// // ZoneMinder Core Interfaces, $Date$, $Revision$ // Copyright (C) 2001-2008 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. // #ifndef ZM_EVENT_H #define ZM_EVENT_H #include #include #include #include #include #include #include #include #include #include #include #include #include "zm.h" #include "zm_image.h" #include "zm_stream.h" class Zone; class Monitor; #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; 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; public: typedef std::set StringSet; typedef std::map StringSetMap; protected: typedef enum { NORMAL, BULK, ALARM } FrameType; 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]; 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: 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 ); initialised = true; } void createNotes( std::string ¬es ); 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(); 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 ); } 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 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 ); 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 ) { 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 { public: typedef enum { MODE_SINGLE, MODE_ALL, MODE_ALL_GAPLESS } StreamMode; protected: struct FrameData { //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 storage_id; unsigned long frame_count; time_t start_time; double duration; char path[PATH_MAX]; int n_frames; FrameData *frames; }; protected: static const int STREAM_PAUSE_WAIT = 250000; // Microseconds static const StreamMode DEFAULT_MODE = MODE_SINGLE; protected: StreamMode mode; bool forceEventChange; protected: int curr_frame_id; double curr_stream_time; EventData *event_data; 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 ); void checkEventLoaded(); void processCommand( const CmdMsg *msg ); bool sendFrame( int delta_us ); public: EventStream() { mode = DEFAULT_MODE; forceEventChange = false; curr_frame_id = 0; curr_stream_time = 0.0; event_data = 0; } void setStreamStart( int init_event_id, int init_frame_id=0 ) { loadInitialEventData( init_event_id, init_frame_id ); loadMonitor( event_data->monitor_id ); } void setStreamStart( int monitor_id, time_t event_time ) { loadInitialEventData( monitor_id, event_time ); loadMonitor( monitor_id ); } void setStreamMode( StreamMode p_mode ) { mode = p_mode; } void runStream(); }; #endif // ZM_EVENT_H