/* * $RCSfile: mms.c,v $ * $Date: 2006/01/23 20:30:43 $ - $Revision: 1.33 $ * * This file is distributed as a part of MMSRIP ( MMS Ripper ). * Copyright (c) 2005-2006 Nicolas BENOIT * * It is highly based on the work of SDP Multimedia and Major MMS. * They deserve all the credits for it. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2, or (at your option) any * later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. * */ #define _GNU_SOURCE #ifdef _WIN32 #include #else #include #include #include #include #include #endif #include #include #include #include #include #include #include "common.h" #include "mms.h" #include "error.h" /* * Put 32 bits inside a command buffer. */ static void mms_put_32 ( MMS_PACKET *pak, uint32_t value ) { pak->buf[pak->num_bytes ] = value % 256; value = value >> 8; pak->buf[pak->num_bytes+1] = value % 256 ; value = value >> 8; pak->buf[pak->num_bytes+2] = value % 256 ; value = value >> 8; pak->buf[pak->num_bytes+3] = value % 256 ; pak->num_bytes += 4; return; } /* * Returns the 32 bits located at specified offset. */ static uint32_t mms_get_32 ( const unsigned char *buf, const int offset ) { return ( (((uint32_t)buf[offset+0]) << 0) | (((uint32_t)buf[offset+1]) << 8) | (((uint32_t)buf[offset+2]) << 16) | (((uint32_t)buf[offset+3]) << 24) ); } /* * Returns the 64 bits located at specified offset. */ static uint64_t mms_get_64 ( const unsigned char *buf, const int offset ) { return ( (((uint64_t)buf[offset+0]) << 0) | (((uint64_t)buf[offset+1]) << 8) | (((uint64_t)buf[offset+2]) << 16) | (((uint64_t)buf[offset+3]) << 24) | (((uint64_t)buf[offset+4]) << 32) | (((uint64_t)buf[offset+5]) << 40) | (((uint64_t)buf[offset+6]) << 48) | (((uint64_t)buf[offset+7]) << 56) ); } /* * Converts a string into a UTF-16 string. */ static void mms_string_utf16 ( uint8_t *dest, unsigned char *src, const ssize_t len ) { ssize_t i; memset ( dest, 0, len ); for ( i=0; ibuf, 0) ); fprintf ( stddebug, " command id: 0x%08x\n", mms_get_32(pak->buf, 4) ); fprintf ( stddebug, " length: 0x%8x \n", mms_get_32(pak->buf, 8) ); fprintf ( stddebug, " len8: 0x%8x \n", mms_get_32(pak->buf, 16) ); fprintf ( stddebug, " sequence #: 0x%08x\n", mms_get_32(pak->buf, 20) ); fprintf ( stddebug, " len8 (II): 0x%8x \n", mms_get_32(pak->buf, 32) ); fprintf ( stddebug, " dir | comm: 0x%08x\n", mms_get_32(pak->buf, 36) ); fprintf ( stddebug, " switches: 0x%08x\n", mms_get_32(pak->buf, 40) ); fprintf ( stddebug, "\nascii contents:\n" ); for ( i=48; ibuf[i]; if ( ( c>=32 ) && ( c<=128 ) ) fprintf ( stddebug, "%c", c ); else fprintf ( stddebug, "." ); } fprintf ( stddebug, "\n\npackage hexdump:\n " ); i = 0; while ( 1 ) { c = pak->buf[i]; fprintf ( stddebug, "%02x", c ); ++i; if ( i < length ) { if ( (i % 16) == 0 ) fprintf ( stddebug, "\n" ); if ( (i % 2) == 0 ) fprintf ( stddebug, " " ); } else break; } fprintf ( stddebug, "\n\n" ); fflush ( stddebug ); return; } /* * Sends a command packet to the server. * Returns MMS_RET_SUCCESS if success, MMS_RET_ERROR either. */ static int mms_send_packet ( MMS *mms, const int command, const uint32_t switches, const uint32_t extra, const ssize_t length, const uint8_t *data ) { MMS_PACKET pak; ssize_t written_len; const ssize_t len8 = ( length + (length%8) ) / 8; pak.num_bytes = 0; mms_put_32 ( &pak, 0x00000001 ); /* start sequence */ mms_put_32 ( &pak, 