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motion/conf.c
Mr-DaveDev a4fb0d0a74 Update Translations
2018-10-14 12:01:47 -06:00

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/*
**
** conf.c
**
** I originally wrote conf.c as part of the drpoxy package
** thanks to Matthew Pratt and others for their additions.
**
** Copyright 1999 Jeroen Vreeken (pe1rxq@chello.nl)
**
** This software is licensed under the terms of the GNU General
** Public License (GPL). Please see the file COPYING for details.
**
**
*/
/**
* How to add a config option :
*
* 1. think twice, there are settings enough
*
* 2. add a field to 'struct config' (conf.h) and 'struct config conf'
*
* 4. add a entry to the config_params array below, if your
* option should be configurable by the config file.
*/
#include <dirent.h>
#include <string.h>
#include "translate.h"
#include "motion.h"
#define EXTENSION ".conf"
#define stripnewline(x) {if ((x)[strlen(x)-1]=='\n') (x)[strlen(x) - 1] = 0; }
struct config conf_template = {
/* Overall system configuration parameters */
/* daemon is directly cast into the cnt context rather than conf */
.setup_mode = FALSE,
.pid_file = NULL,
.log_file = NULL,
.log_level = LEVEL_DEFAULT+10,
.log_type = NULL,
.quiet = TRUE,
.native_language = TRUE,
.camera_name = NULL,
.camera_id = 0,
.camera_dir = NULL,
.target_dir = NULL,
/* Capture device configuration parameters */
.video_device = DEF_VIDEO_DEVICE,
.vid_control_params = NULL,
.v4l2_palette = DEF_PALETTE,
.input = DEF_INPUT,
.norm = 0,
.frequency = 0,
.auto_brightness = 0,
.tuner_device = NULL,
.roundrobin_frames = 1,
.roundrobin_skip = 1,
.roundrobin_switchfilter = FALSE,
.netcam_url = NULL,
.netcam_highres= NULL,
.netcam_userpass = NULL,
.netcam_keepalive = "off",
.netcam_proxy = NULL,
.netcam_tolerant_check = FALSE,
.netcam_use_tcp = TRUE,
.mmalcam_name = NULL,
.mmalcam_control_params = NULL,
/* Image processing configuration parameters */
.width = DEF_WIDTH,
.height = DEF_HEIGHT,
.framerate = DEF_MAXFRAMERATE,
.minimum_frame_time = 0,
.rotate = 0,
.flip_axis = "none",
.locate_motion_mode = "off",
.locate_motion_style = "box",
.text_left = NULL,
.text_right = DEF_TIMESTAMP,
.text_changes = FALSE,
.text_scale = 1,
.text_event = DEF_EVENTSTAMP,
/* Motion detection configuration parameters */
.emulate_motion = FALSE,
.threshold = DEF_CHANGES,
.threshold_maximum = 0,
.threshold_tune = FALSE,
.noise_level = DEF_NOISELEVEL,
.noise_tune = TRUE,
.despeckle_filter = NULL,
.area_detect = NULL,
.mask_file = NULL,
.mask_privacy = NULL,
.smart_mask_speed = 0,
.lightswitch_percent = 0,
.lightswitch_frames = 5,
.minimum_motion_frames = 1,
.event_gap = DEF_EVENT_GAP,
.pre_capture = 0,
.post_capture = 0,
/* Script execution configuration parameters */
.on_event_start = NULL,
.on_event_end = NULL,
.on_picture_save = NULL,
.on_motion_detected = NULL,
.on_area_detected = NULL,
.on_movie_start = NULL,
.on_movie_end = NULL,
.on_camera_lost = NULL,
.on_camera_found = NULL,
/* Picture output configuration parameters */
.picture_output = "off",
.picture_output_motion = FALSE,
.picture_type = "jpeg",
.picture_quality = 75,
.picture_exif = NULL,
.picture_filename = DEF_IMAGEPATH,
/* Snapshot configuration parameters */
.snapshot_interval = 0,
.snapshot_filename = DEF_SNAPPATH,
/* Movie output configuration parameters */
.movie_output = TRUE,
.movie_output_motion = FALSE,
.movie_max_time = 120,
.movie_bps = 400000,
.movie_quality = 60,
.movie_codec = "mkv",
.movie_duplicate_frames = FALSE,
.movie_passthrough = FALSE,
.movie_filename = DEF_MOVIEPATH,
.movie_extpipe_use = FALSE,
.movie_extpipe = NULL,
/* Timelapse movie configuration parameters */
.timelapse_interval = 0,
.timelapse_mode = DEF_TIMELAPSE_MODE,
.timelapse_fps = 30,
.timelapse_codec = "mpg",
.timelapse_filename = DEF_TIMEPATH,
/* Loopback device configuration parameters */
.video_pipe = NULL,
.video_pipe_motion = NULL,
/* Webcontrol configuration parameters */
.webcontrol_port = 0,
.webcontrol_ipv6 = FALSE,
.webcontrol_localhost = TRUE,
.webcontrol_parms = 0,
.webcontrol_interface = 0,
.webcontrol_auth_method = 0,
.webcontrol_authentication = NULL,
.webcontrol_tls = FALSE,
.webcontrol_cert = NULL,
.webcontrol_key = NULL,
.webcontrol_cors_header = NULL,
/* Live stream configuration parameters */
.stream_port = 0,
.stream_localhost = TRUE,
.stream_auth_method = 0,
.stream_authentication = NULL,
.stream_tls = FALSE,
.stream_cors_header = NULL,
.stream_preview_scale = 25,
.stream_preview_newline = FALSE,
.stream_preview_method = 0,
.stream_quality = 50,
.stream_grey = FALSE,
.stream_motion = FALSE,
.stream_maxrate = 1,
.stream_limit = 0,
/* Database and SQL configuration parameters */
.database_type = NULL,
.database_dbname = NULL,
.database_host = "localhost",
.database_port = 0,
.database_user = NULL,
.database_password = NULL,
.database_busy_timeout = 0,
.sql_log_picture = FALSE,
.sql_log_snapshot = FALSE,
.sql_log_movie = FALSE,
.sql_log_timelapse = FALSE,
.sql_query_start = NULL,
.sql_query_stop = NULL,
.sql_query = NULL
};
/* Forward Declares */
static void malloc_strings(struct context *);
static struct context **copy_bool(struct context **, const char *, int);
static struct context **copy_int(struct context **, const char *, int);
static struct context **config_camera(struct context **cnt, const char *str, int val);
static struct context **copy_vid_ctrl(struct context **, const char *, int);
static struct context **copy_text_double(struct context **, const char *, int);
static struct context **copy_html_output(struct context **, const char *, int);
static const char *print_bool(struct context **, char **, int, unsigned int);
static const char *print_int(struct context **, char **, int, unsigned int);
static const char *print_string(struct context **, char **, int, unsigned int);
static const char *print_camera(struct context **, char **, int, unsigned int);
static void usage(void);
static void config_parms_intl(void);
/* Pointer magic to determine relative addresses of variables to a
struct context pointer */
#define CNT_OFFSET(varname) ((long)&((struct context *)NULL)->varname)
#define CONF_OFFSET(varname) ((long)&((struct context *)NULL)->conf.varname)
#define TRACK_OFFSET(varname) ((long)&((struct context *)NULL)->track.varname)
/* The sequence of these within here determines how they are presented to user
* Note daemon goes directly to cnt context rather than conf.
* Descriptions are limited to one line and few to no references to values since
* the motion_guide.html is our single source of documentation and historically
* these descriptions were not updated with revisions.
