#ifndef _NET_COMMON_H
#include "NetCommon.h"
#endif
#include <stdio.h>
#ifdef VXWORKS
#include <inetLib.h>
#endif
/* Some systems (e.g., SunOS) have header files that erroneously declare inet_addr() as taking no arguments.
* This confuses C++. To overcome this, we use our own routine, implemented in C.
*/
unsigned our_inet_addr(cp)
char const* cp;
{
return inet_addr(cp);
}
#if defined(__WIN32__) || defined(_WIN32)
#ifndef IMN_PIM
#define WS_VERSION_CHOICE1 0x202/*MAKEWORD(2,2)*/
#define WS_VERSION_CHOICE2 0x101/*MAKEWORD(1,1)*/
int initializeWinsockIfNecessary(void) {
/* We need to call an initialization routine before
* we can do anything with winsock. (How fucking lame!):
*/
static int _haveInitializedWinsock = 0;
WSADATA wsadata;
if (!_haveInitializedWinsock) {
if ((WSAStartup(WS_VERSION_CHOICE1, &wsadata) != 0)
&& ((WSAStartup(WS_VERSION_CHOICE2, &wsadata)) != 0)) {
return 0; /* error in initialization */
}
if ((wsadata.wVersion != WS_VERSION_CHOICE1)
&& (wsadata.wVersion != WS_VERSION_CHOICE2)) {
WSACleanup();
return 0; /* desired Winsock version was not available */
}
_haveInitializedWinsock = 1;
}
return 1;
}
#else
int initializeWinsockIfNecessary(void) { return 1; }
#endif
#else
#define initializeWinsockIfNecessary() 1
#endif
#ifndef NULL
#define NULL 0
#endif
#ifdef USE_SYSTEM_RANDOM
/* Use the system-supplied "random()" and "srandom()" functions */
#include <stdlib.h>
long our_random() {
#if defined(__WIN32__) || defined(_WIN32)
return rand();
#else
return random();
#endif
}
void our_srandom(unsigned int x) {
#if defined(__WIN32__) || defined(_WIN32)
srand(x);
#else
srandom(x);
#endif
}
#else
/* Use our own implementation of the "random()" and "srandom()" functions */
/*
* random.c:
*
* An improved random number generation package. In addition to the standard
* rand()/srand() like interface, this package also has a special state info
* interface. The our_initstate() routine is called with a seed, an array of
* bytes, and a count of how many bytes are being passed in; this array is
* then initialized to contain information for random number generation with
* that much state information. Good sizes for the amount of state
* information are 32, 64, 128, and 256 bytes. The state can be switched by
* calling the our_setstate() routine with the same array as was initiallized
* with our_initstate(). By default, the package runs with 128 bytes of state
* information and generates far better random numbers than a linear
* congruential generator. If the amount of state information is less than
* 32 bytes, a simple linear congruential R.N.G. is used.
*
* Internally, the state information is treated as an array of longs; the
* zeroeth element of the array is the type of R.N.G. being used (small
* integer); the remainder of the array is the state information for the
* R.N.G. Thus, 32 bytes of state information will give 7 longs worth of
* state information, which will allow a degree seven polynomial. (Note:
* the zeroeth word of state information also has some other information
* stored in it -- see our_setstate() for details).
*
* The random number generation technique is a linear feedback shift register
* approach, employing trinomials (since there are fewer terms to sum up that
* way). In this approach, the least significant bit of all the numbers in
* the state table will act as a linear feedback shift register, and will
* have period 2^deg - 1 (where deg is the degree of the polynomial being
* used, assuming that the polynomial is irreducible and primitive). The
* higher order bits will have longer periods, since their values are also
* influenced by pseudo-random carries out of the lower bits. The total
* period of the generator is approximately deg*(2**deg - 1); thus doubling
* the amount of state information has a vast influence on the period of the
* generator. Note: the deg*(2**deg - 1) is an approximation only good for
* large deg, when the period of the shift register is the dominant factor.
* With deg equal to seven, the period is actually much longer than the
* 7*(2**7 - 1) predicted by this formula.
*/
/*
* For each of the currently supported random number generators, we have a
* break value on the amount of state information (you need at least this
* many bytes of state info to support this random number generator), a degree
* for the polynomial (actually a trinomial) that the R.N.G. is based on, and
* the separation between the two lower order coefficients of the trinomial.
