#!/usr/bin/python ''' The MIT License (MIT) Copyright (c) 2013-2016 SRS(ossrs) Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ''' """ the api-server is a default demo server for srs to call when srs get some event, for example, when client connect to srs, srs can invoke the http api of the api-server """ import sys # reload sys model to enable the getdefaultencoding method. reload(sys) # set the default encoding to utf-8 # using exec to set the encoding, to avoid error in IDE. exec("sys.setdefaultencoding('utf-8')") assert sys.getdefaultencoding().lower() == "utf-8" import os, json, time, datetime, cherrypy, threading, urllib2, shlex, subprocess import cherrypy.process.plugins # simple log functions. def trace(msg): date = datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S") print "[%s][trace] %s"%(date, msg) # enable crossdomain access for js-client # define the following method: # def OPTIONS(self, *args, **kwargs) # enable_crossdomain() # invoke this method to enable js to request crossdomain. def enable_crossdomain(): cherrypy.response.headers["Access-Control-Allow-Origin"] = "*" cherrypy.response.headers["Access-Control-Allow-Methods"] = "GET, POST, HEAD, PUT, DELETE" # generate allow headers for crossdomain. allow_headers = ["Cache-Control", "X-Proxy-Authorization", "X-Requested-With", "Content-Type"] cherrypy.response.headers["Access-Control-Allow-Headers"] = ",".join(allow_headers) # error codes definition class Error: # ok, success, completed. success = 0 # error when parse json system_parse_json = 100 # request action invalid request_invalid_action = 200 # cdn node not exists cdn_node_not_exists = 201 ''' handle the clients requests: connect/disconnect vhost/app. ''' class RESTClients(object): exposed = True def GET(self): enable_crossdomain() clients = {} return json.dumps(clients) ''' for SRS hook: on_connect/on_close on_connect: when client connect to vhost/app, call the hook, the request in the POST data string is a object encode by json: { "action": "on_connect", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "tcUrl": "rtmp://video.test.com/live?key=d2fa801d08e3f90ed1e1670e6e52651a", "pageUrl": "http://www.test.com/live.html" } on_close: when client close/disconnect to vhost/app/stream, call the hook, the request in the POST data string is a object encode by json: { "action": "on_close", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "send_bytes": 10240, "recv_bytes": 10240 } if valid, the hook must return HTTP code 200(Stauts OK) and response an int value specifies the error code(0 corresponding to success): 0 ''' def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to clients, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_connect": code = self.__on_connect(json_req) elif action == "on_close": code = self.__on_close(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() def __on_connect(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, tcUrl=%s, pageUrl=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["tcUrl"], req["pageUrl"] )) # TODO: process the on_connect event return code def __on_close(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, send_bytes=%s, recv_bytes=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["send_bytes"], req["recv_bytes"] )) # TODO: process the on_close event return code ''' handle the streams requests: publish/unpublish stream. ''' class RESTStreams(object): exposed = True def GET(self): enable_crossdomain() streams = {} return json.dumps(streams) ''' for SRS hook: on_publish/on_unpublish on_publish: when client(encoder) publish to vhost/app/stream, call the hook, the request in the POST data string is a object encode by json: { "action": "on_publish", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy" } on_unpublish: when client(encoder) stop publish to vhost/app/stream, call the hook, the request in the POST data string is a object encode by json: { "action": "on_unpublish", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy" } if valid, the hook must return HTTP code 200(Stauts OK) and response an int value specifies the error code(0 corresponding to success): 0 ''' def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to streams, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_publish": code = self.__on_publish(json_req) elif action == "on_unpublish": code = self.