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shairport.c
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shairport.c
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/*
* ShairPort Initializer - Network Initializer/Mgr for Hairtunes RAOP
* Copyright (c) M. Andrew Webster 2011
* All rights reserved.
*
* 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.
*/
#include <fcntl.h>
#include "socketlib.h"
#include "shairport.h"
#include "hairtunes.h"
#ifndef TRUE
#define TRUE (-1)
#endif
#ifndef FALSE
#define FALSE (0)
#endif
// TEMP
int kCurrentLogLevel = LOG_INFO;
extern int buffer_start_fill;
#ifdef _WIN32
#define DEVNULL "nul"
#else
#define DEVNULL "/dev/null"
#endif
#define RSA_LOG_LEVEL LOG_DEBUG_VV
#define SOCKET_LOG_LEVEL LOG_DEBUG_VV
#define HEADER_LOG_LEVEL LOG_DEBUG
#define AVAHI_LOG_LEVEL LOG_DEBUG
int main(int argc, char **argv)
{
char tHWID[HWID_SIZE] = {0,51,52,53,54,55};
char tHWID_Hex[HWID_SIZE * 2 + 1];
memset(tHWID_Hex, 0, sizeof(tHWID_Hex));
char tServerName[56] = "ShairPort";
char tPassword[56] = "";
struct addrinfo *tAddrInfo;
int tSimLevel = 0;
int tUseKnownHWID = FALSE;
int tDaemonize = FALSE;
int tPort = PORT;
char *arg;
while ( (arg = *++argv) ) {
if(!strcmp(arg, "-a"))
{
strncpy(tServerName, *++argv, 55);
argc--;
}
else if(!strncmp(arg, "--apname=", 9))
{
strncpy(tServerName, arg+9, 55);
}
else if(!strcmp(arg, "-p"))
{
strncpy(tPassword, *++argv, 55);
argc--;
}
else if(!strncmp(arg, "--password=",11 ))
{
strncpy(tPassword, arg+11, 55);
}
else if(!strcmp(arg, "-o"))
{
tPort = atoi(*++argv);
argc--;
}
else if(!strncmp(arg, "--server_port=", 14))
{
tPort = atoi(arg+14);
}
else if(!strcmp(arg, "-b"))
{
buffer_start_fill = atoi(*++argv);
argc--;
}
else if(!strncmp(arg, "--buffer=", 9))
{
buffer_start_fill = atoi(arg + 9);
}
else if(!strcmp(arg, "-k"))
{
tUseKnownHWID = TRUE;
}
else if(!strcmp(arg, "-q") || !strncmp(arg, "--quiet", 7))
{
kCurrentLogLevel = 0;
}
else if(!strcmp(arg, "-d"))
{
tDaemonize = TRUE;
kCurrentLogLevel = 0;
}
else if(!strcmp(arg, "-v"))
{
kCurrentLogLevel = LOG_DEBUG;
}
else if(!strcmp(arg, "-v2"))
{
kCurrentLogLevel = LOG_DEBUG_V;
}
else if(!strcmp(arg, "-vv") || !strcmp(arg, "-v3"))
{
kCurrentLogLevel = LOG_DEBUG_VV;
}
else if(!strcmp(arg, "-h") || !strcmp(arg, "--help"))
{
slog(LOG_INFO, "ShairPort version 0.05 C port - Airport Express emulator\n");
slog(LOG_INFO, "Usage:\nshairport [OPTION...]\n\nOptions:\n");
slog(LOG_INFO, " -a, --apname=AirPort Sets Airport name\n");
slog(LOG_INFO, " -p, --password=secret Sets Password (not working)\n");
slog(LOG_INFO, " -o, --server_port=5002 Sets Port for Avahi/dns-sd\n");
slog(LOG_INFO, " -b, --buffer=282 Sets Number of frames to buffer before beginning playback\n");
slog(LOG_INFO, " -d Daemon mode\n");
slog(LOG_INFO, " -q, --quiet Supresses all output.\n");
slog(LOG_INFO, " -v,-v2,-v3,-vv Various debugging levels\n");
slog(LOG_INFO, "\n");
return 0;
}
}
if ( buffer_start_fill < 30 || buffer_start_fill > BUFFER_FRAMES ) {
fprintf(stderr, "buffer value must be > 30 and < %d\n", BUFFER_FRAMES);
return(0);
}
if(tDaemonize)
{
int tPid = fork();
if(tPid < 0)
{
exit(1); // Error on fork
}
else if(tPid > 0)
{
exit(0);
}
else
{
setsid();
int tIdx = 0;
for(tIdx = getdtablesize(); tIdx >= 0; --tIdx)
{
close(tIdx);
}
tIdx = open(DEVNULL, O_RDWR);
dup(tIdx);
dup(tIdx);
}
}
srandom ( time(NULL) );
// Copy over empty 00's
