pax_global_header00006660000000000000000000000064143300216160014506gustar00rootroot0000000000000052 comment=74fe185b598c50cfec1e9bc5ac969df438c7716c krmarien-python-foscam-ecad23f/000077500000000000000000000000001433002161600166545ustar00rootroot00000000000000krmarien-python-foscam-ecad23f/LICENSE000066400000000000000000001045051433002161600176660ustar00rootroot00000000000000 GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The GNU General Public License is a free, copyleft license for software and other kinds of works. The licenses for most software and other practical works are designed to take away your freedom to share and change the works. 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If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. But first, please read . krmarien-python-foscam-ecad23f/README.rst000066400000000000000000000030021433002161600203360ustar00rootroot00000000000000============== python-foscam ============== Python Library for Foscam IP Cameras Getting Started =============== Install ------- .. code:: bash $ pip install python-foscam Simple example -------------- Here is a simple example to move camera lens up and stop after 1s. .. code:: python from libpyfoscam import FoscamCamera from time import sleep mycam = FoscamCamera('192.168.0.113', 88, 'admin', 'superuser') mycam.ptz_move_up() sleep(1) mycam.ptz_stop_run() Asynchronous feature -------------------- This example uses the asynchronous feature provided by ``FoscamCamera``. Normally, a command is sent synchronously, waiting for results and blocking the main thread. By initializing ``FoscamCamera`` with `daemon=True` (defaults to False), commands are sent asynchronously. .. code:: python mycam = FoscamCamera('192.168.0.113', 88, 'admin', 'superuser', daemon=True) mycam.get_ip_info() mycam.get_port_info() mycam.refresh_wifi_list() Send command with callback -------------------------- This example illustrates the use of a callback function when the command completes. .. code:: python from libpyfoscam import FoscamCamera, FOSCAM_SUCCESS def print_ipinfo(returncode, params): if returncode != FOSCAM_SUCCESS: print 'Failed to get IPInfo!' return print 'IP: %s, Mask: %s' % (params['ip'], params['mask']) mycam = FoscamCamera('192.168.0.113', 88, 'admin', 'superuser', daemon=False) mycam.get_ip_info(print_ipinfo) krmarien-python-foscam-ecad23f/libpyfoscam/000077500000000000000000000000001433002161600211645ustar00rootroot00000000000000krmarien-python-foscam-ecad23f/libpyfoscam/__init__.py000066400000000000000000000000551433002161600232750ustar00rootroot00000000000000from libpyfoscam.foscam import FoscamCamera krmarien-python-foscam-ecad23f/libpyfoscam/foscam.py000066400000000000000000000713751433002161600230230ustar00rootroot00000000000000""" A module to exploit Foscam Foscam FI9821W/P/HD816W/P camera. 2016-01-22 Python 3 update by https://github.com/markomanninen """ # Python 3 support. Also print -> print(). try: from urllib import urlopen except ImportError: from urllib.request import urlopen try: from urllib import urlencode except ImportError: from urllib.parse import urlencode try: from urllib import unquote except ImportError: from urllib.parse import unquote import xml.etree.ElementTree as ET from threading import Thread try: import ssl ssl_enabled=True except ImportError: ssl_enabled=False from collections import OrderedDict # Foscam error code. FOSCAM_SUCCESS = 0 ERROR_FOSCAM_FORMAT = -1 ERROR_FOSCAM_AUTH = -2 ERROR_FOSCAM_CMD = -3 # Access deny. May the cmd is not supported. ERROR_FOSCAM_EXE = -4 # CGI execute fail. ERROR_FOSCAM_TIMEOUT = -5 ERROR_FOSCAM_UNKNOWN = -7 # -6 and -8 are reserved. ERROR_FOSCAM_UNAVAILABLE = -8 # Disconnected or not a cam. class FoscamError(Exception): def __init__(self, code ): super(FoscamError, self).__init__() self.code = int(code) def __str__(self): return 'ErrorCode: %s' % self.code class FoscamCamera(object): '''A python implementation of the foscam HD816W''' def __init__(self, host, port, usr, pwd, daemon=False, ssl=None, verbose=True): ''' If ``daemon`` is True, the command will be sent unblockedly. ''' self.host = host self.port = port self.usr = usr self.pwd = pwd self.daemon = daemon self.verbose = verbose self.ssl = ssl if ssl_enabled: if port==443 and ssl is None: self.ssl = True if self.ssl is None: self.ssl = False @property def url(self): _url = '%s:%s' % (self.host, self.port) return _url def send_command(self, cmd, params=None, raw=False): ''' Send command to foscam. ''' paramstr = '' if params: paramstr = urlencode(params) paramstr = '&' + paramstr if paramstr else '' cmdurl = 'http://%s/cgi-bin/CGIProxy.fcgi?usr=%s&pwd=%s&cmd=%s%s' % ( self.url, self.usr, self.pwd, cmd, paramstr, ) if self.ssl and ssl_enabled: cmdurl = cmdurl.replace('http:','https:') # Parse parameters from response string. if self.verbose: print ('Send Foscam command: %s' % cmdurl) try: raw_string = '' if self.ssl and ssl_enabled: gcontext = ssl.SSLContext(ssl.PROTOCOL_TLSv1) # disable cert raw_string = urlopen(cmdurl,context=gcontext, timeout=5).read() else: raw_string = urlopen(cmdurl,timeout=5).read() if raw: if self.verbose: print ('Returning raw Foscam response: len=%d' % len(raw_string)) return FOSCAM_SUCCESS, raw_string root = ET.fromstring(raw_string) except: if self.verbose: print ('Foscam exception: ' + raw_string) return ERROR_FOSCAM_UNAVAILABLE, None code = ERROR_FOSCAM_UNKNOWN params = OrderedDict() for child in root.iter(): if child.tag == 'result': code = int(child.text) elif child.tag != 'CGI_Result': params[child.tag] = unquote(child.text) if child.text is not None else None if self.verbose: print ('Received Foscam response: %s, %s' % (code, params)) return code, params def execute_command(self, cmd, params=None, callback=None, raw=False): ''' Execute a command and return a parsed response. ''' def execute_with_callbacks(cmd, params=None, callback=None, raw=False): code, params = self.send_command(cmd, params, raw) if callback: callback(code, params) return code, params if self.daemon: t = Thread(target=execute_with_callbacks, args=(cmd, ), kwargs={'params':params, 'callback':callback, 'raw':raw}) t.daemon = True t.start() else: return execute_with_callbacks(cmd, params, callback, raw) # *************** Network ****************** def get_ip_info(self, callback=None): ''' Get ip infomation ''' return self.execute_command('getIPInfo', callback=callback) def set_ip_info(self, is_dhcp, ip='', gate='', mask='', dns1='', dns2='', callback=None): ''' isDHCP: 0(False), 1(True) System will reboot automatically to take effect after call this CGI command. ''' params = {'isDHCP': is_dhcp, 'ip': ip, 'gate': gate, 'mask': mask, 'dns1': dns1, 'dns2': dns2, } return self.execute_command('setIpInfo', params, callback=callback) def get_port_info(self, callback=None): ''' Get http port and media port of camera. ''' return self.execute_command('getPortInfo', callback=callback) def set_port_info(self, webport, mediaport, httpsport, onvifport, callback=None): ''' Set http port and media port of camera. ''' params = {'webPort' : webport, 'mediaPort' : mediaport, 'httpsPort' : httpsport, 'onvifPort' : onvifport, } return self.execute_command('setPortInfo', params, callback=callback) def refresh_wifi_list(self, callback=None): ''' Start scan the aps around. This operation may takes a while, about 20s or above, the other operation on this device will be blocked during the period. ''' return self.execute_command('refreshWifiList', callback=callback) def get_wifi_list(self, startno, callback=None): ''' Get the aps around after refreshWifiList. Note: Only 10 aps will be returned one time. ''' params = {'startNo': startno} return self.execute_command('getWifiList', params, callback=callback) def set_wifi_setting(self, ssid, psk, isenable, isusewifi, nettype, encryptype, authmode, keyformat, defaultkey, key1='', key2='', key3='', key4='', key1len=64, key2len=64, key3len=64, key4len=64, callback=None): ''' Set wifi config. Camera will not connect to AP unless you enject your cable. ''' params = {'isEnable' : isenable, 'isUseWifi' : isusewifi, 'ssid' : ssid, 'netType' : nettype, 'encryptType': encryptype, 'psk' : psk, 'authMode' : authmode, 'keyFormat' : keyformat, 'defaultKey' : defaultkey, 'key1' : key1, 'key2' : key2, 'key3' : key3, 'key4' : key4, 'key1Len' : key1len, 'key2Len' : key2len, 'key3Len' : key3len, 'key4Len' : key4len, } return self.execute_command('setWifiSetting', params, callback=callback) def get_wifi_config(self, callback=None): ''' Get wifi config ''' return self.execute_command('getWifiConfig', callback=callback) def get_upnp_config(self, callback=None): ''' Get UpnP config. ''' return self.execute_command('getUPnPConfig', callback=callback) def set_upnp_config(self, isenable, callback=None): ''' Set UPnP config ''' params = {'isEnable': isenable} return self.execute_command('setUPnPConfig', params, callback=callback) def get_ddns_config(self, callback=None): ''' Get DDNS config. ''' return self.execute_command('getDDNSConfig', callback=callback) def