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mbed-Dot-AT-Firmware
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Dependencies: MTS-Serial libmDot-mbed5
Fork of
Dot-AT-Firmware
by 
MultiTech
CommandTerminal/CmdDisplayConfig.cpp
- Committer:
- Mike Fiore
- Date:
- 2016-04-04
- Revision:
- 9:ff62b20f7000
- Parent:
- 4:666017851052
- Child:
- 14:f9a77400b622
File content as of revision 9:ff62b20f7000:
#include "CmdDisplayConfig.h"
CmdDisplayConfig::CmdDisplayConfig(mDot* dot, mts::MTSSerial& serial)
:
Command(dot, "Display Settings", "AT&V", "Displays current settings and status"),
_serial(serial) {
_help = std::string(text()) + ": " + std::string(desc());
_usage = "TABLE";
}
uint32_t CmdDisplayConfig::action(std::vector<std::string> args) {
_serial.writef("Device ID:\t\t");
_serial.writef("%s\r\n", mts::Text::bin2hexString(_dot->getDeviceId(), ":").c_str());
_serial.writef("Frequency Band:\t\t%s\r\n", mDot::FrequencyBandStr(_dot->getFrequencyBand()).c_str());
_serial.writef("Frequency Sub Band:\t%u\r\n", _dot->getFrequencySubBand());
_serial.writef("Public Network:\t\t%s\r\n", _dot->getPublicNetwork() ? "on" : "off");
_serial.writef("Start Up Mode:\t\t%s\r\n", mDot::ModeStr(_dot->getStartUpMode()).c_str());
_serial.writef("Network Address:\t%s\r\n", mts::Text::bin2hexString(_dot->getNetworkAddress()).c_str());
_serial.writef("Network ID:\t\t");
_serial.writef("%s\r\n", mts::Text::bin2hexString(_dot->getNetworkId(), ":").c_str());
_serial.writef("Network ID Passphrase:\t%s\r\n", _dot->getNetworkName().c_str());
_serial.writef("Network Key:\t\t");
_serial.writef("%s\r\n", mts::Text::bin2hexString(_dot->getNetworkKey(), ".").c_str());
_serial.writef("Network Key Passphrase:\t%s\r\n", _dot->getNetworkPassphrase().c_str());
_serial.writef("Network Session Key:\t");
_serial.writef("%s\r\n", mts::Text::bin2hexString(_dot->getNetworkSessionKey(), ".").c_str());
_serial.writef("Data Session Key:\t");
_serial.writef("%s\r\n", mts::Text::bin2hexString(_dot->getDataSessionKey(), ".").c_str());
_serial.writef("Network Join Mode:\t%s\r\n", mDot::JoinModeStr(_dot->getJoinMode()).c_str());
_serial.writef("Network Join Retries:\t%u\r\n", _dot->getJoinRetries());
_serial.writef("Preserve Session:\t%s\r\n", _dot->getPreserveSession() ? "on" : "off");
_serial.writef("Join Byte Order:\t%s\r\n", _dot->getJoinByteOrder() ? "MSB" : "LSB");
_serial.writef("Join Delay:\t\t%d\r\n", _dot->getJoinDelay());
_serial.writef("App Port:\t\t%d\r\n", _dot->getAppPort());
_serial.writef("Link Check Threshold:\t");
if (_dot->getLinkCheckThreshold() == 0) {
_serial.writef("off\r\n");
} else {
_serial.writef("%lu\r\n", _dot->getLinkCheckThreshold());
}
_serial.writef("Link Check Count:\t");
if (_dot->getLinkCheckCount() == 0) {
_serial.writef("off\r\n");
} else {
_serial.writef("%lu packets\r\n", _dot->getLinkCheckCount());
}
_serial.writef("Error Correction:\t");
if (_dot->getFec() == 0) {
