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srs/trunk/3rdparty/srt-1-fit/srtcore/srt.h
john fe086dfc31
SRT: Upgrade libsrt from 1.4.1 to 1.5.1. v6.0.12 (#3362) 
Co-authored-by: winlin <winlin@vip.126.com>
2023-01-04 19:56:33 +08:00

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/*
* SRT - Secure, Reliable, Transport
* Copyright (c) 2018 Haivision Systems Inc.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
*/
/*****************************************************************************
written by
Haivision Systems Inc.
*****************************************************************************/
#ifndef INC_SRTC_H
#define INC_SRTC_H
#include "version.h"
#include "platform_sys.h"
#include <string.h>
#include <stdlib.h>
#include "logging_api.h"
////////////////////////////////////////////////////////////////////////////////
//if compiling on VC6.0 or pre-WindowsXP systems
//use -DLEGACY_WIN32
//if compiling with MinGW, it only works on XP or above
//use -D_WIN32_WINNT=0x0501
#ifdef _WIN32
#ifndef __MINGW32__
// Explicitly define 32-bit and 64-bit numbers
typedef __int32 int32_t;
typedef __int64 int64_t;
typedef unsigned __int32 uint32_t;
#ifndef LEGACY_WIN32
typedef unsigned __int64 uint64_t;
#else
// VC 6.0 does not support unsigned __int64: may cause potential problems.
typedef __int64 uint64_t;
#endif
#endif
#ifdef SRT_DYNAMIC
#ifdef SRT_EXPORTS
#define SRT_API __declspec(dllexport)
#else
#define SRT_API __declspec(dllimport)
#endif
#else // !SRT_DYNAMIC
#define SRT_API
#endif
#else
#define SRT_API __attribute__ ((visibility("default")))
#endif
// For feature tests if you need.
// You can use these constants with SRTO_MINVERSION option.
#define SRT_VERSION_FEAT_HSv5 0x010300
#if defined(__cplusplus) && __cplusplus > 201406
#define SRT_HAVE_CXX17 1
#else
#define SRT_HAVE_CXX17 0
#endif
// Stadnard attributes
// When compiling in C++17 mode, use the standard C++17 attributes
// (out of these, only [[deprecated]] is supported in C++14, so
// for all lesser standard use compiler-specific attributes).
#if SRT_HAVE_CXX17
// Unused: DO NOT issue a warning if this entity is unused.
#define SRT_ATR_UNUSED [[maybe_unused]]
// Nodiscard: issue a warning if the return value was discarded.
#define SRT_ATR_NODISCARD [[nodiscard]]
// GNUG is GNU C/C++; this syntax is also supported by Clang
#elif defined(__GNUC__)
#define SRT_ATR_UNUSED __attribute__((unused))
#define SRT_ATR_NODISCARD __attribute__((warn_unused_result))
#elif defined(_MSC_VER)
#define SRT_ATR_UNUSED __pragma(warning(suppress: 4100 4101))
#define SRT_ATR_NODISCARD _Check_return_
#else
#define SRT_ATR_UNUSED
#define SRT_ATR_NODISCARD
#endif
// DEPRECATED attributes
// There's needed DEPRECATED and DEPRECATED_PX, as some compilers require them
// before the entity, others after the entity.
// The *_PX version is the prefix attribute, which applies only
// to functions (Microsoft compilers).
// When deprecating a function, mark it:
//
// SRT_ATR_DEPRECATED_PX retval function(arguments) SRT_ATR_DEPRECATED;
//
// When SRT_NO_DEPRECATED defined, do not issue any deprecation warnings.
// Regardless of the compiler type.
#if defined(SRT_NO_DEPRECATED)
#define SRT_ATR_DEPRECATED
#define SRT_ATR_DEPRECATED_PX
#elif SRT_HAVE_CXX17
#define SRT_ATR_DEPRECATED
#define SRT_ATR_DEPRECATED_PX [[deprecated]]
// GNUG is GNU C/C++; this syntax is also supported by Clang
#elif defined(__GNUC__)
#define SRT_ATR_DEPRECATED_PX
#define SRT_ATR_DEPRECATED __attribute__((deprecated))
#elif defined(_MSC_VER)
#define SRT_ATR_DEPRECATED_PX __declspec(deprecated)
#define SRT_ATR_DEPRECATED // no postfix-type modifier
#else
#define SRT_ATR_DEPRECATED_PX
#define SRT_ATR_DEPRECATED
#endif
#ifdef __cplusplus
extern "C" {
#endif
typedef int32_t SRTSOCKET;
// The most significant bit 31 (sign bit actually) is left unused,
// so that all people who check the value for < 0 instead of -1
// still get what they want. The bit 30 is reserved for marking
// the "socket group". Most of the API functions should work
// transparently with the socket descriptor designating a single
// socket or a socket group.
static const int32_t SRTGROUP_MASK = (1 << 30);
#ifdef _WIN32
typedef SOCKET SYSSOCKET;
#else
typedef int SYSSOCKET;
#endif
#ifndef ENABLE_BONDING
#define ENABLE_BONDING 0
#endif
typedef SYSSOCKET UDPSOCKET;
// Values returned by srt_getsockstate()
typedef enum SRT_SOCKSTATUS {
SRTS_INIT = 1,
SRTS_OPENED,
SRTS_LISTENING,
SRTS_CONNECTING,
SRTS_CONNECTED,
SRTS_BROKEN,
SRTS_CLOSING,
SRTS_CLOSED,
SRTS_NONEXIST
} SRT_SOCKSTATUS;
// This is a duplicate enum. Must be kept in sync with the original UDT enum for
// backward compatibility until all compat is destroyed.
