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mpv/stream/cache.c
Stefano Pigozzi 406241005e core: move contents to mpvcore (2/2)
Followup commit. Fixes all the files references.
2013-08-06 22:52:31 +02:00

641 lines
20 KiB
C

/*
* This file is part of MPlayer.
*
* MPlayer 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.
*
* MPlayer 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 MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
// Time in seconds the main thread waits for the cache thread. On wakeups, the
// code checks for user requested aborts and also prints warnings that the
// cache is being slow.
#define CACHE_WAIT_TIME 0.5
// The time the cache sleeps in idle mode. This controls how often the cache
// retries reading from the stream after EOF has reached (in case the stream is
// actually readable again, for example if data has been appended to a file).
// Note that if this timeout is too low, the player will waste too much CPU
// when player is paused.
#define CACHE_IDLE_SLEEP_TIME 1.0
// Time in seconds the cache updates "cached" controls. Note that idle mode
// will block the cache from doing this, and this timeout is honored only if
// the cache is active.
#define CACHE_UPDATE_CONTROLS_TIME 2.0
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include <errno.h>
#include <assert.h>
#include <pthread.h>
#include <time.h>
#include <sys/time.h>
#include <libavutil/common.h>
#include "config.h"
#include "osdep/timer.h"
#include "mpvcore/mp_msg.h"
#include "stream.h"
#include "mpvcore/mp_common.h"
// Note: (struct priv*)(cache->priv)->cache == cache
struct priv {
pthread_t cache_thread;
bool cache_thread_running;
pthread_mutex_t mutex;
pthread_cond_t wakeup;
// Constants (as long as cache thread is running)
unsigned char *buffer; // base pointer of the allocated buffer memory
int64_t buffer_size; // size of the allocated buffer memory
int64_t back_size; // keep back_size amount of old bytes for backward seek
int64_t fill_limit; // we should fill buffer only if space>=fill_limit
int64_t seek_limit; // keep filling cache if distance is less that seek limit
struct byte_meta *bm; // additional per-byte metadata
// Owned by the main thread
stream_t *cache; // wrapper stream, used by demuxer etc.
// Owned by the cache thread
stream_t *stream; // "real" stream, used to read from the source media
// All the following members are shared between the threads.
// You must lock the mutex to access them.
// Ringbuffer
int64_t min_filepos; // range of file that is cached in the buffer
int64_t max_filepos; // ... max_filepos being the last read position
bool eof; // true if max_filepos = EOF
int64_t offset; // buffer[offset] correponds to max_filepos
bool idle; // cache thread has stopped reading
int64_t read_filepos; // client read position (mirrors cache->pos)
int control; // requested STREAM_CTRL_... or CACHE_CTRL_...
void *control_arg; // temporary for executing STREAM_CTRLs
int control_res;
bool control_flush;
// Cached STREAM_CTRLs
double stream_time_length;
double stream_start_time;
int64_t stream_size;
bool stream_manages_timeline;
unsigned int stream_num_chapters;
int stream_cache_idle;
int stream_cache_fill;
char **stream_metadata;
};
// Store additional per-byte metadata. Since per-byte would be way too
// inefficient, store it only for every BYTE_META_CHUNK_SIZE byte.
struct byte_meta {
float stream_pts;
};
enum {
BYTE_META_CHUNK_SIZE = 8 * 1024,
CACHE_INTERRUPTED = -1,
CACHE_CTRL_NONE = 0,
CACHE_CTRL_QUIT = -1,
CACHE_CTRL_PING = -2,
};
static int64_t mp_clipi64(int64_t val, int64_t min, int64_t max)
{
val = FFMIN(val, max);
val = FFMAX(val, min);
return val;
}
// pthread_cond_timedwait() with a relative timeout in seconds
static int cond_timed_wait(pthread_cond_t *cond, pthread_mutex_t *mutex,
double timeout)
{
struct timespec ts;
#if defined(_POSIX_TIMERS) && _POSIX_TIMERS > 0
clock_gettime(CLOCK_REALTIME, &ts);
#else
struct timeval tv;
gettimeofday(&tv, NULL);
ts.tv_sec = tv.tv_sec;
ts.tv_nsec = tv.tv_usec * 1000UL;
#endif
unsigned long seconds = (int)timeout;
unsigned long nsecs = (timeout - seconds) * 1000000000UL;
if (nsecs + ts.tv_nsec >= 1000000000UL) {
seconds += 1;
nsecs -= 1000000000UL;
}
ts.tv_sec += seconds;
ts.tv_nsec += nsecs;
return pthread_cond_timedwait(cond, mutex, &ts);
}
// Used by the main thread to wakeup the cache thread, and to wait for the
// cache thread. The cache mutex has to be locked when calling this function.
