📄 matroska.c
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/*****************************************************************************
* matroska.c:
*****************************************************************************
* Copyright (C) 2005 x264 project
* $Id: $
*
* Authors: Mike Matsnev
*
* 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, USA.
*****************************************************************************/
#define _LARGEFILE_SOURCE
#define _FILE_OFFSET_BITS 64
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define HAVE_STDINT_H 1
#ifdef HAVE_STDINT_H
#include "stdint.h"
#else
#include <inttypes.h>
#endif
#include "matroska.h"
#define CLSIZE 1048576
#define CHECK(x) do { if ((x) < 0) return -1; } while (0)
struct mk_Context {
struct mk_Context *next, **prev, *parent;
struct mk_Writer *owner;
unsigned id;
void *data;
unsigned d_cur, d_max;
};
typedef struct mk_Context mk_Context;
struct mk_Writer {
FILE *fp;
unsigned duration_ptr;
mk_Context *root, *cluster, *frame;
mk_Context *freelist;
mk_Context *actlist;
int64_t def_duration;
int64_t timescale;
int64_t cluster_tc_scaled;
int64_t frame_tc, prev_frame_tc_scaled, max_frame_tc;
char wrote_header, in_frame, keyframe;
};
static mk_Context *mk_createContext(mk_Writer *w, mk_Context *parent, unsigned id) {
mk_Context *c;
if (w->freelist) {
c = w->freelist;
w->freelist = w->freelist->next;
} else {
c = malloc(sizeof(*c));
memset(c, 0, sizeof(*c));
}
if (c == NULL)
return NULL;
c->parent = parent;
c->owner = w;
c->id = id;
if (c->owner->actlist)
c->owner->actlist->prev = &c->next;
c->next = c->owner->actlist;
c->prev = &c->owner->actlist;
return c;
}
static int mk_appendContextData(mk_Context *c, const void *data, unsigned size) {
unsigned ns = c->d_cur + size;
if (ns > c->d_max) {
void *dp;
unsigned dn = c->d_max ? c->d_max << 1 : 16;
while (ns > dn)
dn <<= 1;
dp = realloc(c->data, dn);
if (dp == NULL)
return -1;
c->data = dp;
c->d_max = dn;
}
memcpy((char*)c->data + c->d_cur, data, size);
c->d_cur = ns;
return 0;
}
static int mk_writeID(mk_Context *c, unsigned id) {
unsigned char c_id[4] = { id >> 24, id >> 16, id >> 8, id };
if (c_id[0])
return mk_appendContextData(c, c_id, 4);
if (c_id[1])
return mk_appendContextData(c, c_id+1, 3);
if (c_id[2])
return mk_appendContextData(c, c_id+2, 2);
return mk_appendContextData(c, c_id+3, 1);
}
static int mk_writeSize(mk_Context *c, unsigned size) {
unsigned char c_size[5] = { 0x08, size >> 24, size >> 16, size >> 8, size };
if (size < 0x7f) {
c_size[4] |= 0x80;
return mk_appendContextData(c, c_size+4, 1);
}
if (size < 0x3fff) {
c_size[3] |= 0x40;
return mk_appendContextData(c, c_size+3, 2);
}
if (size < 0x1fffff) {
c_size[2] |= 0x20;
return mk_appendContextData(c, c_size+2, 3);
}
if (size < 0x0fffffff) {
c_size[1] |= 0x10;
return mk_appendContextData(c, c_size+1, 4);
}
return mk_appendContextData(c, c_size, 5);
