/* libvjnet - Linux VeeJay * (C) 2002-2007 Niels Elburg * * * 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 of the License, 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, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define VJC_OK 0 #define VJC_NO_MEM 1 #define VJC_SOCKET 2 #define VJC_BAD_HOST 3 #define RUP8(num)(((num)+8)&~8) #define PACKET_LEN 4096 extern int get_ffmpeg_pixfmt( int p); vj_client *vj_client_alloc( int w, int h, int f ) { vj_client *v = (vj_client*) vj_calloc(sizeof(vj_client)); if(!v) { return NULL; } v->orig_width = w; v->orig_height = h; v->cur_width = w; v->cur_height = h; v->cur_fmt = get_ffmpeg_pixfmt(f); v->orig_fmt = v->cur_fmt; v->blob = (unsigned char*) vj_calloc(sizeof(unsigned char) * PACKET_LEN ); if(!v->blob ) { veejay_msg(0, "Memory allocation error."); free(v); return NULL; } v->mcast = 0; return v; } void vj_client_free(vj_client *v) { if(v) { if( v->fd[0] ) { sock_t_free( v->fd[0] ); } if( v->fd[1] ) { sock_t_free( v->fd[1] ); } v->fd[0] = NULL; v->fd[1] = NULL; if(v->blob) free(v->blob); if(v->lzo) lzo_free(v->lzo); free(v); v = NULL; } } int vj_client_window_sizes( int socket_fd, int *r, int *s ) { int tmp = sizeof(int); if( getsockopt( socket_fd, SOL_SOCKET, SO_SNDBUF,(unsigned char*) s, &tmp) == -1 ) { veejay_msg(0, "Cannot read socket buffer size: %s", strerror(errno)); return 0; } if( getsockopt( socket_fd, SOL_SOCKET, SO_RCVBUF, (unsigned char*) r, &tmp) == -1 ) { veejay_msg(0, "Cannot read socket buffer receive size %s" , strerror(errno)); return 0; } return 1; } int vj_client_connect_dat(vj_client *v, char *host, int port_id ) { int error = 0; if(host == NULL) { veejay_msg(VEEJAY_MSG_ERROR, "Invalid host name (cannot be empty)"); return 0; } if(port_id < 1 || port_id > 65535) { veejay_msg(VEEJAY_MSG_ERROR, "Invalid port number. Use [1-65535]"); return 0; } v->fd[0] = alloc_sock_t(); if( sock_t_connect( v->fd[0], host, (port_id + 5) ) ) { veejay_msg(VEEJAY_MSG_INFO, "Connect to DAT port %d", port_id + 5); return 1; } v->fd[1] = NULL; // no status port v->ports[0] = port_id + 5; v->ports[1] = -1; return error; } int vj_client_connect(vj_client *v, char *host, char *group_name, int port_id ) { int error = 0; if(port_id <= 0 || port_id > 65535) { veejay_msg(0, "Invalid port number '%d'", port_id ); return error; } if( group_name == NULL ) { if(host == NULL) return error; v->fd[0] = alloc_sock_t(); v->fd[1] = alloc_sock_t(); if(!v->fd[0]) { return error; } if(!v->fd[1] ) { free(v->fd[0]); return error; } if( sock_t_connect( v->fd[0], host, port_id + VJ_CMD_PORT ) ) { if( sock_t_connect( v->fd[1], host, port_id + VJ_STA_PORT ) ) { return 1; } else { veejay_msg(0, "Failed to connect to status port."); } } else { veejay_msg(0, "Failed to connect to command port."); } v->ports[0] = port_id + VJ_CMD_PORT; v->ports[1] = port_id + VJ_STA_PORT; } else { v->r = mcast_new_receiver( group_name, port_id + VJ_CMD_MCAST ); if(!v->r ) { veejay_msg(0 ,"Unable to setup multicast receiver on group %s", group_name ); return error; } v->s = mcast_new_sender( group_name ); if(!v->s ) { veejay_msg(0, "Unable to setup multicast sender on group %s", group_name ); return error; } v->ports[0] = port_id + VJ_CMD_MCAST; v->ports[1] = port_id + VJ_CMD_MCAST_IN; mcast_sender_set_peer( v->s , group_name ); v->mcast = 1; // mcast_receiver_set_peer( v->c[0]->r, group_name); veejay_msg(VEEJAY_MSG_DEBUG, "Client is interested in packets from group %s : %d, send to %d", group_name, port_id + VJ_CMD_MCAST , port_id + VJ_CMD_MCAST_IN); return 