// *retry_time should be set to 0 on the first call.
// Returns CACHE_INTERRUPTED if the caller is supposed to abort.
static int cache_wakeup_and_wait(struct priv *s, double *retry_time)
{
if (stream_check_interrupt(0))
return CACHE_INTERRUPTED;
// Print a "more severe" warning after waiting 1 second and no new data
if ((*retry_time) >= 1.0) {
mp_msg(MSGT_CACHE, MSGL_ERR, "Cache keeps not responding.\n");
} else if (*retry_time > 0.1) {
mp_msg(MSGT_CACHE, MSGL_WARN,
"Cache is not responding - slow/stuck network connection?\n");
}
double start = mp_time_sec();
pthread_cond_signal(&s->wakeup);
cond_timed_wait(&s->wakeup, &s->mutex, CACHE_WAIT_TIME);
*retry_time += mp_time_sec() - start;
return 0;
}
// Runs in the cache thread
static void cache_drop_contents(struct priv *s)
{
s->offset = s->min_filepos = s->max_filepos = s->read_filepos;
s->eof = false;
}
// Runs in the main thread
// mutex must be held, but is sometimes temporarily dropped
static int cache_read(struct priv *s, unsigned char *buf, int size)
{
if (size <= 0)
return 0;
double retry = 0;
while (s->read_filepos >= s->max_filepos ||
s->read_filepos < s->min_filepos)
{
if (s->eof && s->read_filepos >= s->max_filepos)
return 0;
if (cache_wakeup_and_wait(s, &retry) == CACHE_INTERRUPTED)
return 0;
}
int64_t newb = s->max_filepos - s->read_filepos; // new bytes in the buffer
int64_t pos = s->read_filepos - s->offset; // file pos to buffer memory pos
if (pos < 0)
pos += s->buffer_size;
else if (pos >= s->buffer_size)
pos -= s->buffer_size;
if (newb > s->buffer_size - pos)
newb = s->buffer_size - pos; // handle wrap...
newb = FFMIN(newb, size);
memcpy(buf, &s->buffer[pos], newb);
s->read_filepos += newb;
return newb;
}
// Runs in the cache thread.
// Returns true if reading was attempted, and the mutex was shortly unlocked.
static bool cache_fill(struct priv *s)
{
int64_t read = s->read_filepos;
int len;
if (read < s->min_filepos || read > s->max_filepos) {
// seek...
mp_msg(MSGT_CACHE, MSGL_DBG2,
"Out of boundaries... seeking to 0x%" PRIX64 " \n", read);
// drop cache contents only if seeking backward or too much fwd.
// This is also done for on-disk files, since it loses the backseek cache.
// That in turn can cause major bandwidth increase and performance
// issues with e.g. mov or badly interleaved files
if (read < s->min_filepos || read >= s->max_filepos + s->seek_limit) {
mp_msg(MSGT_CACHE, MSGL_V, "Dropping cache at pos %"PRId64", "
"cached range: %"PRId64"-%"PRId64".\n", read,
s->min_filepos, s->max_filepos);
cache_drop_contents(s);
stream_seek(s->stream, read);
}
}
// number of buffer bytes which should be preserved in backwards direction
int64_t back = mp_clipi64(read - s->min_filepos, 0, s->back_size);
// number of buffer bytes that are valid and can be read
int64_t newb = FFMAX(s->max_filepos - read, 0);
// max. number of bytes that can be written (starting from max_filepos)
int64_t space = s->buffer_size - (newb + back);
// offset into the buffer that maps to max_filepos
int pos = s->max_filepos - s->offset;
if (pos >= s->buffer_size)
pos -= s->buffer_size; // wrap-around
if (space < s->fill_limit) {
s->idle = true;
return false;
}
// limit to end of buffer (without wrapping)
if (pos + space >= s->buffer_size)
space = s->buffer_size - pos;
// limit read size (or else would block and read the entire buffer in 1 call)
space = FFMIN(space, s->stream->read_chunk);
// back+newb+space <= buffer_size
int64_t back2 = s->buffer_size - (space + newb); // max back size
if (s->min_filepos < (read - back2))
s->min_filepos = read - back2;
// The read call might take a long time and block, so drop the lock.