}
static int mk_flushContextID(mk_Context *c) {
unsigned char ff = 0xff;
if (c->id == 0)
return 0;
CHECK(mk_writeID(c->parent, c->id));
CHECK(mk_appendContextData(c->parent, &ff, 1));
c->id = 0;
return 0;
}
static int mk_flushContextData(mk_Context *c) {
if (c->d_cur == 0)
return 0;
if (c->parent)
CHECK(mk_appendContextData(c->parent, c->data, c->d_cur));
else
if (fwrite(c->data, c->d_cur, 1, c->owner->fp) != 1)
return -1;
c->d_cur = 0;
return 0;
}
static int mk_closeContext(mk_Context *c, unsigned *off) {
if (c->id) {
CHECK(mk_writeID(c->parent, c->id));
CHECK(mk_writeSize(c->parent, c->d_cur));
}
if (c->parent && off != NULL)
*off += c->parent->d_cur;
CHECK(mk_flushContextData(c));
if (c->next)
c->next->prev = c->prev;
*(c->prev) = c->next;
c->next = c->owner->freelist;
c->owner->freelist = c;
return 0;
}
static void mk_destroyContexts(mk_Writer *w) {
mk_Context *cur, *next;
for (cur = w->freelist; cur; cur = next) {
next = cur->next;
free(cur->data);
free(cur);
}
for (cur = w->actlist; cur; cur = next) {
next = cur->next;
free(cur->data);
free(cur);
}
w->freelist = w->actlist = w->root = NULL;
}
static int mk_writeStr(mk_Context *c, unsigned id, const char *str) {
size_t len = strlen(str);
CHECK(mk_writeID(c, id));
CHECK(mk_writeSize(c, len));
CHECK(mk_appendContextData(c, str, len));
return 0;
}
static int mk_writeBin(mk_Context *c, unsigned id, const void *data, unsigned size) {
CHECK(mk_writeID(c, id));
CHECK(mk_writeSize(c, size));
CHECK(mk_appendContextData(c, data, size));
return 0;
}
static int mk_writeUInt(mk_Context *c, unsigned id, int64_t ui) {
unsigned char c_ui[8] = { ui >> 56, ui >> 48, ui >> 40, ui >> 32, ui >> 24, ui >> 16, ui >> 8, ui };
unsigned i = 0;
CHECK(mk_writeID(c, id));
while (i < 7 && c_ui[i] == 0)
++i;
CHECK(mk_writeSize(c, 8 - i));
CHECK(mk_appendContextData(c, c_ui+i, 8 - i));
return 0;
}
static int mk_writeSInt(mk_Context *c, unsigned id, int64_t si) {
unsigned char c_si[8] = { si >> 56, si >> 48, si >> 40, si >> 32, si >> 24, si >> 16, si >> 8, si };
unsigned i = 0;
CHECK(mk_writeID(c, id));
if (si < 0)
while (i < 7 && c_si[i] == 0xff && c_si[i+1] & 0x80)
++i;
else
while (i < 7 && c_si[i] == 0 && !(c_si[i+1] & 0x80))
++i;
CHECK(mk_writeSize(c, 8 - i));
CHECK(mk_appendContextData(c, c_si+i, 8 - i));
return 0;
}
static int mk_writeFloatRaw(mk_Context *c, float f) {
union {
float f;
unsigned u;
} u;
unsigned char c_f[4];
u.f = f;
c_f[0] = u.u >> 24;
c_f[1] = u.u >> 16;
c_f[2] = u.u >> 8;
c_f[3] = u.u;
return mk_appendContextData(c, c_f, 4);
}
static int mk_writeFloat(mk_Context *c, unsigned id, float f) {
CHECK(mk_writeID(c, id));
CHECK(mk_writeSize(c, 4));
CHECK(mk_writeFloatRaw(c, f));
return 0;
}
static unsigned mk_ebmlSizeSize(unsigned s) {
if (s < 0x7f)
return 1;
if (s < 0x3fff)
return 2;
if (s < 0x1fffff)
return 3;
if (s < 0x0fffffff)
return 4;
return 5;
}
