mbed official
u-blox USB modems (GSM and CDMA)
Dependencies: CellularUSBModem
Dependents: C027_CANInterfaceComm C027_ModemTransparentUSBCDC_revb UbloxModemHTTPClientTest C027_HTTPClientTest ... more
Legacy Networking Libray
This is an mbed 2 networking library. For an mbed OS 5 compatible library, please see:
Import libraryC027Interface
Socket interface for C027Interface. Implements the NetworkSocketAPI
Last commit 20 Apr 2017 by 
NetworkSocketAPI
UbloxModem.cpp
- Committer:
- mbed_official
- Date:
- 2014-03-04
- Revision:
- 8:45f5433cfa96
- Parent:
- 6:5a1583d0e6cd
File content as of revision 8:45f5433cfa96:
/* UbloxModem.cpp */
/* Copyright (C) 2012 mbed.org, MIT License
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software
* and associated documentation files (the "Software"), to deal in the Software without restriction,
* including without limitation the rights to use, copy, modify, merge, publish, distribute,
* sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or
* substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
* BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#define __DEBUG__ 3
#ifndef __MODULE__
#define __MODULE__ "UbloxModem.cpp"
#endif
#include "core/fwk.h"
#include "sms/GSMSMSInterface.h"
#include "sms/CDMASMSInterface.h"
#include "UbloxModem.h"
UbloxModem::UbloxModem(IOStream* atStream, IOStream* pppStream) :
m_at(atStream), // Construct ATCommandsInterface with the AT serial channel
m_CdmaSms(&m_at), // Construct SMSInterface with the ATCommandsInterface
m_GsmSms(&m_at), // Construct SMSInterface with the ATCommandsInterface
m_ussd(&m_at), // Construct USSDInterface with the ATCommandsInterface
m_linkMonitor(&m_at), // Construct LinkMonitor with the ATCommandsInterface
m_ppp(pppStream ? pppStream : atStream), // Construct PPPIPInterface with the PPP serial channel
m_ipInit(false), // PPIPInterface connection is initially down
m_smsInit(false), // SMSInterface starts un-initialised
m_ussdInit(false), // USSDInterface starts un-initialised
m_linkMonitorInit(false), // LinkMonitor subsystem starts un-initialised
m_atOpen(false), // ATCommandsInterface starts in a closed state
m_onePort(pppStream == NULL),
m_type(UNKNOWN)
{
}
genericAtProcessor::genericAtProcessor()
{
i = 0;
str[0] = '\0';
}
const char* genericAtProcessor::getResponse(void)
{
return str;
}
int genericAtProcessor::onNewATResponseLine(ATCommandsInterface* pInst, const char* line)
{
int l = strlen(line);
if (i + l + 2 > sizeof(str))
return NET_OVERFLOW;
if (i) str[i++] = ',';
strcat(&str[i], line);
i += l;
return OK;
}
int genericAtProcessor::onNewEntryPrompt(ATCommandsInterface* pInst)
{
return OK;
}
class CREGProcessor : public IATCommandsProcessor
{
public:
CREGProcessor(bool gsm) : status(STATUS_REGISTERING)
{
m_gsm = gsm;
}
enum REGISTERING_STATUS { STATUS_REGISTERING, STATUS_OK, STATUS_FAILED };
REGISTERING_STATUS getStatus()
{
return status;
}
const char* getAtCommand()
{
return m_gsm ? "AT+CREG?" : "AT+CSS?";
}
private:
virtual int onNewATResponseLine(ATCommandsInterface* pInst, const char* line)
{
int r;
if (m_gsm)
{
if( sscanf(line, "+CREG: %*d,%d", &r) == 1 )
{
status = (r == 1 || r == 5) ? STATUS_OK :
(r == 0 || r == 2) ? STATUS_REGISTERING :
// (r == 3) ? STATUS_FAILED :
STATUS_FAILED;
}
}
else
{
char bc[3] = "";
if(sscanf(line, "%*s %*c,%2s,%*d",bc)==1)
{
status = (strcmp("Z", bc) == 0) ? STATUS_REGISTERING : STATUS_OK;
}
}
return OK;
}
virtual int onNewEntryPrompt(ATCommandsInterface* pInst)
{
return OK;
}
volatile REGISTERING_STATUS status;
bool m_gsm;
};
int UbloxModem::connect(const char* apn, const char* user, const char* password)
{
if( !m_ipInit )
{
m_ipInit = true;
m_ppp.init();
}
