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libcamera/src/ipa/raspberrypi/cam_helper.cpp
Naushir Patuck cb4c5f3e44 ipa: raspberrypi: Allow full line length control 
Rename CamHelper::getVBlanking to CamHelper::getBlanking, and update the
calculations in that function to return both horizontal and vertical
blanking values for a given exposure time and frame duration limits. The
calculations are setup such that vertical blanking is extended to the
maximum allowable value, and any remainder gets put into horizontal
blanking.

The calculated horizontal blanking value is now returned to the pipeline
handler to pass into DelayedControls to program into the sensor.

Update the IPA to now specify the maximum frame duration from the
maximum horizontal + vertical blanking values provided by the sensor
mode. Additionally, the IPA now uses the frame specific horizontal
blanking value (as returned by DelayedControls) in all instances.

Signed-off-by: Naushir Patuck <naush@raspberrypi.com>
Tested-by: Dave Stevenson <dave.stevenson@raspberrypi.com>
Reviewed-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
Signed-off-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
2022-10-18 03:10:08 +03:00

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/* SPDX-License-Identifier: BSD-2-Clause */
/*
* Copyright (C) 2019, Raspberry Pi Ltd
*
* cam_helper.cpp - helper information for different sensors
*/
#include <linux/videodev2.h>
#include <limits>
#include <map>
#include <string.h>
#include "libcamera/internal/v4l2_videodevice.h"
#include "cam_helper.h"
#include "md_parser.h"
using namespace RPiController;
using namespace libcamera;
using libcamera::utils::Duration;
using namespace std::literals::chrono_literals;
namespace libcamera {
LOG_DECLARE_CATEGORY(IPARPI)
}
static std::map<std::string, CamHelperCreateFunc> camHelpers;
CamHelper *CamHelper::create(std::string const &camName)
{
/*
* CamHelpers get registered by static RegisterCamHelper
* initialisers.
*/
for (auto &p : camHelpers) {
if (camName.find(p.first) != std::string::npos)
return p.second();
}
return nullptr;
}
CamHelper::CamHelper(std::unique_ptr<MdParser> parser, unsigned int frameIntegrationDiff)
: parser_(std::move(parser)), frameIntegrationDiff_(frameIntegrationDiff)
{
}
CamHelper::~CamHelper()
{
}
void CamHelper::prepare(Span<const uint8_t> buffer,
Metadata &metadata)
{
parseEmbeddedData(buffer, metadata);
}
void CamHelper::process([[maybe_unused]] StatisticsPtr &stats,
[[maybe_unused]] Metadata &metadata)
{
}
uint32_t CamHelper::exposureLines(const Duration exposure, const Duration lineLength) const
{
return exposure / lineLength;
}
Duration CamHelper::exposure(uint32_t exposureLines, const Duration lineLength) const
{
return exposureLines * lineLength;
}
std::pair<uint32_t, uint32_t> CamHelper::getBlanking(Duration &exposure,
Duration minFrameDuration,
Duration maxFrameDuration) const
{
uint32_t frameLengthMin, frameLengthMax, vblank, hblank;
Duration lineLength = mode_.minLineLength;
/*
* minFrameDuration and maxFrameDuration are clamped by the caller
* based on the limits for the active sensor mode.
*
* frameLengthMax gets calculated on the smallest line length as we do
* not want to extend that unless absolutely necessary.
*/
frameLengthMin = minFrameDuration / mode_.minLineLength;
frameLengthMax = maxFrameDuration / mode_.minLineLength;
/*
* Watch out for (exposureLines + frameIntegrationDiff_) overflowing a
* uint32_t in the std::clamp() below when the exposure time is
* extremely (extremely!) long - as happens when the IPA calculates the
* maximum possible exposure time.
*/
uint32_t exposureLines = std::min(CamHelper::exposureLines(exposure, lineLength),
std::numeric_limits<uint32_t>::max() - frameIntegrationDiff_);
uint32_t frameLengthLines = std::clamp(exposureLines + frameIntegrationDiff_,
frameLengthMin, frameLengthMax);
/*
* If our frame length lines is above the maximum allowed, see if we can
* extend the line length to accommodate the requested frame length.
*/