//tPrintHWID[tIdx] = tAddr[0];
int tIdx = 0;
for(tIdx=0;tIdx<HWID_SIZE;tIdx++)
{
if(tIdx > 0)
{
if(!tUseKnownHWID)
{
int tVal = ((random() % 80) + 33);
tHWID[tIdx] = tVal;
}
//tPrintHWID[tIdx] = tAddr[tIdx];
}
sprintf(tHWID_Hex+(tIdx*2), "%02X",tHWID[tIdx]);
}
//tPrintHWID[HWID_SIZE] = '\0';
slog(LOG_INFO, "LogLevel: %d\n", kCurrentLogLevel);
slog(LOG_INFO, "AirName: %s\n", tServerName);
slog(LOG_INFO, "HWID: %.*s\n", HWID_SIZE, tHWID+1);
slog(LOG_INFO, "HWID_Hex(%d): %s\n", strlen(tHWID_Hex), tHWID_Hex);
if(tSimLevel >= 1)
{
#ifdef SIM_INCL
sim(tSimLevel, tTestValue, tHWID);
#endif
return(1);
}
else
{
startAvahi(tHWID_Hex, tServerName, tPort);
slog(LOG_DEBUG_V, "Starting connection server: specified server port: %d\n", tPort);
int tServerSock = setupListenServer(&tAddrInfo, tPort);
if(tServerSock < 0)
{
freeaddrinfo(tAddrInfo);
slog(LOG_INFO, "Error setting up server socket on port %d, try specifying a different port\n", tPort);
exit(1);
}
int tClientSock = 0;
while(1)
{
slog(LOG_DEBUG_V, "Waiting for clients to connect\n");
tClientSock = acceptClient(tServerSock, tAddrInfo);
if(tClientSock > 0)
{
int tPid = fork();
if(tPid == 0)
{
freeaddrinfo(tAddrInfo);
tAddrInfo = NULL;
slog(LOG_DEBUG, "...Accepted Client Connection..\n");
close(tServerSock);
handleClient(tClientSock, tPassword, tHWID);
//close(tClientSock);
return 0;
}
else
{
slog(LOG_DEBUG_VV, "Child now busy handling new client\n");
close(tClientSock);
}
}
else
{
// failed to init server socket....try waiting a moment...
sleep(2);
}
}
}
slog(LOG_DEBUG_VV, "Finished, and waiting to clean everything up\n");
sleep(1);
if(tAddrInfo != NULL)
{
freeaddrinfo(tAddrInfo);
}
return 0;
}
int findEnd(char *tReadBuf)
{
// find \n\n, \r\n\r\n, or \r\r is found
int tIdx = 0;
int tLen = strlen(tReadBuf);
for(tIdx = 0; tIdx < tLen; tIdx++)
{
if(tReadBuf[tIdx] == '\r')
{
if(tIdx + 1 < tLen)
{
if(tReadBuf[tIdx+1] == '\r')
{
return (tIdx+1);
}
else if(tIdx+3 < tLen)
{
if(tReadBuf[tIdx+1] == '\n' &&
tReadBuf[tIdx+2] == '\r' &&
tReadBuf[tIdx+3] == '\n')
{
return (tIdx+3);
}
}
}
}
else if(tReadBuf[tIdx] == '\n')
{
if(tIdx + 1 < tLen && tReadBuf[tIdx+1] == '\n')
{
return (tIdx + 1);
}
}
}
// Found nothing
return -1;
}
void handleClient(int pSock, char *pPassword, char *pHWADDR)
{
slog(LOG_DEBUG_VV, "In Handle Client\n");
fflush(stdout);
socklen_t len;
struct sockaddr_storage addr;
#ifdef AF_INET6
unsigned char ipbin[INET6_ADDRSTRLEN];
#else
unsigned char ipbin[INET_ADDRSTRLEN];
#endif
unsigned int ipbinlen;
int port;
char ipstr[64];
len = sizeof addr;
getsockname(pSock, (struct sockaddr*)&addr, &len);
// deal with both IPv4 and IPv6:
if (addr.ss_family == AF_INET) {
slog(LOG_DEBUG_V, "Constructing ipv4 address\n");
struct sockaddr_in *s = (struct sockaddr_in *)&addr;
port = ntohs(s->sin_port);
inet_ntop(AF_INET, &s->sin_addr, ipstr, sizeof ipstr);
memcpy(ipbin, &s->sin_addr, 4);
ipbinlen = 4;
} else { // AF_INET6
slog(LOG_DEBUG_V, "Constructing ipv6 address\n");
struct sockaddr_in6 *s = (struct sockaddr_in6 *)&addr;
port = ntohs(s->sin6_port);
inet_ntop(AF_INET6, &s->sin6_addr, ipstr, sizeof ipstr);
union {
struct sockaddr_in6 s;
unsigned char bin[sizeof(struct sockaddr_in6)];
} addr;
memcpy(&addr.s, &s->sin6_addr, sizeof(struct sockaddr_in6));
if(memcmp(&addr.bin[0], "\x00\x00\x00\x00" "\x00\x00\x00\x00" "\x00\x00\xff\xff", 12) == 0)
{
// its ipv4...