1; } return error; } int vj_client_link_can_write( vj_client *v, int sock_type ){ return sock_t_wds_isset( v->fd[sock_type]); } int vj_client_link_can_read( vj_client *v, int sock_type ) { return sock_t_rds_isset( v->fd[sock_type] ); } int vj_client_poll( vj_client *v, int sock_type ) { return sock_t_poll( v->fd[sock_type ]); } static long vj_client_decompress( vj_client *t,uint8_t *in, uint8_t *out, int data_len, int Y, int UV , int header_len, uint32_t s1, uint32_t s2, uint32_t s3) { uint8_t *dst[3] = { out, out + Y, out + Y + UV }; long total = lzo_decompress( t->lzo, ( in == NULL ? t->space: in ), data_len, dst, UV,s1,s2,s3 ); if( total != (Y+UV+UV) ) veejay_msg(0, "Error decompressing: expected %d bytes got %d.", (Y+UV+UV),total); return total; } static uint32_t getint(uint8_t *in, int len ) { char *ptr, *word = strndup( in, len+1 ); word[len] = '\0'; long v = strtol( word, &ptr, 10 ); free(word); return (uint32_t) v; } /* packet negotation. * read a small portion (44 bytes for veejay, its veejay's full header size) * and try to identify which software is sending frames * */ static int vj_client_packet_negotiate( vj_client *v, int *tokens ) { uint8_t line[44]; veejay_memset( line,0, sizeof(line)); int plen = sock_t_recv( v->fd[0], line, 44 ); if( plen == 0 ) { veejay_msg(VEEJAY_MSG_DEBUG, "Remote closed connection."); return -1; } if( plen < 0 ) { veejay_msg(VEEJAY_MSG_ERROR, "Network I/O Error while reading header: %s", strerror(errno)); return -1; } int n = sscanf( line, "%04d%04d%04d%08d%08d%08d%08d", &tokens[0], &tokens[1], &tokens[2], &tokens[3], &tokens[4], &tokens[5], &tokens[6]); if( n != 7 ) { veejay_msg(0, "Unable to parse header data: '%s'", line ); return 0; } if( tokens[3] > 0 ) { if( v->lzo == NULL ) { v->lzo = lzo_new(); } } return 1; } int vj_client_read_i( vj_client *v, uint8_t *dst, int dstlen ) { uint8_t line[128]; uint32_t p[4] = {0, 0,0,0 }; uint32_t strides[4] = { 0,0,0,0 }; int tokens[16]; int n = 0; int plen = 0; int conv = 1; int y_len = 0; int uv_len = 0; memset( tokens,0,sizeof(tokens)); if( v->mcast == 1) { uint8_t *in = mcast_recv_frame( v->r, &p[0],&p[1], &p[2], &plen ); if( in == NULL ) return 0; v->in_width = p[0]; v->in_height = p[1]; v->in_fmt = p[2]; uv_len = 0; y_len = p[0] * p[1]; switch(v->in_fmt ) { case PIX_FMT_YUV422P: case PIX_FMT_YUVJ422P: uv_len = y_len / 2; break; case PIX_FMT_YUV420P: case PIX_FMT_YUVJ420P: uv_len = y_len / 4;break; default: uv_len = y_len; break; veejay_msg(VEEJAY_MSG_WARNING, "Unknown data format: %02x, assuming equal plane sizes."); break; } strides[0] = getint( in + 12 + 8, 8 ); strides[1] = getint( in + 12 + 16, 8 ); strides[2] = getint( in + 12 + 24, 8 ); if( vj_client_decompress( v,in, dst, plen, y_len, uv_len , plen, strides[0],strides[1],strides[2]) == 0 ) return 0; if( p[0] != v->cur_width || p[1] != v->cur_height ) return 2; return 1; //@ caller will memcpy it to destination buffer } else { //@ result returns software package id int result = vj_client_packet_negotiate( v, tokens ); if( result == 0 ) { veejay_msg(0, "Unable to read frame header."); return -1; } p[0] = tokens[0]; //w p[1] = tokens[1]; //h p[2] = tokens[2]; //fmt p[3] = tokens[3]; //compr len strides[0] = tokens[4]; // 0 strides[1] = tokens[5]; // 1 strides[2] = tokens[6]; // 2 v->in_width = p[0]; v->in_height = p[1]; v->in_fmt = p[2]; if( v->space == NULL || v->in_width != v->orig_width || v->in_height != v->orig_height || v->in_fmt != v->orig_fmt ) { if( v->space ) { free(v->space); v->space = NULL; } if( v->in_width <= 0 || v->in_height <= 0 || v->in_fmt <= 0 ) { veejay_msg(0,"Invalid header values in network packet"); return -1; } v->space = vj_calloc(sizeof(uint8_t) * RUP8(v->in_width * v->in_height * 4) ); if(!v->space) { veejay_msg(0,"Could not allocate memory for network stream."); return -1; } v->orig_width = v->in_width; v->orig_height = v->in_height; v->orig_fmt = v->in_fmt; } uv_len = 0; y_len = p[0] * p[1]; if( p[3] > 0 ) { switch(v->in_fmt ) //@ veejay is sending compressed YUV data, calculate UV size { case PIX_FMT_YUV422P: case PIX_FMT_YUVJ422P: uv_len = y_len / 2; break; case PIX_FMT_YUV420P: case PIX_FMT_YUVJ420P: uv_len = y_len / 4;break; default: uv_len = y_len; veejay_msg(VEEJAY_MSG_ERROR, "Unknown pixel format: %02x", v->in_fmt); return -1; break; } int n = sock_t_recv( v->fd[0],v->space,p[3] ); if( n <= 0 ) { if( n == -1 ) { veejay_msg(VEEJAY_MSG_ERROR, "Error '%s' while reading socket", strerror(errno)); } else { veejay_msg(VEEJAY_MSG_DEBUG,"Remote closed connection"); } return -1; } if( n != p[3] && n > 0 ) { veejay_msg(VEEJAY_MSG_ERROR, "Broken video packet , got %d out of %d bytes",n, p[3] ); return -1; } //@ decompress YUV buffer vj_client_decompress( v,v->space, dst, p[3], y_len, uv_len , 0, strides[0],strides[1],strides[2]); if( v->in_fmt == v->cur_fmt && v->cur_width == p[0] && v->cur_height == p[1] ) return 1; return 2; //@ caller will scale frame in dst } else { int n = sock_t_recv( v->fd[0], dst, strides[0] + strides[1] + strides[2] ); if( n != (strides[0] + strides[1] + strides[2] ) ) { veejay_msg(0, "Broken video packet"); return -1; } if( v->in_fmt == v->cur_fmt && v->cur_width == p[0] && v->cur_height == p[1] ) return 1; return 2; } return 0; } return 0; } int vj_client_read_no_wait(vj_client *v, int sock_type, uint8_t *dst, int bytes ) { return sock_t_recv( v->fd[ sock_type ], dst, bytes ); } int vj_client_read(vj_client *v, int sock_type, uint8_t *dst, int bytes ) { return sock_t_recv( v->fd[ sock_type ], dst, bytes ); } int vj_client_send_buf(vj_client *v, int sock_type,unsigned char *buf, int len) { if( v->mcast ) { return mcast_send( v->s, (void*) buf, len , v->ports[sock_type ] ); } return sock_t_send( v->fd[ sock_type ], buf, len ); } int vj_client_send(vj_client *v, int sock_type,unsigned char *buf) { int len = strlen(buf); if( v->mcast ) { sprintf( v->blob, "V%03dD", len ); memcpy( v->blob + 5, buf, len ); return mcast_send( v->s, (void*) v->blob, len + 5, v->ports[sock_type ] ); } sprintf( v->blob, "V%03dD", len ); memcpy( v->blob + 5, buf, len ); return sock_t_send( v->fd[ sock_type ], v->blob, len + 5 ); } void vj_client_close( vj_client *v ) { if( v->mcast == 1 ) { mcast_close_receiver( v->r ); mcast_close_sender( v->s ); v->s = NULL; v->r = NULL; } else { if( v->fd[0] ) { sock_t_close( v->fd[0] ); sock_t_free( v->fd[0] ); v->fd[0] = NULL; } if( v->fd[1] ) { sock_t_close( v->fd[1] ); sock_t_free( v->fd[1] ); v->fd[1] = NULL; } } } int vj_client_test(char *host, int port) { if( h_errno == HOST_NOT_FOUND ) { veejay_msg(VEEJAY_MSG_ERROR, "Specified host '%s':'%d' is unknown", host,port ); return 0; } if( h_errno == NO_ADDRESS || h_errno == NO_DATA ) { veejay_msg(VEEJAY_MSG_ERROR, "Specified host '%s' is valid but does not have IP address", host ); return 0; } if( h_errno == NO_RECOVERY ) { veejay_msg(VEEJAY_MSG_ERROR, "Non recoverable name server error occured"); return 0; } if( h_errno == TRY_AGAIN ) { veejay_msg(VEEJAY_MSG_ERROR, "Temporary error occurred on an authoritative name. Try again later"); return 0; } return 1; }