// // ZoneMinder Monitor Class Implementation, $Date$, $Revision$ // Copyright (C) 2003 Philip Coombes // // 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. // #include #include #include "zm.h" #include "zm_db.h" #include "zm_mpeg.h" #include "zm_monitor.h" #include "zm_local_camera.h" #include "zm_remote_camera.h" bool Monitor::initialised = false; bool Monitor::record_event_stats; bool Monitor::record_diag_images; bool Monitor::opt_adaptive_skip; bool Monitor::create_analysis_images; bool Monitor::blend_alarmed_images; bool Monitor::timestamp_on_capture; int Monitor::bulk_frame_interval; Monitor::Monitor( int p_id, char *p_name, int p_function, int p_device, int p_channel, int p_format, int p_width, int p_height, int p_palette, int p_orientation, char *p_label_format, const Coord &p_label_coord, int p_image_buffer_count, int p_warmup_count, int p_pre_event_count, int p_post_event_count, int p_section_length, int p_frame_skip, int p_capture_delay, int p_fps_report_interval, int p_ref_blend_perc, Purpose p_purpose, int p_n_zones, Zone *p_zones[] ) : id( p_id ), function( (Function)p_function ), width( p_width ), height( p_height ), orientation( (Orientation)p_orientation ), label_coord( p_label_coord ), image_buffer_count( p_image_buffer_count ), warmup_count( p_warmup_count ), pre_event_count( p_pre_event_count ), post_event_count( p_post_event_count ), section_length( p_section_length ), frame_skip( p_frame_skip ), capture_delay( p_capture_delay ), fps_report_interval( p_fps_report_interval ), ref_blend_perc( p_ref_blend_perc ), image( width, height, (p_palette==VIDEO_PALETTE_GREY?1:3) ), ref_image( width, height, (p_palette==VIDEO_PALETTE_GREY?1:3) ), purpose( p_purpose ), n_zones( p_n_zones ), zones( p_zones ) { name = new char[strlen(p_name)+1]; strcpy( name, p_name ); strncpy( label_format, p_label_format, sizeof(label_format) ); camera = new LocalCamera( p_device, p_channel, p_format, (p_orientation%2)?width:height, (orientation%2)?height:width, p_palette, purpose==CAPTURE ); Setup(); } Monitor::Monitor( int p_id, char *p_name, int p_function, const char *p_host, const char *p_port, const char *p_path, int p_width, int p_height, int p_palette, int p_orientation, char *p_label_format, const Coord &p_label_coord, int p_image_buffer_count, int p_warmup_count, int p_pre_event_count, int p_post_event_count, int p_section_length, int p_frame_skip, int p_capture_delay, int p_fps_report_interval, int p_ref_blend_perc, Purpose p_purpose, int p_n_zones, Zone *p_zones[] ) : id( p_id ), function( (Function)p_function ), width( p_width ), height( p_height ), orientation( (Orientation)p_orientation ), label_coord( p_label_coord ), image_buffer_count( p_image_buffer_count ), warmup_count( p_warmup_count ), pre_event_count( p_pre_event_count ), post_event_count( p_post_event_count ), section_length( p_section_length ), frame_skip( p_frame_skip ), capture_delay( p_capture_delay ), fps_report_interval( p_fps_report_interval ), ref_blend_perc( p_ref_blend_perc ), image( width, height, (p_palette==VIDEO_PALETTE_GREY?1:3) ), ref_image( width, height, (p_palette==VIDEO_PALETTE_GREY?1:3) ), purpose( p_purpose ), n_zones( p_n_zones ), zones( p_zones ) { name = new char[strlen(p_name)+1]; strcpy( name, p_name ); strncpy( label_format, p_label_format, sizeof(label_format) ); camera = new RemoteCamera( p_host, p_port, p_path, (p_orientation%2)?width:height, (orientation%2)?height:width, p_palette, purpose==CAPTURE ); Setup(); } Monitor::~Monitor() { if ( event ) { if ( function == RECORD || function == MOCORD ) { gettimeofday( &(event->EndTime()), &dummy_tz ); } delete event; } delete[] image_buffer; if ( purpose == ANALYSIS ) { shared_data->state = state = IDLE; shared_data->last_read_index = image_buffer_count; } struct shmid_ds shm_data; if ( shmctl( shmid, IPC_STAT, &shm_data ) ) { Error(( "Can't shmctl: %s", strerror(errno))); exit( -1 ); } if ( shm_data.shm_nattch <= 1 ) { if ( shmctl( shmid, IPC_RMID, 0 ) ) { Error(( "Can't shmctl: %s", strerror(errno))); exit( -1 ); } } } void Monitor::Setup() { if ( !initialised ) Initialise(); fps = 0.0; event_count = 0; image_count = 0; first_alarm_count = 0; last_alarm_count = 0; state = IDLE; Debug( 1, ( "monitor purpose=%d", purpose )); int shared_data_size = sizeof(SharedData)+(image_buffer_count*sizeof(time_t))+(image_buffer_count*camera->ImageSize()); Debug( 