0xB00BFACE ); /* #-)) */ mms_put_32 ( &pak, length + 32 ); mms_put_32 ( &pak, 0x20534d4d ); /* protocol type "MMS " */ mms_put_32 ( &pak, len8 + 4 ); mms_put_32 ( &pak, mms->seq_num++ ); mms_put_32 ( &pak, 0x0 ); /* unknown */ mms_put_32 ( &pak, 0x0 ); mms_put_32 ( &pak, 2+len8 ); mms_put_32 ( &pak, 0x00030000 | command ); /* dir | command */ mms_put_32 ( &pak, switches ); mms_put_32 ( &pak, extra ); memcpy ( &pak.buf[48], data, length ); written_len = write ( mms->socket, pak.buf, length+48 ); if ( written_len == -1 ) { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_send_packet", "write() said: %s", strerror(errno) ); #else error ( "mms_send_packet", "write() failed" ); #endif return MMS_RET_ERROR; } else if ( written_len != (length+48) ) { if ( !mms->quiet ) error ( "mms_send_packet", "did not write enough bytes" ); return MMS_RET_ERROR; } if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &pak, length+48, MMS_CLIENT ); return MMS_RET_SUCCESS; } /* * Reads some bytes from the socket. * This is blocking until we don't have the required amount of bytes. * Returns MMS_RET_SUCCESS if success, MMS_RET_ERROR either. */ static int mms_recv_packet ( const int s, MMS_PACKET *pak, size_t count, const int quiet ) { ssize_t read_len, total; total = 0; if ( MMS_BUF_SIZE < count ) { if ( !quiet ) warning ( "mms_recv_packet", "caller is too greedy" ); count = MMS_BUF_SIZE; } while ( total < count ) { read_len = read ( s, &pak->buf[total], count-total ); if ( read_len == -1 ) { if ( !quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_recv_packet", "read() said: %s", strerror(errno) ); #else error ( "mms_recv_packet", "read() failed" ); #endif return MMS_RET_ERROR; } total += read_len; } return MMS_RET_SUCCESS; } /* * Gets server's command. * The first 8 bytes can be skipped setting offset to 8. * It writes the packet length in the provided storage. * Returns command ID, MMS_CMD_INVALID if error. */ static int mms_recv_cmd_packet ( const int s, MMS_PACKET *pak, ssize_t *packet_len, const int offset, const int quiet ) { MMS_PACKET tmp; if ( ( offset > 8 ) || ( offset < 0 ) ) { if ( !quiet ) error ( "mms_recv_cmd_packet", "provided offset is invalid" ); return MMS_RET_ERROR; } if ( mms_recv_packet ( s, &tmp, 12-offset, quiet ) != 0 ) { if ( !quiet ) error ( "mms_recv_cmd_packet", "unable to get packet header" ); return MMS_RET_ERROR; } memcpy ( &pak->buf[offset], tmp.buf, 12-offset ); if ( offset == 0 ) { if ( mms_get_32(pak->buf, 4) != 0xb00bface ) /* probably a coincidence... */ { if ( !quiet ) error ( "mms_recv_cmd_packet", "answer should have been a cmd packet" ); return MMS_RET_ERROR; } } memcpy ( packet_len, &pak->buf[8], 4 ); *packet_len = mms_get_32 ( (unsigned char *) packet_len, 0 ) + 4; if ( ( *packet_len + 12 ) > MMS_BUF_SIZE ) { if ( !quiet ) error ( "mms_recv_cmd_packet", "incoming packet is too big for me" ); return MMS_RET_ERROR; } if ( mms_recv_packet ( s, &tmp, *packet_len, quiet ) != 0 ) { if ( !quiet ) error ( "mms_recv_cmd_packet", "unable to get packet body" ); return MMS_RET_ERROR; } memcpy ( &pak->buf[12], tmp.buf, *packet_len ); return ( mms_get_32(pak->buf, 36) & 0xFFFF ); } /* * Gets the header of the ASF/WMV stream/file. * Returns the amount of bytes received, MMS_RET_ERROR if we encounter an error. */ static ssize_t mms_recv_header_packet ( MMS *mms, MMS_PACKET *pak ) { MMS_PACKET pre_header; MMS_PACKET tmp; ssize_t header_len; ssize_t packet_len; header_len = 0; while ( 1 ) { if ( mms_recv_packet ( mms->socket, &pre_header, 8, mms->quiet ) != 0 ) { if ( !mms->quiet ) error ( "mms_recv_header_packet", "unable to get pre-header" ); return MMS_RET_ERROR; } if ( pre_header.buf[4] == 0x02 ) { if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "\n-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-\n" ); fprintf ( mms->stddebug, " getting header packet from server\n\n" ); } if ( mms->stddebug != NULL ) { static int i; /* static, so we don't recreate it for each call */ for ( i=0; i<8; ++i ) fprintf ( mms->stddebug, "pre_header.buf[%d] = 0x%02x (%d)\n", i, pre_header.buf[i], pre_header.buf[i] ); } packet_len = ( pre_header.buf[7] << 8 | pre_header.buf[6] ) - 8; if ( mms->stddebug != NULL ) fprintf ( mms->stddebug, "\nASF Header Packet (%d bytes)\n", packet_len ); if ( mms_recv_packet ( mms->socket, &tmp, packet_len, mms->quiet ) != 0 ) { if ( !mms->quiet ) error ( "mms_recv_header_packet", "unable to get header" ); return MMS_RET_ERROR; } if ( ( header_len + packet_len ) > MMS_BUF_SIZE ) { if ( !mms->quiet ) error ( "mms_recv_header_packet", "total header length is too big for me" ); return MMS_RET_ERROR; } memcpy ( &pak->buf[header_len], tmp.buf, packet_len ); header_len += packet_len; if ( mms->stddebug != NULL ) fprintf ( mms->stddebug, "\n" ); /* test if end of header is reached */ if ( ( pak->buf[header_len-1] == 1) && ( pak->buf[header_len-2] == 1 ) ) return header_len; } else /* we might receive an ack or an error */ { int command = mms_recv_cmd_packet ( mms->socket, &tmp, &packet_len, 8, mms->quiet ); if ( command == -1 ) { if ( !mms->quiet ) error ( "mms_recv_header_packet", "unable to get cmd packet" ); return MMS_RET_ERROR; } memcpy ( tmp.buf, pre_header.buf, 8 ); if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &tmp, packet_len, MMS_SERVER ); if ( command == MMS_CMD_PING ) mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, tmp.buf ); else if ( command != MMS_CMD_HEADER_DATA ) { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_recv_header_packet", "unknown command 0x%02x\n", command ); #else error ( "mms_recv_header_packet", "unknown command\n" ); #endif return MMS_RET_ERROR; } } } } /* * Interprates the header (media packet size, etc.). * Returns the size of a media packet (should be != 0 ). */ static ssize_t mms_interp_header ( MMS *mms, const uint8_t *header, const ssize_t header_len ) { int i; ssize_t packet_length = 0; mms->expected_file_size = header_len; if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "\n-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-\n" ); fprintf ( mms->stddebug, " header interpretation\n\n" ); } /* parse header */ mms->num_stream_ids = 0; i = 30; while ( i < header_len ) { uint64_t guid_1, guid_2, length; if ( mms->stddebug != NULL ) { /* this is MS GUID format */ fprintf ( mms->stddebug, "{%02X%02X%02X%02X-%02X%02X-%02X%02X-%02X%02X-%02X%02X%02X%02X%02X%02X}\n", header[i+3], header[i+2], header[i+1], header[i+0], header[i+5], header[i+4], header[i+7], header[i+6], header[i+8], header[i+9], header[i+10], header[i+11], header[i+12], header[i+13], header[i+14], header[i+15] ); } guid_2 = mms_get_64 ( header, i ); i += 8; guid_1 = mms_get_64 ( header, i ); i += 8; length = mms_get_64 ( header, i ); i += 8; if ( ( guid_1 == 0x6553200cc000e48eULL ) && ( guid_2 == 0x11cfa9478cabdca1ULL ) ) { packet_length = mms_get_32 ( header, i+92-24 ); if ( packet_length != mms_get_32(header, i+72) ) warning ( NULL, "size of media packets is not constant, it should not happen" ); if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "File Properties Object (%lld bytes)\n", length ); fprintf ( mms->stddebug, " -> broadcast bit: %d\n", mms_get_32(header,i+64)&1 ); fprintf ( mms->stddebug, " -> min packet length: %d\n", packet_length ); fprintf ( mms->stddebug, " -> max packet length: %d\n", mms_get_32(header, i+72) ); fprintf ( mms->stddebug, " -> number of media packets: %d\n\n", mms_get_32(header, i+32) ); } if ( mms_get_32(header,i+64)&1 ) { if ( ( !mms->quiet ) && ( !mms->is_live ) ) warning ( NULL, "stream seems to be live, an error may occur" ); mms->is_live = MMS_LIVE; } } else if ( ( guid_1 == 0x6553200cc000e68eULL ) && ( guid_2 == 0x11cfa9b7b7dc0791ULL ) ) { int stream_id = header[i+48] | header[i+49] << 8; if ( mms->num_stream_ids < 20 ) { mms->stream_ids[mms->num_stream_ids] = stream_id; ++mms->num_stream_ids; } else { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF warning ( "mms_interp_header", "too many streams, stream \'%d\' skipped", stream_id ); #else warning ( "mms_interp_header", "too many streams, skipping.." ); #endif } if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "Stream Object (%lld bytes)\n", length ); fprintf ( mms->stddebug, " -> stream id: %d\n\n", stream_id ); } } else if ( ( guid_1 == 0x6cce6200aa00d9a6ULL ) && ( guid_2 == 0x11cf668e75b22636ULL ) ) { mms->expected_file_size += ( length - 50 ); /* valid values are at least 50 bytes (why?) */ if ( mms->stddebug != NULL ) fprintf ( mms->stddebug, "Data Object (%lld bytes)\n\n", length ); } else if ( mms->stddebug != NULL ) { if ( ( guid_1 == 0x6cce6200aa00d9a6ULL ) && ( guid_2 == 0x11cf668e75b22630ULL ) ) fprintf ( mms->stddebug, "Header Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0xcb4903c9a000f489ULL ) && ( guid_2 == 0x11cfe5b133000890ULL) ) fprintf ( mms->stddebug, "Simple Index Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0xbe4903c9a0003490ULL ) && ( guid_2 == 0x11d135dad6e229d3ULL) ) fprintf ( mms->stddebug, "Index Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0x6553200cc000e38eULL ) && ( guid_2 == 0x11cfa92e5fbf03b5ULL) ) fprintf ( mms->stddebug, "Header Extension Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0x6cce6200aa00d9a6ULL ) && ( guid_2 == 0x11cf668e75b22633ULL) ) fprintf ( mms->stddebug, "Content Description Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0x50a85ec9a000f097ULL ) && ( guid_2 == 0x11d2e307d2d0a440ULL) ) fprintf ( mms->stddebug, "Extended Content Description Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0xf64803c9a000a4a3ULL ) && ( guid_2 == 0x11d0311d86d15240ULL) ) fprintf ( mms->stddebug, "Codec List Object (%lld bytes)\n\n", length ); else if ( ( guid_1 == 0xb2a2c9976000828dULL ) && ( guid_2 == 0x11d1468d7bf875ceULL) ) fprintf ( mms->stddebug, "Stream Bitrate Properties Object (%lld bytes)\n\n", length ); else fprintf ( mms->stddebug, "Unknown Object (%lld bytes)\n\n", length ); } i += length-24; } return packet_length; } /* * Gets a media packet. * Returns the amount of bytes in the media packet (0 if