if !defined(__i386__)
, "%ebx" , "%ebx"
#endif #endif
); );
if (r_ecx & 0x00000200) { if (r_ecx & 0x00000200) {
sseversion = 35; /* SSSE3 */ sseversion = 35; /* SSSE3 */
Debug(1,"Detected a x86\\x86-64 processor with SSSE3"); Debug(1,"Detected a x86\\x86-64 processor with SSSE3");
} else if (r_ecx & 0x00000001) { } else if (r_ecx & 0x00000001) {
sseversion = 30; /* SSE3 */ sseversion = 30; /* SSE3 */
Debug(1,"Detected a x86\\x86-64 processor with SSE3"); Debug(1,"Detected a x86\\x86-64 processor with SSE3");
} else if (r_edx & 0x04000000) { } else if (r_edx & 0x04000000) {
sseversion = 20; /* SSE2 */ sseversion = 20; /* SSE2 */
Debug(1,"Detected a x86\\x86-64 processor with SSE2"); Debug(1,"Detected a x86\\x86-64 processor with SSE2");
} else if (r_edx & 0x02000000) { } else if (r_edx & 0x02000000) {
sseversion = 10; /* SSE */ sseversion = 10; /* SSE */
Debug(1,"Detected a x86\\x86-64 processor with SSE"); Debug(1,"Detected a x86\\x86-64 processor with SSE");
} else { } else {
sseversion = 0; sseversion = 0;
Debug(1,"Detected a x86\\x86-64 processor"); Debug(1,"Detected a x86\\x86-64 processor");
} }
#else #else
/* Non x86 or x86-64 processor, SSE2 is not available */ /* Non x86 or x86-64 processor, SSE2 is not available */
Debug(1,"Detected a non x86\\x86-64 processor"); Debug(1,"Detected a non x86\\x86-64 processor");
sseversion = 0; sseversion = 0;
#endif #endif
} }
@ -288,60 +288,60 @@ __attribute__((noinline,__target__("sse2")))
#endif #endif
void* sse2_aligned_memcpy(void* dest, const void* src, size_t bytes) { void* sse2_aligned_memcpy(void* dest, const void* src, size_t bytes) {
#if ((defined(__i386__) || defined(__x86_64__) || defined(ZM_KEEP_SSE)) && !defined(ZM_STRIP_SSE)) #if ((defined(__i386__) || defined(__x86_64__) || defined(ZM_KEEP_SSE)) && !defined(ZM_STRIP_SSE))
if(bytes > 128) { if(bytes > 128) {
unsigned int remainder = bytes % 128; unsigned int remainder = bytes % 128;
const uint8_t* lastsrc = (uint8_t*)src + (bytes - remainder); const uint8_t* lastsrc = (uint8_t*)src + (bytes - remainder);
__asm__ __volatile__( __asm__ __volatile__(
"sse2_copy_iter:\n\t" "sse2_copy_iter:\n\t"
"movdqa (%0),%%xmm0\n\t" "movdqa (%0),%%xmm0\n\t"
"movdqa 0x10(%0),%%xmm1\n\t" "movdqa 0x10(%0),%%xmm1\n\t"
"movdqa 0x20(%0),%%xmm2\n\t" "movdqa 0x20(%0),%%xmm2\n\t"
"movdqa 0x30(%0),%%xmm3\n\t" "movdqa 0x30(%0),%%xmm3\n\t"
"movdqa 0x40(%0),%%xmm4\n\t" "movdqa 0x40(%0),%%xmm4\n\t"
"movdqa 0x50(%0),%%xmm5\n\t" "movdqa 0x50(%0),%%xmm5\n\t"
"movdqa 0x60(%0),%%xmm6\n\t" "movdqa 0x60(%0),%%xmm6\n\t"
"movdqa 0x70(%0),%%xmm7\n\t" "movdqa 0x70(%0),%%xmm7\n\t"
"movntdq %%xmm0,(%1)\n\t" "movntdq %%xmm0,(%1)\n\t"
"movntdq %%xmm1,0x10(%1)\n\t" "movntdq %%xmm1,0x10(%1)\n\t"
"movntdq %%xmm2,0x20(%1)\n\t" "movntdq %%xmm2,0x20(%1)\n\t"
"movntdq %%xmm3,0x30(%1)\n\t" "movntdq %%xmm3,0x30(%1)\n\t"
"movntdq %%xmm4,0x40(%1)\n\t" "movntdq %%xmm4,0x40(%1)\n\t"
"movntdq %%xmm5,0x50(%1)\n\t" "movntdq %%xmm5,0x50(%1)\n\t"
"movntdq %%xmm6,0x60(%1)\n\t" "movntdq %%xmm6,0x60(%1)\n\t"
"movntdq %%xmm7,0x70(%1)\n\t" "movntdq %%xmm7,0x70(%1)\n\t"
"add $0x80, %0\n\t" "add $0x80, %0\n\t"
"add $0x80, %1\n\t" "add $0x80, %1\n\t"
"cmp %2, %0\n\t" "cmp %2, %0\n\t"
"jb sse2_copy_iter\n\t" "jb sse2_copy_iter\n\t"
"test %3, %3\n\t" "test %3, %3\n\t"
"jz sse2_copy_finish\n\t" "jz sse2_copy_finish\n\t"
"cld\n\t" "cld\n\t"
"rep movsb\n\t" "rep movsb\n\t"
"sse2_copy_finish:\n\t" "sse2_copy_finish:\n\t"
: :
: "S" (src), "D" (dest), "r" (lastsrc), "c" (remainder) : "S" (src), "D" (dest), "r" (lastsrc), "c" (remainder)
: "%xmm0", "%xmm1", "%xmm2", "%xmm3", "%xmm4", "%xmm5", "%xmm6", "%xmm7", "cc", "memory" : "%xmm0", "%xmm1", "%xmm2", "%xmm3", "%xmm4", "%xmm5", "%xmm6", "%xmm7", "cc", "memory"
); );
} else { } else {
/* Standard memcpy */ /* Standard memcpy */
__asm__ __volatile__("cld; rep movsb" :: "S"(src), "D"(dest), "c"(bytes) : "cc", "memory"); __asm__ __volatile__("cld; rep movsb" :: "S"(src), "D"(dest), "c"(bytes) : "cc", "memory");
} }
#else #else
/* Non x86\x86-64 platform, use memcpy */ /* Non x86\x86-64 platform, use memcpy */
memcpy(dest,src,bytes); memcpy(dest,src,bytes);
#endif #endif
return dest; return dest;
} }
void timespec_diff(struct timespec *start, struct timespec *end, struct timespec *diff) { void timespec_diff(struct timespec *start, struct timespec *end, struct timespec *diff) {
if (((end->tv_nsec)-(start->tv_nsec))<0) { if (((end->tv_nsec)-(start->tv_nsec))<0) {
diff->tv_sec = end->tv_sec-start->tv_sec-1; diff->tv_sec = end->tv_sec-start->tv_sec-1;
diff->tv_nsec = 1000000000+end->tv_nsec-start->tv_nsec; diff->tv_nsec = 1000000000+end->tv_nsec-start->tv_nsec;
} else { } else {
diff->tv_sec = end->tv_sec-start->tv_sec; diff->tv_sec = end->tv_sec-start->tv_sec;
diff->tv_nsec = end->tv_nsec-start->tv_nsec; diff->tv_nsec = end->tv_nsec-start->tv_nsec;
} }
} }

View File

@ -46,12 +46,12 @@ int pairsplit(const char* string, const char delim, std::string& name, std::stri
inline int max( int a, int b ) inline int max( int a, int b )
{ {
return( a>=b?a:b ); return( a>=b?a:b );
} }
inline int min( int a, int b ) inline int min( int a, int b )
{ {
return( a<=b?a:b ); return( a<=b?a:b );
} }
void ssedetect(); void ssedetect();

