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/**********************************************************************
* COPYRIGHT 2020 MULTI-TECH SYSTEMS, INC.
*
* ALL RIGHTS RESERVED BY AND FOR THE EXCLUSIVE BENEFIT OF
* MULTI-TECH SYSTEMS, INC.
*
* MULTI-TECH SYSTEMS, INC. - CONFIDENTIAL AND PROPRIETARY
* INFORMATION AND/OR TRADE SECRET.
*
* NOTICE: ALL CODE, PROGRAM, INFORMATION, SCRIPT, INSTRUCTION,
* DATA, AND COMMENT HEREIN IS AND SHALL REMAIN THE CONFIDENTIAL
* INFORMATION AND PROPERTY OF MULTI-TECH SYSTEMS, INC.
* USE AND DISCLOSURE THEREOF, EXCEPT AS STRICTLY AUTHORIZED IN A
* WRITTEN AGREEMENT SIGNED BY MULTI-TECH SYSTEMS, INC. IS PROHIBITED.
*
***********************************************************************/
#include "Device.h"
const std::vector<std::string> Device::apIdentifiers = {"ap1", "ap2", "lora", "lora-2", "slot1", "slot2"};
const std::regex Device::apFilters("(modalias)|(power)(.*)|(subsystem)|(uevent)");
const std::regex Device::lora15Filters("(MTAC-LORA-)(.*)|(MTCAP-LORA-)(.*)|(MTLGA-)(.*)|(MTCDT3-)(.*)");
const std::regex Device::loraG16Filters("(MTAC-LORA-G16)(.*)");
const std::regex Device::loraG64Filters("(MTAC-LORA-G64)(.*)");
const std::regex Device::gpiobFilters("(MTAC-GPIOB)|(MMTAC-GPIOI)");
const std::regex Device::mfserFilters("(MTAC-MFSER-DTE)|(MTAC-MFSER-DCE)|(MTR-)(.*)");
const std::regex Device::serialModeFilter("(.*)(serial-mode)");
const std::regex Device::storeFilters("(.*)(mac-)(.*)|(.*)(-id)|(uuid)|(.*)(/eui)|(.*)(/cdone)|(.*)(hw-version)|(imei)|(capability)(.*)|(radio-reset-backoff-seconds)|(modalias)|(power)|((subsystem)(.*))|(uevent)|(board-temperature)|(reset)|(led3)|(led-ls)|(usbhd-ps-oc)|(.*)(adc[0-9])|(.*)(din[0-9])|(gpi[0-9])|(gpi[0-9][0-9])");
const std::regex Device::showFilters("(modalias)|(subsystem)|(uevent)");
Device::Device() {
isRoot = !getuid();
}
void Device::exitHandler(int code) {
if (code != 0) {
logError("exiting with " + std::to_string(code));
}
exit(code);
}
bool Device::fileExists(std::string file) {
struct stat buffer;
return (stat (file.c_str(), &buffer) == 0) ? true : false;
}
mode_t Device::fileType(std::string file) {
struct stat buf;
stat (file.c_str(), &buf);
return buf.st_mode & S_IFMT;
}
void Device::getSystemTreeJson(const char * dir_name) {
std::string fullPath = SYSFS_PLATFORM + std::string(dir_name);
DIR * d = opendir (fullPath.c_str());
if (!d) {
logError("Cannot open directory " + fullPath);
exitHandler(99);
}
while (1) {
struct dirent * entry;
const char * d_name;
entry = readdir (d); // Gets subsequent entries from "d"
if (!entry) { // If there are no more entries, exit
break;
}
d_name = entry->d_name; // Get file name
if (!(entry->d_type & DT_DIR)) {
std::string fileData;
MTS::System::readFile(fullPath + "/" + std::string(d_name), fileData);
fileData = MTS::Text::trim(fileData);
if (strlen(dir_name) > 0) {
if (std::binary_search(apIdentifiers.begin(), apIdentifiers.end(), dir_name) && !regex_match(d_name, apFilters)) {
if (accessoryCard.IsNull()) {
accessoryCard.SetObject();
} else if (accessoryCard.HasMember(d_name)) {
accessoryCards.PushBack(accessoryCard, accessoryCardsAlloc);
accessoryCard.SetObject();
}
if (strcmp(d_name, "product-id") == 0) {
if (regex_match(fileData, lora15Filters)) {
capabilityList["lora"] = true;
AccessoryCardLora15 mSPI(fileData, dir_name);
mSPI.getFPGAVersion();
accessoryCard.AddMember("loraFpgaVersion", mSPI.getFPGAVersion(), accessoryCardsAlloc);
