* Copyright 2010-2012, Axel Dörfler, axeld@pinc-software.de.
* Copyright 2002-2003, Marcus Overhagen, <Marcus@Overhagen.de>.
* Distributed under the terms of the MIT License.
*/
#include <Buffer.h>
#include <BufferConsumer.h>
#include <BufferGroup.h>
#include <BufferProducer.h>
#include "MediaDebug.h"
#include "DataExchange.h"
#include "MediaMisc.h"
BBufferProducer::~BBufferProducer()
{
CALLED();
}
status_t
BBufferProducer::ClipDataToRegion(int32 format, int32 size, const void* data,
BRegion* region)
{
CALLED();
if (format != B_CLIP_SHORT_RUNS)
return B_MEDIA_BAD_CLIP_FORMAT;
return clip_shorts_to_region((const int16*)data, size / sizeof(int16),
region);
}
media_type
BBufferProducer::ProducerType()
{
CALLED();
return fProducerType;
}
BBufferProducer::BBufferProducer(media_type producer_type)
:
BMediaNode("called by BBufferProducer"),
fProducerType(producer_type),
fInitialLatency(0),
fInitialFlags(0),
fDelay(0)
{
CALLED();
AddNodeKind(B_BUFFER_PRODUCER);
}
status_t
BBufferProducer::VideoClippingChanged(const media_source& source,
int16 numShorts, int16* clipData, const media_video_display_info& display,
int32* )
{
CALLED();
return B_ERROR;
}
status_t
BBufferProducer::GetLatency(bigtime_t* _latency)
{
CALLED();
int32 cookie;
bigtime_t latency;
media_output output;
media_node_id unused;
*_latency = 0;
cookie = 0;
while (GetNextOutput(&cookie, &output) == B_OK) {
if (output.destination == media_destination::null)
continue;
if (output.node.node == fNodeID) {
if (fConsumerThis == NULL)
fConsumerThis = dynamic_cast<BBufferConsumer*>(this);
if (fConsumerThis == NULL)
continue;
latency = 0;
if (fConsumerThis->GetLatencyFor(output.destination, &latency,
&unused) == B_OK && latency > *_latency) {
*_latency = latency;
}
} else if (FindLatencyFor(output.destination, &latency, &unused)
== B_OK && latency > *_latency) {
*_latency = latency;
}
}
printf("BBufferProducer::GetLatency: node %" B_PRId32 ", name \"%s\" has "
"max latency %" B_PRId64 "\n", fNodeID, fName, *_latency);
return B_OK;
}
status_t
BBufferProducer::SetPlayRate(int32 numer, int32 denom)
{
CALLED();
return B_ERROR;
}
status_t
BBufferProducer::HandleMessage(int32 message, const void* data, size_t size)
{
PRINT(4, "BBufferProducer::HandleMessage %#lx, node %ld\n", message,
fNodeID);
switch (message) {
case PRODUCER_SET_RUN_MODE_DELAY:
{
const producer_set_run_mode_delay_command* command
= static_cast<const producer_set_run_mode_delay_command*>(data);
fDelay = command->delay;
fRunMode = command->mode;
TRACE("PRODUCER_SET_RUN_MODE_DELAY: fDelay now %" B_PRId64 "\n",
fDelay);
SetRunMode(fRunMode);
return B_OK;
}
case PRODUCER_FORMAT_SUGGESTION_REQUESTED:
{
const producer_format_suggestion_requested_request* request
= static_cast<
const producer_format_suggestion_requested_request*>(data);
producer_format_suggestion_requested_reply reply;
status_t status = FormatSuggestionRequested(request->type,
request->quality, &reply.format);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_FORMAT_PROPOSAL:
{
const producer_format_proposal_request* request
= static_cast<const producer_format_proposal_request*>(data);
producer_format_proposal_reply reply;
reply.format = request->format;
status_t status = FormatProposal(request->output, &reply.format);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_PREPARE_TO_CONNECT:
{
const producer_prepare_to_connect_request* request
= static_cast<const producer_prepare_to_connect_request*>(data);
producer_prepare_to_connect_reply reply;
reply.format = request->format;
reply.out_source = request->source;
memcpy(reply.name, request->name, B_MEDIA_NAME_LENGTH);
status_t status = PrepareToConnect(request->source,
request->destination, &reply.format, &reply.out_source,
reply.name);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_CONNECT:
{
const producer_connect_request* request
= static_cast<const producer_connect_request*>(data);
producer_connect_reply reply;
memcpy(reply.name, request->name, B_MEDIA_NAME_LENGTH);
Connect(request->error, request->source, request->destination,
