MultiTech
Cellular library for MTS Socket Modem Arduino Shield devices from Multi-Tech Systems
Dependents: mtsas mtsas mtsas mtsas
Cellular/EasyIP.cpp
- Committer:
- Vanger
- Date:
- 2014-07-14
- Revision:
- 31:529db15abda7
- Parent:
- 30:1326b623919a
- Child:
- 32:7d5581159bed
File content as of revision 31:529db15abda7:
// This is a template from UIP.cpp for now, will modify code and implement it as I go
#include "mbed.h"
#include "EasyIP.h"
#include "MTSText.h"
#include "MTSLog.h"
#include "CellUtils.h"
using namespace mts;
bool EasyIP::sendEscapeCommand()
{
//string Cellular::sendCommand(const std::string& command, unsigned int timeoutMillis, char esc)
if(io == NULL) {
logError("MTSBufferedIO not set");
return false;
}
if(!socketOpened) {
logError("Socket is not open. Can not send AT escape sequence (+++)");
return false;
}
if(!socketCloseable) {
logError("Socket is not closeable");
return false;
}
io->rxClear();
io->txClear();
std::string result;
unsigned int timeoutMillis = 2000;
const int size_cmd = 3;
//Attempt to write command
wait(1); //Format for +++ command is 1 second wait, send +++, then another second wait
//1s wait after command is implemented as a polling function for 2 seconds
//Option: Could change wait periods to be longer/shorter (0-255)*50ms
if(io->write("+++", size_cmd, timeoutMillis) != size_cmd) {
//Failed to write command
logError("failed to send command to radio within %d milliseconds", timeoutMillis);
return false;
}
int timer = 0;
char tmp[256];
tmp[255] = 0;
bool done = false;
io->read(tmp,255,0);
bool exitmode = false;
do {
wait(0.1);
timer += 100;
//Make a non-blocking read call by passing timeout of zero
int size = io->read(tmp,255,0); //1 less than allocated (timeout is instant)
if(size > 0) {
result.append(tmp, size);
}
if(result.find("OK") != std::string::npos) {
exitmode = true;
done = true;
} else if(result.find("NO CARRIER") != std::string::npos) {
exitmode = true;
done = true;
} else if(result.find("ERROR") != std::string::npos) {
exitmode = false;
done = true;
}
if(timer >= timeoutMillis) {
logDebug("Escape sequence [+++] timed out after %d milliseconds", timeoutMillis);
exitmode = true;
done = true;
}
} while (!done);
return exitmode;
}
bool EasyIP::socketCheck() {
bool status = false;
std::string socketInfo = "9"; //9 is unrecognized
std::vector<std::string> params;
if(sendEscapeCommand()) {
socketOpened = false;
if(sendBasicCommand("AT", 1000) == MTS_SUCCESS) {
socketInfo = sendCommand("AT#SS=1", 2000);
if(socketInfo.find("OK") != std::string::npos) {
//Found valid response
params = Text::split(socketInfo, "\r\n");
params = Text::split(params[1], ",");
socketInfo = params[1];
//Check comparison of params[1] to response codes
} else {
logError("Could not determine socket status[%s]",socketInfo.c_str());
socketInfo == "9"; //9 is unrecognized
}
}
} else {
status = false; //Return value of socketOpened when checking
}
//Check socket status query
if(socketInfo == "2" || socketInfo == "3" || socketInfo == "1" || socketInfo == "4") {
status = true; //2 and 3 are suspended connections
} else if(socketInfo == "0" || socketInfo == "5") {
status = false; //0 is closed socket, probably won't occur
} else {
logError("Could not determine socket status");
status = false; //anything else is unknown status
}
if(status) {
std::string reconnect = sendCommand("AT#SO=1", 2000);
if(reconnect.find("CONNECT") != std::string::npos || reconnect.find("OK") != std::string::npos) {
} else {
logError("Failed to resume socket connection");
}
}
return status;
}
EasyIP::EasyIP(Radio type)
{
//Not sure how the construction process is done,
//but assuming it works for both EasyIP and UIP the same way.