} else if (regex_match(fileData, loraG16Filters)) {
capabilityList["lora"] = true;
std::string fpgaVersion;
MTS::System::cmd(LORA_2_1_FPGA_VERSION, fpgaVersion);
accessoryCard.AddMember("loraFpgaVersion", std::stoi(fpgaVersion), accessoryCardsAlloc);
} else if (regex_match(fileData, loraG64Filters)) {
capabilityList["lora"] = true;
std::string fpgaVersion;
std::string fpgaVersion2;
MTS::System::cmd(LORA_2_1_FPGA_VERSION, fpgaVersion);
MTS::System::cmd(LORA_2_1_EXT_FPGA_VERSION, fpgaVersion2);
accessoryCard.AddMember("loraFpgaVersion", std::stoi(fpgaVersion), accessoryCardsAlloc);
accessoryCard.AddMember("loraFpgaVersion2", std::stoi(fpgaVersion2), accessoryCardsAlloc);
} else if (regex_match(fileData, gpiobFilters)) {
capabilityList["adc"] = true;
capabilityList["din"] = true;
capabilityList["dout"] = true;
capabilityList["gpio"] = true;
} else if (regex_match(fileData, mfserFilters)) {
capabilityList["rs232"] = true;
capabilityList["rs422"] = true;
capabilityList["rs485"] = true;
capabilityList["serial"] = true;
if (!fileExists("/dev/ext_serial") && strlen(dir_name) > 0) {
std::string temp;
MTS::System::cmd("ln -s /dev/ttyAP" + std::string(dir_name + strlen(dir_name) - 1) + " /dev/ext_serial", temp);
}
}
}
accessoryCard.AddMember(rapidjson::Value().SetString(toCamelCase(d_name).c_str(), accessoryCardsAlloc), rapidjson::Value().SetString(fileData.c_str(), accessoryCardsAlloc), accessoryCardsAlloc);
} else if (strcmp (dir_name, "capability") == 0 && fileData == "1") {
capabilityList[toCamelCase(d_name)] = true;
}
} else if ((entry->d_type != DT_LNK)){
if (deviceInfoList.count(toCamelCase(d_name)) > 0) {
deviceInfoList[toCamelCase(d_name)] = fileData;
} else if (strcmp(d_name, "hw-version") == 0) {
deviceInfoList["hardwareVersion"] = fileData;
} else if (strcmp(d_name, "mac-eth") == 0) {
deviceInfoList["macAddress"] = fileData;
}
}
}
if (entry->d_type & DT_DIR) { /* Check that the directory is not "d" or d's parent. */
if (strcmp (d_name, "..") != 0 && strcmp (d_name, ".") != 0) {
std::string path = fullPath + "/" + std::string(d_name);
if (path.length() >= PATH_MAX) {
logError("Path length has got too long.\n");
exitHandler(99);
}
getSystemTreeJson(d_name); /* Recursively call with the new path */
}
}
}
if (closedir (d)) { /* After going through all the entries, close the directory. */
logError("Could not close " + std::string(fullPath));
exitHandler(errno);
}
}
void Device::init() {
if (!isRoot) {
logError("Must be root to generate device_info.json");
exitHandler(99);
}
load();
writeJson();
exitHandler(0);
}
void Device::json() {
if (!isRoot) {
logError("Must be root to generate json");
exitHandler(99);
}
load();
printJson();
exitHandler(0);
}
void Device::load() {
deviceInfo.SetObject();
capabilities.SetObject();
accessoryCards.SetArray();
getSystemTreeJson("");
if (!accessoryCard.IsNull()) {
accessoryCards.PushBack(accessoryCard, accessoryCardsAlloc);
}
mapFileToCapability();
mapFirmware();
for (const auto capability : capabilityList) {
capabilities.AddMember(rapidjson::Value().SetString(capability.first.c_str(),
capability.first.length(), accessoryCardsAlloc), capability.second, accessoryCardsAlloc);
}
for (const auto device : deviceInfoList) {
deviceInfo.AddMember(rapidjson::Value().SetString(device.first.c_str(),
device.first.length(), alloc), rapidjson::Value().SetString(device.second.c_str(),
device.second.length(), alloc), alloc);
}
deviceInfo.AddMember("capabilities", capabilities, alloc);