memcpy(ipbin, &addr.bin[12], 4);
ipbinlen = 4;
}
else
{
memcpy(ipbin, &s->sin6_addr, 16);
ipbinlen = 16;
}
}
slog(LOG_DEBUG_V, "Peer IP address: %s\n", ipstr);
slog(LOG_DEBUG_V, "Peer port : %d\n", port);
int tMoreDataNeeded = 1;
struct keyring tKeys;
struct comms tComms;
struct connection tConn;
initConnection(&tConn, &tKeys, &tComms, pSock, pPassword);
while(1)
{
tMoreDataNeeded = 1;
initBuffer(&tConn.recv, 80); // Just a random, small size to seed the buffer with.
initBuffer(&tConn.resp, 80);
int tError = FALSE;
while(1 == tMoreDataNeeded)
{
tError = readDataFromClient(pSock, &(tConn.recv));
if(!tError && strlen(tConn.recv.data) > 0)
{
slog(LOG_DEBUG_VV, "Finished Reading some data from client\n");
// parse client request
tMoreDataNeeded = parseMessage(&tConn, ipbin, ipbinlen, pHWADDR);
if(1 == tMoreDataNeeded)
{
slog(LOG_DEBUG_VV, "\n\nNeed to read more data\n");
}
else if(-1 == tMoreDataNeeded) // Forked process down below ended.
{
slog(LOG_DEBUG_V, "Forked Process ended...cleaning up\n");
cleanup(&tConn);
// pSock was already closed
return;
}
// if more data needed,
}
else
{
slog(LOG_DEBUG, "Error reading from socket, closing client\n");
// Error reading data....quit.
cleanup(&tConn);
return;
}
}
slog(LOG_DEBUG_VV, "Writing: %d chars to socket\n", tConn.resp.current);
//tConn->resp.data[tConn->resp.current-1] = '\0';
writeDataToClient(pSock, &(tConn.resp));
// Finished reading one message...
cleanupBuffers(&tConn);
}
cleanup(&tConn);
fflush(stdout);
}
void writeDataToClient(int pSock, struct shairbuffer *pResponse)
{
slog(LOG_DEBUG_VV, "\n----Beg Send Response Header----\n%.*s\n", pResponse->current, pResponse->data);
send(pSock, pResponse->data, pResponse->current,0);
slog(LOG_DEBUG_VV, "----Send Response Header----\n");
}
int readDataFromClient(int pSock, struct shairbuffer *pClientBuffer)
{
char tReadBuf[MAX_SIZE];
tReadBuf[0] = '\0';
int tRetval = 1;
int tEnd = -1;
while(tRetval > 0 && tEnd < 0)
{
// Read from socket until \n\n, \r\n\r\n, or \r\r is found
slog(LOG_DEBUG_V, "Waiting To Read...\n");
fflush(stdout);
tRetval = read(pSock, tReadBuf, MAX_SIZE);
// if new buffer contains the end of request string, only copy partial buffer?