typedef enum SRT_SOCKOPT {
SRTO_MSS = 0, // the Maximum Transfer Unit
SRTO_SNDSYN = 1, // if sending is blocking
SRTO_RCVSYN = 2, // if receiving is blocking
SRTO_ISN = 3, // Initial Sequence Number (valid only after srt_connect or srt_accept-ed sockets)
SRTO_FC = 4, // Flight flag size (window size)
SRTO_SNDBUF = 5, // maximum buffer in sending queue
SRTO_RCVBUF = 6, // UDT receiving buffer size
SRTO_LINGER = 7, // waiting for unsent data when closing
SRTO_UDP_SNDBUF = 8, // UDP sending buffer size
SRTO_UDP_RCVBUF = 9, // UDP receiving buffer size
// (some space left)
SRTO_RENDEZVOUS = 12, // rendezvous connection mode
SRTO_SNDTIMEO = 13, // send() timeout
SRTO_RCVTIMEO = 14, // recv() timeout
SRTO_REUSEADDR = 15, // reuse an existing port or create a new one
SRTO_MAXBW = 16, // maximum bandwidth (bytes per second) that the connection can use
SRTO_STATE = 17, // current socket state, see UDTSTATUS, read only
SRTO_EVENT = 18, // current available events associated with the socket
SRTO_SNDDATA = 19, // size of data in the sending buffer
SRTO_RCVDATA = 20, // size of data available for recv
SRTO_SENDER = 21, // Sender mode (independent of conn mode), for encryption, tsbpd handshake.
SRTO_TSBPDMODE = 22, // Enable/Disable TsbPd. Enable -> Tx set origin timestamp, Rx deliver packet at origin time + delay
SRTO_LATENCY = 23, // NOT RECOMMENDED. SET: to both SRTO_RCVLATENCY and SRTO_PEERLATENCY. GET: same as SRTO_RCVLATENCY.
SRTO_INPUTBW = 24, // Estimated input stream rate.
SRTO_OHEADBW, // MaxBW ceiling based on % over input stream rate. Applies when UDT_MAXBW=0 (auto).
SRTO_PASSPHRASE = 26, // Crypto PBKDF2 Passphrase (must be 10..79 characters, or empty to disable encryption)
SRTO_PBKEYLEN, // Crypto key len in bytes {16,24,32} Default: 16 (AES-128)
SRTO_KMSTATE, // Key Material exchange status (UDT_SRTKmState)
SRTO_IPTTL = 29, // IP Time To Live (passthru for system sockopt IPPROTO_IP/IP_TTL)
SRTO_IPTOS, // IP Type of Service (passthru for system sockopt IPPROTO_IP/IP_TOS)
SRTO_TLPKTDROP = 31, // Enable receiver pkt drop
SRTO_SNDDROPDELAY = 32, // Extra delay towards latency for sender TLPKTDROP decision (-1 to off)
SRTO_NAKREPORT = 33, // Enable receiver to send periodic NAK reports
SRTO_VERSION = 34, // Local SRT Version
SRTO_PEERVERSION, // Peer SRT Version (from SRT Handshake)
SRTO_CONNTIMEO = 36, // Connect timeout in msec. Caller default: 3000, rendezvous (x 10)
SRTO_DRIFTTRACER = 37, // Enable or disable drift tracer
SRTO_MININPUTBW = 38, // Minimum estimate of input stream rate.
// (some space left)
SRTO_SNDKMSTATE = 40, // (GET) the current state of the encryption at the peer side
SRTO_RCVKMSTATE, // (GET) the current state of the encryption at the agent side
SRTO_LOSSMAXTTL, // Maximum possible packet reorder tolerance (number of packets to receive after loss to send lossreport)
SRTO_RCVLATENCY, // TsbPd receiver delay (mSec) to absorb burst of missed packet retransmission
SRTO_PEERLATENCY, // Minimum value of the TsbPd receiver delay (mSec) for the opposite side (peer)
SRTO_MINVERSION, // Minimum SRT version needed for the peer (peers with less version will get connection reject)
SRTO_STREAMID, // A string set to a socket and passed to the listener's accepted socket
SRTO_CONGESTION, // Congestion controller type selection
SRTO_MESSAGEAPI, // In File mode, use message API (portions of data with boundaries)
SRTO_PAYLOADSIZE, // Maximum payload size sent in one UDP packet (0 if unlimited)
SRTO_TRANSTYPE = 50, // Transmission type (set of options required for given transmission type)
SRTO_KMREFRESHRATE, // After sending how many packets the encryption key should be flipped to the new key
SRTO_KMPREANNOUNCE, // How many packets before key flip the new key is annnounced and after key flip the old one decommissioned
SRTO_ENFORCEDENCRYPTION, // Connection to be rejected or quickly broken when one side encryption set or bad password
SRTO_IPV6ONLY, // IPV6_V6ONLY mode
SRTO_PEERIDLETIMEO, // Peer-idle timeout (max time of silence heard from peer) in [ms]
SRTO_BINDTODEVICE, // Forward the SOL_SOCKET/SO_BINDTODEVICE option on socket (pass packets only from that device)
SRTO_GROUPCONNECT, // Set on a listener to allow group connection (ENABLE_BONDING)
SRTO_GROUPMINSTABLETIMEO, // Minimum Link Stability timeout (backup mode) in milliseconds (ENABLE_BONDING)
SRTO_GROUPTYPE, // Group type to which an accepted socket is about to be added, available in the handshake (ENABLE_BONDING)
SRTO_PACKETFILTER = 60, // Add and configure a packet filter
SRTO_RETRANSMITALGO = 61, // An option to select packet retransmission algorithm
SRTO_E_SIZE // Always last element, not a valid option.
} SRT_SOCKOPT;
#ifdef __cplusplus
#if __cplusplus > 199711L // C++11
// Newer compilers report error when [[deprecated]] is applied to types,
// and C++11 and higher uses this.
// Note that this doesn't exactly use the 'deprecated' attribute,
// as it's introduced in C++14. What is actually used here is the
// fact that unknown attributes are ignored, but still warned about.
// This should only catch an eye - and that's what it does.
