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Pull Sequans Monarch from nootropicdesign

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This commit is contained in:
Sara Damiano
2019-05-14 15:54:23 -04:00
parent eeffd92674 22dfff5052
commit da84f955e9
5 changed files with 844 additions and 9 deletions
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extras/AT Command Manuals/Sequans Monarch AT Commands Manual.pdf Normal file
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9
src/TinyGsmClient.h
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@@ -96,6 +96,15 @@
typedef TinyGsmXBee::GsmClient TinyGsmClient;
typedef TinyGsmXBee::GsmClientSecure TinyGsmClientSecure;
#elif defined(TINY_GSM_MODEM_SEQUANS_MONARCH)
#define TINY_GSM_MODEM_HAS_GPRS
#define TINY_GSM_MODEM_HAS_SSL
#include <TinyGsmClientSequansMonarch.h>
typedef TinyGsmSequansMonarch TinyGsm;
typedef TinyGsmSequansMonarch::GsmClient TinyGsmClient;
typedef TinyGsmSequansMonarch::GsmClientSecure TinyGsmClientSecure;
#else
#error "Please define GSM modem model"
#endif

830
src/TinyGsmClientSequansMonarch.h Normal file
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@@ -0,0 +1,830 @@
/**
* @file TinyGsmClientSequansMonarch.h
* @author Michael Krumpus
* @license LGPL-3.0
* @copyright Copyright (c) 2019 Michael Krumpus
* @date Jan 2019
*/
#ifndef TinyGsmClientSequansMonarch_h
#define TinyGsmClientSequansMonarch_h
//#define TINY_GSM_DEBUG Serial
//#define TINY_GSM_USE_HEX
#if !defined(TINY_GSM_RX_BUFFER)
#define TINY_GSM_RX_BUFFER 64
#endif
#define TINY_GSM_MUX_COUNT 5
#include <TinyGsmCommon.h>
#define GSM_NL "\r\n"
static const char GSM_OK[] TINY_GSM_PROGMEM = "OK" GSM_NL;
static const char GSM_ERROR[] TINY_GSM_PROGMEM = "ERROR" GSM_NL;
enum SimStatus {
SIM_ERROR = 0,
SIM_READY = 1,
SIM_LOCKED = 2,
};
enum RegStatus {
REG_UNREGISTERED = 0,
REG_SEARCHING = 2,
REG_DENIED = 3,
REG_OK_HOME = 1,
REG_OK_ROAMING = 5,
REG_UNKNOWN = 4,
};
#define NUM_SOCKETS 6
enum SocketStatus {
SOCK_CLOSED = 0,
SOCK_ACTIVE_DATA = 1,
SOCK_SUSPENDED = 2,
SOCK_SUSPENDED_PENDING_DATA = 3,
SOCK_LISTENING = 4,
SOCK_INCOMING = 5,
SOCK_OPENING = 6,
};
class TinyGsmSequansMonarch
{
public:
class GsmClient : public Client
{
friend class TinyGsmSequansMonarch;
typedef TinyGsmFifo<uint8_t, TINY_GSM_RX_BUFFER> RxFifo;
public:
GsmClient() {}
GsmClient(TinyGsmSequansMonarch& modem, uint8_t mux = 1) {
init(&modem, mux);
}
bool init(TinyGsmSequansMonarch* modem, uint8_t mux = 1) {
this->at = modem;
this->mux = mux;
sock_available = 0;
prev_check = 0;
sock_connected = false;
got_data = false;
at->sockets[mux] = this;
return true;
}
public:
virtual int connect(const char *host, uint16_t port) {
if (sock_connected) stop();
TINY_GSM_YIELD();
rx.clear();
sock_connected = at->modemConnect(host, port, mux);
return sock_connected;
}
virtual int connect(IPAddress ip, uint16_t port) {
String host; host.reserve(16);
host += ip[0];
host += ".";
host += ip[1];
host += ".";
host += ip[2];
host += ".";
host += ip[3];
return connect(host.c_str(), port);
}
virtual void stop() {
TINY_GSM_YIELD();
at->sendAT(GF("+SQNSH="), mux);
sock_connected = false;
at->waitResponse();
rx.clear();
}
virtual size_t write(const uint8_t *buf, size_t size) {
TINY_GSM_YIELD();
at->maintain();
return at->modemSend(buf, size, mux);
}
virtual size_t write(uint8_t c) {
return write(&c, 1);
}
virtual int available() {
TINY_GSM_YIELD();
if (!rx.size()) {
// Workaround: sometimes unsolicited SQNSSRING notifications do not arrive.