*/
config_param config_params[] = {
{
"daemon",
"############################################################\n"
"# System control configuration parameters\n"
"############################################################\n\n"
"# Start in daemon (background) mode and release terminal.",
1,
CNT_OFFSET(daemon),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"setup_mode",
"# Start in Setup-Mode, daemon disabled.",
0,
CONF_OFFSET(setup_mode),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"pid_file",
"# File to store the process ID.",
1,
CONF_OFFSET(pid_file),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"log_file",
"# File to write logs messages into. If not defined stderr and syslog is used.",
1,
CONF_OFFSET(log_file),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"log_level",
"# Level of log messages [1..9] (EMG, ALR, CRT, ERR, WRN, NTC, INF, DBG, ALL).",
1,
CONF_OFFSET(log_level),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"log_type",
"# Filter to log messages by type (COR, STR, ENC, NET, DBL, EVT, TRK, VID, ALL).",
1,
CONF_OFFSET(log_type),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"quiet",
"# Do not sound beeps when detecting motion",
0,
CONF_OFFSET(quiet),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"native_language",
"# Native language support.",
1,
CONF_OFFSET(native_language),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"camera_name",
"# User defined name for the camera.",
0,
CONF_OFFSET(camera_name),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"camera_id",
"# Numeric identifier for the camera.",
0,
CONF_OFFSET(camera_id),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
/* camera and camera_dir must be last in this list */
{
"target_dir",
"# Target directory for pictures, snapshots and movies",
0,
CONF_OFFSET(target_dir),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"videodevice",
"# Video device (e.g. /dev/video0) to be used for capturing.",
0,
CONF_OFFSET(video_device),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"vid_control_params",
"# Parameters to control video device. See motion_guide.html",
0,
CONF_OFFSET(vid_control_params),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"v4l2_palette",
"# Preferred color palette to be used for the video device",
0,
CONF_OFFSET(v4l2_palette),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"input",
"# The input number to be used on the video device.",
0,
CONF_OFFSET(input),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"norm",
"# The video norm to use for video capture and TV tuner cards.",
0,
CONF_OFFSET(norm),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"frequency",
"# The frequency to set the tuner to (kHz) for TV tuner cards",
0,
CONF_OFFSET(frequency),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"auto_brightness",
"# The Motion method to use to change the brightness/exposure on video device.",
0,
CONF_OFFSET(auto_brightness),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"tunerdevice",
"# Device name (e.g. /dev/tuner0) to be used for capturing when using tuner as source",
0,
CONF_OFFSET(tuner_device),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"roundrobin_frames",
"# Number of frames to capture in each roundrobin step",
0,
CONF_OFFSET(roundrobin_frames),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"roundrobin_skip",
"# Number of frames to skip before each roundrobin step",
0,
CONF_OFFSET(roundrobin_skip),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"roundrobin_switchfilter",
"# Try to filter out noise generated by roundrobin",
0,
CONF_OFFSET(roundrobin_switchfilter),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"netcam_url",
"# The full URL of the network camera stream.",
0,
CONF_OFFSET(netcam_url),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_highres",
"# Optional high resolution URL for rtsp/rtmp cameras only.",
0,
CONF_OFFSET(netcam_highres),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_userpass",
"# Username and password for network camera. Syntax username:password",
0,
CONF_OFFSET(netcam_userpass),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_keepalive",
"# The method for keep-alive of network socket for mjpeg streams.",
0,
CONF_OFFSET(netcam_keepalive),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_proxy",
"# The URL to use for a netcam proxy server.",
0,
CONF_OFFSET(netcam_proxy),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_tolerant_check",
"# Use less strict jpeg checks for network cameras.",
0,
CONF_OFFSET(netcam_tolerant_check),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"netcam_use_tcp",
"# Use TCP transport for RTSP/RTMP connections to camera.",
1,
CONF_OFFSET(netcam_use_tcp),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"mmalcam_name",
"# Name of mmal camera (e.g. vc.ril.camera for pi camera).",
0,
CONF_OFFSET(mmalcam_name),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"mmalcam_control_params",
"# Camera control parameters (see raspivid/raspistill tool documentation)",
0,
CONF_OFFSET(mmalcam_control_params),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"width",
"############################################################\n"
"# Image Processing configuration parameters\n"
"############################################################\n\n"
"# Image width in pixels.",
0,
CONF_OFFSET(width),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"height",
"# Image height in pixels.",
0,
CONF_OFFSET(height),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"framerate",
"# Maximum number of frames to be captured per second.",
0,
CONF_OFFSET(framerate),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"minimum_frame_time",
"# Minimum time in seconds between capturing picture frames from the camera.",
0,
CONF_OFFSET(minimum_frame_time),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"rotate",
"# Number of degrees to rotate image.",
0,
CONF_OFFSET(rotate),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"flip_axis",
"# Flip image over a given axis",
0,
CONF_OFFSET(flip_axis),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"locate_motion_mode",
"# Draw a locate box around the moving object.",
0,
CONF_OFFSET(locate_motion_mode),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"locate_motion_style",
"# Set the look and style of the locate box.",
0,
CONF_OFFSET(locate_motion_style),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"text_left",
"# Text to be overlayed in the lower left corner of images",
0,
CONF_OFFSET(text_left),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"text_right",
"# Text to be overlayed in the lower right corner of images.",
0,
CONF_OFFSET(text_right),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"text_changes",
"# Overlay number of changed pixels in upper right corner of images.",
0,
CONF_OFFSET(text_changes),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"text_scale",
"# Scale factor for text overlayed on images.",
0,
CONF_OFFSET(text_scale),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"text_event",
"# The special event conversion specifier %C",
0,
CONF_OFFSET(text_event),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"emulate_motion",
"############################################################\n"
"# Motion detection configuration parameters\n"
"############################################################\n\n"
"# Always save pictures and movies even if there was no motion.",
0,
CONF_OFFSET(emulate_motion),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"threshold",
"# Threshold for number of changed pixels that triggers motion.",
0,
CONF_OFFSET(threshold),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"threshold_maximum",
"# The maximum threshold for number of changed pixels that triggers motion.",
0,
CONF_OFFSET(threshold_maximum),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"threshold_tune",
"# Enable tuning of the threshold down if possible.",
0,
CONF_OFFSET(threshold_tune),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"noise_level",
"# Noise threshold for the motion detection.",
0,
CONF_OFFSET(noise_level),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"noise_tune",
"# Automatically tune the noise threshold",
0,
CONF_OFFSET(noise_tune),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"despeckle_filter",
"# Despeckle the image using (E/e)rode or (D/d)ilate or (l)abel.",
0,
CONF_OFFSET(despeckle_filter),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"area_detect",
"# Area number used to trigger the on_area_detected script.",
0,
CONF_OFFSET(area_detect),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"mask_file",
"# Full path and file name for motion detection mask PGM file.",
0,
CONF_OFFSET(mask_file),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"mask_privacy",
"# Full path and file name for privacy mask PGM file.",
0,
CONF_OFFSET(mask_privacy),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"smart_mask_speed",
"# The value defining how slow or fast the smart motion mask created and used.",
0,
CONF_OFFSET(smart_mask_speed),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"lightswitch_percent",
"# Percentage of image that triggers a lightswitch detected.",
0,
CONF_OFFSET(lightswitch_percent),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"lightswitch_frames",
"# When lightswitch is detected, ignore this many frames",
0,
CONF_OFFSET(lightswitch_frames),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"minimum_motion_frames",
"# Number of images that must contain motion to trigger an event.",
0,
CONF_OFFSET(minimum_motion_frames),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"event_gap",
"# Gap in seconds of no motion detected that triggers the end of an event.",
0,
CONF_OFFSET(event_gap),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"pre_capture",
"# The number of pre-captured (buffered) pictures from before motion.",
0,
CONF_OFFSET(pre_capture),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"post_capture",
"# Number of frames to capture after motion is no longer detected.",
0,
CONF_OFFSET(post_capture),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"on_event_start",
"############################################################\n"
"# Script execution configuration parameters\n"
"############################################################\n\n"
"# Command to be executed when an event starts.",
0,
CONF_OFFSET(on_event_start),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_event_end",
"# Command to be executed when an event ends.",
0,
CONF_OFFSET(on_event_end),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_picture_save",
"# Command to be executed when a picture is saved.",
0,
CONF_OFFSET(on_picture_save),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_area_detected",
"# Command to be executed when motion in a predefined area is detected",
0,
CONF_OFFSET(on_area_detected),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_motion_detected",
"# Command to be executed when motion is detected",
0,
CONF_OFFSET(on_motion_detected),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_movie_start",
"# Command to be executed when a movie file is created.",
0,
CONF_OFFSET(on_movie_start),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_movie_end",
"# Command to be executed when a movie file is closed.",
0,
CONF_OFFSET(on_movie_end),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_camera_lost",
"# Command to be executed when a camera can't be opened or if it is lost",
0,
CONF_OFFSET(on_camera_lost),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"on_camera_found",
"# Command to be executed when a camera that was lost has been found.",
0,
CONF_OFFSET(on_camera_found),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"picture_output",
"############################################################\n"
"# Picture output configuration parameters\n"
"############################################################\n\n"
"# Output pictures when motion is detected",
0,
CONF_OFFSET(picture_output),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"picture_output_motion",
"# Output pictures with only the pixels moving object (ghost images)",
0,
CONF_OFFSET(picture_output_motion),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"picture_type",
"# Format for the output pictures.",
0,
CONF_OFFSET(picture_type),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"picture_quality",
"# The quality (in percent) to be used in the picture compression",
0,
CONF_OFFSET(picture_quality),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"picture_exif",
"# Text to include in a JPEG EXIF comment",
0,
CONF_OFFSET(picture_exif),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"picture_filename",
"# File name(without extension) for pictures relative to target directory",
0,
CONF_OFFSET(picture_filename),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"snapshot_interval",
"############################################################\n"
"# Snapshot output configuration parameters\n"
"############################################################\n\n"
"# Make automated snapshot every N seconds",
0,
CONF_OFFSET(snapshot_interval),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"snapshot_filename",
"# File name(without extension) for snapshots relative to target directory",
0,
CONF_OFFSET(snapshot_filename),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"movie_output",
"############################################################\n"
"# Movie output configuration parameters\n"
"############################################################\n\n"
"# Create movies of motion events.",
0,
CONF_OFFSET(movie_output),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"movie_output_motion",
