// Copyright (c) 2017-2021, Mudita Sp. z.o.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#include "ATCommon.hpp"
#include <at/Cmd.hpp>
#include "time/ScopedTime.hpp"
#include <functional>
#include <log/log.hpp>
#include <string>
#include <Utils.hpp>
#include "ATStream.hpp"
#include <at/ATFactory.hpp>
using namespace at;
using namespace std::chrono_literals;
const std::string Channel::OK = "OK";
const std::string Channel::ERROR = "ERROR";
const std::string Channel::NO_CARRIER = "NO CARRIER";
const std::string Channel::BUSY = "BUSY";
const std::string Channel::NO_ANSWER = "NO ANSWER";
const std::string Channel::CME_ERROR = "+CME ERROR:";
const std::string Channel::CMS_ERROR = "+CMS ERROR:";
// const std::string Channel::CONNECT = "CONNECT";
// const std::string Channel::RING = "RING";
// const std::string Channel::NO_DIALTONE = "NO DIALTONE";
void Channel::cmdLog(std::string cmd, const Result &result, std::chrono::milliseconds timeout)
{
cmd.erase(std::remove(cmd.begin(), cmd.end(), '\r'), cmd.end());
cmd.erase(std::remove(cmd.begin(), cmd.end(), '\n'), cmd.end());
switch (result.code) {
case Result::Code::TIMEOUT: {
LOG_ERROR("AT response: timeout");
LOG_SENSITIVE(
LOGERROR,
"[AT]: >%s<, timeout %s - please check the value with Quectel_EC25&EC21_AT_Commands_Manual_V1.3.pdf",
cmd.c_str(),
utils::to_string(timeout.count()).c_str());
} break;
case Result::Code::ERROR: {
LOG_ERROR("AT response: error");
LOG_SENSITIVE(
LOGERROR, "[AT]: >%s<, >%s<", cmd.c_str(), result.response.size() ? result.response.back().c_str() : "");
} break;
default:
LOG_SENSITIVE(
LOGDEBUG, "[AT]: >%s<, >%s<", cmd.c_str(), result.response.size() ? result.response.back().c_str() : "");
break;
}
for ([[maybe_unused]] const auto &s : result.response) {
LOG_SENSITIVE(LOGINFO, "[AT] > %s", s.c_str());
}
}
std::string Channel::formatCommand(const std::string &cmd) const
{
bool isTerminatorValid = std::find(validTerm.begin(), validTerm.end(), cmd.back()) != validTerm.end();
if (isTerminatorValid) {
return cmd;
}
return cmd + cmdSeparator;
}
Result Channel::cmd(const std::string &cmd, std::chrono::milliseconds timeout, size_t rxCount)
{
Result result;
ATStream atStream(rxCount);
awaitingResponseFlag.set();
cmdInit();
std::string cmdFixed = formatCommand(cmd);
cmdSend(cmdFixed);
auto startTime = std::chrono::steady_clock::now();
auto endTime = startTime + timeout;
while (true) {
if (std::chrono::steady_clock::now() > endTime) {
result.code = Result::Code::TIMEOUT;
break;
}
if (size_t bytesRead = cmdReceive(receiveBuffer.get(), 0ms); bytesRead > 0) {
auto cellularResult = bsp::cellular::CellularResult{receiveBuffer.get(), bytesRead};
if (result = checkResult(cellularResult.getResultCode()); result.code != at::Result::Code::OK) {
break;
}
atStream.write(cellularResult.getDataAsString());
if (atStream.isReady()) {
result = atStream.getResult();
break;
}
}
}
awaitingResponseFlag.clear();
cmdPost();
cmdLog(cmdFixed, result, timeout);
return result;
}
auto Channel::cmd(const at::Cmd &at) -> Result
{
auto time = utils::time::Scoped("Time to run at command" + at.getCmd());
return cmd(at.getCmd(), at.getTimeout());
}
auto Channel::cmd(const at::AT &at) -> Result
{
auto cmd = at::factory(at);
auto time = utils::time::Scoped("Time to run at command" + cmd.getCmd());
return this->cmd(cmd);
}
Result Channel::checkResult(bsp::cellular::CellularResultCode cellularResult)
{
Result result;
switch (cellularResult) {
case bsp::cellular::CellularResultCode::ReceivingNotStarted:
result.code = Result::Code::RECEIVING_NOT_STARTED;
break;
case bsp::cellular::CellularResultCode::TransmittingNotStarted:
result.code = Result::Code::TRANSMISSION_NOT_STARTED;
break;
case bsp::cellular::CellularResultCode::CMUXFrameError:
result.code = Result::Code::CMUX_FRAME_ERROR;
break;
default:
result.code = Result::Code::OK;
break;
}
return result;
}