MultiTech
/
Dot-AT-Firmware
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MultiTech
Dot Library Not Included!
Because these example programs can be used for both mDot and xDot devices, the LoRa stack is not included. The libmDot library should be imported if building for mDot devices. The libxDot library should be imported if building for xDot devices. Check the commit messages of the Dot library version used to find the correct mbed-os version to use with it. The mbed-os version must match the version used in that version of Dot library or it will likely cause it to fail to compile or have unexpected problems while running.
Dot Library Version 3 Updates
Dot Library versions 3.x.x require a channel plan to be injected into the stack. The Dot-Examples and Dot-AT-Firmware do this by defining a macro called "CHANNEL_PLAN" that controls the channel plan that will be used in the examples. Available channel plans will be in the Dot Library repository in the plans folder.
Revision 20 and earlier of Dot-Examples and revision 15 and earlier of Dot-AT-Firmware should be used with Dot Library versions prior to 3.0.0.
Fota Library
Th Fota Library must be added to compile for mDot 3.1.0 with Fota support. Latest dev libraries and 3.2.0 release will include Fota with libmDot/libxDot.
AT Firmware Description
This AT Firmware is what ships on mDot and xDot devices. It provides an AT command interface for using the mDot or xDot for LoRa communication.
AT command documentation can be found on Multitech.com.
The firmware changelog can be found here.
The library changelog can be found here.
Dot Libraries
Dot Library Limitations
The commit messages in libmDot-mbed5 and libmDot-dev-mbed5 specify the version of the Dot library the commit contains and the version of mbed-os it was compiled against. We recommend building your application with the version of mbed-os specified in the commit message of the version of the Dot library you're using. This will ensure that you don't run into any runtime issues caused by differences in the mbed-os versions.
Stable and development libraries are available for both mDot and xDot platforms. The library chosen must match the target platform. Compiling for the mDot platform with the xDot library or vice versa will not succeed.
mDot Library
Development library for mDot.
Stable library for mDot.
xDot Library
Development library for xDot.
Stable library for xDot.
CommandTerminal/CommandTerminal.cpp
- Committer:
- Mike Fiore
- Date:
- 2016-01-29
- Revision:
- 6:e27eaad36a0c
- Parent:
- 4:666017851052
- Child:
- 9:ff62b20f7000
File content as of revision 6:e27eaad36a0c:
#include "ctype.h"
#include "CommandTerminal.h"
#include "Command.h"
#include "MTSLog.h"
#include <cstdarg>
#include <deque>
const char CommandTerminal::banner[] = "\r\n\nMultiTech Systems LoRa XBee Module\r\n\n";
const char CommandTerminal::helpline[] = "Enter '?' for help\r\n";
const char CommandTerminal::newline[] = "\r\n";
// Command error text...
const char CommandTerminal::command_error[] = "Command not found!\r\n";
// Response texts...
const char CommandTerminal::help[] = "\r\nHelp\r\n";
const char CommandTerminal::cmd_error[] = "Invalid command\r\n";
const char CommandTerminal::done[] = "\r\nOK\r\n";
const char CommandTerminal::error[] = "\r\nERROR\r\n";
// Escape sequence...