"# Create movies of moving pixels of motion events.",
0,
CONF_OFFSET(movie_output_motion),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"movie_max_time",
"# Maximum length of movie in seconds.",
0,
CONF_OFFSET(movie_max_time),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"movie_bps",
"# The fixed bitrate to be used by the movie encoder. Ignore quality setting",
0,
CONF_OFFSET(movie_bps),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"movie_quality",
"# The encoding quality of the movie. (0=use bitrate. 1=worst quality, 100=best)",
0,
CONF_OFFSET(movie_quality),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"movie_codec",
"# Container/Codec to used for the movie. See motion_guide.html",
0,
CONF_OFFSET(movie_codec),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"movie_duplicate_frames",
"# Duplicate frames to achieve \"framerate\" fps.",
0,
CONF_OFFSET(movie_duplicate_frames),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"movie_passthrough",
"# Pass through from the camera to the movie without decode/encoding.",
0,
CONF_OFFSET(movie_passthrough),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"movie_filename",
"# File name(without extension) for movies relative to target directory",
0,
CONF_OFFSET(movie_filename),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"movie_extpipe_use",
"# Use pipe and external encoder for creating movies.",
0,
CONF_OFFSET(movie_extpipe_use),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"movie_extpipe",
"# Full path and options for external encoder of movies from raw images",
0,
CONF_OFFSET(movie_extpipe),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"timelapse_interval",
"############################################################\n"
"# Timelapse output configuration parameters\n"
"############################################################\n\n"
"# Interval in seconds between timelapse captures.",
0,
CONF_OFFSET(timelapse_interval),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"timelapse_mode",
"# Timelapse file rollover mode. See motion_guide.html for options and uses.",
0,
CONF_OFFSET(timelapse_mode),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"timelapse_fps",
"# Frame rate for timelapse playback",
0,
CONF_OFFSET(timelapse_fps),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"timelapse_codec",
"# Container/Codec for timelapse movie.",
0,
CONF_OFFSET(timelapse_codec),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"timelapse_filename",
"# File name(without extension) for timelapse movies relative to target directory",
0,
CONF_OFFSET(timelapse_filename),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"video_pipe",
"############################################################\n"
"# Loopback pipe configuration parameters\n"
"############################################################\n\n"
"# v4l2 loopback device to receive normal images",
0,
CONF_OFFSET(video_pipe),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"video_pipe_motion",
"# v4l2 loopback device to receive motion images",
0,
CONF_OFFSET(video_pipe_motion),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"webcontrol_port",
"############################################################\n"
"# Webcontrol configuration parameters\n"
"############################################################\n\n"
"# Port number used for the webcontrol.",
1,
CONF_OFFSET(webcontrol_port),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"webcontrol_ipv6",
"# Enable IPv6 addresses.",
0,
CONF_OFFSET(webcontrol_ipv6),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"webcontrol_localhost",
"# Restrict webcontrol connections to the localhost.",
1,
CONF_OFFSET(webcontrol_localhost),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"webcontrol_parms",
"# Type of configuration options to allow via the webcontrol.",
1,
CONF_OFFSET(webcontrol_parms),
copy_int,
print_int,
WEBUI_LEVEL_NEVER
},
{
"webcontrol_interface",
"# Method that webcontrol should use for interface with user.",
1,
CONF_OFFSET(webcontrol_interface),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"webcontrol_auth_method",
"# The authentication method for the webcontrol",
0,
CONF_OFFSET(webcontrol_auth_method),
copy_int,
print_int,
WEBUI_LEVEL_RESTRICTED
},
{
"webcontrol_authentication",
"# Authentication string for the webcontrol. Syntax username:password",
1,
CONF_OFFSET(webcontrol_authentication),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"webcontrol_tls",
"# Use ssl / tls for the webcontrol",
0,
CONF_OFFSET(webcontrol_tls),
copy_bool,
print_bool,
WEBUI_LEVEL_RESTRICTED
},
{
"webcontrol_cert",
"# Full path and file name of the certificate file for tls",
1,
CONF_OFFSET(webcontrol_cert),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"webcontrol_key",
"# Full path and file name of the key file for tls",
1,
CONF_OFFSET(webcontrol_key),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"webcontrol_cors_header",
"# The cross-origin resource sharing (CORS) header for webcontrol",
0,
CONF_OFFSET(webcontrol_cors_header),
copy_uri,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"stream_port",
"############################################################\n"
"# Live stream configuration parameters\n"
"############################################################\n\n"
"# The port number for the live stream.",
0,
CONF_OFFSET(stream_port),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"stream_localhost",
"# Restrict stream connections to the localhost.",
0,
CONF_OFFSET(stream_localhost),
copy_bool,
print_bool,
WEBUI_LEVEL_ADVANCED
},
{
"stream_auth_method",
"# Authentication method for live stream.",
0,
CONF_OFFSET(stream_auth_method),
copy_int,
print_int,
WEBUI_LEVEL_RESTRICTED
},
{
"stream_authentication",
"# The authentication string for the stream. Syntax username:password",
1,
CONF_OFFSET(stream_authentication),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"stream_tls",
"# Use ssl / tls for stream.",
0,
CONF_OFFSET(stream_tls),
copy_bool,
print_bool,
WEBUI_LEVEL_RESTRICTED
},
{
"stream_cors_header",
"# The cross-origin resource sharing (CORS) header for the stream",
0,
CONF_OFFSET(stream_cors_header),
copy_uri,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"stream_preview_scale",
"# Percentage to scale the stream image on the webcontrol.",
0,
CONF_OFFSET(stream_preview_scale),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"stream_preview_newline",
"# Have the stream image start on a new line of the webcontrol",
0,
CONF_OFFSET(stream_preview_newline),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"stream_preview_method",
"# Method for showing stream on webcontrol.",
0,
CONF_OFFSET(stream_preview_method),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"stream_quality",
"# Quality of the jpeg images produced for stream.",
0,
CONF_OFFSET(stream_quality),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"stream_grey",
"# Provide the stream images in black and white",
0,
CONF_OFFSET(stream_grey),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"stream_motion",
"# Output frames at 1 fps when no motion is detected.",
0,
CONF_OFFSET(stream_motion),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"stream_maxrate",
"# Maximum framerate of images provided for stream",
0,
CONF_OFFSET(stream_maxrate),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"stream_limit",
"# Limit the number of images per connection",
0,
CONF_OFFSET(stream_limit),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"database_type",
"############################################################\n"
"# Database and SQL Configuration parameters\n"
"############################################################\n\n"
"# The type of database being used if any.",
0,
CONF_OFFSET(database_type),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"database_dbname",
"# Database name to use. For sqlite3, the full path and name.",
0,
CONF_OFFSET(database_dbname),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"database_host",
"# The host on which the database is located",
0,
CONF_OFFSET(database_host),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"database_port",
"# Port used by the database.",
0,
CONF_OFFSET(database_port),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"database_user",
"# User account name for database.",
0,
CONF_OFFSET(database_user),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"database_password",
"# User password for database.",
0,
CONF_OFFSET(database_password),
copy_string,
print_string,
WEBUI_LEVEL_RESTRICTED
},
{
"database_busy_timeout",
"# Database wait for unlock time",
0,
CONF_OFFSET(database_busy_timeout),
copy_int,
print_int,
WEBUI_LEVEL_ADVANCED
},
{
"sql_log_picture",
"# Log to the database when creating motion triggered image file",
0,
CONF_OFFSET(sql_log_picture),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"sql_log_snapshot",
"# Log to the database when creating a snapshot image file",
0,
CONF_OFFSET(sql_log_snapshot),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"sql_log_movie",
"# Log to the database when creating motion triggered movie file",
0,
CONF_OFFSET(sql_log_movie),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"sql_log_timelapse",
"# Log to the database when creating timelapse movie file",
0,
CONF_OFFSET(sql_log_timelapse),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"sql_query_start",
"# SQL query at event start. See motion_guide.html",
0,
CONF_OFFSET(sql_query_start),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"sql_query_stop",
"# SQL query at event stop. See motion_guide.html",
0,
CONF_OFFSET(sql_query_stop),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"sql_query",
"# SQL query string that is sent to the database. See motion_guide.html",
0,
CONF_OFFSET(sql_query),
copy_string,
print_string,
WEBUI_LEVEL_ADVANCED
},
{
"track_type",
"############################################################\n"
"# Tracking configuration parameters\n"
"############################################################\n\n"
"# Method used by tracking camera. See motion_guide.html",
0,
TRACK_OFFSET(type),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_auto",
"# Enable auto tracking",
0,
TRACK_OFFSET(active),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"track_port",
"# Serial port of motor",
0,
TRACK_OFFSET(port),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"track_motorx",
"# Motor number for x-axis",
0,
TRACK_OFFSET(motorx),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_motorx_reverse",
"# Set motorx reverse",
0,
TRACK_OFFSET(motorx_reverse),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"track_motory",
"# Motor number for y-axis",
0,
TRACK_OFFSET(motory),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_motory_reverse",
"# Set motory reverse",
0,
TRACK_OFFSET(motory_reverse),
copy_bool,
print_bool,
WEBUI_LEVEL_LIMITED
},
{
"track_maxx",
"# Maximum value on x-axis",
0,
TRACK_OFFSET(maxx),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_minx",
"# Minimum value on x-axis",
0,
TRACK_OFFSET(minx),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_maxy",
"# Maximum value on y-axis",
0,
TRACK_OFFSET(maxy),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_miny",
"# Minimum value on y-axis",
0,
TRACK_OFFSET(miny),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_homex",
"# Center value on x-axis",
0,
TRACK_OFFSET(homex),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_homey",
"# Center value on y-axis",
0,
TRACK_OFFSET(homey),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_iomojo_id",
"# ID of an iomojo camera if used",
0,
TRACK_OFFSET(iomojo_id),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_step_angle_x",
"# Angle in degrees the camera moves per step on the X-axis with auto-track",
0,
TRACK_OFFSET(step_angle_x),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_step_angle_y",
"# Angle in degrees the camera moves per step on the Y-axis with auto-track.",
0,
TRACK_OFFSET(step_angle_y),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_move_wait",
"# Delay to wait for after tracking movement as number of picture frames.",
0,
TRACK_OFFSET(move_wait),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_speed",
"# Speed to set the motor to (stepper motor option)",
0,
TRACK_OFFSET(speed),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_stepsize",
"# Number of steps to make (stepper motor option)",
0,
TRACK_OFFSET(stepsize),
copy_int,
print_int,
WEBUI_LEVEL_LIMITED
},
{
"track_generic_move",
"# Command to execute to move a camera in generic tracking mode",
0,
TRACK_OFFSET(generic_move),
copy_string,
print_string,
WEBUI_LEVEL_LIMITED
},
{
"camera",
"##############################################################\n"
"# Camera config files - One for each camera.\n"
"##############################################################",
1,
0,
config_camera,
print_camera,
WEBUI_LEVEL_ADVANCED
},
/* using a conf.d style camera addition */
{
"camera_dir",
"##############################################################\n"
"# Directory to read '.conf' files for cameras.\n"
"##############################################################",
1,
CONF_OFFSET(camera_dir),
read_camera_dir,
print_string,
WEBUI_LEVEL_ADVANCED
},
{ NULL, NULL, 0, 0, NULL, NULL, 0 }
};
/*
* Array of deprecated config options:
* When deprecating an option, remove it from above (config_params array)
* and create an entry in this array of name, last version, info,
* and (if applicable) a replacement conf value and copy funcion.
* Upon reading a deprecated config option, a warning will be logged
* with the given information and last version it was used in.
* If set, the given value will be copied into the conf value
* for backwards compatibility.