set_ddns_config(self, isenable, hostname, ddnsserver, user, password, callback=None): ''' Set DDNS config. ''' params = {'isEnable': isenable, 'hostName': hostname, 'ddnsServer': ddnsserver, 'user': user, 'password': password, } return self.execute_command('setDDNSConfig', params, callback=callback) # *************** AV Settings ****************** def get_sub_video_stream_type(self, callback=None): ''' Get the stream type of sub stream. ''' return self.execute_command('getSubVideoStreamType', callback=callback) def set_sub_video_stream_type(self, format, callback=None): ''' Set the stream fromat of sub stream. Supported format: (1) H264 : 0 (2) MotionJpeg 1 ''' params = {'format': format} return self.execute_command('setSubVideoStreamType', params, callback=callback) def set_sub_stream_format(self, format, callback=None): ''' Set the stream fromat of sub stream???? ''' params = {'format': format} return self.execute_command('setSubStreamFormat', params, callback=callback) def get_main_video_stream_type(self, callback=None): ''' Get the stream type of main stream ''' return self.execute_command('getMainVideoStreamType', callback=callback) def set_main_video_stream_type(self, streamtype, callback=None): ''' Set the stream type of main stream ''' params = {'streamType': streamtype} return self.execute_command('setMainVideoStreamType', params, callback=callback) def get_video_stream_param(self, callback=None): ''' Get video stream param ''' return self.execute_command('getVideoStreamParam', callback=callback) def set_video_stream_param(self, streamtype, resolution, bitrate, framerate, gop, isvbr, callback=None): ''' Set the video stream param of stream N streamtype(0~3): Stream N. resolution(0~4): 0 720P, 1 VGA(640*480), 2 VGA(640*360), 3 QVGA(320*240), 4 QVGA(320*180). bitrate: Bit rate of stream type N(20480~2097152). framerate: Frame rate of stream type N. GOP: P frames between 1 frame of stream type N. The suggest value is: X * framerate. isvbr: 0(Not in use currently), 1(In use). ''' params = {'streamType': streamtype, 'resolution': resolution, 'bitRate' : bitrate, 'frameRate' : framerate, 'GOP' : gop, 'isVBR' : isvbr } return self.execute_command('setVideoStreamParam', params, callback=callback) def mirror_video(self, is_mirror, callback=None): ''' Mirror video ``is_mirror``: 0 not mirror, 1 mirror ''' params = {'isMirror': is_mirror} return self.execute_command('mirrorVideo', params, callback=callback) def flip_video(self, is_flip, callback=None): ''' Flip video ``is_flip``: 0 Not flip, 1 Flip ''' params = {'isFlip': is_flip } return self.execute_command('flipVideo', params, callback=callback) def get_mirror_and_flip_setting(self, callback=None): return self.execute_command('getMirrorAndFlipSetting', None, callback=callback) # *************** User account ****************** def change_user_name(self, usrname, newusrname, callback=None): ''' Change user name. ''' params = {'usrName': usrname, 'newUsrName': newusrname, } return self.execute_command('changeUserName', params, callback=callback) def change_password(self, usrname, oldpwd, newpwd, callback=None): ''' Change password. ''' params = {'usrName': usrname, 'oldPwd' : oldpwd, 'newPwd' : newpwd, } return self.execute_command('changePassword', params, callback=callback) # *************** Device manage ******************* def set_system_time(self, time_source, ntp_server, date_format, time_format, time_zone, is_dst, dst, year, mon, day, hour, minute, sec, callback=None): ''' Set system time ''' if ntp_server not in ['time.nist.gov', 'time.kriss.re.kr', 'time.windows.com', 'time.nuri.net', 'Auto', ]: raise ValueError('Unsupported ntpServer') params = {'timeSource': time_source, 'ntpServer' : ntp_server, 'dateFormat': date_format, 'timeFormat': time_format, 'timeZone' : time_zone, 'isDst' : is_dst, 'dst' : dst, 'year' : year, 'mon' : mon, 'day' : day, 'hour' : hour, 'minute' : minute, 'sec' : sec } return self.execute_command('setSystemTime', params, callback=callback) def get_system_time(self, callback=None): ''' Get system time. ''' return self.execute_command('getSystemTime', callback=callback) def get_dev_name(self, callback=None): ''' Get camera name. ''' return self.execute_command('getDevName', callback=callback) def set_dev_name(self, devname, callback=None): ''' Set camera name ''' params = {'devName': devname.encode('gbk')} return self.execute_command('setDevName', params, callback=callback) def get_dev_state(self, callback=None): ''' Get all device state cmd: getDevState return args: ...... record: 0 Not in recording; 1 