/**
* @file stmdsp.cpp
* @brief Interface for communication with stmdsp device over serial.
*
* Copyright (C) 2021 Clyne Sullivan
*
* Distributed under the GNU GPL v3 or later. You should have received a copy of
* the GNU General Public License along with this program.
* If not, see .
*/
#include "stmdsp.hpp"
#include
namespace stmdsp
{
std::list& scanner::scan()
{
auto devices = serial::list_ports();
for (auto& device : devices) {
if (device.hardware_id.find(STMDSP_USB_ID) != std::string::npos)
m_available_devices.emplace_front(device.port);
}
return m_available_devices;
}
device::device(const std::string& file) :
m_serial(file, 1000000/*230400*/, serial::Timeout::simpleTimeout(50))
{
if (m_serial.isOpen()) {
m_serial.write("i");
if (m_serial.read(6) != "stmdsp")
m_serial.close();
}
}
void device::continuous_set_buffer_size(unsigned int size) {
if (connected()) {
m_buffer_size = size;
uint8_t request[3] = {
'B',
static_cast(size),
static_cast(size >> 8)
};
m_serial.write(request, 3);
}
}
void device::set_sample_rate(unsigned int id) {
if (connected()) {
uint8_t request[2] = {
'r',
static_cast(id)
};
m_serial.write(request, 2);
}
}
unsigned int device::get_sample_rate() {
unsigned char result = 0xFF;
if (connected()) {
uint8_t request[2] = {
'r', 0xFF
};
m_serial.write(request, 2);
m_serial.read(&result, 1);
}
return result;
}
void device::continuous_start() {
if (connected())
m_serial.write("R");
}
void device::continuous_start_measure() {
if (connected())
m_serial.write("M");
}
uint32_t device::continuous_start_get_measurement() {
uint32_t count = 0;
if (connected()) {
m_serial.write("m");
m_serial.read(reinterpret_cast(&count), sizeof(uint32_t));
}
return count / 2;
}
std::vector device::continuous_read() {
if (connected()) {
m_serial.write("s");
unsigned char sizebytes[2];
m_serial.read(sizebytes, 2);
unsigned int size = sizebytes[0] | (sizebytes[1] << 8);
if (size > 0) {
std::vector data (size);
unsigned int total = size * sizeof(adcsample_t);
unsigned int offset = 0;
while (total > 512) {
m_serial.read(reinterpret_cast(&data[0]) + offset, 512);
m_serial.write("n");
offset += 512;
total -= 512;
}
m_serial.read(reinterpret_cast(&data[0]) + offset, total);
m_serial.write("n");
return data;
}
}
return {};
}
void device::continuous_stop() {
if (connected())
m_serial.write("S");
}
void device::siggen_upload(dacsample_t *buffer, unsigned int size) {
if (connected()) {
uint8_t request[3] = {
'D',
static_cast(size),
static_cast(size >> 8)
};
m_serial.write(request, 3);
m_serial.write((uint8_t *)buffer, size * sizeof(dacsample_t));
}
}
void device::siggen_start() {
if (connected()) {
m_is_siggening = true;
m_serial.write("W");
}
}
void device::siggen_stop() {
if (connected()) {
m_is_siggening = false;
m_serial.write("w");
}
}
void device::upload_filter(unsigned char *buffer, size_t size) {
if (connected()) {
uint8_t request[3] = {
'E',
static_cast(size),
static_cast(size >> 8)
};
m_serial.write(request, 3);
m_serial.write(buffer, size);
}
}
void device::unload_filter() {
if (connected())
m_serial.write("e");
}
}