tEnd = findEnd(tReadBuf);
if(tEnd >= 0)
{
if(pClientBuffer->marker == 0)
{
pClientBuffer->marker = tEnd+1; // Marks start of content
}
slog(SOCKET_LOG_LEVEL, "Found end of http request at: %d\n", tEnd);
fflush(stdout);
}
else
{
tEnd = MAX_SIZE;
slog(SOCKET_LOG_LEVEL, "Read %d of data so far\n%s\n", tRetval, tReadBuf);
fflush(stdout);
}
if(tRetval > 0)
{
// Copy read data into tReceive;
slog(SOCKET_LOG_LEVEL, "Read %d data, using %d of it\n", tRetval, tEnd);
addNToShairBuffer(pClientBuffer, tReadBuf, tRetval);
slog(LOG_DEBUG_VV, "Finished copying data\n");
}
else
{
slog(LOG_DEBUG, "Error reading data from socket, got: %d bytes", tRetval);
return tRetval;
}
}
if(tEnd + 1 != tRetval)
{
slog(SOCKET_LOG_LEVEL, "Read more data after end of http request. %d instead of %d\n", tRetval, tEnd+1);
}
slog(SOCKET_LOG_LEVEL, "Finished Reading Data:\n%s\nEndOfData\n", pClientBuffer->data);
fflush(stdout);
return 0;
}
char *getFromBuffer(char *pBufferPtr, const char *pField, int pLenAfterField, int *pReturnSize, char *pDelims)
{
slog(LOG_DEBUG_V, "GettingFromBuffer: %s\n", pField);
char* tFound = strstr(pBufferPtr, pField);
int tSize = 0;
if(tFound != NULL)
{
tFound += (strlen(pField) + pLenAfterField);
int tIdx = 0;
char tDelim = pDelims[tIdx];
char *tShortest = NULL;
char *tEnd = NULL;
while(tDelim != '\0')
{
tDelim = pDelims[tIdx++]; // Ensures that \0 is also searched.
tEnd = strchr(tFound, tDelim);
if(tEnd != NULL && (NULL == tShortest || tEnd < tShortest))
{
tShortest = tEnd;
}
}
tSize = (int) (tShortest - tFound);
slog(LOG_DEBUG_VV, "Found %.*s length: %d\n", tSize, tFound, tSize);
if(pReturnSize != NULL)
{
*pReturnSize = tSize;
}
}
else
{
slog(LOG_DEBUG_V, "Not Found\n");
}
return tFound;
}
char *getFromHeader(char *pHeaderPtr, const char *pField, int *pReturnSize)
{
return getFromBuffer(pHeaderPtr, pField, 2, pReturnSize, "\r\n");
}
char *getFromContent(char *pContentPtr, const char* pField, int *pReturnSize)
{
return getFromBuffer(pContentPtr, pField, 1, pReturnSize, "\r\n");
}
char *getFromSetup(char *pContentPtr, const char* pField, int *pReturnSize)
{
return getFromBuffer(pContentPtr, pField, 1, pReturnSize, ";\r\n");
}
// Handles compiling the Apple-Challenge, HWID, and Server IP Address
// Into the response the airplay client is expecting.
int buildAppleResponse(struct connection *pConn, unsigned char *pIpBin, unsigned int pIpBinLen, char *pHWID)
{
// Find Apple-Challenge
char *tResponse = NULL;
int tFoundSize = 0;
char* tFound = getFromHeader(pConn->recv.data, "Apple-Challenge", &tFoundSize);
if(tFound != NULL)
{
char tTrim[tFoundSize + 2];
getTrimmed(tFound, tFoundSize, TRUE, TRUE, tTrim);
slog(LOG_DEBUG_VV, "HeaderChallenge: [%s] len: %d sizeFound: %d\n", tTrim, strlen(tTrim), tFoundSize);
int tChallengeDecodeSize = 16;
char *tChallenge = decode_base64((unsigned char *)tTrim, tFoundSize, &tChallengeDecodeSize);
