/* 2004.02.01 first released source code for IOMP */ /* * Copyright (C) 2001-2003 the xine project * * This file is part of xine, a free video player. * * xine 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. * * xine 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ /* * MS WAV File Demuxer by Mike Melanson (melanson@pcisys.net) * based on WAV specs that are available far and wide * * $Id: demux_wav.c,v 1.2 2003/11/25 04:25:46 georgedon Exp $ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include "xine_internal.h" #include "xineutils.h" #include "demux.h" #include "buffer.h" #include "bswap.h" #include "group_audio.h" #define WAV_SIGNATURE_SIZE 16 /* this is the hex value for 'data' */ #define data_TAG 0x61746164 #define PCM_BLOCK_ALIGN 1024 typedef struct { demux_plugin_t demux_plugin; xine_stream_t *stream; fifo_buffer_t *video_fifo; fifo_buffer_t *audio_fifo; input_plugin_t *input; int status; xine_waveformatex *wave; int wave_size; unsigned int audio_type; off_t data_start; off_t data_size; int seek_flag; /* this is set when a seek just occurred */ } demux_wav_t; typedef struct { demux_class_t demux_class; } demux_wav_class_t; /* returns 1 if the WAV file was opened successfully, 0 otherwise */ static int open_wav_file(demux_wav_t *this) { uint8_t signature[WAV_SIGNATURE_SIZE]; uint32_t chunk_tag; uint32_t chunk_size; uint8_t chunk_preamble[8]; /* check the signature */ if (xine_demux_read_header(this->input, signature, WAV_SIGNATURE_SIZE) != WAV_SIGNATURE_SIZE) return 0; if ((signature[0] != 'R') || (signature[1] != 'I') || (signature[2] != 'F') || (signature[3] != 'F') || (signature[8] != 'W') || (signature[9] != 'A') || (signature[10] != 'V') || (signature[11] != 'E') || (signature[12] != 'f') || (signature[13] != 'm') || (signature[14] != 't') || (signature[15] != ' ')) return 0; /* file is qualified; skip over the header bytes in the stream */ this->input->seek(this->input, WAV_SIGNATURE_SIZE, SEEK_SET); /* go after the format structure */ if (this->input->read(this->input, (unsigned char *)&this->wave_size, 4) != 4) return 0; this->wave_size = le2me_32(this->wave_size); this->wave = (xine_waveformatex *) malloc( this->wave_size ); if (this->input->read(this->input, (void *)this->wave, this->wave_size) != this->wave_size) { free (this->wave); return 0; } xine_waveformatex_le2me(this->wave); this->audio_type = formattag_to_buf_audio(this->wave->wFormatTag); if(!this->audio_type) { this->audio_type = BUF_AUDIO_UNKNOWN; } /* traverse through the chunks to find the 'data' chunk */ this->data_start = this->data_size = 0; while (this->data_start == 0) { if (this->input->read(this->input, chunk_preamble, 8) != 8) { free (this->wave); return 0; } chunk_tag = LE_32(&chunk_preamble[0]); chunk_size = LE_32(&chunk_preamble[4]); if (chunk_tag == data_TAG) { this->data_start = this->input->get_current_pos(this->input); this->data_size = chunk_size; } else { this->input->seek(this->input, chunk_size, SEEK_CUR); } } if (this->audio_type == BUF_AUDIO_LPCM_LE) { if (this->input->read(this->input, chunk_preamble, 6) != 6 ) { free (this->wave); return 0; } if (chunk_preamble[0] == 0x72 && chunk_preamble[1] == 0xf8 && chunk_preamble[2] == 0x1f && chunk_preamble[3] == 0x4e ) { this->audio_type = BUF_AUDIO_DNET; } if (chunk_preamble[0] == 0xff && chunk_preamble[1] == 0x1f && chunk_preamble[2] == 0x00 && chunk_preamble[3] == 0xe8 && chunk_preamble[4] == 0xf1 && /* DTS standard document was wrong here! */ chunk_preamble[5] == 0x07 ) { /* DTS standard document was wrong here! */ this->audio_type = BUF_AUDIO_DTS; /* DTS but in 14bit format. */ } #if 0 printf("Preamble=%02x %02x %02x %02x %02x %02x\n", chunk_preamble[0], chunk_preamble[1], chunk_preamble[2], chunk_preamble[3], chunk_preamble[4], chunk_preamble[5]); #endif } return 1; } static