1, ( "shm.size=%d", shared_data_size )); shmid = shmget( (int)config.Item( ZM_SHM_KEY )|id, shared_data_size, IPC_CREAT|0700 ); if ( shmid < 0 ) { Error(( "Can't shmget: %s", strerror(errno))); exit( -1 ); } unsigned char *shm_ptr = (unsigned char *)shmat( shmid, 0, 0 ); shared_data = (SharedData *)shm_ptr; if ( shared_data < 0 ) { Error(( "Can't shmat: %s", strerror(errno))); exit( -1 ); } if ( purpose == CAPTURE ) { memset( shared_data, 0, shared_data_size ); shared_data->valid = true; shared_data->state = IDLE; shared_data->force_state = FORCE_NEUTRAL; shared_data->last_write_index = image_buffer_count; shared_data->last_read_index = image_buffer_count; shared_data->last_image_time = 0; shared_data->last_event = 0; shared_data->action = (Action)0; shared_data->brightness = -1; shared_data->hue = -1; shared_data->colour = -1; shared_data->contrast = -1; } if ( !shared_data->valid ) { Error(( "Shared memory not initialised by capture daemon" )); exit( -1 ); } struct timeval *shared_timestamps = (struct timeval *)(shm_ptr+sizeof(SharedData)); unsigned char *shared_images = (unsigned char *)(shm_ptr+sizeof(SharedData)+(image_buffer_count*sizeof(struct timeval))); image_buffer = new Snapshot[image_buffer_count]; for ( int i = 0; i < image_buffer_count; i++ ) { image_buffer[i].timestamp = &(shared_timestamps[i]); image_buffer[i].image = new Image( width, height, camera->Colours(), &(shared_images[i*camera->ImageSize()]) ); } if ( !n_zones ) { n_zones = 1; zones = new Zone *[1]; zones[0] = new Zone( this, 0, "All", Zone::ACTIVE, Box( width, height ), RGB_RED, Zone::BLOBS ); } start_time = last_fps_time = time( 0 ); event = 0; Debug( 1, ( "Monitor %s has function %d", name, function )); Debug( 1, ( "Monitor %s LBF = '%s', LBX = %d, LBY = %d", name, label_format, label_coord.X(), label_coord.Y() )); Debug( 1, ( "Monitor %s IBC = %d, WUC = %d, pEC = %d, PEC = %d, FRI = %d, RBP = %d", name, image_buffer_count, warmup_count, pre_event_count, post_event_count, fps_report_interval, ref_blend_perc )); if ( purpose == ANALYSIS ) { static char path[PATH_MAX]; strncpy( path, (const char *)config.Item( ZM_DIR_EVENTS ), sizeof(path) ); struct stat statbuf; errno = 0; stat( path, &statbuf ); if ( errno == ENOENT || errno == ENOTDIR ) { if ( mkdir( path, 0755 ) ) { Error(( "Can't make %s: %s", path, strerror(errno))); } } snprintf( path, sizeof(path), "%s/%s", (const char *)config.Item( ZM_DIR_EVENTS ), name ); errno = 0; stat( path, &statbuf ); if ( errno == ENOENT || errno == ENOTDIR ) { if ( mkdir( path, 0755 ) ) { Error(( "Can't make %s: %s", path, strerror(errno))); } } while( shared_data->last_write_index == image_buffer_count ) { Warning(( "Waiting for capture daemon" )); sleep( 1 ); } ref_image.Assign( width, height, camera->Colours(), image_buffer[shared_data->last_write_index].image->Buffer() ); } } void Monitor::AddZones( int p_n_zones, Zone *p_zones[] ) { n_zones = p_n_zones; zones = p_zones; } Monitor::State Monitor::GetState() const { return( shared_data->state ); } int Monitor::GetImage( int index, int scale ) const { if ( index < 0 || index > image_buffer_count ) { index = shared_data->last_write_index; } Snapshot *snap = &image_buffer[index]; Image snap_image( *(snap->image) ); if ( scale != 100 ) { snap_image.Scale( scale ); } static char filename[PATH_MAX]; snprintf( filename, sizeof(filename), "%s.jpg", name ); if ( !timestamp_on_capture ) { TimestampImage( &snap_image, snap->timestamp->tv_sec ); } snap_image.WriteJpeg( filename ); return( 0 ); } struct timeval Monitor::GetTimestamp( int index ) const { if ( index < 0 || index > image_buffer_count ) { index = shared_data->last_write_index; } Snapshot *snap = &image_buffer[index]; return( *(snap->timestamp) ); } unsigned int Monitor::GetLastReadIndex() const { return( shared_data->last_read_index ); } unsigned int Monitor::GetLastWriteIndex() const { return( shared_data->last_write_index ); } unsigned int Monitor::GetLastEvent() const { return( shared_data->last_event ); } double Monitor::GetFPS() const { int index1 = shared_data->last_write_index; Snapshot *snap1 = &image_buffer[index1]; if ( !snap1->timestamp || !snap1->timestamp->tv_sec ) { return( 0.0 ); } time_t time1 = snap1->timestamp->tv_sec; int image_count = image_buffer_count; int index2 = (index1+1)%image_buffer_count; Snapshot *snap2 = &image_buffer[index2]; while ( !snap2->timestamp || !snap2->timestamp->tv_sec || time1 == snap2->timestamp->tv_sec ) { if ( index1 == index2 ) { return( 0.0 ); } index2 = (index2+1)%image_buffer_count; snap2 = &image_buffer[index2]; image_count--; } time_t time2 = snap2->timestamp->tv_sec; double curr_fps = double(image_count)/(time1-time2); return( curr_fps ); } void Monitor::ForceAlarmOn() { shared_data->force_state = FORCE_ON; } void Monitor::ForceAlarmOff() { shared_data->force_state = FORCE_OFF; } void Monitor::CancelForced() { shared_data->force_state = FORCE_NEUTRAL; } int Monitor::Brightness( int p_brightness ) { if ( purpose != CAPTURE ) { if ( p_brightness >= 0 ) { shared_data->brightness = p_brightness; shared_data->action |= SET_SETTINGS; int wait_loops = 10; while ( shared_data->action & SET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } else { shared_data->action |= GET_SETTINGS; int wait_loops = 10; while ( shared_data->action & GET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } return( shared_data->brightness ); } return( camera->Brightness( p_brightness ) ); } int Monitor::Contrast( int p_contrast ) { if ( purpose != CAPTURE ) { if ( p_contrast >= 0 ) { shared_data->contrast = p_contrast; shared_data->action |= SET_SETTINGS; int wait_loops = 10; while ( shared_data->action & SET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } else { shared_data->action |= GET_SETTINGS; int wait_loops = 10; while ( shared_data->action & GET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } return( shared_data->contrast ); } return( camera->Contrast( p_contrast ) ); } int Monitor::Hue( int p_hue ) { if ( purpose != CAPTURE ) { if ( p_hue >= 0 ) { shared_data->hue = p_hue; shared_data->action |= SET_SETTINGS; int wait_loops = 10; while ( shared_data->action & SET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } else { shared_data->action |= GET_SETTINGS; int wait_loops = 10; while ( shared_data->action & GET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } return( shared_data->hue ); } return( camera->Hue( p_hue ) ); } int Monitor::Colour( int p_colour ) { if ( purpose != CAPTURE ) { if ( p_colour >= 0 ) { shared_data->colour = p_colour; shared_data->action |= SET_SETTINGS; int wait_loops = 10; while ( shared_data->action & SET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } else { shared_data->action |= GET_SETTINGS; int wait_loops = 10; while ( shared_data->action & GET_SETTINGS ) { if ( wait_loops-- ) usleep( 100000 ); else return( -1 ); } } return( shared_data->colour ); } return( camera->Colour( p_colour ) ); } void Monitor::DumpZoneImage() { int index = shared_data->last_write_index; Snapshot *snap = &image_buffer[index]; Image *snap_image = snap->image; Image zone_image( *snap_image ); zone_image.Colourise(); for( int i = 0; i < n_zones; i++ ) { Rgb colour; if ( zones[i]->IsActive() ) { colour = RGB_RED; } else if ( zones[i]->IsInclusive() ) { colour = RGB_GREEN; } else if ( zones[i]->IsExclusive() ) { colour = RGB_BLUE; } else if ( zones[i]->IsPreclusive() ) { colour = RGB_BLACK; } else { colour = RGB_WHITE; } zone_image.Hatch( colour, &(zones[i]->Limits()) ); } static char filename[PATH_MAX]; snprintf( filename, sizeof(filename), "%s-Zones.jpg", name ); zone_image.WriteJpeg( filename ); } void Monitor::DumpImage( Image *dump_image ) const { if ( image_count && !(image_count%10) ) { static char filename[PATH_MAX]; static char new_filename[PATH_MAX]; snprintf( filename, sizeof(filename), "%s.jpg", name ); snprintf( new_filename, sizeof(new_filename), "%s-new.jpg", name ); dump_image->WriteJpeg( new_filename ); rename( new_filename, filename ); } } bool Monitor::Analyse() { if ( shared_data->last_read_index == shared_data->last_write_index ) { return( false ); } struct timeval now; gettimeofday( &now, &dummy_tz ); if ( image_count && !