pthread_mutex_unlock(&s->mutex);
len = stream_read_partial(s->stream, &s->buffer[pos], space);
pthread_mutex_lock(&s->mutex);
double pts;
if (stream_control(s->stream, STREAM_CTRL_GET_CURRENT_TIME, &pts) <= 0)
pts = MP_NOPTS_VALUE;
for (int64_t b_pos = pos; b_pos < pos + len + BYTE_META_CHUNK_SIZE;
b_pos += BYTE_META_CHUNK_SIZE)
{
s->bm[b_pos / BYTE_META_CHUNK_SIZE] = (struct byte_meta){.stream_pts = pts};
}
s->max_filepos += len;
if (pos + len == s->buffer_size)
s->offset += s->buffer_size; // wrap...
s->eof = len > 0 ? 0 : 1;
s->idle = s->eof;
pthread_cond_signal(&s->wakeup);
return true;
}
static void update_cached_controls(struct priv *s)
{
unsigned int ui;
double d;
char **m;
s->stream_time_length = 0;
if (stream_control(s->stream, STREAM_CTRL_GET_TIME_LENGTH, &d) == STREAM_OK)
s->stream_time_length = d;
s->stream_start_time = MP_NOPTS_VALUE;
if (stream_control(s->stream, STREAM_CTRL_GET_START_TIME, &d) == STREAM_OK)
s->stream_start_time = d;
s->stream_manages_timeline = false;
if (stream_control(s->stream, STREAM_CTRL_MANAGES_TIMELINE, NULL) == STREAM_OK)
s->stream_manages_timeline = true;
s->stream_num_chapters = 0;
if (stream_control(s->stream, STREAM_CTRL_GET_NUM_CHAPTERS, &ui) == STREAM_OK)
s->stream_num_chapters = ui;
if (stream_control(s->stream, STREAM_CTRL_GET_METADATA, &m) == STREAM_OK) {
talloc_free(s->stream_metadata);
s->stream_metadata = talloc_steal(s, m);
}
stream_update_size(s->stream);
s->stream_size = s->stream->end_pos;
}
// the core might call these every frame, so cache them...
static int cache_get_cached_control(stream_t *cache, int cmd, void *arg)
{
struct priv *s = cache->priv;
switch (cmd) {
case STREAM_CTRL_GET_CACHE_SIZE:
*(int64_t *)arg = s->buffer_size;
return STREAM_OK;
case STREAM_CTRL_GET_CACHE_FILL:
*(int64_t *)arg = s->max_filepos - s->read_filepos;
return STREAM_OK;
case STREAM_CTRL_GET_CACHE_IDLE:
*(int *)arg = s->idle;
return STREAM_OK;
case STREAM_CTRL_GET_TIME_LENGTH:
*(double *)arg = s->stream_time_length;
return s->stream_time_length ? STREAM_OK : STREAM_UNSUPPORTED;
case STREAM_CTRL_GET_START_TIME:
*(double *)arg = s->stream_start_time;
return s->stream_start_time !=
MP_NOPTS_VALUE ? STREAM_OK : STREAM_UNSUPPORTED;
case STREAM_CTRL_GET_SIZE:
*(int64_t *)arg = s->stream_size;
return STREAM_OK;
case STREAM_CTRL_MANAGES_TIMELINE:
return s->stream_manages_timeline ? STREAM_OK : STREAM_UNSUPPORTED;
case STREAM_CTRL_GET_NUM_CHAPTERS:
*(unsigned int *)arg = s->stream_num_chapters;
return STREAM_OK;
case STREAM_CTRL_GET_CURRENT_TIME: {
if (s->read_filepos >= s->min_filepos &&
s->read_filepos <= s->max_filepos &&
s->min_filepos < s->max_filepos)
{
int64_t fpos = FFMIN(s->read_filepos, s->max_filepos - 1);
int64_t pos = fpos - s->offset;
if (pos < 0)
pos += s->buffer_size;
else if (pos >= s->buffer_size)
pos -= s->buffer_size;
double pts = s->bm[pos / BYTE_META_CHUNK_SIZE].stream_pts;
*(double *)arg = pts;
return pts == MP_NOPTS_VALUE ? STREAM_UNSUPPORTED : STREAM_OK;
}
return STREAM_UNSUPPORTED;
}
case STREAM_CTRL_GET_METADATA: {
if (s->stream_metadata && s->stream_metadata[0]) {
char **m = talloc_new(NULL);
int num_m = 0;
for (int n = 0; s->stream_metadata[n]; n++) {
char *t = talloc_strdup(m, s->stream_metadata[n]);
