libcamera/vivid.git - libcamera pipeline handler for VIVID

Age	Commit message (Expand)	Author
2020-03-20	test: controls: control_value: Test string control type	Laurent Pinchart
2020-03-06	test: controls: control_value: Expand test to cover array controls	Laurent Pinchart
2020-03-06	test: controls: control_value: Expand test to cover all control types	Laurent Pinchart
2019-10-04	libcamera: controls: Use explicit 32-bit integer types	Laurent Pinchart
2019-10-04	libcamera: controls: Make ControlValue get/set accessors template methods	Laurent Pinchart
2019-07-02	libcamera: test: Add ControlValue test	Kieran Bingham

/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2022, Ideas on Board Oy * * capture_script.cpp - Capture session configuration script */ #include "capture_script.h" #include <iostream> #include <stdio.h> #include <stdlib.h> using namespace libcamera; CaptureScript::CaptureScript(std::shared_ptr<Camera> camera, const std::string &fileName) : camera_(camera), loop_(0), valid_(false) { FILE *fh = fopen(fileName.c_str(), "r"); if (!fh) { int ret = -errno; std::cerr << "Failed to open capture script " << fileName << ": " << strerror(-ret) << std::endl; return; } /* * Map the camera's controls to their name so that they can be * easily identified when parsing the script file. */ for (const auto &[control, info] : camera_->controls()) controls_[control->name()] = control; int ret = parseScript(fh); fclose(fh); if (ret) return; valid_ = true; } /* Retrieve the control list associated with a frame number. */ const ControlList &CaptureScript::frameControls(unsigned int frame) { static ControlList controls{}; unsigned int idx = frame; /* If we loop, repeat the controls every 'loop_' frames. */ if (loop_) idx = frame % loop_; auto it = frameControls_.find(idx); if (it == frameControls_.end()) return controls; return it->second; } CaptureScript::EventPtr CaptureScript::nextEvent(yaml_event_type_t expectedType) { EventPtr event(new yaml_event_t); if (!yaml_parser_parse(&parser_, event.get())) return nullptr; if (expectedType != YAML_NO_EVENT && !checkEvent(event, expectedType)) return nullptr; return event; } bool CaptureScript::checkEvent(const EventPtr &event, yaml_event_type_t expectedType) const { if (event->type != expectedType) { std::cerr << "Capture script error on line " << event->start_mark.line << " column " << event->start_mark.column << ": " << "Expected " << eventTypeName(expectedType) << " event, got " << eventTypeName(event->type) << std::endl; return false; } return true; } std::string CaptureScript::eventScalarValue(const EventPtr &event) { return std::string(reinterpret_cast<char *>(event->data.scalar.value), event->data.scalar.length); } std::string CaptureScript::eventTypeName(yaml_event_type_t type) { static const std::map<yaml_event_type_t, std::string> typeNames = { { YAML_STREAM_START_EVENT, "stream-start" }, { YAML_STREAM_END_EVENT, "stream-end" }, { YAML_DOCUMENT_START_EVENT, "document-start" }, { YAML_DOCUMENT_END_EVENT, "document-end" }, { YAML_ALIAS_EVENT, "alias" }, { YAML_SCALAR_EVENT, "scalar" }, { YAML_SEQUENCE_START_EVENT, "sequence-start" }, { YAML_SEQUENCE_END_EVENT, "sequence-end" }, { YAML_MAPPING_START_EVENT, "mapping-start" }, { YAML_MAPPING_END_EVENT, "mapping-end" }, }; auto it = typeNames.find(type); if (it == typeNames.end()) return "[type " + std::to_string(type) + "]"; return it->second; } int CaptureScript::parseScript(FILE *script) { int ret = yaml_parser_initialize(&parser_); if (!ret) { std::cerr << "Failed to initialize yaml parser" << std::endl; return ret; } /* Delete the parser upon function exit. */ struct ParserDeleter { ParserDeleter(yaml_parser_t *parser) : parser_(parser) { } ~ParserDeleter() { yaml_parser_delete(parser_); } yaml_parser_t *parser_; } deleter(&parser_); yaml_parser_set_input_file(&parser_, script); EventPtr event = nextEvent(YAML_STREAM_START_EVENT); if (!event) return -EINVAL; event = nextEvent(YAML_DOCUMENT_START_EVENT); if (!event) return -EINVAL; event = nextEvent(YAML_MAPPING_START_EVENT); if (!event) return -EINVAL; while (1) { event = nextEvent(); if (!event) return -EINVAL; if (event->type == YAML_MAPPING_END_EVENT) return 0; if (!checkEvent(event, YAML_SCALAR_EVENT)) return -EINVAL; std::string section = eventScalarValue(event); if (section == "properties") { ret = parseProperties(); if (ret) return ret; } else if (section == "frames") { ret = parseFrames(); if (ret) return ret; } else { std::cerr << "Unsupported section '" << section << "'" << std::endl; return -EINVAL; } } } int CaptureScript::parseProperty() { EventPtr event = nextEvent(YAML_MAPPING_START_EVENT); if (!event) return -EINVAL; std::string prop = parseScalar(); if (prop.empty()) return -EINVAL; if (prop == "loop") { event = nextEvent(); if (!event) return -EINVAL; std::string value = eventScalarValue(event); if (value.empty()) return -EINVAL; loop_ = atoi(value.c_str()); if (!loop_) { std::cerr << "Invalid loop limit '" << loop_ << "'" << std::endl; return -EINVAL; } } else { std::cerr << "Unsupported property '" << prop << "'" << std::endl; return -EINVAL; } event = nextEvent(YAML_MAPPING_END_EVENT); if (!event) return -EINVAL; return 0; } int CaptureScript::parseProperties() { EventPtr event = nextEvent(YAML_SEQUENCE_START_EVENT); if (!event) return -EINVAL; while (1) { if (event->type == YAML_SEQUENCE_END_EVENT) return 0; int ret = parseProperty(); if (ret) return ret; event = nextEvent(); if (!event) return -EINVAL; } return 0; } int CaptureScript::parseFrames() { EventPtr event = nextEvent(YAML_SEQUENCE_START_EVENT); if (!event) return -EINVAL; while (1) { event = nextEvent(); if (!event) return -EINVAL; if (event->type == YAML_SEQUENCE_END_EVENT) return 0; int ret = parseFrame(std::move(event)); if (ret) return ret; } } int CaptureScript::parseFrame(EventPtr event) { if (!checkEvent(event, YAML_MAPPING_START_EVENT)) return -EINVAL; std::string key = parseScalar(); if (key.empty()) return -EINVAL; unsigned int frameId = atoi(key.c_str()); if (loop_ && frameId >= loop_) { std::cerr << "Frame id (" << frameId << ") shall be smaller than" << "loop limit (" << loop_ << ")" << std::endl; return -EINVAL; } event = nextEvent(YAML_MAPPING_START_EVENT); if (!event) return -EINVAL; ControlList controls{}; while (1) { event = nextEvent(); if (!event) return -EINVAL; if (event->type == YAML_MAPPING_END_EVENT) break; int ret = parseControl(std::move(event), controls); if (ret) return ret; } frameControls_[frameId] = std::move(controls); event = nextEvent(YAML_MAPPING_END_EVENT); if (!event) return -EINVAL; return 0; } int CaptureScript::parseControl(EventPtr event, ControlList &controls) { /* We expect a value after a key. */ std::string name = eventScalarValue(event); if (name.empty()) return -EINVAL; /* If the camera does not support the control just ignore it. */ auto it = controls_.find(name); if (it == controls_.end()) { std::cerr << "Unsupported control '" << name << "'" << std::endl; return -EINVAL; } const ControlId *controlId = it->second; ControlValue val = unpackControl(controlId); if (val.isNone()) { std::cerr << "Error unpacking control '" << name << "'" << std::endl; return -EINVAL; } controls.set(controlId->id(), val); return 0; } std::string CaptureScript::parseScalar() { EventPtr event = nextEvent(YAML_SCALAR_EVENT); if (!event) return ""; return eventScalarValue(event); } ControlValue CaptureScript::parseRectangles() { std::vector<libcamera::Rectangle> rectangles; std::vector<std::vector<std::string>> arrays = parseArrays(); if (arrays.empty()) return {}; for (const std::vector<std::string> &values : arrays) { if (values.size() != 4) { std::cerr << "Error parsing Rectangle: expected " << "array with 4 parameters" << std::endl; return {}; } Rectangle rect = unpackRectangle(values); rectangles.push_back(rect); } ControlValue controlValue; controlValue.set(Span<const Rectangle>(rectangles)); return controlValue; } std::vector<std::vector<std::string>> CaptureScript::parseArrays() { EventPtr event = nextEvent(YAML_SEQUENCE_START_EVENT); if (!event) return {}; event = nextEvent(); if (!event) return {}; std::vector<std::vector<std::string>> valueArrays; /* Parse single array. */ if (event->type == YAML_SCALAR_EVENT) { std::string firstValue = eventScalarValue(event); if (firstValue.empty()) return {}; std::vector<std::string> remaining = parseSingleArray(); std::vector<std::string> values = { firstValue }; values.insert(std::end(values), std::begin(remaining), std::end(remaining)); valueArrays.push_back(values); return valueArrays; } /* Parse array of arrays. */ while (1) { switch (event->type) { case YAML_SEQUENCE_START_EVENT: { std::vector<std::string> values = parseSingleArray(); valueArrays.push_back(values); break; } case YAML_SEQUENCE_END_EVENT: return valueArrays; default: return {}; } event = nextEvent(); if (!event) return {}; } } std::vector<std::string> CaptureScript::parseSingleArray() { std::vector<std::string> values; while (1) { EventPtr event = nextEvent(); if (!event) return {}; switch (event->type) { case YAML_SCALAR_EVENT: { std::string value = eventScalarValue(event); if (value.empty()) return {}; values.push_back(value); break; } case YAML_SEQUENCE_END_EVENT: return values; default: return {}; } } } void CaptureScript::unpackFailure(const ControlId *id, const std::string &repr) { static const std::map<unsigned int, const char *> typeNames = { { ControlTypeNone, "none" }, { ControlTypeBool, "bool" }, { ControlTypeByte, "byte" }, { ControlTypeInteger32, "int32" }, { ControlTypeInteger64, "int64" }, { ControlTypeFloat, "float" }, { ControlTypeString, "string" }, { ControlTypeRectangle, "Rectangle" }, { ControlTypeSize, "Size" }, }; const char *typeName; auto it = typeNames.find(id->type()); if (it != typeNames.end()) typeName = it->second; else typeName = "unknown"; std::cerr << "Unsupported control '" << repr << "' for " << typeName << " control " << id->name() << std::endl; } ControlValue CaptureScript::parseScalarControl(const ControlId *id, const std::string repr) { ControlValue value{}; switch (id->type()) { case ControlTypeNone: break; case ControlTypeBool: { bool val; if (repr == "true") { val = true; } else if (repr == "false") { val = false; } else { unpackFailure(id, repr); return value; } value.set<bool>(val); break; } case ControlTypeByte: { uint8_t val = strtol(repr.c_str(), NULL, 10); value.set<uint8_t>(val); break; } case ControlTypeInteger32: { int32_t val = strtol(repr.c_str(), NULL, 10); value.set<int32_t>(val); break; } case ControlTypeInteger64: { int64_t val = strtoll(repr.c_str(), NULL, 10); value.set<int64_t>(val); break; } case ControlTypeFloat: { float val = strtof(repr.c_str(), NULL); value.set<float>(val); break; } case ControlTypeString: { value.set<std::string>(repr); break; } default: std::cerr << "Unsupported control type" << std::endl; break; } return value; } ControlValue CaptureScript::parseArrayControl(const ControlId *id, const std::vector<std::string> &repr) { ControlValue value{}; switch (id->type()) { case ControlTypeNone: break; case ControlTypeBool: { /* * This is unpleasant, but we cannot use an std::vector<> as its * boolean type overload does not allow to access the raw data, * as boolean values are stored in a bitmask for efficiency. * * As we need a contiguous memory region to wrap in a Span<>, * use an array instead but be strict about not overflowing it * by limiting the number of controls we can store. * * Be loud but do not fail, as the issue would present at * runtime and it's not fatal. */ static constexpr unsigned int kMaxNumBooleanControls = 1024; std::array<bool, kMaxNumBooleanControls> values; unsigned int idx = 0; for (const std::string &s : repr) { bool val; if (s == "true") { val = true; } else if (s == "false") { val = false; } else { unpackFailure(id, s); return value; } if (idx == kMaxNumBooleanControls) { std::cerr << "Cannot parse more than " << kMaxNumBooleanControls << " boolean controls" << std::endl; break; } values[idx++] = val; } value = Span<bool>(values.data(), idx); break; } case ControlTypeByte: { std::vector<uint8_t> values; for (const std::string &s : repr) { uint8_t val = strtoll(s.c_str(), NULL, 10); values.push_back(val); } value = Span<const uint8_t>(values.data(), values.size()); break; } case ControlTypeInteger32: { std::vector<int32_t> values; for (const std::string &s : repr) { int32_t val = strtoll(s.c_str(), NULL, 10); values.push_back(val); } value = Span<const int32_t>(values.data(), values.size()); break; } case ControlTypeInteger64: { std::vector<int64_t> values; for (const std::string &s : repr) { int64_t val = strtoll(s.c_str(), NULL, 10); values.push_back(val); } value = Span<const int64_t>(values.data(), values.size()); break; } case ControlTypeFloat: { std::vector<float> values; for (const std::string &s : repr) values.push_back(strtof(s.c_str(), NULL)); value = Span<const float>(values.data(), values.size()); break; } case ControlTypeString: { value = Span<const std::string>(repr.data(), repr.size()); break; } default: std::cerr << "Unsupported control type" << std::endl; break; } return value; } ControlValue CaptureScript::unpackControl(const ControlId *id) { /* Parse complex types. */ switch (id->type()) { case ControlTypeRectangle: return parseRectangles(); case ControlTypeSize: /* \todo Parse Sizes. */ return {}; default: break; } /* Check if the control has a single scalar value or is an array. */ EventPtr event = nextEvent(); if (!event) return {}; switch (event->type) { case YAML_SCALAR_EVENT: { const std::string repr = eventScalarValue(event); if (repr.empty()) return {}; return parseScalarControl(id, repr); } case YAML_SEQUENCE_START_EVENT: { std::vector<std::string> array = parseSingleArray(); if (array.empty()) return {}; return parseArrayControl(id, array); } default: std::cerr << "Unexpected event type: " << event->type << std::endl; return {}; } } libcamera::Rectangle CaptureScript::unpackRectangle(const std::vector<std::string> &strVec) { int x = strtol(strVec[0].c_str(), NULL, 10); int y = strtol(strVec[1].c_str(), NULL, 10); unsigned int width = strtoul(strVec[2].c_str(), NULL, 10); unsigned int height = strtoul(strVec[3].c_str(), NULL, 10); return Rectangle(x, y, width, height); }