MultiTech
Cellular library for MTS Socket Modem Arduino Shield devices from Multi-Tech Systems
Dependents: mtsas mtsas mtsas mtsas
Revision 82:5b33b670adb7, committed 2018-02-19
- Comitter:
- Leon Lindenfelser
- Date:
- Mon Feb 19 14:25:58 2018 -0600
- Parent:
- 81:2e12915f892e
- Commit message:
- Add support for MTQ-LAT3(LE910-NA1) adn MTQ-LVW3(LE910-sv1)
Changed in this revision
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/Cellular.cpp
--- a/Cellular/Cellular.cpp Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/Cellular.cpp Mon Feb 19 14:25:58 2018 -0600
@@ -77,6 +77,10 @@
return "MTSMC_LEU1";
case MTSMC_LVW2:
return "MTSMC_LVW2";
+ case MTQ_LAT3:
+ return "MTQ_LAT3";
+ case MTQ_LVW3:
+ return "MTQ_LVW3";
case MTQ_MAT1:
return "MTQ-MAT1";
case MTQ_MVW1:
@@ -116,7 +120,10 @@
Cellular::Registration Cellular::getRegistration()
{
- string response = sendCommand("AT+CREG?", 5000);
+ if (type == MTQ_LVW3)
+ string response = sendCommand("AT+CEREG?", 5000);
+ else
+ string response = sendCommand("AT+CREG?", 5000);
if (response.find("OK") == string::npos) {
return UNKNOWN;
}
@@ -228,7 +235,7 @@
}
if(type == MTSMC_H5 || type == MTSMC_G3 || type == MTSMC_EV3 || type == MTSMC_C2 || type == MTSMC_LAT1 || type == MTSMC_LEU1 ||
- type == MTSMC_LVW2 || MTQ_MAT1 || MTQ_MVW1) {
+ type == MTSMC_LVW2 || type == MTQ_LAT3 || type == MTQ_LVW3 || type == MTQ_MAT1 || type == MTQ_MVW1) {
if (result.find("CONNECT\r\n") != std::string::npos) {
done = true;
}
@@ -260,9 +267,11 @@
{
string csmp;
- if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3 || type == MTSMC_LAT1 || type == MTSMC_LEU1 || MTQ_MAT1 || MTQ_MVW1) {
+ if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3 || type == MTSMC_LAT1 || type == MTSMC_LEU1 ||
+ type == MTQ_LAT3 || type == MTQ_MAT1 || type == MTQ_MVW1) {
csmp = "AT+CSMP=17,167,0,0";
- } else if (type == MTSMC_EV3_IP || type == MTSMC_EV3 || type == MTSMC_C2_IP || type == MTSMC_C2 || type == MTSMC_LVW2) {
+ } else if (type == MTSMC_EV3_IP || type == MTSMC_EV3 || type == MTSMC_C2_IP || type == MTSMC_C2 || type == MTSMC_LVW2 ||
+ type == MTQ_LVW3 ) {
csmp = "AT+CSMP=,4098,0,2";
} else {
logError("unknown radio type [%d]", type);
@@ -331,7 +340,7 @@
}
//Start of SMS message
std::vector<std::string> vSmsParts = Text::split(line, ',');
- if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3 || type == MTSMC_LAT1 || type == MTSMC_LEU1 || MTQ_MAT1 || MTQ_MVW1) {
+ if (type == MTSMC_H5_IP || type == MTSMC_H5 || type == MTSMC_G3 || type == MTSMC_LAT1 || type == MTSMC_LEU1 || type == MTQ_LAT3 || type == MTQ_MAT1 || type == MTQ_MVW1) {
/* format for H5 and H5-IP radios
* <index>, <status>, <oa>, <alpha>, <scts>
* scts contains a comma, so splitting on commas should give us 6 items
@@ -343,7 +352,7 @@
sms.phoneNumber = vSmsParts[2];
sms.timestamp = vSmsParts[4] + ", " + vSmsParts[5];
- } else if (type == MTSMC_EV3_IP || type == MTSMC_EV3 || type == MTSMC_C2_IP || type == MTSMC_C2 || type == MTSMC_LVW2) {
+ } else if (type == MTSMC_EV3_IP || type == MTSMC_EV3 || type == MTSMC_C2_IP || type == MTSMC_C2 || type == MTSMC_LVW2 || type == MTQ_LVW3) {
/* format for EV3 and EV3-IP radios
* <index>, <status>, <oa>, <callback>, <date>
* splitting on commas should give us 5 items
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/Cellular.h
--- a/Cellular/Cellular.h Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/Cellular.h Mon Feb 19 14:25:58 2018 -0600
@@ -246,7 +246,7 @@
/// Enumeration for different cellular radio types.