(image_count%fps_report_interval) ) { fps = double(fps_report_interval)/(now.tv_sec-last_fps_time); Info(( "%s: %d - Processing at %.2f fps", name, image_count, fps )); last_fps_time = now.tv_sec; } int index; if ( opt_adaptive_skip ) { int read_margin = shared_data->last_read_index - shared_data->last_write_index; if ( read_margin < 0 ) read_margin += image_buffer_count; int step = 1; if ( read_margin > 0 ) { step = (9*image_buffer_count)/(5*read_margin); } int pending_frames = shared_data->last_write_index - shared_data->last_read_index; if ( pending_frames < 0 ) pending_frames += image_buffer_count; Debug( 4, ( "RI:%d, WI: %d, PF = %d, RM = %d, Step = %d", shared_data->last_read_index, shared_data->last_write_index, pending_frames, read_margin, step )); if ( step <= pending_frames ) { index = (shared_data->last_read_index+step)%image_buffer_count; } else { if ( pending_frames ) { Warning(( "Approaching buffer overrun, consider increasing ring buffer size" )); } index = shared_data->last_write_index%image_buffer_count; } } else { index = shared_data->last_write_index%image_buffer_count; } Snapshot *snap = &image_buffer[index]; struct timeval *timestamp = snap->timestamp; Image *snap_image = snap->image; static struct timeval **timestamps; static Image **images; static int last_section_mod = 0; unsigned int score = 0; if ( Ready() ) { if ( function != RECORD && shared_data->force_state != FORCE_OFF ) score = Compare( *snap_image ); if ( shared_data->force_state == FORCE_ON ) score = (int)config.Item( ZM_FORCED_ALARM_SCORE ); if ( function == RECORD || function == MOCORD ) { if ( event ) { if ( state == IDLE || state == TAPE ) { int section_mod = timestamp->tv_sec%section_length; if ( section_mod < last_section_mod ) { Info(( "Ended event" )); gettimeofday( &(event->EndTime()), &dummy_tz ); delete event; event = 0; last_section_mod = 0; } else { last_section_mod = section_mod; } } } if ( !event ) { // Create event event = new Event( this, *timestamp ); Info(( "%s: %03d - Starting new event", name, image_count )); //if ( (bool)config.Item( ZM_OVERLAP_TIMED_EVENTS ) ) if ( true ) { int pre_index = ((index+image_buffer_count)-pre_event_count)%image_buffer_count; if ( !timestamps ) timestamps = new struct timeval *[pre_event_count]; if ( !images ) images = new Image *[pre_event_count]; for ( int i = 0; i < pre_event_count; i++ ) { timestamps[i] = image_buffer[pre_index].timestamp; images[i] = image_buffer[pre_index].image; pre_index = (pre_index+1)%image_buffer_count; } event->AddFrames( pre_event_count, images, timestamps ); } shared_data->state = state = TAPE; } } if ( score ) { if ( state == IDLE || state == TAPE ) { Info(( "%s: %03d - Gone into alarm state", name, image_count )); if ( function != MOCORD ) { event = new Event( this, *timestamp ); int pre_index = ((index+image_buffer_count)-pre_event_count)%image_buffer_count; if ( !timestamps ) timestamps = new struct timeval *[pre_event_count]; if ( !images ) images = new Image *[pre_event_count]; for ( int i = 0; i < pre_event_count; i++ ) { timestamps[i] = image_buffer[pre_index].timestamp; images[i] = image_buffer[pre_index].image; pre_index = (pre_index+1)%image_buffer_count; } event->AddFrames( pre_event_count, images, timestamps ); } } shared_data->state = state = ALARM; last_alarm_count = image_count; } else { if ( state == ALARM ) { shared_data->state = state = ALERT; } else if ( state == ALERT ) { if ( image_count-last_alarm_count > post_event_count ) { Info(( "%s: %03d - Left alarm state (%d) - %d(%d) images", name, image_count, event->Id(), event->Frames(), event->AlarmFrames() )); shared_data->last_event = event->Id(); if ( function != MOCORD ) { shared_data->state = state = IDLE; delete event; event = 0; } else { shared_data->state = state = TAPE; } } } } if ( state != IDLE ) { if ( state == ALARM ) { if ( create_analysis_images ) { bool got_anal_image = false; Image alarm_image( *snap_image ); for( int i = 0; i < n_zones; i++ ) { if ( zones[i]->Alarmed() ) { if ( zones[i]->AlarmImage() ) { alarm_image.Overlay( *(zones[i]->AlarmImage()) ); got_anal_image = true; } if ( record_event_stats ) { zones[i]->RecordStats( event ); } } } if ( got_anal_image ) { event->AddFrame( snap_image, *timestamp, score, &alarm_image ); } else { event->AddFrame( snap_image, *timestamp, score ); } } else { event->AddFrame( snap_image, *timestamp, score ); } } else if ( state == ALERT ) { event->AddFrame( snap_image, *timestamp ); } else if ( state == TAPE ) { if ( !