*/
dep_config_param dep_config_params[] = {
{
"thread",
"3.4.1",
"The \"thread\" option has been replaced by the \"camera\"",
0,
"camera",
config_camera
},
{
"ffmpeg_timelapse",
"4.0.1",
"\"ffmpeg_timelapse\" replaced with \"timelapse_interval\"",
CONF_OFFSET(timelapse_interval),
"timelapse_interval",
copy_int
},
{
"ffmpeg_timelapse_mode",
"4.0.1",
"\"ffmpeg_timelapse_mode\" replaced with \"timelapse_mode\"",
CONF_OFFSET(timelapse_mode),
"timelapse_mode",
copy_string
},
{
"brightness",
"4.1.1",
"\"brightness\" replaced with \"vid_control_params\"",
CONF_OFFSET(vid_control_params),
"vid_control_params",
copy_vid_ctrl
},
{
"contrast",
"4.1.1",
"\"contrast\" replaced with \"vid_control_params\"",
CONF_OFFSET(vid_control_params),
"vid_control_params",
copy_vid_ctrl
},
{
"saturation",
"4.1.1",
"\"saturation\" replaced with \"vid_control_params\"",
CONF_OFFSET(vid_control_params),
"vid_control_params",
copy_vid_ctrl
},
{
"hue",
"4.1.1",
"\"hue\" replaced with \"vid_control_params\"",
CONF_OFFSET(vid_control_params),
"vid_control_params",
copy_vid_ctrl
},
{
"power_line_frequency",
"4.1.1",
"\"power_line_frequency\" replaced with \"vid_control_params\"",
CONF_OFFSET(vid_control_params),
"vid_control_params",
copy_vid_ctrl
},
{
"text_double",
"4.1.1",
"\"text_double\" replaced with \"text_scale\"",
CONF_OFFSET(text_scale),
"text_scale",
copy_text_double
},
{
"webcontrol_html_output",
"4.1.1",
"\"webcontrol_html_output\" replaced with \"webcontrol_interface\"",
CONF_OFFSET(webcontrol_interface),
"webcontrol_interface",
copy_html_output
},
{
"lightswitch",
"4.1.1",
"\"lightswitch\" replaced with \"lightswitch_percent\"",
CONF_OFFSET(lightswitch_percent),
"lightswitch_percent",
copy_int
},
{
"ffmpeg_output_movies",
"4.1.1",
"\"ffmpeg_output_movies\" replaced with \"movie_output\"",
CONF_OFFSET(movie_output),
"movie_output",
copy_bool
},
{
"ffmpeg_output_debug_movies",
"4.1.1",
"\"ffmpeg_output_debug_movies\" replaced with \"movie_output_motion\"",
CONF_OFFSET(movie_output_motion),
"movie_output_motion",
copy_bool
},
{
"max_movie_time",
"4.1.1",
"\"max_movie_time\" replaced with \"movie_max_time\"",
CONF_OFFSET(movie_max_time),
"movie_max_time",
copy_int
},
{
"ffmpeg_bps",
"4.1.1",
"\"ffmpeg_bps\" replaced with \"movie_bps\"",
CONF_OFFSET(movie_bps),
"movie_bps",
copy_int
},
{
"ffmpeg_variable_bitrate",
"4.1.1",
"\"ffmpeg_variable_bitrate\" replaced with \"movie_quality\"",
CONF_OFFSET(movie_quality),
"movie_quality",
copy_int
},
{
"ffmpeg_video_codec",
"4.1.1",
"\"ffmpeg_video_codec\" replaced with \"movie_codec\"",
CONF_OFFSET(movie_codec),
"movie_codec",
copy_string
},
{
"ffmpeg_duplicate_frames",
"4.1.1",
"\"ffmpeg_duplicate_frames\" replaced with \"movie_duplicate_frames\"",
CONF_OFFSET(movie_duplicate_frames),
"movie_duplicate_frames",
copy_bool
},
{
"ffmpeg_passthrough",
"4.1.1",
"\"ffmpeg_passthrough\" replaced with \"movie_passthrough\"",
CONF_OFFSET(movie_passthrough),
"movie_passthrough",
copy_bool
},
{
"use_extpipe",
"4.1.1",
"\"use_extpipe\" replaced with \"movie_extpipe_use\"",
CONF_OFFSET(movie_extpipe_use),
"movie_extpipe_use",
copy_bool
},
{
"extpipe",
"4.1.1",
"\"extpipe\" replaced with \"movie_extpipe\"",
CONF_OFFSET(movie_extpipe),
"movie_extpipe",
copy_string
},
{
"output_pictures",
"4.1.1",
"\"output_pictures\" replaced with \"picture_output\"",
CONF_OFFSET(picture_output),
"picture_output",
copy_string
},
{
"output_debug_pictures",
"4.1.1",
"\"output_debug_pictures\" replaced with \"picture_output_motion\"",
CONF_OFFSET(picture_output_motion),
"picture_output_motion",
copy_bool
},
{
"quality",
"4.1.1",
"\"quality\" replaced with \"picture_quality\"",
CONF_OFFSET(picture_quality),
"picture_quality",
copy_int
},
{
"exif_text",
"4.1.1",
"\"exif_text\" replaced with \"picture_exif\"",
CONF_OFFSET(picture_exif),
"picture_exif",
copy_string
},
{
"motion_video_pipe",
"4.1.1",
"\"motion_video_pipe\" replaced with \"video_pipe_motion\"",
CONF_OFFSET(video_pipe_motion),
"video_pipe_motion",
copy_string
},
{
"ipv6_enabled",
"4.1.1",
"\"ipv6_enabled\" replaced with \"webcontrol_ipv6\"",
CONF_OFFSET(webcontrol_ipv6),
"webcontrol_ipv6",
copy_bool
},
{
"rtsp_uses_tcp",
"4.1.1",
"\"rtsp_uses_tcp\" replaced with \"netcam_use_tcp\"",
CONF_OFFSET(netcam_use_tcp),
"netcam_use_tcp",
copy_bool
},
{
"switchfilter",
"4.1.1",
"\"switchfilter\" replaced with \"roundrobin_switchfilter\"",
CONF_OFFSET(roundrobin_switchfilter),
"roundrobin_switchfilter",
copy_bool
},
{
"logfile",
"4.1.1",
"\"logfile\" replaced with \"log_file\"",
CONF_OFFSET(log_file),
"log_file",
copy_string
},
{
"process_id_file",
"4.1.1",
"\"process_id_file\" replaced with \"pid_file\"",
CONF_OFFSET(pid_file),
"pid_file",
copy_string
},
{ NULL, NULL, NULL, 0, NULL, NULL}
};
/**
* conf_cmdline
* Sets the conf struct options as defined by the Command-line.
* Any option already set from a config file are overridden.
*
* Returns nothing.
*/
static void conf_cmdline(struct context *cnt, int thread)
{
struct config *conf = &cnt->conf;
int c;
/*
* For the string options, we free() if necessary and malloc()
* if necessary. This is accomplished by calling mystrcpy();
* see this function for more information.
*/
while ((c = getopt(conf->argc, conf->argv, "bc:d:hmns?p:k:l:")) != EOF)
switch (c) {
case 'c':
if (thread == -1)
strcpy(cnt->conf_filename, optarg);
break;
case 'b':
cnt->daemon = 1;
break;
case 'n':
cnt->daemon = 0;
break;
case 's':
conf->setup_mode = 1;
break;
case 'd':
/* No validation - just take what user gives. */
if (thread == -1)
cnt->log_level = (unsigned int)atoi(optarg);
break;
case 'k':
if (thread == -1) {
strncpy(cnt->log_type_str, optarg, sizeof(cnt->log_type_str) - 1);
cnt->log_type_str[sizeof(cnt->log_type_str) - 1] = '\0';
}
break;
case 'p':
if (thread == -1) {
strncpy(cnt->pid_file, optarg, sizeof(cnt->pid_file) - 1);
cnt->pid_file[sizeof(cnt->pid_file) - 1] = '\0';
}
break;
case 'l':
if (thread == -1) {
strncpy(cnt->log_file, optarg, sizeof(cnt->log_file) - 1);
cnt->log_file[sizeof(cnt->log_file) - 1] = '\0';
}
break;
case 'm':
cnt->pause = 1;
break;
case 'h':
case '?':
default:
usage();
exit(1);
}
optind = 1;
}
/**
* conf_cmdparse
* Sets a config option given by 'cmd' to the value given by 'arg1'.
* Based on the name of the option it searches through the struct 'config_params'
* for an option where the config_params[i].param_name matches the option.
* By calling the function pointed to by config_params[i].copy the option gets
* assigned.
*
* Returns context struct.
*/
struct context **conf_cmdparse(struct context **cnt, const char *cmd, const char *arg1)
{
unsigned int i = 0;
if (!cmd)
return cnt;
/*
* We search through config_params until we find a param_name that matches
* our option given by cmd (or reach the end = NULL).
*/
while (config_params[i].param_name != NULL) {
if (!strcasecmp(cmd, config_params[i].param_name)) {
/* If config_param is string we don't want to check arg1. */
if (strcasecmp(config_type(&config_params[i]), "string")) {
if (config_params[i].conf_value && !arg1){
return cnt;
}
}
/*
* We call the function given by the pointer config_params[i].copy
* If the option is a bool, copy_bool is called.
* If the option is an int, copy_int is called.
* If the option is a string, copy_string is called.
* If the option is camera, config_camera is called.
* The arguments to the function are:
* cnt - a pointer to the context structure.
* arg1 - a pointer to the new option value (represented as string).
* config_params[i].conf_value - an integer value which is a pointer
* to the context structure member relative to the pointer cnt.
*/
cnt = config_params[i].copy(cnt, arg1, config_params[i].conf_value);
return cnt;
}
i++;
}
/*
* We reached the end of config_params without finding a matching option.
* Check if it's a deprecated option, log a warning, and if applicable
* set the replacement option to the given value.