__on_unpublish(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() def __on_publish(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"] )) # TODO: process the on_publish event return code def __on_unpublish(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"] )) # TODO: process the on_unpublish event return code ''' handle the dvrs requests: dvr stream. ''' class RESTDvrs(object): exposed = True def GET(self): enable_crossdomain() dvrs = {} return json.dumps(dvrs) ''' for SRS hook: on_dvr on_dvr: when srs reap a dvr file, call the hook, the request in the POST data string is a object encode by json: { "action": "on_dvr", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy", "cwd": "/usr/local/srs", "file": "./objs/nginx/html/live/livestream.1420254068776.flv" } if valid, the hook must return HTTP code 200(Stauts OK) and response an int value specifies the error code(0 corresponding to success): 0 ''' def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to dvrs, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_dvr": code = self.__on_dvr(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() def __on_dvr(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s, cwd=%s, file=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"], req["cwd"], req["file"] )) # TODO: process the on_dvr event return code ''' handle the hls proxy requests: hls stream. ''' class RESTProxy(object): exposed = True ''' for SRS hook: on_hls_notify on_hls_notify: when srs reap a ts file of hls, call this hook, used to push file to cdn network, by get the ts file from cdn network. so we use HTTP GET and use the variable following: [app], replace with the app. [stream], replace with the stream. [param], replace with the param. [ts_url], replace with the ts url. ignore any return data of server. ''' def GET(self, *args, **kwargs): enable_crossdomain() url = "http://" + "/".join(args); print "start to proxy url: %s"%url f = None try: f = urllib2.urlopen(url) f.read() except: print "error proxy url: %s"%url finally: if f: f.close() print "completed proxy url: %s"%url return url ''' handle the hls requests: hls stream. ''' class RESTHls(object): exposed = True ''' for SRS hook: on_hls_notify on_hls_notify: when srs reap a ts file of hls, call this hook, used to push file to cdn network, by get the ts file from cdn network. so we use HTTP GET and use the variable following: [app], replace with the app. [stream], replace with the stream. [param], replace with the param. [ts_url], replace with the ts url. ignore any return data of server. ''' def GET(self, *args, **kwargs): enable_crossdomain() hls = { "args": args, "kwargs": kwargs } return json.dumps(hls) ''' for SRS hook: on_hls on_hls: when srs reap a dvr file, call the hook, the request in the POST data string is a object encode by json: { "action": "on_dvr", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy", "duration": 9.68, // in seconds "cwd": "/usr/local/srs", "file": "./objs/nginx/html/live/livestream.1420254068776-100.ts", "seq_no": 100 } if valid, the hook must return HTTP code 200(Stauts OK) and response an int value specifies the error code(0 corresponding to success): 0 ''' def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to hls, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_hls": code = self.__on_hls(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() def __on_hls(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s, duration=%s, cwd=%s, file=%s, seq_no=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"], req["duration"], req["cwd"], req["file"], req["seq_no"] )) # TODO: process the on_hls event return code ''' handle the sessions requests: client play/stop stream ''' class RESTSessions(object): exposed = True def GET(self): enable_crossdomain() sessions = {} return json.dumps(sessions) ''' for SRS hook: on_play/on_stop on_play: when client(encoder) publish to vhost/app/stream, call the hook, the request in the POST data string is a object encode by json: { "action": "on_play", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy", "pageUrl": "http://www.test.com/live.html" } on_stop: when client(encoder) stop publish to vhost/app/stream, call the hook, the request in the POST data string is a object encode by json: { "action": "on_stop", "client_id": 1985, "ip": "192.168.1.10", "vhost": "video.test.com", "app": "live", "stream": "livestream", "param":"?token=xxx&salt=yyy" } if valid, the hook must return HTTP code 200(Stauts OK) and response an int value specifies the error code(0 corresponding to success): 0 ''' def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to sessions, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_play": code = self.__on_play(json_req) elif action == "on_stop": code = self.