(image_count%(frame_skip+1)) ) { if ( bulk_frame_interval > 1 ) { event->AddFrame( snap_image, *timestamp, -1 ); } else { event->AddFrame( snap_image, *timestamp ); } } } } if ( function == RECORD || function == MOCORD ) { if ( state == IDLE || state == TAPE ) { int section_mod = timestamp->tv_sec%section_length; if ( section_mod < last_section_mod ) { Info(( "Ended event" )); gettimeofday( &(event->EndTime()), &dummy_tz ); delete event; event = 0; last_section_mod = 0; } else { last_section_mod = section_mod; } } } } if ( (function == MODECT || function == MOCORD) && (blend_alarmed_images || state != ALARM) ) { ref_image.Blend( *snap_image, ref_blend_perc ); } shared_data->last_read_index = index%image_buffer_count; image_count++; return( true ); } void Monitor::ReloadZones() { Debug( 1, ( "Reloading zones for monitor %s", name )); for( int i = 0; i < n_zones; i++ ) { delete zones[i]; } //delete[] zones; n_zones = Zone::Load( this, zones ); DumpZoneImage(); } int Monitor::Load( int device, Monitor **&monitors, Purpose purpose ) { static char sql[BUFSIZ]; if ( device == -1 ) { strncpy( sql, "select Id, Name, Function+0, Device, Channel, Format, Width, Height, Palette, Orientation+0, LabelFormat, LabelX, LabelY, ImageBufferCount, WarmupCount, PreEventCount, PostEventCount, SectionLength, FrameSkip, MaxFPS, FPSReportInterval, RefBlendPerc from Monitors where Function != 'None' and Type = 'Local'", sizeof(sql) ); } else { snprintf( sql, sizeof(sql), "select Id, Name, Function+0, Device, Channel, Format, Width, Height, Palette, Orientation+0, LabelFormat, LabelX, LabelY, ImageBufferCount, WarmupCount, PreEventCount, PostEventCount, SectionLength, FrameSkip, MaxFPS, FPSReportInterval, RefBlendPerc from Monitors where Function != 'None' and Type = 'Local' and Device = %d", device ); } if ( mysql_query( &dbconn, sql ) ) { Error(( "Can't run query: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } MYSQL_RES *result = mysql_store_result( &dbconn ); if ( !result ) { Error(( "Can't use query result: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } int n_monitors = mysql_num_rows( result ); Debug( 1, ( "Got %d monitors", n_monitors )); delete[] monitors; monitors = new Monitor *[n_monitors]; for( int i = 0; MYSQL_ROW dbrow = mysql_fetch_row( result ); i++ ) { monitors[i] = new Monitor( atoi(dbrow[0]), // Id dbrow[1], // Name atoi(dbrow[2]), // Function atoi(dbrow[3]), // Device atoi(dbrow[4]), // Channel atoi(dbrow[5]), // Format atoi(dbrow[6]), // Width atoi(dbrow[7]), // Height atoi(dbrow[8]), // Palette atoi(dbrow[9]), // Orientation dbrow[10], // LabelFormat Coord( atoi(dbrow[11]), atoi(dbrow[12]) ), // LabelX, LabelY atoi(dbrow[13]), // ImageBufferCount atoi(dbrow[14]), // WarmupCount atoi(dbrow[15]), // PreEventCount atoi(dbrow[16]), // PostEventCount atoi(dbrow[17]), // SectionLength atoi(dbrow[18]), // FrameSkip atof(dbrow[19])>0.0?int(DT_PREC_3/atof(dbrow[19])):0, // MaxFPS atoi(dbrow[20]), // FPSReportInterval atoi(dbrow[21]), // RefBlendPerc purpose ); Zone **zones = 0; int n_zones = Zone::Load( monitors[i], zones ); monitors[i]->AddZones( n_zones, zones ); Debug( 1, ( "Loaded monitor %d(%s), %d zones", atoi(dbrow[0]), dbrow[1], n_zones )); } if ( mysql_errno( &dbconn ) ) { Error(( "Can't fetch row: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } // Yadda yadda mysql_free_result( result ); return( n_monitors ); } int Monitor::Load( const char *host, const char*port, const char *path, Monitor **&monitors, Purpose purpose ) { static char sql[BUFSIZ]; if ( !host ) { strncpy( sql, "select Id, Name, Function+0, Host, Port, Path, Width, Height, Palette, Orientation+0, LabelFormat, LabelX, LabelY, ImageBufferCount, WarmupCount, PreEventCount, PostEventCount, SectionLength, FrameSkip, MaxFPS, FPSReportInterval, RefBlendPerc from Monitors where Function != 'None' and Type = 'Remote'", sizeof(sql) ); } else { snprintf( sql, sizeof(sql), "select Id, Name, Function+0, Host, Port, Path, Width, Height, Palette, Orientation+0, LabelFormat, LabelX, LabelY, ImageBufferCount, WarmupCount, PreEventCount, PostEventCount, SectionLength, FrameSkip, MaxFPS, FPSReportInterval, RefBlendPerc from Monitors where Function != 'None' and Type = 'Remote' and Host = '%s' and Port = '%s' and Path = '%s'", host, port, path ); } if ( mysql_query( &dbconn, sql ) ) { Error(( "Can't run query: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } MYSQL_RES *result = mysql_store_result( &dbconn ); if ( !result ) { Error(( "Can't use query result: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } int n_monitors = mysql_num_rows( result ); Debug( 1, ( "Got %d monitors", n_monitors )); delete[] monitors; monitors = new Monitor *[n_monitors]; for( int i = 0; MYSQL_ROW dbrow = mysql_fetch_row( result ); i++ ) { monitors[i] = new Monitor( atoi(dbrow[0]), // Id dbrow[1], // Name