RTMPdump 源代码分析 1: main()函数
RTMPDump(libRTMP)源代码分析 2:解析RTMP地址——RTMP_ParseURL()
RTMPdump(libRTMP) 源代码分析 3: AMF编码
RTMPdump(libRTMP)源代码分析 4: 连接第一步——握手(Hand Shake)
RTMPdump(libRTMP) 源代码分析 5: 建立一个流媒体连接 (NetConnection部分)
RTMPdump(libRTMP) 源代码分析 6: 建立一个流媒体连接 (NetStream部分 1)
RTMPdump(libRTMP) 源代码分析 7: 建立一个流媒体连接 (NetStream部分 2)
RTMPdump(libRTMP) 源代码分析 8: 发送消息(Message)
RTMPdump(libRTMP) 源代码分析 9: 接收消息(Message)(接收视音频数据)
RTMPdump(libRTMP) 源代码分析 10: 处理各种消息(Message)
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在这里分析一下RTMPdump(libRTMP)连接到支持RTMP协议的服务器的第一步:握手(Hand Shake)。
RTMP连接的过程曾经分析过:RTMP流媒体播放过程
在这里不再细说,分析一下位于handshake.h文件里面实现握手(HandShake)功能的函数:
注意:handshake.h里面代码量很大,但是很多代码都是为了处理RTMP的加密版协议的,例如rtmps;因此在这里就不做过多分析了,我们只考虑普通的RTMP协议。
static int
HandShake(RTMP * r, int FP9HandShake)
{
int i, offalg = 0;
int dhposClient = 0;
int digestPosClient = 0;
int encrypted = r->Link.protocol & RTMP_FEATURE_ENC;
RC4_handle keyIn = 0;
RC4_handle keyOut = 0;
int32_t *ip;
uint32_t uptime;
uint8_t clientbuf[RTMP_SIG_SIZE + 4], *clientsig=clientbuf+4;
uint8_t serversig[RTMP_SIG_SIZE], client2[RTMP_SIG_SIZE], *reply;
uint8_t type;
getoff *getdh = NULL, *getdig = NULL;
if (encrypted || r->Link.SWFSize)
FP9HandShake = TRUE;
else
//普通的
FP9HandShake = FALSE;
r->Link.rc4keyIn = r->Link.rc4keyOut = 0;
if (encrypted)
{
clientsig[-1] = 0x06; /* 0x08 is RTMPE as well */
offalg = 1;
}
else
//0x03代表RTMP协议的版本(客户端要求的)
//数组竟然能有“-1”下标
//C0中的字段(1B)
clientsig[-1] = 0x03;
uptime = htonl(RTMP_GetTime());
//void *memcpy(void *dest, const void *src, int n);
//由src指向地址为起始地址的连续n个字节的数据复制到以dest指向地址为起始地址的空间内
//把uptime的前4字节(其实一共就4字节)数据拷贝到clientsig指向的地址中
//C1中的字段(4B)
memcpy(clientsig, &uptime, 4);
if (FP9HandShake)
{
/* set version to at least 9.0.115.0 */
if (encrypted)
{
clientsig[4] = 128;
clientsig[6] = 3;
}
else
{
clientsig[4] = 10;
clientsig[6] = 45;
}
clientsig[5] = 0;
clientsig[7] = 2;
RTMP_Log(RTMP_LOGDEBUG, "%s: Client type: %02X", __FUNCTION__, clientsig[-1]);
getdig = digoff[offalg];
getdh = dhoff[offalg];
}
else
{
//void *memset(void *s, int ch, size_t n);将s中前n个字节替换为ch并返回s;
//将clientsig[4]开始的4个字节替换为0
//这是C1的字段
memset(&clientsig[4], 0, 4);
}
/* generate random data */
#ifdef _DEBUG
//将clientsig+8开始的1528个字节替换为0(这是一种简单的方法)
//这是C1中的random字段
memset(clientsig+8, 0, RTMP_SIG_SIZE-8);
#else
//实际中使用rand()循环生成1528字节的伪随机数
ip = (int32_t *)(clientsig+8);
for (i = 2; i < RTMP_SIG_SIZE/4; i++)
*ip++ = rand();
#endif
/* set handshake digest */
if (FP9HandShake)
{
if (encrypted)
{
/* generate Diffie-Hellmann parameters */
r->Link.dh = DHInit(1024);
if (!r->Link.dh)
{
RTMP_Log(RTMP_LOGERROR, "%s: Couldn't initialize Diffie-Hellmann!",
__FUNCTION__);
return FALSE;
}
dhposClient = getdh(clientsig, RTMP_SIG_SIZE);
RTMP_Log(RTMP_LOGDEBUG, "%s: DH pubkey position: %d", __FUNCTION__, dhposClient);
if (!DHGenerateKey((DH *)r->Link.dh))
{
RTMP_Log(RTMP_LOGERROR, "%s: Couldn't generate Diffie-Hellmann public key!",
__FUNCTION__);
return FALSE;
}
if (!DHGetPublicKey((DH *)r->Link.dh, &clientsig[dhposClient], 128))
{
