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295 lines
8.9 KiB
C++
295 lines
8.9 KiB
C++
#include "communication.hpp"
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#include "ch.h"
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#include "hal.h"
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#include "periph/adc.hpp"
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#include "periph/dac.hpp"
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#include "periph/usbserial.hpp"
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#include "elfload.hpp"
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#include "error.hpp"
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#include "conversion.hpp"
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#include "runstatus.hpp"
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#include "samples.hpp"
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#include <algorithm>
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#include <tuple>
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__attribute__((section(".stacks")))
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std::array<char, 4096> CommunicationManager::m_thread_stack = {};
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void CommunicationManager::begin()
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{
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chThdCreateStatic(m_thread_stack.data(),
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m_thread_stack.size(),
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NORMALPRIO,
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threadComm,
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nullptr);
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}
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static void writeADCBuffer(unsigned char *);
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static void setBufferSize(unsigned char *);
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static void updateGenerator(unsigned char *);
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static void loadAlgorithm(unsigned char *);
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static void readStatus(unsigned char *);
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static void startConversionMeasure(unsigned char *);
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static void startConversion(unsigned char *);
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static void stopConversion(unsigned char *);
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static void startGenerator(unsigned char *);
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static void readADCBuffer(unsigned char *);
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static void readDACBuffer(unsigned char *);
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static void unloadAlgorithm(unsigned char *);
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static void readIdentifier(unsigned char *);
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static void readExecTime(unsigned char *);
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static void sampleRate(unsigned char *);
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static void readConversionResults(unsigned char *);
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static void readConversionInput(unsigned char *);
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static void readMessage(unsigned char *);
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static void stopGenerator(unsigned char *);
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static const std::array<std::pair<char, void (*)(unsigned char *)>, 19> commandTable {{
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{'A', writeADCBuffer},
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{'B', setBufferSize},
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{'D', updateGenerator},
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{'E', loadAlgorithm},
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{'I', readStatus},
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{'M', startConversionMeasure},
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{'R', startConversion},
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{'S', stopConversion},
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{'W', startGenerator},
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{'a', readADCBuffer},
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{'d', readDACBuffer},
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{'e', unloadAlgorithm},
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{'i', readIdentifier},
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{'m', readExecTime},
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{'r', sampleRate},
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{'s', readConversionResults},
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{'t', readConversionInput},
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{'u', readMessage},
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{'w', stopGenerator}
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}};
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void CommunicationManager::threadComm(void *)
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{
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while (1) {
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if (USBSerial::isActive()) {
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// Attempt to receive a command packet
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if (unsigned char cmd[3]; USBSerial::read(&cmd[0], 1) > 0) {
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// Packet received, first byte represents the desired command/action
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auto func = std::find_if(commandTable.cbegin(), commandTable.cend(),
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[&cmd](const auto& f) { return f.first == cmd[0]; });
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if (func != commandTable.cend())
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func->second(cmd);
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}
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}
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chThdSleepMicroseconds(100);
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}
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}
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void writeADCBuffer(unsigned char *)
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{
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USBSerial::read(Samples::In.bytedata(), Samples::In.bytesize());
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}
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void setBufferSize(unsigned char *cmd)
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{
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if (EM.assert(run_status == RunStatus::Idle, Error::NotIdle) &&
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EM.assert(USBSerial::read(&cmd[1], 2) == 2, Error::BadParamSize))
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{
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// count is multiplied by two since this command receives size of buffer
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// for each algorithm application.
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unsigned int count = (cmd[1] | (cmd[2] << 8)) * 2;
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if (EM.assert(count <= MAX_SAMPLE_BUFFER_SIZE, Error::BadParam)) {
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Samples::In.setSize(count);
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Samples::Out.setSize(count);
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}
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}
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}
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void updateGenerator(unsigned char *cmd)
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{
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if (EM.assert(USBSerial::read(&cmd[1], 2) == 2, Error::BadParamSize)) {
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unsigned int count = cmd[1] | (cmd[2] << 8);
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if (EM.assert(count <= MAX_SAMPLE_BUFFER_SIZE, Error::BadParam)) {
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if (run_status == RunStatus::Idle) {
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Samples::Generator.setSize(count);
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USBSerial::read(
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reinterpret_cast<uint8_t *>(Samples::Generator.data()),
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Samples::Generator.bytesize());
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} else if (run_status == RunStatus::Running) {
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int more;
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do {
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chThdSleepMicroseconds(10);
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more = DAC::sigGenWantsMore();
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} while (more == -1);
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// Receive streamed samples in half-buffer chunks.
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USBSerial::read(reinterpret_cast<uint8_t *>(
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more == 0 ? Samples::Generator.data() : Samples::Generator.middata()),
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Samples::Generator.bytesize() / 2);
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}
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}
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}
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}
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void loadAlgorithm(unsigned char *cmd)
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{
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if (EM.assert(run_status == RunStatus::Idle, Error::NotIdle) &&
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EM.assert(USBSerial::read(&cmd[1], 2) == 2, Error::BadParamSize))
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{
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// Only load the binary if it can fit in the memory reserved for it.