View File

@ -29,277 +29,321 @@
#include "zm_videostore.h" #include "zm_videostore.h"
extern "C"{ extern "C"{
#include "libavutil/time.h" #include "libavutil/time.h"
} }
VideoStore::VideoStore(const char *filename_in, const char *format_in, VideoStore::VideoStore(const char *filename_in, const char *format_in,
AVStream *input_st, AVStream *inpaud_st, AVStream *input_st,
AVStream *inpaud_st,
int64_t nStartTime) { int64_t nStartTime) {
AVDictionary *pmetadata = NULL; AVDictionary *pmetadata = NULL;
int dsr; int dsr;
//store inputs in variables local to class //store inputs in variables local to class
filename = filename_in; filename = filename_in;
format = format_in; format = format_in;
keyframeMessage = false; keyframeMessage = false;
keyframeSkipNumber = 0; keyframeSkipNumber = 0;
Info("Opening video storage stream %s format: %d\n", filename, format);
Info("Opening video storage stream %s\n", filename); //Init everything we need
int ret;
av_register_all();
//Init everything we need ret = avformat_alloc_output_context2(&oc, NULL, NULL, filename);
int ret; if ( ret < 0 ) {
av_register_all(); Warning("Could not create video storage stream %s as no output context"
" could be assigned based on filename: %s",
filename,
av_make_error_string(ret).c_str()
);
}
avformat_alloc_output_context2(&oc, NULL, NULL, filename); //Couldn't deduce format from filename, trying from format name
if (!oc) {
//Couldn't deduce format from filename, trying from format name avformat_alloc_output_context2(&oc, NULL, format, filename);
if (!oc) { if (!oc) {
avformat_alloc_output_context2(&oc, NULL, format, filename); Fatal("Could not create video storage stream %s as no output context"
if (!oc) { " could not be assigned based on filename or format %s",
Fatal("Could not create video storage stream %s as no output context" filename, format);
" could not be assigned based on filename or format %s",
filename, format);
}
} }
}
dsr = av_dict_set(&pmetadata, "title", "Zoneminder Security Recording", 0); dsr = av_dict_set(&pmetadata, "title", "Zoneminder Security Recording", 0);
if (dsr < 0) Warning("%s:%d: title set failed", __FILE__, __LINE__ ); if (dsr < 0) Warning("%s:%d: title set failed", __FILE__, __LINE__ );
oc->metadata = pmetadata; oc->metadata = pmetadata;
fmt = oc->oformat; fmt = oc->oformat;
video_st = avformat_new_stream(oc, input_st->codec->codec); video_st = avformat_new_stream(oc, (AVCodec *)input_st->codec->codec);
if (!video_st) { if (!video_st) {
Fatal("Unable to create video out stream\n"); Fatal("Unable to create video out stream\n");
} }
ret = avcodec_copy_context(video_st->codec, input_st->codec); ret = avcodec_copy_context(video_st->codec, input_st->codec);
if (ret < 0) { if (ret < 0) {
Fatal("Unable to copy input video context to output video context " Fatal("Unable to copy input video context to output video context %s\n",
"%s\n", av_make_error_string(ret).c_str()); av_make_error_string(ret).c_str());
} }
video_st->codec->codec_tag = 0; video_st->codec->codec_tag = 0;
if (oc->oformat->flags & AVFMT_GLOBALHEADER) { if (oc->oformat->flags & AVFMT_GLOBALHEADER) {
video_st->codec->flags |= CODEC_FLAG_GLOBAL_HEADER; video_st->codec->flags |= CODEC_FLAG_GLOBAL_HEADER;
} }
if (inpaud_st) { if (inpaud_st) {
audio_st = avformat_new_stream(oc, inpaud_st->codec->codec);
if (!audio_st) { audio_st = avformat_new_stream(oc, (AVCodec *)inpaud_st->codec->codec);
Fatal("Unable to create audio out stream\n"); if (!audio_st) {
} Error("Unable to create audio out stream\n");
ret=avcodec_copy_context(audio_st->codec, inpaud_st->codec); audio_st = NULL;
if (ret < 0) {
Fatal("Unable to copy audio context %s\n", av_make_error_string(ret).c_str());
}
audio_st->codec->codec_tag = 0;
if (oc->oformat->flags & AVFMT_GLOBALHEADER) {
audio_st->codec->flags |= CODEC_FLAG_GLOBAL_HEADER;
}
} else { } else {
audio_st = NULL; ret = avcodec_copy_context(audio_st->codec, inpaud_st->codec);
if (ret < 0) {
Fatal("Unable to copy audio context %s\n", av_make_error_string(ret).c_str());
}
audio_st->codec->codec_tag = 0;
if ( audio_st->codec->channels > 1 ) {
Warning("Audio isn't mono, changing it.");
audio_st->codec->channels = 1;
}
if (oc->oformat->flags & AVFMT_GLOBALHEADER) {
audio_st->codec->flags |= CODEC_FLAG_GLOBAL_HEADER;
}
} }
} else {
Debug(3, "No Audio output stream");
audio_st = NULL;
}
/* open the output file, if needed */ /* open the output file, if needed */
if (!(fmt->flags & AVFMT_NOFILE)) { if (!(fmt->flags & AVFMT_NOFILE)) {
ret = avio_open2(&oc->pb, filename, AVIO_FLAG_WRITE,NULL,NULL); ret = avio_open2(&oc->pb, filename, AVIO_FLAG_WRITE,NULL,NULL);
if (ret < 0) {
Fatal("Could not open output file '%s': %s\n", filename,
av_make_error_string(ret).c_str());
}
}
/* Write the stream header, if any. */
ret = avformat_write_header(oc, NULL);
if (ret < 0) { if (ret < 0) {
Fatal("Error occurred when writing output file header: %s\n", Fatal("Could not open output file '%s': %s\n", filename,
av_make_error_string(ret).c_str()); av_make_error_string(ret).c_str());
} }
}
prevDts = 0; //av_dict_set(&opts, "movflags", "frag_custom+dash+delay_moov", 0);
startPts = 0; //if ((ret = avformat_write_header(ctx, &opts)) < 0) {
startDts = 0; //}
filter_in_rescale_delta_last = AV_NOPTS_VALUE; //os->ctx_inited = 1;
//avio_flush(ctx->pb);
//av_dict_free(&opts);
startTime=av_gettime()-nStartTime;//oc->start_time; /* Write the stream header, if any. */
Info("VideoStore startTime=%d\n",startTime); ret = avformat_write_header(oc, NULL);
} if (ret < 0) {
zm_dump_stream_format( oc, 0, 0, 1 );
Fatal("Error occurred when writing output file header to %s: %s\n",
filename,
av_make_error_string(ret).c_str());
}
prevDts = 0;
startPts = 0;
startDts = 0;
filter_in_rescale_delta_last = AV_NOPTS_VALUE;
startTime=av_gettime()-nStartTime;//oc->start_time;
Info("VideoStore startTime=%d\n",startTime);
} // VideoStore::VideoStore
VideoStore::~VideoStore(){ VideoStore::~VideoStore(){
/* Write the trailer before close */ /* Write the trailer before close */
if ( int rc = av_write_trailer(oc) ) { if ( int rc = av_write_trailer(oc) ) {
Error("Error writing trailer %s", av_err2str( rc ) ); Error("Error writing trailer %s", av_err2str( rc ) );
} else { } else {
Debug(3, "Sucess Writing trailer"); Debug(3, "Sucess Writing trailer");
} }
// I wonder if we should be closing the file first.
// I also wonder if we really need to be doing all the context allocation/de-allocation constantly, or whether we can just re-use it. Just do a file open/close/writeheader/etc.
// What if we were only doing audio recording?
if ( video_st ) {
avcodec_close(video_st->codec); avcodec_close(video_st->codec);
if (audio_st) { }
avcodec_close(audio_st->codec); if (audio_st) {
} avcodec_close(audio_st->codec);
}
if (!(fmt->flags & AVFMT_NOFILE)) { // WHen will be not using a file ?
if (!(fmt->flags & AVFMT_NOFILE)) {
/* Close the output file. */ /* Close the output file. */
if ( int rc= avio_close(oc->pb) ) { if ( int rc = avio_close(oc->pb) ) {
Error("Error closing avio %s", av_err2str( rc ) ); Error("Error closing avio %s", av_err2str( rc ) );
}
} }
} else {
Debug(3, "Not closing avio because we are not writing to a file.");
}
/* free the stream */ /* free the stream */
avformat_free_context(oc); avformat_free_context(oc);
} }
void VideoStore::dumpPacket( AVPacket *pkt ){ void VideoStore::dumpPacket( AVPacket *pkt ){
char b[10240]; char b[10240];
snprintf(b, sizeof(b), " pts: %" PRId64 ", dts: %" PRId64 ", data: %p, size: %d, sindex: %d, dflags: %04x, s-pos: %" PRId64 ", c-duration: %" PRId64 "\n" snprintf(b, sizeof(b), " pts: %" PRId64 ", dts: %" PRId64 ", data: %p, size: %d, sindex: %d, dflags: %04x, s-pos: %" PRId64 ", c-duration: %" PRId64 "\n"
, pkt->pts , pkt->pts
, pkt->dts , pkt->dts
, pkt->data , pkt->data
, pkt->size , pkt->size
, pkt->stream_index , pkt->stream_index
, pkt->flags , pkt->flags
, pkt->pos , pkt->pos
, pkt->convergence_duration , pkt->convergence_duration
); );
Info("%s:%d:DEBUG: %s", __FILE__, __LINE__, b); Info("%s:%d:DEBUG: %s", __FILE__, __LINE__, b);
} }
int VideoStore::writeVideoFramePacket(AVPacket *ipkt, AVStream *input_st){//, AVPacket *lastKeyframePkt){ int VideoStore::writeVideoFramePacket(AVPacket *ipkt, AVStream *input_st){//, AVPacket *lastKeyframePkt){
int64_t ost_tb_start_time = av_rescale_q(startTime, AV_TIME_BASE_Q, video_st->time_base); int64_t ost_tb_start_time = av_rescale_q(startTime, AV_TIME_BASE_Q, video_st->time_base);
AVPacket opkt, safepkt; AVPacket opkt, safepkt;
AVPicture pict; AVPicture pict;
av_init_packet(&opkt); av_init_packet(&opkt);
//Scale the PTS of the outgoing packet to be the correct time base //Scale the PTS of the outgoing packet to be the correct time base
if (ipkt->pts != AV_NOPTS_VALUE) { if (ipkt->pts != AV_NOPTS_VALUE) {
opkt.pts = av_rescale_q(ipkt->pts-startPts, input_st->time_base, video_st->time_base) - ost_tb_start_time; opkt.pts = av_rescale_q(ipkt->pts-startPts, input_st->time_base, video_st->time_base) - ost_tb_start_time;
} else { } else {
opkt.pts = AV_NOPTS_VALUE; opkt.pts = AV_NOPTS_VALUE;
} }
//Scale the DTS of the outgoing packet to be the correct time base //Scale the DTS of the outgoing packet to be the correct time base
if(ipkt->dts == AV_NOPTS_VALUE) { if(ipkt->dts == AV_NOPTS_VALUE) {
opkt.dts = av_rescale_q(input_st->cur_dts-startDts, AV_TIME_BASE_Q, video_st->time_base); opkt.dts = av_rescale_q(input_st->cur_dts-startDts, AV_TIME_BASE_Q, video_st->time_base);
} else { } else {
opkt.dts = av_rescale_q(ipkt->dts-startDts, input_st->time_base, video_st->time_base); opkt.dts = av_rescale_q(ipkt->dts-startDts, input_st->time_base, video_st->time_base);
} }
opkt.dts -= ost_tb_start_time; opkt.dts -= ost_tb_start_time;
opkt.duration = av_rescale_q(ipkt->duration, input_st->time_base, video_st->time_base); opkt.duration = av_rescale_q(ipkt->duration, input_st->time_base, video_st->time_base);
opkt.flags = ipkt->flags; opkt.flags = ipkt->flags;
opkt.pos=-1; opkt.pos=-1;
opkt.data = ipkt->data; opkt.data = ipkt->data;
opkt.size = ipkt->size; opkt.size = ipkt->size;
opkt.stream_index = ipkt->stream_index; opkt.stream_index = ipkt->stream_index;
/*opkt.flags |= AV_PKT_FLAG_KEY;*/ /*opkt.flags |= AV_PKT_FLAG_KEY;*/
if (video_st->codec->codec_type == AVMEDIA_TYPE_VIDEO && (fmt->flags & AVFMT_RAWPICTURE)) { if (video_st->codec->codec_type == AVMEDIA_TYPE_VIDEO && (fmt->flags & AVFMT_RAWPICTURE)) {
/* store AVPicture in AVPacket, as expected by the output format */ /* store AVPicture in AVPacket, as expected by the output format */
avpicture_fill(&pict, opkt.data, video_st->codec->pix_fmt, video_st->codec->width, video_st->codec->height); avpicture_fill(&pict, opkt.data, video_st->codec->pix_fmt, video_st->codec->width, video_st->codec->height);
opkt.data = (uint8_t *)&pict; opkt.data = (uint8_t *)&pict;
opkt.size = sizeof(AVPicture); opkt.size = sizeof(AVPicture);
opkt.flags |= AV_PKT_FLAG_KEY; opkt.flags |= AV_PKT_FLAG_KEY;
}
memcpy(&safepkt, &opkt, sizeof(AVPacket));
if ((opkt.data == NULL)||(opkt.size < 1)) {
Warning("%s:%d: Mangled AVPacket: discarding frame", __FILE__, __LINE__ );
dumpPacket(&opkt);
} else if ((prevDts > 0) && (prevDts >= opkt.dts)) {
Warning("%s:%d: DTS out of order: %lld \u226E %lld; discarding frame", __FILE__, __LINE__, prevDts, opkt.dts);
prevDts = opkt.dts;
dumpPacket(&opkt);
} else {
int ret;
prevDts = opkt.dts; // Unsure if av_interleaved_write_frame() clobbers opkt.dts when out of order, so storing in advance
ret = av_interleaved_write_frame(oc, &opkt);
if(ret<0){
// There's nothing we can really do if the frame is rejected, just drop it and get on with the next
Warning("%s:%d: Writing frame [av_interleaved_write_frame()] failed: %s(%d) ", __FILE__, __LINE__, av_make_error_string(ret).c_str(), (ret));
dumpPacket(&safepkt);
} }
}
memcpy(&safepkt, &opkt, sizeof(AVPacket));
if ((opkt.data == NULL)||(opkt.size < 1)) {
Warning("%s:%d: Mangled AVPacket: discarding frame", __FILE__, __LINE__ );
dumpPacket(&opkt);
} else if ((prevDts > 0) && (prevDts >= opkt.dts)) {
Warning("%s:%d: DTS out of order: %lld \u226E %lld; discarding frame", __FILE__, __LINE__, prevDts, opkt.dts);
prevDts = opkt.dts;
dumpPacket(&opkt);
} else {
int ret;
prevDts = opkt.dts; // Unsure if av_interleaved_write_frame() clobbers opkt.dts when out of order, so storing in advance
ret = av_interleaved_write_frame(oc, &opkt);
if(ret<0){
// There's nothing we can really do if the frame is rejected, just drop it and get on with the next
Warning("%s:%d: Writing frame [av_interleaved_write_frame()] failed: %s(%d) ", __FILE__, __LINE__, av_make_error_string(ret).c_str(), (ret));
dumpPacket(&safepkt);
}
}
av_free_packet(&opkt); av_free_packet(&opkt);
return 0; return 0;
} }
int VideoStore::writeAudioFramePacket(AVPacket *ipkt, AVStream *input_st){ int VideoStore::writeAudioFramePacket(AVPacket *ipkt, AVStream *input_st){
if(!audio_st) if(!audio_st) {
return -1;//FIXME -ve return codes do not free packet in ffmpeg_camera at the moment Error("Called writeAudioFramePacket when no audio_st");
/*if(!keyframeMessage) return -1;//FIXME -ve return codes do not free packet in ffmpeg_camera at the moment
return -1;*/ }
/*if(!keyframeMessage)
return -1;*/
//zm_dump_stream_format( oc, ipkt->stream_index, 0, 1 );
int64_t ost_tb_start_time = av_rescale_q(startTime, AV_TIME_BASE_Q, video_st->time_base); // What is this doing? Getting the time of the start of this video chunk? Does that actually make sense?
int64_t ost_tb_start_time = av_rescale_q(startTime, AV_TIME_BASE_Q, audio_st->time_base);
AVPacket opkt; AVPacket opkt;
av_init_packet(&opkt); av_init_packet(&opkt);
Debug(3, "after init packet" );
//Scale the PTS of the outgoing packet to be the correct time base //Scale the PTS of the outgoing packet to be the correct time base
if (ipkt->pts != AV_NOPTS_VALUE) if (ipkt->pts != AV_NOPTS_VALUE) {
opkt.pts = av_rescale_q(ipkt->pts-startPts, input_st->time_base, audio_st->time_base) - ost_tb_start_time; Debug(3, "Rescaling output pts");
else opkt.pts = av_rescale_q(ipkt->pts-startPts, input_st->time_base, audio_st->time_base) - ost_tb_start_time;
opkt.pts = AV_NOPTS_VALUE; } else {
Debug(3, "Setting output pts to AV_NOPTS_VALUE");
opkt.pts = AV_NOPTS_VALUE;
}
//Scale the DTS of the outgoing packet to be the correct time base //Scale the DTS of the outgoing packet to be the correct time base
if(ipkt->dts == AV_NOPTS_VALUE) { if(ipkt->dts == AV_NOPTS_VALUE) {
opkt.dts = av_rescale_q(input_st->cur_dts-startDts, AV_TIME_BASE_Q, audio_st->time_base); Debug(4, "ipkt->dts == AV_NOPTS_VALUE %d to %d", AV_NOPTS_VALUE, opkt.dts );
Debug(3, "ipkt->dts == AV_NOPTS_VALUE %d to %d", AV_NOPTS_VALUE, opkt.dts ); opkt.dts = av_rescale_q(input_st->cur_dts-startDts, AV_TIME_BASE_Q, audio_st->time_base);
} else Debug(4, "ipkt->dts == AV_NOPTS_VALUE %d to %d", AV_NOPTS_VALUE, opkt.dts );
opkt.dts = av_rescale_q(ipkt->dts-startDts, input_st->time_base, audio_st->time_base); } else {
opkt.dts -= ost_tb_start_time; Debug(4, "ipkt->dts != AV_NOPTS_VALUE %d to %d", AV_NOPTS_VALUE, opkt.dts );
opkt.dts = av_rescale_q(ipkt->dts-startDts, input_st->time_base, audio_st->time_base);
Debug(4, "ipkt->dts != AV_NOPTS_VALUE %d to %d", AV_NOPTS_VALUE, opkt.dts );
}
opkt.dts -= ost_tb_start_time;
if (audio_st->codec->codec_type == AVMEDIA_TYPE_AUDIO && ipkt->dts != AV_NOPTS_VALUE) { // Seems like it would be really weird for the codec type to NOT be audiu
Debug( 3, "code is audio, dts != AV_NOPTS_VALUE " ); if (audio_st->codec->codec_type == AVMEDIA_TYPE_AUDIO && ipkt->dts != AV_NOPTS_VALUE) {
int duration = av_get_audio_frame_duration(input_st->codec, ipkt->size); Debug( 4, "code is audio, dts != AV_NOPTS_VALUE " );
if(!duration) int duration = av_get_audio_frame_duration(input_st->codec, ipkt->size);
duration = input_st->codec->frame_size; if(!duration)
duration = input_st->codec->frame_size;
//FIXME where to get filter_in_rescale_delta_last //FIXME where to get filter_in_rescale_delta_last
//FIXME av_rescale_delta doesn't exist in ubuntu vivid libavtools //FIXME av_rescale_delta doesn't exist in ubuntu vivid libavtools
opkt.dts = opkt.pts = av_rescale_delta(input_st->time_base, ipkt->dts, opkt.dts = opkt.pts = av_rescale_delta(input_st->time_base, ipkt->dts,
(AVRational){1, input_st->codec->sample_rate}, duration, &filter_in_rescale_delta_last, (AVRational){1, input_st->codec->sample_rate}, duration, &filter_in_rescale_delta_last,
audio_st->time_base) - ost_tb_start_time; audio_st->time_base) - ost_tb_start_time;
} }
opkt.duration = av_rescale_q(ipkt->duration, input_st->time_base, audio_st->time_base); opkt.duration = av_rescale_q(ipkt->duration, input_st->time_base, audio_st->time_base);
opkt.pos=-1; opkt.pos=-1;
opkt.flags = ipkt->flags; opkt.flags = ipkt->flags;
opkt.data = ipkt->data; opkt.data = ipkt->data;
opkt.size = ipkt->size; opkt.size = ipkt->size;
opkt.stream_index = ipkt->stream_index; opkt.stream_index = ipkt->stream_index;
int ret; int ret;
ret = av_interleaved_write_frame(oc, &opkt); ret = av_interleaved_write_frame(oc, &opkt);
if(ret!=0){ if(ret!=0){
Fatal("Error encoding audio frame packet: %s\n", av_make_error_string(ret).c_str()); Fatal("Error encoding audio frame packet: %s\n", av_make_error_string(ret).c_str());
} }
Debug(4,"Success writing audio frame" );
av_free_packet(&opkt); av_free_packet(&opkt);
return 0; return 0;
} }