if (millis() - prev_check > 500) {
got_data = true;
prev_check = millis();
}
at->maintain();
}
return rx.size() + sock_available;
}
virtual int read(uint8_t *buf, size_t size) {
TINY_GSM_YIELD();
at->maintain();
size_t cnt = 0;
while (cnt < size) {
size_t chunk = TinyGsmMin(size-cnt, rx.size());
if (chunk > 0) {
rx.get(buf, chunk);
buf += chunk;
cnt += chunk;
continue;
}
// TODO: Read directly into user buffer?
at->maintain();
if (sock_available > 0) {
int n = at->modemRead(rx.free(), mux);
if (n == 0) break;
} else {
break;
}
}
return cnt;
}
virtual int read() {
uint8_t c;
if (read(&c, 1) == 1) {
return c;
}
return -1;
}
virtual int peek() { return -1; } //TODO
virtual void flush() {
at->stream.flush();
}
virtual uint8_t connected() {
if (available()) {
return true;
}
return got_data || sock_connected;
}
virtual operator bool() { return connected(); }
/*
* Extended API
*/
String remoteIP() TINY_GSM_ATTR_NOT_IMPLEMENTED;
private:
TinyGsmSequansMonarch* at;
uint8_t mux;
uint16_t sock_available;
uint32_t prev_check;
bool sock_connected;
bool got_data;
RxFifo rx;
};
class GsmClientSecure : public GsmClient
{
public:
GsmClientSecure() {}
GsmClientSecure(TinyGsmSequansMonarch& modem, uint8_t mux = 1)
: GsmClient(modem, mux)
{}
protected:
bool strictSSL = false;
public:
virtual int connect(const char *host, uint16_t port) {
if (sock_connected) stop();
TINY_GSM_YIELD();
rx.clear();
// configure security profile 1 with parameters:
if (strictSSL) {
// require minimum of TLS 1.2 (3)
// only support cipher suite 0x3D: TLS_RSA_WITH_AES_256_CBC_SHA256
// verify server certificate against imported CA certs 0 and enforce validity period (3)
at->sendAT(GF("+SQNSPCFG=1,3,\"0x3D\",3,0,,,\"\",\"\""));
} else {
// use TLS 1.0 or higher (1)
// support wider variety of cipher suites
// do not verify server certificate (0)
at->sendAT(GF("+SQNSPCFG=1,1,\"0x2F;0x35;0x3C;0x3D\",0,,,,\"\",\"\""));
}
if (at->waitResponse() != 1) {
DBG("failed to configure security profile");
return false;
}
sock_connected = at->modemConnect(host, port, mux, true);
return sock_connected;
}
void setStrictSSL(bool strict) {
strictSSL = strict;
}
};
public:
TinyGsmSequansMonarch(Stream& stream)
: stream(stream)
{
memset(sockets, 0, sizeof(sockets));
}
/*
* Basic functions
*/
bool begin() {
return init();
}
bool init() {
DBG(GF("### TinyGSM Version:"), TINYGSM_VERSION);
if (!testAT()) {
return false;
}
sendAT(GF("E0")); // Echo Off
if (waitResponse() != 1) {
return false;
}
getSimStatus();
return true;
}
void setBaud(unsigned long baud) {
sendAT(GF("+IPR="), baud);
}
bool testAT(unsigned long timeout = 10000L) {
for (unsigned long start = millis(); millis() - start < timeout; ) {
sendAT(GF(""));
if (waitResponse(200) == 1) {
delay(100);
return true;
}
delay(100);
}
return false;
}
void maintain() {
for (int mux = 0; mux < TINY_GSM_MUX_COUNT; mux++) {
GsmClient* sock = sockets[mux];
if (sock && sock->got_data) {
sock->got_data = false;
sock->sock_available = modemGetAvailable(mux);
}
}
while (stream.available()) {
waitResponse(10, NULL, NULL);
}
}
bool factoryDefault() {