EOF), MMS_RET_ACKED if ACKed, * MMS_RET_NO_AUTH if authorization failed, MMS_RET_ERROR either. */ static ssize_t mms_recv_media_packet ( MMS *mms, MMS_PACKET *pak ) { MMS_PACKET pre_header; ssize_t packet_len; if ( mms_recv_packet ( mms->socket, &pre_header, 8, mms->quiet ) != 0 ) { if ( !mms->quiet ) error ( "mms_recv_media_packet", "unable to get pre-header" ); return MMS_RET_ERROR; } if ( pre_header.buf[4] == 0x04 ) { if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "\n-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-\n" ); fprintf ( mms->stddebug, " getting media packet from server\n\n" ); } if ( mms->stddebug != NULL ) { static int i; /* static, so we don't recreate it for each call */ for ( i=0; i<8; i++ ) fprintf ( mms->stddebug, "pre_header[%d] = 0x%02x (%d)\n", i, pre_header.buf[i], pre_header.buf[i] ); } packet_len = (pre_header.buf[7] << 8 | pre_header.buf[6]) - 8; if ( mms->stddebug != NULL ) fprintf ( mms->stddebug, "\nASF Media Packet (%d bytes)\n", packet_len ); memset ( pak->buf, 0, mms->media_packet_len ); if ( mms_recv_packet (mms->socket, pak, packet_len, mms->quiet) != 0 ) { if ( !mms->quiet ) error ( "mms_recv_media_packet", "unable to get media packet" ); return MMS_RET_ERROR; } } else { int command = mms_recv_cmd_packet ( mms->socket, pak, &packet_len, 8, mms->quiet ); if ( command == MMS_RET_ERROR ) { if ( !mms->quiet ) error ( "mms_recv_media_packet", "unable to get cmd packet" ); return MMS_RET_ERROR; } memcpy ( pak->buf, pre_header.buf, 8 ); if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, pak, packet_len, MMS_SERVER ); if ( command == MMS_CMD_PING ) { mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, pak->buf ); return MMS_RET_ACKED; } else if ( command == MMS_CMD_END_OF_STREAM ) return 0; else if ( command == MMS_CMD_STREAM_SELECT_ACK ) /* it happens sometimes */ return MMS_RET_ACKED; else if ( command == MMS_CMD_READY_TO_STREAM ) /* it always happen before the first media packet */ { /* this happens on some server for some unknown reason */ if ( mms_get_32(pak->buf, 40) == 0x80070005 ) { if ( !mms->quiet ) error ( "mms_recv_media_packet", "streaming denied (read manpage & retry later)" ); return MMS_RET_NO_AUTH; } return MMS_RET_ACKED; } else { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_recv_media_packet", "unknown command 0x%02x\n", command ); #else error ( "mms_recv_media_packet", "unknown command\n" ); #endif return MMS_RET_ERROR; } } if ( mms->stddebug != NULL ) fprintf ( mms->stddebug, "\n" ); return packet_len; } /* * Creates An MMS Struct * Returns an initialized MMS Struct if successful, NULL if an error occurs. * url must start with mms:// or mmst:// (mmsu:// and mmsh:// are OK too, but we won't use UDP or do MMS over HTTP) * trick must be MMS_TRICK_DISABLED or MMS_TRICK_ENABLED */ MMS * mms_create ( const char *url, FILE *out, FILE *stddebug, const int trick, const int quiet ) { MMS *mms; register const char *sep; register const int host_idx = mms_check_protocol ( url ); register const int url_len = strlen ( url ); if ( stddebug != NULL ) { fprintf ( stddebug, "\n\n********************************************************************************\n\n" ); fprintf ( stddebug, "Url -> \'%s\'\n", url ); } if ( host_idx == MMS_RET_ERROR ) { if ( !quiet ) error ( "mms_create", "bad protocol (mms:// was expected)" ); return