*/
i = 0;
while (dep_config_params[i].name != NULL) {
if (!strncasecmp(cmd, dep_config_params[i].name, 255 + 50)) {
MOTION_LOG(ALR, TYPE_ALL, NO_ERRNO, "%s after version %s"
, dep_config_params[i].info, dep_config_params[i].last_version);
if (dep_config_params[i].copy != NULL){
/* If the depreciated option is a vid item, copy_vid_ctrl is called
* with the array index sent instead of the context structure member pointer.
*/
if (!strcmp(dep_config_params[i].name,"brightness") ||
!strcmp(dep_config_params[i].name,"contrast") ||
!strcmp(dep_config_params[i].name,"saturation") ||
!strcmp(dep_config_params[i].name,"hue") ||
!strcmp(dep_config_params[i].name,"power_line_frequency")) {
cnt = copy_vid_ctrl(cnt, arg1, i);
} else {
cnt = dep_config_params[i].copy(cnt, arg1, dep_config_params[i].conf_value);
}
}
return cnt;
}
i++;
}
/* If we get here, it's unknown to us. */
MOTION_LOG(ALR, TYPE_ALL, NO_ERRNO, _("Unknown config option \"%s\""), cmd);
return cnt;
}
/**
* conf_process
* Walks through an already open config file line by line
* Any line starting with '#' or ';' or empty lines are ignored as a comments.
* Any non empty line is processed so that the first word is the name of an option 'cmd'
* and the rest of the line is the argument 'arg1'
* White space before the first word, between option and argument and end of the line
* is discarded. A '=' between option and first word in argument is also discarded.
* Quotation marks round the argument are also discarded.
* For each option/argument pair the function conf_cmdparse is called which takes
* care of assigning the value to the option in the config structures.
*
* Returns context struct.
*/
static struct context **conf_process(struct context **cnt, FILE *fp)
{
/* Process each line from the config file. */
char line[PATH_MAX], *cmd = NULL, *arg1 = NULL;
char *beg = NULL, *end = NULL;
while (fgets(line, PATH_MAX-1, fp)) {
if (!(line[0] == '#' || line[0] == ';' || strlen(line) < 2)) {/* skipcomment */
arg1 = NULL;
/* Trim white space and any CR or LF at the end of the line. */
end = line + strlen(line) - 1; /* Point to the last non-null character in the string. */
while (end >= line && (*end == ' ' || *end == '\t' || *end == '\n' || *end == '\r'))
end--;
*(end+1) = '\0';
/* If line is only whitespace we continue to the next line. */
if (strlen(line) == 0)
continue;
/* Trim leading whitespace from the line and find command. */
beg = line;
while (*beg == ' ' || *beg == '\t')
beg++;
cmd = beg; /* Command starts here. */
while (*beg != ' ' && *beg != '\t' && *beg != '=' && *beg != '\0')
beg++;
*beg = '\0'; /* Command string terminates here. */
/* Trim space between command and argument. */
beg++;
if (strlen(beg) > 0) {
while (*beg == ' ' || *beg == '\t' || *beg == '=' || *beg == '\n' || *beg == '\r')
beg++;
/*
* If argument is in "" we will strip them off
* It is important that we can use "" so that we can use
* leading spaces in text_left and text_right.
*/
if ((beg[0] == '"' && beg[strlen(beg)-1] == '"') ||
(beg[0] == '\'' && beg[strlen(beg)-1] == '\'')) {
beg[strlen(beg)-1] = '\0';
beg++;
}
arg1 = beg; /* Argument starts here */
}
/* Else arg1 stays null pointer */
cnt = conf_cmdparse(cnt, cmd, arg1);
}
}
return cnt;
}
/**
* conf_print
* Is used to write out the config file(s) motion.conf and any camera
* config files. The function is called when using http remote control.
*
* Returns nothing.
*/
void conf_print(struct context **cnt)
{
const char *retval;
char *val;
unsigned int i, thread;
FILE *conffile;
for (thread = 0; cnt[thread]; thread++) {
MOTION_LOG(NTC, TYPE_ALL, NO_ERRNO
,_("Writing config file to %s")
,cnt[thread]->conf_filename);
conffile = myfopen(cnt[thread]->conf_filename, "w");
if (!conffile)
continue;
char timestamp[32];
time_t now = time(0);
strftime(timestamp, 32, "%Y-%m-%dT%H:%M:%S", localtime(&now));
fprintf(conffile, "# %s\n", cnt[thread]->conf_filename);
fprintf(conffile, "#\n# This config file was generated by motion " VERSION "\n");
fprintf(conffile, "# at %s\n", timestamp);
fprintf(conffile, "\n\n");
for (i = 0; config_params[i].param_name; i++) {
retval = config_params[i].print(cnt, NULL, i, thread);
/* If config parameter has a value (not NULL) print it to the config file. */
if (retval) {
fprintf(conffile, "%s\n", config_params[i].param_help);
/*
* If the option is a text_* and first char is a space put
* quotation marks around to allow leading spaces.
*/
if (strncmp(config_params[i].param_name, "text", 4) || strncmp(retval, " ", 1))
fprintf(conffile, "%s %s\n\n", config_params[i].param_name, retval);
else
fprintf(conffile, "%s \"%s\"\n\n", config_params[i].param_name, retval);
} else {
val = NULL;
config_params[i].print(cnt, &val, i, thread);
/*
* It can either be a camera file parameter or a disabled parameter.
* If it is a camera parameter write it out.
* Else write the disabled option to the config file but with a
* comment mark in front of the parameter name.
*/
if (val) {
fprintf(conffile, "%s\n", config_params[i].param_help);
if (strlen(val) > 0)
fprintf(conffile, "%s\n", val);
else
fprintf(conffile, "; camera %s/motion/camera1.conf\n", sysconfdir);
free(val);
} else if (thread == 0) {
char value[PATH_MAX];
/* The 'camera_dir' option should keep the installed default value */
if (!strncmp(config_params[i].param_name, "camera_dir", 10))
sprintf(value, "%s", sysconfdir"/motion/conf.d");
else
sprintf(value, "%s", "value");
fprintf(conffile, "%s\n", config_params[i].param_help);
fprintf(conffile, "; %s %s\n\n", config_params[i].param_name, value);
}
}
}
fprintf(conffile, "\n");
myfclose(conffile);
conffile = NULL;
}
}
/**
* conf_load
* Is the main function, called from motion.c
* The function sets the important context structure "cnt" including
* loading the config parameters from config files and Command-line.
* The following takes place in the function:
* - The default start values for cnt stored in the struct conf_template
* are copied to cnt[0] which is the default context structure common to
* all threads.
* - All config (cnt.conf) struct members pointing to a string are changed
* so that they point to a malloc'ed piece of memory containing a copy of
* the string given in conf_template.
* - motion.conf is opened and processed. The process populates the cnt[0] and
* for each camera config file it populates a cnt[1], cnt[2]... for each
* camera.
* - Finally it processes the options given in the Command-line. This is done
* for each camera cnt[i] so that the Command-line options overrides any
* option given by motion.conf or a camera config file.
*
* Returns context struct.
*/
struct context **conf_load(struct context **cnt)
{
FILE *fp = NULL;
char filename[PATH_MAX];
int i;
/* We preserve argc and argv because they get overwritten by the memcpy command. */
char **argv = cnt[0]->conf.argv;
int argc = cnt[0]->conf.argc;
/*
* Copy the template config structure with all the default config values
* into cnt[0]->conf
*/
memcpy(&cnt[0]->conf, &conf_template, sizeof(struct config));
/*
* For each member of cnt[0] which is a pointer to a string
* if the member points to a string in conf_template and is not NULL.
* 1. Reserve (malloc) memory for the string.
* 2. Copy the conf_template given string to the reserved memory.
* 3. Change the cnt[0] member (char*) pointing to the string in reserved memory.
* This ensures that we can free and malloc the string when changed
* via http remote control or config file or Command-line options.
*/
malloc_strings(cnt[0]);
/* Restore the argc and argv */
cnt[0]->conf.argv = argv;
cnt[0]->conf.argc = argc;
/*
* Open the motion.conf file. We try in this sequence:
* 1. Command-line
* 2. current working directory
* 3. $HOME/.motion/motion.conf
* 4. sysconfdir/motion.conf
*/
/* Get filename , pid file & log file from Command-line. */
cnt[0]->log_type_str[0] = 0;
cnt[0]->conf_filename[0] = 0;
cnt[0]->pid_file[0] = 0;
cnt[0]->log_file[0] = 0;
cnt[0]->log_level = -1;
conf_cmdline(cnt[0], -1);
if (cnt[0]->conf_filename[0]) { /* User has supplied filename on Command-line. */
strncpy(filename, cnt[0]->conf_filename, PATH_MAX-1);
filename[PATH_MAX-1] = '\0';
fp = fopen (filename, "r");
}
if (!fp) { /* Command-line didn't work, try current dir. */
char path[PATH_MAX];
if (cnt[0]->conf_filename[0])
MOTION_LOG(ALR, TYPE_ALL, SHOW_ERRNO
,_("Configfile %s not found - trying defaults.")
,filename);
if (getcwd(path, sizeof(path)) == NULL) {
MOTION_LOG(ERR, TYPE_ALL, SHOW_ERRNO, _("Error getcwd"));
exit(-1);
}
snprintf(filename, PATH_MAX, "%s/motion.conf", path);
fp = fopen (filename, "r");
}
if (!fp) { /* Specified file does not exist... try default file. */
snprintf(filename, PATH_MAX, "%s/.motion/motion.conf", getenv("HOME"));
fp = fopen(filename, "r");
if (!fp) {
snprintf(filename, PATH_MAX, "%s/motion/motion.conf", sysconfdir);
fp = fopen(filename, "r");
if (!fp) /* There is no config file.... use defaults. */
MOTION_LOG(ALR, TYPE_ALL, SHOW_ERRNO
,_("could not open configfile %s")
,filename);
}
}
/* Now we process the motion.conf config file and close it. */
if (fp) {
strncpy(cnt[0]->conf_filename, filename, sizeof(cnt[0]->conf_filename) - 1);
cnt[0]->conf_filename[sizeof(cnt[0]->conf_filename) - 1] = '\0';
MOTION_LOG(NTC, TYPE_ALL, NO_ERRNO
,_("Processing thread 0 - config file %s"), filename);
cnt = conf_process(cnt, fp);
myfclose(fp);
} else {
MOTION_LOG(CRT, TYPE_ALL, NO_ERRNO
,_("No config file to process, using default values"));
}
/*
* For each thread (given by cnt[i]) being not null
* cnt is an array of pointers to a context type structure
* cnt[0] is the default context structure
* cnt[1], cnt[2], ... are context structures for each thread
* Command line options always wins over config file options
* so we go through each thread and overrides any set Command-line
* options.