sendAT(GF("&FZE0&W")); // Factory + Reset + Echo Off + Write
waitResponse();
sendAT(GF("+IPR=0")); // Auto-baud
waitResponse();
sendAT(GF("+IFC=0,0")); // No Flow Control
waitResponse();
sendAT(GF("+ICF=3,3")); // 8 data 0 parity 1 stop
waitResponse();
sendAT(GF("+CSCLK=0")); // Disable Slow Clock
waitResponse();
sendAT(GF("&W")); // Write configuration
return waitResponse() == 1;
}
String getModemInfo() {
sendAT(GF("I"));
String res;
if (waitResponse(1000L, res) != 1) {
return "";
}
res.replace(GSM_NL "OK" GSM_NL, "");
res.replace(GSM_NL, " ");
res.trim();
return res;
}
bool hasSSL() {
return true;
}
/*
* Power functions
*/
bool restart() {
if (!testAT()) {
return false;
}
sendAT(GF("+CFUN=0"));
if (waitResponse(10000L) != 1) {
return false;
}
sendAT(GF("+CFUN=1,1"));
if (waitResponse(60000L, GF("+SYSSTART")) != 1) {
return false;
}
delay(1000);
return init();
}
bool poweroff() {
sendAT(GF("+SQNSSHDN"));
return waitResponse();
}
bool radioOff() {
sendAT(GF("+CFUN=0"));
if (waitResponse(10000L) != 1) {
return false;
}
delay(3000);
return true;
}
/*
During sleep, the SIM800 module has its serial communication disabled. In order to reestablish communication
pull the DRT-pin of the SIM800 module LOW for at least 50ms. Then use this function to disable sleep mode.
The DTR-pin can then be released again.
*/
bool sleepEnable(bool enable = true) {
sendAT(GF("+CSCLK="), enable);
return waitResponse() == 1;
}
/*
* SIM card functions
*/
bool simUnlock(const char *pin) {
sendAT(GF("+CPIN=\""), pin, GF("\""));
return waitResponse() == 1;
}
String getSimCCID() {
sendAT(GF("+SQNCCID"));
if (waitResponse(GF(GSM_NL "+SQNCCID:")) != 1) {
return "";
}
String res = stream.readStringUntil('\n');
waitResponse();
res.trim();
return res;
}
String getIMEI() {
sendAT(GF("+GSN"));
if (waitResponse(GF(GSM_NL)) != 1) {
return "";
}
String res = stream.readStringUntil('\n');
waitResponse();
res.trim();
return res;
}
SimStatus getSimStatus(unsigned long timeout = 10000L) {
for (unsigned long start = millis(); millis() - start < timeout; ) {
sendAT(GF("+CPIN?"));
if (waitResponse(GF(GSM_NL "+CPIN:")) != 1) {
delay(1000);
continue;
}
int status = waitResponse(GF("READY"), GF("SIM PIN"), GF("SIM PUK"), GF("NOT INSERTED"));
waitResponse();
switch (status) {
case 2:
case 3: return SIM_LOCKED;
case 1: return SIM_READY;
default: return SIM_ERROR;
}
}
return SIM_ERROR;
}
RegStatus getRegistrationStatus() {
//sendAT(GF("+CREG?"));
sendAT(GF("+CEREG?"));
if (waitResponse(GF(GSM_NL "+CEREG:")) != 1) {
return REG_UNKNOWN;
}
streamSkipUntil(','); // Skip format (0)
int status = stream.readStringUntil(',').toInt();
waitResponse();
return (RegStatus)status;
}
String getOperator() {
sendAT(GF("+COPS?"));
if (waitResponse(GF(GSM_NL "+COPS:")) != 1) {
return "";
}
streamSkipUntil('"'); // Skip mode and format
String res = stream.readStringUntil('"');
waitResponse();
return res;
}
/*
* Generic network functions
*/
int getSignalQuality() {
sendAT(GF("+CSQ"));
if (waitResponse(GF(GSM_NL "+CSQ:")) != 1) {
return 99;
}
int res = stream.readStringUntil(',').toInt();
waitResponse();
return res;
}
bool isNetworkConnected() {
