ardupilot/libraries/SITL/SIM_ELRS.cpp

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#include <AP_HAL/AP_HAL.h>
// Only support ELRS simulation in SITL (not Sim on Hardware)
#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
#include "SIM_ELRS.h"
#include <SITL/SITL.h>
#include <AP_HAL_SITL/AP_HAL_SITL.h>
#include <AP_HAL_SITL/UARTDriver.h>
#include "include/mavlink/v2.0/all/mavlink.h"
// Example command: -A --serial2=sim:ELRS
// TCP connection will be started on normal AP port eg 5763 for serial 2
// Baud rate must be set correctly
// param set SERIAL2_BAUD 460
using namespace SITL;
ELRS::ELRS(const uint8_t portNumber, HALSITL::SITL_State_Common *sitl_state) :
// Mirror typical ELRS UART buffer sizes
SerialDevice::SerialDevice(64, 128),
// Mirror MAVLink buffer sizes
mavlinkInputBuffer(2048),
mavlinkOutputBuffer(2048),
// 255 is typically used by the GCS, for RC override to work in ArduPilot `SYSID_MYGCS` must be set to this value (255 is the default)
this_system_id(255),
// Strictly this is not a valid source component ID
this_component_id(MAV_COMPONENT::MAV_COMP_ID_ALL),
// Typical setup is about 500 B /s
input_data_rate(500),
output_data_rate(500),
target_address("127.0.0.1"),
target_port(5761 + portNumber)
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{
// Setup TCP server
listener.reuseaddress();
listener.bind(target_address, target_port);
listener.listen(1);
listener.set_blocking(false);
}
void ELRS::update()
{
// Connect to incoming TCP
if (sock == nullptr) {
sock = listener.accept(0);
if (sock != nullptr) {
sock->set_blocking(false);
sock->reuseaddress();
::printf("ELRS connected to %s:%u\n", target_address, (unsigned)target_port);
}
}
if (sock == nullptr) {
return;
}
// Read from AP into radio
const uint32_t input_space = mavlinkInputBuffer.space();
if (input_space > 0) {
uint8_t buf[input_space];
ssize_t len = read_from_autopilot((char*)buf, input_space);
mavlinkInputBuffer.write(buf, len);
}
// Send from radio to GCS
const uint32_t send_bytes = input_limit.max_bytes(input_data_rate);
if (send_bytes > 0) {
uint8_t buf[send_bytes];
const uint32_t len = mavlinkInputBuffer.read(buf, send_bytes);
if (len > 0) {
sock->send(buf, len);
}
}
// Incoming data from GCS to radio
const uint32_t receive_bytes = output_limit.max_bytes(output_data_rate);
if (receive_bytes > 0) {
uint8_t buf[receive_bytes];
const ssize_t len = sock->recv(buf, receive_bytes, 1);
if (len > 0) {
mavlinkOutputBuffer.write(buf, len);
} else if (len == 0) {
// EOF, go back to waiting for a new connection
delete sock;
sock = nullptr;
}
}
// Write from radio to AP
sendQueuedData();
}
// Function to behave like MAVLink libs `mavlink_parse_char` but use local buffer
uint8_t ELRS::mavlink_parse_char_helper(uint8_t c, mavlink_message_t* r_message, mavlink_status_t* r_mavlink_status)
{
uint8_t msg_received = mavlink_frame_char_buffer(&mavlink.rxmsg, &mavlink.status, c, r_message, r_mavlink_status);
if ((msg_received == MAVLINK_FRAMING_BAD_CRC) || (msg_received == MAVLINK_FRAMING_BAD_SIGNATURE)) {
return 0;
}
return msg_received;
}
// Send incoming data to AP, this is a re-implementation of the ELRS function found here:
// https://github.com/ExpressLRS/ExpressLRS/blob/0d31863f34ca16a036e94a9c2a56038ae56c7f9e/src/src/rx-serial/SerialMavlink.cpp#L78
void ELRS::sendQueuedData()
{
// Send radio messages at 100Hz
const uint32_t now = AP_HAL::millis();
if ((now - lastSentFlowCtrl) > 10) {
lastSentFlowCtrl = now;
// Space remaining as a percentage.
const uint8_t percentage_remaining = (mavlinkInputBuffer.space() * 100) / mavlinkInputBuffer.get_size();
// Populate radio status packet
const mavlink_radio_status_t radio_status {
rxerrors: 0,
fixed: 0,
rssi: UINT8_MAX, // Unknown
remrssi: UINT8_MAX, // Unknown
txbuf: percentage_remaining,
noise: UINT8_MAX, // Unknown
remnoise: UINT8_MAX, // Unknown
};
uint8_t buf[MAVLINK_MSG_ID_RADIO_STATUS_LEN + MAVLINK_NUM_NON_PAYLOAD_BYTES];
mavlink_message_t msg;
mavlink_msg_radio_status_encode(this_system_id, this_component_id, &msg, &radio_status);
uint16_t len = mavlink_msg_to_send_buffer(buf, &msg);
write_to_autopilot((char*)buf, len);
}
// Read one byte at a time until were done
while (true) {
uint8_t c;
if (!mavlinkOutputBuffer.read_byte(&c)) {
break;
}
mavlink_message_t msg;
mavlink_status_t status;
// Try parse a mavlink message
if (mavlink_parse_char_helper(c, &msg, &status)) {
// Message decoded successfully
// Forward message to the UART
uint8_t buf[MAVLINK_MAX_PACKET_LEN];
uint16_t len = mavlink_msg_to_send_buffer(buf, &msg);
uint16_t written = write_to_autopilot((char*)buf, len);
if ((written != uint16_t(-1)) && (len != written)) {
::fprintf(stderr, "Failed to write full msg, wanted %u achieved %u (msg id: %u)\n", len, written, msg.msgid);
}
}
}
}
#endif // CONFIG_HAL_BOARD == HAL_BOARD_SITL