request->format, reply.name);
request->SendReply(B_OK, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_DISCONNECT:
{
const producer_disconnect_request* request
= static_cast<const producer_disconnect_request*>(data);
producer_disconnect_reply reply;
Disconnect(request->source, request->destination);
request->SendReply(B_OK, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_GET_INITIAL_LATENCY:
{
const producer_get_initial_latency_request* request
= static_cast<
const producer_get_initial_latency_request*>(data);
producer_get_initial_latency_reply reply;
reply.initial_latency = fInitialLatency;
reply.flags = fInitialFlags;
request->SendReply(B_OK, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_SET_PLAY_RATE:
{
const producer_set_play_rate_request* request
= static_cast<const producer_set_play_rate_request*>(data);
producer_set_play_rate_reply reply;
status_t status = SetPlayRate(request->numer, request->denom);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_GET_LATENCY:
{
const producer_get_latency_request* request
= static_cast<const producer_get_latency_request*>(data);
producer_get_latency_reply reply;
status_t status = GetLatency(&reply.latency);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_GET_NEXT_OUTPUT:
{
const producer_get_next_output_request* request
= static_cast<const producer_get_next_output_request*>(data);
producer_get_next_output_reply reply;
reply.cookie = request->cookie;
status_t status = GetNextOutput(&reply.cookie, &reply.output);
request->SendReply(status, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_DISPOSE_OUTPUT_COOKIE:
{
const producer_dispose_output_cookie_request*request
= static_cast<
const producer_dispose_output_cookie_request*>(data);
producer_dispose_output_cookie_reply reply;
DisposeOutputCookie(request->cookie);
request->SendReply(B_OK, &reply, sizeof(reply));
return B_OK;
}
case PRODUCER_SET_BUFFER_GROUP:
{
const producer_set_buffer_group_command* command
= static_cast<const producer_set_buffer_group_command*>(data);
node_request_completed_command replycommand;
BBufferGroup *group;
group = command->buffer_count != 0
? new BBufferGroup(command->buffer_count, command->buffers)
: NULL;
if (group != NULL && group->InitCheck() != B_OK) {
ERROR("BBufferProducer::HandleMessage PRODUCER_SET_BUFFER_GROUP"
" group InitCheck() failed.\n");
delete group;
group = NULL;
}
status_t status = SetBufferGroup(command->source, group);
if (command->destination == media_destination::null)
return B_OK;
replycommand.info.what
= media_request_info::B_SET_OUTPUT_BUFFERS_FOR;
replycommand.info.change_tag = command->change_tag;
replycommand.info.status = status;
replycommand.info.cookie = group;
replycommand.info.user_data = command->user_data;
replycommand.info.source = command->source;
replycommand.info.destination = command->destination;
SendToPort(command->destination.port, NODE_REQUEST_COMPLETED,
&replycommand, sizeof(replycommand));
return B_OK;
}
case PRODUCER_FORMAT_CHANGE_REQUESTED:
{
const producer_format_change_requested_command* command
= static_cast<
const producer_format_change_requested_command*>(data);
node_request_completed_command replycommand;
replycommand.info.format = command->format;
status_t status = FormatChangeRequested(command->source,
command->destination, &replycommand.info.format, NULL);
if (command->destination == media_destination::null)
return B_OK;
replycommand.info.what
= media_request_info::B_REQUEST_FORMAT_CHANGE;
replycommand.info.change_tag = command->change_tag;
replycommand.info.status = status;
replycommand.info.user_data = command->user_data;
replycommand.info.source = command->source;
replycommand.info.destination = command->destination;
SendToPort(command->destination.port, NODE_REQUEST_COMPLETED,
&replycommand, sizeof(replycommand));
return B_OK;
}
case PRODUCER_VIDEO_CLIPPING_CHANGED:
{
const producer_video_clipping_changed_command* command
= static_cast<
const producer_video_clipping_changed_command*>(data);