int demux_wav_send_chunk(demux_plugin_t *this_gen) { demux_wav_t *this = (demux_wav_t *) this_gen; buf_element_t *buf = NULL; unsigned int remaining_sample_bytes; off_t current_file_pos; int64_t current_pts; /* just load data chunks from wherever the stream happens to be * pointing; issue a DEMUX_FINISHED status if EOF is reached */ remaining_sample_bytes = this->wave->nBlockAlign; current_file_pos = this->input->get_current_pos(this->input) - this->data_start; current_pts = current_file_pos; current_pts *= 90000; current_pts /= this->wave->nAvgBytesPerSec; if (this->seek_flag) { xine_demux_control_newpts(this->stream, current_pts, 0); this->seek_flag = 0; } while (remaining_sample_bytes) { if(!this->audio_fifo){ this->status = DEMUX_FINISHED; break; } buf = this->audio_fifo->buffer_pool_alloc (this->audio_fifo); buf->extra_info->input_pos = current_file_pos; buf->extra_info->input_length = this->data_size; buf->extra_info->input_time = current_pts / 90; buf->pts = current_pts; if (remaining_sample_bytes > buf->max_size) buf->size = buf->max_size; else buf->size = remaining_sample_bytes; remaining_sample_bytes -= buf->size; if (this->input->read(this->input, buf->content, buf->size) != buf->size) { buf->free_buffer(buf); this->status = DEMUX_FINISHED; break; } #if 0 for(n=0;n<20;n++) { printf("%x ",buf->content[n]); } printf("\n"); #endif if (this->audio_type == BUF_AUDIO_LPCM_LE) { if (buf->content[0] == 0x72 && buf->content[1] == 0xf8 && buf->content[2] == 0x1f && buf->content[3] == 0x4e ) { this->audio_type = BUF_AUDIO_DNET; } } else if (this->audio_type == BUF_AUDIO_DNET) { buf->pts=0; /* We don't need pts values for only audio streams. */ } #if 0 for(n=0;n<20;n++) { printf("%x ",buf->content[n]); } printf("\n"); #endif if (!remaining_sample_bytes) buf->decoder_flags |= BUF_FLAG_FRAME_END; buf->type = this->audio_type; this->audio_fifo->put (this->audio_fifo, buf); } return this->status; } static void demux_wav_send_headers(demux_plugin_t *this_gen) { demux_wav_t *this = (demux_wav_t *) this_gen; buf_element_t *buf; this->video_fifo = this->stream->video_fifo; this->audio_fifo = this->stream->audio_fifo; this->status = DEMUX_OK; /* load stream information */ this->stream->stream_info[XINE_STREAM_INFO_HAS_VIDEO] = 0; this->stream->stream_info[XINE_STREAM_INFO_HAS_AUDIO] = 1; this->stream->stream_info[XINE_STREAM_INFO_AUDIO_CHANNELS] = this->wave->nChannels; this->stream->stream_info[XINE_STREAM_INFO_AUDIO_SAMPLERATE] = this->wave->nSamplesPerSec; this->stream->stream_info[XINE_STREAM_INFO_AUDIO_BITS] = this->wave->wBitsPerSample; /* send start buffers */ xine_demux_control_start(this->stream); /* send init info to decoders */ if (this->audio_fifo && this->audio_type) { buf = this->audio_fifo->buffer_pool_alloc (this->audio_fifo); buf->type = this->audio_type; buf->decoder_flags = BUF_FLAG_HEADER; buf->decoder_info[0] = 0; buf->decoder_info[1] = this->wave->nSamplesPerSec; buf->decoder_info[2] = this->wave->wBitsPerSample; buf->decoder_info[3] = this->wave->nChannels; buf->content = (void *)this->wave; buf->size = this->wave_size; this->audio_fifo->put (this->audio_fifo, buf); } } static int demux_wav_seek (demux_plugin_t *this_gen, off_t start_pos, int start_time) { demux_wav_t *this = (demux_wav_t *) this_gen; this->seek_flag = 1; this->status = DEMUX_OK; xine_demux_flush_engine (this->stream); /* if input is non-seekable, do not proceed with the rest of this * seek function */ if (!INPUT_IS_SEEKABLE(this->input)) return this->status; /* check the boundary offsets */ if (start_pos <= 0) this->input->seek(this->input, this->data_start, SEEK_SET); else if (start_pos >= this->data_size) { this->status = DEMUX_FINISHED; return this->status; } else { /* This function must seek along the block alignment. The start_pos * is in reference