enum Radio {
NA, MTSMC_H5, MTSMC_EV3, MTSMC_G3, MTSMC_C2, MTSMC_H5_IP, MTSMC_EV3_IP, MTSMC_C2_IP, MTSMC_LAT1, MTSMC_LVW2, MTSMC_LEU1,
- MTQ_MAT1, MTQ_MVW1
+ MTQ_LAT3, MTQ_LVW3, MTQ_MAT1, MTQ_MVW1
};
/// An enumeration of radio registration states with a cell tower.
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/CellularFactory.cpp
--- a/Cellular/CellularFactory.cpp Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/CellularFactory.cpp Mon Feb 19 14:25:58 2018 -0600
@@ -1,107 +1,113 @@
-#include "mbed.h"
-#include "CellularFactory.h"
-#include "MTSLog.h"
-#include <string>
-
-using namespace mts;
-
-Cellular* CellularFactory::create(MTSBufferedIO* io) {
- bool uip;
- std::string model;
- std::string reply;
- Cellular::Radio type = Cellular::NA;
- Cellular* cell;
-
- /* wait for radio to get into a good state */
- while (true) {
- if (sendCommand(io, "AT", 1000).find("OK") != string::npos) {
- logTrace("radio replied");
- break;
- } else {
- logTrace("waiting on radio...");
- }
- wait(1);
- }
-
- while (true) {
- /* AT#VVERSION is a UIP specific AT command
- * if we get an error response, we're not using a UIP board */
- reply = sendCommand(io, "AT#VVERSION", 2000);
- if ((reply.find("ERROR") != string::npos) || (reply.find("error") != string::npos)) {
- uip = false;
- break;
- } else if (reply.find("VVERSION:") != string::npos) {
- uip = true;
- break;
- } else {
- logTrace("Checking for UIP chip");
- }
- wait(1);
- }
-
- /* "ATI4" gets us the model (HE910, DE910, etc) */
- while (true) {
- string mNumber;
- model = sendCommand(io, "ATI4", 3000);
- if (uip) {
- if (model.find("HE910") != string::npos) {
- type = Cellular::MTSMC_H5_IP;
- mNumber = "HE910";
- } else if (model.find("DE910") != string::npos) {
- type = Cellular::MTSMC_EV3_IP;
- mNumber = "DE910";
- } else if (model.find("CE910") != string::npos) {
- type = Cellular::MTSMC_C2_IP;
- mNumber = "CE910";
- }
- if (type != Cellular::NA) {
- cell = new UIP(type);
- logDebug("UIP radio model: %s", mNumber.c_str());
- break;
- }
- } else {
- if (model.find("HE910") != string::npos) {
- type = Cellular::MTSMC_H5;
- mNumber = "HE910";
- } else if (model.find("DE910") != string::npos) {
- type = Cellular::MTSMC_EV3;
- mNumber = "DE910";
- } else if (model.find("CE910") != string::npos) {
- type = Cellular::MTSMC_C2;
- mNumber = "CE910";
- } else if (model.find("GE910") != string::npos) {
- type = Cellular::MTSMC_G3;
- mNumber = "GE910";
- } else if (model.find("LE910-NAG") != string::npos) {
- type = Cellular::MTSMC_LAT1;
- mNumber = "LE910-NAG";
- } else if (model.find("LE910-SVG") != string::npos) {
- type = Cellular::MTSMC_LVW2;
- mNumber = "LE910-SVG";
- } else if (model.find("LE910-EUG") != string::npos) {
- type = Cellular::MTSMC_LEU1;
- mNumber = "LE910-EUG";
- } else if (model.find("ME910C1-NA") != string::npos) {
- type = Cellular::MTQ_MAT1;
- mNumber = "ME910C1-NA";
- } else if (model.find("ME910C1-NV") != string::npos) {
- type = Cellular::MTQ_MVW1;
- mNumber = "ME910C1-NV";
- }
- if (type != Cellular::NA) {
- cell = new EasyIP(type);
- logDebug("EasyIP radio model: %s", mNumber.c_str());
- break;
- }
- }
- logTrace("Determining radio type");
- wait(1);
- }
-
- if (! cell->init(io)) {
- logError("cellular initialization failed");
- return NULL;
- }
-
- return cell;
-}
+#include "mbed.h"
+#include "CellularFactory.h"
+#include "MTSLog.h"
+#include <string>
+
+using namespace mts;
+
+Cellular* CellularFactory::create(MTSBufferedIO* io) {
+ bool uip;
+ std::string model;
+ std::string reply;