node_request_completed_command replycommand;
status_t status = VideoClippingChanged(command->source,
command->short_count, (int16 *)command->shorts,
command->display, NULL);
if (command->destination == media_destination::null)
return B_OK;
replycommand.info.what
= media_request_info::B_SET_VIDEO_CLIPPING_FOR;
replycommand.info.change_tag = command->change_tag;
replycommand.info.status = status;
replycommand.info.user_data = command->user_data;
replycommand.info.source = command->source;
replycommand.info.destination = command->destination;
replycommand.info.format.type = B_MEDIA_RAW_VIDEO;
replycommand.info.format.u.raw_video.display = command->display;
SendToPort(command->destination.port, NODE_REQUEST_COMPLETED,
&replycommand, sizeof(replycommand));
return B_OK;
}
case PRODUCER_ADDITIONAL_BUFFER_REQUESTED:
{
const producer_additional_buffer_requested_command* command
= static_cast<
const producer_additional_buffer_requested_command*>(data);
AdditionalBufferRequested(command->source, command->prev_buffer,
command->prev_time, command->has_seek_tag
? &command->prev_tag : NULL);
return B_OK;
}
case PRODUCER_LATENCY_CHANGED:
{
const producer_latency_changed_command* command
= static_cast<const producer_latency_changed_command*>(data);
LatencyChanged(command->source, command->destination,
command->latency, command->flags);
return B_OK;
}
case PRODUCER_LATE_NOTICE_RECEIVED:
{
const producer_late_notice_received_command* command
= static_cast<
const producer_late_notice_received_command*>(data);
LateNoticeReceived(command->source, command->how_much,
command->performance_time);
return B_OK;
}
case PRODUCER_ENABLE_OUTPUT:
{
const producer_enable_output_command* command
= static_cast<const producer_enable_output_command*>(data);
node_request_completed_command replycommand;
EnableOutput(command->source, command->enabled, NULL);
if (command->destination == media_destination::null)
return B_OK;
replycommand.info.what = media_request_info::B_SET_OUTPUT_ENABLED;
replycommand.info.change_tag = command->change_tag;
replycommand.info.status = B_OK;
replycommand.info.user_data = command->user_data;
replycommand.info.source = command->source;
replycommand.info.destination = command->destination;
SendToPort(command->destination.port, NODE_REQUEST_COMPLETED,
&replycommand, sizeof(replycommand));
return B_OK;
}
}
return B_ERROR;
}
void
BBufferProducer::AdditionalBufferRequested(const media_source& source,
media_buffer_id previousBuffer, bigtime_t previousTime,
const media_seek_tag* previousTag)
{
CALLED();
}
void
BBufferProducer::LatencyChanged(const media_source& source,
const media_destination& destination, bigtime_t newLatency, uint32 flags)
{
CALLED();
}
status_t
BBufferProducer::SendBuffer(BBuffer* buffer, const media_source& source,
const media_destination& destination)
{
CALLED();
if (destination == media_destination::null)
return B_MEDIA_BAD_DESTINATION;
if (source == media_source::null)
return B_MEDIA_BAD_SOURCE;
if (buffer == NULL)
return B_BAD_VALUE;
consumer_buffer_received_command command;
command.buffer = buffer->ID();
command.header = *buffer->Header();
command.header.buffer = command.buffer;
command.header.source_port = source.port;
command.header.source = source.id;
command.header.destination = destination.id;
command.header.owner = 0;
command.header.start_time += fDelay;
return SendToPort(destination.port, CONSUMER_BUFFER_RECEIVED, &command,
sizeof(command));
}
status_t
BBufferProducer::SendDataStatus(int32 status,
const media_destination& destination, bigtime_t atTime)
{
CALLED();
if (IS_INVALID_DESTINATION(destination))
return B_MEDIA_BAD_DESTINATION;
consumer_producer_data_status_command command;
command.for_whom = destination;
command.status = status;
command.at_performance_time = atTime;
return SendToPort(destination.port, CONSUMER_PRODUCER_DATA_STATUS, &command,
sizeof(command));
}
status_t
BBufferProducer::ProposeFormatChange(media_format* format,
const media_destination& destination)
{
CALLED();
if (IS_INVALID_DESTINATION(destination))