*/
#define TYPE_0 0 /* linear congruential */
#define BREAK_0 8
#define DEG_0 0
#define SEP_0 0
#define TYPE_1 1 /* x**7 + x**3 + 1 */
#define BREAK_1 32
#define DEG_1 7
#define SEP_1 3
#define TYPE_2 2 /* x**15 + x + 1 */
#define BREAK_2 64
#define DEG_2 15
#define SEP_2 1
#define TYPE_3 3 /* x**31 + x**3 + 1 */
#define BREAK_3 128
#define DEG_3 31
#define SEP_3 3
#define TYPE_4 4 /* x**63 + x + 1 */
#define BREAK_4 256
#define DEG_4 63
#define SEP_4 1
/*
* Array versions of the above information to make code run faster --
* relies on fact that TYPE_i == i.
*/
#define MAX_TYPES 5 /* max number of types above */
static int const degrees[MAX_TYPES] = { DEG_0, DEG_1, DEG_2, DEG_3, DEG_4 };
static int const seps [MAX_TYPES] = { SEP_0, SEP_1, SEP_2, SEP_3, SEP_4 };
/*
* Initially, everything is set up as if from:
*
* our_initstate(1, &randtbl, 128);
*
* Note that this initialization takes advantage of the fact that srandom()
* advances the front and rear pointers 10*rand_deg times, and hence the
* rear pointer which starts at 0 will also end up at zero; thus the zeroeth
* element of the state information, which contains info about the current
* position of the rear pointer is just
*
* MAX_TYPES * (rptr - state) + TYPE_3 == TYPE_3.
*/
static long randtbl[DEG_3 + 1] = {
TYPE_3,
0x9a319039, 0x32d9c024, 0x9b663182, 0x5da1f342, 0xde3b81e0, 0xdf0a6fb5,
0xf103bc02, 0x48f340fb, 0x7449e56b, 0xbeb1dbb0, 0xab5c5918, 0x946554fd,
0x8c2e680f, 0xeb3d799f, 0xb11ee0b7, 0x2d436b86, 0xda672e2a, 0x1588ca88,
0xe369735d, 0x904f35f7, 0xd7158fd6, 0x6fa6f051, 0x616e6b96, 0xac94efdc,
0x36413f93, 0xc622c298, 0xf5a42ab8, 0x8a88d77b, 0xf5ad9d0e, 0x8999220b,
0x27fb47b9,
};
/*
* fptr and rptr are two pointers into the state info, a front and a rear
* pointer. These two pointers are always rand_sep places aparts, as they
* cycle cyclically through the state information. (Yes, this does mean we
* could get away with just one pointer, but the code for random() is more
* efficient this way). The pointers are left positioned as they would be
* from the call
*
* our_initstate(1, randtbl, 128);
*
* (The position of the rear pointer, rptr, is really 0 (as explained above
* in the initialization of randtbl) because the state table pointer is set
* to point to randtbl[1] (as explained below).
*/
static long* fptr = &randtbl[SEP_3 + 1];
static long* rptr = &randtbl[1];
/*
* The following things are the pointer to the state information table, the
* type of the current generator, the degree of the current polynomial being
* used, and the separation between the two pointers. Note that for efficiency
* of random(), we remember the first location of the state information, not
* the zeroeth. Hence it is valid to access state[-1], which is used to
* store the type of the R.N.G. Also, we remember the last location, since
* this is more efficient than indexing every time to find the address of
* the last element to see if the front and rear pointers have wrapped.
*/
static long *state = &randtbl[1];
static int rand_type = TYPE_3;
static int rand_deg = DEG_3;
static int rand_sep = SEP_3;
static long* end_ptr = &randtbl[DEG_3 + 1];
/*
* srandom:
*
* Initialize the random number generator based on the given seed. If the
* type is the trivial no-state-information type, just remember the seed.