RTMP_Log(RTMP_LOGERROR, "%s: Couldn't write public key!", __FUNCTION__);
return FALSE;
}
}
digestPosClient = getdig(clientsig, RTMP_SIG_SIZE); /* reuse this value in verification */
RTMP_Log(RTMP_LOGDEBUG, "%s: Client digest offset: %d", __FUNCTION__,
digestPosClient);
CalculateDigest(digestPosClient, clientsig, GenuineFPKey, 30,
&clientsig[digestPosClient]);
RTMP_Log(RTMP_LOGDEBUG, "%s: Initial client digest: ", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, clientsig + digestPosClient,
SHA256_DIGEST_LENGTH);
}
#ifdef _DEBUG
RTMP_Log(RTMP_LOGDEBUG, "Clientsig: ");
RTMP_LogHex(RTMP_LOGDEBUG, clientsig, RTMP_SIG_SIZE);
#endif
//发送数据报C0+C1
//从clientsig-1开始发,长度1536+1,两个包合并
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。发送握手数据C0+C1");
//-----------------------------
if (!WriteN(r, (char *)clientsig-1, RTMP_SIG_SIZE + 1))
return FALSE;
//读取数据报,长度1,存入type
//是服务器的S0,表示服务器使用的RTMP版本
if (ReadN(r, (char *)&type, 1) != 1) /* 0x03 or 0x06 */
return FALSE;
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。接收握手数据S0");
//-----------------------------
RTMP_Log(RTMP_LOGDEBUG, "%s: Type Answer : %02X", __FUNCTION__, type);
//客户端要求的版本和服务器提供的版本不同
if (type != clientsig[-1])
RTMP_Log(RTMP_LOGWARNING, "%s: Type mismatch: client sent %d, server answered %d",
__FUNCTION__, clientsig[-1], type);
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。成功接收握手数据S0,服务器和客户端版本相同");
//-----------------------------
//客户端和服务端随机序列长度是否相同
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。接收握手数据S1");
//-----------------------------
if (ReadN(r, (char *)serversig, RTMP_SIG_SIZE) != RTMP_SIG_SIZE)
return FALSE;
/* decode server response */
//把serversig的前四个字节赋值给uptime
memcpy(&uptime, serversig, 4);
//大端转小端
uptime = ntohl(uptime);
RTMP_Log(RTMP_LOGDEBUG, "%s: Server Uptime : %d", __FUNCTION__, uptime);
RTMP_Log(RTMP_LOGDEBUG, "%s: FMS Version : %d.%d.%d.%d", __FUNCTION__, serversig[4],
serversig[5], serversig[6], serversig[7]);
if (FP9HandShake && type == 3 && !serversig[4])
FP9HandShake = FALSE;
#ifdef _DEBUG
RTMP_Log(RTMP_LOGDEBUG, "Server signature:");
RTMP_LogHex(RTMP_LOGDEBUG, serversig, RTMP_SIG_SIZE);
#endif
if (FP9HandShake)
{
uint8_t digestResp[SHA256_DIGEST_LENGTH];
uint8_t *signatureResp = NULL;
/* we have to use this signature now to find the correct algorithms for getting the digest and DH positions */
int digestPosServer = getdig(serversig, RTMP_SIG_SIZE);
if (!VerifyDigest(digestPosServer, serversig, GenuineFMSKey, 36))
{
RTMP_Log(RTMP_LOGWARNING, "Trying different position for server digest!");
offalg ^= 1;
getdig = digoff[offalg];
getdh = dhoff[offalg];
digestPosServer = getdig(serversig, RTMP_SIG_SIZE);
if (!VerifyDigest(digestPosServer, serversig, GenuineFMSKey, 36))
{
RTMP_Log(RTMP_LOGERROR, "Couldn't verify the server digest"); /* continuing anyway will probably fail */
return FALSE;
}
}
/* generate SWFVerification token (SHA256 HMAC hash of decompressed SWF, key are the last 32 bytes of the server handshake) */
if (r->Link.SWFSize)
{
const char swfVerify[] = { 0x01, 0x01 };