this->type = type;
io = NULL;
dcd = NULL;
dtr = NULL;
resetLine = NULL;
echoMode = true;
pppConnected = false;
socketMode = TCP;
socketOpened = false;
socketCloseable = true;
local_port = 0;
local_address = "";
host_port = 0;
}
EasyIP::~EasyIP()
{
//Same reasoning for the destructor as the constructor,
//assuming it works for UIP, it will work for EasyIP
if (dtr != NULL) {
dtr->write(1);
}
delete dcd;
delete dtr;
delete resetLine;
}
//Initializes the MTS IO Buffer
bool EasyIP::init(MTSBufferedIO* io)
{
if (! Cellular::init(io)) {
return false;
}
logDebug("radio type: %s", Cellular::getRadioNames(type).c_str());
return true;
}
bool EasyIP::connect()
{
//Check if APN is not set, if so, connect will not work.
if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3) {
if(apn.size() == 0) {
logDebug("APN is not set");
return false;
}
}
//Check if socket is open
//flag stored in Cellular.h
if(socketOpened) {
return true;
}
//Check if already connected
//by calling the function isConnected() in EasyIP.cpp
if(isConnected()) {
return true;
}
//Create an mbed timer object
Timer tmr;
//Check Registration: AT+CREG? == 0,1
//(Does the AT command inside Cellular class)
tmr.start();
do {
Registration registration = getRegistration();
if(registration != REGISTERED) {
logTrace("Not Registered [%d] ... waiting", (int)registration);
wait(1);
} else {
break;
}
} while(tmr.read() < 30);
//Check RSSI: AT+CSQ
//Does the command inside Cellular
tmr.reset();
do {
int rssi = getSignalStrength();
logDebug("Signal strength: %d", rssi);
if((rssi == 99) || (rssi == -1)) {
logTrace("No Signal ... waiting");
wait(1);
} else {
break;
}
} while(tmr.read() < 30);
//Similar to AT#CONNECTIONSTART: Make a PPP connection
if (type == MTSMC_H5 || type == MTSMC_G3) {
logDebug("Making PPP Connection Attempt. APN[%s]", apn.c_str());
} else {
logDebug("Making PPP Connection Attempt");
}
//The main thing going on; Sends the AT command to start a connection
//Assuming context is already stored in the modem
std::string pppResult = sendCommand("AT#SGACT=1,1", 2000);
std::vector<std::string> parts;
if(pppResult.find("OK") != std::string::npos) {
parts = Text::split(pppResult, "\r\n");
if(parts.size() >= 2) {
parts = Text::split(parts[1], " ");
local_address = parts[1];
}
logInfo("PPP Connection Established: IP[%s]", local_address.c_str());
pppConnected = true;
} else {
pppResult = sendCommand("AT#SGACT?", 2000);
if(pppResult.empty() || (pppResult.find("ERROR") != std::string::npos)) {
pppConnected = false;
} else {
if(pppResult.find("1,1") != std::string::npos) {
pppConnected = true;
} else {
pppConnected = false;
}
}
}
return pppConnected;
}
void EasyIP::disconnect()
{
//AT#SGACT=1,0: Close a PPP connection
logDebug("Closing PPP Connection");
if(socketOpened) {
if(!close()) { //Calls another EasyIP function to close socket before disconnect
logDebug("Failed to close socket for disconnect");
return; //Can't close connection without AT commands
//(and thus need socket closed)
}
}
//Sends AT#SGACT=1,0 command
if(sendBasicCommand("AT#SGACT=1,0", 1000) == MTS_SUCCESS) {
pppConnected = false;
logDebug("Successfully closed PPP Connection");
}
pppConnected = false; //Cell will drop connection if we go silent
return;
}
bool EasyIP::isConnected()
{
std::string stateString;
std::vector<std::string> pieces;
//state flags for various connection checks
bool signal = false, regist = false, active = false;
//1) Check if APN was set if we're on an HSPA radio
if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3) {
if(apn.size() == 0) {
logDebug("APN is not set");
return false;
}
}
//2) Check that we do not have a live connection up
if(socketOpened) {
logDebug("Socket is opened");
return true;
}
//3) Query the radio
//Check antenna signal