#define SRT_DEPRECATED_OPTION(value) ((SRT_SOCKOPT [[deprecated]])value)
#else
// Older (pre-C++11) compilers use gcc deprecated applied to a typedef
typedef SRT_ATR_DEPRECATED_PX SRT_SOCKOPT SRT_SOCKOPT_DEPRECATED SRT_ATR_DEPRECATED;
#define SRT_DEPRECATED_OPTION(value) ((SRT_SOCKOPT_DEPRECATED)value)
#endif
#else
// deprecated enum labels are supported only since gcc 6, so in C there
// will be a whole deprecated enum type, as it's not an error in C to mix
// enum types
enum SRT_ATR_DEPRECATED SRT_SOCKOPT_DEPRECATED
{
// Dummy last option, as every entry ends with a comma
SRTO_DEPRECATED_END = 0
};
#define SRT_DEPRECATED_OPTION(value) ((enum SRT_SOCKOPT_DEPRECATED)value)
#endif
// Note that there are no deprecated options at the moment, but the mechanism
// stays so that it can be used in future. Example:
// #define SRTO_STRICTENC SRT_DEPRECATED_OPTION(53)
typedef enum SRT_TRANSTYPE
{
SRTT_LIVE,
SRTT_FILE,
SRTT_INVALID
} SRT_TRANSTYPE;
// These sizes should be used for Live mode. In Live mode you should not
// exceed the size that fits in a single MTU.
// This is for MPEG TS and it's a default SRTO_PAYLOADSIZE for SRTT_LIVE.
static const int SRT_LIVE_DEF_PLSIZE = 1316; // = 188*7, recommended for MPEG TS
// This is the maximum payload size for Live mode, should you have a different
// payload type than MPEG TS.
static const int SRT_LIVE_MAX_PLSIZE = 1456; // MTU(1500) - UDP.hdr(28) - SRT.hdr(16)
// Latency for Live transmission: default is 120
static const int SRT_LIVE_DEF_LATENCY_MS = 120;
// Importrant note: please add new fields to this structure to the end and don't remove any existing fields
struct CBytePerfMon
{
// global measurements
int64_t msTimeStamp; // time since the UDT entity is started, in milliseconds
int64_t pktSentTotal; // total number of sent data packets, including retransmissions
int64_t pktRecvTotal; // total number of received packets
int pktSndLossTotal; // total number of lost packets (sender side)
int pktRcvLossTotal; // total number of lost packets (receiver side)
int pktRetransTotal; // total number of retransmitted packets
int pktSentACKTotal; // total number of sent ACK packets
int pktRecvACKTotal; // total number of received ACK packets
int pktSentNAKTotal; // total number of sent NAK packets
int pktRecvNAKTotal; // total number of received NAK packets
int64_t usSndDurationTotal; // total time duration when UDT is sending data (idle time exclusive)
//>new
int pktSndDropTotal; // number of too-late-to-send dropped packets
int pktRcvDropTotal; // number of too-late-to play missing packets
int pktRcvUndecryptTotal; // number of undecrypted packets
uint64_t byteSentTotal; // total number of sent data bytes, including retransmissions
uint64_t byteRecvTotal; // total number of received bytes
uint64_t byteRcvLossTotal; // total number of lost bytes
uint64_t byteRetransTotal; // total number of retransmitted bytes
uint64_t byteSndDropTotal; // number of too-late-to-send dropped bytes
uint64_t byteRcvDropTotal; // number of too-late-to play missing bytes (estimate based on average packet size)
uint64_t byteRcvUndecryptTotal; // number of undecrypted bytes
//<
// local measurements
int64_t pktSent; // number of sent data packets, including retransmissions
int64_t pktRecv; // number of received packets
int pktSndLoss; // number of lost packets (sender side)
int pktRcvLoss; // number of lost packets (receiver side)
int pktRetrans; // number of retransmitted packets
int pktRcvRetrans; // number of retransmitted packets received
int pktSentACK; // number of sent ACK packets
int pktRecvACK; // number of received ACK packets
int pktSentNAK; // number of sent NAK packets
int pktRecvNAK; // number of received NAK packets
double mbpsSendRate; // sending rate in Mb/s
double mbpsRecvRate; // receiving rate in Mb/s
int64_t usSndDuration; // busy sending time (i.e., idle time exclusive)
int pktReorderDistance; // size of order discrepancy in received sequences
double pktRcvAvgBelatedTime; // average time of packet delay for belated packets (packets with sequence past the ACK)
int64_t pktRcvBelated; // number of received AND IGNORED packets due to having come too late
//>new
int pktSndDrop; // number of too-late-to-send dropped packets
int pktRcvDrop; // number of too-late-to play missing packets
int pktRcvUndecrypt; // number of undecrypted packets
uint64_t byteSent; // number of sent data bytes, including retransmissions
uint64_t byteRecv; // number of received bytes
uint64_t byteRcvLoss; // number of retransmitted bytes
uint64_t byteRetrans; // number of retransmitted bytes
uint64_t byteSndDrop; // number of too-late-to-send dropped bytes
uint64_t byteRcvDrop; // number of too-late-to play missing bytes (estimate based on average packet size)
uint64_t byteRcvUndecrypt; // number of undecrypted bytes
//<
// instant measurements
double usPktSndPeriod; // packet sending period, in microseconds
int pktFlowWindow; // flow window size, in number of packets
int pktCongestionWindow; // congestion window size, in number of packets
int pktFlightSize; // number of packets on flight
double msRTT; // RTT, in milliseconds
double mbpsBandwidth; // estimated bandwidth, in Mb/s
int byteAvailSndBuf; // available UDT sender buffer size
int byteAvailRcvBuf; // available UDT receiver buffer size
//>new
double mbpsMaxBW; // Transmit Bandwidth ceiling (Mbps)
int byteMSS; // MTU
int pktSndBuf; // UnACKed packets in UDT sender
int byteSndBuf; // UnACKed bytes in UDT sender
int msSndBuf; // UnACKed timespan (msec) of UDT sender
int msSndTsbPdDelay; // Timestamp-based Packet Delivery Delay
int pktRcvBuf; // Undelivered packets in UDT receiver
int byteRcvBuf; // Undelivered bytes of UDT receiver
int msRcvBuf; // Undelivered timespan (msec) of UDT receiver
int msRcvTsbPdDelay; // Timestamp-based Packet Delivery Delay
int pktSndFilterExtraTotal; // number of control packets supplied by packet filter
int pktRcvFilterExtraTotal; // number of control packets received and not supplied back
int pktRcvFilterSupplyTotal; // number of packets that the filter supplied extra (e.g. FEC rebuilt)
int pktRcvFilterLossTotal; // number of packet loss not coverable by filter
int pktSndFilterExtra; // number of control packets supplied by packet filter
int pktRcvFilterExtra; // number of control packets received and not supplied back
int pktRcvFilterSupply; // number of packets that the filter supplied extra (e.g. FEC rebuilt)
int pktRcvFilterLoss; // number of packet loss not coverable by filter
int pktReorderTolerance; // packet reorder tolerance value
//<
// New stats in 1.5.0
// Total
int64_t pktSentUniqueTotal; // total number of data packets sent by the application
int64_t pktRecvUniqueTotal; // total number of packets to be received by the application
uint64_t byteSentUniqueTotal; // total number of data bytes, sent by the application
uint64_t byteRecvUniqueTotal; // total number of data bytes to be received by the application
// Local
int64_t pktSentUnique; // number of data packets sent by the application
int64_t pktRecvUnique; // number of packets to be received by the application
uint64_t byteSentUnique; // number of data bytes, sent by the application
uint64_t byteRecvUnique; // number of data bytes to be received by the application
};
////////////////////////////////////////////////////////////////////////////////
// Error codes - define outside the CUDTException class
// because otherwise you'd have to use CUDTException::MJ_SUCCESS etc.