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unsigned int size = cmd[1] | (cmd[2] << 8);
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if (EM.assert(size < MAX_ELF_FILE_SIZE, Error::BadUserCodeSize)) {
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USBSerial::read(ELFManager::fileBuffer(), size);
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auto success = ELFManager::loadFromInternalBuffer();
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EM.assert(success, Error::BadUserCodeLoad);
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}
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}
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}
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void readStatus(unsigned char *)
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{
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unsigned char buf[2] = {
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static_cast<unsigned char>(run_status),
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static_cast<unsigned char>(EM.pop())
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};
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USBSerial::write(buf, sizeof(buf));
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}
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void startConversionMeasure(unsigned char *)
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{
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if (EM.assert(run_status == RunStatus::Idle, Error::NotIdle)) {
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run_status = RunStatus::Running;
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ConversionManager::startMeasured();
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}
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}
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void startConversion(unsigned char *)
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{
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if (EM.assert(run_status == RunStatus::Idle, Error::NotIdle)) {
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run_status = RunStatus::Running;
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ConversionManager::start();
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}
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}
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void stopConversion(unsigned char *)
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{
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if (run_status == RunStatus::Running) {
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ConversionManager::stop();
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run_status = RunStatus::Idle;
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}
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}
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void startGenerator(unsigned char *)
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{
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DAC::start(1, Samples::Generator.data(), Samples::Generator.size());
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}
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void readADCBuffer(unsigned char *)
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{
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USBSerial::write(Samples::In.bytedata(), Samples::In.bytesize());
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}
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void readDACBuffer(unsigned char *)
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{
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USBSerial::write(Samples::Out.bytedata(), Samples::Out.bytesize());
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}
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void unloadAlgorithm(unsigned char *)
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{
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ELFManager::unload();
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}
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void readIdentifier(unsigned char *)
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{
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#if defined(TARGET_PLATFORM_H7)
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USBSerial::write(reinterpret_cast<const uint8_t *>("stmdsph"), 7);
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#else
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USBSerial::write(reinterpret_cast<const uint8_t *>("stmdspl"), 7);
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#endif
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}
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void readExecTime(unsigned char *)
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{
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// Stores the measured execution time.
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extern time_measurement_t conversion_time_measurement;
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USBSerial::write(reinterpret_cast<uint8_t *>(&conversion_time_measurement.last),
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sizeof(rtcnt_t));
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}
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void sampleRate(unsigned char *cmd)
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{
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if (EM.assert(USBSerial::read(&cmd[1], 1) == 1, Error::BadParamSize)) {
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if (cmd[1] == 0xFF) {
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unsigned char r = SClock::getRate();
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USBSerial::write(&r, 1);
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} else {
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auto r = static_cast<SClock::Rate>(cmd[1]);
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SClock::setRate(r);
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ADC::setRate(r);
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}
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}
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}
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void readConversionResults(unsigned char *)
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{
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if (auto samps = Samples::Out.modified(); samps != nullptr) {
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unsigned char buf[2] = {
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static_cast<unsigned char>(Samples::Out.size() / 2 & 0xFF),
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static_cast<unsigned char>(((Samples::Out.size() / 2) >> 8) & 0xFF)
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};
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USBSerial::write(buf, 2);
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unsigned int total = Samples::Out.bytesize() / 2;
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unsigned int offset = 0;
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unsigned char unused;
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while (total > 512) {
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USBSerial::write(reinterpret_cast<uint8_t *>(samps) + offset, 512);
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while (USBSerial::read(&unused, 1) == 0);
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offset += 512;
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total -= 512;
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}
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USBSerial::write(reinterpret_cast<uint8_t *>(samps) + offset, total);
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while (USBSerial::read(&unused, 1) == 0);
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} else {
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USBSerial::write(reinterpret_cast<const uint8_t *>("\0\0"), 2);
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}
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}
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void readConversionInput(unsigned char *)
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{
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if (auto samps = Samples::In.modified(); samps != nullptr) {
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unsigned char buf[2] = {
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static_cast<unsigned char>(Samples::In.size() / 2 & 0xFF),
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static_cast<unsigned char>(((Samples::In.size() / 2) >> 8) & 0xFF)
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};
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USBSerial::write(buf, 2);
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unsigned int total = Samples::In.bytesize() / 2;
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unsigned int offset = 0;
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unsigned char unused;
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while (total > 512) {
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USBSerial::write(reinterpret_cast<uint8_t *>(samps) + offset, 512);
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while (USBSerial::read(&unused, 1) == 0);
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offset += 512;
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total -= 512;
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}
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USBSerial::write(reinterpret_cast<uint8_t *>(samps) + offset, total);
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while (USBSerial::read(&unused, 1) == 0);
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} else {
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USBSerial::write(reinterpret_cast<const uint8_t *>("\0\0"), 2);
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}
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}
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void readMessage(unsigned char *)
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{
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//USBSerial::write(reinterpret_cast<uint8_t *>(userMessageBuffer), userMessageSize);
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}
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void stopGenerator(unsigned char *)
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{
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DAC::stop(1);
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}
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