std::string reply = sendCommand("AT+CSQ", 500);
if(reply.empty() || (reply.find("ERROR") != std::string::npos)) {
signal = false;
} else {
pieces = Text::split(reply, "\r\n");
if(pieces.size() >= 2) {
pieces = Text::split(pieces[1], " ");
if(pieces.size() >= 2) {
if((pieces[1].find("0,0") != std::string::npos) || (pieces[1].find("99,99") != std::string::npos)) {
signal = false;
} else {
signal = true;
}
}
}
}
//Check cell tower registration
reply = sendCommand("AT+CREG?", 500);
if(reply.empty() || (reply.find("ERROR") != std::string::npos)) {
regist = false;
} else {
pieces = Text::split(reply, "\r\n");
if(pieces.size() >= 2) {
pieces = Text::split(pieces[1], " ");
if(pieces.size() >= 2) {
if((pieces[1].find("0,1") != std::string::npos) || (pieces[1].find("0,5") != std::string::npos)) {
regist = true; //1 for connected, 5 for roaming connected
} else {
regist = false; //Cell tower not registered
}
}
}
}
//Check active mode (SGACT = 1,1)
reply = sendCommand("AT#SGACT?", 500);
if(reply.empty() || (reply.find("ERROR") != std::string::npos)) {
active = false;
} else {
pieces = Text::split(reply, "\r\n");
if(pieces.size() >= 2) {
pieces = Text::split(pieces[1], " ");
if(pieces.size() >= 2) {
if(pieces[1].find("1,1") != std::string::npos) {
active = true; //1 for an active connection mode
} else {
active = false; //0, or unknown value, is an inactive connection mode
}
}
}
}
//4) Determine radio state
if(regist && signal) {
if(pppConnected) {
if(active) {
if(ping()) {
stateString = "CONNECTED";
pppConnected = true;
} else {
stateString = "AUTHENTICATING";
pppConnected = true;
return false; //Return false instead of changing pppConnected due to the fact
//that it is connected to ppp, it just can't ping successfully
}
} else {
stateString = "DISCONNECTING";
pppConnected = false;
}
} else {
if(active) {
if(ping()) {
pppConnected = true;
logWarning("Internal PPP state tracking differs from radio (DISCONNECTED:CONNECTED)");
stateString = "CONNECTED";
} else {
stateString = "CONNECTING";
}
} else {
stateString = "IDLE";
}
}
} else if(regist != signal) {
stateString = "CHECKING";
pppConnected = false;
} else if(!regist && !signal) {
stateString = "DISCONNECTED";
pppConnected = false;
}
//Log results if necessary
if(stateString != "CONNECTED") {
logWarning("Internal PPP state tracking differs from radio (CONNECTED:%s)",stateString.c_str());
}
return pppConnected;
}
//Binds the socket to a specific port if able
bool EasyIP::bind(unsigned int port)
{
if(socketOpened) {
logError("socket is open. Can not set local port");
return false;
}
if(port > 65535) {
logError("port out of range (0-65535)");
return false;
}
local_port = port;
return true;
}
bool EasyIP::open(const std::string& address, unsigned int port, Mode mode)
{
char sOpenSocketCmd[256] = {0}; //String for AT command
std::string sMode = "";
int typeSocket = 0;
int closeType = 0;
//1) Check that we do not have a live connection up
if(socketOpened) {
//Check that the address, port, and mode match
if(host_address != address || host_port != port || socketMode != mode) {
if(socketMode == TCP) {
logError("TCP socket already opened [%s:%d]", host_address.c_str(), host_port);
} else {
logError("UDP socket already opened [%s:%d]", host_address.c_str(), host_port);
}
return false;
}
logDebug("Socket already opened");
return true;
}
//2) Check Parameters
if(port > 65535) {
logError("port out of range (0-65535)");
return false;
}
//3) Check PPP connection
if(!isConnected()) {
logError("PPP not established. Attempting to connect");
if(!connect()) {
logError("PPP connection failed");
return false;
} else {
logDebug("PPP connection established");
}
}
//No way to "set" port except on socket call;
//Going to need to warn if local_port was not set.