NULL; } sep = strchr ( &url[host_idx], '/' ); if ( sep == NULL ) { if ( !quiet ) error ( "mms_create", "url seems to be malformed" ); return NULL; } if ( ( mms = ( MMS * ) malloc ( sizeof(MMS) ) ) == NULL ) { if ( !quiet ) error ( "mms_create", "unable to allocate memory" ); return NULL; } mms->host = malloc ( ( sep - &url[host_idx] ) + 1 ); strncpy ( mms->host, &url[host_idx], (sep - &url[host_idx]) ); mms->host[sep-&url[host_idx]] = '\0'; /* strndup */ mms->path = strdup ( sep+1 ); mms->out = out; mms->seq_num = 0; mms->expected_file_size = 0; mms->is_live = MMS_NO_LIVE; /* we try to guess stream type with the filename extension */ if ( ( sep = strchr(sep,'?') ) != NULL ) { if ( ( *(sep-4) == '.' ) && /* this will never segfault because */ ( *(sep-3) == 'w' ) && /* the url is at least 6 chars long (mms://) */ ( *(sep-2) == 'm' ) && ( *(sep-1) == 'v' ) ) mms->stream_type = MMS_WMV; else mms->stream_type = MMS_ASF; } else { if ( ( url[url_len-4] == '.' ) && ( url[url_len-3] == 'w' ) && ( url[url_len-2] == 'm' ) && ( url[url_len-1] == 'v' ) ) mms->stream_type = MMS_WMV; else mms->stream_type = MMS_ASF; } mms->stddebug = stddebug; mms->quiet = quiet; mms->trick = ( ((trick==MMS_TRICK_DISABLED)||(trick==MMS_TRICK_ENABLED)) ? trick : MMS_TRICK_DISABLED ); if ( mms->stddebug != NULL ) { fprintf ( mms->stddebug, "Host -> \'%s\'\nPath -> \'%s\'\n", mms->host, mms->path ); fprintf ( mms->stddebug, "Stream type -> %s\n", (mms->stream_type==MMS_WMV)?"MMS_WMV":"MMS_ASF" ); } return mms; } /* * Establishes a connection with the MMS server. * Returns MMS_RET_SUCCESS if success, MMS_RET_ERROR either. */ int mms_connect ( MMS* mms ) { struct sockaddr_in sa; struct hostent *hp; if ( mms == NULL ) return -1; if ( ( hp = gethostbyname(mms->host) ) == NULL ) { if ( !mms->quiet ) error ( "mms_connect", "unable to resolve host name" ); return MMS_RET_ERROR; } bcopy ( (char *) hp->h_addr, (char *) &sa.sin_addr, hp->h_length ); sa.sin_family = hp->h_addrtype; sa.sin_port = htons ( 1755 ); if ( ( mms->socket = socket(hp->h_addrtype, SOCK_STREAM, 0) ) == -1 ) { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_connect", "socket() said: %s", strerror(errno) ); #else error ( "mms_connect", "socket() failed" ); #endif return MMS_RET_ERROR; } if ( connect ( mms->socket, (struct sockaddr *) &sa, sizeof sa ) != 0 ) { if ( !mms->quiet ) #ifdef HAVE_VSNPRINTF error ( "mms_connect", "connect() said: %s", strerror(errno) ); #else error ( "mms_connect", "connect failed" ); #endif return MMS_RET_ERROR; } return MMS_RET_SUCCESS; } /* * Handshake with the MMS server. * ( we don't care about server's answers ) */ int mms_handshake ( MMS *mms ) { MMS_PACKET pak; int cmd = MMS_CMD_PING; ssize_t packet_len; char str [ 1024 ]; uint8_t data [ 2092 ]; if ( mms == NULL ) return MMS_RET_ERROR; /* who we are */ memset ( data, 0, sizeof (data) ); if ( mms->trick == MMS_TRICK_DISABLED ) { #ifdef HAVE_SNPRINTF snprintf ( str, sizeof(str), "\034\003NSPlayer/7.0.0.1956; {3300AD50-2C39-46c0-AE0A-60181587CBA}; Host: %s", mms->host ); #else if ( (strlen("\034\003NSPlayer/7.0.0.1956; {3300AD50-2C39-46c0-AE0A-60181587CBA}; Host: ")+strlen(mms->host)) < sizeof(str) ) sprintf ( str, "\034\003NSPlayer/7.0.0.1956; {3300AD50-2C39-46c0-AE0A-60181587CBA}; Host: %s", mms->host ); else { error ( "mms_handshake", "host name is too long" ); return