*/
i = -1;
while (cnt[++i])
conf_cmdline(cnt[i], i);
/* If pid file was passed from Command-line copy to main thread conf struct. */
if (cnt[0]->pid_file[0])
cnt[0]->conf.pid_file = mystrcpy(cnt[0]->conf.pid_file, cnt[0]->pid_file);
/* If log file was passed from Command-line copy to main thread conf struct. */
if (cnt[0]->log_file[0])
cnt[0]->conf.log_file = mystrcpy(cnt[0]->conf.log_file, cnt[0]->log_file);
/* If log type string was passed from Command-line copy to main thread conf struct. */
if (cnt[0]->log_type_str[0])
cnt[0]->conf.log_type = mystrcpy(cnt[0]->conf.log_type, cnt[0]->log_type_str);
/* if log level was passed from Command-line copy to main thread conf struct. */
if (cnt[0]->log_level != -1)
cnt[0]->conf.log_level = cnt[0]->log_level;
config_parms_intl();
return cnt;
}
/**
* conf_output_parms
* Dump config options to log, useful for support purposes.
* Redact sensitive information and re-add quotation marks where needed (see conf_print).
* Not using the MOTION_LOG macro here to skip the function naming,
* and produce a slightly cleaner dump.
*
* Returns nothing
*/
void conf_output_parms(struct context **cnt)
{
unsigned int i, t = 0;
const char *name, *value;
while(cnt[++t]);
MOTION_LOG(INF, TYPE_ALL, NO_ERRNO
,_("Writing configuration parameters from all files (%d):"), t);
for (t = 0; cnt[t]; t++) {
motion_log(INF, TYPE_ALL, NO_ERRNO,0
,_("Thread %d - Config file: %s"), t, cnt[t]->conf_filename);
i = 0;
while (config_params[i].param_name != NULL) {
name=config_params[i].param_name;
if ((value = config_params[i].print(cnt, NULL, i, t)) != NULL) {
if (!strncmp(name, "netcam_url", 10) ||
!strncmp(name, "netcam_userpass", 15) ||
!strncmp(name, "netcam_highres", 14) ||
!strncmp(name, "stream_cors_header", 18) ||
!strncmp(name, "stream_authentication", 21) ||
!strncmp(name, "webcontrol_authentication", 25) ||
!strncmp(name, "webcontrol_cors_header", 22) ||
!strncmp(name, "webcontrol_key", 14) ||
!strncmp(name, "webcontrol_cert", 15) ||
!strncmp(name, "database_user", 13) ||
!strncmp(name, "database_password", 17))
{
motion_log(INF, TYPE_ALL, NO_ERRNO,0
,_("%-25s <redacted>"), name);
} else {
if (strncmp(name, "text", 4) || strncmp(value, " ", 1))
motion_log(INF, TYPE_ALL, NO_ERRNO,0, "%-25s %s", name, value);
else
motion_log(INF, TYPE_ALL, NO_ERRNO,0, "%-25s \"%s\"", name, value);
}
} else {
if (t == 0) motion_log(INF, TYPE_ALL, NO_ERRNO,0, "%-25s ", name);
}
i++;
}
}
}
/**
* malloc_strings
* goes through the members of a context structure.
* For each context structure member which is a pointer to a string it does this:
* If the member points to a string and is not NULL
* 1. Reserve (malloc) memory for the string
* 2. Copy the original string to the reserved memory
* 3. Change the cnt member (char*) pointing to the string in reserved memory
* This ensures that we can free and malloc the string if it is later changed
*
* Returns nothing.
*/
void malloc_strings(struct context *cnt)
{
unsigned int i = 0;
char **val;
while (config_params[i].param_name != NULL) {
if (config_params[i].copy == copy_string ||
config_params[i].copy == copy_uri) { /* if member is a string */
/* val is made to point to a pointer to the current string. */
val = (char **)((char *)cnt+config_params[i].conf_value);
/*
* If there is a string, malloc() space for it, copy
* the string to new space, and point to the new
* string. we don't free() because we're copying a
* static string.
*/
*val = mystrdup(*val);
}
i++;
}
}
/************************************************************************
* copy functions
*
* copy_bool - convert a bool representation to int
* copy_int - convert a string to int
* copy_string - just a string copy
*
* @param str - A char *, pointing to a string representation of the
* value.
* @param val_ptr - points to the place where to store the value relative
* to pointer pointing to the given context structure
* @cnt - points to a context structure for a thread
*
* The function is given a pointer cnt to a context structure and a pointer val_ptr
* which is an integer giving the position of the structure member relative to the
* pointer of the context structure.
* If the context structure is for thread 0 (cnt[0]->threadnr is zero) then the
* function also sets the value for all the child threads since thread 0 is the
* global thread.
* If the thread given belongs to a child thread (cnt[0]->threadnr is not zero)
* the function will only assign the value for the given thread.
***********************************************************************/
/**
* copy_bool
* Assigns a config option to a new boolean value.
* The boolean is given as a string in str which is converted to 0 or 1
* by the function. Values 1, yes and on are converted to 1 ignoring case.
* Any other value is converted to 0.
*
* Returns context struct.
*/
static struct context **copy_bool(struct context **cnt, const char *str, int val_ptr)
{
void *tmp;
int i;
i = -1;
while (cnt[++i]) {
tmp = (char *)cnt[i]+(int)val_ptr;
if (!strcmp(str, "1") || !strcasecmp(str, "yes") || !strcasecmp(str, "on")) {
*((int *)tmp) = 1;
} else {
*((int *)tmp) = 0;
}
if (cnt[0]->threadnr)
return cnt;
}
return cnt;
}
/**
* copy_int
* Assigns a config option to a new integer value.
* The integer is given as a string in str which is converted to integer
* by the function.
*
* Returns context struct.
*/
static struct context **copy_int(struct context **cnt, const char *str, int val_ptr)
{
void *tmp;
int i;
i = -1;
while (cnt[++i]) {
tmp = (char *)cnt[i]+val_ptr;
if (!strcasecmp(str, "yes") || !strcasecmp(str, "on")) {
*((int *)tmp) = 1;
} else if (!strcasecmp(str, "no") || !strcasecmp(str, "off")) {
*((int *)tmp) = 0;
} else {
*((int *)tmp) = atoi(str);
}
if (cnt[0]->threadnr)
return cnt;
}
return cnt;
}
/**
* copy_string
* Assigns a new string value to a config option.
* Strings are handled differently from bool and int.
* the char *conf->option that we are working on is free()'d
* (if memory for it has already been malloc()'d), and set to
* a freshly malloc()'d string with the value from str,
* or NULL if str is blank.
*
* Returns context struct.
*/
struct context **copy_string(struct context **cnt, const char *str, int val_ptr)
{
char **tmp;
int i;
i = -1;
while (cnt[++i]) {
tmp = (char **)((char *)cnt[i] + val_ptr);
/*
* mystrcpy assigns the new string value
* including free'ing and reserving new memory for it.
*/
*tmp = mystrcpy(*tmp, str);
/*
* Set the option on all threads if setting the option
* for thread 0; otherwise just set that one thread's option.
*/
if (cnt[0]->threadnr)
return cnt;
}
return cnt;
}
/**
* copy_vid_ctrl
* Assigns a new string value to a config option.
* Returns context struct.
*/
static struct context **copy_vid_ctrl(struct context **cnt, const char *config_val, int config_indx) {
int i, indx_vid;
int parmnew_len, parmval;
char *orig_parm, *parmname_new;
indx_vid = 0;
while (config_params[indx_vid].param_name != NULL) {
if (!strcmp(config_params[indx_vid].param_name,"vid_control_params")) break;
indx_vid++;
}
if (strcmp(config_params[indx_vid].param_name,"vid_control_params")){
MOTION_LOG(ALR, TYPE_ALL, NO_ERRNO
,_("Unable to locate vid_control_params"));
return cnt;
}
if (config_val == NULL){
MOTION_LOG(ALR, TYPE_ALL, NO_ERRNO
,_("No value provided to put into vid_control_params"));
}
/* If the depreciated option is the default, then just return */
parmval = atoi(config_val);
if (!strcmp(dep_config_params[config_indx].name,"power_line_frequency") &&
(parmval == -1)) return cnt;
if (strcmp(dep_config_params[config_indx].name,"power_line_frequency") &&
(parmval == 0)) return cnt;
/* Remove underscore from parm name and add quotes*/
if (!strcmp(dep_config_params[config_indx].name,"power_line_frequency")) {
parmname_new = mymalloc(strlen(dep_config_params[config_indx].name) + 3);
sprintf(parmname_new,"%s","\"power line frequency\"");
} else {
parmname_new = mymalloc(strlen(dep_config_params[config_indx].name)+1);
sprintf(parmname_new,"%s",dep_config_params[config_indx].name);
}
/* Recall that the current parms have already been processed by time this is called */
i = -1;
while (cnt[++i]) {
parmnew_len = strlen(parmname_new) + strlen(config_val) + 2; /*Add for = and /0*/
if (cnt[i]->conf.vid_control_params != NULL) {
orig_parm = mymalloc(strlen(cnt[i]->conf.vid_control_params)+1);
sprintf(orig_parm,"%s",cnt[i]->conf.vid_control_params);
parmnew_len = strlen(orig_parm) + parmnew_len + 1; /*extra 1 for the comma */
free(cnt[i]->conf.vid_control_params);
cnt[i]->conf.vid_control_params = mymalloc(parmnew_len);
sprintf(cnt[i]->conf.vid_control_params,"%s=%s,%s",parmname_new, config_val, orig_parm);
free(orig_parm);
} else {
cnt[i]->conf.vid_control_params = mymalloc(parmnew_len);
sprintf(cnt[i]->conf.vid_control_params,"%s=%s", parmname_new, config_val);
}
}
free(parmname_new);
return cnt;
}
/**
* copy_text_double
* Converts the bool of text_double to a 1 or 2 in text_scale
*
* Returns context struct.