// in all throw CUDTException expressions.
enum CodeMajor
{
MJ_UNKNOWN = -1,
MJ_SUCCESS = 0,
MJ_SETUP = 1,
MJ_CONNECTION = 2,
MJ_SYSTEMRES = 3,
MJ_FILESYSTEM = 4,
MJ_NOTSUP = 5,
MJ_AGAIN = 6,
MJ_PEERERROR = 7
};
enum CodeMinor
{
// These are "minor" error codes from various "major" categories
// MJ_SETUP
MN_NONE = 0,
MN_TIMEOUT = 1,
MN_REJECTED = 2,
MN_NORES = 3,
MN_SECURITY = 4,
MN_CLOSED = 5,
// MJ_CONNECTION
MN_CONNLOST = 1,
MN_NOCONN = 2,
// MJ_SYSTEMRES
MN_THREAD = 1,
MN_MEMORY = 2,
MN_OBJECT = 3,
// MJ_FILESYSTEM
MN_SEEKGFAIL = 1,
MN_READFAIL = 2,
MN_SEEKPFAIL = 3,
MN_WRITEFAIL = 4,
// MJ_NOTSUP
MN_ISBOUND = 1,
MN_ISCONNECTED = 2,
MN_INVAL = 3,
MN_SIDINVAL = 4,
MN_ISUNBOUND = 5,
MN_NOLISTEN = 6,
MN_ISRENDEZVOUS = 7,
MN_ISRENDUNBOUND = 8,
MN_INVALMSGAPI = 9,
MN_INVALBUFFERAPI = 10,
MN_BUSY = 11,
MN_XSIZE = 12,
MN_EIDINVAL = 13,
MN_EEMPTY = 14,
MN_BUSYPORT = 15,
// MJ_AGAIN
MN_WRAVAIL = 1,
MN_RDAVAIL = 2,
MN_XMTIMEOUT = 3,
MN_CONGESTION = 4
};
// Stupid, but effective. This will be #undefined, so don't worry.
#define SRT_EMJ(major) (1000 * MJ_##major)
#define SRT_EMN(major, minor) (1000 * MJ_##major + MN_##minor)
// Some better way to define it, and better for C language.
typedef enum SRT_ERRNO
{
SRT_EUNKNOWN = -1,
SRT_SUCCESS = MJ_SUCCESS,
SRT_ECONNSETUP = SRT_EMJ(SETUP),
SRT_ENOSERVER = SRT_EMN(SETUP, TIMEOUT),
SRT_ECONNREJ = SRT_EMN(SETUP, REJECTED),
SRT_ESOCKFAIL = SRT_EMN(SETUP, NORES),
SRT_ESECFAIL = SRT_EMN(SETUP, SECURITY),
SRT_ESCLOSED = SRT_EMN(SETUP, CLOSED),
SRT_ECONNFAIL = SRT_EMJ(CONNECTION),
SRT_ECONNLOST = SRT_EMN(CONNECTION, CONNLOST),
SRT_ENOCONN = SRT_EMN(CONNECTION, NOCONN),
SRT_ERESOURCE = SRT_EMJ(SYSTEMRES),
SRT_ETHREAD = SRT_EMN(SYSTEMRES, THREAD),
SRT_ENOBUF = SRT_EMN(SYSTEMRES, MEMORY),
SRT_ESYSOBJ = SRT_EMN(SYSTEMRES, OBJECT),
SRT_EFILE = SRT_EMJ(FILESYSTEM),
SRT_EINVRDOFF = SRT_EMN(FILESYSTEM, SEEKGFAIL),
SRT_ERDPERM = SRT_EMN(FILESYSTEM, READFAIL),
SRT_EINVWROFF = SRT_EMN(FILESYSTEM, SEEKPFAIL),
SRT_EWRPERM = SRT_EMN(FILESYSTEM, WRITEFAIL),
SRT_EINVOP = SRT_EMJ(NOTSUP),
SRT_EBOUNDSOCK = SRT_EMN(NOTSUP, ISBOUND),
SRT_ECONNSOCK = SRT_EMN(NOTSUP, ISCONNECTED),
SRT_EINVPARAM = SRT_EMN(NOTSUP, INVAL),
SRT_EINVSOCK = SRT_EMN(NOTSUP, SIDINVAL),
SRT_EUNBOUNDSOCK = SRT_EMN(NOTSUP, ISUNBOUND),
SRT_ENOLISTEN = SRT_EMN(NOTSUP, NOLISTEN),
SRT_ERDVNOSERV = SRT_EMN(NOTSUP, ISRENDEZVOUS),
SRT_ERDVUNBOUND = SRT_EMN(NOTSUP, ISRENDUNBOUND),
SRT_EINVALMSGAPI = SRT_EMN(NOTSUP, INVALMSGAPI),
SRT_EINVALBUFFERAPI = SRT_EMN(NOTSUP, INVALBUFFERAPI),
SRT_EDUPLISTEN = SRT_EMN(NOTSUP, BUSY),
SRT_ELARGEMSG = SRT_EMN(NOTSUP, XSIZE),
SRT_EINVPOLLID = SRT_EMN(NOTSUP, EIDINVAL),
SRT_EPOLLEMPTY = SRT_EMN(NOTSUP, EEMPTY),
SRT_EBINDCONFLICT = SRT_EMN(NOTSUP, BUSYPORT),
SRT_EASYNCFAIL = SRT_EMJ(AGAIN),
SRT_EASYNCSND = SRT_EMN(AGAIN, WRAVAIL),
SRT_EASYNCRCV = SRT_EMN(AGAIN, RDAVAIL),
SRT_ETIMEOUT = SRT_EMN(AGAIN, XMTIMEOUT),
SRT_ECONGEST = SRT_EMN(AGAIN, CONGESTION),
SRT_EPEERERR = SRT_EMJ(PEERERROR)
} SRT_ERRNO;
#undef SRT_EMJ
#undef SRT_EMN
enum SRT_REJECT_REASON
{
SRT_REJ_UNKNOWN, // initial set when in progress
SRT_REJ_SYSTEM, // broken due to system function error
SRT_REJ_PEER, // connection was rejected by peer
SRT_REJ_RESOURCE, // internal problem with resource allocation
SRT_REJ_ROGUE, // incorrect data in handshake messages
SRT_REJ_BACKLOG, // listener's backlog exceeded
SRT_REJ_IPE, // internal program error
SRT_REJ_CLOSE, // socket is closing
SRT_REJ_VERSION, // peer is older version than agent's minimum set