m_ppp.setup(user, password, (m_type != LISA_C200) ? DEFAULT_MSISDN_GSM : DEFAULT_MSISDN_CDMA);
int ret = init();
if(ret)
{
return ret;
}
if (m_onePort)
{
m_smsInit = false; //SMS status reset
m_ussdInit = false; //USSD status reset
m_linkMonitorInit = false; //Link monitor status reset
}
ATCommandsInterface::ATResult result;
if(apn != NULL)
{
char cmd[48];
int tries = 30;
sprintf(cmd, "AT+CGDCONT=1,\"IP\",\"%s\"", apn);
do //Try 30 times because for some reasons it can fail *a lot* with the K3772-Z dongle
{
ret = m_at.executeSimple(cmd, &result);
DBG("Result of command: Err code=%d", ret);
if(ret)
{
Thread::wait(500);
}
} while(ret && --tries);
DBG("ATResult: AT return=%d (code %d)", result.result, result.code);
DBG("APN set to %s", apn);
}
//Connect
DBG("Connecting");
if (m_onePort)
{
m_at.close(); // Closing AT parser
m_atOpen = false; //Will need to be reinitialized afterwards
}
DBG("Connecting PPP");
ret = m_ppp.connect();
DBG("Result of connect: Err code=%d", ret);
return ret;
}
int UbloxModem::disconnect()
{
DBG("Disconnecting from PPP");
int ret = m_ppp.disconnect();
if(ret)
{
ERR("Disconnect returned %d, still trying to disconnect", ret);
}
//Ugly but leave dongle time to recover
Thread::wait(500);
if (m_onePort)
{
//ATCommandsInterface::ATResult result;
DBG("Starting AT thread");
ret = m_at.open();
if(ret)
{
return ret;
}
}
DBG("Trying to hangup");
if (m_onePort)
{
//Reinit AT parser
ret = m_at.init(false);
DBG("Result of command: Err code=%d\n", ret);
if(ret)
{
m_at.close(); // Closing AT parser
DBG("AT Parser closed, could not complete disconnection");
return NET_TIMEOUT;
}
}
return OK;
}
int UbloxModem::sendSM(const char* number, const char* message)
{
int ret = init();
if(ret)
{
return ret;
}
ISMSInterface* sms;
if (m_type == LISA_C200) sms = &m_CdmaSms;
else sms = &m_GsmSms;
if(!m_smsInit)
{
ret = sms->init();
if(ret)
{
return ret;
}
m_smsInit = true;
}
ret = sms->send(number, message);
if(ret)
{
return ret;
}
return OK;
}
int UbloxModem::getSM(char* number, char* message, size_t maxLength)
{
int ret = init();
if(ret)
{
return ret;
}
ISMSInterface* sms;
if (m_type == LISA_C200) sms = &m_CdmaSms;
else sms = &m_GsmSms;
if(!m_smsInit)
{
ret = sms->init();
if(ret)
{
return ret;
}
m_smsInit = true;
}
ret = sms->get(number, message, maxLength);
if(ret)
{
return ret;
}
return OK;
}
int UbloxModem::getSMCount(size_t* pCount)
{
int ret = init();
if(ret)
{
return ret;
}
ISMSInterface* sms;
if (m_type == LISA_C200) sms = &m_CdmaSms;
else sms = &m_GsmSms;
if(!m_smsInit)
{
ret = sms->init();
if(ret)
{
return ret;
}
m_smsInit = true;
}
ret = sms->getCount(pCount);
if(ret)
{
return ret;
}
return OK;
}
ATCommandsInterface* UbloxModem::getATCommandsInterface()
{
return &m_at;
}
int UbloxModem::init()
{
if(m_atOpen)
{
return OK;
}
DBG("Starting AT thread if needed");
int ret = m_at.open();
if(ret)
{
return ret;
}
DBG("Sending initialisation commands");
ret = m_at.init(false);
if(ret)
{
return ret;
}
ATCommandsInterface::ATResult result;
genericAtProcessor atiProcessor;
ret = m_at.execute("ATI", &atiProcessor, &result);
if (OK != ret)
return ret;
const char* info = atiProcessor.getResponse();
INFO("Modem Identification [%s]", info);
if (strstr(info, "LISA-C200")) {
m_type = LISA_C200;
m_onePort = true; // force use of only one port
}
else if (strstr(info, "LISA-U200")) {
m_type = LISA_U200;
}
else if (strstr(info, "SARA-G350")) {
m_type = SARA_G350;
}
// enable the network indicator
if (m_type == SARA_G350) {
m_at.executeSimple("AT+UGPIOC=16,2", &result);
}
else if (m_type == LISA_U200) {
m_at.executeSimple("AT+UGPIOC=20,2", &result);
}
else if (m_type == LISA_C200) {
// LISA-C200 02S/22S : GPIO1 do not support network status indication
