/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef __PJMEDIA_FRAME_H__ #define __PJMEDIA_FRAME_H__ /** * @file pjmedia/frame.h Media frame * @brief Frame */ #include #include /** * @defgroup PJMEDIA_FRAME Media frame * @ingroup PJMEDIA_TYPES * @brief Frame * @{ */ PJ_BEGIN_DECL /** * Types of media frame. */ typedef enum pjmedia_frame_type { PJMEDIA_FRAME_TYPE_NONE, /**< No frame. */ PJMEDIA_FRAME_TYPE_AUDIO, /**< Normal audio frame. */ PJMEDIA_FRAME_TYPE_EXTENDED, /**< Extended audio frame. */ PJMEDIA_FRAME_TYPE_VIDEO /**< Video frame. */ } pjmedia_frame_type; /** * This structure describes a media frame. */ typedef struct pjmedia_frame { pjmedia_frame_type type; /**< Frame type. */ void *buf; /**< Pointer to buffer. */ pj_size_t size; /**< Frame size in bytes. */ pj_timestamp timestamp; /**< Frame timestamp. */ pj_uint32_t bit_info; /**< Bit info of the frame, sample case: a frame may not exactly start and end at the octet boundary, so this field may be used for specifying start & end bit offset. */ } pjmedia_frame; /** * The pjmedia_frame_ext is used to carry a more complex audio frames than * the typical PCM audio frames, and it is signaled by setting the "type" * field of a pjmedia_frame to PJMEDIA_FRAME_TYPE_EXTENDED. With this set, * application may typecast pjmedia_frame to pjmedia_frame_ext. * * This structure may contain more than one audio frames, which subsequently * will be called subframes in this structure. The subframes section * immediately follows the end of this structure, and each subframe is * represented by pjmedia_frame_ext_subframe structure. Every next * subframe immediately follows the previous subframe, and all subframes * are byte-aligned although its payload may not be byte-aligned. */ #pragma pack(1) typedef struct pjmedia_frame_ext { pjmedia_frame base; /**< Base frame info */ pj_uint16_t samples_cnt; /**< Number of samples in this frame */ pj_uint16_t subframe_cnt; /**< Number of (sub)frames in this frame */ /* Zero or more (sub)frames follows immediately after this, * each will be represented by pjmedia_frame_ext_subframe */ } pjmedia_frame_ext; #pragma pack() /** * This structure represents the individual subframes in the * pjmedia_frame_ext structure. */ #pragma pack(1) typedef struct pjmedia_frame_ext_subframe { pj_uint16_t bitlen; /**< Number of bits in the data */ pj_uint8_t data[1]; /**< Start of encoded data */ } pjmedia_frame_ext_subframe; #pragma pack() /** * Copy one frame to another. If the destination frame's size is smaller than * the source frame's, the destination buffer will be truncated. * * @param src Source frame. * @param dst Destination frame. */ PJ_INLINE(void) pjmedia_frame_copy(pjmedia_frame *dst, const pjmedia_frame *src) { dst->type = src->type; dst->timestamp = src->timestamp; dst->bit_info = src->bit_info; dst->size = (dst->size < src->size? dst->size: src->size); pj_memcpy(dst->buf, src->buf, dst->size); } /** * Append one subframe to #pjmedia_frame_ext. * * @param frm The #pjmedia_frame_ext. * @param src Subframe data. * @param bitlen Length of subframe, in bits. * @param samples_cnt Number of audio samples in subframe. */ PJ_INLINE(void) pjmedia_frame_ext_append_subframe(pjmedia_frame_ext *frm, const