RegStatus s = getRegistrationStatus();
if (s == REG_OK_HOME || s == REG_OK_ROAMING) {
DBG(F("connected with status:"), s);
return true;
} else {
return false;
}
}
bool waitForNetwork(unsigned long timeout = 60000L) {
for (unsigned long start = millis(); millis() - start < timeout; ) {
if (isNetworkConnected()) {
return true;
}
delay(250);
}
return false;
}
/*
* GPRS functions
*/
bool gprsConnect(const char* apn, const char* user = NULL, const char* pwd = NULL) {
gprsDisconnect();
// Define the PDP context
sendAT(GF("+CGDCONT=3,\"IPV4V6\",\""), apn, '"');
waitResponse();
if (user && strlen(user) > 0) {
sendAT(GF("+CGAUTH=3,1,\""), user, GF("\",\""), pwd, GF("\""));
waitResponse();
}
// Activate the PDP context
sendAT(GF("+CGACT=1,3"));
waitResponse(60000L);
// Attach to GPRS
sendAT(GF("+CGATT=1"));
if (waitResponse(60000L) != 1)
return false;
return true;
}
bool gprsDisconnect() {
sendAT(GF("+CGATT=0"));
if (waitResponse(60000L) != 1)
return false;
return true;
}
bool isGprsConnected() {
sendAT(GF("+CGATT?"));
if (waitResponse(GF(GSM_NL "+CGATT:")) != 1) {
return false;
}
int res = stream.readStringUntil('\n').toInt();
waitResponse();
if (res != 1)
return false;
return true;
}
String getLocalIP() {
sendAT(GF("+CGPADDR=3"));
if (waitResponse(10000L, GF("+CGPADDR: 3,\"")) != 1) {
return "";
}
String res = stream.readStringUntil('\"');
waitResponse();
return res;
}
IPAddress localIP() {
return TinyGsmIpFromString(getLocalIP());
}
/*
* Phone Call functions
*/
bool setGsmBusy(bool busy = true) TINY_GSM_ATTR_NOT_AVAILABLE;
bool callAnswer() TINY_GSM_ATTR_NOT_IMPLEMENTED;
bool callNumber(const String& number) TINY_GSM_ATTR_NOT_IMPLEMENTED;
bool callHangup() TINY_GSM_ATTR_NOT_IMPLEMENTED;
String sendUSSD(const String& code) TINY_GSM_ATTR_NOT_IMPLEMENTED;
bool sendSMS(const String& number, const String& text) {
sendAT(GF("+CMGF=1"));
waitResponse();
//Set GSM 7 bit default alphabet (3GPP TS 23.038)
sendAT(GF("+CSCS=\"GSM\""));
waitResponse();
sendAT(GF("+CMGS=\""), number, GF("\""));
if (waitResponse(GF(">")) != 1) {
return false;
}
stream.print(text);
stream.write((char)0x1A);
stream.flush();
return waitResponse(60000L) == 1;
}
bool sendSMS_UTF16(const String& number, const void* text, size_t len) TINY_GSM_ATTR_NOT_IMPLEMENTED;
/*
* Location functions
*/
String getGsmLocation() TINY_GSM_ATTR_NOT_AVAILABLE;
/*
* Battery functions
*/
uint16_t getBattVoltage() TINY_GSM_ATTR_NOT_AVAILABLE;
int getBattPercent() TINY_GSM_ATTR_NOT_AVAILABLE;
protected:
bool modemConnect(const char* host, uint16_t port, uint8_t mux, bool ssl = false) {
int rsp;
if (ssl) {
// enable SSl and use security profile 1
sendAT(GF("+SQNSSCFG="), mux, GF(",1,1"));
if (waitResponse() != 1) {
DBG("failed to configure secure socket");
return false;
}
}
sendAT(GF("+SQNSCFG="), mux, GF(",3,300,90,600,50"));
waitResponse();
sendAT(GF("+SQNSCFGEXT="), mux, GF(",1,0,0,0,0"));
waitResponse();
sendAT(GF("+SQNSD="), mux, ",0,", port, ',', GF("\""), host, GF("\""), ",0,0,1");
rsp = waitResponse(75000L,
GF("OK" GSM_NL),
GF("NO CARRIER" GSM_NL)
);
// creation of socket failed immediately.