__on_stop(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() def __on_play(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s, pageUrl=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"], req["pageUrl"] )) # TODO: process the on_play event return code def __on_stop(self, req): code = Error.success trace("srs %s: client id=%s, ip=%s, vhost=%s, app=%s, stream=%s, param=%s"%( req["action"], req["client_id"], req["ip"], req["vhost"], req["app"], req["stream"], req["param"] )) # TODO: process the on_stop event return code global_arm_server_id = os.getpid(); class ArmServer: def __init__(self): global global_arm_server_id global_arm_server_id += 1 self.id = str(global_arm_server_id) self.ip = None self.device_id = None self.summaries = None self.devices = None self.public_ip = cherrypy.request.remote.ip self.heartbeat = time.time() self.clients = 0 def dead(self): dead_time_seconds = 20 if time.time() - self.heartbeat > dead_time_seconds: return True return False def json_dump(self): data = {} data["id"] = self.id data["ip"] = self.ip data["device_id"] = self.device_id data["summaries"] = self.summaries data["devices"] = self.devices data["public_ip"] = self.public_ip data["heartbeat"] = self.heartbeat data["heartbeat_h"] = time.strftime("%Y-%m-%d %H:%M:%S",time.localtime(self.heartbeat)) data["api"] = "http://%s:1985/api/v1/summaries"%(self.ip) data["console"] = "http://ossrs.net/console/ng_index.html#/summaries?host=%s&port=1985"%(self.ip) return data ''' the server list ''' class RESTServers(object): exposed = True def __init__(self): self.__nodes = [] self.__last_update = datetime.datetime.now(); self.__lock = threading.Lock() def __get_node(self, device_id): for node in self.__nodes: if node.device_id == device_id: return node return None def __refresh_nodes(self): while len(self.__nodes) > 0: has_dead_node = False for node in self.__nodes: if node.dead(): self.__nodes.remove(node) has_dead_node = True if not has_dead_node: break ''' post to update server ip. request body: the new raspberry-pi server ip. TODO: FIXME: more info. ''' def POST(self): enable_crossdomain() try: self.__lock.acquire() req = cherrypy.request.body.read() trace("post to nodes, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code":code, "data": None}) device_id = json_req["device_id"] node = self.__get_node(device_id) if node is None: node = ArmServer() self.__nodes.append(node) node.ip = json_req["ip"] if "summaries" in json_req: node.summaries = json_req["summaries"] if "devices" in json_req: node.devices = json_req["devices"] node.device_id = device_id node.public_ip = cherrypy.request.remote.ip node.heartbeat = time.time() return json.dumps({"code":Error.success, "data": {"id":node.id}}) finally: self.__lock.release() ''' get all servers which report to this api-server. ''' def GET(self, id=None): enable_crossdomain() try: self.__lock.acquire() self.__refresh_nodes() data = [] for node in self.__nodes: if id == None or node.id == str(id) or node.device_id == str(id): data.append(node.json_dump()) return json.dumps(data) finally: self.__lock.release() def DELETE(self, id): enable_crossdomain() raise cherrypy.HTTPError(405, "Not allowed.") def PUT(self, id): enable_crossdomain() raise cherrypy.HTTPError(405, "Not allowed.") def OPTIONS(self, *args, **kwargs): enable_crossdomain() global_chat_id = os.getpid(); ''' the chat streams, public chat room. ''' class RESTChats(object): exposed = True global_id = 100 def __init__(self): # object fields: # id: an int value indicates the id of user. # username: a str indicates the user name. # url: a str indicates the url of user stream. # agent: a str indicates the agent of user. # join_date: a number indicates the join timestamp in seconds. # join_date_str: a str specifies the formated friendly time. # heatbeat: a number indicates the heartbeat timestamp in seconds. # vcodec: a dict indicates the video codec info. # acodec: a dict indicates the audio codec info. self.__chats = []; self.__chat_lock = threading.Lock(); # dead time in seconds, if exceed, remove the chat. self.__dead_time = 15; ''' get the rtmp url of chat object. None if overflow. ''' def get_url_by_index(self, index): index = int(index) if index is None or index >= len(self.__chats): return None; return self.__chats[index]["url"]; def GET(self): enable_crossdomain() try: self.__chat_lock.acquire(); chats = []; copy = self.__chats[:]; for chat in copy: if time.time() - chat["heartbeat"] > self.__dead_time: self.__chats.remove(chat); continue; chats.append({ "id": chat["id"], "username": chat["username"], "url": chat["url"], "join_date_str": chat["join_date_str"], "heartbeat": chat["heartbeat"], }); finally: self.__chat_lock.release(); return json.dumps({"code":0, "data": {"now": time.time(), "chats": chats}}) def POST(self): enable_crossdomain() req = cherrypy.request.body.read() chat = json.loads(req) global global_chat_id; chat["id"] = global_chat_id global_chat_id += 1 chat["join_date"] = time.time(); chat["heartbeat"] = time.time(); chat["join_date_str"] = time.strftime("%Y-%m-%d %H:%M:%S"); try: self.