ZaneYork
/
zoneminder
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

whitespace/tabs updates

This commit is contained in:
Isaac Connor 2017-01-08 16:12:19 -05:00
parent d63df84c98
commit fcc507b93e
6 changed files with 5207 additions and 5207 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2378
src/zm_event.cpp
View File

File diff suppressed because it is too large Load Diff

290
src/zm_event.h
View File

@ -41,193 +41,193 @@
class Zone;
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 Event
{
friend class EventStream;
friend class EventStream;
protected:
static bool initialised;
static char capture_file_format[PATH_MAX];
static char analyse_file_format[PATH_MAX];
static char general_file_format[PATH_MAX];
protected:
static bool initialised;
static char capture_file_format[PATH_MAX];
static char analyse_file_format[PATH_MAX];
static char general_file_format[PATH_MAX];
protected:
static int sd;
protected:
static int sd;
public:
typedef std::set<std::string> StringSet;
typedef std::map<std::string,StringSet> StringSetMap;
public:
typedef std::set<std::string> StringSet;
typedef std::map<std::string,StringSet> StringSetMap;
protected:
typedef enum { NORMAL, BULK, ALARM } FrameType;
protected:
typedef enum { NORMAL, BULK, ALARM } FrameType;
struct PreAlarmData
{
Image *image;
struct timeval timestamp;
unsigned int score;
Image *alarm_frame;
};
struct PreAlarmData
{
Image *image;
struct timeval timestamp;
unsigned int score;
Image *alarm_frame;
};
static int pre_alarm_count;
static PreAlarmData pre_alarm_data[MAX_PRE_ALARM_FRAMES];
static int pre_alarm_count;
static PreAlarmData pre_alarm_data[MAX_PRE_ALARM_FRAMES];
protected:
unsigned int id;
Monitor *monitor;
struct timeval start_time;
struct timeval end_time;
std::string cause;
StringSetMap noteSetMap;
int frames;
int alarm_frames;
unsigned int tot_score;
unsigned int max_score;
char path[PATH_MAX];
protected:
unsigned int id;
Monitor *monitor;
struct timeval start_time;
struct timeval end_time;
std::string cause;
StringSetMap noteSetMap;
int frames;
int alarm_frames;
unsigned int tot_score;
unsigned int max_score;
char path[PATH_MAX];
protected:
int last_db_frame;
protected:
int last_db_frame;
protected:
static void Initialise()
{
if ( initialised )
return;
protected:
static void Initialise()
{
if ( initialised )
return;
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( general_file_format, sizeof(general_file_format), "%%s/%%0%dd-%%s", 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( general_file_format, sizeof(general_file_format), "%%s/%%0%dd-%%s", config.event_image_digits );
initialised = true;
}
initialised = true;
}
void createNotes( std::string &notes );
void createNotes( std::string &notes );
public:
static bool OpenFrameSocket( int );
static bool ValidateFrameSocket( int );
public:
static bool OpenFrameSocket( int );
static bool ValidateFrameSocket( int );
public:
Event( Monitor *p_monitor, struct timeval p_start_time, const std::string &p_cause, const StringSetMap &p_noteSetMap );
~Event();
public:
Event( Monitor *p_monitor, struct timeval p_start_time, const std::string &p_cause, const StringSetMap &p_noteSetMap );
~Event();
int Id() const { return( id ); }
const std::string &Cause() { return( cause ); }
int Frames() const { return( frames ); }
int AlarmFrames() const { return( alarm_frames ); }
int Id() const { return( id ); }
const std::string &Cause() { return( cause ); }
int Frames() const { return( frames ); }
int AlarmFrames() const { return( alarm_frames ); }