MP_TARRAY_APPEND(NULL, m, num_m, t);
}
MP_TARRAY_APPEND(NULL, m, num_m, NULL);
MP_TARRAY_APPEND(NULL, m, num_m, NULL);
*(char ***)arg = m;
return STREAM_OK;
}
return STREAM_UNSUPPORTED;
}
}
return STREAM_ERROR;
}
static bool control_needs_flush(int stream_ctrl)
{
switch (stream_ctrl) {
case STREAM_CTRL_SEEK_TO_TIME:
case STREAM_CTRL_SEEK_TO_CHAPTER:
case STREAM_CTRL_SET_ANGLE:
return true;
}
return false;
}
// Runs in the cache thread
static void cache_execute_control(struct priv *s)
{
uint64_t old_pos = stream_tell(s->stream);
s->control_res = stream_control(s->stream, s->control, s->control_arg);
s->control_flush = false;
bool pos_changed = old_pos != stream_tell(s->stream);
bool ok = s->control_res == STREAM_OK;
if (pos_changed && !ok) {
mp_msg(MSGT_STREAM, MSGL_ERR, "STREAM_CTRL changed stream pos but "
"returned error, this is not allowed!\n");
} else if (pos_changed || (ok && control_needs_flush(s->control))) {
mp_msg(MSGT_CACHE, MSGL_V, "Dropping cache due to control()\n");
s->read_filepos = stream_tell(s->stream);
s->control_flush = true;
cache_drop_contents(s);
}
s->control = CACHE_CTRL_NONE;
pthread_cond_signal(&s->wakeup);
}
static void *cache_thread(void *arg)
{
struct priv *s = arg;
pthread_mutex_lock(&s->mutex);
update_cached_controls(s);
double last = mp_time_sec();
while (s->control != CACHE_CTRL_QUIT) {
if (mp_time_sec() - last > CACHE_UPDATE_CONTROLS_TIME) {
update_cached_controls(s);
last = mp_time_sec();
}
if (s->control > 0) {
cache_execute_control(s);
} else {
cache_fill(s);
}
if (s->control == CACHE_CTRL_PING) {
pthread_cond_signal(&s->wakeup);
s->control = CACHE_CTRL_NONE;
}
if (s->idle && s->control == CACHE_CTRL_NONE)
cond_timed_wait(&s->wakeup, &s->mutex, CACHE_IDLE_SLEEP_TIME);
}
pthread_cond_signal(&s->wakeup);
pthread_mutex_unlock(&s->mutex);
mp_msg(MSGT_CACHE, MSGL_V, "Cache exiting...\n");
return NULL;
}
static int cache_fill_buffer(struct stream *cache, char *buffer, int max_len)
{
struct priv *s = cache->priv;
assert(s->cache_thread_running);
pthread_mutex_lock(&s->mutex);
if (cache->pos != s->read_filepos)
mp_msg(MSGT_CACHE, MSGL_ERR,
"!!! read_filepos differs !!! report this bug...\n");
int t = cache_read(s, buffer, max_len);
// wakeup the cache thread, possibly make it read more data ahead
pthread_cond_signal(&s->wakeup);
pthread_mutex_unlock(&s->mutex);
return t;
}
static int cache_seek(stream_t *cache, int64_t pos)
{
struct priv *s = cache->priv;
assert(s->cache_thread_running);
pthread_mutex_lock(&s->mutex);
mp_msg(MSGT_CACHE, MSGL_DBG2, "CACHE2_SEEK: 0x%" PRIX64 " <= 0x%" PRIX64
" (0x%" PRIX64 ") <= 0x%" PRIX64 " \n",
s->min_filepos, pos, s->read_filepos, s->max_filepos);
cache->pos = s->read_filepos = pos;
s->eof = false; // so that cache_read() will actually wait for new data
pthread_cond_signal(&s->wakeup);
pthread_mutex_unlock(&s->mutex);
return 1;
}
static int cache_control(stream_t *cache, int cmd, void *arg)
{
struct priv *s = cache->priv;
int r = STREAM_ERROR;
assert(cmd > 0);
pthread_mutex_lock(&s->mutex);
r = cache_get_cached_control(cache, cmd, arg);
if (r != STREAM_ERROR)
goto done;
mp_msg(MSGT_CACHE, MSGL_V, "[cache] blocking for STREAM_CTRL %d\n", cmd);
s->control = cmd;
s->control_arg = arg;
double retry = 0;