const char CommandTerminal::escape_sequence[] = "+++";
mts::MTSSerial* CommandTerminal::_serialp = NULL;
void CommandTerminal::addCommand(Command* cmd) {
_commands.push_back(cmd);
}
CommandTerminal::CommandTerminal(mts::MTSSerial& serial, mDot* dot)
:
_serial(serial),
_dot(dot),
_mode(mDot::COMMAND_MODE),
_idle_thread(idle, NULL, osPriorityLow),
_sleep_standby(true),
_xbee_on_sleep(XBEE_ON_SLEEP),
_serial_up(false) {
_serialp = &serial;
addCommand(new CmdAttention(_dot));
addCommand(new CmdIdentification(_dot, serial));
addCommand(new CmdResetCpu(_dot, serial));
addCommand(new CmdDummy(_dot, "Enable/Disable Echo", "ATE0/1", "ATE0: disable, ATE1: enable"));
addCommand(new CmdDummy(_dot, "Enable/Disable Verbose", "ATV0/1", "ATV0: disable, ATV1: enable"));
addCommand(new CmdFactoryDefault(_dot));
addCommand(new CmdSaveConfig(_dot));
addCommand(new CmdDisplayConfig(_dot, serial));
addCommand(new CmdDisplayStats(_dot, serial));
addCommand(new CmdResetStats(_dot, serial));
addCommand(new CmdSerialBaudRate(_dot, serial));
addCommand(new CmdDebugBaudRate(_dot, serial));
addCommand(new CmdStartUpMode(_dot, serial));
addCommand(new CmdFrequencyBand(_dot, serial));
addCommand(new CmdFrequencySubBand(_dot, serial));
addCommand(new CmdPublicNetwork(_dot, serial));
addCommand(new CmdDeviceId(_dot, serial));
addCommand(new CmdNetworkAddress(_dot, serial));
addCommand(new CmdNetworkSessionKey(_dot, serial));
addCommand(new CmdDataSessionKey(_dot, serial));
addCommand(new CmdNetworkKey(_dot, serial));
addCommand(new CmdNetworkId(_dot, serial));
addCommand(new CmdJoinRequest(_dot, serial));
addCommand(new CmdJoinRetries(_dot, serial));
addCommand(new CmdJoinByteOrder(_dot, serial));
addCommand(new CmdNetworkJoinMode(_dot, serial));
addCommand(new CmdNetworkJoinStatus(_dot, serial));
addCommand(new CmdNetworkLinkCheck(_dot, serial));
addCommand(new CmdLinkCheckCount(_dot, serial));
addCommand(new CmdLinkCheckThreshold(_dot, serial));
addCommand(new CmdEncryption(_dot, serial));
addCommand(new CmdRssi(_dot, serial));
addCommand(new CmdSnr(_dot, serial));
addCommand(new CmdDataPending(_dot, serial));
addCommand(new CmdTxDataRate(_dot, serial));
addCommand(new CmdTxPower(_dot, serial));
addCommand(new CmdTxFrequency(_dot, serial));
addCommand(new CmdTxInverted(_dot, serial));
addCommand(new CmdTxWait(_dot, serial));
addCommand(new CmdTxChannel(_dot, serial));
addCommand(new CmdTxNextMs(_dot, serial));
addCommand(new CmdTimeOnAir(_dot, serial));
addCommand(new CmdRxDataRate(_dot, serial));
addCommand(new CmdRxFrequency(_dot, serial));
addCommand(new CmdRxOutput(_dot, serial));
addCommand(new CmdRxInverted(_dot, serial));
addCommand(new CmdErrorCorrection(_dot, serial));
addCommand(new CmdCRC(_dot, serial));
addCommand(new CmdAdaptiveDataRate(_dot, serial));
addCommand(new CmdACKAttempts(_dot, serial));
addCommand(new CmdSendString(_dot, serial));
addCommand(new CmdSendStringHighBW(_dot, serial));
addCommand(new CmdSendBinary(_dot, serial));
addCommand(new CmdSendStringOnInterval(_dot, serial));
addCommand(new CmdReceiveOnce(_dot, serial));
addCommand(new CmdReceiveContinuous(_dot, serial));
addCommand(new CmdDummy(_dot, "Serial Data Mode", "AT+SD", "Reads serial data, sends packet, then sleeps using wake settings"));
addCommand(new CmdDummy(_dot, "Sleep Mode", "AT+SLEEP", "Enter sleep mode"));
addCommand(new CmdWakeMode(_dot, serial));
addCommand(new CmdWakeInterval(_dot, serial));
// addCommand(new CmdWakePin(_dot, serial));
addCommand(new CmdWakeDelay(_dot, serial));
addCommand(new CmdWakeTimeout(_dot, serial));
addCommand(new CmdPing(_dot, serial));
addCommand(new CmdLogLevel(_dot, serial));
}
void CommandTerminal::printHelp() {
const char* name = NULL;
const char* text = NULL;
const char* desc = NULL;
const char* tab = "\t";
std::string header("Command");
header.append(tab);