slog(LOG_DEBUG_VV, "Challenge Decode size: %d expected 16\n", tChallengeDecodeSize);
int tCurSize = 0;
unsigned char tChalResp[38];
memcpy(tChalResp, tChallenge, tChallengeDecodeSize);
tCurSize += tChallengeDecodeSize;
memcpy(tChalResp+tCurSize, pIpBin, pIpBinLen);
tCurSize += pIpBinLen;
memcpy(tChalResp+tCurSize, pHWID, HWID_SIZE);
tCurSize += HWID_SIZE;
int tPad = 32 - tCurSize;
if (tPad > 0)
{
memset(tChalResp+tCurSize, 0, tPad);
tCurSize += tPad;
}
char *tTmp = encode_base64((unsigned char *)tChalResp, tCurSize);
slog(LOG_DEBUG_VV, "Full sig: %s\n", tTmp);
free(tTmp);
// RSA Encrypt
RSA *rsa = loadKey(); // Free RSA
int tSize = RSA_size(rsa);
unsigned char tTo[tSize];
RSA_private_encrypt(tCurSize, (unsigned char *)tChalResp, tTo, rsa, RSA_PKCS1_PADDING);
// Wrap RSA Encrypted binary in Base64 encoding
tResponse = encode_base64(tTo, tSize);
int tLen = strlen(tResponse);
while(tLen > 1 && tResponse[tLen-1] == '=')
{
tResponse[tLen-1] = '\0';
}
free(tChallenge);
RSA_free(rsa);
}
if(tResponse != NULL)
{
// Append to current response
addToShairBuffer(&(pConn->resp), "Apple-Response: ");
addToShairBuffer(&(pConn->resp), tResponse);
addToShairBuffer(&(pConn->resp), "\r\n");
free(tResponse);
return TRUE;
}
return FALSE;
}
//parseMessage(tConn->recv.data, tConn->recv.mark, &tConn->resp, ipstr, pHWADDR, tConn->keys);
int parseMessage(struct connection *pConn, unsigned char *pIpBin, unsigned int pIpBinLen, char *pHWID)
{
int tReturn = 0; // 0 = good, 1 = Needs More Data, -1 = close client socket.
if(pConn->resp.data == NULL)
{
initBuffer(&(pConn->resp), MAX_SIZE);
}
char *tContent = getFromHeader(pConn->recv.data, "Content-Length", NULL);
if(tContent != NULL)
{
int tContentSize = atoi(tContent);
if(pConn->recv.marker == 0 || strlen(pConn->recv.data+pConn->recv.marker) != tContentSize)
{
if(isLogEnabledFor(HEADER_LOG_LEVEL))
{
slog(HEADER_LOG_LEVEL, "Content-Length: %s value -> %d\n", tContent, tContentSize);
if(pConn->recv.marker != 0)
{
slog(HEADER_LOG_LEVEL, "ContentPtr has %d, but needs %d\n",
strlen(pConn->recv.data+pConn->recv.marker), tContentSize);
}
}
// check if value in tContent > 2nd read from client.
return 1; // means more content-length needed
}
}
else
{
slog(LOG_DEBUG_VV, "No content, header only\n");
}
// "Creates" a new Response Header for our response message
addToShairBuffer(&(pConn->resp), "RTSP/1.0 200 OK\r\n");
if(isLogEnabledFor(LOG_INFO))
{
int tLen = strchr(pConn->recv.data, ' ') - pConn->recv.data;
if(tLen < 0 || tLen > 20)
{
tLen = 20;
}
slog(LOG_INFO, "********** RECV %.*s **********\n", tLen, pConn->recv.data);
}
if(pConn->password != NULL)
{
}
if(buildAppleResponse(pConn, pIpBin, pIpBinLen, pHWID)) // need to free sig
{
slog(LOG_DEBUG_V, "Added AppleResponse to Apple-Challenge request\n");
}
// Find option, then based on option, do different actions.
