winamp/Src/Plugins/DSP/sc_serv3/protocol_shoutcastClient.h

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2024-09-24 12:54:57 +00:00
#pragma once
#ifndef protocol_shoutcastClient_H_
#define protocol_shoutcastClient_H_
#include "threadedRunner.h"
#include "streamData.h"
#include "stats.h"
#include "bandwidth.h"
#include "protocol_HTTPStyle.h"
#pragma pack(push, 1)
class protocol_shoutcastClient: public runnable, public clientProtocol
{
public:
friend class protocol_HTTPStyle;
typedef void (protocol_shoutcastClient::*state_t)();
protocol_shoutcastClient (protocol_HTTPStyle &hs, const streamData::streamID_t streamID, const uniString::utf8 &hostName, const uniString::utf8 &clientAddr, const uniString::utf8 &XFF, const streamData::source_t clientType);
protocol_shoutcastClient(const socketOps::tSOCKET socket, const u_short port,
const streamData::source_t clientType, const uniString::utf8 &hostName,
const streamData::streamID_t streamID, const size_t unique,
const uniString::utf8 &userAgent, const uniString::utf8 &referer,
const uniString::utf8 &clientAddr, const uniString::utf8 &XFF,
const bool headRequest);
virtual ~protocol_shoutcastClient() throw()
{
m_streamData = 0;
socketOps::forgetTCPSocket(m_socket);
}
virtual void setIntro(vector<__uint8> &v, int uvoxDataType = MP3_DATA) { m_introFile = v; m_introFileOffset = 0; (void)uvoxDataType; }
virtual void acquireIntroFile(const bool sc2 = false) throw();
virtual int acquireBackupFile(int *dataType = 0, const bool sc2 = false) throw();
void kickNextRound() throw() { m_kickNextRound = true; }
void setGroup(size_t group) throw() { m_adAccess.setGroup (group); }
const size_t getGroup() const throw() { return m_adAccess.getGroup(); }
const size_t getUnique() const throw() { return m_unique; }
const streamData::source_t getClientType() const throw() { return m_clientType; }
const time_t getStartTime() const throw() { return m_startTime; }
const uniString::utf8 getXFF() const throw() { return m_XFF; }
const uniString::utf8 getUserAgent() const throw() { return (!m_userAgent.empty() ? m_userAgent : EMPTY_AGENT); }
const uniString::utf8 getReferer() const throw() { return m_referer; }
void return_403();
const streamData::ringBufferAccess_t resetReadPtr(std::vector<__uint8>& data, const bool sc2 = false) throw();
void resetReadPtr(const bool sc2 = false) throw();
void resetReadPtr (streamData::ringBufferAccess_t ptr, bool sc2) throw();
const int doTimeSlice(const bool sc2 = false) throw(std::exception);
void resetCommon() throw();
const bool sendText() throw(std::exception);
void setupWorkingBuffer(const std::vector<__uint8>& data, std::vector<__uint8>& tempBuf, int& len) throw();
virtual void processFrame (int type, const unsigned char *buf, unsigned int len);
const int doFLVFrameSync(const int type, const bool debug, const int offset,
const std::vector<__uint8>& buf, const time_t cur_time,
const int bitrate, const unsigned int samplerate,
int &len, int &frames, bool &advert, int &timestamp,
const bool fill_remainder = false) throw();
virtual const int doFrameSync(const int type, const bool debug, const int len,
const int offset, const std::vector<__uint8>& buf,
const time_t cur_time, const int bitrate,
const unsigned int samplerate, int &frames,
bool &advert, const bool fill_remainder = false) throw();
void createFrameRate(const bool mp3, const int samplerate);
const __uint64 calculateFrameLimit(const time_t cur_time = 0);
void updateFrameCount(const int frames, const time_t cur_time = 0);
const bool calculateDelay(const int autoDumpTime = -1);
virtual int doSend(const bool debug, const time_t cur_time,
const int autoDumpTime, int adjust = 0) throw(std::runtime_error);
void checkListenerIsValid(const bool debug) throw(std::runtime_error);
void setW3CState() throw();
const uniString::utf8 getContainer() const;
void authForStream(streamData *_sd = 0);
const bool handleNoData(const uniString::utf8 &logString, const int remainder,
const streamData::ringBufferAccess_t amt,
const int autoDumpTime, const time_t cur_time,
const bool sc2 = false);
void streamMovedOrRejected(const uniString::utf8 &logString, const bandWidth::usageType_t type,
const uniString::utf8 &serverUrl, const int mode) throw();
const bool processAdvertTrigger(const bool advert);