SRT_REJ_RDVCOOKIE, // rendezvous cookie collision
SRT_REJ_BADSECRET, // wrong password
SRT_REJ_UNSECURE, // password required or unexpected
SRT_REJ_MESSAGEAPI, // streamapi/messageapi collision
SRT_REJ_CONGESTION, // incompatible congestion-controller type
SRT_REJ_FILTER, // incompatible packet filter
SRT_REJ_GROUP, // incompatible group
SRT_REJ_TIMEOUT, // connection timeout
SRT_REJ_E_SIZE,
};
// XXX This value remains for some time, but it's deprecated
// Planned deprecation removal: rel1.6.0.
#define SRT_REJ__SIZE SRT_REJ_E_SIZE
// Reject category codes:
#define SRT_REJC_VALUE(code) (1000 * (code/1000))
#define SRT_REJC_INTERNAL 0 // Codes from above SRT_REJECT_REASON enum
#define SRT_REJC_PREDEFINED 1000 // Standard server error codes
#define SRT_REJC_USERDEFINED 2000 // User defined error codes
// Logging API - specialization for SRT.
// WARNING: This part is generated.
// Logger Functional Areas
// Note that 0 is "general".
// Values 0* - general, unqualified
// Values 1* - control
// Values 2* - receiving
// Values 3* - sending
// Values 4* - management
// Made by #define so that it's available also for C API.
// Use ../scripts/generate-logging-defs.tcl to regenerate.
// SRT_LOGFA BEGIN GENERATED SECTION {
#define SRT_LOGFA_GENERAL 0 // gglog: General uncategorized log, for serious issues only
#define SRT_LOGFA_SOCKMGMT 1 // smlog: Socket create/open/close/configure activities
#define SRT_LOGFA_CONN 2 // cnlog: Connection establishment and handshake
#define SRT_LOGFA_XTIMER 3 // xtlog: The checkTimer and around activities
#define SRT_LOGFA_TSBPD 4 // tslog: The TsBPD thread
#define SRT_LOGFA_RSRC 5 // rslog: System resource allocation and management
#define SRT_LOGFA_CONGEST 7 // cclog: Congestion control module
#define SRT_LOGFA_PFILTER 8 // pflog: Packet filter module
#define SRT_LOGFA_API_CTRL 11 // aclog: API part for socket and library managmenet
#define SRT_LOGFA_QUE_CTRL 13 // qclog: Queue control activities
#define SRT_LOGFA_EPOLL_UPD 16 // eilog: EPoll, internal update activities
#define SRT_LOGFA_API_RECV 21 // arlog: API part for receiving
#define SRT_LOGFA_BUF_RECV 22 // brlog: Buffer, receiving side
#define SRT_LOGFA_QUE_RECV 23 // qrlog: Queue, receiving side
#define SRT_LOGFA_CHN_RECV 24 // krlog: CChannel, receiving side
#define SRT_LOGFA_GRP_RECV 25 // grlog: Group, receiving side
#define SRT_LOGFA_API_SEND 31 // aslog: API part for sending
#define SRT_LOGFA_BUF_SEND 32 // bslog: Buffer, sending side
#define SRT_LOGFA_QUE_SEND 33 // qslog: Queue, sending side
#define SRT_LOGFA_CHN_SEND 34 // kslog: CChannel, sending side
#define SRT_LOGFA_GRP_SEND 35 // gslog: Group, sending side
#define SRT_LOGFA_INTERNAL 41 // inlog: Internal activities not connected directly to a socket
#define SRT_LOGFA_QUE_MGMT 43 // qmlog: Queue, management part
#define SRT_LOGFA_CHN_MGMT 44 // kmlog: CChannel, management part
#define SRT_LOGFA_GRP_MGMT 45 // gmlog: Group, management part
#define SRT_LOGFA_EPOLL_API 46 // ealog: EPoll, API part
#define SRT_LOGFA_HAICRYPT 6 // hclog: Haicrypt module area
#define SRT_LOGFA_APPLOG 10 // aplog: Applications
// } SRT_LOGFA END GENERATED SECTION
// To make a typical int64_t size, although still use std::bitset.
// C API will carry it over.
#define SRT_LOGFA_LASTNONE 63
enum SRT_KM_STATE
{
SRT_KM_S_UNSECURED = 0, //No encryption
SRT_KM_S_SECURING = 1, //Stream encrypted, exchanging Keying Material
SRT_KM_S_SECURED = 2, //Stream encrypted, keying Material exchanged, decrypting ok.