View File

@ -35,141 +35,141 @@ class Monitor;
class Zone class Zone
{ {
protected: protected:
struct Range struct Range
{ {
int lo_x; int lo_x;
int hi_x; int hi_x;
int off_x; int off_x;
}; };
public: public:
typedef enum { ACTIVE=1, INCLUSIVE, EXCLUSIVE, PRECLUSIVE, INACTIVE, PRIVACY } ZoneType; typedef enum { ACTIVE=1, INCLUSIVE, EXCLUSIVE, PRECLUSIVE, INACTIVE, PRIVACY } ZoneType;
typedef enum { ALARMED_PIXELS=1, FILTERED_PIXELS, BLOBS } CheckMethod; typedef enum { ALARMED_PIXELS=1, FILTERED_PIXELS, BLOBS } CheckMethod;
protected: protected:
// Inputs // Inputs
Monitor *monitor; Monitor *monitor;
int id; int id;
char *label; char *label;
ZoneType type; ZoneType type;
Polygon polygon; Polygon polygon;
Rgb alarm_rgb; Rgb alarm_rgb;
CheckMethod check_method; CheckMethod check_method;
int min_pixel_threshold; int min_pixel_threshold;
int max_pixel_threshold; int max_pixel_threshold;
int min_alarm_pixels; int min_alarm_pixels;
int max_alarm_pixels; int max_alarm_pixels;
Coord filter_box; Coord filter_box;
int min_filter_pixels; int min_filter_pixels;
int max_filter_pixels; int max_filter_pixels;
int min_blob_pixels; int min_blob_pixels;
int max_blob_pixels; int max_blob_pixels;
int min_blobs; int min_blobs;
int max_blobs; int max_blobs;
int overload_frames; int overload_frames;
int extend_alarm_frames; int extend_alarm_frames;
// Outputs/Statistics // Outputs/Statistics
bool alarmed; bool alarmed;
int pixel_diff; int pixel_diff;
unsigned int alarm_pixels; unsigned int alarm_pixels;
int alarm_filter_pixels; int alarm_filter_pixels;
int alarm_blob_pixels; int alarm_blob_pixels;
int alarm_blobs; int alarm_blobs;
int min_blob_size; int min_blob_size;
int max_blob_size; int max_blob_size;
Box alarm_box; Box alarm_box;
Coord alarm_centre; Coord alarm_centre;
unsigned int score; unsigned int score;
Image *pg_image; Image *pg_image;
Range *ranges; Range *ranges;
Image *image; Image *image;
int overload_count; int overload_count;
int extend_alarm_count; int extend_alarm_count;
protected: protected:
void Setup( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold, int p_max_pixel_threshold, int p_min_alarm_pixels, int p_max_alarm_pixels, const Coord &p_filter_box, int p_min_filter_pixels, int p_max_filter_pixels, int p_min_blob_pixels, int p_max_blob_pixels, int p_min_blobs, int p_max_blobs, int p_overload_frames, int p_extend_alarm_frames ); void Setup( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold, int p_max_pixel_threshold, int p_min_alarm_pixels, int p_max_alarm_pixels, const Coord &p_filter_box, int p_min_filter_pixels, int p_max_filter_pixels, int p_min_blob_pixels, int p_max_blob_pixels, int p_min_blobs, int p_max_blobs, int p_overload_frames, int p_extend_alarm_frames );
void std_alarmedpixels(Image* pdiff_image, const Image* ppoly_image, unsigned int* pixel_count, unsigned int* pixel_sum); void std_alarmedpixels(Image* pdiff_image, const Image* ppoly_image, unsigned int* pixel_count, unsigned int* pixel_sum);
public: public:
Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0 ) Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0 )
{ {
Setup( p_monitor, p_id, p_label, p_type, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames ); Setup( p_monitor, p_id, p_label, p_type, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames );
} }
Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0) Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0)
{ {
Setup( p_monitor, p_id, p_label, Zone::ACTIVE, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames ); Setup( p_monitor, p_id, p_label, Zone::ACTIVE, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames );
} }
Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon ) Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon )
{ {
Setup( p_monitor, p_id, p_label, Zone::INACTIVE, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 ); Setup( p_monitor, p_id, p_label, Zone::INACTIVE, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 );
} }
Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon ) Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon )
{ {
Setup( p_monitor, p_id, p_label, p_type, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 ); Setup( p_monitor, p_id, p_label, p_type, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 );
} }
public: public:
~Zone(); ~Zone();
inline int Id() const { return( id ); } inline int Id() const { return( id ); }
inline const char *Label() const { return( label ); } inline const char *Label() const { return( label ); }
inline ZoneType Type() const { return( type ); } inline ZoneType Type() const { return( type ); }
inline bool IsActive() const { return( type == ACTIVE ); } inline bool IsActive() const { return( type == ACTIVE ); }
inline bool IsInclusive() const { return( type == INCLUSIVE ); } inline bool IsInclusive() const { return( type == INCLUSIVE ); }
inline bool IsExclusive() const { return( type == EXCLUSIVE ); } inline bool IsExclusive() const { return( type == EXCLUSIVE ); }
inline bool IsPreclusive() const { return( type == PRECLUSIVE ); } inline bool IsPreclusive() const { return( type == PRECLUSIVE ); }
inline bool IsInactive() const { return( type == INACTIVE ); } inline bool IsInactive() const { return( type == INACTIVE ); }
inline bool IsPrivacy() const { return( type == PRIVACY ); } inline bool IsPrivacy() const { return( type == PRIVACY ); }
inline const Image *AlarmImage() const { return( image ); } inline const Image *AlarmImage() const { return( image ); }
inline const Polygon &GetPolygon() const { return( polygon ); } inline const Polygon &GetPolygon() const { return( polygon ); }
inline bool Alarmed() const { return( alarmed ); } inline bool Alarmed() const { return( alarmed ); }
inline void SetAlarm() { alarmed = true; } inline void SetAlarm() { alarmed = true; }
inline void ClearAlarm() { alarmed = false; } inline void ClearAlarm() { alarmed = false; }
inline Coord GetAlarmCentre() const { return( alarm_centre ); } inline Coord GetAlarmCentre() const { return( alarm_centre ); }
inline unsigned int Score() const { return( score ); } inline unsigned int Score() const { return( score ); }
inline void ResetStats() inline void ResetStats()
{ {
alarmed = false; alarmed = false;
pixel_diff = 0; pixel_diff = 0;
alarm_pixels = 0; alarm_pixels = 0;
alarm_filter_pixels = 0; alarm_filter_pixels = 0;
alarm_blob_pixels = 0; alarm_blob_pixels = 0;
alarm_blobs = 0; alarm_blobs = 0;
min_blob_size = 0; min_blob_size = 0;
max_blob_size = 0; max_blob_size = 0;
score = 0; score = 0;
} }
void RecordStats( const Event *event ); void RecordStats( const Event *event );
bool CheckAlarms( const Image *delta_image ); bool CheckAlarms( const Image *delta_image );
bool DumpSettings( char *output, bool verbose ); bool DumpSettings( char *output, bool verbose );
static bool ParsePolygonString( const char *polygon_string, Polygon &polygon ); static bool ParsePolygonString( const char *polygon_string, Polygon &polygon );
static bool ParseZoneString( const char *zone_string, int &zone_id, int &colour, Polygon &polygon ); static bool ParseZoneString( const char *zone_string, int &zone_id, int &colour, Polygon &polygon );
static int Load( Monitor *monitor, Zone **&zones ); static int Load( Monitor *monitor, Zone **&zones );
//================================================= //=================================================
bool CheckOverloadCount(); bool CheckOverloadCount();
int GetOverloadCount(); int GetOverloadCount();
void SetOverloadCount(int nOverCount); void SetOverloadCount(int nOverCount);
int GetOverloadFrames(); int GetOverloadFrames();
//================================================= //=================================================
bool CheckExtendAlarmCount(); bool CheckExtendAlarmCount();
int GetExtendAlarmCount(); int GetExtendAlarmCount();
void SetExtendAlarmCount(int nOverCount); void SetExtendAlarmCount(int nOverCount);
int GetExtendAlarmFrames(); int GetExtendAlarmFrames();
void SetScore(unsigned int nScore); void SetScore(unsigned int nScore);
void SetAlarmImage(const Image* srcImage); void SetAlarmImage(const Image* srcImage);
inline const Image *getPgImage() const { return( pg_image ); } inline const Image *getPgImage() const { return( pg_image ); }
inline const Range *getRanges() const { return( ranges ); } inline const Range *getRanges() const { return( ranges ); }
}; };