Recording sdState: 0 No sd card; 1 Sd card OK; 2 SD card read only sdFreeSpace: Free space of sd card by unit of k sdTotalSpace: Total space of sd card by unit of k ...... ''' return self.execute_command('getDevState', callback=callback) def get_dev_info(self, callback=None): ''' Get camera information cmd: getDevInfo ''' return self.execute_command('getDevInfo', callback=callback) def open_infra_led(self, callback=None): ''' Force open infra led cmd: openInfraLed ''' return self.execute_command('openInfraLed', {}, callback=callback) def close_infra_led(self, callback=None): ''' Force close infra led cmd: closeInfraLed ''' return self.execute_command('closeInfraLed', callback=callback) def get_infra_led_config(self, callback=None): ''' Get Infrared LED configuration cmd: getInfraLedConfig ''' return self.execute_command('getInfraLedConfig', callback=callback) def set_infra_led_config(self, mode, callback=None): ''' Set Infrared LED configuration cmd: setInfraLedConfig mode(0,1): 0=Auto mode, 1=Manual mode ''' params = {'mode': mode} return self.execute_command('setInfraLedConfig', params, callback=callback) def get_product_all_info(self, callback=None): ''' Get camera information cmd: getProductAllInfo ''' return self.execute_command('getProductAllInfo', callback=callback) # *************** PTZ Control ******************* def ptz_move_up(self, callback=None): ''' Move up ''' return self.execute_command('ptzMoveUp', callback=callback) def ptz_move_down(self, callback=None): ''' Move down ''' return self.execute_command('ptzMoveDown', callback=callback) def ptz_move_left(self, callback=None): ''' Move left ''' return self.execute_command('ptzMoveLeft', callback=callback) def ptz_move_right(self, callback=None): ''' Move right. ''' return self.execute_command('ptzMoveRight', callback=callback) def ptz_move_top_left(self, callback=None): ''' Move to top left. ''' return self.execute_command('ptzMoveTopLeft', callback=callback) def ptz_move_top_right(self, callback=None): ''' Move to top right. ''' return self.execute_command('ptzMoveTopRight', callback=callback) def ptz_move_bottom_left(self, callback=None): ''' Move to bottom left. ''' return self.execute_command('ptzMoveBottomLeft', callback=callback) def ptz_move_bottom_right(self, callback=None): ''' Move to bottom right. ''' return self.execute_command('ptzMoveBottomRight', callback=callback) def ptz_stop_run(self, callback=None): ''' Stop run PT ''' return self.execute_command('ptzStopRun', callback=callback) def ptz_reset(self, callback=None): ''' Reset PT to default position. ''' return self.execute_command('ptzReset', callback=callback) def ptz_get_preset(self, callback=None): ''' Get presets. ''' return self.execute_command('getPTZPresetPointList', callback=callback) def ptz_goto_preset(self, name, callback=None): ''' Move to preset. ''' params = {'name': name} return self.execute_command('ptzGotoPresetPoint', params, callback=callback) def get_ptz_speed(self, callback=None): ''' Get the speed of PT ''' return self.execute_command('getPTZSpeed', callback=callback) def set_ptz_speed(self, speed, callback=None): ''' Set the speed of PT ''' return self.execute_command('setPTZSpeed', {'speed':speed}, callback=callback) def get_ptz_selftestmode(self, callback=None): ''' Get the selftest mode of PTZ ''' return self.execute_command('getPTZSelfTestMode', callback=callback) def set_ptz_selftestmode(self, mode=0, callback=None): ''' Set the selftest mode of PTZ mode = 0: No selftest mode = 1: Normal selftest mode = 1: After normal selftest, then goto presetpoint-appointed ''' return self.execute_command('setPTZSelfTestMode', {'mode':mode}, callback=callback ) def get_ptz_preset_point_list(self, callback=None): ''' Get the preset list. ''' return self.execute_command('getPTZPresetPointList', {}, callback=callback) def ptz_zoom_in(self, callback=None): ''' Get the preset list. Zoom In. ''' return self.execute_command('zoomIn', callback=callback) def ptz_zoom_out(self, callback=None): ''' Move to bottom right. ''' return self.execute_command('zoomOut', callback=callback) def ptz_zoom_stop(self, callback=None): ''' Stop run PT ''' return self.execute_command('zoomStop', callback=callback) def sleep(self, callback=None): ''' Rotate to sleep position and sleep ''' return self.execute_command('alexaSleep', callback=callback) def wake_up(self, callback=None): ''' Wakup camera ''' return self.execute_command('alexaWakeUp', callback=callback) def is_asleep(self, callback=None): ''' Wakup camera ''' ret, data = self.execute_command('getAlexaState', callback=callback) is_asleep = int(data['state']) == 1 if ret == 0 else False return ret, is_asleep # *************** AV Function ******************* def get_motion_detect_config(self, callback=None): ''' Get motion detect config ''' return self.execute_command('getMotionDetectConfig', callback=callback) def set_motion_detect_config(self, params, callback=None): ''' Get motion detect config ''' return self.execute_command('setMotionDetectConfig', params, callback=callback) def set_motion_detection(self, enabled=1): ''' Get the current config and set the motion detection on or off ''' result, current_config = self.get_motion_detect_config() if result != FOSCAM_SUCCESS: return result current_config['isEnable'] = enabled self.set_motion_detect_config(current_config) return FOSCAM_SUCCESS def enable_motion_detection(self): ''' Enable motion detection ''' result = self.set_motion_detection(1) return result def disable_motion_detection(self): ''' disable motion detection ''' result = self.set_motion_detection(0) return result # These API calls support FI9900P devices, which use a different CGI command def get_motion_detect_config1(self, callback=None): ''' Get motion detect config ''' return self.execute_command('getMotionDetectConfig1', callback=callback) def set_motion_detect_config1(self, params, callback=None): ''' Get motion detect config ''' return self.execute_command('setMotionDetectConfig1', params, callback=callback) def set_motion_detection1(self, enabled=1): ''' Get the current config and set the motion detection on or off ''' result, current_config = self.get_motion_detect_config1() if result != FOSCAM_SUCCESS: return result current_config['isEnable'] = enabled self.set_motion_detect_config1(current_config) def enable_motion_detection1(self): ''' Enable motion detection ''' self.set_motion_detection1(1) def disable_motion_detection1(self): ''' disable motion detection ''' self.set_motion_detection1(0) def get_alarm_record_config(self, callback=None): ''' Get alarm record config ''' return self.execute_command('getAlarmRecordConfig', callback=callback) def set_alarm_record_config(self, is_enable_prerecord=1, prerecord_secs=5, alarm_record_secs=300, callback=None): ''' Set alarm record config Return: set result(0-success, -1-error) ''' params = {'isEnablePreRecord': is_enable_prerecord, 'preRecordSecs' : prerecord_secs, 'alarmRecordSecs' : alarm_record_secs } return self.execute_command('setAlarmRecordConfig', params, callback=callback) def get_local_alarm_record_config(self, callback=None): ''' Get local alarm-record config ''' return self.execute_command('getLocalAlarmRecordConfig', callback=callback) def set_local_alarm_record_config(self, is_enable_local_alarm_record = 1, local_alarm_record_secs = 30, callback=None): ''' Set local alarm-record config `is_enable_local_alarm_record`: 0 disable, 1 enable ''' params = {'isEnableLocalAlarmRecord': is_enable_local_alarm_record, 'localAlarmRecordSecs' : local_alarm_record_secs} return self.execute_command('setLocalAlarmRecordConfig', params, callback=callback) def get_h264_frm_ref_mode(self, callback=None): ''' Get grame shipping reference mode of H264 encode stream. Return args: mode: 0 Normal reference mode 1 Two frames are seprated by four skipping frames ''' return self.execute_command('getH264FrmRefMode', callback=callback) def set_h264_frm_ref_mode(self, mode=1, callback=None): ''' Set frame shipping reference mode of H264 encode stream. params: `mode`: see docstr of meth::get_h264_frm_ref_mode ''' params = {'mode': mode} return self.execute_command('setH264FrmRefMode', params, callback) def get_schedule_record_config(self, callback=None): ''' Get schedule record config. cmd: getScheduleRecordConfig Return args: isEnable: 0/1 recordLevel: 0 ~ ? spaceFullMode: 0 ~ ? isEnableAudio: 0/1 schedule[N]: N <- (0 ~ 6) ''' return self.execute_command('getScheduleRecordConfig', callback=callback) def set_schedule_record_config(self, is_enable, record_level, space_full_mode, is_enable_audio, schedule0 = 0, schedule1 = 0, schedule2 = 0, schedule3 = 0, schedule4 = 0, schedule5 = 0, schedule6 = 0, callback=None): ''' Set schedule record config. cmd: setScheduleRecordConfig args: See docstring of meth::get_schedule_record_config ''' params = {'isEnable' : is_enable, 'isEnableAudio': is_enable_audio, 'recordLevel' : record_level, 'spaceFullMode': space_full_mode, 'schedule0' : schedule0, 'schedule1' : schedule1, 'schedule2' : schedule2, 'schedule3' : schedule3, 