SRT_KM_S_NOSECRET = 3, //Stream encrypted and no secret to decrypt Keying Material
SRT_KM_S_BADSECRET = 4 //Stream encrypted and wrong secret, cannot decrypt Keying Material
};
enum SRT_EPOLL_OPT
{
SRT_EPOLL_OPT_NONE = 0x0, // fallback
// Values intended to be the same as in `<sys/epoll.h>`.
// so that if system values are used by mistake, they should have the same effect
// This applies to: IN, OUT, ERR and ET.
/// Ready for 'recv' operation:
///
/// - For stream mode it means that at least 1 byte is available.
/// In this mode the buffer may extract only a part of the packet,
/// leaving next data possible for extraction later.
///
/// - For message mode it means that there is at least one packet
/// available (this may change in future, as it is desired that
/// one full message should only wake up, not single packet of a
/// not yet extractable message).
///
/// - For live mode it means that there's at least one packet
/// ready to play.
///
/// - For listener sockets, this means that there is a new connection
/// waiting for pickup through the `srt_accept()` call, that is,
/// the next call to `srt_accept()` will succeed without blocking
/// (see an alias SRT_EPOLL_ACCEPT below).
SRT_EPOLL_IN = 0x1,
/// Ready for 'send' operation.
///
/// - For stream mode it means that there's a free space in the
/// sender buffer for at least 1 byte of data. The next send
/// operation will only allow to send as much data as it is free
/// space in the buffer.
///
/// - For message mode it means that there's a free space for at
/// least one UDP packet. The edge-triggered mode can be used to
/// pick up updates as the free space in the sender buffer grows.
///
/// - For live mode it means that there's a free space for at least
/// one UDP packet. On the other hand, no readiness for OUT usually
/// means an extraordinary congestion on the link, meaning also that
/// you should immediately slow down the sending rate or you may get
/// a connection break soon.
///
/// - For non-blocking sockets used with `srt_connect*` operation,
/// this flag simply means that the connection was established.
SRT_EPOLL_OUT = 0x4,
/// The socket has encountered an error in the last operation
/// and the next operation on that socket will end up with error.
/// You can retry the operation, but getting the error from it
/// is certain, so you may as well close the socket.
SRT_EPOLL_ERR = 0x8,
// To avoid confusion in the internal code, the following
// duplicates are introduced to improve clarity.
SRT_EPOLL_CONNECT = SRT_EPOLL_OUT,
SRT_EPOLL_ACCEPT = SRT_EPOLL_IN,
SRT_EPOLL_UPDATE = 0x10,
SRT_EPOLL_ET = 1u << 31
};
// These are actually flags - use a bit container:
typedef int32_t SRT_EPOLL_T;
// Define which epoll flags determine events. All others are special flags.
#define SRT_EPOLL_EVENTTYPES (SRT_EPOLL_IN | SRT_EPOLL_OUT | SRT_EPOLL_UPDATE | SRT_EPOLL_ERR)
#define SRT_EPOLL_ETONLY (SRT_EPOLL_UPDATE)
enum SRT_EPOLL_FLAGS
{
/// This allows the EID container to be empty when calling the waiting
/// function with infinite time. This means an infinite hangup, although
/// a socket can be added to this EID from a separate thread.
SRT_EPOLL_ENABLE_EMPTY = 1,
/// This makes the waiting function check if there is output container
/// passed to it, and report an error if it isn't. By default it is allowed
/// that the output container is 0 size or NULL and therefore the readiness
/// state is reported only as a number of ready sockets from return value.
SRT_EPOLL_ENABLE_OUTPUTCHECK = 2
};
#ifdef __cplusplus
// In C++ these enums cannot be treated as int and glued by operator |.
// Unless this operator is defined.
inline SRT_EPOLL_OPT operator|(SRT_EPOLL_OPT a1, SRT_EPOLL_OPT a2)
{
return SRT_EPOLL_OPT( (int)a1 | (int)a2 );
}
#endif
typedef struct CBytePerfMon SRT_TRACEBSTATS;
static const SRTSOCKET SRT_INVALID_SOCK = -1;
static const int SRT_ERROR = -1;
// library initialization
SRT_API int srt_startup(void);
SRT_API int srt_cleanup(void);
//
// Socket operations
//
// DEPRECATED: srt_socket with 3 arguments. All these arguments are ignored
// and socket creation doesn't need any arguments. Use srt_create_socket().