// m_at.executeSimple("AT+UGPIOC=20,2", &result);
}
INFO("Modem Identification [%s]", info);
CREGProcessor cregProcessor(m_type != LISA_C200);
//Wait for network registration
do
{
DBG("Waiting for network registration");
ret = m_at.execute(cregProcessor.getAtCommand(), &cregProcessor, &result);
DBG("Result of command: Err code=%d\n", ret);
DBG("ATResult: AT return=%d (code %d)\n", result.result, result.code);
if(cregProcessor.getStatus() == CREGProcessor::STATUS_REGISTERING)
{
Thread::wait(3000);
}
} while(cregProcessor.getStatus() == CREGProcessor::STATUS_REGISTERING);
if(cregProcessor.getStatus() == CREGProcessor::STATUS_FAILED)
{
ERR("Registration denied");
return NET_AUTH;
}
m_atOpen = true;
return OK;
}
int UbloxModem::cleanup()
{
if(m_ppp.isConnected())
{
WARN("Data connection is still open"); //Try to encourage good behaviour from the user
m_ppp.disconnect();
}
m_smsInit = false;
m_ussdInit = false;
m_linkMonitorInit = false;
//We don't reset m_ipInit as PPPIPInterface::init() only needs to be called once
if(m_atOpen)
{
m_at.close();
m_atOpen = false;
}
return OK;
}
int UbloxModem::sendUSSD(const char* command, char* result, size_t maxLength)
{
int ret = init();
if(ret)
{
return ret;
}
if(!m_ussdInit)
{
ret = m_ussd.init();
if(ret)
{
return ret;
}
m_ussdInit = true;
}
ret = m_ussd.send(command, result, maxLength);
if(ret)
{
return ret;
}
return OK;
}
int UbloxModem::getLinkState(int* pRssi, LinkMonitor::REGISTRATION_STATE* pRegistrationState, LinkMonitor::BEARER* pBearer)
{
int ret = init();
if(ret)
{
return ret;
}
if(!m_linkMonitorInit)
{
ret = m_linkMonitor.init(m_type != LISA_C200);
if(ret)
{
return ret;
}
m_linkMonitorInit = true;
}
ret = m_linkMonitor.getState(pRssi, pRegistrationState, pBearer);
if(ret)
{
return ret;
}
return OK;
}
int UbloxModem::getPhoneNumber(char* phoneNumber)
{
int ret = init();
if(ret)
{
return ret;
}
if(!m_linkMonitorInit)
{
ret = m_linkMonitor.init(m_type != LISA_C200);
if(ret)
{
return ret;
}
m_linkMonitorInit = true;
}
ret = m_linkMonitor.getPhoneNumber(phoneNumber);
if(ret)
{
return ret;
}
return OK;
}
#include "USBHost.h"
#include "UbloxGSMModemInitializer.h"
#include "UbloxCDMAModemInitializer.h"
UbloxUSBModem::UbloxUSBModem() :
UbloxModem(&m_atStream, &m_pppStream),
m_dongle(), // Construct WANDongle: USB interface with two serial channels to the modem (USBSerialStream objects)
m_atStream(m_dongle.getSerial(1)), // AT commands are sent down one serial channel.
m_pppStream(m_dongle.getSerial(0)), // PPP connections are managed via another serial channel.
m_dongleConnected(false) // Dongle is initially not ready for anything
{
USBHost* host = USBHost::getHostInst();
m_dongle.addInitializer(new UbloxGSMModemInitializer(host));
m_dongle.addInitializer(new UbloxCDMAModemInitializer(host));
}
int UbloxUSBModem::init()
{
if( !m_dongleConnected )
{
m_dongleConnected = true;
while( !m_dongle.connected() )
{
m_dongle.tryConnect();
Thread::wait(10);
}
if(m_dongle.getDongleType() == WAN_DONGLE_TYPE_UBLOX_LISAU200)
{
INFO("Using a u-blox LISA-U200 3G/WCDMA Modem");
m_type = LISA_U200;
}
else if(m_dongle.getDongleType() == WAN_DONGLE_TYPE_UBLOX_LISAC200)
{
INFO("Using a u-blox LISA-C200 CDMA Modem");
m_type = LISA_C200;
m_onePort = true;
}
else
{
WARN("Using an Unknown Dongle");
}
}
return UbloxModem::init();
}
int UbloxUSBModem::cleanup()
{
UbloxModem::cleanup();
m_dongle.disconnect();
m_dongleConnected = false;
return OK;
}
UbloxSerModem::UbloxSerModem() :
UbloxModem(&m_atStream, NULL),
m_Serial(P0_15/*MDMTXD*/,P0_16/*MDMRXD*/),
m_atStream(m_Serial)
{
m_Serial.baud(115200/*MDMBAUD*/);
m_Serial.set_flow_control(SerialBase::RTSCTS, P0_22/*MDMRTS*/, P0_17/*MDMCTS*/);
}