deviceInfo.AddMember("accessoryCards", accessoryCards, alloc);
}
void Device::logError(std::string info) {
printf("error: %s\n", info.c_str());
}
void Device::logInfo(std::string info) {
if (verbose) {
printf("info: %s\n", info.c_str());
}
}
void Device::mapFileToCapability() {
if (fileType("/dev/modem_at0") == S_IFLNK && fileType("/dev/modem_at1") == S_IFLNK) { /* Cellular module symlink */
capabilityList["cell"] = true;
}
if (fileType("/dev/cdc-wdm0") == S_IFCHR) { /* Cellular modem is wwan/qmi character device */
capabilityList["cellWwan"] = true;
}
if (fileType("/dev/ext_serial") == S_IFCHR) { /* ext_serial is a character device */
capabilityList["externalSerialPort"] = true;
}
if (fileType("/opt/node-red") == S_IFDIR) { /* node-red is a directory */
capabilityList["nodeRed"] = true;
}
if (fileType("/opt/lora/lora-network-server") == S_IFREG) { /* lora-network-server is a regular file */
capabilityList["loraNetworkServer"] = true;
}
}
void Device::mapFirmware() {
std::ifstream file(FIRMWARE_FILE);
if (!file.is_open()){
return;
}
std::string line;
while (std::getline(file, line)){
if (line.find(FIRMWARE_VERSION) != std::string::npos){
deviceInfoList["firmware"] = line.substr(line.find(" ") + 1);
} else if (line.find(FIRMWARE_DATE) != std::string::npos){
deviceInfoList["firmwareDate"] = line.substr(line.find(" ") + 1);
}
}
}
void Device::printDir(const std::string dir_name, std::vector<std::string> &results) {
std::string fullPath = SYSFS_PLATFORM + std::string(dir_name);
DIR * d = opendir(fullPath.c_str());
if (!d) {
logError("Cannot open directory " + std::string(fullPath));
exitHandler(99);
}
while (1) {
struct dirent * entry = readdir (d);
if (!entry) {
break;
}
const char * d_name = entry->d_name;
if (!(entry->d_type & DT_DIR)) {
std::string result;
if (dir_name.size() > 0) {
result = (dir_name + "/");
}
result.append(d_name);
results.push_back(result);
}
if ((entry->d_type & DT_DIR) && strcmp (d_name, "..") != 0 && strcmp (d_name, ".") != 0) {
std::string path = fullPath + "/" + std::string(d_name);
if (path.length() >= PATH_MAX) {
logError("Path length has got too long.\n");
exitHandler(99);
}
printDir(d_name, results);
}
}
if (closedir (d)) { /* After going through all the entries, close the directory. */
logError("Could not close " + std::string(fullPath));
exitHandler(errno);
}
}
void Device::printJson() {
rapidjson::StringBuffer buffer;
rapidjson::Writer<rapidjson::StringBuffer> writer(buffer);
deviceInfo.Accept(writer);
std::cout << buffer.GetString();
}
void Device::printVersion (std::string name) {
printf("%s %s\nCopyright (C) 2019 by Multi-Tech Systems\nThis program is free software; you may redistribute it under the terms of\nthe GNU General Public License version 2 or (at your option) any later version.\nThis program has absolutely no warranty.\n",name.c_str(), Version::version.c_str());
}
void Device::printUsage(std::string program) {
std::vector<std::string> showResults;
printf("Usage: %s [ OPTIONS ] OBJECT [--] [ ARGUMENTS ]\n", program.c_str());
printf("where OBJECT := {\n");
printf(" init |\n");
printf(" show SHOW-NAME |\n");
printf(" store STORE-NAME |\n");
printf(" json |\n");
printf(" }\n");
printf("\n");
printf(" SHOW-NAME := {\n");
printDir("", showResults);
sort(showResults.begin(), showResults.end()); // Unix file tree is not sorted
for (std::string showResult: showResults) {
if (!regex_match(showResult, showFilters))