__chat_lock.acquire(); self.__chats.append(chat) finally: self.__chat_lock.release(); trace("create chat success, id=%s"%(chat["id"])) return json.dumps({"code":0, "data": chat["id"]}) def DELETE(self, id): enable_crossdomain() try: self.__chat_lock.acquire(); for chat in self.__chats: if str(id) != str(chat["id"]): continue self.__chats.remove(chat) trace("delete chat success, id=%s"%(id)) return json.dumps({"code":0, "data": None}) finally: self.__chat_lock.release(); raise cherrypy.HTTPError(405, "Not allowed.") def PUT(self, id): enable_crossdomain() try: self.__chat_lock.acquire(); for chat in self.__chats: if str(id) != str(chat["id"]): continue chat["heartbeat"] = time.time(); trace("heartbeat chat success, id=%s"%(id)) return json.dumps({"code":0, "data": None}) finally: self.__chat_lock.release(); raise cherrypy.HTTPError(405, "Not allowed.") def OPTIONS(self, *args, **kwargs): enable_crossdomain() ''' the snapshot api, to start a snapshot when encoder start publish stream, stop the snapshot worker when stream finished. ''' class RESTSnapshots(object): exposed = True def __init__(self): pass def POST(self): enable_crossdomain() # return the error code in str code = Error.success req = cherrypy.request.body.read() trace("post to streams, req=%s"%(req)) try: json_req = json.loads(req) except Exception, ex: code = Error.system_parse_json trace("parse the request to json failed, req=%s, ex=%s, code=%s"%(req, ex, code)) return json.dumps({"code": int(code), "data": None}) action = json_req["action"] if action == "on_publish": code = worker.snapshot_create(json_req) elif action == "on_unpublish": code = worker.snapshot_destroy(json_req) else: trace("invalid request action: %s"%(json_req["action"])) code = Error.request_invalid_action return json.dumps({"code": int(code), "data": None}) def OPTIONS(self, *args, **kwargs): enable_crossdomain() # HTTP RESTful path. class Root(object): exposed = True def __init__(self): self.api = Api() def GET(self): enable_crossdomain(); return json.dumps({"code":Error.success, "urls":{"api":"the api root"}}) def OPTIONS(self, *args, **kwargs): enable_crossdomain(); # HTTP RESTful path. class Api(object): exposed = True def __init__(self): self.v1 = V1() def GET(self): enable_crossdomain(); return json.dumps({"code":Error.success, "urls": { "v1": "the api version 1.0" } }); def OPTIONS(self, *args, **kwargs): enable_crossdomain(); # HTTP RESTful path. to access as: # http://127.0.0.1:8085/api/v1/clients class V1(object): exposed = True def __init__(self): self.clients = RESTClients() self.streams = RESTStreams() self.sessions = RESTSessions() self.dvrs = RESTDvrs() self.hls = RESTHls() self.proxy = RESTProxy() self.chats = RESTChats() self.servers = RESTServers() self.snapshots = RESTSnapshots() def GET(self): enable_crossdomain(); return json.dumps({"code":Error.success, "urls":{ "clients": "for srs http callback, to handle the clients requests: connect/disconnect vhost/app.", "streams": "for srs http callback, to handle the streams requests: publish/unpublish stream.", "sessions": "for srs http callback, to handle the sessions requests: client play/stop stream", "dvrs": "for srs http callback, to handle the dvr requests: dvr stream.", "chats": "for srs demo meeting, the chat streams, public chat room.", "servers": { "summary": "for srs raspberry-pi and meeting demo", "GET": "get the current raspberry-pi servers info", "POST ip=node_ip&device_id=device_id": "the new raspberry-pi server info." } }}); def OPTIONS(self, *args, **kwargs): enable_crossdomain(); ''' main code start. ''' # donot support use this module as library. if __name__ != "__main__": raise Exception("embed not support") # check the user options if len(sys.argv) <= 1: print "SRS api callback server, Copyright (c) 2013-2016 SRS(ossrs)" print "Usage: python %s "%(sys.argv[0]) print " port: the port to listen at." print "For example:" print " python %s 8085"%(sys.argv[0]) print "" print "See also: https://github.com/ossrs/srs" sys.exit(1) # parse port from user options. port = int(sys.argv[1]) static_dir = os.path.abspath(os.path.join(os.path.dirname(sys.argv[0]), "static-dir")) trace("api server listen at port: %s, static_dir: %s"%(port, static_dir)) discard = open("/dev/null", "rw") ''' create process by specifies command. @param command the command str to start the process. @param stdout_fd an int fd specifies the stdout fd. @param stderr_fd an int fd specifies the stderr fd. @param log_file a file object specifies the additional log to write to. ignore if None. @return a Popen object created by subprocess.Popen(). ''' def create_process(command, stdout_fd, stderr_fd): # log the original command msg = "process start command: %s"%(command); # to avoid shell injection, directly use the command, no need to filter. args = shlex.split(str(command)); process = subprocess.Popen(args, stdout=stdout_fd, stderr=stderr_fd); return process; ''' isolate thread for srs worker, to do some job in background, for example, to snapshot thumbnail of RTMP stream. ''' class SrsWorker(cherrypy.process.plugins.SimplePlugin): def __init__(self, bus): cherrypy.process.plugins.SimplePlugin.