+ Cellular::Radio type = Cellular::NA;
+ Cellular* cell;
+
+ /* wait for radio to get into a good state */
+ while (true) {
+ if (sendCommand(io, "AT", 1000).find("OK") != string::npos) {
+ logTrace("radio replied");
+ break;
+ } else {
+ logTrace("waiting on radio...");
+ }
+ wait(1);
+ }
+
+ while (true) {
+ /* AT#VVERSION is a UIP specific AT command
+ * if we get an error response, we're not using a UIP board */
+ reply = sendCommand(io, "AT#VVERSION", 2000);
+ if ((reply.find("ERROR") != string::npos) || (reply.find("error") != string::npos)) {
+ uip = false;
+ break;
+ } else if (reply.find("VVERSION:") != string::npos) {
+ uip = true;
+ break;
+ } else {
+ logTrace("Checking for UIP chip");
+ }
+ wait(1);
+ }
+
+ /* "ATI4" gets us the model (HE910, DE910, etc) */
+ while (true) {
+ string mNumber;
+ model = sendCommand(io, "ATI4", 3000);
+ if (uip) {
+ if (model.find("HE910") != string::npos) {
+ type = Cellular::MTSMC_H5_IP;
+ mNumber = "HE910";
+ } else if (model.find("DE910") != string::npos) {
+ type = Cellular::MTSMC_EV3_IP;
+ mNumber = "DE910";
+ } else if (model.find("CE910") != string::npos) {
+ type = Cellular::MTSMC_C2_IP;
+ mNumber = "CE910";
+ }
+ if (type != Cellular::NA) {
+ cell = new UIP(type);
+ logDebug("UIP radio model: %s", mNumber.c_str());
+ break;
+ }
+ } else {
+ if (model.find("HE910") != string::npos) {
+ type = Cellular::MTSMC_H5;
+ mNumber = "HE910";
+ } else if (model.find("DE910") != string::npos) {
+ type = Cellular::MTSMC_EV3;
+ mNumber = "DE910";
+ } else if (model.find("CE910") != string::npos) {
+ type = Cellular::MTSMC_C2;
+ mNumber = "CE910";
+ } else if (model.find("GE910") != string::npos) {
+ type = Cellular::MTSMC_G3;
+ mNumber = "GE910";
+ } else if (model.find("LE910-NAG") != string::npos) {
+ type = Cellular::MTSMC_LAT1;
+ mNumber = "LE910-NAG";
+ } else if (model.find("LE910-SVG") != string::npos) {
+ type = Cellular::MTSMC_LVW2;
+ mNumber = "LE910-SVG";
+ } else if (model.find("LE910-EUG") != string::npos) {
+ type = Cellular::MTSMC_LEU1;
+ mNumber = "LE910-EUG";
+ } else if (model.find("LE910-NA1") != string::npos) {
+ type = Cellular::MTQ_LAT3;
+ mNumber = "LE910-NA1";
+ } else if (model.find("LE910-SV1") != string::npos) {
+ type = Cellular::MTQ_LVW3;
+ mNumber = "LE910-SV1";
+ } else if (model.find("ME910C1-NA") != string::npos) {
+ type = Cellular::MTQ_MAT1;
+ mNumber = "ME910C1-NA";
+ } else if (model.find("ME910C1-NV") != string::npos) {
+ type = Cellular::MTQ_MVW1;
+ mNumber = "ME910C1-NV";
+ }
+ if (type != Cellular::NA) {
+ cell = new EasyIP(type);
+ logDebug("EasyIP radio model: %s", mNumber.c_str());
+ break;
+ }
+ }
+ logTrace("Determining radio type");
+ wait(1);
+ }
+
+ if (! cell->init(io)) {
+ logError("cellular initialization failed");
+ return NULL;
+ }
+
+ return cell;
+}
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/CellularFactory.h
--- a/Cellular/CellularFactory.h Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/CellularFactory.h Mon Feb 19 14:25:58 2018 -0600
@@ -1,18 +1,18 @@
-#ifndef CELLULARFACTORY_H
-#define CELLULARFACTORY_H
-
-#include "UIP.h"
-#include "EasyIP.h"
-#include "MTSBufferedIO.h"
-
-namespace mts {
-
-class CellularFactory
-{
-public:
- static Cellular* create(MTSBufferedIO* io);
-};
-
-}
-
-#endif
+#ifndef CELLULARFACTORY_H
+#define CELLULARFACTORY_H
+
+#include "UIP.h"
+#include "EasyIP.h"
+#include "MTSBufferedIO.h"
+
+namespace mts {
+
+class CellularFactory
+{
+public:
+ static Cellular* create(MTSBufferedIO* io);
+};
+
+}
+
+#endif