_serial.writef("off\r\n");
} else {
_serial.writef("%u bytes\r\n", _dot->getFec());
}
_serial.writef("ACK Retries:\t\t");
if (_dot->getAck() == 0) {
_serial.writef("off\r\n");
} else {
_serial.writef("%u\r\n", _dot->getAck());
}
_serial.writef("Packet Repeat:\t\t%d\r\n", _dot->getRepeat());
_serial.writef("Encryption:\t\t%s\r\n", _dot->getAesEncryption() ? "on" : "off");
_serial.writef("CRC:\t\t\t%s\r\n", _dot->getCrc() ? "on" : "off");
_serial.writef("Adaptive Data Rate:\t%s\r\n", _dot->getAdr() ? "on" : "off");
_serial.writef("Command Echo:\t\t%s\r\n", _dot->getEcho() ? "on" : "off");
_serial.writef("Verbose Response:\t%s\r\n", _dot->getVerbose() ? "on" : "off");
_serial.writef("Tx Frequency:\t\t%lu\r\n", _dot->getTxFrequency());
_serial.writef("Tx Data Rate:\t\tDR%d - %s\r\n", _dot->getTxDataRate(), _dot->getDateRateDetails(_dot->getTxDataRate()).c_str());
_serial.writef("Tx Power:\t\t%u\r\n", _dot->getTxPower());
_serial.writef("Tx Antenna Gain:\t%d\r\n", _dot->getAntennaGain());
_serial.writef("Tx Wait:\t\t%s\r\n", _dot->getTxWait() ? "on" : "off");
_serial.writef("Tx Inverted Signal:\t%s\r\n", _dot->getTxInverted() ? "on" : "off");
bool hasChannels = false;
for (size_t i = 0; i < 16; i++) {
if (_dot->getConfigChannels()[i] != 0) {
hasChannels = true;
break;
}
}
if (hasChannels) {
_serial.writef("Tx Channels --------------------------------------\r\n");
_serial.writef("\tIndex\tFrequency\tDR Range\r\n");
for (size_t i = 0; i < 16; i++) {
if (_dot->getConfigChannels()[i] != 0)
_serial.writef("\t%d:\t%09lu\t%02x\r\n", i, _dot->getConfigChannels()[i], _dot->getConfigChannelRanges()[i]);
}
_serial.writef("--------------------------------------------------\r\n");
}
_serial.writef("Rx Delay:\t\t%d s\r\n", _dot->getRxDelay());
// _serial.writef("Rx Frequency:\t\t%lu\r\n", _dot->getRxFrequency());
// _serial.writef("Rx Data Rate:\t\t%s\r\n", mDot::DataRateStr(_dot->getRxDataRate()).c_str());
_serial.writef("Rx Inverted Signal:\t%s\r\n", _dot->getRxInverted() ? "on" : "off");
_serial.writef("Rx Output Style:\t%s\r\n", mDot::RxOutputStr(_dot->getRxOutput()).c_str());
_serial.writef("Debug Baud Rate:\t%lu\r\n", _dot->getDebugBaud());
_serial.writef("Serial Baud Rate:\t%lu\r\n", _dot->getBaud());
_serial.writef("Serial Flow Control:\t%s\r\n", _dot->getFlowControl() == 0 ? "off" : "on");
_serial.writef("Serial Clear On Error:\t%s\r\n", _dot->getSerialClearOnError() == 0 ? "off" : "on");
uint8_t mode = _dot->getWakeMode();
_serial.writef("Wake Mode:\t\t%s\r\n", mode == 0 ? "INTERVAL" : ( mode == 1 ? "INTERRUPT" : "BOTH"));
_serial.writef("Wake Interval:\t\t%lu s\r\n", _dot->getWakeInterval());
_serial.writef("Wake Delay:\t\t%lu ms\r\n", _dot->getWakeDelay());
_serial.writef("Wake Timeout:\t\t%u ms\r\n", _dot->getWakeTimeout());
_serial.writef("Wake Pin:\t\t%s\r\n", mDot::pinName2Str(_dot->getWakePin()).c_str());
_serial.writef("Log Level:\t\t%ld\r\n", _dot->getLogLevel());
return 0;
}