const uniString::utf8 fixICYMetadata(uniString::utf8 metadata);
void logW3C() throw();
void doLogW3C(const uniString::utf8 &title = "") throw();
void processTitleW3C() throw();
const adGroupAccess &getAdAccess () const { return m_adAccess; }
void releaseAdvert();
const int processAdd(const uniString::utf8 &logString, const bandWidth::usageType_t type,
const uniString::utf8 &msg, const int msgLen,
const uniString::utf8 &movedUrl, const uniString::utf8 &serverUrl) throw();
const bool processReject(const uniString::utf8 &logString, const bandWidth::usageType_t type,
const uniString::utf8 &msg, const int msgLen, int *read_bitrate,
int *dataType = 0, const bool sc2 = false) throw();
const int addClient();
void reportNewListener(const uniString::utf8 &logString = "");
void reportStopListener();
void cleanup(const uniString::utf8 &logString, const bool debug,
const bool sc2 = false, const bool altLog = false) throw(exception);
virtual int detectAutoDumpTimeout (time_t &cur_time, const size_t streamID, const uniString::utf8 &msg) throw(runtime_error);
virtual void state_AttachToStream() throw(exception) = 0;
virtual void state_Close() throw(std::exception) = 0;
virtual void state_InitiateStream() throw(std::exception) = 0;
virtual void state_SendText() throw(std::exception);
virtual void state_SendAdverts() throw(std::exception);
virtual void state_Stream() throw(std::exception);
virtual void state_SendBackupFile() throw(std::exception);
virtual void state_SendIntroFile() throw(std::exception);
virtual void state_SendIntro() throw(std::exception);
virtual void setCallback (state_t callback = NULL, state_t next = NULL) = 0;
friend class auth::authService;
friend void metrics::metrics_listener_new(const protocol_shoutcastClient &client);
friend void metrics::metrics_listener_drop(const protocol_shoutcastClient &client);
friend void stats::catchPreAddClients(const streamData::streamID_t id);
protected:
uniString::utf8 m_clientHostName;
const streamData::streamID_t m_streamID; // stream ID for this connection
const size_t m_unique; // clients' unique id
uniString::utf8 m_userAgent; // client's user agent string
uniString::utf8 m_referer; // client's referer string
uniString::utf8 m_queryParams; // client's query parameters
streamData::source_t m_clientType; // stream client type
bool m_removeClientFromStats; // do we have to do a stats::removeClient
bool m_kickNextRound;
bool m_headRequest;
bool m_ignoreDisconnect; // used to prevent the 'client connection closed (0 seconds) [Bytes: 0] Agent:'
// message if redirecting or if max limit was reached which keeps logs cleaner
time_t m_startTime; // when connection started, used to implement listenerTime
time_t m_newListener; // when the new listener metric was sent
time_t m_timerStart; // for time regulated sending
__uint64 m_timerFrames; // amount sent during timer;
streamData *m_streamData;
uniString::utf8 m_clientLogString;
uniString::utf8 m_clientAddr; // client's address
uniString::utf8 m_XFF;
uniString::utf8 m_OKResponse;
uniString::utf8 m_lastSentMetadata; // used for w3C tracking
std::vector<__uint8> m_introFile;
int m_introFileOffset;
int m_backupFileOffset;
std::vector<__uint8> m_backupFile;
int m_backupLoopTries;
unsigned int m_lagOffset;
adGroupAccess m_adAccess;
//// stats for w3c logs
time_t m_lastTitleTime; // time of last title update used for w3c logs
__uint64 m_bytesSentForCurrentTitle; // bytes sent since last title change. used for w3c logs
__uint64 m_totalBytesSent; // total bytes sent whilst the connection is open
///////////////////////////
streamData::ringBufferAccess_t m_readPtr; // pointer into ring buffer (main playback)
const uniString::utf8::value_type *m_outBuffer; // for outgoing text lines
int m_outBufferSize;
unsigned short m_metaInterval;
unsigned short m_metaIntervalCounter; // counter for metadata updates
double m_fps;
__uint64 m_frameLimit; // how many frames we're allowed
__uint64 m_frameCount; // how many frames we've provided
std::vector<__uint8> m_shortSend; // used to keep a copy of the data from short sends
// which will be re-inserted into the output buffer
// before processing more audio data to the output.
std::vector<__uint8> m_remainder;
std::vector<__uint8> m_output;
};
#pragma pack(pop)
#endif