View File

@ -41,9 +41,9 @@ behind.
=head1 OPTIONS =head1 OPTIONS
-m, --monitor_id - ID of the monitor to analyse -m, --monitor_id - ID of the monitor to analyse
-h, --help - Display usage information -h, --help - Display usage information
-v, --version - Print the installed version of ZoneMinder -v, --version - Print the installed version of ZoneMinder
=cut =cut
@ -59,146 +59,146 @@ behind.
void Usage() void Usage()
{ {
fprintf( stderr, "zma -m <monitor_id>\n" ); fprintf( stderr, "zma -m <monitor_id>\n" );
fprintf( stderr, "Options:\n" ); fprintf( stderr, "Options:\n" );
fprintf( stderr, " -m, --monitor <monitor_id> : Specify which monitor to use\n" ); fprintf( stderr, " -m, --monitor <monitor_id> : Specify which monitor to use\n" );
fprintf( stderr, " -h, --help : This screen\n" ); fprintf( stderr, " -h, --help : This screen\n" );
fprintf( stderr, " -v, --version : Report the installed version of ZoneMinder\n" ); fprintf( stderr, " -v, --version : Report the installed version of ZoneMinder\n" );
exit( 0 ); exit( 0 );
} }
int main( int argc, char *argv[] ) int main( int argc, char *argv[] )
{ {
self = argv[0]; self = argv[0];
srand( getpid() * time( 0 ) ); srand( getpid() * time( 0 ) );
int id = -1; int id = -1;
static struct option long_options[] = { static struct option long_options[] = {
{"monitor", 1, 0, 'm'}, {"monitor", 1, 0, 'm'},
{"help", 0, 0, 'h'}, {"help", 0, 0, 'h'},
{"version", 0, 0, 'v'}, {"version", 0, 0, 'v'},
{0, 0, 0, 0} {0, 0, 0, 0}
}; };
while (1) while (1)
{ {
int option_index = 0; int option_index = 0;
int c = getopt_long (argc, argv, "m:h:v", long_options, &option_index); int c = getopt_long (argc, argv, "m:h:v", long_options, &option_index);
if (c == -1) if (c == -1)
{ {
break; break;
} }
switch (c) switch (c)
{ {
case 'm': case 'm':
id = atoi(optarg); id = atoi(optarg);
break; break;
case 'h': case 'h':
case '?': case '?':
Usage(); Usage();
break; break;
case 'v': case 'v':
std::cout << ZM_VERSION << "\n"; std::cout << ZM_VERSION << "\n";
exit(0); exit(0);
default: default:
//fprintf( stderr, "?? getopt returned character code 0%o ??\n", c ); //fprintf( stderr, "?? getopt returned character code 0%o ??\n", c );
break; break;
} }
} }
if (optind < argc) if (optind < argc)
{ {
fprintf( stderr, "Extraneous options, " ); fprintf( stderr, "Extraneous options, " );
while (optind < argc) while (optind < argc)
printf ("%s ", argv[optind++]); printf ("%s ", argv[optind++]);
printf ("\n"); printf ("\n");
Usage(); Usage();
} }
if ( id < 0 ) if ( id < 0 )
{ {
fprintf( stderr, "Bogus monitor %d\n", id ); fprintf( stderr, "Bogus monitor %d\n", id );
Usage(); Usage();
exit( 0 ); exit( 0 );
} }
char log_id_string[16]; char log_id_string[16];
snprintf( log_id_string, sizeof(log_id_string), "zma_m%d", id ); snprintf( log_id_string, sizeof(log_id_string), "zma_m%d", id );
zmLoadConfig(); zmLoadConfig();
logInit( log_id_string ); logInit( log_id_string );
ssedetect(); ssedetect();
Monitor *monitor = Monitor::Load( id, true, Monitor::ANALYSIS ); Monitor *monitor = Monitor::Load( id, true, Monitor::ANALYSIS );
if ( monitor ) if ( monitor )
{ {
Info( "In mode %d/%d, warming up", monitor->GetFunction(), monitor->Enabled() ); Info( "In mode %d/%d, warming up", monitor->GetFunction(), monitor->Enabled() );
if ( config.opt_frame_server ) if ( config.opt_frame_server )
{ {
Event::OpenFrameSocket( monitor->Id() ); Event::OpenFrameSocket( monitor->Id() );
} }
zmSetDefaultHupHandler(); zmSetDefaultHupHandler();
zmSetDefaultTermHandler(); zmSetDefaultTermHandler();
zmSetDefaultDieHandler(); zmSetDefaultDieHandler();
sigset_t block_set; sigset_t block_set;
sigemptyset( &block_set ); sigemptyset( &block_set );
useconds_t analysis_rate = monitor->GetAnalysisRate(); useconds_t analysis_rate = monitor->GetAnalysisRate();
unsigned int analysis_update_delay = monitor->GetAnalysisUpdateDelay(); unsigned int analysis_update_delay = monitor->GetAnalysisUpdateDelay();
time_t last_analysis_update_time, cur_time; time_t last_analysis_update_time, cur_time;
monitor->UpdateAdaptiveSkip(); monitor->UpdateAdaptiveSkip();
last_analysis_update_time = time( 0 ); last_analysis_update_time = time( 0 );
while( !zm_terminate ) while( !zm_terminate )
{ {
// Process the next image // Process the next image
sigprocmask( SIG_BLOCK, &block_set, 0 ); sigprocmask( SIG_BLOCK, &block_set, 0 );
// Some periodic updates are required for variable capturing framerate // Some periodic updates are required for variable capturing framerate
if ( analysis_update_delay ) if ( analysis_update_delay )
{ {
cur_time = time( 0 ); cur_time = time( 0 );
if ( ( cur_time - last_analysis_update_time ) > analysis_update_delay ) if ( ( cur_time - last_analysis_update_time ) > analysis_update_delay )
{ {
analysis_rate = monitor->GetAnalysisRate(); analysis_rate = monitor->GetAnalysisRate();
monitor->UpdateAdaptiveSkip(); monitor->UpdateAdaptiveSkip();
last_analysis_update_time = cur_time; last_analysis_update_time = cur_time;
} }
} }
if ( !monitor->Analyse() ) if ( !monitor->Analyse() )
{ {
usleep( monitor->Active()?ZM_SAMPLE_RATE:ZM_SUSPENDED_RATE ); usleep( monitor->Active()?ZM_SAMPLE_RATE:ZM_SUSPENDED_RATE );
} }
else if ( analysis_rate ) else if ( analysis_rate )
{ {
usleep( analysis_rate ); usleep( analysis_rate );
} }
if ( zm_reload ) if ( zm_reload )
{ {
monitor->Reload(); monitor->Reload();
zm_reload = false; zm_reload = false;
} }
sigprocmask( SIG_UNBLOCK, &block_set, 0 ); sigprocmask( SIG_UNBLOCK, &block_set, 0 );
} }
delete monitor; delete monitor;
} }
else else
{ {
fprintf( stderr, "Can't find monitor with id of %d\n", id ); fprintf( stderr, "Can't find monitor with id of %d\n", id );
} }
logTerm(); logTerm();
zmDbClose(); zmDbClose();
return( 0 ); return( 0 );
} }