MMS_RET_ERROR; } #endif } else strcpy ( str, "\034\003NSPlayer/4.1.0.3928; {3300AD50-2C39-46c0-AE0A-60181587CBA}" ); mms_string_utf16 ( data, (unsigned char *) str, strlen(str)+2 ); mms_send_packet ( mms, MMS_CMD_HELLO, 0, 0x0004000b, strlen(str)*2 + 6, data ); cmd = MMS_CMD_PING; while ( cmd == MMS_CMD_PING ) { cmd = mms_recv_cmd_packet ( mms->socket, &pak, &packet_len, 0, mms->quiet ); if ( cmd == MMS_CMD_PING ) mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, pak.buf ); } if ( cmd == MMS_CMD_INVALID ) { if ( !mms->quiet ) error ( "mms_handshake", "unable to get cmd packet" ); return MMS_RET_ERROR; } if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &pak, packet_len, MMS_SERVER ); /* transport protocol selection */ memset ( &data, 0, sizeof(data) ); mms_string_utf16 ( &data[8], (unsigned char *) "\002\000\\\\192.168.0.129\\TCP\\1037\0000", 28 ); mms_send_packet ( mms, MMS_CMD_PROTOCOL_SELECT, 0, 0, 28*2+8, data ); cmd = MMS_CMD_PING; while ( cmd == MMS_CMD_PING ) { cmd = mms_recv_cmd_packet ( mms->socket, &pak, &packet_len, 0, mms->quiet ); if ( cmd == MMS_CMD_PING ) mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, pak.buf ); } if ( cmd == MMS_CMD_INVALID ) { if ( !mms->quiet ) error ( "mms_handshake", "unable to get cmd packet" ); return MMS_RET_ERROR; } if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &pak, packet_len, MMS_SERVER ); /* requested file */ mms_string_utf16 ( &data[8], (unsigned char *) mms->path, strlen(mms->path) ); memset ( data, 0, 8 ); mms_send_packet ( mms, MMS_CMD_FILE_REQUEST, 0, 0, strlen(mms->path)*2+12, data ); cmd = MMS_CMD_PING; while ( cmd == MMS_CMD_PING ) { cmd = mms_recv_cmd_packet ( mms->socket, &pak, &packet_len, 0, mms->quiet ); if ( cmd == MMS_CMD_PING ) mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, pak.buf ); } if ( cmd == MMS_CMD_INVALID ) { if ( !mms->quiet ) error ( "mms_handshake", "unable to get cmd packet" ); return MMS_RET_ERROR; } if ( cmd == MMS_CMD_STREAM_INFOS ) { if ( mms_get_32 ( pak.buf, 48 ) == -1 ) { if ( !mms->quiet ) error ( "mms_handshake", "stream infos are not available" ); return MMS_RET_ERROR; } if ( ( mms_get_32(pak.buf,72) == 0 ) || ( mms_get_32(pak.buf,72) == 0xFFFFFFFF ) ) { mms->is_live = MMS_LIVE; if ( !mms->quiet ) warning ( NULL, "stream seems to be live, an error may occur" ); } } if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &pak, packet_len, MMS_SERVER ); return MMS_RET_SUCCESS; } /* * Gets ASF/WMV stream/file header */ ssize_t mms_write_stream_header ( MMS *mms ) { MMS_PACKET pak; ssize_t len; if ( mms == NULL ) return MMS_RET_ERROR; /* give me the stream header please... */ memset ( pak.buf, 0, 40 ); pak.buf[32] = 2; mms_send_packet ( mms, MMS_CMD_HEADER_REQUEST, 1, 0, 40, pak.buf ); len = mms_recv_header_packet ( mms, &pak ); if ( len == -1 ) { if ( !mms->quiet ) error ( "mms_get_stream_header", "unable to get stream header\n" ); return MMS_RET_ERROR; } else if ( len == 0 ) { if ( !mms->quiet ) error ( "mms_get_stream_header", "no stream header available, file may not exist" ); return MMS_RET_ERROR; } fwrite ( pak.buf, len, 1, mms->out ); mms->media_packet_len = mms_interp_header ( mms, pak.buf, len ); if ( mms->media_packet_len > MMS_BUF_SIZE ) { if ( !mms->quiet ) error ( "mms_get_stream_header", "media packet length is too big for me" ); return