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/EasyIP.cpp
--- a/Cellular/EasyIP.cpp Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/EasyIP.cpp Mon Feb 19 14:25:58 2018 -0600
@@ -52,7 +52,7 @@
}
// Shorten data sending timeout from 5s to 100ms
// Some servers won't handle a timeout that long
- snprintf(buf, sizeof(buf), "AT#SCFG=1,%d,300,90,600,1", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "AT#SCFG=1,%d,300,90,600,1", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
if (sendBasicCommand(string(buf), 2000) != MTS_SUCCESS) {
logWarning("Failed to reconfigure socket timeout parameters");
}
@@ -112,7 +112,7 @@
logDebug("Making PPP Connection Attempt");
}
char buf[64];
- snprintf(buf, sizeof(buf), "AT#SGACT=%d,1", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "AT#SGACT=%d,1", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
std::string pppResult = sendCommand(string(buf), 15000);
std::vector<std::string> parts;
if(pppResult.find("OK") != std::string::npos) {
@@ -127,7 +127,7 @@
pppConnected = true;
} else {
- snprintf(buf, sizeof(buf), "%d,1", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "%d,1", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
pppResult = sendCommand("AT#SGACT?", 2000);
if(pppResult.find(string(buf)) != std::string::npos) {
logDebug("Radio is already connected");
@@ -155,7 +155,7 @@
//Sends AT#SGACT=1,0 command
for (int y = 0; y < 5; y++) {
char buf[64];
- snprintf(buf, sizeof(buf), "AT#SGACT=%d,0", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "AT#SGACT=%d,0", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
Code code = sendBasicCommand(string(buf), 1000);
if (code == MTS_SUCCESS) {
logDebug("Successfully closed PPP Connection");
@@ -169,7 +169,7 @@
tmr.start();
while(tmr.read() < 30) {
char buf[16];
- snprintf(buf, sizeof(buf), "%d,0", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "%d,0", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
result = sendCommand("AT#SGACT?", 1000);
if(result.find(string(buf)) != std::string::npos) {
break;
@@ -222,7 +222,7 @@
}
string reply = sendCommand("AT#SGACT?", 1000);
- snprintf(buf, sizeof(buf), "%d,1", type == MTSMC_LVW2 ? 3 : 1);
+ snprintf(buf, sizeof(buf), "%d,1", (type == MTSMC_LVW2 || type == MTQ_LVW3) ? 3 : 1);
if (reply.find(string(buf)) != std::string::npos) {
active = true;
} else {
@@ -526,7 +526,7 @@
}
this->apn = apn;
return code;
- } else if (type == MTSMC_LAT1 || type == MTSMC_LEU1) {
+ } else if (type == MTSMC_LAT1 || type == MTSMC_LEU1 || type == MTQ_LAT3) {
//CGDCONT has options: IP,PPP,IPv6
Code code = sendBasicCommand("AT+CGDCONT=1,\"IP\",\"" + apn + "\"", 1000);
if (code != MTS_SUCCESS) {
@@ -541,11 +541,11 @@
}
this->apn = apn;
return code;
- } else if (type == MTQ_MVW1) {
- logInfo("MTQ_MVW1 does not need an APN");
+ } else if (type == MTQ_MVW1 || type == MTQ_LVW3) {
+ logInfo("Radio does not need an APN");
return MTS_SUCCESS;
} else {
- logInfo("CDMA radios don't need an APN");
+ logInfo("CDMA radios do not need an APN");
return MTS_SUCCESS;
}
}
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/EasyIP.h
--- a/Cellular/EasyIP.h Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/EasyIP.h Mon Feb 19 14:25:58 2018 -0600
@@ -1,154 +1,154 @@
-#ifndef EASYIP_H
-#define EASYIP_H
-
-#include <string>
-#include <vector>
-
-#include "MTSBufferedIO.h"
-#include "Cellular.h"
-
-namespace mts
-{
- /** This class implements the same interface used for UIP version radios on an Easy IP radio
- * using the Hayes AT command set.