if (rsp != 1) return rsp;
// wait until we get a good status
unsigned long timeout = 5000;
unsigned long startMillis = millis();
bool connected = false;
while (!connected) {
connected = modemGetConnected(mux);
if (connected) {
delay(50);
break;
}
delay(100); // socket may be in opening state
if (millis() - startMillis < timeout) {
break;
}
}
return connected;
}
int modemSend(const void* buff, size_t len, uint8_t mux) {
sendAT(GF("+SQNSSENDEXT="), mux, ',', len);
if (waitResponse(5000, GF(GSM_NL "> ")) != 1) {
return 0;
}
stream.write((uint8_t*)buff, len);
stream.flush();
if (waitResponse() != 1) {
DBG("no OK after send");
return 0;
}
return len;
}
size_t modemRead(size_t size, uint8_t mux) {
sendAT(GF("+SQNSRECV="), mux, ',', size);
if (waitResponse(GF("+SQNSRECV: ")) != 1) {
return 0;
}
streamSkipUntil(','); // Skip mux
size_t len = stream.readStringUntil('\n').toInt();
for (size_t i=0; i<len; i++) {
while (!stream.available()) { TINY_GSM_YIELD(); }
char c = stream.read();
sockets[mux]->rx.put(c);
}
waitResponse();
sockets[mux]->sock_available = modemGetAvailable(mux);
return len;
}
size_t modemGetAvailable(uint8_t mux) {
sendAT(GF("+SQNSI="), mux);
size_t result = 0;
if (waitResponse(GF("+SQNSI:")) == 1) {
streamSkipUntil(','); // Skip mux
streamSkipUntil(','); // Skip sent
streamSkipUntil(','); // Skip received
result = stream.readStringUntil(',').toInt();
waitResponse();
}
if (!result) {
sockets[mux]->sock_connected = modemGetConnected(mux);
}
return result;
}
bool modemGetConnected(uint8_t mux) {
sendAT(GF("+SQNSS"));
uint8_t m = 0;
uint8_t status = 0;
while (true) {
if (waitResponse(GFP(GSM_OK), GF(GSM_NL "+SQNSS: ")) != 2) {
break;
};
m = stream.readStringUntil(',').toInt();
if (m == mux) {
status = stream.readStringUntil(',').toInt();
}
streamSkipUntil('\n'); // Skip
}
return ((status != SOCK_CLOSED) && (status != SOCK_INCOMING) && (status != SOCK_OPENING));
}
public:
/* Utilities */
bool commandMode(int retries = 2) {
streamWrite(GF("+++")); // enter command mode
return true;
}
template<typename T>
void streamWrite(T last) {
stream.print(last);
}
template<typename T, typename... Args>
void streamWrite(T head, Args... tail) {
stream.print(head);
streamWrite(tail...);
}
bool streamSkipUntil(char c) { //TODO: timeout
while (true) {
while (!stream.available()) { TINY_GSM_YIELD(); }
if (stream.read() == c)
return true;
}
return false;
}
template<typename... Args>
void sendAT(Args... cmd) {
streamWrite("AT", cmd..., '\r');
stream.flush();
TINY_GSM_YIELD();
DBG("### AT:", cmd...);
}
// TODO: Optimize this!
