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/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
* Copyright (C) 2019, Google Inc.
*
* ipa_context_wrapper.cpp - Image Processing Algorithm context wrapper
*/
#include "libcamera/internal/ipa_context_wrapper.h"
#include <vector>
#include <libcamera/controls.h>
#include "libcamera/internal/byte_stream_buffer.h"
#include "libcamera/internal/camera_sensor.h"
#include "libcamera/internal/utils.h"
/**
* \file ipa_context_wrapper.h
* \brief Image Processing Algorithm context wrapper
*/
namespace libcamera {
/**
* \class IPAContextWrapper
* \brief Wrap an ipa_context and expose it as an IPAInterface
*
* The IPAContextWrapper class wraps an ipa_context, provided by an IPA module, and
* exposes an IPAInterface. This mechanism is used for IPAs that are not
* isolated in a separate process to allow direct calls from pipeline handler
* using the IPAInterface API instead of the lower-level ipa_context API.
*
* The IPAInterface methods are converted to the ipa_context API by translating
* all C++ arguments into plain C structures or byte arrays that contain no
* pointer, as required by the ipa_context API.
*/
/**
* \brief Construct an IPAContextWrapper instance that wraps the \a context
* \param[in] context The IPA module context
*
* Ownership of the \a context is passed to the IPAContextWrapper. The context remains
* valid for the whole lifetime of the wrapper and is destroyed automatically
* with it.
*/
IPAContextWrapper::IPAContextWrapper(struct ipa_context *context)
: ctx_(context), intf_(nullptr)
{
if (!ctx_)
return;
bool forceCApi = !!utils::secure_getenv("LIBCAMERA_IPA_FORCE_C_API");
if (!forceCApi && ctx_ && ctx_->ops->get_interface) {
intf_ = reinterpret_cast<IPAInterface *>(ctx_->ops->get_interface(ctx_));
intf_->queueFrameAction.connect(this, &IPAContextWrapper::doQueueFrameAction);
return;
}
ctx_->ops->register_callbacks(ctx_, &IPAContextWrapper::callbacks_,
this);
}
IPAContextWrapper::~IPAContextWrapper()
{
if (!ctx_)
return;
ctx_->ops->destroy(ctx_);
}
int IPAContextWrapper::init(const IPASettings &settings)
{
if (intf_)
return intf_->init(settings);
if (!ctx_)
return 0;
struct ipa_settings c_settings;
c_settings.configuration_file = settings.configurationFile.c_str();
ctx_->ops->init(ctx_, &c_settings);
return 0;
}
int IPAContextWrapper::start()
{
if (intf_)
return intf_->start();
if (!ctx_)
return 0;
return ctx_->ops->start(ctx_);
}
void IPAContextWrapper::stop()
{
if (intf_)
return intf_->stop();
if (!ctx_)
return;
ctx_->ops->stop(ctx_);
}
void IPAContextWrapper::configure(const CameraSensorInfo &sensorInfo,
const std::map<unsigned int, IPAStream> &streamConfig,
const std::map<unsigned int, const ControlInfoMap &> &entityControls,
const IPAOperationData &ipaConfig,
IPAOperationData *result)
{
if (intf_)
return intf_->configure(sensorInfo, streamConfig,
entityControls, ipaConfig, result);
if (!ctx_)
return;
serializer_.reset();
/* Translate the camera sensor info. */
struct ipa_sensor_info sensor_info = {};
sensor_info.model = sensorInfo.model.c_str();
sensor_info.bits_per_pixel = sensorInfo.bitsPerPixel;
sensor_info.active_area.width = sensorInfo.activeAreaSize.width;
sensor_info.active_area.height = sensorInfo.activeAreaSize.height;
sensor_info.analog_crop.left = sensorInfo.analogCrop.x;
sensor_info.analog_crop.top = sensorInfo.analogCrop.y;
sensor_info.analog_crop.width = sensorInfo.analogCrop.width;
sensor_info.analog_crop.height = sensorInfo.analogCrop.height;
sensor_info.output_size.width = sensorInfo.outputSize.width;
sensor_info.output_size.height = sensorInfo.outputSize.height;
sensor_info.pixel_rate = sensorInfo.pixelRate;
sensor_info.line_length = sensorInfo.lineLength;
/* Translate the IPA stream configurations map. */
struct ipa_stream c_streams[streamConfig.size()];
unsigned int i = 0;
for (const auto &stream : streamConfig) {
struct ipa_stream *c_stream = &c_streams[i];
unsigned int id = stream.first;