void *src, unsigned bitlen, unsigned samples_cnt) { pjmedia_frame_ext_subframe *fsub; pj_uint8_t *p; unsigned i; p = (pj_uint8_t*)frm + sizeof(pjmedia_frame_ext); for (i = 0; i < frm->subframe_cnt; ++i) { fsub = (pjmedia_frame_ext_subframe*) p; p += sizeof(fsub->bitlen) + ((fsub->bitlen+7) >> 3); } fsub = (pjmedia_frame_ext_subframe*) p; fsub->bitlen = (pj_uint16_t)bitlen; if (bitlen) pj_memcpy(fsub->data, src, (bitlen+7) >> 3); frm->subframe_cnt++; frm->samples_cnt = (pj_uint16_t)(frm->samples_cnt + samples_cnt); } /** * Get a subframe from #pjmedia_frame_ext. * * @param frm The #pjmedia_frame_ext. * @param n Subframe index, zero based. * * @return The n-th subframe, or NULL if n is out-of-range. */ PJ_INLINE(pjmedia_frame_ext_subframe*) pjmedia_frame_ext_get_subframe(const pjmedia_frame_ext *frm, unsigned n) { pjmedia_frame_ext_subframe *sf = NULL; if (n < frm->subframe_cnt) { pj_uint8_t *p; unsigned i; p = (pj_uint8_t*)frm + sizeof(pjmedia_frame_ext); for (i = 0; i < n; ++i) { sf = (pjmedia_frame_ext_subframe*) p; p += sizeof(sf->bitlen) + ((sf->bitlen+7) >> 3); } sf = (pjmedia_frame_ext_subframe*) p; } return sf; } /** * Extract all frame payload to the specified buffer. * * @param frm The frame. * @param dst Destination buffer. * @param maxlen Maximum size to copy (i.e. the size of the * destination buffer). * * @return Total size of payload copied. */ PJ_INLINE(unsigned) pjmedia_frame_ext_copy_payload(const pjmedia_frame_ext *frm, void *dst, unsigned maxlen) { unsigned i, copied=0; for (i=0; isubframe_cnt; ++i) { pjmedia_frame_ext_subframe *sf; unsigned sz; sf = pjmedia_frame_ext_get_subframe(frm, i); if (!sf) continue; sz = ((sf->bitlen + 7) >> 3); if (sz + copied > maxlen) break; pj_memcpy(((pj_uint8_t*)dst) + copied, sf->data, sz); copied += sz; } return copied; } /** * Pop out first n subframes from #pjmedia_frame_ext. * * @param frm The #pjmedia_frame_ext. * @param n Number of first subframes to be popped out. * * @return PJ_SUCCESS when successful. */ PJ_INLINE(pj_status_t) pjmedia_frame_ext_pop_subframes(pjmedia_frame_ext *frm, unsigned n) { pjmedia_frame_ext_subframe *sf; pj_uint8_t *move_src; pj_size_t move_len; if (frm->subframe_cnt <= n) { frm->subframe_cnt = 0; frm->samples_cnt = 0; return PJ_SUCCESS; } move_src = (pj_uint8_t*)pjmedia_frame_ext_get_subframe(frm, n); sf = pjmedia_frame_ext_get_subframe(frm, frm->subframe_cnt-1); move_len = ((pj_uint8_t*)sf - move_src + sizeof(sf->bitlen) + ((sf->bitlen+7) >> 3)); pj_memmove((pj_uint8_t*)frm+sizeof(pjmedia_frame_ext), move_src, move_len); frm->samples_cnt = (pj_uint16_t) (frm->samples_cnt - n*frm->samples_cnt/frm->subframe_cnt); frm->subframe_cnt = (pj_uint16_t) (frm->subframe_cnt - n); return PJ_SUCCESS; } /** * This is a general purpose function set PCM samples to zero. * Since this function is needed by many parts of the library, * by putting this functionality in one place, it enables some. * clever people to optimize this function. * * @param samples The 16bit PCM samples. * @param count Number of samples. */ PJ_INLINE(void) pjmedia_zero_samples(pj_int16_t *samples, unsigned count) { #if 1 pj_bzero(samples, (count<<1)); #elif 0 unsigned i; for (i=0; i>= 1; for (i=0; i>= 1; for (i=0; i>= 1; for (i=0; i