View File

@ -44,12 +44,12 @@ possible, this should run at more or less constant speed.
=head1 OPTIONS =head1 OPTIONS
-d, --device <device_path> - For local cameras, device to access. e.g /dev/video0 etc -d, --device <device_path> - For local cameras, device to access. e.g /dev/video0 etc
-r <proto> -H <host> -P <port> -p <path> - For remote cameras -r <proto> -H <host> -P <port> -p <path> - For remote cameras
-f, --file <file_path> - For local images, jpg file to access. -f, --file <file_path> - For local images, jpg file to access.
-m, --monitor_id - ID of the monitor to analyse -m, --monitor_id - ID of the monitor to analyse
-h, --help - Display usage information -h, --help - Display usage information
-v, --version - Print the installed version of ZoneMinder -v, --version - Print the installed version of ZoneMinder
=cut =cut
@ -75,290 +75,290 @@ possible, this should run at more or less constant speed.
void Usage() void Usage()
{ {
fprintf( stderr, "zmc -d <device_path> or -r <proto> -H <host> -P <port> -p <path> or -f <file_path> or -m <monitor_id>\n" ); fprintf( stderr, "zmc -d <device_path> or -r <proto> -H <host> -P <port> -p <path> or -f <file_path> or -m <monitor_id>\n" );
fprintf( stderr, "Options:\n" ); fprintf( stderr, "Options:\n" );
#if defined(BSD) #if defined(BSD)
fprintf( stderr, " -d, --device <device_path> : For local cameras, device to access. E.g /dev/bktr0 etc\n" ); fprintf( stderr, " -d, --device <device_path> : For local cameras, device to access. E.g /dev/bktr0 etc\n" );
#else #else
fprintf( stderr, " -d, --device <device_path> : For local cameras, device to access. E.g /dev/video0 etc\n" ); fprintf( stderr, " -d, --device <device_path> : For local cameras, device to access. E.g /dev/video0 etc\n" );
#endif #endif
fprintf( stderr, " -r <proto> -H <host> -P <port> -p <path> : For remote cameras\n" ); fprintf( stderr, " -r <proto> -H <host> -P <port> -p <path> : For remote cameras\n" );
fprintf( stderr, " -f, --file <file_path> : For local images, jpg file to access.\n" ); fprintf( stderr, " -f, --file <file_path> : For local images, jpg file to access.\n" );
fprintf( stderr, " -m, --monitor <monitor_id> : For sources associated with a single monitor\n" ); fprintf( stderr, " -m, --monitor <monitor_id> : For sources associated with a single monitor\n" );
fprintf( stderr, " -h, --help : This screen\n" ); fprintf( stderr, " -h, --help : This screen\n" );
fprintf( stderr, " -v, --version : Report the installed version of ZoneMinder\n" ); fprintf( stderr, " -v, --version : Report the installed version of ZoneMinder\n" );
exit( 0 ); exit( 0 );
} }
int main( int argc, char *argv[] ) int main( int argc, char *argv[] )
{ {
self = argv[0]; self = argv[0];
srand( getpid() * time( 0 ) ); srand( getpid() * time( 0 ) );
const char *device = ""; const char *device = "";
const char *protocol = ""; const char *protocol = "";
const char *host = ""; const char *host = "";
const char *port = ""; const char *port = "";
const char *path = ""; const char *path = "";
const char *file = ""; const char *file = "";
int monitor_id = -1; int monitor_id = -1;
static struct option long_options[] = { static struct option long_options[] = {
{"device", 1, 0, 'd'}, {"device", 1, 0, 'd'},
{"protocol", 1, 0, 'r'}, {"protocol", 1, 0, 'r'},
{"host", 1, 0, 'H'}, {"host", 1, 0, 'H'},
{"port", 1, 0, 'P'}, {"port", 1, 0, 'P'},
{"path", 1, 0, 'p'}, {"path", 1, 0, 'p'},
{"file", 1, 0, 'f'}, {"file", 1, 0, 'f'},
{"monitor", 1, 0, 'm'}, {"monitor", 1, 0, 'm'},
{"help", 0, 0, 'h'}, {"help", 0, 0, 'h'},
{"version", 0, 0, 'v'}, {"version", 0, 0, 'v'},
{0, 0, 0, 0} {0, 0, 0, 0}
}; };
while (1) while (1)
{ {
int option_index = 0; int option_index = 0;
int c = getopt_long (argc, argv, "d:H:P:p:f:m:h:v", long_options, &option_index); int c = getopt_long (argc, argv, "d:H:P:p:f:m:h:v", long_options, &option_index);
if (c == -1) if (c == -1)
{ {
break; break;
} }
switch (c) switch (c)
{ {
case 'd': case 'd':
device = optarg; device = optarg;
break; break;
case 'H': case 'H':
host = optarg; host = optarg;
break; break;
case 'P': case 'P':
port = optarg; port = optarg;
break; break;
case 'p': case 'p':
path = optarg; path = optarg;
break; break;
case 'f': case 'f':
file = optarg; file = optarg;
break; break;
case 'm': case 'm':
monitor_id = atoi(optarg); monitor_id = atoi(optarg);
break; break;
case 'h': case 'h':
case '?': case '?':
Usage(); Usage();
break; break;
case 'v': case 'v':
std::cout << ZM_VERSION << "\n"; std::cout << ZM_VERSION << "\n";
exit(0); exit(0);
default: default:
//fprintf( stderr, "?? getopt returned character code 0%o ??\n", c ); //fprintf( stderr, "?? getopt returned character code 0%o ??\n", c );
break; break;
} }
} }
if (optind < argc) if (optind < argc)
{ {
fprintf( stderr, "Extraneous options, " ); fprintf( stderr, "Extraneous options, " );
while (optind < argc) while (optind < argc)
printf ("%s ", argv[optind++]); printf ("%s ", argv[optind++]);
printf ("\n"); printf ("\n");
Usage(); Usage();
} }
int modes = ( device[0]?1:0 + host[0]?1:0 + file[0]?1:0 + (monitor_id>0?1:0) ); int modes = ( device[0]?1:0 + host[0]?1:0 + file[0]?1:0 + (monitor_id>0?1:0) );
if ( modes > 1 ) if ( modes > 1 )
{ {
fprintf( stderr, "Only one of device, host/port/path, file or monitor id allowed\n" ); fprintf( stderr, "Only one of device, host/port/path, file or monitor id allowed\n" );
Usage(); Usage();
exit( 0 ); exit( 0 );
} }
if ( modes < 1 ) if ( modes < 1 )
{ {
fprintf( stderr, "One of device, host/port/path, file or monitor id must be specified\n" ); fprintf( stderr, "One of device, host/port/path, file or monitor id must be specified\n" );
Usage(); Usage();
exit( 0 ); exit( 0 );
} }
char log_id_string[32] = ""; char log_id_string[32] = "";
if ( device[0] ) if ( device[0] )
{ {
const char *slash_ptr = strrchr( device, '/' ); const char *slash_ptr = strrchr( device, '/' );
snprintf( log_id_string, sizeof(log_id_string), "zmc_d%s", slash_ptr?slash_ptr+1:device ); snprintf( log_id_string, sizeof(log_id_string), "zmc_d%s", slash_ptr?slash_ptr+1:device );
} }
else if ( host[0] ) else if ( host[0] )
{ {
snprintf( log_id_string, sizeof(log_id_string), "zmc_h%s", host ); snprintf( log_id_string, sizeof(log_id_string), "zmc_h%s", host );
} }
else if ( file[0] ) else if ( file[0] )
{ {
const char *slash_ptr = strrchr( file, '/' ); const char *slash_ptr = strrchr( file, '/' );
snprintf( log_id_string, sizeof(log_id_string), "zmc_f%s", slash_ptr?slash_ptr+1:file ); snprintf( log_id_string, sizeof(log_id_string), "zmc_f%s", slash_ptr?slash_ptr+1:file );
} }
else else
{ {
snprintf( log_id_string, sizeof(log_id_string), "zmc_m%d", monitor_id ); snprintf( log_id_string, sizeof(log_id_string), "zmc_m%d", monitor_id );
} }
zmLoadConfig(); zmLoadConfig();
logInit( log_id_string ); logInit( log_id_string );
ssedetect(); ssedetect();
Monitor **monitors = 0; Monitor **monitors = 0;
int n_monitors = 0; int n_monitors = 0;
#if ZM_HAS_V4L #if ZM_HAS_V4L
if ( device[0] ) if ( device[0] )
{ {
n_monitors = Monitor::LoadLocalMonitors( device, monitors, Monitor::CAPTURE ); n_monitors = Monitor::LoadLocalMonitors( device, monitors, Monitor::CAPTURE );
} }
else else
#endif // ZM_HAS_V4L #endif // ZM_HAS_V4L
if ( host[0] ) if ( host[0] )
{ {
if ( !port ) if ( !port )
port = "80"; port = "80";
n_monitors = Monitor::LoadRemoteMonitors( protocol, host, port, path, monitors, Monitor::CAPTURE ); n_monitors = Monitor::LoadRemoteMonitors( protocol, host, port, path, monitors, Monitor::CAPTURE );
} }
else if ( file[0] ) else if ( file[0] )
{ {
n_monitors = Monitor::LoadFileMonitors( file, monitors, Monitor::CAPTURE ); n_monitors = Monitor::LoadFileMonitors( file, monitors, Monitor::CAPTURE );
} }
else else
{ {
Monitor *monitor = Monitor::Load( monitor_id, true, Monitor::CAPTURE ); Monitor *monitor = Monitor::Load( monitor_id, true, Monitor::CAPTURE );
if ( monitor ) if ( monitor )
{ {
monitors = new Monitor *[1]; monitors = new Monitor *[1];
monitors[0] = monitor; monitors[0] = monitor;
n_monitors = 1; n_monitors = 1;
} }
} }
if ( !n_monitors ) if ( !n_monitors )
{ {
Error( "No monitors found" ); Error( "No monitors found" );
exit ( -1 ); exit ( -1 );
} }
Info( "Starting Capture version %s", ZM_VERSION ); Info( "Starting Capture version %s", ZM_VERSION );
zmSetDefaultTermHandler(); zmSetDefaultTermHandler();
zmSetDefaultDieHandler(); zmSetDefaultDieHandler();
sigset_t block_set; sigset_t block_set;
sigemptyset( &block_set ); sigemptyset( &block_set );
sigaddset( &block_set, SIGUSR1 ); sigaddset( &block_set, SIGUSR1 );
sigaddset( &block_set, SIGUSR2 ); sigaddset( &block_set, SIGUSR2 );
if ( monitors[0]->PrimeCapture() < 0 ) if ( monitors[0]->PrimeCapture() < 0 )
{ {
Error( "Failed to prime capture of initial monitor" ); Error( "Failed to prime capture of initial monitor" );
exit( -1 ); exit( -1 );
} }
long *capture_delays = new long[n_monitors]; long *capture_delays = new long[n_monitors];
long *alarm_capture_delays = new long[n_monitors]; long *alarm_capture_delays = new long[n_monitors];
long *next_delays = new long[n_monitors]; long *next_delays = new long[n_monitors];
struct timeval * last_capture_times = new struct timeval[n_monitors]; struct timeval * last_capture_times = new struct timeval[n_monitors];
for ( int i = 0; i < n_monitors; i++ ) for ( int i = 0; i < n_monitors; i++ )
{ {
last_capture_times[i].tv_sec = last_capture_times[i].tv_usec = 0; last_capture_times[i].tv_sec = last_capture_times[i].tv_usec = 0;
capture_delays[i] = monitors[i]->GetCaptureDelay(); capture_delays[i] = monitors[i]->GetCaptureDelay();
alarm_capture_delays[i] = monitors[i]->GetAlarmCaptureDelay(); alarm_capture_delays[i] = monitors[i]->GetAlarmCaptureDelay();
} }
int result = 0; int result = 0;
struct timeval now; struct timeval now;
struct DeltaTimeval delta_time; struct DeltaTimeval delta_time;
while( !zm_terminate ) while( !zm_terminate )
{ {
sigprocmask( SIG_BLOCK, &block_set, 0 ); sigprocmask( SIG_BLOCK, &block_set, 0 );
for ( int i = 0; i < n_monitors; i++ ) for ( int i = 0; i < n_monitors; i++ )
{ {
long min_delay = MAXINT; long min_delay = MAXINT;
gettimeofday( &now, NULL ); gettimeofday( &now, NULL );
for ( int j = 0; j < n_monitors; j++ ) for ( int j = 0; j < n_monitors; j++ )
{ {
if ( last_capture_times[j].tv_sec ) if ( last_capture_times[j].tv_sec )
{ {
DELTA_TIMEVAL( delta_time, now, last_capture_times[j], DT_PREC_3 ); DELTA_TIMEVAL( delta_time, now, last_capture_times[j], DT_PREC_3 );
if ( monitors[i]->GetState() == Monitor::ALARM ) if ( monitors[i]->GetState() == Monitor::ALARM )
next_delays[j] = alarm_capture_delays[j]-delta_time.delta; next_delays[j] = alarm_capture_delays[j]-delta_time.delta;
else else
next_delays[j] = capture_delays[j]-delta_time.delta; next_delays[j] = capture_delays[j]-delta_time.delta;
if ( next_delays[j] < 0 ) if ( next_delays[j] < 0 )
next_delays[j] = 0; next_delays[j] = 0;
} }
else else
{ {
next_delays[j] = 0; next_delays[j] = 0;
} }
if ( next_delays[j] <= min_delay ) if ( next_delays[j] <= min_delay )
{ {
min_delay = next_delays[j]; min_delay = next_delays[j];
} }
} }
if ( next_delays[i] <= min_delay || next_delays[i] <= 0 ) if ( next_delays[i] <= min_delay || next_delays[i] <= 0 )
{ {
if ( monitors[i]->PreCapture() < 0 ) if ( monitors[i]->PreCapture() < 0 )
{ {
Error( "Failed to pre-capture monitor %d %d (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors ); Error( "Failed to pre-capture monitor %d %d (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors );
zm_terminate = true; zm_terminate = true;
result = -1; result = -1;
break; break;
} }
if ( monitors[i]->Capture() < 0 ) if ( monitors[i]->Capture() < 0 )
{ {
Error( "Failed to capture image from monitor %d %s (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors ); Error( "Failed to capture image from monitor %d %s (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors );
zm_terminate = true; zm_terminate = true;
result = -1; result = -1;
break; break;
} }
if ( monitors[i]->PostCapture() < 0 ) if ( monitors[i]->PostCapture() < 0 )
{ {
Error( "Failed to post-capture monitor %d %s (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors ); Error( "Failed to post-capture monitor %d %s (%d/%d)", monitors[i]->Id(), monitors[i]->Name(), i+1, n_monitors );
zm_terminate = true; zm_terminate = true;
result = -1; result = -1;
break; break;
} }
if ( next_delays[i] > 0 ) if ( next_delays[i] > 0 )
{ {
gettimeofday( &now, NULL ); gettimeofday( &now, NULL );
DELTA_TIMEVAL( delta_time, now, last_capture_times[i], DT_PREC_3 ); DELTA_TIMEVAL( delta_time, now, last_capture_times[i], DT_PREC_3 );
long sleep_time = next_delays[i]-delta_time.delta; long sleep_time = next_delays[i]-delta_time.delta;
if ( sleep_time > 0 ) if ( sleep_time > 0 )
{ {
usleep( sleep_time*(DT_MAXGRAN/DT_PREC_3) ); usleep( sleep_time*(DT_MAXGRAN/DT_PREC_3) );
} }
} }
gettimeofday( &(last_capture_times[i]), NULL ); gettimeofday( &(last_capture_times[i]), NULL );
} }
} }
sigprocmask( SIG_UNBLOCK, &block_set, 0 ); sigprocmask( SIG_UNBLOCK, &block_set, 0 );
} }
for ( int i = 0; i < n_monitors; i++ ) for ( int i = 0; i < n_monitors; i++ )
{ {
delete monitors[i]; delete monitors[i];
} }
delete [] monitors; delete [] monitors;
delete [] alarm_capture_delays; delete [] alarm_capture_delays;
delete [] capture_delays; delete [] capture_delays;
delete [] next_delays; delete [] next_delays;
delete [] last_capture_times; delete [] last_capture_times;
logTerm(); logTerm();
zmDbClose(); zmDbClose();
return( result ); return( result );
} }

View File

@ -22,11 +22,11 @@
struct FrameHeader struct FrameHeader
{ {
unsigned long event_id; unsigned long event_id;
time_t event_time; time_t event_time;
unsigned long frame_id; unsigned long frame_id;
bool alarm_frame; bool alarm_frame;
unsigned long image_length; unsigned long image_length;
}; };
#endif // ZMFILE_H #endif // ZMFILE_H

View File

@ -62,7 +62,7 @@ int main( int argc, const char *argv[] )
int monitor_id = 0; int monitor_id = 0;
time_t event_time = 0; time_t event_time = 0;
int event_id = 0; int event_id = 0;
int frame_id = 1; unsigned int frame_id = 1;
unsigned int scale = 100; unsigned int scale = 100;
unsigned int rate = 100; unsigned int rate = 100;
double maxfps = 10.0; double maxfps = 10.0;