'schedule4' : schedule4, 'schedule5' : schedule5, 'schedule6' : schedule6, } return self.execute_command('setScheduleRecordConfig', params, callback=callback) def get_record_path(self, callback=None): ''' Get Record path: sd/ftp cmd: getRecordPath return args: path: (0,SD), (2, FTP) free: free size(K) total: total size(K) ''' return self.execute_command('getRecordPath', callback=callback) def set_record_path(self, path, callback=None): ''' Set Record path: sd/ftp cmd: setRecordPath param: path: (0,SD), (2, FTP) ''' params = {'Path': path} return self.execute_command('setRecordPath', params, callback=callback) # *************** SnapPicture Function ******************* def snap_picture_2(self, callback=None): ''' Manually request snapshot. Returns raw JPEG data. cmd: snapPicture2 ''' return self.execute_command('snapPicture2', {}, callback=callback, raw=True) # ******************* SMTP Functions ********************* def set_smtp_config(self, params, callback=None): ''' Set smtp settings using the array of parameters ''' return self.execute_command('setSMTPConfig', params, callback=callback) def get_smtp_config(self, callback=None): ''' Get smtp settings using the array of parameters ''' return self.execute_command('getSMTPConfig', callback=callback) # ********************** Misc **************************** def get_log(self, offset, count=10, callback=None): ''' Retrieve log records from camera. cmd: getLog param: offset: log offset for first record count: number of records to return ''' params = {'offset': offset, 'count': count} return self.execute_command('getLog', params, callback=callback) krmarien-python-foscam-ecad23f/setup.cfg000066400000000000000000000001451433002161600204750ustar00rootroot00000000000000[metadata] description-file = README.rst [tool:pytest] testpaths = tests norecursedirs = .git, docs krmarien-python-foscam-ecad23f/setup.py000066400000000000000000000023451433002161600203720ustar00rootroot00000000000000#!/usr/bin/python from setuptools import setup, find_packages import os CLASSIFIERS = [ 'Development Status :: 3 - Alpha', 'Environment :: Console', 'Intended Audience :: Customer Service', 'Intended Audience :: Developers', 'Intended Audience :: Education', 'Intended Audience :: Science/Research', 'Intended Audience :: Telecommunications Industry', 'Natural Language :: English', 'Operating System :: POSIX', 'Topic :: Software Development :: Libraries :: Python Modules', 'Topic :: Multimedia :: Sound/Audio', 'Topic :: Utilities', "Programming Language :: Python", "Programming Language :: Python :: 2", "Programming Language :: Python :: 2.6", "Programming Language :: Python :: 2.7", "Programming Language :: Python :: 3", ] setup( name='libpyfoscam', version='1.2.2', description='Python Library for Foscam IP Cameras', long_description=open('README.rst', 'r').read(), author='Viswanathan S', author_email='viswa.swami@gmail.com', url='https://github.com/krmarien/python-foscam', include_package_data=True, license='LGPLv3+', packages=find_packages(exclude=['tests']), zip_safe=False, keywords=['foscam', 'Camera', 'IPC'], ) krmarien-python-foscam-ecad23f/tests/000077500000000000000000000000001433002161600200165ustar00rootroot00000000000000krmarien-python-foscam-ecad23f/tests/__init__.py000066400000000000000000000000001433002161600221150ustar00rootroot00000000000000krmarien-python-foscam-ecad23f/tests/camtest.py000066400000000000000000000313601433002161600220330ustar00rootroot00000000000000import os.path import unittest from time import sleep try: # PY3 from configparser import ConfigParser except ImportError: from ConfigParser import SafeConfigParser as ConfigParser from libpyfoscam.foscam import FoscamCamera, FOSCAM_SUCCESS config = ConfigParser() config_filepath = os.path.join(os.path.dirname(__file__), 'camtest.cfg') if os.path.exists(config_filepath): config.read([config_filepath]) config_defaults = config.defaults() CAM_HOST = config_defaults.get('host') or '' CAM_PORT = config_defaults.get('port') or 88 CAM_USER = config_defaults.get('user') or 'admin' CAM_PASS = config_defaults.get('pass') or 'superuser' CAM_WIFI_SSID = config_defaults.get('test_wifi_ssid') or '' CAM_WIFI_PASS = config_defaults.get('test_wifi_pass') or '' class CallbackForTest(object): def __call__(self, *args, **kwargs): self.args = args self.kwargs = kwargs class TestFoscam(unittest.TestCase): def setUp(self): self.foscam = FoscamCamera(CAM_HOST, CAM_PORT, CAM_USER, CAM_PASS) # ***************** Test Account Functions *************************** def