- * (See the UIP class and documentation, "UIP.h")
- * This class supports four main types of cellular radio interactions including:
- * configuration and status AT-command processing, SMS processing, TCP Socket data connections,
- * and UDP data connections. It should be noted that the radio can not process commands or
- * SMS messages while having an open data connection at the same time. The concurrent
- * capability may be added in a future release. This class also inherits from IPStack
- * providing a common set of commands for communication devices that have an onboard
- * IP Stack. It is also integrated with the standard mbed Sockets package and can therefore
- * be used seamlessly with clients and services built on top of this interface already within
- * the mbed library.
- * The default baud rate for the cellular radio is 115200 bps.
- *
- * Example code is found under Cellular.h
- */
-class EasyIP : public Cellular
-{
-public:
- /** This static function is used to create or get a reference to a
- * Cellular object. Cellular uses the singleton pattern, which means
- * that you can only have one existing at a time. The first time you
- * call getInstance this method creates a new uninitialized Cellular
- * object and returns it. All future calls to this method will return
- * a reference to the instance created during the first call. Note that
- * you must call init on the returned instance before mnaking any other
- * calls. If using this class's bindings to any of the Socket package
- * classes like TCPSocketConnection, you must call this method and the
- * init method on the returned object first, before even creating the
- * other objects.
- *
- * @returns a reference to the single Cellular obect that has been created.
- */
- EasyIP(Radio type);
-
- /** Destructs a Cellular object and frees all related resources.
- */
- ~EasyIP();
-
- /** Initializes the MTS IO buffer
- */
- virtual bool init(MTSBufferedIO* io);
-
- /** PPP connect command.
- * Connects the radio to the cellular network.
- *
- * @returns true if PPP connection to the network succeeded,
- * false if the PPP connection failed.
- */
- virtual bool connect();
-
- /** PPP disconnect command.
- * Disconnects from the PPP network, and will also close active socket
- * connection if open.
- */
- virtual void disconnect();
-
- /** Checks if the radio is connected to the cell network.
- * Checks antenna signal, cell tower registration, and context activation
- * before finally pinging (4 pings, 32 bytes each) to confirm PPP connection
- * to network. Will return true if there is an open socket connection as well.
- *
- * @returns true if there is a PPP connection to the cell network, false
- * if there is no PPP connection to the cell network.
- */
- virtual bool isConnected();
-
- /** Resets the radio/modem.
- * Disconnects all active PPP and socket connections to do so.
- */
- virtual void reset();
-
- // TCP and UDP Socket related commands
- // For behavior of the following methods refer to IPStack.h documentation
-
- virtual bool open(const std::string& address, unsigned int port, Mode mode);
- virtual bool close(bool shutdown);
- virtual int read(char* data, int max, int timeout = -1);
- virtual int write(const char* data, int length, int timeout = -1);
-
- /** Pings specified DNS or IP address
- * Google DNS server used as default ping address
- * @returns true if ping received alive response else false
- */
- virtual bool ping(const std::string& address = "8.8.8.8");
-
- /** Sets the APN
- *
- * @param apn c-string of the APN to use
- *
- * @returns MTS_SUCCESS if the APN was set, or is not needed, else it
- * returns the result of the AT command sent to the radio to set the APN
- */
- virtual Code setApn(const std::string& apn);
-
- /** Enables GPS.
- * @returns true if GPS gets or is enabled, false if GPS is not supported.
- */
- virtual bool GPSenable();
-
- /** Disables GPS.
- * @returns true if GPS gets or is disabled, false if GPS failed to disable.
- */
- virtual bool GPSdisable();
-
- /** Checks if GPS is enabled.
- * @returns true if GPS is enabled, false if GPS is disabled.
- */
- virtual bool GPSenabled();
-
- /** Get GPS position.
- * @returns a string containing the GPS position.
- */
- virtual Cellular::gpsData GPSgetPosition();
-
- /** Check for GPS fix.
- * @returns true if there is a fix and false otherwise.
- */
- virtual bool GPSgotFix();
-
-private:
- /** Function that sends +++ to the radio to exit data mode
- * returns true if it successfully exits from online mode, else
- * it returns false. Used due to the fact that AT commands
- * cannot be sent while in data mode.
