#include <sys/types.h>
#include <algorithm>
#include <string>
+#include <queue>
#include <vector>
#include "log.h"
using namespace std;
-Stream::Stream(const string &url, size_t backlog_size, size_t prebuffering_bytes, Encoding encoding)
+Stream::Stream(const string &url, size_t backlog_size, size_t prebuffering_bytes, Encoding encoding, Encoding src_encoding)
: url(url),
encoding(encoding),
+ src_encoding(src_encoding),
data_fd(make_tempfile("")),
backlog_size(backlog_size),
prebuffering_bytes(prebuffering_bytes),
bytes_received(0),
- last_suitable_starting_point(-1),
pacing_rate(~0U)
{
if (data_fd == -1) {
exit(1);
}
- assert(serialized.has_last_suitable_starting_point());
- last_suitable_starting_point = serialized.last_suitable_starting_point();
+ for (int i = 0; i < serialized.suitable_starting_point_size(); ++i) {
+ ssize_t point = serialized.suitable_starting_point(i);
+ if (point == -1) {
+ // Can happen when upgrading from before 1.1.3,
+ // where this was an optional field with -1 signifying
+ // "no such point".
+ continue;
+ }
+ suitable_starting_points.push_back(point);
+ }
pthread_mutex_init(&queued_data_mutex, NULL);
}
serialized.set_backlog_size(backlog_size);
serialized.set_prebuffering_bytes(prebuffering_bytes);
serialized.set_bytes_received(bytes_received);
- serialized.set_last_suitable_starting_point(last_suitable_starting_point);
+ for (size_t i = 0; i < suitable_starting_points.size(); ++i) {
+ serialized.add_suitable_starting_point(suitable_starting_points[i]);
+ }
serialized.set_url(url);
data_fd = -1;
return serialized;
DataElement data_element;
data_element.data.iov_base = const_cast<char *>(existing_data.data());
data_element.data.iov_len = existing_data.size();
- data_element.suitable_for_stream_start = NOT_SUITABLE_FOR_STREAM_START; // Ignored by add_data_raw().
+ data_element.metacube_flags = 0; // Ignored by add_data_raw().
vector<DataElement> data_elements;
data_elements.push_back(data_element);
add_data_raw(data_elements);
+ remove_obsolete_starting_points();
}
void Stream::put_client_to_sleep(Client *client)
vector<iovec> collect_iovecs(const vector<Stream::DataElement> &data, size_t bytes_wanted)
{
vector<iovec> ret;
- size_t max_iovecs = std::min<size_t>(data.size(), IOV_MAX);
+ size_t max_iovecs = min<size_t>(data.size(), IOV_MAX);
for (size_t i = 0; i < max_iovecs && bytes_wanted > 0; ++i) {
if (data[i].data.iov_len <= bytes_wanted) {
// Consume the entire iovec.
Stream::DataElement data_element;
data_element.data.iov_base = reinterpret_cast<char *>(data[i].data.iov_base) + bytes_wanted;
data_element.data.iov_len = data[i].data.iov_len - bytes_wanted;
- data_element.suitable_for_stream_start = NOT_SUITABLE_FOR_STREAM_START;
+ data_element.metacube_flags = METACUBE_FLAGS_NOT_SUITABLE_FOR_STREAM_START;
ret.push_back(data_element);
bytes_wanted = 0;
}
}
}
-void Stream::add_data_deferred(const char *data, size_t bytes, StreamStartSuitability suitable_for_stream_start)
+void Stream::remove_obsolete_starting_points()
{
+ // We could do a binary search here (std::lower_bound), but it seems
+ // overkill for removing what's probably only a few points.
+ while (!suitable_starting_points.empty() &&
+ bytes_received - suitable_starting_points[0] > backlog_size) {
+ suitable_starting_points.pop_front();
+ }
+}
+
+void Stream::add_data_deferred(const char *data, size_t bytes, uint16_t metacube_flags)
+{
+ // For regular output, we don't want to send the client twice
+ // (it's already sent out together with the HTTP header).
+ // However, for Metacube output, we need to send it so that
+ // the Cubemap instance in the other end has a chance to update it.
+ // It may come twice in its stream, but Cubemap doesn't care.
+ if (encoding == Stream::STREAM_ENCODING_RAW &&
+ (metacube_flags & METACUBE_FLAGS_HEADER) != 0) {
+ return;
+ }
+
MutexLock lock(&queued_data_mutex);
- assert(suitable_for_stream_start == SUITABLE_FOR_STREAM_START ||
- suitable_for_stream_start == NOT_SUITABLE_FOR_STREAM_START);
DataElement data_element;
- data_element.suitable_for_stream_start = suitable_for_stream_start;
+ data_element.metacube_flags = metacube_flags;
if (encoding == Stream::STREAM_ENCODING_METACUBE) {
// Add a Metacube block header before the data.
metacube2_block_header hdr;
memcpy(hdr.sync, METACUBE2_SYNC, sizeof(hdr.sync));
hdr.size = htonl(bytes);
- hdr.flags = htons(0);
- if (suitable_for_stream_start == NOT_SUITABLE_FOR_STREAM_START) {
- hdr.flags |= htons(METACUBE_FLAGS_NOT_SUITABLE_FOR_STREAM_START);
- }
+ hdr.flags = htons(metacube_flags);
hdr.csum = htons(metacube2_compute_crc(&hdr));
data_element.data.iov_base = new char[bytes + sizeof(hdr)];
void Stream::process_queued_data()
{
- std::vector<DataElement> queued_data_copy;
+ vector<DataElement> queued_data_copy;
// Hold the lock for as short as possible, since add_data_raw() can possibly
// write to disk, which might disturb the input thread.
swap(queued_data, queued_data_copy);
}
- // Update the last suitable starting point for the stream,
- // if the queued data contains such a starting point.
+ // Add suitable starting points for the stream, if the queued data
+ // contains such starting points. Note that we drop starting points
+ // if they're less than 10 kB apart, so that we don't get a huge
+ // amount of them for e.g. each and every MPEG-TS 188-byte cell.
+ // The 10 kB value is somewhat arbitrary, but at least it should make
+ // the RAM cost of saving the position ~0.1% (or less) of the actual
+ // data, and 10 kB is a very fine granularity in most streams.
+ static const int minimum_start_point_distance = 10240;
size_t byte_position = bytes_received;
for (size_t i = 0; i < queued_data_copy.size(); ++i) {
- if (queued_data_copy[i].suitable_for_stream_start == SUITABLE_FOR_STREAM_START) {
- last_suitable_starting_point = byte_position;
+ if ((queued_data_copy[i].metacube_flags & METACUBE_FLAGS_NOT_SUITABLE_FOR_STREAM_START) == 0) {
+ size_t num_points = suitable_starting_points.size();
+ if (num_points >= 2 &&
+ suitable_starting_points[num_points - 1] - suitable_starting_points[num_points - 2] < minimum_start_point_distance) {
+ // p[n-1] - p[n-2] < 10 kB, so drop p[n-1].
+ suitable_starting_points.pop_back();
+ }
+ suitable_starting_points.push_back(byte_position);
}
byte_position += queued_data_copy[i].data.iov_len;
}
add_data_raw(queued_data_copy);
+ remove_obsolete_starting_points();
for (size_t i = 0; i < queued_data_copy.size(); ++i) {
char *data = reinterpret_cast<char *>(queued_data_copy[i].data.iov_base);
delete[] data;