if (frameLengthLines > mode_.maxFrameLength) {
Duration lineLengthAdjusted = lineLength * frameLengthLines / mode_.maxFrameLength;
lineLength = std::min(mode_.maxLineLength, lineLengthAdjusted);
frameLengthLines = mode_.maxFrameLength;
}
hblank = lineLengthToHblank(lineLength);
vblank = frameLengthLines - mode_.height;
/*
* Limit the exposure to the maximum frame duration requested, and
* re-calculate if it has been clipped.
*/
exposureLines = std::min(frameLengthLines - frameIntegrationDiff_,
CamHelper::exposureLines(exposure, lineLength));
exposure = CamHelper::exposure(exposureLines, lineLength);
return { vblank, hblank };
}
Duration CamHelper::hblankToLineLength(uint32_t hblank) const
{
return (mode_.width + hblank) * (1.0s / mode_.pixelRate);
}
uint32_t CamHelper::lineLengthToHblank(const Duration &lineLength) const
{
return (lineLength * mode_.pixelRate / 1.0s) - mode_.width;
}
Duration CamHelper::lineLengthPckToDuration(uint32_t lineLengthPck) const
{
return lineLengthPck * (1.0s / mode_.pixelRate);
}
void CamHelper::setCameraMode(const CameraMode &mode)
{
mode_ = mode;
if (parser_) {
parser_->reset();
parser_->setBitsPerPixel(mode.bitdepth);
parser_->setLineLengthBytes(0); /* We use SetBufferSize. */
}
}
void CamHelper::getDelays(int &exposureDelay, int &gainDelay,
int &vblankDelay, int &hblankDelay) const
{
/*
* These values are correct for many sensors. Other sensors will
* need to over-ride this function.
*/
exposureDelay = 2;
gainDelay = 1;
vblankDelay = 2;
hblankDelay = 2;
}
bool CamHelper::sensorEmbeddedDataPresent() const
{
return false;
}
double CamHelper::getModeSensitivity([[maybe_unused]] const CameraMode &mode) const
{
/*
* Most sensors have the same sensitivity in every mode, but this
* function can be overridden for those that do not. Note that it is
* called before mode_ is set, so it must return the sensitivity
* of the mode that is passed in.
*/
return 1.0;
}
unsigned int CamHelper::hideFramesStartup() const
{
/*
* The number of frames when a camera first starts that shouldn't be
* displayed as they are invalid in some way.
*/
return 0;
}
unsigned int CamHelper::hideFramesModeSwitch() const
{
/* After a mode switch, many sensors return valid frames immediately. */
return 0;
}
unsigned int CamHelper::mistrustFramesStartup() const
{
/* Many sensors return a single bad frame on start-up. */
return 1;
}
unsigned int CamHelper::mistrustFramesModeSwitch() const
{
/* Many sensors return valid metadata immediately. */
return 0;
}
void CamHelper::parseEmbeddedData(Span<const uint8_t> buffer,
Metadata &metadata)
{
MdParser::RegisterMap registers;
Metadata parsedMetadata;
if (buffer.empty())
return;
if (parser_->parse(buffer, registers) != MdParser::Status::OK) {
LOG(IPARPI, Error) << "Embedded data buffer parsing failed";
return;
}
populateMetadata(registers, parsedMetadata);
metadata.merge(parsedMetadata);
/*
* Overwrite the exposure/gain, frame length and sensor temperature values
* in the existing DeviceStatus with values from the parsed embedded buffer.
* Fetch it first in case any other fields were set meaningfully.
*/
DeviceStatus deviceStatus, parsedDeviceStatus;
if (metadata.get("device.status", deviceStatus) ||
parsedMetadata.get("device.status", parsedDeviceStatus)) {
LOG(IPARPI, Error) << "DeviceStatus not found";
return;
}
deviceStatus.shutterSpeed = parsedDeviceStatus.shutterSpeed;
deviceStatus.analogueGain = parsedDeviceStatus.analogueGain;
deviceStatus.frameLength = parsedDeviceStatus.frameLength;
if (parsedDeviceStatus.sensorTemperature)
deviceStatus.sensorTemperature = parsedDeviceStatus.sensorTemperature;
LOG(IPARPI, Debug) << "Metadata updated - " << deviceStatus;
metadata.set("device.status", deviceStatus);
}
void CamHelper::populateMetadata([[maybe_unused]] const MdParser::RegisterMap &registers,
[[maybe_unused]] Metadata &metadata) const
{
}
RegisterCamHelper::RegisterCamHelper(char const *camName,
CamHelperCreateFunc createFunc)
{
camHelpers[std::string(camName)] = createFunc;
}
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