* O
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共446个文件
cpp:198个
hh:173个
tail:8个
该源码live555能实现rtp传送视频,协议是RTSP,是基于TCP传输视频的,能够实现本地视频的实时转发。可以使用例程来实现
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live555-latest-tar.gz_RTP TCP_RTSP TCP_live555 rtsp_rtp tcp_rt (446个子文件)
config.macosx-before-version-10.4 422B
config.aix 433B
config.alpha 429B
config.armeb-uclibc 700B
config.armlinux 574B
config.avr32-linux 691B
config.bfin-linux-uclibc 653B
config.bfin-uclinux 651B
win32config.Borland 1KB
config.bsplinux 713B
inet.c 14KB
rtcp_from_spec.c 10KB
our_md5.c 10KB
our_md5hl.c 2KB
genWindowsMakefiles.cmd 857B
configure 377B
COPYING 24KB
COPYING 24KB
COPYING 24KB
COPYING 24KB
COPYING 24KB
COPYING 24KB
COPYING 24KB
COPYING 24KB
MP3InternalsHuffmanTable.cpp 108KB
RTSPClient.cpp 84KB
QuickTimeFileSink.cpp 80KB
RTSPServer.cpp 74KB
MediaSession.cpp 50KB
MatroskaFileParser.cpp 43KB
playCommon.cpp 43KB
ProxyServerMediaSession.cpp 36KB
H263plusVideoStreamParser.cpp 35KB
RTCP.cpp 33KB
H264VideoStreamFramer.cpp 31KB
SIPClient.cpp 30KB
MP3InternalsHuffman.cpp 28KB
AVIFileSink.cpp 27KB
MP3Internals.cpp 26KB
MPEG1or2Demux.cpp 25KB
AMRAudioRTPSource.cpp 25KB
GroupsockHelper.cpp 24KB
MPEG4VideoStreamFramer.cpp 23KB
MPEG2IndexFromTransportStream.cpp 23KB
testRTSPClient.cpp 22KB
RTPInterface.cpp 21KB
MultiFramedRTPSource.cpp 21KB
MP3ADU.cpp 20KB
OnDemandServerMediaSubsession.cpp 20KB
Groupsock.cpp 19KB
MatroskaFile.cpp 18KB
MPEG2TransportStreamMultiplexor.cpp 17KB
MP3ADUinterleaving.cpp 16KB
JPEGVideoRTPSource.cpp 16KB
QCELPAudioRTPSource.cpp 16KB
MultiFramedRTPSink.cpp 16KB
WindowsAudioInputDevice_mixer.cpp 16KB
MPEG1or2VideoStreamFramer.cpp 15KB
ServerMediaSession.cpp 15KB
testOnDemandRTSPServer.cpp 15KB
uLawAudioFilter.cpp 14KB
StreamReplicator.cpp 14KB
MP3StreamState.cpp 14KB
MPEG2TransportFileServerMediaSubsession.cpp 14KB
RTPSource.cpp 13KB
DarwinInjector.cpp 12KB
H264VideoRTPSink.cpp 12KB
WAVAudioFileSource.cpp 12KB
RTPSink.cpp 12KB
RTSPCommon.cpp 11KB
MPEG2TransportStreamIndexFile.cpp 11KB
RTSPServerSupportingHTTPStreaming.cpp 11KB
MPEG2TransportStreamFramer.cpp 11KB
VorbisAudioRTPSink.cpp 11KB
MPEG2TransportStreamTrickModeFilter.cpp 11KB
WindowsAudioInputDevice_common.cpp 11KB
AC3AudioStreamFramer.cpp 10KB
testWAVAudioStreamer.cpp 10KB
vobStreamer.cpp 10KB
BasicTaskScheduler.cpp 10KB
QuickTimeGenericRTPSource.cpp 10KB
DVVideoStreamFramer.cpp 9KB
MPEG1or2FileServerDemux.cpp 9KB
MPEG4VideoStreamDiscreteFramer.cpp 9KB
MPEG2TransportStreamFromESSource.cpp 9KB
NetAddress.cpp 9KB
DynamicRTSPServer.cpp 8KB
MPEG1or2VideoStreamDiscreteFramer.cpp 8KB
WAVAudioFileServerMediaSubsession.cpp 8KB
MPEG4LATMAudioRTPSource.cpp 8KB
MPEG4GenericRTPSource.cpp 8KB
PassiveServerMediaSubsession.cpp 8KB
BasicHashTable.cpp 7KB
testMPEG1or2AudioVideoStreamer.cpp 7KB
StreamParser.cpp 7KB
BasicTaskScheduler0.cpp 7KB
testMPEG1or2AudioVideoToDarwin.cpp 7KB
T140TextRTPSink.cpp 7KB
DeviceSource.cpp 7KB
MP3AudioFileServerMediaSubsession.cpp 7KB
共 446 条
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资源评论
- 周云雷2023-01-20资源不错,很实用,内容全面,介绍详细,很好用,谢谢分享。
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