- *
- * @returns true if the radio dropped from data mode to commande mode
- * or is already in command mode (socket is still open in the background),
- * and false if the radio failed to switch to command mode.
- */
- virtual bool sendEscapeCommand();
-
- /** Switches to command mode, queries the status of the socket connection,
- * and then returns back to the active socket connection (if still open)
- *
- * @returns true if a socket is currently open, otherwise it returns false
- */
- virtual bool socketCheck();
-};
-
-}
-
+#ifndef EASYIP_H
+#define EASYIP_H
+
+#include <string>
+#include <vector>
+
+#include "MTSBufferedIO.h"
+#include "Cellular.h"
+
+namespace mts
+{
+ /** This class implements the same interface used for UIP version radios on an Easy IP radio
+ * using the Hayes AT command set.
+ * (See the UIP class and documentation, "UIP.h")
+ * This class supports four main types of cellular radio interactions including:
+ * configuration and status AT-command processing, SMS processing, TCP Socket data connections,
+ * and UDP data connections. It should be noted that the radio can not process commands or
+ * SMS messages while having an open data connection at the same time. The concurrent
+ * capability may be added in a future release. This class also inherits from IPStack
+ * providing a common set of commands for communication devices that have an onboard
+ * IP Stack. It is also integrated with the standard mbed Sockets package and can therefore
+ * be used seamlessly with clients and services built on top of this interface already within
+ * the mbed library.
+ * The default baud rate for the cellular radio is 115200 bps.
+ *
+ * Example code is found under Cellular.h
+ */
+class EasyIP : public Cellular
+{
+public:
+ /** This static function is used to create or get a reference to a
+ * Cellular object. Cellular uses the singleton pattern, which means
+ * that you can only have one existing at a time. The first time you
+ * call getInstance this method creates a new uninitialized Cellular
+ * object and returns it. All future calls to this method will return
+ * a reference to the instance created during the first call. Note that
+ * you must call init on the returned instance before mnaking any other
+ * calls. If using this class's bindings to any of the Socket package
+ * classes like TCPSocketConnection, you must call this method and the
+ * init method on the returned object first, before even creating the
+ * other objects.
+ *
+ * @returns a reference to the single Cellular obect that has been created.
+ */
+ EasyIP(Radio type);
+
+ /** Destructs a Cellular object and frees all related resources.
+ */
+ ~EasyIP();
+
+ /** Initializes the MTS IO buffer
+ */
+ virtual bool init(MTSBufferedIO* io);
+
+ /** PPP connect command.
+ * Connects the radio to the cellular network.
+ *
+ * @returns true if PPP connection to the network succeeded,
+ * false if the PPP connection failed.
+ */
+ virtual bool connect();
+
+ /** PPP disconnect command.
+ * Disconnects from the PPP network, and will also close active socket
+ * connection if open.
+ */
+ virtual void disconnect();
+
+ /** Checks if the radio is connected to the cell network.
+ * Checks antenna signal, cell tower registration, and context activation
+ * before finally pinging (4 pings, 32 bytes each) to confirm PPP connection
+ * to network. Will return true if there is an open socket connection as well.
+ *
+ * @returns true if there is a PPP connection to the cell network, false
+ * if there is no PPP connection to the cell network.
+ */
+ virtual bool isConnected();
+
+ /** Resets the radio/modem.
+ * Disconnects all active PPP and socket connections to do so.
+ */
+ virtual void reset();
+
+ // TCP and UDP Socket related commands
+ // For behavior of the following methods refer to IPStack.h documentation
+
+ virtual bool open(const std::string& address, unsigned int port, Mode mode);
+ virtual bool close(bool shutdown);
+ virtual int read(char* data, int max, int timeout = -1);
+ virtual int write(const char* data, int length, int timeout = -1);
+
+ /** Pings specified DNS or IP address
+ * Google DNS server used as default ping address
+ * @returns true if ping received alive response else false
+ */
+ virtual bool ping(const std::string& address = "8.8.8.8");
+
+ /** Sets the APN
+ *
+ * @param apn c-string of the APN to use
+ *
+ * @returns MTS_SUCCESS if the APN was set, or is not needed, else it
+ * returns the result of the AT command sent to the radio to set the APN
+ */
+ virtual Code setApn(const std::string& apn);
+
+ /** Enables GPS.