return B_MEDIA_BAD_DESTINATION;
consumer_accept_format_request request;
consumer_accept_format_reply reply;
request.dest = destination;
request.format = *format;
status_t status = QueryPort(destination.port, CONSUMER_ACCEPT_FORMAT,
&request, sizeof(request), &reply, sizeof(reply));
if (status != B_OK)
return status;
*format = reply.format;
return B_OK;
}
status_t
BBufferProducer::ChangeFormat(const media_source& source,
const media_destination& destination, media_format* format)
{
CALLED();
if (IS_INVALID_SOURCE(source))
return B_MEDIA_BAD_SOURCE;
if (IS_INVALID_DESTINATION(destination))
return B_MEDIA_BAD_DESTINATION;
consumer_format_changed_request request;
consumer_format_changed_reply reply;
request.producer = source;
request.consumer = destination;
request.format = *format;
return QueryPort(destination.port, CONSUMER_FORMAT_CHANGED, &request,
sizeof(request), &reply, sizeof(reply));
}
status_t
BBufferProducer::FindLatencyFor(const media_destination& destination,
bigtime_t* _latency, media_node_id* _timesource)
{
CALLED();
if (IS_INVALID_DESTINATION(destination))
return B_MEDIA_BAD_DESTINATION;
consumer_get_latency_for_request request;
consumer_get_latency_for_reply reply;
request.for_whom = destination;
status_t status = QueryPort(destination.port, CONSUMER_GET_LATENCY_FOR,
&request, sizeof(request), &reply, sizeof(reply));
if (status != B_OK)
return status;
*_latency = reply.latency;
*_timesource = reply.timesource;
return B_OK;
}
status_t
BBufferProducer::FindSeekTag(const media_destination& destination,
bigtime_t targetTime, media_seek_tag* _tag, bigtime_t* _tagged_time,
uint32* _flags, uint32 flags)
{
CALLED();
if (IS_INVALID_DESTINATION(destination))
return B_MEDIA_BAD_DESTINATION;
consumer_seek_tag_requested_request request;
consumer_seek_tag_requested_reply reply;
request.destination = destination;
request.target_time = targetTime;
request.flags = flags;
status_t status = QueryPort(destination.port, CONSUMER_SEEK_TAG_REQUESTED,
&request, sizeof(request), &reply, sizeof(reply));
if (status != B_OK)
return status;
*_tag = reply.seek_tag;
*_tagged_time = reply.tagged_time;
*_flags = reply.flags;
return B_OK;
}
void
BBufferProducer::SetInitialLatency(bigtime_t initialLatency, uint32 flags)
{
fInitialLatency = initialLatency;
fInitialFlags = flags;
}
private unimplemented
BBufferProducer::BBufferProducer()
BBufferProducer::BBufferProducer(const BBufferProducer &clone)
BBufferProducer & BBufferProducer::operator=(const BBufferProducer &clone)
*/
status_t BBufferProducer::_Reserved_BufferProducer_0(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_1(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_2(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_3(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_4(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_5(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_6(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_7(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_8(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_9(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_10(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_11(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_12(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_13(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_14(void*) { return B_ERROR; }
status_t BBufferProducer::_Reserved_BufferProducer_15(void*) { return B_ERROR; }
status_t
BBufferProducer::SendBuffer(BBuffer* buffer,
const media_destination& destination)
{
CALLED();
media_output output;
int32 cookie = 0;
status_t status = GetNextOutput(&cookie, &output);
if (status != B_OK)
return status;
return SendBuffer(buffer, output.source, destination);
}
status_t
BBufferProducer::clip_shorts_to_region(const int16* data, int count,
BRegion* output)
{
UNIMPLEMENTED();
return B_ERROR;
}
status_t
BBufferProducer::clip_region_to_shorts(const BRegion* input, int16* data,
int maxCount, int* _count)
{
UNIMPLEMENTED();
return B_ERROR;
}