if(!local_port) {
logDebug("No local port was set: 0");
}
//4) Set escape sequence to not be transmitted
if(sendBasicCommand("AT#SKIPESC=1", 2000) != MTS_SUCCESS) {
logWarning("Failed to disable escape sequence transmission on data mode suspension");
}
if(mode == TCP) {
typeSocket = 0;
sMode = "TCP";
} else {
typeSocket = 1;
sMode = "UDP";
}
if(socketCloseable) {
closeType = 0;
} else {
closeType = 255;
}
//5) Open Socket
sprintf(sOpenSocketCmd, "AT#SD=1,%d,%d,%s,%d,%d,0", typeSocket, port, address.c_str(),closeType , local_port);
std::string response = sendCommand(sOpenSocketCmd, 5000);
if(response.find("CONNECT") != std::string::npos) {
host_address = address;
host_port = port;
logInfo("Opened %s Socket [%s:%d]", sMode.c_str(), address.c_str(), port);
socketOpened = true;
socketMode = mode;
} else {
logWarning("Unable to open %s Socket [%s:%d]", sMode.c_str(), address.c_str(), port);
socketOpened = false;
}
return socketOpened;
}
bool EasyIP::isOpen()
{
if(io->readable()) {
logDebug("Assuming open, data available to read.\n\r");
return true;
}
return socketOpened;
}
bool EasyIP::close()
{
if(io == NULL) {
logError("MTSBufferedIO not set");
return false;
}
if(!socketOpened) {
logWarning("Socket close() called, but socket was not open");
return true;
}
if(!socketCloseable) {
logError("Socket is not closeable");
return false;
}
if(!sendEscapeCommand()) {
logError("Failed to exit online mode");
return false;
} else {
socketOpened = false;
}
if(sendBasicCommand("AT#SH=1", 2000) != MTS_SUCCESS) {
logDebug("Failed to close socket connection");
}
Timer tmr;
int counter = 0;
char tmp[256];
tmr.start();
do {
if(socketOpened == false) {
break;
}
read(tmp, 256, 1000);
} while(counter++ < 10);
io->rxClear();
io->txClear();
return !socketOpened;
}
int EasyIP::read(char* data, int max, int timeout)
{
if(io == NULL) {
logError("MTSBufferedIO not set");
return -1;
}
//Check that nothing is in the rx buffer
if(!socketOpened && !io->readable()) {
logError("Socket is not open");
return -1;
}
int bytesRead = 0;
if(timeout >= 0) {
bytesRead = io->read(data, max, static_cast<unsigned int>(timeout));
} else {
bytesRead = io->read(data, max);
}
if(bytesRead > 0 && socketCloseable) {
//Scan for socket closed message
for(size_t i = 0; i < bytesRead; i++) {
if(data[i] == 'N') {
if(strstr(&data[i], "NO CARRIER")) {
logTrace("Found socket closed message. Checking validity");
//Close socket and Cut Off End of Message
socketOpened = socketCheck(); //Verifies legitimacy of socket disconnect
if(socketOpened) {
logDebug("Socket still open");
continue;
} else {
logDebug("Socket closed");
data[i] = '\0';
bytesRead = i;
break;
}
}
}
}
}
return bytesRead;
}
int EasyIP::write(const char* data, int length, int timeout)
{
if(io == NULL) {
logError("MTSBufferedIO not set");
return -1;
}
if(!socketOpened) {
logError("Socket is not open");
return -1;
}
int bytesWritten = 0;
int size = length;
int failedWrites = 0;
if(timeout >= 0) {
Timer tmr;
tmr.start();
do {
int available = io->writeable();
if (available > 0) {
size = MIN(available, length - bytesWritten);
bytesWritten += io->write(&data[bytesWritten], size);
} else {
wait(0.05);
}
} while (tmr.read_ms() <= timeout && bytesWritten < length);
} else {
//If timeout is -1:
do {
int available = io->writeable();