if(strncmp(pConn->recv.data, "OPTIONS", 7) == 0)
{
propogateCSeq(pConn);
addToShairBuffer(&(pConn->resp),
"Public: ANNOUNCE, SETUP, RECORD, PAUSE, FLUSH, TEARDOWN, OPTIONS, GET_PARAMETER, SET_PARAMETER\r\n");
}
else if(!strncmp(pConn->recv.data, "ANNOUNCE", 8))
{
char *tContent = pConn->recv.data + pConn->recv.marker;
int tSize = 0;
char *tHeaderVal = getFromContent(tContent, "a=aesiv", &tSize); // Not allocated memory, just pointing
if(tSize > 0)
{
int tKeySize = 0;
char tEncodedAesIV[tSize + 2];
getTrimmed(tHeaderVal, tSize, TRUE, TRUE, tEncodedAesIV);
slog(LOG_DEBUG_VV, "AESIV: [%.*s] Size: %d Strlen: %d\n", tSize, tEncodedAesIV, tSize, strlen(tEncodedAesIV));
char *tDecodedIV = decode_base64((unsigned char*) tEncodedAesIV, tSize, &tSize);
// grab the key, copy it out of the receive buffer
tHeaderVal = getFromContent(tContent, "a=rsaaeskey", &tKeySize);
char tEncodedAesKey[tKeySize + 2]; // +1 for nl, +1 for \0
getTrimmed(tHeaderVal, tKeySize, TRUE, TRUE, tEncodedAesKey);
slog(LOG_DEBUG_VV, "AES KEY: [%s] Size: %d Strlen: %d\n", tEncodedAesKey, tKeySize, strlen(tEncodedAesKey));
// remove base64 coding from key
char *tDecodedAesKey = decode_base64((unsigned char*) tEncodedAesKey,
tKeySize, &tKeySize); // Need to free DecodedAesKey
// Grab the formats
int tFmtpSize = 0;
char *tFmtp = getFromContent(tContent, "a=fmtp", &tFmtpSize); // Don't need to free
tFmtp = getTrimmedMalloc(tFmtp, tFmtpSize, TRUE, FALSE); // will need to free
slog(LOG_DEBUG_VV, "Format: %s\n", tFmtp);
RSA *rsa = loadKey();
// Decrypt the binary aes key
char *tDecryptedKey = malloc(RSA_size(rsa) * sizeof(char)); // Need to Free Decrypted key
//char tDecryptedKey[RSA_size(rsa)];
if(RSA_private_decrypt(tKeySize, (unsigned char *)tDecodedAesKey,
(unsigned char*) tDecryptedKey, rsa, RSA_PKCS1_OAEP_PADDING) >= 0)
{
slog(LOG_DEBUG, "Decrypted AES key from RSA Successfully\n");
}
else
{
slog(LOG_INFO, "Error Decrypting AES key from RSA\n");
}
free(tDecodedAesKey);
RSA_free(rsa);
setKeys(pConn->keys, tDecodedIV, tDecryptedKey, tFmtp);
propogateCSeq(pConn);
}
}
else if(!strncmp(pConn->recv.data, "SETUP", 5))
{
// Setup pipes
struct comms *tComms = pConn->hairtunes;
if (! (pipe(tComms->in) == 0 && pipe(tComms->out) == 0))
{
slog(LOG_INFO, "Error setting up hairtunes communications...some things probably wont work very well.\n");
}
// Setup fork
char tPort[8] = "6000"; // get this from dup()'d stdout of child pid
int tPid = fork();
if(tPid == 0)
{
int tDataport=0;
char tCPortStr[8] = "59010";
char tTPortStr[8] = "59012";
int tSize = 0;
char *tFound =getFromSetup(pConn->recv.data, "control_port", &tSize);
getTrimmed(tFound, tSize, 1, 0, tCPortStr);
tFound = getFromSetup(pConn->recv.data, "timing_port", &tSize);
getTrimmed(tFound, tSize, 1, 0, tTPortStr);
slog(LOG_DEBUG_VV, "converting %s and %s from str->int\n", tCPortStr, tTPortStr);
int tControlport = atoi(tCPortStr);
int tTimingport = atoi(tTPortStr);
slog(LOG_DEBUG_V, "Got %d for CPort and %d for TPort\n", tControlport, tTimingport);
char *tRtp = NULL;
char *tPipe = NULL;
char *tAoDriver = NULL;
char *tAoDeviceName = NULL;
char *tAoDeviceId = NULL;
// *************************************************
// ** Setting up Pipes, AKA no more debug/output **
// *************************************************
dup2(tComms->in[0],0); // Input to child
closePipe(&(tComms->in[0]));
closePipe(&(tComms->in[1]));
dup2(tComms->out[1], 1); // Output from child
closePipe(&(tComms->out[1]));
closePipe(&(tComms->out[0]));
struct keyring *tKeys = pConn->keys;
pConn->keys = NULL;
pConn->hairtunes = NULL;
// Free up any recv buffers, etc..
if(pConn->clientSocket != -1)
{
close(pConn->clientSocket);
pConn->clientSocket = -1;
}
cleanupBuffers(pConn);
hairtunes_init(tKeys->aeskey, tKeys->aesiv, tKeys->fmt, tControlport, tTimingport,
tDataport, tRtp, tPipe, tAoDriver, tAoDeviceName, tAoDeviceId);
// Quit when finished.