uint8_t waitResponse(uint32_t timeout, String& data,
GsmConstStr r1=GFP(GSM_OK), GsmConstStr r2=GFP(GSM_ERROR),
GsmConstStr r3=NULL, GsmConstStr r4=NULL, GsmConstStr r5=NULL)
{
/*String r1s(r1); r1s.trim();
String r2s(r2); r2s.trim();
String r3s(r3); r3s.trim();
String r4s(r4); r4s.trim();
String r5s(r5); r5s.trim();
DBG("### ..:", r1s, ",", r2s, ",", r3s, ",", r4s, ",", r5s);*/
data.reserve(64);
int index = 0;
unsigned long startMillis = millis();
do {
TINY_GSM_YIELD();
while (stream.available() > 0) {
int a = stream.read();
if (a <= 0) continue; // Skip 0x00 bytes, just in case
data += (char)a;
if (r1 && data.endsWith(r1)) {
index = 1;
goto finish;
} else if (r2 && data.endsWith(r2)) {
index = 2;
goto finish;
} else if (r3 && data.endsWith(r3)) {
index = 3;
goto finish;
} else if (r4 && data.endsWith(r4)) {
index = 4;
goto finish;
} else if (r5 && data.endsWith(r5)) {
index = 5;
goto finish;
} else if (data.endsWith(GF(GSM_NL "+SQNSRING:"))) {
int mux = stream.readStringUntil(',').toInt();
if (mux >= 0 && mux < TINY_GSM_MUX_COUNT && sockets[mux]) {
sockets[mux]->got_data = true;
}
stream.readStringUntil('\n');
data = "";
} else if (data.endsWith(GF("SQNSH: "))) {
int mux = stream.readStringUntil('\n').toInt();
if (mux >= 0 && mux < TINY_GSM_MUX_COUNT && sockets[mux]) {
sockets[mux]->sock_connected = false;
}
data = "";
DBG("### Closed: ", mux);
}
}
} while (millis() - startMillis < timeout);
finish:
if (!index) {
data.trim();
if (data.length()) {
DBG("### Unhandled:", data);
}
data = "";
}
return index;
}
uint8_t waitResponse(uint32_t timeout,
GsmConstStr r1=GFP(GSM_OK), GsmConstStr r2=GFP(GSM_ERROR),
GsmConstStr r3=NULL, GsmConstStr r4=NULL, GsmConstStr r5=NULL)
{
String data;
return waitResponse(timeout, data, r1, r2, r3, r4, r5);
}
uint8_t waitResponse(GsmConstStr r1=GFP(GSM_OK), GsmConstStr r2=GFP(GSM_ERROR),
GsmConstStr r3=NULL, GsmConstStr r4=NULL, GsmConstStr r5=NULL)
{
return waitResponse(1000, r1, r2, r3, r4, r5);
}
public:
Stream& stream;
protected:
GsmClient* sockets[TINY_GSM_MUX_COUNT];
};
#endif

10
src/TinyGsmClientUBLOX.h
View File

@@ -62,10 +62,8 @@ public:
sock_connected = false;
got_data = false;
// at->sockets[mux] = this;
// ^^ TODO: attach the socket here at init? Or later at connect?
// Currently done inconsistently between modems
// Don't attach the socket here because we won't know the mux channel number
// until the u-blox assigns it upon opening the socket
return true;
}
@@ -93,8 +91,8 @@ public:
// sock_connected = at->modemConnect(host, port, mux);
sock_connected = at->modemConnect(host, port, &mux);
at->sockets[mux] = this;
// ^^ TODO: attach the socket after attempting connection or above at init?
// Currently done inconsistently between modems
// Attach the socket after attempting connection because u-blox will assign
// whatever mux number is next regardless of the number requested.
at->maintain();
return sock_connected;
}

4
src/TinyGsmCommon.h
View File

@@ -35,7 +35,7 @@
#endif
#if !defined(TINY_GSM_RX_BUFFER)
#define TINY_GSM_RX_BUFFER 256
#define TINY_GSM_RX_BUFFER 64
#endif
#define TINY_GSM_ATTR_NOT_AVAILABLE __attribute__((error("Not available on this modem type")))
@@ -203,8 +203,6 @@ String TinyGsmDecodeHex16bit(String &instr) {
}
class TinyGsmModem
{