static unsigned mk_ebmlSIntSize(int64_t si) {
unsigned char c_si[8] = { si >> 56, si >> 48, si >> 40, si >> 32, si >> 24, si >> 16, si >> 8, si };
unsigned i = 0;
if (si < 0)
while (i < 7 && c_si[i] == 0xff && c_si[i+1] & 0x80)
++i;
else
while (i < 7 && c_si[i] == 0 && !(c_si[i+1] & 0x80))
++i;
return 8 - i;
}
mk_Writer *mk_createWriter(const char *filename) {
mk_Writer *w = malloc(sizeof(*w));
if (w == NULL)
return NULL;
memset(w, 0, sizeof(*w));
w->root = mk_createContext(w, NULL, 0);
if (w->root == NULL) {
free(w);
return NULL;
}
w->fp = fopen(filename, "wb");
if (w->fp == NULL) {
mk_destroyContexts(w);
free(w);
return NULL;
}
w->timescale = 1000000;
return w;
}
int mk_writeHeader(mk_Writer *w, const char *writingApp,
const char *codecID,
const void *codecPrivate, unsigned codecPrivateSize,
int64_t default_frame_duration,
int64_t timescale,
unsigned width, unsigned height,
unsigned d_width, unsigned d_height)
{
mk_Context *c, *ti, *v;
if (w->wrote_header)
return -1;
w->timescale = timescale;
w->def_duration = default_frame_duration;
if ((c = mk_createContext(w, w->root, 0x1a45dfa3)) == NULL) // EBML
return -1;
CHECK(mk_writeUInt(c, 0x4286, 1)); // EBMLVersion
CHECK(mk_writeUInt(c, 0x42f7, 1)); // EBMLReadVersion
CHECK(mk_writeUInt(c, 0x42f2, 4)); // EBMLMaxIDLength
CHECK(mk_writeUInt(c, 0x42f3, 8)); // EBMLMaxSizeLength
CHECK(mk_writeStr(c, 0x4282, "matroska")); // DocType
CHECK(mk_writeUInt(c, 0x4287, 1)); // DocTypeVersion
CHECK(mk_writeUInt(c, 0x4285, 1)); // DocTypeReadversion
CHECK(mk_closeContext(c, 0));
if ((c = mk_createContext(w, w->root, 0x18538067)) == NULL) // Segment
return -1;
CHECK(mk_flushContextID(c));
CHECK(mk_closeContext(c, 0));
if ((c = mk_createContext(w, w->root, 0x1549a966)) == NULL) // SegmentInfo
return -1;
CHECK(mk_writeStr(c, 0x4d80, "Haali Matroska Writer b0"));
CHECK(mk_writeStr(c, 0x5741, writingApp));
CHECK(mk_writeUInt(c, 0x2ad7b1, w->timescale));
CHECK(mk_writeFloat(c, 0x4489, 0));
w->duration_ptr = c->d_cur - 4;
CHECK(mk_closeContext(c, &w->duration_ptr));
if ((c = mk_createContext(w, w->root, 0x1654ae6b)) == NULL) // tracks
return -1;
if ((ti = mk_createContext(w, c, 0xae)) == NULL) // TrackEntry
return -1;
CHECK(mk_writeUInt(ti, 0xd7, 1)); // TrackNumber
CHECK(mk_writeUInt(ti, 0x73c5, 1)); // TrackUID
CHECK(mk_writeUInt(ti, 0x83, 1)); // TrackType
CHECK(mk_writeUInt(ti, 0x9c, 0)); // FlagLacing
CHECK(mk_writeStr(ti, 0x86, codecID)); // CodecID
if (codecPrivateSize)
CHECK(mk_writeBin(ti, 0x63a2, codecPrivate, codecPrivateSize)); // CodecPrivate
if (default_frame_duration)
CHECK(mk_writeUInt(ti, 0x23e383, default_frame_duration)); // DefaultDuration
if ((v = mk_createContext(w, ti, 0xe0)) == NULL) // Video
return -1;
CHECK(mk_writeUInt(v, 0xb0, width));
CHECK(mk_writeUInt(v, 0xba, height));
CHECK(mk_writeUInt(v, 0x54b0, d_width));
CHECK(mk_writeUInt(v, 0x54ba, d_height));