const struct timeval &StartTime() const { return( start_time ); }
const struct timeval &EndTime() const { return( end_time ); }
struct timeval &EndTime() { return( end_time ); }
const struct timeval &StartTime() const { return( start_time ); }
const struct timeval &EndTime() const { return( end_time ); }
struct timeval &EndTime() { return( end_time ); }
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 SendFrameImage( const Image *image, bool alarm_frame=false );
bool WriteFrameImage( Image *image, struct timeval timestamp, const char *event_file, bool alarm_frame=false );
void updateNotes( const StringSetMap &stringSetMap );
void updateNotes( const StringSetMap &stringSetMap );
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 AddFrames( int n_frames, Image **images, struct timeval **timestamps );
void AddFrame( Image *image, struct timeval timestamp, int score=0, Image *alarm_frame=NULL );
private:
void AddFramesInternal( int n_frames, int start_frame, Image **images, struct timeval **timestamps );
private:
void AddFramesInternal( int n_frames, int start_frame, Image **images, struct timeval **timestamps );
public:
static const char *getSubPath( struct tm *time )
public:
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 ) ) );
}
public:
static int PreAlarmCount()
{
return( pre_alarm_count );
}
static void EmptyPreAlarmFrames()
{
if ( pre_alarm_count > 0 )
{
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 );
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) );
}
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 );
}
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();
}
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
{
public:
public:
protected:
protected:
struct FrameData {
//unsigned long id;
time_t timestamp;
time_t offset;
double delta;
bool in_db;
//unsigned long id;
time_t timestamp;
time_t offset;
double delta;
bool in_db;
};
struct EventData
{
unsigned long event_id;
unsigned long monitor_id;
unsigned long frame_count;
time_t start_time;
double duration;
char path[PATH_MAX];
int n_frames;
FrameData *frames;
unsigned long event_id;
unsigned long monitor_id;
unsigned long frame_count;
time_t start_time;
double duration;
char path[PATH_MAX];
int n_frames;
FrameData *frames;
};
protected:
protected:
static const int STREAM_PAUSE_WAIT = 250000; // Microseconds
static const StreamMode DEFAULT_MODE = SINGLE;
protected:
protected:
StreamMode mode;
bool forceEventChange;
protected:
protected:
int curr_frame_id;
double curr_stream_time;
EventData *event_data;
protected:
protected:
bool loadEventData( int event_id );
bool loadInitialEventData( int init_event_id, int init_frame_id );
bool loadInitialEventData( int monitor_id, time_t event_time );
@ -236,31 +236,31 @@ protected:
void processCommand( const CmdMsg *msg );
bool sendFrame( int delta_us );
public:
public:
EventStream()
{
mode = DEFAULT_MODE;
mode = DEFAULT_MODE;
forceEventChange = false;
forceEventChange = false;
curr_frame_id = 0;
curr_stream_time = 0.0;
curr_frame_id = 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, int init_frame_id=0 )
{
loadInitialEventData( init_event_id, init_frame_id );
loadMonitor( event_data->monitor_id );
loadInitialEventData( init_event_id, init_frame_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 );
loadMonitor( monitor_id );
loadInitialEventData( monitor_id, event_time );
loadMonitor( monitor_id );
}
void setStreamMode( StreamMode p_mode )
{
mode = p_mode;
mode = p_mode;
}
void runStream();
};