char *vend = r->Link.SWFVerificationResponse+sizeof(r->Link.SWFVerificationResponse);
memcpy(r->Link.SWFVerificationResponse, swfVerify, 2);
AMF_EncodeInt32(&r->Link.SWFVerificationResponse[2], vend, r->Link.SWFSize);
AMF_EncodeInt32(&r->Link.SWFVerificationResponse[6], vend, r->Link.SWFSize);
HMACsha256(r->Link.SWFHash, SHA256_DIGEST_LENGTH,
&serversig[RTMP_SIG_SIZE - SHA256_DIGEST_LENGTH],
SHA256_DIGEST_LENGTH,
(uint8_t *)&r->Link.SWFVerificationResponse[10]);
}
/* do Diffie-Hellmann Key exchange for encrypted RTMP */
if (encrypted)
{
/* compute secret key */
uint8_t secretKey[128] = { 0 };
int len, dhposServer;
dhposServer = getdh(serversig, RTMP_SIG_SIZE);
RTMP_Log(RTMP_LOGDEBUG, "%s: Server DH public key offset: %d", __FUNCTION__,
dhposServer);
len = DHComputeSharedSecretKey((DH *)r->Link.dh, &serversig[dhposServer],
128, secretKey);
if (len < 0)
{
RTMP_Log(RTMP_LOGDEBUG, "%s: Wrong secret key position!", __FUNCTION__);
return FALSE;
}
RTMP_Log(RTMP_LOGDEBUG, "%s: Secret key: ", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, secretKey, 128);
InitRC4Encryption(secretKey,
(uint8_t *) & serversig[dhposServer],
(uint8_t *) & clientsig[dhposClient],
&keyIn, &keyOut);
}
reply = client2;
#ifdef _DEBUG
memset(reply, 0xff, RTMP_SIG_SIZE);
#else
ip = (int32_t *)reply;
for (i = 0; i < RTMP_SIG_SIZE/4; i++)
*ip++ = rand();
#endif
/* calculate response now */
signatureResp = reply+RTMP_SIG_SIZE-SHA256_DIGEST_LENGTH;
HMACsha256(&serversig[digestPosServer], SHA256_DIGEST_LENGTH,
GenuineFPKey, sizeof(GenuineFPKey), digestResp);
HMACsha256(reply, RTMP_SIG_SIZE - SHA256_DIGEST_LENGTH, digestResp,
SHA256_DIGEST_LENGTH, signatureResp);
/* some info output */
RTMP_Log(RTMP_LOGDEBUG,
"%s: Calculated digest key from secure key and server digest: ",
__FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, digestResp, SHA256_DIGEST_LENGTH);
#ifdef FP10
if (type == 8 )
{
uint8_t *dptr = digestResp;
uint8_t *sig = signatureResp;
/* encrypt signatureResp */
for (i=0; i<SHA256_DIGEST_LENGTH; i+=8)
rtmpe8_sig(sig+i, sig+i, dptr[i] % 15);
}
#if 0
else if (type == 9))
{
uint8_t *dptr = digestResp;
uint8_t *sig = signatureResp;
/* encrypt signatureResp */
for (i=0; i<SHA256_DIGEST_LENGTH; i+=8)
rtmpe9_sig(sig+i, sig+i, dptr[i] % 15);
}
#endif
#endif
RTMP_Log(RTMP_LOGDEBUG, "%s: Client signature calculated:", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, signatureResp, SHA256_DIGEST_LENGTH);
}
else
{
//直接赋值
reply = serversig;
#if 0
uptime = htonl(RTMP_GetTime());
memcpy(reply+4, &uptime, 4);
#endif
}
#ifdef _DEBUG
RTMP_Log(RTMP_LOGDEBUG, "%s: Sending handshake response: ",
__FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, reply, RTMP_SIG_SIZE);
#endif
//把reply中的1536字节数据发送出去
//对应C2
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。发送握手数据C2");
//-----------------------------
if (!WriteN(r, (char *)reply, RTMP_SIG_SIZE))
return FALSE;
/* 2nd part of handshake */
//读取1536字节数据到serversig
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。读取握手数据S2");
//-----------------------------
if (ReadN(r, (char *)serversig, RTMP_SIG_SIZE) != RTMP_SIG_SIZE)