to the start of the data. Divide the start_pos by * the block alignment integer-wise, and multiply the quotient by the * block alignment to get the new aligned offset. Add the data start * offset and seek to the new position. */ start_pos /= this->wave->nBlockAlign; start_pos *= this->wave->nBlockAlign; start_pos += this->data_start; this->input->seek(this->input, start_pos, SEEK_SET); } return this->status; } static void demux_wav_dispose (demux_plugin_t *this_gen) { demux_wav_t *this = (demux_wav_t *) this_gen; free(this->wave); free(this); } static int demux_wav_get_status (demux_plugin_t *this_gen) { demux_wav_t *this = (demux_wav_t *) this_gen; return this->status; } /* return the approximate length in miliseconds */ static int demux_wav_get_stream_length (demux_plugin_t *this_gen) { demux_wav_t *this = (demux_wav_t *) this_gen; return (int)((int64_t) this->data_size * 1000 / this->wave->nAvgBytesPerSec); } static uint32_t demux_wav_get_capabilities(demux_plugin_t *this_gen) { return DEMUX_CAP_NOCAP; } static int demux_wav_get_optional_data(demux_plugin_t *this_gen, void *data, int data_type) { return DEMUX_OPTIONAL_UNSUPPORTED; } static demux_plugin_t *open_plugin (demux_class_t *class_gen, xine_stream_t *stream, input_plugin_t *input) { demux_wav_t *this; uint32_t align; this = xine_xmalloc (sizeof (demux_wav_t)); this->stream = stream; this->input = input; this->demux_plugin.send_headers = demux_wav_send_headers; this->demux_plugin.send_chunk = demux_wav_send_chunk; this->demux_plugin.seek = demux_wav_seek; this->demux_plugin.dispose = demux_wav_dispose; this->demux_plugin.get_status = demux_wav_get_status; this->demux_plugin.get_stream_length = demux_wav_get_stream_length; this->demux_plugin.get_video_frame = NULL; this->demux_plugin.got_video_frame_cb= NULL; this->demux_plugin.get_capabilities = demux_wav_get_capabilities; this->demux_plugin.get_optional_data = demux_wav_get_optional_data; this->demux_plugin.demux_class = class_gen; this->status = DEMUX_FINISHED; switch (stream->content_detection_method) { case METHOD_BY_EXTENSION: { char *extensions, *mrl; mrl = input->get_mrl (input); extensions = class_gen->get_extensions (class_gen); if (!xine_demux_check_extension (mrl, extensions)) { free (this); return NULL; } } /* falling through is intended */ case METHOD_BY_CONTENT: case METHOD_EXPLICIT: if (!open_wav_file(this)) { free (this); return NULL; } break; default: free (this); return NULL; } /* special block alignment hack so that the demuxer doesn't send * packets with individual PCM samples */ if ((this->wave->nAvgBytesPerSec / this->wave->nBlockAlign) == this->wave->nSamplesPerSec) { align = PCM_BLOCK_ALIGN / this->wave->nBlockAlign; align = align * this->wave->nBlockAlign; this->wave->nBlockAlign = align; } return &this->demux_plugin; } static char *get_description (demux_class_t *this_gen) { return "WAV file demux plugin"; } static char *get_identifier (demux_class_t *this_gen) { return "WAV"; } static char *get_extensions (demux_class_t *this_gen) { return "wav"; } static char *get_mimetypes (demux_class_t *this_gen) { return "audio/x-wav: wav: WAV audio;" "audio/wav: wav: WAV audio;" "audio/x-pn-wav: wav: WAV audio;" "audio/x-pn-windows-acm: wav: WAV audio;"; } static void class_dispose (demux_class_t *this_gen) { demux_wav_class_t *this = (demux_wav_class_t *) this_gen; free (this); } void *demux_wav_init_plugin (xine_t *xine, void *data) { demux_wav_class_t *this; this = xine_xmalloc (sizeof (demux_wav_class_t)); this->demux_class.open_plugin = open_plugin; this->demux_class.get_description = get_description; this->demux_class.get_identifier = get_identifier; this->demux_class.get_mimetypes = get_mimetypes; this->demux_class.get_extensions = get_extensions; this->demux_class.dispose = class_dispose; return this; }