252
src/zmstreamer.cpp Normal file
View File

@ -0,0 +1,252 @@
//
// ZoneMinder Streamer, $Date: 2010-10-14 23:21:00 +0200 (Thu, 14 Oct 2010) $
// Copyright (C) 2001-2010 Philip Coombes, Chris Kistner
//
// This program is based on revision 3143 of
// http://svn.zoneminder.com/svn/zm/trunk/src/zms.cpp
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
/*
=head1 NAME
zmstreamer - eyeZM video streamer
=head1 SYNOPSIS
zmstreamer -e <mode>
zmstreamer -o <format>
zmstreamer -u <buffer size>
zmstreamer -f <maximum fps>
zmstreamer -s <scale>
zmstreamer -b <bitrate in bps>
zmstreamer -m <monitor id>
zmstreamer -d <debug mode>
zmstreamer -i
zmstreamer -?
zmstreamer -h
zmstreamer -v
=head1 DESCRIPTION
*DEPRECIATED* The xml skin and all files associated with the xml skin are now
depreciated. Please use the ZoneMinder API instead.
This binary works in conjunction with the XML skin to stream video to iPhones
running the eyeZm app.
=head1 OPTIONS
-e <mode> - Specify output mode: mpeg/jpg/zip/single/raw.
-o <format> - Specify output format.
-u <buffer size> - Specify buffer size in ms.
-f <maximum fps> - Specify maximum framerate.
-s <scale> - Specify scale.
-b <bitrate in bps> - Specify bitrate.
-m <monitor id> - Specify monitor id.
-d <debug mode> - 0 = off, 1 = no streaming, 2 = with streaming.
-i, -?, -h - Display usage information
-v - Print the installed version of ZoneMinder
=cut
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/ipc.h>
#include <sys/msg.h>
#include "zm.h"
#include "zm_db.h"
#include "zm_user.h"
#include "zm_signal.h"
#include "zm_monitor.h"
#include "zm_stream.h"
// Possible command-line options
#define OPTIONS "e:o:u:f:s:b:m:d:i:?:h:v"
// Default ZMS values
#define ZMS_DEFAULT_DEBUG 0
#define ZMS_DEFAULT_ID 1
#define ZMS_DEFAULT_BITRATE 100000
#define ZMS_DEFAULT_SCALE 100
#define ZMS_DEFAULT_MODE "mpeg"
#define ZMS_DEFAULT_FORMAT "asf"
#define ZMS_DEFAULT_FPS 25.0
#define ZMS_DEFAULT_BUFFER 1000
int main(int argc, char** argv) {
self = argv[0];
// Set initial values to the default values
int debug = ZMS_DEFAULT_DEBUG;
int id = ZMS_DEFAULT_ID;
int bitrate = ZMS_DEFAULT_BITRATE;
int scale = ZMS_DEFAULT_SCALE;
char mode[32];
sprintf(mode, "%s", ZMS_DEFAULT_MODE);
char format[32];
sprintf(format, "%s", ZMS_DEFAULT_FORMAT);
double maxfps = ZMS_DEFAULT_FPS;
int buffer = ZMS_DEFAULT_BUFFER;
// Parse command-line options
int arg;
while ((arg = getopt(argc, argv, OPTIONS)) != -1) {
switch (arg) {
case 'e':
sprintf(mode, "%s", optarg);
break;
case 'o':
sprintf(format, "%s", optarg);
break;
case 'u':
buffer = atoi(optarg);
break;
case 'f':
maxfps = atof(optarg);
break;
case 's':
scale = atoi(optarg);
break;
case 'b':
bitrate = atoi(optarg);
break;
case 'm':
id = atoi(optarg);
break;
case 'd':
debug = atoi(optarg);
break;
case 'h':
case 'i':
case '?':
printf("-e <mode> : Specify output mode: mpeg/jpg/zip/single/raw. Default = %s\n", ZMS_DEFAULT_MODE);
printf("-o <format> : Specify output format. Default = %s\n", ZMS_DEFAULT_FORMAT);
printf("-u <buffer size> : Specify buffer size in ms. Default = %d\n", ZMS_DEFAULT_BUFFER);
printf("-f <maximum fps> : Specify maximum framerate. Default = %lf\n", ZMS_DEFAULT_FPS);
printf("-s <scale> : Specify scale. Default = %d\n", ZMS_DEFAULT_SCALE);
printf("-b <bitrate in bps> : Specify bitrate. Default = %d\n", ZMS_DEFAULT_BITRATE);
printf("-m <monitor id> : Specify monitor id. Default = %d\n", ZMS_DEFAULT_ID);
printf("-d <debug mode> : 0 = off, 1 = no streaming, 2 = with streaming. Default = 0\n");
printf("-i or -? or -h: This information\n");
printf("-v : This installed version of ZoneMinder\n");
return EXIT_SUCCESS;
case 'v':
std::cout << ZM_VERSION << "\n";
exit(0);
}
}
// Set stream type
StreamBase::StreamType streamtype;
if (!strcasecmp("raw", mode))
streamtype = MonitorStream::STREAM_RAW;
else if (!strcasecmp("mpeg", mode))
streamtype = MonitorStream::STREAM_MPEG;
else if (!strcasecmp("jpg", mode))
streamtype = MonitorStream::STREAM_JPEG;
else if (!strcasecmp("single", mode))
streamtype = MonitorStream::STREAM_SINGLE;
else if (!strcasecmp("zip", mode))
streamtype = MonitorStream::STREAM_ZIP;
else
streamtype = MonitorStream::STREAM_MPEG;
if (debug) {
// Show stream parameters
printf("Stream parameters:\n");
switch (streamtype) {
case MonitorStream::STREAM_MPEG:
printf("Output mode (-e) = %s\n", "mpeg");
printf("Output format (-o) = %s\n", format);
break;
default:
printf("Output mode (-e) = %s\n", mode);
}
printf("Buffer size (-u) = %d ms\n", buffer);
printf("Maximum FPS (-f) = %lf FPS\n", maxfps);
printf("Scale (-s) = %d%%\n", scale);
printf("Bitrate (-b) = %d bps\n", bitrate);
printf("Monitor Id (-m) = %d\n", id);
}
if (debug) {
// Set ZM debugger to print to stdout
printf("Setting up ZoneMinder debugger to print to stdout...");
setenv("ZM_DBG_PRINT", "1", 1);
printf("Done.\n");
}
// Loading ZM configurations
printf("Loading ZoneMinder configurations...");
zmLoadConfig();
printf("Done.\n");
logInit("zmstreamer");
ssedetect();
// Setting stream parameters
MonitorStream stream;
stream.setStreamScale(scale); // default = 100 (scale)
stream.setStreamReplayRate(100); // default = 100 (rate)
stream.setStreamMaxFPS(maxfps); // default = 10 (maxfps)
if (debug) stream.setStreamTTL(1);
else stream.setStreamTTL(0); // default = 0 (ttl)
stream.setStreamQueue(0); // default = 0 (connkey)
stream.setStreamBuffer(buffer); // default = 0 (buffer)
stream.setStreamStart(id); // default = 0 (monitor_id)
stream.setStreamType(streamtype);
if (streamtype == MonitorStream::STREAM_MPEG) {
#if HAVE_LIBAVCODEC
if (debug) printf("HAVE_LIBAVCODEC is set\n");
stream.setStreamFormat(format); // default = "" (format)
stream.setStreamBitrate(bitrate); // default = 100000 (bitrate)
#else
fprintf(stderr, "MPEG streaming is disabled.\nYou should configure with the --with-ffmpeg option and rebuild to use this functionality.\n");
logTerm();
zmDbClose();
return EXIT_FAILURE;
#endif
}
if (debug != 1) {
if (debug) printf("Running stream...");
// Output headers
fprintf(stdout, "Server: ZoneMinder Video Server/%s\r\n", ZM_VERSION);
time_t now = time(0);
char date_string[64];
strftime(date_string, sizeof (date_string) - 1, "%a, %d %b %Y %H:%M:%S GMT", gmtime(&now));
fprintf(stdout, "Expires: Mon, 26 Jul 1997 05:00:00 GMT\r\n");
fprintf(stdout, "Last-Modified: %s\r\n", date_string);
fprintf(stdout, "Cache-Control: no-store, no-cache, must-revalidate\r\n");
fprintf(stdout, "Cache-Control: post-check=0, pre-check=0\r\n");
fprintf(stdout, "Pragma: no-cache\r\n");
// Run stream
stream.runStream();
}
if (debug) printf("Done.\n");
logTerm();
zmDbClose();
return (EXIT_SUCCESS);
}

View File

@ -756,15 +756,14 @@ int main( int argc, char *argv[] )
if ( function & ZMU_LIST ) if ( function & ZMU_LIST )
{ {
char sql[ZM_SQL_SML_BUFSIZ]; std::string sql = "select Id, Function+0 from Monitors";
strncpy( sql, "select Id, Function+0 from Monitors", sizeof(sql) );
if ( !verbose ) if ( !verbose )
{ {
strncat( sql, " where Function != 'None'", sizeof(sql)-strlen(sql) ); sql += "where Function != 'None'";
} }
strncat( sql, " order by Id asc", sizeof(sql)-strlen(sql) ); sql += " order by Id asc";
if ( mysql_query( &dbconn, sql ) ) if ( mysql_query( &dbconn, sql.c_str() ) )
{ {
Error( "Can't run query: %s", mysql_error( &dbconn ) ); Error( "Can't run query: %s", mysql_error( &dbconn ) );
exit( mysql_errno( &dbconn ) ); exit( mysql_errno( &dbconn ) );

76
web/includes/Frame.php Normal file
View File

@ -0,0 +1,76 @@
<?php
require_once( 'database.php' );
require_once( 'Event.php' );
class Frame {
public function __construct( $IdOrRow ) {
$row = NULL;
if ( $IdOrRow ) {
if ( is_integer( $IdOrRow ) or is_numeric( $IdOrRow ) ) {
$row = dbFetchOne( 'SELECT * FROM Frames WHERE Id=?', NULL, array( $IdOrRow ) );
if ( ! $row ) {
Error("Unable to load Frame record for Id=" . $IdOrRow );
}
} elseif ( is_array( $IdOrRow ) ) {
$row = $IdOrRow;
} else {
Error("Unknown argument passed to Frame Constructor ($IdOrRow)");
return;
}
} # end if isset($IdOrRow)
if ( $row ) {
foreach ($row as $k => $v) {
$this->{$k} = $v;
}
} else {
Error("No row for Frame " . $IdOrRow );
}
} // end function __construct
public function Storage() {
return $this->Event()->Storage();
}
public function Event() {
return new Event( $this->{'EventId'} );
}
public function __call( $fn, array $args){
if(isset($this->{$fn})){
return $this->{$fn};
#array_unshift($args, $this);
#call_user_func_array( $this->{$fn}, $args);
}
}
public function Path() {
$Storage = $this->Storage();
return $Storage->Path().'/'.$this->Relative_Path();
}
public function Relative_Path() {
$event_path = "";
if ( ZM_USE_DEEP_STORAGE )
{
$event_path =
$this->{'MonitorId'}
.'/'.strftime( "%y/%m/%d/%H/%M/%S",
$this->Time()
)
;
}
else
{
$event_path =
$this->{'MonitorId'}
.'/'.$this->{'Id'}
;
}
return( $event_path );
}
public function getImageSrc( ) {
return ZM_BASE_URL.'/index.php?view=image&fid='.$this->{'Id'};
} // end function getImageSrc
} # end class
?>

View File

@ -527,6 +527,7 @@ if ( !empty($action) )
'DoNativeMotDet' => 'toggle', 'DoNativeMotDet' => 'toggle',
'Exif' => 'toggle', 'Exif' => 'toggle',
'RTSPDescribe' => 'toggle', 'RTSPDescribe' => 'toggle',
'RecordAudio' => 'toggle',
); );
$columns = getTableColumns( 'Monitors' ); $columns = getTableColumns( 'Monitors' );

View File

@ -104,6 +104,7 @@ define( "CMD_PREV", 12 );
define( "CMD_NEXT", 13 ); define( "CMD_NEXT", 13 );
define( "CMD_SEEK", 14 ); define( "CMD_SEEK", 14 );
define( "CMD_VARPLAY", 15 ); define( "CMD_VARPLAY", 15 );
define( "CMD_QUIT", 17 );
define( "CMD_QUERY", 99 ); define( "CMD_QUERY", 99 );
// //