*/
static struct context **copy_text_double(struct context **cnt, const char *str, int val_ptr)
{
void *tmp;
int i;
i = -1;
while (cnt[++i]) {
tmp = (char *)cnt[i]+(int)val_ptr;
if (!strcmp(str, "1") || !strcasecmp(str, "yes") || !strcasecmp(str, "on")) {
*((int *)tmp) = 2;
} else {
*((int *)tmp) = 1;
}
if (cnt[0]->threadnr)
return cnt;
}
return cnt;
}
/**
* copy_html_output
* Converts the webcontrol_html_output to the webcontrol_interface option.
*
* Returns context struct.
*/
static struct context **copy_html_output(struct context **cnt, const char *str, int val_ptr)
{
void *tmp;
int i;
i = -1;
while (cnt[++i]) {
tmp = (char *)cnt[i]+(int)val_ptr;
if (!strcmp(str, "1") || !strcasecmp(str, "yes") || !strcasecmp(str, "on")) {
*((int *)tmp) = 0;
} else {
*((int *)tmp) = 1;
}
if (cnt[0]->threadnr)
return cnt;
}
return cnt;
}
struct context **copy_uri(struct context **cnt, const char *str, int val) {
// Here's a complicated regex I found here: https://stackoverflow.com/questions/38608116/how-to-check-a-specified-string-is-a-valid-url-or-not-using-c-code
// Use it for validating URIs.
const char *regex_str = "^(https?:\\/\\/)?([\\da-z\\.-]+)\\.([a-z\\.]{2,6})([\\/\\w \\.-]*)*\\/?$";
regex_t regex;
if (regcomp(&regex, regex_str, REG_EXTENDED) != 0) {
MOTION_LOG(ERR, TYPE_STREAM, NO_ERRNO
,_("Error compiling regex in copy_uri"));
return cnt;
}
// A single asterisk is also valid, so check for that.
if (strcmp(str, "*") != 0 && regexec(&regex, str, 0, NULL, 0) == REG_NOMATCH) {
MOTION_LOG(ERR, TYPE_STREAM, NO_ERRNO
,_("Invalid origin for cors_header in copy_uri"));
regfree(&regex);
return cnt;
}
regfree(&regex);
cnt = copy_string(cnt, str, val);
return cnt;
}
/**
* mystrcpy
* Is used to assign string type fields (e.g. config options)
* In a way so that we the memory is malloc'ed to fit the string.
* If a field is already pointing to a string (not NULL) the memory of the
* old string is free'd and new memory is malloc'ed and filled with the
* new string is copied into the the memory and with the char pointer
* pointing to the new string.
*
* from - pointer to the new string we want to copy
* to - the pointer to the current string (or pointing to NULL)
* If not NULL the memory it points to is free'd.
*
* Returns pointer to the new string which is in malloc'ed memory
* FIXME The strings that are malloc'ed with this function should be freed
* when the motion program is terminated normally instead of relying on the
* OS to clean up.
*/
char *mystrcpy(char *to, const char *from){
/*
* Free the memory used by the to string, if such memory exists,
* and return a pointer to a freshly malloc()'d string with the
* same value as from.
*/
if (to != NULL)
free(to);
return mystrdup(from);
}
/**
* mystrdup
* Truncates the string to the length given by the environment
* variable PATH_MAX to ensure that config options can always contain
* a really long path but no more than that.
*
* Returns a pointer to a freshly malloc()'d string with the same
* value as the string that the input parameter 'from' points to,
* or NULL if the from string is 0 characters.
*/
char *mystrdup(const char *from)
{
char *tmp;
size_t stringlength;
if (from == NULL || !strlen(from)) {
tmp = NULL;
} else {
stringlength = strlen(from);
stringlength = (stringlength < PATH_MAX ? stringlength : PATH_MAX);
tmp = mymalloc(stringlength + 1);
strncpy(tmp, from, stringlength);
/*
* We must ensure the string always has a NULL terminator.
* This necessary because strncpy will not append a NULL terminator
* if the original string is greater than string length.
*/
tmp += stringlength;
*tmp = '\0';
tmp -= stringlength;
}
return tmp;
}
/**
* config_type
* Returns a pointer to string containing value the type of config parameter passed.
*
* Returns const char *.
*/
const char *config_type(config_param *configparam)
{
if (configparam->copy == copy_string)
return "string";
if (configparam->copy == copy_int)
return "int";
if (configparam->copy == copy_bool)
return "bool";
if (configparam->copy == copy_uri)
return "uri";
return "unknown";
}
/**
* print_bool
* Returns a pointer to string containing boolean value 'on' / 'off' or NULL.
*
* Returns const char *.
*/
static const char *print_bool(struct context **cnt, char **str ATTRIBUTE_UNUSED,
int parm, unsigned int threadnr)
{
int val = config_params[parm].conf_value;
if (threadnr &&
*(int*)((char *)cnt[threadnr] + val) == *(int*)((char *)cnt[0] + val))
return NULL;
if (*(int*)((char *)cnt[threadnr] + val))
return "on";
else
return "off";
}
/**
* print_string
* Returns a pointer to a string containing the value of the config option,
* If the thread number is not 0 the string is compared with the value of the same
* option in thread 0.
*
* Returns If the option is not defined NULL is returned.
* If the value is the same, NULL is returned which means that
* the option is not written to the camera config file.
*/
static const char *print_string(struct context **cnt,
char **str ATTRIBUTE_UNUSED, int parm,
unsigned int threadnr)
{
int val = config_params[parm].conf_value;
const char **cptr0, **cptr1;
/* strcmp does not like NULL so we have to check for this also. */
cptr0 = (const char **)((char *)cnt[0] + val);
cptr1 = (const char **)((char *)cnt[threadnr] + val);
if ((threadnr) && (*cptr0 != NULL) && (*cptr1 != NULL) && (!strcmp(*cptr0, *cptr1)))
return NULL;
return *cptr1;
}
/**
* print_int
* Returns a pointer to a string containing the integer of the config option value.
* If the thread number is not 0 the integer is compared with the value of the same
* option in thread 0.
*
* Returns If the option is different, const char *
* If the option is the same, NULL is returned which means that
* the option is not written to the camera config file.
*/
static const char *print_int(struct context **cnt, char **str ATTRIBUTE_UNUSED,
int parm, unsigned int threadnr)
{
static char retval[20];
int val = config_params[parm].conf_value;
if (threadnr &&
*(int*)((char *)cnt[threadnr] + val) == *(int*)((char *)cnt[0] + val))
return NULL;
sprintf(retval, "%d", *(int*)((char *)cnt[threadnr] + val));
return retval;
}
/**
* print_camera
* Modifies a pointer to a string with each 'camera' line.
* Does nothing if single threaded or no pointer was supplied.
*
* Returns NULL
*/
static const char *print_camera(struct context **cnt, char **str,
int parm ATTRIBUTE_UNUSED, unsigned int threadnr)
{
char *retval;
unsigned int i = 0;
if (!str || threadnr)
return NULL;
retval = mymalloc(1);
retval[0] = 0;
while (cnt[++i]) {
/* Skip config files loaded from conf directory */
if (cnt[i]->from_conf_dir)
continue;
retval = myrealloc(retval, strlen(retval) + strlen(cnt[i]->conf_filename) + 10,
"print_camera");
sprintf(retval + strlen(retval), "camera %s\n", cnt[i]->conf_filename);
}
*str = retval;
return NULL;
}
/**
* read_camera_dir
* Read the directory finding all *.conf files in the path
* When found calls config_camera
*/
struct context **read_camera_dir(struct context **cnt, const char *str, int val)
{
DIR *dp;
struct dirent *ep;
size_t name_len;
int i;
char conf_file[PATH_MAX];
dp = opendir(str);
if (dp != NULL)
{
while( (ep = readdir(dp)) )
{
name_len = strlen(ep->d_name);
if (name_len > strlen(EXTENSION) &&
(strncmp(EXTENSION,
(ep->d_name + name_len - strlen(EXTENSION)),
strlen(EXTENSION)) == 0
)
)
{
memset(conf_file, '\0', sizeof(conf_file));
snprintf(conf_file, sizeof(conf_file) - 1, "%s/%s",
str, ep->d_name);
MOTION_LOG(NTC, TYPE_ALL, NO_ERRNO
,_("Processing config file %s"), conf_file );
cnt = config_camera(cnt, conf_file, 0);
/* The last context thread would be ours,
* set it as created from conf directory.
*/
i = 0;
while (cnt[++i]);
cnt[i-1]->from_conf_dir = 1;
}
}
closedir(dp);
}
else
{
MOTION_LOG(ALR, TYPE_ALL, SHOW_ERRNO
,_("Camera directory config %s not found"), str);
}
/* Store the given config value to allow writing it out */
cnt = copy_string(cnt, str, val);
return cnt;
}
/**
* config_camera
* Is called during initial config file loading each time Motion
* finds a camera option in motion.conf
* The size of the context array is increased and the main context's values are
* copied to the new thread.