slog(LOG_DEBUG, "Returned from hairtunes init....returning -1, should close out this whole side of the fork\n");
return -1;
}
else if(tPid >0)
{
// Ensure Connection has access to the pipe.
closePipe(&(tComms->in[0]));
closePipe(&(tComms->out[1]));
char tFromHairtunes[80];
int tRead = read(tComms->out[0], tFromHairtunes, 80);
if(tRead <= 0)
{
slog(LOG_INFO, "Error reading port from hairtunes function, assuming default port: %d\n", tPort);
}
else
{
int tSize = 0;
char *tPortStr = getFromHeader(tFromHairtunes, "port", &tSize);
if(tPortStr != NULL)
{
getTrimmed(tPortStr, tSize, TRUE, FALSE, tPort);
}
else
{
slog(LOG_INFO, "Read %d bytes, Error translating %s into a port\n", tRead, tFromHairtunes);
}
}
// READ Ports from here?close(pConn->hairtunes_pipes[0]);
propogateCSeq(pConn);
int tSize = 0;
char *tTransport = getFromHeader(pConn->recv.data, "Transport", &tSize);
addToShairBuffer(&(pConn->resp), "Transport: ");
addNToShairBuffer(&(pConn->resp), tTransport, tSize);
// Append server port:
addToShairBuffer(&(pConn->resp), ";server_port=");
addToShairBuffer(&(pConn->resp), tPort);
addToShairBuffer(&(pConn->resp), "\r\nSession: DEADBEEF\r\n");
}
else
{
slog(LOG_INFO, "Error forking process....dere' be errors round here.\n");
return -1;
}
}
else if(!strncmp(pConn->recv.data, "TEARDOWN", 8))
{
// Be smart? Do more finish up stuff...
addToShairBuffer(&(pConn->resp), "Connection: close\r\n");
propogateCSeq(pConn);
close(pConn->hairtunes->in[1]);
slog(LOG_DEBUG, "Tearing down connection, closing pipes\n");
//close(pConn->hairtunes->out[0]);
tReturn = -1; // Close client socket, but sends an ACK/OK packet first
}
else if(!strncmp(pConn->recv.data, "FLUSH", 5))
{
write(pConn->hairtunes->in[1], "flush\n", 6);
propogateCSeq(pConn);
}
else if(!strncmp(pConn->recv.data, "SET_PARAMETER", 13))
{
propogateCSeq(pConn);
int tSize = 0;
char *tVol = getFromHeader(pConn->recv.data, "volume", &tSize);
slog(LOG_DEBUG_VV, "About to write [vol: %.*s] data to hairtunes\n", tSize, tVol);
write(pConn->hairtunes->in[1], "vol: ", 5);
write(pConn->hairtunes->in[1], tVol, tSize);
write(pConn->hairtunes->in[1], "\n", 1);
slog(LOG_DEBUG_VV, "Finished writing data write data to hairtunes\n");
}
else
{
slog(LOG_DEBUG, "\n\nUn-Handled recv: %s\n", pConn->recv.data);
propogateCSeq(pConn);
}
addToShairBuffer(&(pConn->resp), "\r\n");
return tReturn;
}
// Copies CSeq value from request, and adds standard header values in.