if(available > 0) {
size = MIN(available, length - bytesWritten);
int currentWritten = io->write(&data[bytesWritten], size);
bytesWritten += currentWritten;
if(!currentWritten) {
failedWrites++;
}
if(failedWrites > 10) {
logError("Couldn't write any characters");
return bytesWritten;
}
} else {
wait(0.05);
}
} while (bytesWritten < length);
}
return bytesWritten;
}
unsigned int EasyIP::readable()
{
if(io == NULL) {
logWarning("MTSBufferedIO not set");
return 0;
}
if(!socketOpened && !io->readable()) {
logWarning("Socket is not open");
return 0;
}
return io->readable();
}
unsigned int EasyIP::writeable()
{
if(io == NULL) {
logWarning("MTSBufferedIO not set");
return 0;
}
if(!socketOpened) {
logWarning("Socket is not open");
return 0;
}
return io->writeable();
}
bool EasyIP::setDeviceIP(std::string address)
{
if (address.compare("DHCP") == 0) {
return true;
} else {
logWarning("Radio does not support static IPs, using DHCP.\n\r");
return false;
}
}
Code EasyIP::setApn(const std::string& apn)
{
if (type == MTSMC_H5 || type == MTSMC_G3) {
//Set IP,PPP,IPv6
Code code = sendBasicCommand("AT+CGDCONT=1,PPP," + apn, 1000);
if (code != MTS_SUCCESS) {
return code;
}
this->apn = apn;
return code; //This will return MTS_SUCCESS
} else {
logInfo("CDMA radios don't need an APN");
return MTS_SUCCESS;
}
}
void EasyIP::reset()
{
disconnect();
if(sendBasicCommand("AT#REBOOT", 10000) != MTS_SUCCESS) {
logError("Socket Modem did not accept RESET command\n\r");
} else {
logWarning("Socket Modem is resetting, allow 30 seconds for it to come back\n\r");
return;
}
}
std::string EasyIP::getDeviceIP()
{
return local_address;
}
//Turns off echo when it receives a 1, turns on when it receives anything else
Code EasyIP::echo(bool state)
{
Code code;
if (state) {
code = sendBasicCommand("ATE0", 1000);
echoMode = (code == MTS_SUCCESS) ? false : echoMode;
} else {
code = sendBasicCommand("ATE1", 1000);
echoMode = (code == MTS_SUCCESS) ? true : echoMode;
}
return code;
}
bool EasyIP::ping(const std::string& address)
{
char buffer[256] = {0};
std::vector<std::string> parts;
int pingsRec=0;
int TTL=0;
int Timeout=0;
//Format parameters for sending to radio
sprintf(buffer, "AT#PING=%s,1,32,%d", address.c_str(), (PINGDELAY*10));
for(int pngs=0; pngs<PINGNUM; pngs++) {
std::string response = sendCommand(buffer, (PINGDELAY*1010)); //Send 1 ping
if(response.empty()) {
continue; //Skip current loop if send command fails
}
if(response.find("ERROR") != std::string::npos) {
continue; //Skip current loop if send command fails
}
parts = Text::split(response, "\r\n");
if(parts.size() < 2) {
continue;
}
parts = Text::split(parts[1], ",");
if(parts.size() < 4) {
continue;
}
//Parse TTL and Timeout values
Timeout = std::atoi(parts[2].c_str());
TTL = std::atoi(parts[3].c_str());
if((Timeout < 600) && (TTL < 255)) {
pingsRec++;
}
} //Success if less than 50% packet loss
if( ((pingsRec/PINGNUM)>= 0.5) ) {
return true;
}
return false;
}
//Pass 1 to enable socket closeable
//Pass 0 to disable socket closeable
Code EasyIP::setSocketCloseable(bool enabled)
{
if(socketCloseable == enabled) {
return MTS_SUCCESS;
}
if(socketOpened) {
logError("socket is already opened. Can not set closeable");
return MTS_ERROR;
}
socketCloseable = enabled;
return MTS_SUCCESS;
}