7148
src/zm_monitor.cpp
View File

File diff suppressed because it is too large Load Diff

486
src/zm_stream.cpp
View File

@ -28,299 +28,299 @@
StreamBase::~StreamBase()
{
#if HAVE_LIBAVCODEC
if ( vid_stream )
{
delete vid_stream;
vid_stream = NULL;
}
if ( vid_stream )
{
delete vid_stream;
vid_stream = NULL;
}
#endif
closeComms();
closeComms();
}
bool StreamBase::loadMonitor( int monitor_id )
{
if ( !(monitor = Monitor::Load( monitor_id, false, Monitor::QUERY )) )
{
Fatal( "Unable to load monitor id %d for streaming", monitor_id );
return( false );
}
monitor->connect();
return( true );
if ( !(monitor = Monitor::Load( monitor_id, false, Monitor::QUERY )) )
{
Fatal( "Unable to load monitor id %d for streaming", monitor_id );
return( false );
}
monitor->connect();
return( true );
}
bool StreamBase::checkInitialised()
{
if ( !monitor )
{
Fatal( "Cannot stream, not initialised" );
return( false );
}
return( true );
if ( !monitor )
{
Fatal( "Cannot stream, not initialised" );
return( false );
}
return( true );
}
void StreamBase::updateFrameRate( double fps )
{
base_fps = fps;
effective_fps = (base_fps*abs(replay_rate))/ZM_RATE_BASE;
frame_mod = 1;
Debug( 3, "FPS:%.2f, MXFPS:%.2f, BFPS:%.2f, EFPS:%.2f, FM:%d", fps, maxfps, base_fps, effective_fps, frame_mod );
// Min frame repeat?
while( effective_fps > maxfps )
{
effective_fps /= 2.0;
frame_mod *= 2;
}
Debug( 3, "aEFPS:%.2f, aFM:%d", effective_fps, frame_mod );
base_fps = fps;
effective_fps = (base_fps*abs(replay_rate))/ZM_RATE_BASE;
frame_mod = 1;
Debug( 3, "FPS:%.2f, MXFPS:%.2f, BFPS:%.2f, EFPS:%.2f, FM:%d", fps, maxfps, base_fps, effective_fps, frame_mod );
// Min frame repeat?
while( effective_fps > maxfps )
{
effective_fps /= 2.0;
frame_mod *= 2;
}
Debug( 3, "aEFPS:%.2f, aFM:%d", effective_fps, frame_mod );
}
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;
memset( &msg, 0, sizeof(msg) );
int nbytes = recvfrom( sd, &msg, sizeof(msg), MSG_DONTWAIT, 0, 0 );
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 );
}
if ( errno != EAGAIN )
{
Fatal( "recvfrom(), errno = %d, error = %s", errno, strerror(errno) );
}
}
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 )
{
static int last_scale = 0;
static int last_zoom = 0;
static int last_x = 0;
static int last_y = 0;
static int last_scale = 0;
static int last_zoom = 0;
static int last_x = 0;
static int last_y = 0;
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 );
}
if ( !last_scale )
last_scale = scale;
if ( !last_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 )
{
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.Annotate( frame_text, image.centreCoord( frame_text ) );
Image image( monitor->Width(), monitor->Height(), monitor->Colours(), monitor->SubpixelOrder() );
image.Annotate( frame_text, image.centreCoord( frame_text ) );
if ( scale != 100 )
{
image.Scale( scale );
}
if ( scale != 100 )
{
image.Scale( scale );
}
#if HAVE_LIBAVCODEC
if ( type == MPEG )
if ( type == 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->OpenStream();
}
/* double pts = */ vid_stream->EncodeFrame( image.Buffer(), image.Size() );
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->OpenStream();
}
else
/* double pts = */ vid_stream->EncodeFrame( image.Buffer(), image.Size() );
}
else
#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];
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 )
{
Error( "Unable to send stream text frame: %s", strerror(errno) );
return( false );
}
fprintf( stdout, "\r\n\r\n" );
fflush( stdout );
Error( "Unable to send stream text frame: %s", strerror(errno) );
return( false );
}
last_frame_sent = TV_2_FLOAT( now );
return( true );
fprintf( stdout, "\r\n\r\n" );
fflush( stdout );
}
last_frame_sent = TV_2_FLOAT( now );
return( true );
}
void StreamBase::openComms()
{
if ( connkey > 0 )
if ( connkey > 0 )
{
sd = socket( AF_UNIX, SOCK_DGRAM, 0 );
if ( sd < 0 )
{
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;
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()
{
if ( connkey > 0 )
if ( connkey > 0 )
{
if ( sd >= 0 )
{
if ( sd >= 0 )
{
close( sd );
sd = -1;
}
if ( loc_sock_path[0] )
{
unlink( loc_sock_path );
}
close( sd );
sd = -1;
}
if ( loc_sock_path[0] )
{
unlink( loc_sock_path );
}
}
}