while (s->control != CACHE_CTRL_NONE) {
if (cache_wakeup_and_wait(s, &retry) == CACHE_INTERRUPTED) {
s->eof = 1;
r = STREAM_UNSUPPORTED;
goto done;
}
}
r = s->control_res;
if (s->control_flush) {
cache->pos = s->read_filepos;
cache->eof = 0;
cache->buf_pos = cache->buf_len = 0;
}
done:
pthread_mutex_unlock(&s->mutex);
return r;
}
static void cache_uninit(stream_t *cache)
{
struct priv *s = cache->priv;
if (s->cache_thread_running) {
mp_msg(MSGT_CACHE, MSGL_V, "Terminating cache...\n");
pthread_mutex_lock(&s->mutex);
s->control = CACHE_CTRL_QUIT;
pthread_cond_signal(&s->wakeup);
pthread_mutex_unlock(&s->mutex);
pthread_join(s->cache_thread, NULL);
}
pthread_mutex_destroy(&s->mutex);
pthread_cond_destroy(&s->wakeup);
free(s->buffer);
free(s->bm);
talloc_free(s);
}
// return 1 on success, 0 if the function was interrupted and -1 on error, or
// if the cache is disabled
int stream_cache_init(stream_t *cache, stream_t *stream, int64_t size,
int64_t min, int64_t seek_limit)
{
if (size < 1)
return -1;
mp_tmsg(MSGT_NETWORK, MSGL_INFO, "Cache size set to %" PRId64 " KiB\n",
size / 1024);
if (size > SIZE_MAX) {
mp_msg(MSGT_CACHE, MSGL_FATAL,
"Cache size larger than max. allocation size\n");
return -1;
}
struct priv *s = talloc_zero(NULL, struct priv);
//64kb min_size
s->fill_limit = FFMAX(16 * 1024, BYTE_META_CHUNK_SIZE * 2);
s->buffer_size = FFMAX(size, s->fill_limit * 4);
s->back_size = s->buffer_size / 2;
s->buffer = malloc(s->buffer_size);
s->bm = malloc((s->buffer_size / BYTE_META_CHUNK_SIZE + 2) *
sizeof(struct byte_meta));
if (!s->buffer || !s->bm) {
mp_msg(MSGT_CACHE, MSGL_ERR, "Failed to allocate cache buffer.\n");
free(s->buffer);
free(s->bm);
talloc_free(s);
return -1;
}
pthread_mutex_init(&s->mutex, NULL);
pthread_cond_init(&s->wakeup, NULL);
cache->priv = s;
s->cache = cache;
s->stream = stream;
cache->seek = cache_seek;
cache->fill_buffer = cache_fill_buffer;
cache->control = cache_control;
cache->close = cache_uninit;
s->seek_limit = seek_limit;
//make sure that we won't wait from cache_fill
//more data than it is allowed to fill
if (s->seek_limit > s->buffer_size - s->fill_limit)
s->seek_limit = s->buffer_size - s->fill_limit;
if (min > s->buffer_size - s->fill_limit)
min = s->buffer_size - s->fill_limit;
if (pthread_create(&s->cache_thread, NULL, cache_thread, s) != 0) {
mp_msg(MSGT_CACHE, MSGL_ERR, "Starting cache process/thread failed: %s.\n",
strerror(errno));
return -1;
}
s->cache_thread_running = true;
// wait until cache is filled at least prefill_init %
for (;;) {
if (stream_check_interrupt(0))
return 0;
int64_t fill;
int idle;
if (stream_control(s->cache, STREAM_CTRL_GET_CACHE_FILL, &fill) < 0)
break;
if (stream_control(s->cache, STREAM_CTRL_GET_CACHE_IDLE, &idle) < 0)
break;
mp_tmsg(MSGT_CACHE, MSGL_STATUS, "\rCache fill: %5.2f%% "
"(%" PRId64 " bytes) ", 100.0 * fill / s->buffer_size, fill);
if (fill >= min)
break;
if (idle)
break; // file is smaller than prefill size
// Wake up if the cache is done reading some data (or on timeout/abort)
pthread_mutex_lock(&s->mutex);
s->control = CACHE_CTRL_PING;
pthread_cond_signal(&s->wakeup);
cache_wakeup_and_wait(s, &(double){0});
pthread_mutex_unlock(&s->mutex);
}
mp_msg(MSGT_CACHE, MSGL_STATUS, "\n");
return 1;
}