printf (" %s\n", showResult.c_str());
}
printf(" }\n");
printf("\n");
printf(" STORE-NAME := {\n");
for (std::string showResult: showResults) {
if (showResult == "radio-reset") {
printf (" %s { 0 }\n", showResult.c_str());
} else if (showResult == "reset-monitor") {
printf (" %s { pid short-signal long-signal [extra-long-signal] }\n", showResult.c_str());
} else if (showResult == "reset-monitor-intervals") {
printf (" %s { short-interval long-interval }\n", showResult.c_str());
} else if (regex_match(showResult, serialModeFilter)) {
printf (" %s { loopback | rs232 | rs485-half | rs422-485-full }\n", showResult.c_str());
} else if (!regex_match(showResult, storeFilters)) {
printf (" %s BOOLEAN\n", showResult.c_str());
}
}
printf(" OPTIONS := {\n");
printf(" --verbose\n");
printf(" }\n");
printf("\n");
printf(" BOOLEAN := { OFF | ON }\n");
printf(" OFF := 0\n");
printf(" ON := 1\n");
printf("\n");
exitHandler(1);
}
void Device::show(std::string name) {
std::string fileData;
int32_t code = MTS::System::readFile(SYSFS_PLATFORM + name, fileData);
if (code == 0) {
printf("%s",fileData.c_str());
exitHandler(0);
} else {
logError("cat: can't open " + std::string(SYSFS_PLATFORM) + name + ": No such file or directory");
exitHandler(99);
}
}
void Device::showTrigger(std::string name) {
std::string fileData;
int32_t code = MTS::System::readFile(LEDS_GPIO_DIR + name + "/trigger", fileData);
if (code == 0) {
printf("%s",fileData.c_str());
exitHandler(0);
} else {
logError("can't not open '" + std::string(LEDS_GPIO_DIR) + name + "/trigger': No such file or directory");
exitHandler(99);
}
}
void Device::store(std::string name, std::string value) {
if (!isRoot) {
logError("Must be root to store to " + name);
exitHandler(99);
}
logInfo("setting " + name + " to " + value);
std::ofstream fileToWrite(SYSFS_PLATFORM + name);
if (!fileToWrite.bad()) {
fileToWrite << value;
fileToWrite.close();
exitHandler(0);
} else {
logError("can't not open '" + std::string(SYSFS_PLATFORM) + name + "': No such file or directory");
exitHandler(99);
}
}
void Device::storeTrigger(std::string name, std::string value) {
if (!isRoot) {
logError("Must be root to storeTrigger to " + name + "/trigger");
exitHandler(99);
}
logInfo("setting " + name + " to " + value);
std::ofstream fileToWrite(LEDS_GPIO_DIR + name + "/trigger");
if (!fileToWrite.bad()) {
fileToWrite << value;
fileToWrite.close();
exitHandler(0);
} else {
logError("can't not open '" + std::string(LEDS_GPIO_DIR) + name + "/trigger': No such file or directory");
exitHandler(99);
}
}
std::string Device::toCamelCase(const char * d_name) {
std::string camelString = strdup(d_name);
std::string tempString = "";
for (size_t x = 0; x < camelString.length(); x++){
if (camelString[x] == '-' || camelString[x] == '_'){
tempString = camelString.substr(x + 1, 1);
transform(tempString.begin(), tempString.end(), tempString.begin(), toupper);
camelString.erase(x, 2);
camelString.insert(x, tempString);
}
}
return camelString;
}
void Device::Verbose(bool val) {
verbose = val;
}
bool Device::Verbose() {
return verbose;
}
void Device::writeJson() {
rapidjson::StringBuffer buffer;
rapidjson::Writer<rapidjson::StringBuffer> writer(buffer);
deviceInfo.Accept(writer);
std::ofstream os(DEVICE_INFO_FILE);
if (!os) {
logError("Can't write to " + std::string(DEVICE_INFO_FILE));
exitHandler(99);
} else {
os << buffer.GetString();
}
}
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