110
src/zm_stream.h
View File

@ -32,11 +32,11 @@ class Monitor;
class StreamBase
{
public:
public:
typedef enum { JPEG, RAW, ZIP, MPEG } StreamType;
typedef enum { SINGLE, STREAM, ALL, ALL_GAPLESS } StreamMode;
typedef enum { SINGLE, STREAM, ALL, ALL_GAPLESS } StreamMode;
protected:
protected:
static const int MAX_STREAM_DELAY = 5; // Seconds
static const StreamType DEFAULT_TYPE = JPEG;
@ -46,25 +46,25 @@ protected:
enum { DEFAULT_MAXFPS=10 };
enum { DEFAULT_BITRATE=100000 };
protected:
protected:
typedef struct {
int msg_type;
char msg_data[16];
int msg_type;
char msg_data[16];
} CmdMsg;
typedef struct {
int msg_type;
char msg_data[256];
int msg_type;
char msg_data[256];
} DataMsg;
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_QUERY=99 } MsgCommand;
protected:
protected:
Monitor *monitor;
StreamType type;
StreamMode mode;
StreamMode mode;
const char *format; // used to pass to ffmpeg libs
int replay_rate;
int scale;
@ -73,15 +73,15 @@ protected:
int bitrate;
unsigned short x, y;
protected:
protected:
int connkey;
int sd;
char loc_sock_path[PATH_MAX];
char loc_sock_path[PATH_MAX];
struct sockaddr_un loc_addr;
char rem_sock_path[PATH_MAX];
char rem_sock_path[PATH_MAX];
struct sockaddr_un rem_addr;
protected:
protected:
bool paused;
int step;
@ -100,7 +100,7 @@ protected:
CmdMsg msg;
protected:
protected:
bool loadMonitor( int monitor_id );
bool checkInitialised();
void updateFrameRate( double fps );
@ -109,73 +109,73 @@ protected:
bool checkCommandQueue();
virtual void processCommand( const CmdMsg *msg )=0;
public:
public:
StreamBase()
{
monitor = 0;
monitor = 0;
type = DEFAULT_TYPE;
mode = STREAM;
format = "";
replay_rate = DEFAULT_RATE;
scale = DEFAULT_SCALE;
zoom = DEFAULT_ZOOM;
maxfps = DEFAULT_MAXFPS;
bitrate = DEFAULT_BITRATE;
type = DEFAULT_TYPE;
mode = STREAM;
format = "";
replay_rate = DEFAULT_RATE;
scale = DEFAULT_SCALE;
zoom = DEFAULT_ZOOM;
maxfps = DEFAULT_MAXFPS;
bitrate = DEFAULT_BITRATE;
paused = false;
step = 0;
x = 0;
y = 0;
paused = false;
step = 0;
x = 0;
y = 0;
connkey = 0;
sd = -1;
memset( &loc_sock_path, 0, sizeof(loc_sock_path) );
memset( &loc_addr, 0, sizeof(loc_addr) );
memset( &rem_sock_path, 0, sizeof(rem_sock_path) );
memset( &rem_addr, 0, sizeof(rem_addr) );
connkey = 0;
sd = -1;
memset( &loc_sock_path, 0, sizeof(loc_sock_path) );
memset( &loc_addr, 0, sizeof(loc_addr) );
memset( &rem_sock_path, 0, sizeof(rem_sock_path) );
memset( &rem_addr, 0, sizeof(rem_addr) );
base_fps = 0.0;
effective_fps = 0.0;
frame_mod = 1;
base_fps = 0.0;
effective_fps = 0.0;
frame_mod = 1;
#if HAVE_LIBAVCODEC
vid_stream = 0;
vid_stream = 0;
#endif // HAVE_LIBAVCODEC
}
virtual ~StreamBase();
void setStreamType( StreamType p_type )
void setStreamType( StreamType p_type )
{
type = p_type;
type = p_type;
}
void setStreamMode( StreamMode p_mode )
void setStreamMode( StreamMode p_mode )
{
mode = p_mode;
mode = p_mode;
}
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 closeComms();

2
web/api/app/Plugin/Crud

@ -1 +1 @@
Subproject commit e22c1563a51d86aac0d5054beee28b4afb60c802
Subproject commit c3976f1478c681b0bbc132ec3a3e82c3984eeed5