__init__(self, bus); self.__snapshots = {} def start(self): print "srs worker thread started" def stop(self): print "srs worker thread stopped" def main(self): for url in self.__snapshots: snapshot = self.__snapshots[url] diff = time.time() - snapshot['timestamp'] process = snapshot['process'] # aborted. if process is not None and snapshot['abort']: process.kill() process.poll() del self.__snapshots[url] print 'abort snapshot %s'%snapshot['cmd'] break # how many snapshots to output. vframes = 5 # the expire in seconds for ffmpeg to snapshot. expire = 1 # the timeout to kill ffmpeg. kill_ffmpeg_timeout = 30 * expire # the ffmpeg binary path ffmpeg = "./objs/ffmpeg/bin/ffmpeg" # the best url for thumbnail. besturl = os.path.join(static_dir, "%s/%s-best.png"%(snapshot['app'], snapshot['stream'])) # the lambda to generate the thumbnail with index. lgo = lambda dir, app, stream, index: os.path.join(dir, "%s/%s-%03d.png"%(app, stream, index)) # the output for snapshot command output = os.path.join(static_dir, "%s/%s-%%03d.png"%(snapshot['app'], snapshot['stream'])) # the ffmepg command to snapshot cmd = '%s -i %s -vf fps=1 -vcodec png -f image2 -an -y -vframes %s -y %s'%(ffmpeg, url, vframes, output) # already snapshoted and not expired. if process is not None and diff < expire: continue # terminate the active process if process is not None: # the poll will set the process.returncode process.poll() # None incidates the process hasn't terminate yet. if process.returncode is not None: # process terminated with error. if process.returncode != 0: print 'process terminated with error=%s, cmd=%s'%(process.returncode, snapshot['cmd']) # process terminated normally. else: # guess the best one. bestsize = 0 for i in range(0, vframes): output = lgo(static_dir, snapshot['app'], snapshot['stream'], i + 1) fsize = os.path.getsize(output) if bestsize < fsize: os.system("rm -f '%s'"%besturl) os.system("ln -sf '%s' '%s'"%(output, besturl)) bestsize = fsize print 'the best thumbnail is %s'%besturl else: # wait for process to terminate, timeout is N*expire. if diff < kill_ffmpeg_timeout: continue # kill the process when user cancel. else: process.kill() print 'kill the process %s'%snapshot['cmd'] # create new process to snapshot. print 'snapshot by: %s'%cmd process = create_process(cmd, discard.fileno(), discard.fileno()) snapshot['process'] = process snapshot['cmd'] = cmd snapshot['timestamp'] = time.time() pass; # {"action":"on_publish","client_id":108,"ip":"127.0.0.1","vhost":"__defaultVhost__","app":"live","stream":"livestream"} # ffmpeg -i rtmp://127.0.0.1:1935/live?vhost=dev/stream -vf fps=1 -vcodec png -f image2 -an -y -vframes 3 -y static-dir/live/livestream-%03d.png def snapshot_create(self, req): url = "rtmp://127.0.0.1/%s...vhost...%s/%s"%(req['app'], req['vhost'], req['stream']) if url in self.__snapshots: print 'ignore exists %s'%url return Error.success req['process'] = None req['abort'] = False req['timestamp'] = time.time() self.__snapshots[url] = req return Error.success # {"action":"on_unpublish","client_id":108,"ip":"127.0.0.1","vhost":"__defaultVhost__","app":"live","stream":"livestream"} def snapshot_destroy(self, req): url = "rtmp://127.0.0.1/%s...vhost...%s/%s"%(req['app'], req['vhost'], req['stream']) if url in self.__snapshots: snapshot = self.__snapshots[url] snapshot['abort'] = True return Error.success # subscribe the plugin to cherrypy. worker = SrsWorker(cherrypy.engine) worker.subscribe(); # disable the autoreloader to make it more simple. cherrypy.engine.autoreload.unsubscribe(); # cherrypy config. conf = { 'global': { 'server.shutdown_timeout': 3, 'server.socket_host': '0.0.0.0', 'server.socket_port': port, 'tools.encode.on': True, 'tools.staticdir.on': True, 'tools.encode.encoding': "utf-8", #'server.thread_pool': 2, # single thread server. }, '/': { 'tools.staticdir.dir': static_dir, 'tools.staticdir.index': "index.html", # for cherrypy RESTful api support 'request.dispatch': cherrypy.dispatch.MethodDispatcher() } } # start cherrypy web engine trace("start cherrypy server") root = Root() cherrypy.quickstart(root, '/', conf)