View File

@ -217,14 +217,20 @@ function getMimeType( $file )
return( trim( exec( 'file -bi '.escapeshellarg( $file ).' 2>/dev/null' ) ) ); return( trim( exec( 'file -bi '.escapeshellarg( $file ).' 2>/dev/null' ) ) );
} }
function outputVideoStream( $id, $src, $width, $height, $format, $title="" ) function outputVideoStream( $id, $src, $width, $height, $format, $title="" ) {
{ echo getVideoStreamHTML( $id, $src, $width, $height, $format, $title );
if ( file_exists( $src ) ) }
function getVideoStreamHTML( $id, $src, $width, $height, $format, $title="" ) {
$html = '';
$width = validInt($width);
$height = validInt($height);
$title = validHtmlStr($title);
if ( file_exists( $src ) ) {
$mimeType = getMimeType( $src ); $mimeType = getMimeType( $src );
else } else {
{ switch( $format ) {
switch( $format )
{
case 'asf' : case 'asf' :
$mimeType = "video/x-ms-asf"; $mimeType = "video/x-ms-asf";
break; break;
@ -252,118 +258,95 @@ function outputVideoStream( $id, $src, $width, $height, $format, $title="" )
} }
if ( !$mimeType || ($mimeType == 'application/octet-stream') ) if ( !$mimeType || ($mimeType == 'application/octet-stream') )
$mimeType = 'video/'.$format; $mimeType = 'video/'.$format;
$objectTag = false; if ( ZM_WEB_USE_OBJECT_TAGS ) {
if ( ZM_WEB_USE_OBJECT_TAGS ) switch( $mimeType ) {
{
switch( $mimeType )
{
case "video/x-ms-asf" : case "video/x-ms-asf" :
case "video/x-msvideo" : case "video/x-msvideo" :
case "video/mp4" : case "video/mp4" :
{ {
if ( isWindows() ) if ( isWindows() ) {
{ return '<object id="'.$id.'" width="'.$width.'" height="'.$height.'
?>
<object id="<?php echo $id ?>" width="<?php echo validNum($width) ?>" height="<?php echo validNum($height) ?>"
classid="CLSID:22D6F312-B0F6-11D0-94AB-0080C74C7E95" classid="CLSID:22D6F312-B0F6-11D0-94AB-0080C74C7E95"
codebase="http://activex.microsoft.com/activex/controls/mplayer/en/nsmp2inf.cab#Version=6,0,02,902" codebase="http://activex.microsoft.com/activex/controls/mplayer/en/nsmp2inf.cab#Version=6,0,02,902"
standby="Loading Microsoft Windows Media Player components..." standby="Loading Microsoft Windows Media Player components..."
type="<?php echo $mimeType ?>"> type="'.$mimeType.'">
<param name="FileName" value="<?php echo $src ?>"/> <param name="FileName" value="'.$src.'"/>
<param name="autoStart" value="1"/> <param name="autoStart" value="1"/>
<param name="showControls" value="0"/> <param name="showControls" value="0"/>
<embed type="<?php echo $mimeType ?>" <embed type="'.$mimeType.'"
pluginspage="http://www.microsoft.com/Windows/MediaPlayer/" pluginspage="http://www.microsoft.com/Windows/MediaPlayer/"
src="<?php echo $src ?>" src="'.$src.'"
name="<?php echo validHtmlStr($title) ?>" name="'.$title.'"
width="<?php echo validNum($width) ?>" width="'.$width.'"
height="<?php echo validInt($height) ?>" height="'.$height.'"
autostart="1" autostart="1"
showcontrols="0"> showcontrols="0">
</embed> </embed>
</object> </object>';
<?php
$objectTag = true;
} }
break;
} }
case "video/quicktime" : case "video/quicktime" :
{ {
?> return '<object id="'.$id.'" width="'.$width.'" height="'.$height.'"
<object id="<?php echo $id ?>" width="<?php echo $width ?>" height="<?php echo $height ?>"
classid="clsid:02BF25D5-8C17-4B23-BC80-D3488ABDDC6B" classid="clsid:02BF25D5-8C17-4B23-BC80-D3488ABDDC6B"
codebase="http://www.apple.com/qtactivex/qtplugin.cab" codebase="http://www.apple.com/qtactivex/qtplugin.cab"
type="<?php echo $mimeType ?>"> type="'.$mimeType.'">
<param name="src" value="<?php echo $src ?>"/> <param name="src" value="'.$src.'"/>
<param name="autoplay" VALUE="true"/> <param name="autoplay" VALUE="true"/>
<param name="controller" VALUE="false"/> <param name="controller" VALUE="false"/>
<embed type="<?php echo $mimeType ?>" <embed type="'.$mimeType.'"
src="<?php echo $src ?>" src="'.$src.'"
pluginspage="http://www.apple.com/quicktime/download/" pluginspage="http://www.apple.com/quicktime/download/"
name="<?php echo validHtmlStr($title) ?>" name="'.$title.'" width="'.$width.'" height="'.$height.'"
width="<?php echo validInt($width) ?>"
height="<?php echo validInt($height) ?>"
autoplay="true" autoplay="true"
controller="true"> controller="true">
</embed> </embed>
</object> </object>';
<?php
$objectTag = true;
break;
} }
case "application/x-shockwave-flash" : case "application/x-shockwave-flash" :
{ {
?> return '<object id="'.$id.'" width="'.$width.'" height="'.$height.'"
<object id="<?php echo $id ?>" width="<?php echo $width ?>" height="<?php echo $height ?>"
classid="clsid:D27CDB6E-AE6D-11cf-96B8-444553540000" classid="clsid:D27CDB6E-AE6D-11cf-96B8-444553540000"
codebase="http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab#version=6,0,40,0" codebase="http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab#version=6,0,40,0"
type="<?php echo $mimeType ?>"> type="'.$mimeType.'">
<param name="movie" value="<?php echo $src ?>"/> <param name="movie" value="'.$src.'"/>
<param name="quality" value="high"/> <param name="quality" value="high"/>
<param name="bgcolor" value="#ffffff"/> <param name="bgcolor" value="#ffffff"/>
<embed type="<?php echo $mimeType ?>" <embed type="'.$mimeType.'"
pluginspage="http://www.macromedia.com/go/getflashplayer" pluginspage="http://www.macromedia.com/go/getflashplayer"
src="<?php echo $src ?>" src="'.$src.'"
name="<?php echo validHtmlStr($title) ?>" name="'.$title.'"
width="<?php echo validInt($width) ?>" width="'.$width.'"
height="<?php echo validInt($height) ?>" height="'.$height.'"
quality="high" quality="high"
bgcolor="#ffffff"> bgcolor="#ffffff">
</embed> </embed>
</object> </object>';
<?php
$objectTag = true;
break;
} }
} } # end switch
} } # end if use object tags
if ( !$objectTag ) return '<embed'. ( isset($mimeType)?(' type="'.$mimeType.'"'):'' ). '
{ src="'.$src.'"
?> name="'.$title.'"
<embed<?php echo isset($mimeType)?(' type="'.$mimeType.'"'):"" ?> width="'.$width.'"
src="<?php echo $src ?>" height="'.$height.'"
name="<?php echo validHtmlStr($title) ?>"
width="<?php echo validInt($width) ?>"
height="<?php echo validInt($height) ?>"
autostart="1" autostart="1"
autoplay="1" autoplay="1"
showcontrols="0" showcontrols="0"
controller="0"> controller="0">
</embed> </embed>';
<?php
}
} }
function outputImageStream( $id, $src, $width, $height, $title="" ) function outputImageStream( $id, $src, $width, $height, $title="" ) {
{ echo getImageStream( $id, $src, $width, $height, $title );
}
function getImageStream( $id, $src, $width, $height, $title="" ) {
if ( canStreamIframe() ) { if ( canStreamIframe() ) {
?> return '<iframe id="'.$id.'" src="'.$src.'" alt="'. validHtmlStr($title) .'" width="'. validInt($width)." height=".validInt($height).'"/>';
<iframe id="<?php echo $id ?>" src="<?php echo $src ?>" alt="<?php echo validHtmlStr($title) ?>" width="<?php echo $width ?>" height="<?php echo $height ?>"/>
<?php
} else { } else {
?> return '<img id="'.$id.'" src="'.$src.'" alt="'. validHtmlStr($title) .'" width="'. validInt($width) .'" height="'. validInt( $height ).'"/>';
<img id="<?php echo $id ?>" src="<?php echo $src ?>" alt="<?php echo validHtmlStr($title) ?>" width="<?php echo $width ?>" height="<?php echo $height ?>"/>
<?php
} }
} }
@ -1685,7 +1668,11 @@ function getDiskPercent()
Error("disk_total_space returned false for " . ZM_DIR_EVENTS ); Error("disk_total_space returned false for " . ZM_DIR_EVENTS );
return 0; return 0;
} }
$space = round(($total - disk_free_space(ZM_DIR_EVENTS)) / $total * 100); $free = disk_free_space(ZM_DIR_EVENTS);
if ( ! $free ) {
Error("disk_free_space returned false for " . ZM_DIR_EVENTS );
}
$space = round(($total - $free) / $total * 100);
return( $space ); return( $space );
} }
@ -2507,11 +2494,11 @@ function getStreamHTML( $monitor, $scale=100 ) {
//FIXME, the width and height of the image need to be scaled. //FIXME, the width and height of the image need to be scaled.
if ( ZM_WEB_STREAM_METHOD == 'mpeg' && ZM_MPEG_LIVE_FORMAT ) { if ( ZM_WEB_STREAM_METHOD == 'mpeg' && ZM_MPEG_LIVE_FORMAT ) {
$streamSrc = $monitor->getStreamSrc( array( "mode=mpeg", "scale=".$scale, "bitrate=".ZM_WEB_VIDEO_BITRATE, "maxfps=".ZM_WEB_VIDEO_MAXFPS, "format=".ZM_MPEG_LIVE_FORMAT ) ); $streamSrc = $monitor->getStreamSrc( array( "mode=mpeg", "scale=".$scale, "bitrate=".ZM_WEB_VIDEO_BITRATE, "maxfps=".ZM_WEB_VIDEO_MAXFPS, "format=".ZM_MPEG_LIVE_FORMAT ) );
outputVideoStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), ZM_MPEG_LIVE_FORMAT, $monitor->Name() ); return getVideoStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), ZM_MPEG_LIVE_FORMAT, $monitor->Name() );
} else if ( canStream() ) { } else if ( canStream() ) {
$streamSrc = $monitor->getStreamSrc( array( 'mode=jpeg', 'scale='.$scale, 'maxfps='.ZM_WEB_VIDEO_MAXFPS, 'buffer='.$monitor->StreamReplayBuffer() ) ); $streamSrc = $monitor->getStreamSrc( array( 'mode=jpeg', 'scale='.$scale, 'maxfps='.ZM_WEB_VIDEO_MAXFPS, 'buffer='.$monitor->StreamReplayBuffer() ) );
if ( canStreamNative() ) if ( canStreamNative() )
outputImageStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), $monitor->Name() ); return getImageStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), $monitor->Name() );
elseif ( canStreamApplet() ) elseif ( canStreamApplet() )
outputHelperStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), $monitor->Name() ); outputHelperStream( "liveStream", $streamSrc, reScale( $monitor->Width(), $scale ), reScale( $monitor->Height(), $scale ), $monitor->Name() );
} else { } else {

View File

@ -230,6 +230,7 @@ $SLANG = array(
'ChooseLogFormat' => 'Choose a log format', 'ChooseLogFormat' => 'Choose a log format',
'ChooseLogSelection' => 'Choose a log selection', 'ChooseLogSelection' => 'Choose a log selection',
'ChoosePreset' => 'Choose Preset', 'ChoosePreset' => 'Choose Preset',
'CloneMonitor' => 'Clone Monitor',
'Close' => 'Close', 'Close' => 'Close',
'Colour' => 'Colour', 'Colour' => 'Colour',
'Command' => 'Command', 'Command' => 'Command',

View File

@ -15,7 +15,6 @@
#menuBar1 { #menuBar1 {
width: 100%; width: 100%;
height: 1.5em;
padding: 3px 0; padding: 3px 0;
text-align: center; text-align: center;
clear: both; clear: both;
@ -41,7 +40,6 @@
#menuBar2 { #menuBar2 {
width: 100%; width: 100%;
height: 1.2em;
padding: 3px 0; padding: 3px 0;
margin-bottom: 4px; margin-bottom: 4px;
} }
@ -57,6 +55,16 @@
text-align: right; text-align: right;
} }
#menuBar1:after,
#menuBar2:after {
content: ".";
display: block;
height: 0;
font-size: 0;
clear: both;
visibility: hidden;
}
#imageFeed { #imageFeed {
text-align: center; text-align: center;
} }

View File

@ -15,12 +15,12 @@
#menuBar1 { #menuBar1 {
width: 100%; width: 100%;
height: 1.5em;
padding: 3px 0; padding: 3px 0;
text-align: center; text-align: center;
clear: both; clear: both;
} }
#menuBar1 #nameControl { #menuBar1 #nameControl {
float: left; float: left;
} }
@ -41,7 +41,6 @@
#menuBar2 { #menuBar2 {
width: 100%; width: 100%;
height: 1.2em;
padding: 3px 0; padding: 3px 0;
margin-bottom: 4px; margin-bottom: 4px;
} }
@ -56,6 +55,15 @@
float: right; float: right;
text-align: right; text-align: right;
} }
#menuBar1:after,
#menuBar2:after {
content: ".";
display: block;
height: 0;
font-size: 0;
clear: both;
visibility: hidden;
}
#imageFeed { #imageFeed {
text-align: center; text-align: center;