CHECK(mk_closeContext(v, 0));
CHECK(mk_closeContext(ti, 0));
CHECK(mk_closeContext(c, 0));
CHECK(mk_flushContextData(w->root));
w->wrote_header = 1;
return 0;
}
static int mk_closeCluster(mk_Writer *w) {
if (w->cluster == NULL)
return 0;
CHECK(mk_closeContext(w->cluster, 0));
w->cluster = NULL;
CHECK(mk_flushContextData(w->root));
return 0;
}
int mk_flushFrame(mk_Writer *w) {
int64_t delta, ref = 0;
unsigned fsize, bgsize;
unsigned char c_delta_flags[3];
if (!w->in_frame)
return 0;
delta = w->frame_tc/w->timescale - w->cluster_tc_scaled;
//if (delta > 32767ll || delta < -32768ll)
// if (delta > 32767I64 || delta < -32768I64) //lsp051226
// CHECK(mk_closeCluster(w));
if (w->cluster == NULL) {
w->cluster_tc_scaled = w->frame_tc / w->timescale;
w->cluster = mk_createContext(w, w->root, 0x1f43b675); // Cluster
if (w->cluster == NULL)
return -1;
CHECK(mk_writeUInt(w->cluster, 0xe7, w->cluster_tc_scaled)); // Timecode
delta = 0;
}
fsize = w->frame ? w->frame->d_cur : 0;
bgsize = fsize + 4 + mk_ebmlSizeSize(fsize + 4) + 1;
if (!w->keyframe) {
ref = w->prev_frame_tc_scaled - w->cluster_tc_scaled - delta;
bgsize += 1 + 1 + mk_ebmlSIntSize(ref);
}
CHECK(mk_writeID(w->cluster, 0xa0)); // BlockGroup
CHECK(mk_writeSize(w->cluster, bgsize));
CHECK(mk_writeID(w->cluster, 0xa1)); // Block
CHECK(mk_writeSize(w->cluster, fsize + 4));
CHECK(mk_writeSize(w->cluster, 1)); // track number
c_delta_flags[0] = delta >> 8;
c_delta_flags[1] = delta;
c_delta_flags[2] = 0;
CHECK(mk_appendContextData(w->cluster, c_delta_flags, 3));
if (w->frame) {
CHECK(mk_appendContextData(w->cluster, w->frame->data, w->frame->d_cur));
w->frame->d_cur = 0;
}
if (!w->keyframe)
CHECK(mk_writeSInt(w->cluster, 0xfb, ref)); // ReferenceBlock
w->in_frame = 0;
w->prev_frame_tc_scaled = w->cluster_tc_scaled + delta;
if (w->cluster->d_cur > CLSIZE)
CHECK(mk_closeCluster(w));
return 0;
}
int mk_startFrame(mk_Writer *w) {
if (mk_flushFrame(w) < 0)
return -1;
w->in_frame = 1;
w->keyframe = 0;
return 0;
}
int mk_setFrameFlags(mk_Writer *w,int64_t timestamp, int keyframe) {
if (!w->in_frame)
return -1;
w->frame_tc = timestamp;
w->keyframe = keyframe != 0;
if (w->max_frame_tc < timestamp)
w->max_frame_tc = timestamp;
return 0;
}
int mk_addFrameData(mk_Writer *w, const void *data, unsigned size) {
if (!w->in_frame)
return -1;
if (w->frame == NULL)
if ((w->frame = mk_createContext(w, NULL, 0)) == NULL)
return -1;
return mk_appendContextData(w->frame, data, size);
}
int mk_close(mk_Writer *w) {
int ret = 0;
if (mk_flushFrame(w) < 0 || mk_closeCluster(w) < 0)
ret = -1;
if (w->wrote_header) {
fseek(w->fp, w->duration_ptr, SEEK_SET);
if (mk_writeFloatRaw(w->root, (float)((double)(w->max_frame_tc+w->def_duration) / w->timescale)) < 0 ||
mk_flushContextData(w->root) < 0)
ret = -1;
}
mk_destroyContexts(w);
fclose(w->fp);
free(w);
return ret;
}
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