const IPAStream &ipaStream = stream.second;
c_stream->id = id;
c_stream->pixel_format = ipaStream.pixelFormat;
c_stream->width = ipaStream.size.width;
c_stream->height = ipaStream.size.height;
++i;
}
/* Translate the IPA entity controls map. */
struct ipa_control_info_map c_info_maps[entityControls.size()];
std::vector<std::vector<uint8_t>> data(entityControls.size());
i = 0;
for (const auto &info : entityControls) {
struct ipa_control_info_map &c_info_map = c_info_maps[i];
unsigned int id = info.first;
const ControlInfoMap &infoMap = info.second;
size_t infoMapSize = serializer_.binarySize(infoMap);
data[i].resize(infoMapSize);
ByteStreamBuffer byteStream(data[i].data(), data[i].size());
serializer_.serialize(infoMap, byteStream);
c_info_map.id = id;
c_info_map.data = byteStream.base();
c_info_map.size = byteStream.size();
++i;
}
/* \todo Translate the ipaConfig and reponse */
ctx_->ops->configure(ctx_, &sensor_info, c_streams, streamConfig.size(),
c_info_maps, entityControls.size());
}
void IPAContextWrapper::mapBuffers(const std::vector<IPABuffer> &buffers)
{
if (intf_)
return intf_->mapBuffers(buffers);
if (!ctx_)
return;
struct ipa_buffer c_buffers[buffers.size()];
for (unsigned int i = 0; i < buffers.size(); ++i) {
struct ipa_buffer &c_buffer = c_buffers[i];
const IPABuffer &buffer = buffers[i];
const std::vector<FrameBuffer::Plane> &planes = buffer.planes;
c_buffer.id = buffer.id;
c_buffer.num_planes = planes.size();
for (unsigned int j = 0; j < planes.size(); ++j) {
const FrameBuffer::Plane &plane = planes[j];
c_buffer.planes[j].dmabuf = plane.fd.fd();
c_buffer.planes[j].length = plane.length;
}
}
ctx_->ops->map_buffers(ctx_, c_buffers, buffers.size());
}
void IPAContextWrapper::unmapBuffers(const std::vector<unsigned int> &ids)
{
if (intf_)
return intf_->unmapBuffers(ids);
if (!ctx_)
return;
ctx_->ops->unmap_buffers(ctx_, ids.data(), ids.size());
}
void IPAContextWrapper::processEvent(const IPAOperationData &data)
{
if (intf_)
return intf_->processEvent(data);
if (!ctx_)
return;
struct ipa_operation_data c_data;
c_data.operation = data.operation;
c_data.data = data.data.data();
c_data.num_data = data.data.size();
struct ipa_control_list control_lists[data.controls.size()];
c_data.lists = control_lists;
c_data.num_lists = data.controls.size();
std::size_t listsSize = 0;
for (const auto &list : data.controls)
listsSize += serializer_.binarySize(list);
std::vector<uint8_t> binaryData(listsSize);
ByteStreamBuffer byteStreamBuffer(binaryData.data(), listsSize);
unsigned int i = 0;
for (const auto &list : data.controls) {
struct ipa_control_list &c_list = control_lists[i];
c_list.size = serializer_.binarySize(list);
ByteStreamBuffer b = byteStreamBuffer.carveOut(c_list.size);
serializer_.serialize(list, b);
c_list.data = b.base();
}
ctx_->ops->process_event(ctx_, &c_data);
}
void IPAContextWrapper::doQueueFrameAction(unsigned int frame,
const IPAOperationData &data)
{
IPAInterface::queueFrameAction.emit(frame, data);
}
void IPAContextWrapper::queue_frame_action(void *ctx, unsigned int frame,
struct ipa_operation_data &data)
{
IPAContextWrapper *_this = static_cast<IPAContextWrapper *>(ctx);
IPAOperationData opData;
opData.operation = data.operation;
for (unsigned int i = 0; i < data.num_data; ++i)
opData.data.push_back(data.data[i]);
for (unsigned int i = 0; i < data.num_lists; ++i) {
const struct ipa_control_list &c_list = data.lists[i];
ByteStreamBuffer b(c_list.data, c_list.size);
opData.controls.push_back(_this->serializer_.deserialize<ControlList>(b));
}
_this->doQueueFrameAction(frame, opData);
}
#ifndef __DOXYGEN__
/*
* This construct confuses Doxygen and makes it believe that all members of the
* operations is a member of IPAContextWrapper. It must thus be hidden.
*/
const struct ipa_callback_ops IPAContextWrapper::callbacks_ = {
.queue_frame_action = &IPAContextWrapper::queue_frame_action,
};
#endif
} /* namespace libcamera */
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