void propogateCSeq(struct connection *pConn) //char *pRecvBuffer, struct shairbuffer *pConn->recp.data)
{
int tSize=0;
char *tRecPtr = getFromHeader(pConn->recv.data, "CSeq", &tSize);
addToShairBuffer(&(pConn->resp), "Audio-Jack-Status: connected; type=analog\r\n");
addToShairBuffer(&(pConn->resp), "CSeq: ");
addNToShairBuffer(&(pConn->resp), tRecPtr, tSize);
addToShairBuffer(&(pConn->resp), "\r\n");
}
void cleanupBuffers(struct connection *pConn)
{
if(pConn->recv.data != NULL)
{
free(pConn->recv.data);
pConn->recv.data = NULL;
}
if(pConn->resp.data != NULL)
{
free(pConn->resp.data);
pConn->resp.data = NULL;
}
}
void cleanup(struct connection *pConn)
{
cleanupBuffers(pConn);
if(pConn->hairtunes != NULL)
{
closePipe(&(pConn->hairtunes->in[0]));
closePipe(&(pConn->hairtunes->in[1]));
closePipe(&(pConn->hairtunes->out[0]));
closePipe(&(pConn->hairtunes->out[1]));
}
if(pConn->keys != NULL)
{
if(pConn->keys->aesiv != NULL)
{
free(pConn->keys->aesiv);
}
if(pConn->keys->aeskey != NULL)
{
free(pConn->keys->aeskey);
}
if(pConn->keys->fmt != NULL)
{
free(pConn->keys->fmt);
}
pConn->keys = NULL;
}
if(pConn->clientSocket != -1)
{
close(pConn->clientSocket);
pConn->clientSocket = -1;
}
}
int startAvahi(const char *pHWStr, const char *pServerName, int pPort)
{
int tMaxServerName = 25; // Something reasonable? iPad showed 21, iphone 25
int tPid = fork();
if(tPid == 0)
{
char tName[100 + HWID_SIZE + 3];
if(strlen(pServerName) > tMaxServerName)
{
slog(LOG_INFO,"Hey dog, we see you like long server names, "
"so we put a strncat in our command so we don't buffer overflow, while you listen to your flow.\n"
"We just used the first %d characters. Pick something shorter if you want\n", tMaxServerName);
}
tName[0] = '\0';
char tPort[SERVLEN];
sprintf(tPort, "%d", pPort);
strcat(tName, pHWStr);
strcat(tName, "@");
strncat(tName, pServerName, tMaxServerName);
slog(AVAHI_LOG_LEVEL, "Avahi/DNS-SD Name: %s\n", tName);
execlp("avahi-publish-service", "avahi-publish-service", tName,
"_raop._tcp", tPort, "tp=UDP","sm=false","sv=false","ek=1","et=0,1",
"cn=0,1","ch=2","ss=16","sr=44100","pw=false","vn=3","txtvers=1", NULL);
execlp("dns-sd", "dns-sd", "-R", tName,
"_raop._tcp", ".", tPort, "tp=UDP","sm=false","sv=false","ek=1","et=0,1",
"cn=0,1","ch=2","ss=16","sr=44100","pw=false","vn=3","txtvers=1", NULL);
if(errno == -1) {
perror("error");
}
slog(LOG_INFO, "Bad error... couldn't find or failed to run: avahi-publish-service OR dns-sd\n");
exit(1);
}
else
{
slog(LOG_DEBUG_VV, "Avahi/DNS-SD started on PID: %d\n", tPid);
}
return tPid;
}
void printBufferInfo(struct shairbuffer *pBuf, int pLevel)
{
slog(pLevel, "Buffer: [%s] size: %d maxchars:%d\n", pBuf->data, pBuf->current, pBuf->maxsize/sizeof(char));
}
int getAvailChars(struct shairbuffer *pBuf)
{
return (pBuf->maxsize / sizeof(char)) - pBuf->current;
}
void addToShairBuffer(struct shairbuffer *pBuf, char *pNewBuf)
{
addNToShairBuffer(pBuf, pNewBuf, strlen(pNewBuf));
}
void addNToShairBuffer(struct shairbuffer *pBuf, char *pNewBuf, int pNofNewBuf)
{
int tAvailChars = getAvailChars(pBuf);
if(pNofNewBuf > tAvailChars)
{
int tNewSize = pBuf->maxsize * 2 + MAX_SIZE + sizeof(char);
char *tTmpBuf = malloc(tNewSize);
tTmpBuf[0] = '\0';
memset(tTmpBuf, 0, tNewSize/sizeof(char));
memcpy(tTmpBuf, pBuf->data, pBuf->current);
free(pBuf->data);
pBuf->maxsize = tNewSize;
pBuf->data = tTmpBuf;
}
memcpy(pBuf->data + pBuf->current, pNewBuf, pNofNewBuf);
pBuf->current += pNofNewBuf;
if(getAvailChars(pBuf) > 1)
{
pBuf->data[pBuf->current] = '\0';
}
}
char *getTrimmedMalloc(char *pChar, int pSize, int pEndStr, int pAddNL)
{
int tAdditionalSize = 0;
if(pEndStr)
tAdditionalSize++;
if(pAddNL)
tAdditionalSize++;
char *tTrimDest = malloc(sizeof(char) * (pSize + tAdditionalSize));
return getTrimmed(pChar, pSize, pEndStr, pAddNL, tTrimDest);
}
// Must free returned ptr
char *getTrimmed(char *pChar, int pSize, int pEndStr, int pAddNL, char *pTrimDest)
{
int tSize = pSize;
if(pEndStr)