header.append(tab);
header.append("Name");
header.append(tab);
header.append(tab);
header.append(tab);
header.append("Description");
write(newline);
write(header.c_str());
write(newline);
write(newline);
for (std::vector<Command*>::iterator it = _commands.begin(); it != _commands.end(); ++it) {
name = (*it)->name();
text = (*it)->text();
desc = (*it)->desc();
write(text);
if (strlen(text) < 8)
write(tab);
write(tab);
write(name);
if (strlen(name) < 8)
write(tab);
if (strlen(name) < 16)
write(tab);
write(tab);
write(desc);
write(newline);
}
write(newline);
}
bool CommandTerminal::writeable() {
return _serial.writeable();
}
bool CommandTerminal::readable() {
return _serial.readable();
}
char CommandTerminal::read() {
char ch;
_serial.read(&ch, 1);
return ch;
}
void CommandTerminal::write(const char* message) {
while (!writeable())
;
_serial.write(message, strlen(message));
}
void CommandTerminal::writef(const char* format, ...) {
char buff[256];
va_list ap;
va_start(ap, format);
int size = vsnprintf(buff, 256, format, ap);
while (!writeable())
;
_serial.write(buff, size);
va_end(ap);
}
void CommandTerminal::serial_loop() {
Timer serial_read_timer;
std::vector<uint8_t> serial_buffer;
std::string escape_buffer;
Timer escape_timer;
int escape_delay = 100;
uint8_t max_send_size;
_serial_up = true;
_xbee_on_sleep = GPIO_PIN_SET;
if (_dot->getFrequencyBand() == mDot::FB_915)
max_send_size = mDot::MaxLengths_915[_dot->getTxDataRate()];
else
max_send_size = mDot::MaxLengths_868[_dot->getTxDataRate()];
logDebug("Awake\r\n");
wakeup(_sleep_standby);
char ch;
if (readable()) {
ch = read();
serial_buffer.push_back(ch);
if (escape_timer.read_ms() > escape_delay && ch == '+') {
escape_buffer += ch;
escape_timer.reset();
} else {
_serial_up = true;
escape_buffer.clear();
}
if (escape_buffer.length() == 3 && escape_buffer.find(escape_sequence) == 0) {
_mode = mDot::COMMAND_MODE;
logDebug("Exit serial mode\r\n");
escape_timer.stop();
escape_buffer.clear();
write(done);
return;
}
}
if (_serial_up) {
serial_read_timer.start();
uint32_t timeout = _dot->getWakeDelay();
// wait for timeout or start of serial data
while (!readable() && serial_read_timer.read_ms() < timeout) {
osDelay(10);
}
serial_read_timer.reset();
timeout = _dot->getWakeTimeout();
while (_serial_up && serial_read_timer.read_ms() < timeout) {
while (readable() && serial_buffer.size() < max_send_size) {
serial_buffer.push_back(read());
serial_read_timer.reset();
}
}
serial_read_timer.stop(), serial_read_timer.reset();
if (!serial_buffer.empty()) {
_serial_up = false;
_xbee_on_sleep = GPIO_PIN_RESET;
if (!_dot->getIsTransmitting()) {
std::vector<uint8_t> recv_buffer;
logDebug("Received serial data, sending out radio.\r\n");
if (_dot->send(serial_buffer) != mDot::MDOT_OK)
logDebug("Send failed.\r\n");
if (_dot->recv(recv_buffer))
_serial.writef("%s\r\n", formatPacketData(recv_buffer, _dot->getRxOutput()).c_str());
} else {
logDebug("Radio is busy, cannot send.\r\n");
}
serial_buffer.clear();
} else {
logDebug("No data received from serial to send.\r\n");
}
_serial_up = false;
}
sleep(_sleep_standby);
}
bool CommandTerminal::autoJoinCheck() {
std::string escape_buffer;
char ch;
int sleep = 1000;
int escape_timeout = 1000;
Timer tmr;
Timer escape_tmr;
int cnt = 0;
while (!_dot->getNetworkJoinStatus()) {
wakeup(_sleep_standby);
write("\r\nJoining network... ");
// wait one second for possible escape
tmr.reset();
tmr.start();
escape_tmr.reset();
escape_tmr.start();
while (tmr.read_ms() < 1000) {
if (_serial.readable()) {
_serial.read(&ch, 1);
escape_buffer += ch;
}
if (escape_buffer.find(escape_sequence) != std::string::npos) {
_mode = mDot::COMMAND_MODE;
write("Join Canceled\r\n");
write(done);
return true;
}
if (escape_tmr.read_ms() > escape_timeout)
escape_buffer.clear();
}
if (_dot->joinNetworkOnce() == mDot::MDOT_OK) {