atoi(dbrow[2]), // Function dbrow[3], // Host dbrow[4], // Port dbrow[5], // Path atoi(dbrow[6]), // Width atoi(dbrow[7]), // Height atoi(dbrow[8]), // Palette atoi(dbrow[9]), // Orientation dbrow[10], // LabelFormat Coord( atoi(dbrow[11]), atoi(dbrow[12]) ), // LabelX, LabelY atoi(dbrow[13]), // ImageBufferCount atoi(dbrow[14]), // WarmupCount atoi(dbrow[15]), // PreEventCount atoi(dbrow[16]), // PostEventCount atoi(dbrow[17]), // SectionLength atoi(dbrow[18]), // FrameSkip atof(dbrow[19])>0.0?int(DT_PREC_3/atof(dbrow[19])):0, // MaxFPS atoi(dbrow[20]), // FPSReportInterval atoi(dbrow[21]), // RefBlendPerc purpose ); Zone **zones = 0; int n_zones = Zone::Load( monitors[i], zones ); monitors[i]->AddZones( n_zones, zones ); Debug( 1, ( "Loaded monitor %d(%s), %d zones", atoi(dbrow[0]), dbrow[1], n_zones )); } if ( mysql_errno( &dbconn ) ) { Error(( "Can't fetch row: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } // Yadda yadda mysql_free_result( result ); return( n_monitors ); } Monitor *Monitor::Load( int id, bool load_zones, Purpose purpose ) { static char sql[BUFSIZ]; snprintf( sql, sizeof(sql), "select Id, Name, Type, Function+0, Device, Channel, Format, Host, Port, Path, Width, Height, Palette, Orientation+0, LabelFormat, LabelX, LabelY, ImageBufferCount, WarmupCount, PreEventCount, PostEventCount, SectionLength, FrameSkip, MaxFPS, FPSReportInterval, RefBlendPerc from Monitors where Id = %d", id ); if ( mysql_query( &dbconn, sql ) ) { Error(( "Can't run query: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } MYSQL_RES *result = mysql_store_result( &dbconn ); if ( !result ) { Error(( "Can't use query result: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } int n_monitors = mysql_num_rows( result ); Debug( 1, ( "Got %d monitors", n_monitors )); Monitor *monitor = 0; for( int i = 0; MYSQL_ROW dbrow = mysql_fetch_row( result ); i++ ) { if ( !strcmp( dbrow[2], "Local" ) ) { monitor = new Monitor( atoi(dbrow[0]), // Id dbrow[1], // Name atoi(dbrow[3]), // Function atoi(dbrow[4]), // Device atoi(dbrow[5]), // Channel atoi(dbrow[6]), // Format atoi(dbrow[10]), // Width atoi(dbrow[11]), // Height atoi(dbrow[12]), // Palette atoi(dbrow[13]), // Orientation dbrow[14], // LabelFormat Coord( atoi(dbrow[15]), atoi(dbrow[16]) ), // LabelX, LabelY atoi(dbrow[17]), // ImageBufferCount atoi(dbrow[18]), // WarmupCount atoi(dbrow[19]), // PreEventCount atoi(dbrow[20]), // PostEventCount atoi(dbrow[21]), // SectionLength atoi(dbrow[22]), // FrameSkip atof(dbrow[23])>0.0?int(DT_PREC_3/atof(dbrow[23])):0, // MaxFPS atoi(dbrow[24]), // FPSReportInterval atoi(dbrow[25]), // RefBlendPerc purpose ); } else { monitor = new Monitor( atoi(dbrow[0]), // Id dbrow[1], // Name atoi(dbrow[3]), // Function dbrow[7], // Host dbrow[8], // Port dbrow[9], // Path atoi(dbrow[10]), // Width atoi(dbrow[11]), // Height atoi(dbrow[12]), // Palette atoi(dbrow[13]), // Orientation dbrow[14], // LabelFormat Coord( atoi(dbrow[15]), atoi(dbrow[16]) ), // LabelX, LabelY atoi(dbrow[17]), // ImageBufferCount atoi(dbrow[18]), // WarmupCount atoi(dbrow[19]), // PreEventCount atoi(dbrow[20]), // PostEventCount atoi(dbrow[21]), // SectionLength atoi(dbrow[22]), // FrameSkip atof(dbrow[23])>0.0?int(DT_PREC_3/atof(dbrow[23])):0, // MaxFPS atoi(dbrow[24]), // FPSReportInterval atoi(dbrow[25]), // RefBlendPerc purpose ); } int n_zones = 0; if ( load_zones ) { Zone **zones = 0; n_zones = Zone::Load( monitor, zones ); monitor->AddZones( n_zones, zones ); } Debug( 1, ( "Loaded monitor %d(%s), %d zones", atoi(dbrow[0]), dbrow[1], n_zones )); } if ( mysql_errno( &dbconn ) ) { Error(( "Can't fetch row: %s", mysql_error( &dbconn ) )); exit( mysql_errno( &dbconn ) ); } // Yadda yadda mysql_free_result( result ); return( monitor ); } void Monitor::StreamImages( int scale, int maxfps, time_t ttl ) { fprintf( stdout, "Content-Type: multipart/x-mixed-replace;boundary=ZoneMinderFrame\r\n\r\n" ); fprintf( stdout, "--ZoneMinderFrame\r\n" ); int fps = int(GetFPS()); if ( !fps ) fps = 5; int min_fps = 1; int max_fps = maxfps; int base_fps = int(GetFPS()); int effective_fps = base_fps; int frame_mod = 1; // Min frame repeat? while( effective_fps > max_fps ) { effective_fps /= 2; frame_mod *= 2; } Debug( 1, ( "BFPS:%d, EFPS:%d, FM:%d", base_fps, effective_fps, frame_mod )); int last_read_index = image_buffer_count; time_t stream_start_time; time( &stream_start_time ); int frame_count = 0; struct timeval base_time; struct DeltaTimeval delta_time; int img_buffer_size = 0; static JOCTET img_buffer[ZM_MAX_IMAGE_SIZE]; Image scaled_image; while ( true ) { if ( feof( stdout ) || ferror( stdout ) ) { break; } if ( last_read_index != shared_data->last_write_index ) { if ( (frame_mod == 1) || ((frame_count%frame_mod) == 0) ) { // Send the next frame last_read_index = shared_data->last_write_index; int index = shared_data->last_write_index%image_buffer_count; //Info(( "%d: %x - %x", index, image_buffer[index].image, image_buffer[index].image->buffer )); Snapshot *snap = &image_buffer[index]; Image *snap_image = snap->image; if ( scale != 100 ) { scaled_image.Assign( *snap_image ); scaled_image.Scale( scale ); snap_image = &scaled_image; } if ( !timestamp_on_capture ) { TimestampImage( snap_image, snap->timestamp->tv_sec ); } snap_image->EncodeJpeg( img_buffer, &img_buffer_size ); fprintf( stdout, "Content-Length: %d\r\n", img_buffer_size ); fprintf( stdout, "Content-Type: image/jpeg\r\n\r\n" ); fwrite( img_buffer, img_buffer_size, 1, stdout ); fprintf( stdout, "\r\n\r\n--ZoneMinderFrame\r\n" ); if ( ttl ) { time_t now; time( &now ); if ( (now - stream_start_time) > ttl ) { break; } } } frame_count++; } usleep( ZM_SAMPLE_RATE ); } } void Monitor::SingleImage( int scale) { int last_read_index = shared_data->last_write_index; int img_buffer_size = 0; static JOCTET img_buffer[ZM_MAX_IMAGE_SIZE]; Image scaled_image; int index = shared_data->last_write_index%image_buffer_count; Snapshot *snap = &image_buffer[index]; Image *snap_image = snap->image; if ( scale != 100 ) { scaled_image.Assign( *snap_image ); scaled_image.Scale( scale ); snap_image = &scaled_image; } if ( !timestamp_on_capture ) { TimestampImage( snap_image, snap->timestamp->tv_sec ); } snap_image->EncodeJpeg( img_buffer, &img_buffer_size ); fprintf( stdout, "Content-Length: %d\r\n", img_buffer_size ); fprintf( stdout, "Content-Type: image/jpeg\r\n\r\n" ); fwrite( img_buffer, img_buffer_size, 1, stdout ); } #if HAVE_LIBAVCODEC void Monitor::StreamMpeg( const char *format, int scale, int maxfps, int bitrate ) { bool timed_frames = (bool)config.Item( ZM_VIDEO_TIMED_FRAMES ); int fps = int(GetFPS()); if ( !fps ) fps = 5; int min_fps = 1; int max_fps = maxfps; int base_fps = int(GetFPS()); int effective_fps = base_fps; int frame_mod = 1; // Min frame repeat? while( effective_fps > max_fps ) { effective_fps /= 2; frame_mod *= 2; } Debug( 1, ( "BFPS:%d, EFPS:%d, FM:%d", base_fps, effective_fps, frame_mod )); VideoStream vid_stream( "pipe:", format, bitrate, fps, camera->Colours(), (width*scale)/ZM_SCALE_SCALE, (height*scale)/ZM_SCALE_SCALE ); int last_read_index = image_buffer_count; time_t stream_start_time; time( &stream_start_time ); int frame_count = 0; struct timeval base_time; struct DeltaTimeval delta_time; Image scaled_image; while ( true ) { if ( feof( stdout ) || ferror( stdout ) ) { break; } if ( last_read_index != shared_data->last_write_index ) { if ( (frame_mod == 1) || ((frame_count%frame_mod) == 0) ) { // Send the next frame last_read_index = shared_data->last_write_index; int index = shared_data->last_write_index%image_buffer_count; //Info(( "%d: %x - %x", index, image_buffer[index].image, image_buffer[index].image->buffer )); Snapshot *snap = &image_buffer[index]; Image *snap_image = snap->image; if ( scale != 100 ) { scaled_image.Assign( *snap_image ); scaled_image.Scale( scale ); snap_image = &scaled_image; } if ( !timestamp_on_capture ) { TimestampImage( snap_image, snap->timestamp->tv_sec ); } if ( !frame_count ) { base_time = *(snap->timestamp); } DELTA_TIMEVAL( delta_time, *(snap->timestamp), base_time, DT_PREC_3 ); double pts = vid_stream.EncodeFrame( snap_image->Buffer(), snap_image->Size(), timed_frames, delta_time.delta ); //Info(( "DTD:%d, PTS:%lf", delta_time.delta, pts )); } frame_count++; } usleep( ZM_SAMPLE_RATE ); } } #endif // HAVE_LIBAVCODEC bool Monitor::DumpSettings( char *output, bool verbose ) { output[0] = 0; sprintf( output+strlen(output), "Id : %d\n", id ); sprintf( output+strlen(output), "Name : %s\n", name ); sprintf( output+strlen(output), "Type : %s\n", camera->IsLocal()?"Local":"Remote" ); if ( camera->IsLocal() ) { sprintf( output+strlen(output), "Device : %d\n", ((LocalCamera *)camera)->Device() ); sprintf( output+strlen(output), "Channel : %d\n", ((LocalCamera *)camera)->Channel() ); sprintf( output+strlen(output), "Format : %d\n", ((LocalCamera *)camera)->Format() ); } else { sprintf( output+strlen(output), "Host : %s\n", ((RemoteCamera *)camera)->Host() ); sprintf( output+strlen(output), "Port : %s\n", ((RemoteCamera *)camera)->Port() ); sprintf( output+strlen(output), "Path : %s\n", ((RemoteCamera *)camera)->Path() ); } sprintf( output+strlen(output), "Width : %d\n", camera->Width() ); sprintf( output+strlen(output), "Height : %d\n", camera->Height() ); sprintf( output+strlen(output), "Palette : %d\n", camera->Palette() ); sprintf( output+strlen(output), "Colours : %d\n", camera->Colours() ); sprintf( output+strlen(output), "Label Format : %s\n", label_format ); sprintf( output+strlen(output), "Label Coord : %d,%d\n", label_coord.X(), label_coord.Y() ); sprintf( output+strlen(output), "Image Buffer Count : %d\n", image_buffer_count ); sprintf( output+strlen(output), "Warmup Count : %d\n", warmup_count ); sprintf( output+strlen(output), "Pre Event Count : %d\n", pre_event_count ); sprintf( output+strlen(output), "Post Event Count : %d\n", post_event_count ); sprintf( output+strlen(output), "Section Length : %d\n", section_length ); sprintf( output+strlen(output), "Maximum FPS : %.2f\n", capture_delay?DT_PREC_3/capture_delay:0.0 ); sprintf( output+strlen(output), "Reference Blend %%ge : %d\n", ref_blend_perc ); sprintf( output+strlen(output), "Function: %d - %s\n", function, function==OFF?"None":( function==MONITOR?"Monitor":( function==MODECT?"Motion Detection":( function==RECORD?"Continuous Record":( function==MOCORD?"Continuous Record with Motion Detection":"Unknown" ))))); sprintf( output+strlen(output), "Zones : %d\n", n_zones ); for ( int i = 0; i < n_zones; i++ ) { zones[i]->DumpSettings( output+strlen(output), verbose ); } return( true ); } unsigned int Monitor::Compare( const Image &comp_image ) { bool alarm = false; unsigned int score = 0; if ( n_zones <= 0 ) return( alarm ); if ( record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%s/diag-r.jpg", (const char *)config.Item( ZM_DIR_EVENTS ), name ); } ref_image.WriteJpeg( diag_path ); } Image *delta_image = ref_image.Delta( comp_image ); if ( record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%s/diag-d.jpg", (const char *)config.Item( ZM_DIR_EVENTS ), name ); } delta_image->WriteJpeg( diag_path ); } // Blank out all exclusion zones for ( int n_zone = 0; n_zone < n_zones; n_zone++ ) { Zone *zone = zones[n_zone]; zone->ClearAlarm(); Debug( 3, ( "Blanking inactive zone %s", zone->Label() )); if ( !zone->IsInactive() ) { continue; } delta_image->Fill( RGB_BLACK, &(zone->Limits()) ); } // Check preclusive zones first for ( int n_zone = 0; n_zone < n_zones; n_zone++ ) { Zone *zone = zones[n_zone]; if ( !zone->IsPreclusive() ) { continue; } Debug( 3, ( "Checking preclusive zone %s", zone->Label() )); if ( zone->CheckAlarms( delta_image ) ) { alarm = true; score += zone->Score(); Debug( 3, ( "Zone is alarmed, zone score = %d", zone->Score() )); zone->ResetStats(); } } if ( alarm ) { alarm = false; score = 0; } else { // Find all alarm pixels in active zones for ( int n_zone = 0; n_zone < n_zones; n_zone++ ) { Zone *zone = zones[n_zone]; if ( !zone->IsActive() ) { continue; } Debug( 3, ( "Checking active zone %s", zone->Label() )); if ( zone->CheckAlarms( delta_image ) ) { alarm = true; score += zone->Score(); zone->SetAlarm(); Debug( 3, ( "Zone is alarmed, zone score = %d", zone->Score() )); } } if ( alarm ) { for ( int n_zone = 0; n_zone < n_zones; n_zone++ ) { Zone *zone = zones[n_zone]; if ( !zone->IsInclusive() ) { continue; } Debug( 3, ( "Checking inclusive zone %s", zone->Label() )); if ( zone->CheckAlarms( delta_image ) ) { alarm = true; score += zone->Score(); zone->SetAlarm(); Debug( 3, ( "Zone is alarmed, zone score = %d", zone->Score() )); } } } else { // Find all alarm pixels in exclusive zones for ( int n_zone = 0; n_zone < n_zones; n_zone++ ) { Zone *zone = zones[n_zone]; if ( !zone->IsExclusive() ) { continue; } Debug( 3, ( "Checking exclusive zone %s", zone->Label() )); if ( zone->CheckAlarms( delta_image ) ) { alarm = true; score += zone->Score(); zone->SetAlarm(); Debug( 3, ( "Zone is alarmed, zone score = %d", zone->Score() )); } } } } delete delta_image; // This is a small and innocent hack to prevent scores of 0 being returned in alarm state return( score?score:alarm ); }