View File

@ -30,7 +30,7 @@ function getControlCommands( $monitor )
$cmds['PresetGoto'] = "presetGoto"; $cmds['PresetGoto'] = "presetGoto";
$cmds['PresetHome'] = "presetHome"; $cmds['PresetHome'] = "presetHome";
if ( !empty($monitor->CanZoom) ) if ( !empty($monitor->CanZoom()) )
{ {
if ( $monitor->CanZoomCon() ) if ( $monitor->CanZoomCon() )
$cmds['ZoomRoot'] = "zoomCon"; $cmds['ZoomRoot'] = "zoomCon";
@ -45,7 +45,7 @@ function getControlCommands( $monitor )
$cmds['ZoomMan'] = "zoomMan"; $cmds['ZoomMan'] = "zoomMan";
} }
if ( !empty($monitor->CanFocus) ) if ( !empty($monitor->CanFocus()) )
{ {
if ( $monitor->CanFocusCon() ) if ( $monitor->CanFocusCon() )
$cmds['FocusRoot'] = "focusCon"; $cmds['FocusRoot'] = "focusCon";
@ -60,7 +60,7 @@ function getControlCommands( $monitor )
$cmds['FocusMan'] = "focusMan"; $cmds['FocusMan'] = "focusMan";
} }
if ( !empty($monitor->CanIris) ) if ( !empty($monitor->CanIris()) )
{ {
if ( $monitor->CanIrisCon() ) if ( $monitor->CanIrisCon() )
$cmds['IrisRoot'] = "irisCon"; $cmds['IrisRoot'] = "irisCon";
@ -75,7 +75,7 @@ function getControlCommands( $monitor )
$cmds['IrisMan'] = "irisMan"; $cmds['IrisMan'] = "irisMan";
} }
if ( !empty($monitor->CanWhite) ) if ( !empty($monitor->CanWhite()) )
{ {
if ( $monitor->CanWhiteCon() ) if ( $monitor->CanWhiteCon() )
$cmds['WhiteRoot'] = "whiteCon"; $cmds['WhiteRoot'] = "whiteCon";
@ -89,7 +89,7 @@ function getControlCommands( $monitor )
$cmds['WhiteMan'] = "whiteMan"; $cmds['WhiteMan'] = "whiteMan";
} }
if ( !empty($monitor->CanGain) ) if ( !empty($monitor->CanGain()) )
{ {
if ( $monitor->CanGainCon() ) if ( $monitor->CanGainCon() )
$cmds['GainRoot'] = "gainCon"; $cmds['GainRoot'] = "gainCon";
@ -103,7 +103,7 @@ function getControlCommands( $monitor )
$cmds['GainMan'] = "gainMan"; $cmds['GainMan'] = "gainMan";
} }
if ( !empty($monitor->CanMove) ) if ( !empty($monitor->CanMove()) )
{ {
if ( $monitor->CanMoveCon() ) if ( $monitor->CanMoveCon() )
{ {
@ -246,9 +246,9 @@ function controlPanTilt( $monitor, $cmds )
<div class="pantiltLabel"><?php echo translate('PanTilt') ?></div> <div class="pantiltLabel"><?php echo translate('PanTilt') ?></div>
<div class="pantiltButtons"> <div class="pantiltButtons">
<?php <?php
$hasPan = $monitor->CanPan; $hasPan = $monitor->CanPan();
$hasTilt = $monitor->CanTilt; $hasTilt = $monitor->CanTilt();
$hasDiag = $hasPan && $hasTilt && $monitor->CanMoveDiag; $hasDiag = $hasPan && $hasTilt && $monitor->CanMoveDiag();
?> ?>
<div class="arrowBtn upLeftBtn<?php echo $hasDiag?'':' invisible' ?>" onclick="controlCmd('<?php echo $cmds['MoveUpLeft'] ?>',event,-1,-1)"></div> <div class="arrowBtn upLeftBtn<?php echo $hasDiag?'':' invisible' ?>" onclick="controlCmd('<?php echo $cmds['MoveUpLeft'] ?>',event,-1,-1)"></div>
<div class="arrowBtn upBtn<?php echo $hasTilt?'':' invisible' ?>" onclick="controlCmd('<?php echo $cmds['MoveUp'] ?>',event,0,-1)"></div> <div class="arrowBtn upBtn<?php echo $hasTilt?'':' invisible' ?>" onclick="controlCmd('<?php echo $cmds['MoveUp'] ?>',event,0,-1)"></div>
@ -278,7 +278,7 @@ function controlPresets( $monitor, $cmds )
$labels[$row['Preset']] = $row['Label']; $labels[$row['Preset']] = $row['Label'];
} }
$presetBreak = (int)(($monitor->NumPresets+1)/((int)(($monitor->NumPresets-1)/MAX_PRESETS)+1)); $presetBreak = (int)(($monitor->NumPresets()+1)/((int)(($monitor->NumPresets()-1)/MAX_PRESETS)+1));
ob_start(); ob_start();
?> ?>
@ -286,7 +286,7 @@ function controlPresets( $monitor, $cmds )
<!--<div><?php echo translate('Presets') ?></div>--> <!--<div><?php echo translate('Presets') ?></div>-->
<div> <div>
<?php <?php
for ( $i = 1; $i <= $monitor->NumPresets; $i++ ) for ( $i = 1; $i <= $monitor->NumPresets(); $i++ )
{ {
?><input type="button" class="ptzNumBtn" title="<?php echo isset($labels[$i])?$labels[$i]:"" ?>" value="<?php echo $i ?>" onclick="controlCmd('<?php echo $cmds['PresetGoto'] ?><?php echo $i ?>');"/><?php ?><input type="button" class="ptzNumBtn" title="<?php echo isset($labels[$i])?$labels[$i]:"" ?>" value="<?php echo $i ?>" onclick="controlCmd('<?php echo $cmds['PresetGoto'] ?><?php echo $i ?>');"/><?php
if ( $i && (($i%$presetBreak) == 0) ) if ( $i && (($i%$presetBreak) == 0) )

View File

@ -589,7 +589,6 @@ else if (document.layers) window.onload=start_slider;
function exportEventImagesMaster( $eids ) function exportEventImagesMaster( $eids )
{ {
global $SLANG;
ob_start(); ob_start();
exportHeader( translate('Images').' Master' ); exportHeader( translate('Images').' Master' );
?> ?>
@ -599,9 +598,9 @@ function exportEventImagesMaster( $eids )
foreach ($eids as $eid) { foreach ($eids as $eid) {
//get monitor id and event id //get monitor id and event id
$sql = 'SELECT E.MonitorId, E.StartTime, E.Id $sql = 'SELECT E.MonitorId, E.StartTime, E.Id
FROM Monitors AS M INNER JOIN Events AS E ON (M.Id = E.MonitorId) FROM Monitors AS M INNER JOIN Events AS E ON (M.Id = E.MonitorId)
WHERE E.Id = ? WHERE E.Id = ?
'; ';
$event = dbFetchOne( $sql, NULL, array( $eid ) ); $event = dbFetchOne( $sql, NULL, array( $eid ) );
$eventMonitorId[$eid] = $event['MonitorId']; $eventMonitorId[$eid] = $event['MonitorId'];
$eventPath[$eid] = mygetEventPath( $event ); $eventPath[$eid] = mygetEventPath( $event );

View File

@ -48,7 +48,7 @@ var popupSizes = {
'log': { 'width': 1080, 'height': 720 }, 'log': { 'width': 1080, 'height': 720 },
'login': { 'width': 720, 'height': 480 }, 'login': { 'width': 720, 'height': 480 },
'logout': { 'width': 260, 'height': 100 }, 'logout': { 'width': 260, 'height': 100 },
'monitor': { 'width': 450, 'height': 440 }, 'monitor': { 'width': 700, 'height': 640 },
'monitorpreset':{ 'width': 440, 'height': 200 }, 'monitorpreset':{ 'width': 440, 'height': 200 },
'monitorprobe': { 'width': 500, 'height': 240 }, 'monitorprobe': { 'width': 500, 'height': 240 },
'monitorselect':{ 'width': 160, 'height': 200 }, 'monitorselect':{ 'width': 160, 'height': 200 },

View File

@ -48,7 +48,7 @@ var popupSizes = {
'log': { 'width': 1080, 'height': 720 }, 'log': { 'width': 1080, 'height': 720 },
'login': { 'width': 720, 'height': 480 }, 'login': { 'width': 720, 'height': 480 },
'logout': { 'width': 260, 'height': 150 }, 'logout': { 'width': 260, 'height': 150 },
'monitor': { 'width': 600, 'height': 780 }, 'monitor': { 'width': 800, 'height': 780 },
'monitorpreset':{ 'width': 440, 'height': 200 }, 'monitorpreset':{ 'width': 440, 'height': 200 },
'monitorprobe': { 'width': 500, 'height': 240 }, 'monitorprobe': { 'width': 500, 'height': 240 },
'monitorselect':{ 'width': 160, 'height': 200 }, 'monitorselect':{ 'width': 160, 'height': 200 },

View File

@ -21,7 +21,7 @@ xhtmlHeaders( __FILE__, translate('Console') );
<th class="colName"><?php echo translate('Name') ?></th> <th class="colName"><?php echo translate('Name') ?></th>
<th class="colFunction"><?php echo translate('Function') ?></th> <th class="colFunction"><?php echo translate('Function') ?></th>
<?php if ( count($servers) ) { ?> <?php if ( count($servers) ) { ?>
<th class="colServer"><?php echo translate('Server') ?></th> <th class="colServer"><?php echo translate('Server') ?></th>
<?php } ?> <?php } ?>
<th class="colSource"><?php echo translate('Source') ?></th> <th class="colSource"><?php echo translate('Source') ?></th>
<?php if ( $show_storage_areas ) { ?> <?php if ( $show_storage_areas ) { ?>
@ -54,7 +54,9 @@ if ( canEdit('Monitors') )
if ( $show_storage_areas ) { $columns += 1; } if ( $show_storage_areas ) { $columns += 1; }
echo $columns; echo $columns;
?>"> ?>">
<input type="button" class="btn btn-default" value="<?php echo translate('AddNewMonitor'); ?>" onclick="createPopup( '?view=monitor', 'zmMonitor0', 'monitor' ); return( false );"></input> <input type="button" name="addBtn" value="<?php echo translate('AddNewMonitor') ?>" onclick="addMonitor( this )"/>
<!-- <?php echo makePopupButton( '?view=monitor', 'zmMonitor0', 'monitor', translate('AddNewMonitor'), (canEdit( 'Monitors' ) && !$user['MonitorIds']) ) ?> -->
</td> </td>
<?php <?php
for ( $i = 0; $i < count($eventCounts); $i++ ) for ( $i = 0; $i < count($eventCounts); $i++ )
@ -80,7 +82,7 @@ foreach( $displayMonitors as $monitor )
$dclass = "errorText"; $dclass = "errorText";
else else
{ {
// https://github.com/ZoneMinder/ZoneMinder/issues/1082 // https://github.com/ZoneMinder/ZoneMinder/issues/1082
if ( !$monitor['zma'] && $monitor['Function']!='Monitor' ) if ( !$monitor['zma'] && $monitor['Function']!='Monitor' )
$dclass = "warnText"; $dclass = "warnText";
else else
@ -99,7 +101,7 @@ foreach( $displayMonitors as $monitor )
<td class="colName"><?php echo makePopupLink( '?view=watch&amp;mid='.$monitor['Id'], 'zmWatch'.$monitor['Id'], array( 'watch', reScale( $monitor['Width'], $scale ), reScale( $monitor['Height'], $scale ) ), $monitor['Name'], $running && ($monitor['Function'] != 'None') && canView( 'Stream' ) ) ?></td> <td class="colName"><?php echo makePopupLink( '?view=watch&amp;mid='.$monitor['Id'], 'zmWatch'.$monitor['Id'], array( 'watch', reScale( $monitor['Width'], $scale ), reScale( $monitor['Height'], $scale ) ), $monitor['Name'], $running && ($monitor['Function'] != 'None') && canView( 'Stream' ) ) ?></td>
<td class="colFunction"><?php echo makePopupLink( '?view=function&amp;mid='.$monitor['Id'], 'zmFunction', 'function', '<span class="'.$fclass.'">'.translate('Fn'.$monitor['Function']).( empty($monitor['Enabled']) ? ', disabled' : '' ) .'</span>', canEdit( 'Monitors' ) ) ?></td> <td class="colFunction"><?php echo makePopupLink( '?view=function&amp;mid='.$monitor['Id'], 'zmFunction', 'function', '<span class="'.$fclass.'">'.translate('Fn'.$monitor['Function']).( empty($monitor['Enabled']) ? ', disabled' : '' ) .'</span>', canEdit( 'Monitors' ) ) ?></td>
<?php if ( count($servers) ) { ?> <?php if ( count($servers) ) { ?>
<td class="colServer"><?php <td class="colServer"><?php
$Server = new Server( $monitor['ServerId'] ); $Server = new Server( $monitor['ServerId'] );
echo $Server->Name(); echo $Server->Name();
?></td> ?></td>
@ -113,9 +115,9 @@ echo $Server->Name();
<?php } elseif ( $monitor['Type'] == "Ffmpeg" || $monitor['Type'] == "Libvlc" ) { <?php } elseif ( $monitor['Type'] == "Ffmpeg" || $monitor['Type'] == "Libvlc" ) {
$domain = parse_url( $monitor['Path'], PHP_URL_HOST ); $domain = parse_url( $monitor['Path'], PHP_URL_HOST );
$shortpath = $domain ? $domain : preg_replace( '/^.*\//', '', $monitor['Path'] ); $shortpath = $domain ? $domain : preg_replace( '/^.*\//', '', $monitor['Path'] );
if ( $shortpath == '' ) { if ( $shortpath == '' ) {
$shortpath = 'Monitor ' . $monitor['Id']; $shortpath = 'Monitor ' . $monitor['Id'];
} }
?> ?>
<td class="colSource"><?php echo makePopupLink( '?view=monitor&amp;mid='.$monitor['Id'], 'zmMonitor'.$monitor['Id'], 'monitor', '<span class="'.$dclass.'">'.$shortpath.'</span>', canEdit( 'Monitors' ) ) ?></td> <td class="colSource"><?php echo makePopupLink( '?view=monitor&amp;mid='.$monitor['Id'], 'zmMonitor'.$monitor['Id'], 'monitor', '<span class="'.$dclass.'">'.$shortpath.'</span>', canEdit( 'Monitors' ) ) ?></td>
<?php } elseif ( $monitor['Type'] == "cURL" ) { ?> <?php } elseif ( $monitor['Type'] == "cURL" ) { ?>

View File

@ -27,7 +27,7 @@ if ( !canView( 'Events' ) )
$eid = validInt( $_REQUEST['eid'] ); $eid = validInt( $_REQUEST['eid'] );
$fid = !empty($_REQUEST['fid'])?validInt($_REQUEST['fid']):1; $fid = !empty($_REQUEST['fid'])?validInt($_REQUEST['fid']):1;
$sql = 'SELECT E.*,M.Name AS MonitorName,M.Width,M.Height,M.DefaultRate,M.DefaultScale,M.VideoWriter,M.SaveJPEGs,M.Orientation,M.LabelFormat FROM Events AS E INNER JOIN Monitors AS M ON E.MonitorId = M.Id WHERE E.Id = ?'; $sql = 'SELECT E.*,M.Name AS MonitorName,E.Width,E.Height,M.DefaultRate,M.DefaultScale,M.VideoWriter,M.SaveJPEGs,M.Orientation,M.LabelFormat FROM Events AS E INNER JOIN Monitors AS M ON E.MonitorId = M.Id WHERE E.Id = ?';
$sql_values = array( $eid ); $sql_values = array( $eid );
if ( $user['MonitorIds'] ) { if ( $user['MonitorIds'] ) {

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