+ * @returns true if GPS gets or is enabled, false if GPS is not supported.
+ */
+ virtual bool GPSenable();
+
+ /** Disables GPS.
+ * @returns true if GPS gets or is disabled, false if GPS failed to disable.
+ */
+ virtual bool GPSdisable();
+
+ /** Checks if GPS is enabled.
+ * @returns true if GPS is enabled, false if GPS is disabled.
+ */
+ virtual bool GPSenabled();
+
+ /** Get GPS position.
+ * @returns a string containing the GPS position.
+ */
+ virtual Cellular::gpsData GPSgetPosition();
+
+ /** Check for GPS fix.
+ * @returns true if there is a fix and false otherwise.
+ */
+ virtual bool GPSgotFix();
+
+private:
+ /** Function that sends +++ to the radio to exit data mode
+ * returns true if it successfully exits from online mode, else
+ * it returns false. Used due to the fact that AT commands
+ * cannot be sent while in data mode.
+ *
+ * @returns true if the radio dropped from data mode to commande mode
+ * or is already in command mode (socket is still open in the background),
+ * and false if the radio failed to switch to command mode.
+ */
+ virtual bool sendEscapeCommand();
+
+ /** Switches to command mode, queries the status of the socket connection,
+ * and then returns back to the active socket connection (if still open)
+ *
+ * @returns true if a socket is currently open, otherwise it returns false
+ */
+ virtual bool socketCheck();
+};
+
+}
+
#endif /* EASYIP_H */
\ No newline at end of file
diff -r 2e12915f892e -r 5b33b670adb7 Cellular/UIP.h
--- a/Cellular/UIP.h Wed Nov 15 16:53:29 2017 -0600
+++ b/Cellular/UIP.h Mon Feb 19 14:25:58 2018 -0600
@@ -1,97 +1,97 @@
-#ifndef UIP_H
-#define UIP_H
-
-#include <string>
-#include <vector>
-
-#include "MTSBufferedIO.h"
-#include "Cellular.h"
-
-namespace mts
-{
-
-/** This is a class for communicating with a Multi-Tech Systems SocketModem iCell. The
-* SocketModem iCell is a family of carrier certified embedded cellular radio modules with
-* a common hardware footprint and AT command set for built in IP-stack functionality.
-* This class supports three main types of cellular radio interactions including:
-* configuration and status AT command processing, SMS processing, and TCP Socket
-* data connections. It should be noted that the radio can not process commands or
-* SMS messages while having an open data connection at the same time. The concurrent
-* capability may be added in a future release. This class also inherits from IPStack
-* providing a common set of commands for communication devices that have an onboard
-* IP Stack. It is also integrated with the standard mbed Sockets package and can therefore
-* be used seamlessly with clients and services built on top of this interface already within
-* the mbed library.
-*
-* All of the following examples use the Pin Names for the STMicro Nucleo F401RE board coupled with
-* the SocketModem Shield Arduino compatible board. Please chage Pin Names accordingly to
-* match your hardware configuration. It also assumes the use of RTS/CTS hardware handshaking
-* using GPIOs. To disable this you will need to change settings on the radio module and
-* and use the MTSSerial class instead of MTSSerialFlowControl. The default baud rate for the
-* cellular radio is 115200 bps.
-*
-* Example code is found under Cellular.h
-*/
-
-class UIP : public Cellular
-{
-public:
- /** This static function is used to create or get a reference to a
- * Cellular object. Cellular uses the singleton pattern, which means
- * that you can only have one existing at a time. The first time you
- * call getInstance this method creates a new uninitialized Cellular
- * object and returns it. All future calls to this method will return
- * a reference to the instance created during the first call. Note that
- * you must call init on the returned instance before mnaking any other
- * calls. If using this class's bindings to any of the Socket package
- * classes like TCPSocketConnection, you must call this method and the
- * init method on the returned object first, before even creating the
- * other objects.
- *
- * @returns a reference to the single Cellular object that has been created.
- */
- UIP(Radio type);
-
- /** Destructs a Cellular object and frees all related resources.