test_change_user_name(self): self.foscam.change_user_name('admin', 'testuser') self.foscam.usr = 'testuser' self.foscam.get_ip_info() self.foscam.change_user_name('testuser', 'admin') def test_change_password(self): self.foscam.change_password('admin', 'superuser', 'testpassword') self.foscam.pwd = 'testpassword' self.foscam.get_ip_info() self.foscam.change_password('admin', 'testpassword', 'superuser') # ***************** Test AV Functions ********************* def test_sub_video_stream(self): self.foscam.get_sub_video_stream_type() self.foscam.set_sub_stream_format(1) self.foscam.get_sub_video_stream_type() def test_video_stream_param(self): self.foscam.get_main_video_stream_type() self.foscam.get_video_stream_param() self.foscam.set_video_stream_param(0, 0, 2 * 1024 * 1024, 30, 30, 1) self.foscam.get_video_stream_param() def test_mirror_video(self): # Turn on mirror rc, args = self.foscam.mirror_video(1) self.assertEqual(rc, 0) # Turn off mirror rc, args = self.foscam.mirror_video(0) self.assertEqual(rc, 0) def test_flip_video(self): # Filp rc, args = self.foscam.flip_video(1) self.assertEqual(rc, 0) # Not Filp rc, args = self.foscam.flip_video(0) self.assertEqual(rc, 0) def test_get_mirror_and_flip_setting(self): rc, args = self.foscam.get_mirror_and_flip_setting() self.assertEqual(rc, 0) # ***************** Test Network Functions ********************* def test_get_ip_info(self): rc, info = self.foscam.get_ip_info() self.assertTrue(rc == 0) # ***************** Test Network Functions ********************* def test_set_ip_info(self): old = self.foscam.get_ip_info() self.foscam.set_ip_info(is_dhcp=0, ip='192.168.0.113', gate='192.168.0.1', mask='255.255.255.0', dns1='192.168.0.1', dns2='8.8.8.8') # Wait to reboot. sleep(30) self.foscam.get_ip_info() def test_set_port(self): rc, args = self.foscam.get_port_info() rc, args = self.foscam.set_port_info(webport=88, mediaport=88, httpsport=443, onvifport=888) self.assertEqual(rc, 0) rc, args = self.foscam.get_port_info() def test_set_upnp(self): self.foscam.get_upnp_config() self.foscam.set_upnp_config(0) self.foscam.set_upnp_config(1) def test_wifi(self): self.foscam.refresh_wifi_list() self.foscam.get_wifi_list(0) self.foscam.get_wifi_config() self.foscam.set_wifi_setting( ssid=CAM_WIFI_SSID, psk=CAM_WIFI_PASS, isenable=0, isusewifi=0, nettype=0, encryptype=4, authmode=1, keyformat=0, defaultkey=1) # *************** PTZ Move ******************************** def test_move_up(self): # Test Move up self.foscam.ptz_move_up() self.foscam.ptz_stop_run() def test_move_down(self): # Test Move down self.foscam.ptz_move_down() self.foscam.ptz_stop_run() def test_move_left(self): # Test Move left self.foscam.ptz_move_left() self.foscam.ptz_stop_run() def test_move_right(self): self.foscam.ptz_move_right() self.foscam.ptz_stop_run() def test_move_top_left(self): self.foscam.ptz_move_top_left() self.foscam.ptz_stop_run() def test_move_top_right(self): self.foscam.ptz_move_top_right() self.foscam.ptz_stop_run() def test_move_bottom_left(self): self.foscam.ptz_move_bottom_left() self.foscam.ptz_stop_run() def test_move_bottom_right(self): self.foscam.ptz_move_bottom_right() self.foscam.ptz_stop_run() def test_reset(self): self.foscam.ptz_reset() def test_ptz_speed(self): self.foscam.get_ptz_speed() self.foscam.set_ptz_speed(4) self.foscam.ptz_move_up() self.foscam.ptz_stop_run() def test_ptz_selftest(self): self.foscam.set_ptz_selftestmode(mode=1) flag, kwargs = self.foscam.get_ptz_selftestmode() self.assertTrue('mode' in kwargs and int(kwargs['mode']) == 1) self.foscam.set_ptz_selftestmode(mode=0) flag, kwargs = self.foscam.get_ptz_selftestmode() self.assertTrue('mode' in kwargs and int(kwargs['mode']) == 0) # ***************** Test device manage ****************** def test_get_set_system_time(self): rc, args = self.foscam.get_system_time() self.assertTrue(rc == 0) self.foscam.set_system_time(time_source=args['timeSource'], ntp_server=args['ntpServer'], date_format=args['dateFormat'], time_format=args['timeFormat'], time_zone=args['timeZone'], is_dst=args['isDst'], dst=args['dst'], year=args['year'], mon=args['mon'], day=args['day'], hour=args['hour'], minute=args['minute'], sec=args['sec'], ) def test_devname(self): rc, args = self.foscam.get_dev_name() self.foscam.set_dev_name('dev cam') self.foscam.get_dev_name() self.foscam.set_dev_name(args['devName']) def test_dev_state(self): rc, args = self.foscam.get_dev_state() self.assertEqual(rc, 0) def test_dev_info(self): rc, args = self.foscam.get_dev_info() self.assertEqual(rc, 0) def