return FALSE;
#ifdef _DEBUG
RTMP_Log(RTMP_LOGDEBUG, "%s: 2nd handshake: ", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, serversig, RTMP_SIG_SIZE);
#endif
if (FP9HandShake)
{
uint8_t signature[SHA256_DIGEST_LENGTH];
uint8_t digest[SHA256_DIGEST_LENGTH];
if (serversig[4] == 0 && serversig[5] == 0 && serversig[6] == 0
&& serversig[7] == 0)
{
RTMP_Log(RTMP_LOGDEBUG,
"%s: Wait, did the server just refuse signed authentication?",
__FUNCTION__);
}
RTMP_Log(RTMP_LOGDEBUG, "%s: Server sent signature:", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, &serversig[RTMP_SIG_SIZE - SHA256_DIGEST_LENGTH],
SHA256_DIGEST_LENGTH);
/* verify server response */
HMACsha256(&clientsig[digestPosClient], SHA256_DIGEST_LENGTH,
GenuineFMSKey, sizeof(GenuineFMSKey), digest);
HMACsha256(serversig, RTMP_SIG_SIZE - SHA256_DIGEST_LENGTH, digest,
SHA256_DIGEST_LENGTH, signature);
/* show some information */
RTMP_Log(RTMP_LOGDEBUG, "%s: Digest key: ", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, digest, SHA256_DIGEST_LENGTH);
#ifdef FP10
if (type == 8 )
{
uint8_t *dptr = digest;
uint8_t *sig = signature;
/* encrypt signature */
for (i=0; i<SHA256_DIGEST_LENGTH; i+=8)
rtmpe8_sig(sig+i, sig+i, dptr[i] % 15);
}
#if 0
else if (type == 9)
{
uint8_t *dptr = digest;
uint8_t *sig = signature;
/* encrypt signatureResp */
for (i=0; i<SHA256_DIGEST_LENGTH; i+=8)
rtmpe9_sig(sig+i, sig+i, dptr[i] % 15);
}
#endif
#endif
RTMP_Log(RTMP_LOGDEBUG, "%s: Signature calculated:", __FUNCTION__);
RTMP_LogHex(RTMP_LOGDEBUG, signature, SHA256_DIGEST_LENGTH);
if (memcmp
(signature, &serversig[RTMP_SIG_SIZE - SHA256_DIGEST_LENGTH],
SHA256_DIGEST_LENGTH) != 0)
{
RTMP_Log(RTMP_LOGWARNING, "%s: Server not genuine Adobe!", __FUNCTION__);
return FALSE;
}
else
{
RTMP_Log(RTMP_LOGDEBUG, "%s: Genuine Adobe Flash Media Server", __FUNCTION__);
}
if (encrypted)
{
char buff[RTMP_SIG_SIZE];
/* set keys for encryption from now on */
r->Link.rc4keyIn = keyIn;
r->Link.rc4keyOut = keyOut;
/* update the keystreams */
if (r->Link.rc4keyIn)
{
RC4_encrypt((RC4_KEY *)r->Link.rc4keyIn, RTMP_SIG_SIZE, (uint8_t *) buff);
}
if (r->Link.rc4keyOut)
{
RC4_encrypt((RC4_KEY *)r->Link.rc4keyOut, RTMP_SIG_SIZE, (uint8_t *) buff);
}
}
}
else
{
//int memcmp(const void *buf1, const void *buf2, unsigned int count); 当buf1=buf2时,返回值=0
//比较serversig和clientsig是否相等
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。比较握手数据签名");
//-----------------------------
if (memcmp(serversig, clientsig, RTMP_SIG_SIZE) != 0)
{
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。握手数据签名不匹配!");
//-----------------------------
RTMP_Log(RTMP_LOGWARNING, "%s: client signature does not match!",
__FUNCTION__);
}
}
//握手----------------
r->dlg->AppendCInfo("建立连接:第1次连接。握手成功");
//-----------------------------
RTMP_Log(RTMP_LOGDEBUG, "%s: Handshaking finished....", __FUNCTION__);
return TRUE;
}rtmpdump源代码(Linux):http://download.csdn.net/detail/leixiaohua1020/6376561
rtmpdump源代码(VC 2005 工程):http://download.csdn.net/detail/leixiaohua1020/6563163