- */
- ~UIP();
-
- virtual bool init(MTSBufferedIO* io);
-
- // Cell connection based commands derived from CommInterface.h
- /** Initiates a PPP connection between the radio and the cell network */
- virtual bool connect();
-
- /** Disconnects the PPP connection between the radio and the cell network */
- virtual void disconnect();
-
- /** Checks if the radio has a PPP connection established with the cell network
- * (Can reach the internet essentially)
- */
- virtual bool isConnected();
-
- /** Resets the radio, must first close active socket and PPP connections
- * to do so
- */
- virtual void reset();
-
- // TCP and UDP Socket related commands
- // For behavior of the following methods refer to IPStack.h documentation
- virtual bool open(const std::string& address, unsigned int port, Mode mode);
- virtual bool close(bool shutdown);
- virtual int read(char* data, int max, int timeout = -1);
- virtual int write(const char* data, int length, int timeout = -1);
- virtual bool ping(const std::string& address = "8.8.8.8");
-
- /** A method for setting the APN
- *
- * @param apn APN to be passed as a c-string
- * @returns the standard AT Code enumeration
- */
- virtual Code setApn(const std::string& apn);
-
-};
-
-}
-
-#endif
+#ifndef UIP_H
+#define UIP_H
+
+#include <string>
+#include <vector>
+
+#include "MTSBufferedIO.h"
+#include "Cellular.h"
+
+namespace mts
+{
+
+/** This is a class for communicating with a Multi-Tech Systems SocketModem iCell. The
+* SocketModem iCell is a family of carrier certified embedded cellular radio modules with
+* a common hardware footprint and AT command set for built in IP-stack functionality.
+* This class supports three main types of cellular radio interactions including:
+* configuration and status AT command processing, SMS processing, and TCP Socket
+* data connections. It should be noted that the radio can not process commands or
+* SMS messages while having an open data connection at the same time. The concurrent
+* capability may be added in a future release. This class also inherits from IPStack
+* providing a common set of commands for communication devices that have an onboard
+* IP Stack. It is also integrated with the standard mbed Sockets package and can therefore
+* be used seamlessly with clients and services built on top of this interface already within
+* the mbed library.
+*
+* All of the following examples use the Pin Names for the STMicro Nucleo F401RE board coupled with
+* the SocketModem Shield Arduino compatible board. Please chage Pin Names accordingly to
+* match your hardware configuration. It also assumes the use of RTS/CTS hardware handshaking
+* using GPIOs. To disable this you will need to change settings on the radio module and
+* and use the MTSSerial class instead of MTSSerialFlowControl. The default baud rate for the
+* cellular radio is 115200 bps.
+*
+* Example code is found under Cellular.h
+*/
+
+class UIP : public Cellular
+{
+public:
+ /** This static function is used to create or get a reference to a
+ * Cellular object. Cellular uses the singleton pattern, which means
+ * that you can only have one existing at a time. The first time you
+ * call getInstance this method creates a new uninitialized Cellular
+ * object and returns it. All future calls to this method will return
+ * a reference to the instance created during the first call. Note that
+ * you must call init on the returned instance before mnaking any other
+ * calls. If using this class's bindings to any of the Socket package
+ * classes like TCPSocketConnection, you must call this method and the
+ * init method on the returned object first, before even creating the
+ * other objects.
+ *
+ * @returns a reference to the single Cellular object that has been created.
+ */
+ UIP(Radio type);
+
+ /** Destructs a Cellular object and frees all related resources.
+ */
+ ~UIP();
+
+ virtual bool init(MTSBufferedIO* io);
+
+ // Cell connection based commands derived from CommInterface.h
+ /** Initiates a PPP connection between the radio and the cell network */
+ virtual bool connect();
+
+ /** Disconnects the PPP connection between the radio and the cell network */
+ virtual void disconnect();
+
+ /** Checks if the radio has a PPP connection established with the cell network
+ * (Can reach the internet essentially)
+ */
+ virtual bool isConnected();
+
+ /** Resets the radio, must first close active socket and PPP connections
+ * to do so
+ */
+ virtual void reset();
+
+ // TCP and UDP Socket related commands
+ // For behavior of the following methods refer to IPStack.h documentation
+ virtual bool open(const std::string& address, unsigned int port, Mode mode);
+ virtual bool close(bool shutdown);
+ virtual int read(char* data, int max, int timeout = -1);
+ virtual int write(const char* data, int length, int timeout = -1);
+ virtual bool ping(const std::string& address = "8.8.8.8");
+
+ /** A method for setting the APN
+ *
+ * @param apn APN to be passed as a c-string
+ * @returns the standard AT Code enumeration
+ */
+ virtual Code setApn(const std::string& apn);
+
+};
+
+}
+
+#endif