// Planned deprecation removal: rel1.6.0
SRT_ATR_DEPRECATED_PX SRT_API SRTSOCKET srt_socket(int, int, int) SRT_ATR_DEPRECATED;
SRT_API SRTSOCKET srt_create_socket(void);
SRT_API int srt_bind (SRTSOCKET u, const struct sockaddr* name, int namelen);
SRT_API int srt_bind_acquire (SRTSOCKET u, UDPSOCKET sys_udp_sock);
// Old name of srt_bind_acquire(), please don't use
// Planned deprecation removal: rel1.6.0
SRT_ATR_DEPRECATED_PX static inline int srt_bind_peerof(SRTSOCKET u, UDPSOCKET sys_udp_sock) SRT_ATR_DEPRECATED;
static inline int srt_bind_peerof (SRTSOCKET u, UDPSOCKET sys_udp_sock) { return srt_bind_acquire(u, sys_udp_sock); }
SRT_API int srt_listen (SRTSOCKET u, int backlog);
SRT_API SRTSOCKET srt_accept (SRTSOCKET u, struct sockaddr* addr, int* addrlen);
SRT_API SRTSOCKET srt_accept_bond (const SRTSOCKET listeners[], int lsize, int64_t msTimeOut);
typedef int srt_listen_callback_fn (void* opaq, SRTSOCKET ns, int hsversion, const struct sockaddr* peeraddr, const char* streamid);
SRT_API int srt_listen_callback(SRTSOCKET lsn, srt_listen_callback_fn* hook_fn, void* hook_opaque);
typedef void srt_connect_callback_fn (void* opaq, SRTSOCKET ns, int errorcode, const struct sockaddr* peeraddr, int token);
SRT_API int srt_connect_callback(SRTSOCKET clr, srt_connect_callback_fn* hook_fn, void* hook_opaque);
SRT_API int srt_connect (SRTSOCKET u, const struct sockaddr* name, int namelen);
SRT_API int srt_connect_debug(SRTSOCKET u, const struct sockaddr* name, int namelen, int forced_isn);
SRT_API int srt_connect_bind (SRTSOCKET u, const struct sockaddr* source,
const struct sockaddr* target, int len);
SRT_API int srt_rendezvous (SRTSOCKET u, const struct sockaddr* local_name, int local_namelen,
const struct sockaddr* remote_name, int remote_namelen);
SRT_API int srt_close (SRTSOCKET u);
SRT_API int srt_getpeername (SRTSOCKET u, struct sockaddr* name, int* namelen);
SRT_API int srt_getsockname (SRTSOCKET u, struct sockaddr* name, int* namelen);
SRT_API int srt_getsockopt (SRTSOCKET u, int level /*ignored*/, SRT_SOCKOPT optname, void* optval, int* optlen);
SRT_API int srt_setsockopt (SRTSOCKET u, int level /*ignored*/, SRT_SOCKOPT optname, const void* optval, int optlen);
SRT_API int srt_getsockflag (SRTSOCKET u, SRT_SOCKOPT opt, void* optval, int* optlen);
SRT_API int srt_setsockflag (SRTSOCKET u, SRT_SOCKOPT opt, const void* optval, int optlen);
typedef struct SRT_SocketGroupData_ SRT_SOCKGROUPDATA;
typedef struct SRT_MsgCtrl_
{
int flags; // Left for future
int msgttl; // TTL for a message (millisec), default -1 (no TTL limitation)
int inorder; // Whether a message is allowed to supersede partially lost one. Unused in stream and live mode.
int boundary; // 0:mid pkt, 1(01b):end of frame, 2(11b):complete frame, 3(10b): start of frame
int64_t srctime; // source time since epoch (usec), 0: use internal time (sender)
int32_t pktseq; // sequence number of the first packet in received message (unused for sending)
int32_t msgno; // message number (output value for both sending and receiving)
SRT_SOCKGROUPDATA* grpdata;
size_t grpdata_size;
} SRT_MSGCTRL;
// Trap representation for sequence and message numbers
// This value means that this is "unset", and it's never
// a result of an operation made on this number.
static const int32_t SRT_SEQNO_NONE = -1; // -1: no seq (0 is a valid seqno!)
static const int32_t SRT_MSGNO_NONE = -1; // -1: unset
static const int32_t SRT_MSGNO_CONTROL = 0; // 0: control (used by packet filter)
static const int SRT_MSGTTL_INF = -1; // unlimited TTL specification for message TTL
// XXX Might be useful also other special uses of -1:
// - -1 as infinity for srt_epoll_wait
// - -1 as a trap index value used in list.cpp
// You are free to use either of these two methods to set SRT_MSGCTRL object
// to default values: either call srt_msgctrl_init(&obj) or obj = srt_msgctrl_default.
SRT_API void srt_msgctrl_init(SRT_MSGCTRL* mctrl);
SRT_API extern const SRT_MSGCTRL srt_msgctrl_default;
// The send/receive functions.
// These functions have different names due to different sets of parameters
// to be supplied. Not all of them are needed or make sense in all modes:
// Plain: supply only the buffer and its size.
// Msg: supply additionally
// - TTL (message is not delivered when exceeded) and
// - INORDER (when false, the message is allowed to be delivered in different
// order than when it was sent, when the later message is earlier ready to
// deliver)
// Msg2: Supply extra parameters in SRT_MSGCTRL. When receiving, these
// parameters will be filled, as needed. NULL is acceptable, in which case
// the defaults are used.
//
// Sending functions
//
SRT_API int srt_send (SRTSOCKET u, const char* buf, int len);
SRT_API int srt_sendmsg (SRTSOCKET u, const char* buf, int len, int ttl/* = -1*/, int inorder/* = false*/);
SRT_API int srt_sendmsg2(SRTSOCKET u, const char* buf, int len, SRT_MSGCTRL *mctrl);
//
// Receiving functions
//
SRT_API int srt_recv (SRTSOCKET u, char* buf, int len);
// srt_recvmsg is actually an alias to srt_recv, it stays under the old name for compat reasons.
SRT_API int srt_recvmsg (SRTSOCKET u, char* buf, int len);
SRT_API int srt_recvmsg2(SRTSOCKET u, char *buf, int len, SRT_MSGCTRL *mctrl);
// Special send/receive functions for files only.
#define SRT_DEFAULT_SENDFILE_BLOCK 364000
#define SRT_DEFAULT_RECVFILE_BLOCK 7280000
SRT_API int64_t srt_sendfile(SRTSOCKET u, const char* path, int64_t* offset, int64_t size, int block);
SRT_API int64_t srt_recvfile(SRTSOCKET u, const char* path, int64_t* offset, int64_t size, int block);
// last error detection
SRT_API const char* srt_getlasterror_str(void);
SRT_API int srt_getlasterror(int* errno_loc);
SRT_API const char* srt_strerror(int code, int errnoval);
SRT_API void srt_clearlasterror(void);
// Performance tracking
// Performance monitor with Byte counters for better bitrate estimation.
SRT_API int srt_bstats(SRTSOCKET u, SRT_TRACEBSTATS * perf, int clear);
// Performance monitor with Byte counters and instantaneous stats instead of moving averages for Snd/Rcvbuffer sizes.