*
* cnt - pointer to the array of pointers pointing to the context structures
* str - pointer to a string which is the filename of the camera config file
* val - is not used. It is defined to be function header compatible with
* copy_int, copy_bool and copy_string.
*/
static struct context **config_camera(struct context **cnt, const char *str,
int val ATTRIBUTE_UNUSED)
{
int i;
FILE *fp;
if (cnt[0]->threadnr)
return cnt;
fp = fopen(str, "r");
if (!fp) {
MOTION_LOG(ALR, TYPE_ALL, SHOW_ERRNO
,_("Camera config file %s not found"), str);
return cnt;
}
/* Find the current number of threads defined. */
i = -1;
while (cnt[++i]);
/*
* Make space for the threads + the terminating NULL pointer
* in the array of pointers to context structures
* First thread is 0 so the number of threads is i + 1
* plus an extra for the NULL pointer. This gives i + 2
*/
cnt = myrealloc(cnt, sizeof(struct context *) * (i + 2), "config_camera");
/* Now malloc space for an additional context structure for thread nr. i */
cnt[i] = mymalloc(sizeof(struct context));
/* And make this an exact clone of the context structure for thread 0 */
memcpy(cnt[i], cnt[0], sizeof(struct context));
/*
* All the integers are copies of the actual value.
* The strings are all pointers to strings so we need to create
* unique malloc'ed space for all the strings that are not NULL and
* change the string pointers to point to the new strings.
* malloc_strings takes care of this.
*/
malloc_strings(cnt[i]);
/* Mark the end if the array of pointers to context structures. */
cnt[i + 1] = NULL;
/* Process the camera's config file and notify user on console. */
strcpy(cnt[i]->conf_filename, str);
MOTION_LOG(NTC, TYPE_ALL, NO_ERRNO
,_("Processing camera config file %s"), str);
conf_process(cnt + i, fp);
/* Finally we close the camera config file. */
myfclose(fp);
return cnt;
}
/**
* usage
* Prints usage and options allowed from Command-line.
*
* Returns nothing.
*/
static void usage()
{
printf("motion Version "VERSION", Copyright 2000-2018 Jeroen Vreeken/Folkert van Heusden/Kenneth Lavrsen/Motion-Project maintainers\n");
printf("\nHome page :\t https://motion-project.github.io/ \n");
printf("\nusage:\tmotion [options]\n");
printf("\n\n");
printf("Possible options:\n\n");
printf("-b\t\t\tRun in background (daemon) mode.\n");
printf("-n\t\t\tRun in non-daemon mode.\n");
printf("-s\t\t\tRun in setup mode.\n");
printf("-c config\t\tFull path and filename of config file.\n");
printf("-d level\t\tLog level (1-9) (EMG, ALR, CRT, ERR, WRN, NTC, INF, DBG, ALL). default: 6 / NTC.\n");
printf("-k type\t\t\tType of log (COR, STR, ENC, NET, DBL, EVT, TRK, VID, ALL). default: ALL.\n");
printf("-p process_id_file\tFull path and filename of process id file (pid file).\n");
printf("-l log file \t\tFull path and filename of log file.\n");
printf("-m\t\t\tDisable motion detection at startup.\n");
printf("-h\t\t\tShow this screen.\n");
printf("\n");
printf("Motion is configured using a config file only. If none is supplied,\n");
printf("it will read motion.conf from current directory, ~/.motion or %s/motion.\n", sysconfdir);
printf("\n");
}
static void config_parms_intl(){
/* This function prints out the configuration parms side by side
* with the translations. It is currently disabled but put into
* the code so that they can be found by xgettext. If enabled, then
* it will be printed when called from the conf_load.
*/
if (FALSE){
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","daemon",_("daemon"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","setup_mode",_("setup_mode"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","pid_file",_("pid_file"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","log_file",_("log_file"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","log_level",_("log_level"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","log_type",_("log_type"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","quiet",_("quiet"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","native_language",_("native_language"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","camera_name",_("camera_name"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","camera_id",_("camera_id"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","target_dir",_("target_dir"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","videodevice",_("videodevice"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","vid_control_params",_("vid_control_params"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","v4l2_palette",_("v4l2_palette"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","input",_("input"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","norm",_("norm"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","frequency",_("frequency"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","auto_brightness",_("auto_brightness"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","tunerdevice",_("tunerdevice"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","roundrobin_frames",_("roundrobin_frames"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","roundrobin_skip",_("roundrobin_skip"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","roundrobin_switchfilter",_("roundrobin_switchfilter"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_url",_("netcam_url"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_highres",_("netcam_highres"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_userpass",_("netcam_userpass"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_keepalive",_("netcam_keepalive"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_proxy",_("netcam_proxy"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_tolerant_check",_("netcam_tolerant_check"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","netcam_use_tcp",_("netcam_use_tcp"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","mmalcam_name",_("mmalcam_name"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","mmalcam_control_params",_("mmalcam_control_params"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","width",_("width"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","height",_("height"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","framerate",_("framerate"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","minimum_frame_time",_("minimum_frame_time"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","rotate",_("rotate"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","flip_axis",_("flip_axis"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","locate_motion_mode",_("locate_motion_mode"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","locate_motion_style",_("locate_motion_style"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","text_left",_("text_left"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","text_right",_("text_right"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","text_changes",_("text_changes"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","text_scale",_("text_scale"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","text_event",_("text_event"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","emulate_motion",_("emulate_motion"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","threshold",_("threshold"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","threshold_maximum",_("threshold_maximum"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","threshold_tune",_("threshold_tune"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","noise_level",_("noise_level"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","noise_tune",_("noise_tune"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","despeckle_filter",_("despeckle_filter"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","area_detect",_("area_detect"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","mask_file",_("mask_file"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","mask_privacy",_("mask_privacy"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","smart_mask_speed",_("smart_mask_speed"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","lightswitch_percent",_("lightswitch_percent"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","lightswitch_frames",_("lightswitch_frames"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","minimum_motion_frames",_("minimum_motion_frames"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","event_gap",_("event_gap"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","pre_capture",_("pre_capture"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","post_capture",_("post_capture"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_event_start",_("on_event_start"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_event_end",_("on_event_end"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_picture_save",_("on_picture_save"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_area_detected",_("on_area_detected"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_motion_detected",_("on_motion_detected"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_movie_start",_("on_movie_start"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_movie_end",_("on_movie_end"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_camera_lost",_("on_camera_lost"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","on_camera_found",_("on_camera_found"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_output",_("picture_output"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_output_motion",_("picture_output_motion"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_type",_("picture_type"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_quality",_("picture_quality"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_exif",_("picture_exif"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","picture_filename",_("picture_filename"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","snapshot_interval",_("snapshot_interval"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","snapshot_filename",_("snapshot_filename"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_output",_("movie_output"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_output_motion",_("movie_output_motion"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_max_time",_("movie_max_time"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_bps",_("movie_bps"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_quality",_("movie_quality"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_codec",_("movie_codec"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_duplicate_frames",_("movie_duplicate_frames"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_passthrough",_("movie_passthrough"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_filename",_("movie_filename"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_extpipe_use",_("movie_extpipe_use"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","movie_extpipe",_("movie_extpipe"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","timelapse_interval",_("timelapse_interval"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","timelapse_mode",_("timelapse_mode"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","timelapse_fps",_("timelapse_fps"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","timelapse_codec",_("timelapse_codec"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","timelapse_filename",_("timelapse_filename"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","video_pipe",_("video_pipe"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","video_pipe_motion",_("video_pipe_motion"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_port",_("webcontrol_port"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_ipv6",_("webcontrol_ipv6"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_localhost",_("webcontrol_localhost"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_parms",_("webcontrol_parms"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_interface",_("webcontrol_interface"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_auth_method",_("webcontrol_auth_method"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_authentication",_("webcontrol_authentication"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_tls",_("webcontrol_tls"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_cert",_("webcontrol_cert"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_key",_("webcontrol_key"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","webcontrol_cors_header",_("webcontrol_cors_header"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_port",_("stream_port"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_localhost",_("stream_localhost"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_auth_method",_("stream_auth_method"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_authentication",_("stream_authentication"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_tls",_("stream_tls"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_cors_header",_("stream_cors_header"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_preview_scale",_("stream_preview_scale"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_preview_newline",_("stream_preview_newline"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_preview_method",_("stream_preview_method"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_quality",_("stream_quality"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_grey",_("stream_grey"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_motion",_("stream_motion"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_maxrate",_("stream_maxrate"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","stream_limit",_("stream_limit"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_type",_("database_type"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_dbname",_("database_dbname"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_host",_("database_host"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_port",_("database_port"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_user",_("database_user"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_password",_("database_password"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","database_busy_timeout",_("database_busy_timeout"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_log_picture",_("sql_log_picture"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_log_snapshot",_("sql_log_snapshot"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_log_movie",_("sql_log_movie"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_log_timelapse",_("sql_log_timelapse"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_query_start",_("sql_query_start"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_query_stop",_("sql_query_stop"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","sql_query",_("sql_query"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_type",_("track_type"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_auto",_("track_auto"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_port",_("track_port"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_motorx",_("track_motorx"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_motorx_reverse",_("track_motorx_reverse"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_motory",_("track_motory"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_motory_reverse",_("track_motory_reverse"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_maxx",_("track_maxx"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_minx",_("track_minx"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_maxy",_("track_maxy"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_miny",_("track_miny"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_homex",_("track_homex"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_homey",_("track_homey"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_iomojo_id",_("track_iomojo_id"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_step_angle_x",_("track_step_angle_x"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_step_angle_y",_("track_step_angle_y"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_move_wait",_("track_move_wait"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_speed",_("track_speed"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_stepsize",_("track_stepsize"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","track_generic_move",_("track_generic_move"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","camera",_("camera"));
MOTION_LOG(DBG, TYPE_ALL, NO_ERRNO,"%s:%s","camera_dir",_("camera_dir"));
}
}
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