MMS_RET_ERROR; } return len; } /* * Tells the server we're ready to rip the stream from the beginning (don't know what happens if it's a live) * Returns 0 if success, -1 either. */ int mms_begin_rip ( MMS *mms ) { int i; uint8_t data [ 1024 ]; MMS_PACKET pak; ssize_t packet_len; int cmd; if ( mms == NULL ) return MMS_RET_ERROR; /* media stream selection */ memset ( data, 0, 40 ); for ( i=1; inum_stream_ids; ++i ) { data [ (i-1) * 6 + 2 ] = 0xFF; data [ (i-1) * 6 + 3 ] = 0xFF; data [ (i-1) * 6 + 4 ] = mms->stream_ids[i]; data [ (i-1) * 6 + 5 ] = 0x00; } /* we add the final bytes of the stream selector, necessary for ASF streams only */ if ( mms->stream_type == MMS_ASF ) { data [ (mms->num_stream_ids-1) * 6 + 0 ] = 0x00; data [ (mms->num_stream_ids-1) * 6 + 1 ] = 0x00; data [ (mms->num_stream_ids-1) * 6 + 2 ] = 0x00; data [ (mms->num_stream_ids-1) * 6 + 3 ] = 0x20; data [ (mms->num_stream_ids-1) * 6 + 4 ] = 0xac; data [ (mms->num_stream_ids-1) * 6 + 5 ] = 0x40; data [ (mms->num_stream_ids-1) * 6 + 6 ] = 0x02; mms_send_packet ( mms, MMS_CMD_STREAM_SELECT, mms->num_stream_ids, 0xFFFF | mms->stream_ids[0] << 16, (mms->num_stream_ids-1)*6+2+4, data ); } else { mms_send_packet ( mms, MMS_CMD_STREAM_SELECT, mms->num_stream_ids, 0xFFFF | mms->stream_ids[0] << 16, (mms->num_stream_ids-1)*6+2, data ); } cmd = MMS_CMD_PING; while ( cmd == MMS_CMD_PING ) { cmd = mms_recv_cmd_packet ( mms->socket, &pak, &packet_len, 0, mms->quiet ); if ( cmd == MMS_CMD_PING ) mms_send_packet ( mms, MMS_CMD_PONG, 0, 0, 0, pak.buf ); } if ( cmd == MMS_CMD_INVALID ) { if ( !mms->quiet ) error ( "mms_begin_rip", "unable to get server\'s confirmation" ); return MMS_RET_ERROR; } if ( mms->stddebug != NULL ) mms_print_packet ( mms->stddebug, &pak, packet_len, MMS_SERVER ); /* ready... */ memset ( data, 0, 40 ); for ( i=8; i<16; ++i ) data[i] = 0xFF; data[20] = 0x04; mms_send_packet ( mms, MMS_CMD_START_PACKET, 1, 0xFFFF | mms->stream_ids[0] << 16, 24, data ); return MMS_RET_SUCCESS; } /* * Writes a media packet. * Returns the amount of bytes written, 0 if EOF, MMS_RET_NO_AUTH if streaming is denied, MMS_RET_ERROR either. */ ssize_t mms_write_stream_data ( MMS *mms ) { ssize_t len; MMS_PACKET pak; if ( mms == NULL ) return 0; do { len = mms_recv_media_packet ( mms, &pak ); } while ( len == MMS_RET_ACKED ); /* while we receive ACK packets */ if ( len == 0 ) return 0; else if ( len == -1 ) { if ( !mms->quiet ) error ( "mms_write_stream_data", "mms_recv_media_packet failed" ); return MMS_RET_ERROR; } else if ( len == MMS_RET_NO_AUTH ) { if ( !mms->quiet ) error ( "mms_write_stream_data", "mms_recv_media_packet failed" ); return MMS_RET_NO_AUTH; } fwrite ( pak.buf, mms->media_packet_len, 1, mms->out ); /* we might have read less than the arbitrary media packet size */ return mms->media_packet_len; } /* * Closes the connection. */ void mms_disconnect ( MMS *mms ) { uint8_t data [ 1024 ]; if ( mms == NULL ) return; mms_send_packet ( mms, MMS_CMD_BYE_BYE, 0, 0, 0, data ); if ( ( shutdown(mms->socket, SHUT_RDWR) | close(mms->socket)) != 0 ) if ( !mms->quiet ) warning ( "mms_disconnect", "unable to close the socket properly" ); return; } /* * Destroys An MMS Struct */ void mms_destroy ( MMS *mms ) { if ( mms == NULL ) return; if ( mms->host != NULL ) free ( mms->host ); if ( mms->path != NULL ) free ( mms->path ); free ( mms ); return; }