SRT_API int srt_bistats(SRTSOCKET u, SRT_TRACEBSTATS * perf, int clear, int instantaneous);
// Socket Status (for problem tracking)
SRT_API SRT_SOCKSTATUS srt_getsockstate(SRTSOCKET u);
SRT_API int srt_epoll_create(void);
SRT_API int srt_epoll_clear_usocks(int eid);
SRT_API int srt_epoll_add_usock(int eid, SRTSOCKET u, const int* events);
SRT_API int srt_epoll_add_ssock(int eid, SYSSOCKET s, const int* events);
SRT_API int srt_epoll_remove_usock(int eid, SRTSOCKET u);
SRT_API int srt_epoll_remove_ssock(int eid, SYSSOCKET s);
SRT_API int srt_epoll_update_usock(int eid, SRTSOCKET u, const int* events);
SRT_API int srt_epoll_update_ssock(int eid, SYSSOCKET s, const int* events);
SRT_API int srt_epoll_wait(int eid, SRTSOCKET* readfds, int* rnum, SRTSOCKET* writefds, int* wnum, int64_t msTimeOut,
SYSSOCKET* lrfds, int* lrnum, SYSSOCKET* lwfds, int* lwnum);
typedef struct SRT_EPOLL_EVENT_STR
{
SRTSOCKET fd;
int events; // SRT_EPOLL_IN | SRT_EPOLL_OUT | SRT_EPOLL_ERR
#ifdef __cplusplus
SRT_EPOLL_EVENT_STR(SRTSOCKET s, int ev): fd(s), events(ev) {}
SRT_EPOLL_EVENT_STR(): fd(-1), events(0) {} // NOTE: allows singular values, no init.
#endif
} SRT_EPOLL_EVENT;
SRT_API int srt_epoll_uwait(int eid, SRT_EPOLL_EVENT* fdsSet, int fdsSize, int64_t msTimeOut);
SRT_API int32_t srt_epoll_set(int eid, int32_t flags);
SRT_API int srt_epoll_release(int eid);
// Logging control
SRT_API void srt_setloglevel(int ll);
SRT_API void srt_addlogfa(int fa);
SRT_API void srt_dellogfa(int fa);
SRT_API void srt_resetlogfa(const int* fara, size_t fara_size);
// This isn't predicted, will be only available in SRT C++ API.
// For the time being, until this API is ready, use UDT::setlogstream.
// SRT_API void srt_setlogstream(std::ostream& stream);
SRT_API void srt_setloghandler(void* opaque, SRT_LOG_HANDLER_FN* handler);
SRT_API void srt_setlogflags(int flags);
SRT_API int srt_getsndbuffer(SRTSOCKET sock, size_t* blocks, size_t* bytes);
SRT_API int srt_getrejectreason(SRTSOCKET sock);
SRT_API int srt_setrejectreason(SRTSOCKET sock, int value);
// The srt_rejectreason_msg[] array is deprecated (as unsafe).
// Planned removal: v1.6.0.
SRT_API SRT_ATR_DEPRECATED extern const char* const srt_rejectreason_msg [];
SRT_API const char* srt_rejectreason_str(int id);
SRT_API uint32_t srt_getversion(void);
SRT_API int64_t srt_time_now(void);
SRT_API int64_t srt_connection_time(SRTSOCKET sock);
// Possible internal clock types
#define SRT_SYNC_CLOCK_STDCXX_STEADY 0 // C++11 std::chrono::steady_clock
#define SRT_SYNC_CLOCK_GETTIME_MONOTONIC 1 // clock_gettime with CLOCK_MONOTONIC
#define SRT_SYNC_CLOCK_WINQPC 2
#define SRT_SYNC_CLOCK_MACH_ABSTIME 3
#define SRT_SYNC_CLOCK_POSIX_GETTIMEOFDAY 4
#define SRT_SYNC_CLOCK_AMD64_RDTSC 5
#define SRT_SYNC_CLOCK_IA32_RDTSC 6
#define SRT_SYNC_CLOCK_IA64_ITC 7
SRT_API int srt_clock_type(void);
// SRT Socket Groups API (ENABLE_BONDING)
typedef enum SRT_GROUP_TYPE
{
SRT_GTYPE_UNDEFINED,
SRT_GTYPE_BROADCAST,
SRT_GTYPE_BACKUP,
// ...
SRT_GTYPE_E_END
} SRT_GROUP_TYPE;
// Free-form flags for groups
// Flags may be type-specific!
static const uint32_t SRT_GFLAG_SYNCONMSG = 1;
typedef enum SRT_MemberStatus
{
SRT_GST_PENDING, // The socket is created correctly, but not yet ready for getting data.
SRT_GST_IDLE, // The socket is ready to be activated
SRT_GST_RUNNING, // The socket was already activated and is in use
SRT_GST_BROKEN // The last operation broke the socket, it should be closed.
} SRT_MEMBERSTATUS;
struct SRT_SocketGroupData_
{
SRTSOCKET id;
struct sockaddr_storage peeraddr; // Don't want to expose sockaddr_any to public API
SRT_SOCKSTATUS sockstate;
uint16_t weight;
SRT_MEMBERSTATUS memberstate;
int result;
int token;
};
typedef struct SRT_SocketOptionObject SRT_SOCKOPT_CONFIG;
typedef struct SRT_GroupMemberConfig_
{
SRTSOCKET id;
struct sockaddr_storage srcaddr;
struct sockaddr_storage peeraddr; // Don't want to expose sockaddr_any to public API
uint16_t weight;
SRT_SOCKOPT_CONFIG* config;
int errorcode;
int token;
} SRT_SOCKGROUPCONFIG;
SRT_API SRTSOCKET srt_create_group(SRT_GROUP_TYPE);
SRT_API SRTSOCKET srt_groupof(SRTSOCKET socket);
SRT_API int srt_group_data(SRTSOCKET socketgroup, SRT_SOCKGROUPDATA* output, size_t* inoutlen);
SRT_API SRT_SOCKOPT_CONFIG* srt_create_config(void);
SRT_API void srt_delete_config(SRT_SOCKOPT_CONFIG* config /*nullable*/);
SRT_API int srt_config_add(SRT_SOCKOPT_CONFIG* config, SRT_SOCKOPT option, const void* contents, int len);
SRT_API SRT_SOCKGROUPCONFIG srt_prepare_endpoint(const struct sockaddr* src /*nullable*/, const struct sockaddr* adr, int namelen);
SRT_API int srt_connect_group(SRTSOCKET group, SRT_SOCKGROUPCONFIG name[], int arraysize);
#ifdef __cplusplus
}
#endif
#endif
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