write("Network Joined\r\n");
write(done);
return false;
}
write("Network Join failed\r\n");
write(error);
if (cnt++ > _dot->getJoinRetries()) {
cnt = 0;
if (_dot->getFrequencyBand() == mDot::FB_915) {
uint8_t band = ((_dot->getFrequencySubBand()) % 8) + 1;
logDebug("Join retries exhausted, switching to sub band %u\r\n", band);
_dot->setFrequencySubBand(band);
}
if (sleep < 60 * 60 * 1000)
sleep *= 2;
}
tmr.reset();
tmr.start();
escape_tmr.reset();
escape_tmr.start();
while (tmr.read_ms() < sleep) {
if (_serial.readable()) {
_serial.read(&ch, 1);
escape_buffer += ch;
}
if (escape_buffer.find(escape_sequence) != std::string::npos) {
_mode = mDot::COMMAND_MODE;
return true;
}
if (escape_tmr.read_ms() > escape_timeout)
escape_buffer.clear();
}
}
return false;
}
void CommandTerminal::start() {
wakeup(_sleep_standby);
char ch;
bool running = true;
bool echo = _dot->getEcho();
std::string command;
std::deque<std::string> history;
int history_index = -1;
std::vector<std::string> args;
if (_dot->getStartUpMode() == mDot::SERIAL_MODE) {
command = "AT+SD\n";
std::string escape_buffer;
char ch;
int escape_timeout = 1000;
Timer tmr;
Timer escape_tmr;
// wait one second for possible escape
tmr.reset();
tmr.start();
escape_tmr.reset();
escape_tmr.start();
while (tmr.read_ms() < escape_timeout) {
if (_serial.readable()) {
_serial.read(&ch, 1);
escape_buffer += ch;
}
if (escape_buffer.find(escape_sequence) != std::string::npos) {
_mode = mDot::COMMAND_MODE;
command.clear();
break;
}
if (escape_tmr.read_ms() > escape_timeout)
escape_buffer.clear();
osDelay(1);
}
}
bool join_canceled = false;
//Run terminal session
while (running) {
if (!join_canceled && _dot->getJoinMode() == mDot::AUTO_OTA) {
join_canceled = autoJoinCheck();
if (join_canceled)
command.clear();
}
if (_dot->getJoinMode() != mDot::AUTO_OTA || (!join_canceled && _dot->getJoinMode() == mDot::AUTO_OTA)) {
switch (_mode) {
case mDot::SERIAL_MODE:
// signal wakeup, read serial and output to radio
serial_loop();
continue;
break;
default:
break;
}
}
ch = '\0';
// read characters
if (readable()) {
ch = read();
if (ch == '\b' || ch == 0x7f) {
if (!command.empty()) {
writef("\b \b");
command.erase(command.size() - 1);
}
continue;
} else if (ch == 0x1b || ch == 0x09) {
osDelay(20);
// catch escape sequence, or tab
char ch1, ch2;
if (readable()) {
ch1 = read();
if (readable())
ch2 = read();
if (ch1 == 0x5b && ch2 == 0x41) {
// up key
for (int i = 0; i < command.size()+1; i++) {
writef("\b \b");
}
if (history.size() > 0) {
if (++history_index >= history.size() - 1)
history_index = history.size() - 1;
command = history[history_index];
writef("%s", history[history_index].c_str());
} else {
command.clear();
}
} else if (ch1 == 0x5b && ch2 == 0x42) {
// down key
for (int i = 0; i < command.size()+1; i++) {
writef("\b \b");
}
if (--history_index < 0) {
history_index = -1;
command.clear();
} else {
command = history[history_index];
writef("%s", history[history_index].c_str());
}
}
}
while (readable()) read();
continue;
} else {
command += ch;
}
// echo chars if enabled
if (echo && !(ch == '\r' || ch == '\n'))
writef("%c", ch);
}
// look for end of command line
if (command.find("\n") != std::string::npos || command.find("\r") != std::string::npos) {
// remove new line or cr character
command.erase(command.size() - 1);
write("\r"); // match standard modem output
write(newline);
} else {
continue;
}
// trim whitespace from command
mts::Text::trim(command, "\r\n\t ");
if (command.size() < 1) {
command.clear();
continue;
}
// parse command and args
args.clear();
// find first '=' character
size_t delim_index = command.find("=");
if (delim_index != std::string::npos) {
args.push_back(command.substr(0, delim_index));
} else {
// find first ' ' character
delim_index = command.find(" ");
if (delim_index != std::string::npos) {