test_open_infra_led(self): rc, args = self.foscam.open_infra_led() self.assertEqual(rc, 0) def test_close_infra_led(self): rc, args = self.foscam.close_infra_led() self.assertEqual(rc, 0) def test_get_infra_led_config(self): rc, args = self.foscam.get_infra_led_config() self.assertEqual(rc, 0) def test_set_infra_led_config(self): rc, args = self.foscam.set_infra_led_config(1) self.assertEqual(rc, 0) def test_get_product_all_info(self): rc, args = self.foscam.get_product_all_info() self.assertEqual(rc, 0) self.assertIn('modelName', args) # ************ Test AV Function ************************* def test_get_alarm_record_config(self): print(self.foscam.get_alarm_record_config()) def test_set_alarm_record_config(self): rc, old_args = self.foscam.get_alarm_record_config() new_args = {'isEnablePreRecord': 1, 'alarmRecordSecs': 240, 'preRecordSecs': 5 } self.foscam.set_alarm_record_config( alarm_record_secs=new_args['alarmRecordSecs'], prerecord_secs=new_args['preRecordSecs']) rc, args = self.foscam.get_alarm_record_config() self.assertTrue(rc == 0) self.assertTrue(int(args['alarmRecordSecs']) == new_args['alarmRecordSecs']) self.assertTrue(int(args['preRecordSecs']) == new_args['preRecordSecs']) self.foscam.set_alarm_record_config( alarm_record_secs=old_args['alarmRecordSecs'], prerecord_secs=old_args['preRecordSecs']) def test_get_local_alarm_record_config(self): rc, args = self.foscam.get_local_alarm_record_config() self.assertTrue(set(args) == {'isEnableLocalAlarmRecord', 'localAlarmRecordSecs'}) def test_set_local_alarm_recor_config(self): rc, args = self.foscam.set_local_alarm_record_config( is_enable_local_alarm_record=1, local_alarm_record_secs=60) self.assertTrue(rc == 0) rc, args = self.foscam.get_local_alarm_record_config() self.assertTrue(all([rc == 0, args['isEnableLocalAlarmRecord'] == '1', args['localAlarmRecordSecs'] == '60'])) def test_get_h264_frm_ref_mode(self): rc, args = self.foscam.get_h264_frm_ref_mode() self.assertEqual(rc, 0) self.assertEqual(list(args.keys()), ['mode']) def test_set_h264_frm_ref_mode(self): mode = 3 rc, args = self.foscam.set_h264_frm_ref_mode(mode=mode) self.assertEqual(rc, 0) rc, args = self.foscam.get_h264_frm_ref_mode() self.assertEqual(rc, 0) self.assertEqual(args['mode'], str(mode)) def test_get_schedule_record_config(self): all_args = {'isEnable', 'isEnableAudio', 'recordLevel', 'schedule0', 'schedule1', 'schedule2', 'schedule3', 'schedule4', 'schedule5', 'schedule6', 'spaceFullMode'} rc, args = self.foscam.get_schedule_record_config() self.assertTrue(rc == 0) self.assertTrue(set(args) == all_args) def test_set_schedule_record_config(self): rc, args = self.foscam.set_schedule_record_config( is_enable=1, record_level=4, space_full_mode=0, is_enable_audio=0) self.assertTrue(rc == 0) def test_get_record_path(self): rc, args = self.foscam.get_record_path() self.assertTrue(rc == 0) self.assertTrue(set(args) == {'path', 'free', 'total'}) def test_set_record_path(self): rc, args = self.foscam.get_record_path() self.assertTrue(rc == 0) rc, args = self.foscam.set_record_path(path=0) self.assertTrue(rc == 0) def test_get_ptz_preset_point_list(self): rc, args = self.foscam.get_ptz_preset_point_list() self.assertTrue('point0' in args) # ******************* Other ***************************** def test_unblocked_execute(self): self.foscam.daemon = True self.foscam.ptz_move_up() sleep(0.5) self.foscam.ptz_stop_run() def test_callback(self): def print_res(*args, **kwargs): with open('tmp.txt', 'w') as f: f.write(str(args)) f.write(str(kwargs)) self.foscam.daemon = True self.foscam.get_ip_info(print_res) timeout = 10 flag = False while timeout >= 0: try: with open('tmp.txt', 'r') as new_f: self.assertTrue(new_f.read() != '') flag = True break except Exception as e: print(e) pass sleep(0.5) timeout -= 0.5 self.assertTrue(flag) # *************** SnapPicture Function ******************* def test_snap_picture_2(self): # also test callback with raw data callback = CallbackForTest() rc, data = self.foscam.snap_picture_2(callback=callback) self.assertEqual(rc, FOSCAM_SUCCESS) with open('tmp.jpg', 'wb') as fp: fp.write(data) self.assertSequenceEqual(callback.args, (rc, data)) # ********************** Misc **************************** def test_get_log(self): # also test callback with non-raw data callback = CallbackForTest() rc, args = self.foscam.get_log(0, callback=callback) self.assertEqual(rc, FOSCAM_SUCCESS) self.assertTrue('log0' in args) self.assertSequenceEqual(callback.args, (rc, args)) if __name__ == '__main__': unittest.main()