args.push_back(command.substr(0, delim_index));
} else {
args.push_back(command);
}
}
if (delim_index != std::string::npos) {
std::vector<std::string> params = mts::Text::split(command.substr(delim_index + 1), ",");
args.insert(args.end(), params.begin(), params.end());
}
args[0] = mts::Text::toUpper(args[0]);
// print help
if ((args[0].find("?") == 0 || args[0].find("HELP") == 0) && args.size() == 1) {
printHelp();
command.clear();
} else if (args[0].find("ATE0") == 0 && args[0].length() == 4) {
_dot->setEcho(false);
write(done);
echo = _dot->getEcho();
} else if (args[0].find("ATE1") == 0 && args[0].length() == 4) {
_dot->setEcho(true);
write(done);
echo = _dot->getEcho();
} else if (args[0].find("ATV0") == 0 && args[0].length() == 4) {
_dot->setVerbose(false);
write(done);
} else if (args[0].find("ATV1") == 0 && args[0].length() == 4) {
_dot->setVerbose(true);
write(done);
} else if (args[0] == "AT+SD") {
logDebug("Enter Serial Mode\r\n");
_mode = mDot::SERIAL_MODE;
} else if (args[0] == "AT+SLEEP") {
if (args.size() > 1 && (args[1] != "?")) {
write("Invalid argument\r\n");
write(error);
} else {
if (args.size() > 1 && args[1] == "?") {
write("AT+SLEEP: NONE\r\n");
write(done);
} else {
_sleep_standby = !(args.size() > 1 && args[1] == "1");
this->sleep(_sleep_standby);
wait(0.1);
write(done);
}
}
} else {
bool found = false;
bool query = false;
std::string lookfor = args[0];
// per command help
if ((args[0].find("?") == 0 || args[0].find("HELP") == 0))
lookfor = mts::Text::toUpper(args[1]);
// trim off any trailing '?' and mark as a query command
if (args[0].rfind("?") == args[0].length() - 1) {
query = true;
lookfor = args[0].substr(0, args[0].length() - 1);
}
// search for command
for (std::vector<Command*>::iterator it = _commands.begin(); it != _commands.end() && !found; ++it) {
Command* cmd = *it;
// match CMD or CMD? syntax if command is queryable
if (lookfor == cmd->text() && (!query || (query && cmd->queryable()))) {
found = true;
if (args[0] == "HELP") {
writef("%s%s", cmd->help(), newline);
write(done);
}
else if (args.size() > 1 && args[1] == "?") {
writef("%s%s", cmd->usage().c_str(), newline);
write(done);
} else if (!cmd->verify(args)) {
writef("%s%s", cmd->errorMessage().c_str(), newline);
writef("%s", error);
} else {
if (cmd->action(args) == 0) {
writef("%s", done);
} else {
writef("%s%s", cmd->errorMessage().c_str(), newline);
writef("%s", error);
}
}
}
}
if (!found) {
writef("%s", command_error);
writef("%s", error);
}
}
if (history.size() == 0 || history.front() != command)
history.push_front(command);
history_index = -1;
command.clear();
while (history.size() > 10)
history.pop_back();
}
}
std::string CommandTerminal::formatPacketData(const std::vector<uint8_t>& data, const uint8_t& format) {
if (format == mDot::HEXADECIMAL)
return mts::Text::bin2hexString(data);
else
return std::string(data.begin(), data.end());
}
void CommandTerminal::sleep(bool standby) {
_serial_up = false;
_xbee_on_sleep = GPIO_PIN_RESET;
_serial.rxClear();
_serial.txClear();
_dot->sleep(_dot->getWakeInterval(), _dot->getWakeMode(), standby);
}
bool CommandTerminal::waitForEscape(int timeout, mDot* dot, WaitType wait) {
Timer timer;
Timer escape_timer;
std::string escape_buffer;
int escape_timeout = 1000;
timer.start();
while (timer.read_ms() < timeout) {
if (dot != NULL) {
if (wait == WAIT_SEND && (!dot->getIsTransmitting())) {
return false;
}
}
if (_serialp != NULL && _serialp->readable()) {
if (escape_buffer == "")
escape_timer.start();
char ch;
_serialp->read(&ch, 1);
escape_buffer += ch;
if (escape_buffer == CommandTerminal::escape_sequence)
return true;
}
if (escape_timer.read_ms() > escape_timeout) {
escape_buffer = "";
escape_timer.stop(), escape_timer.reset();
}
osDelay(10);
}
return false;
}
void CommandTerminal::wakeup(bool standby) {
}
