Cellular change only: support LEXI-R422 and LEXI-R52 (#1195)

Support is provided for LEXI-R422, a small form-factor version of SARA-R422, and LEXI-R52, a small form-factor version of SARA-R52. The chief change in the LEXI variants is GPIO numbering/mapping and hence a new GPIO function is introduced, uCellGpioConfigSpecialFunction(), to take advantage of the additional flexibility.

cell/api/u_cell_gpio.h

@@ -77,6 +77,7 @@ extern "C" {
 
 /** The GPIO names, which map to GPIO IDs.  Note that not all
  * modules support all GPIOs.
+ *
  * For LEXI variants the GPIO mapping is a bit different.
  */
 typedef enum {
@@ -101,11 +102,53 @@ typedef enum {
     U_CELL_GPIO_LEXI_10 = 26
 } uCellGpioName_t;
 
+/** The special GPIO functions; not all special GPIO functions
+ * are supported by all modules and in some cases only certain
+ * pins are able to support certain special functions; refer to
+ * the interface manual of your module for details.
+ */
+typedef enum {
+    U_CELL_GPIO_SPECIAL_FUNCTION_NETWORK_STATUS_INDICATION = 2,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_SUPPLY_ENABLE = 3,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_DATA_READY = 4,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_RTC_SHARING = 5,
+    U_CELL_GPIO_SPECIAL_FUNCTION_JAMMING_DETECTION_INDICATION = 6,
+    U_CELL_GPIO_SPECIAL_FUNCTION_SIM_CARD_DETECTION = 7,
+    U_CELL_GPIO_SPECIAL_FUNCTION_HEADSET_DETECTION = 8,
+    U_CELL_GPIO_SPECIAL_FUNCTION_GSM_TX_BURST_INDICATION = 9,
+    U_CELL_GPIO_SPECIAL_FUNCTION_MODULE_STATUS_INDICATION = 10,
+    U_CELL_GPIO_SPECIAL_FUNCTION_MODULE_OPERATING_MODE_INDICATION = 11,
+    U_CELL_GPIO_SPECIAL_FUNCTION_I2S_DIGITAL_AUDIO_INTERFACE = 12,
+    U_CELL_GPIO_SPECIAL_FUNCTION_SPI_SERIAL_INTERFACE = 13,
+    U_CELL_GPIO_SPECIAL_FUNCTION_MASTER_CLOCK_GENERATION = 14,
+    U_CELL_GPIO_SPECIAL_FUNCTION_UART_INTERFACE = 15,
+    U_CELL_GPIO_SPECIAL_FUNCTION_WIFI_ENABLE = 16,
+    U_CELL_GPIO_SPECIAL_FUNCTION_RING_INDICATOR = 17,
+    U_CELL_GPIO_SPECIAL_FUNCTION_LAST_GASP = 18,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_ANTENNA_OR_LNA_CONTROL = 19,
+    U_CELL_GPIO_SPECIAL_FUNCTION_TIME_PULSE_GNSS = 20,
+    U_CELL_GPIO_SPECIAL_FUNCTION_TIME_PULSE_OUTPUT = 21,
+    U_CELL_GPIO_SPECIAL_FUNCTION_TIME_STAMP_OF_EXTERNAL_INTERRUPT = 22,
+    U_CELL_GPIO_SPECIAL_FUNCTION_FAST_POWER_OFF = 23,
+    U_CELL_GPIO_SPECIAL_FUNCTION_LWM2M_PULSE = 24,
+    U_CELL_GPIO_SPECIAL_FUNCTION_HARDWARE_FLOW_CONTROL = 25,
+    U_CELL_GPIO_SPECIAL_FUNCTION_ANTENNA_DYNAMIC_TUNING = 26,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_TIME_PULSE_INPUT = 27,
+    U_CELL_GPIO_SPECIAL_FUNCTION_EXTERNAL_GNSS_TIME_STAMP_OF_EXTERNAL_INTERRUPT = 28,
+    U_CELL_GPIO_SPECIAL_FUNCTION_DTR_POWER_SAVING = 29,
+    U_CELL_GPIO_SPECIAL_FUNCTION_32_KHZ_OUTPUT = 30,
+    U_CELL_GPIO_SPECIAL_FUNCTION_SAFE_MEMORY_AND_POWER_OFF = 31,
+    U_CELL_GPIO_SPECIAL_FUNCTION_UPSV_CONTROL = 32,
+    U_CELL_GPIO_SPECIAL_FUNCTION_PAD_DISABLED = 255
+} uCellGpioSpecialFunction_t;
+
 /* ----------------------------------------------------------------
  * FUNCTIONS
  * -------------------------------------------------------------- */
 
-/** Configure a GPIO of a cellular module.
+/** Configure a GPIO of a cellular module as an input, or an output
+ * with level 0 or 1.
+ *
  * VERY IMPORTANT: adopting the terminology of the u-blox AT commmand
  * manual, each cellular module pin may be referred to in three ways:
  *
@@ -122,6 +165,9 @@ typedef enum {
  * (i.e. 16 etc., the ones which usually map to the physical pin
  * number) and that will also work fine.
  *
+ * Note: configuring a pin as a GPIO cancels any special function set up
+ * with uCellGpioConfigSpecialFunction().
+ *
  * @param cellHandle    the handle of the cellular instance.
  * @param gpioId        the GPIO ID to set.
  * @param isOutput      the direction, set to true for an output, false for
@@ -133,7 +179,42 @@ typedef enum {
 int32_t uCellGpioConfig(uDeviceHandle_t cellHandle, uCellGpioName_t gpioId,
                         bool isOutput, int32_t level);
 
+/** Configure a GPIO of a cellular module to have a special function, i.e.
+ * not an application-controlled input/ouput but instead activated by the
+ * module itself when special things happen e.g. controlling or receiving
+ * input from an external GNSS chip, providing a time pulse output or
+ * time-stamping an input (SARA-R5/LEXI-R5 only) etc.
+ *
+ * VERY IMPORTANT: adopting the terminology of the u-blox AT commmand
+ * manual, each cellular module pin may be referred to in three ways:
+ *
+ *  - pin number: the physical pin of the cellular module,
+ *  - GPIO ID: the ID for that pin, which is usually THE SAME AS
+ *    THE PIN NUMBER,
+ *  - pin name: for instance "GPIO1" or "SDIO_CMD" etc.
+ *
+ * This API uses GPIO ID: do not confuse this with the number on
+ * the end of the pin name, i.e. "GPIO1" is NOT GPIO ID 1, it is GPIO
+ * ID 16!  Hence the #uCellGpioName_t enum is used to allow you to
+ * pass in #U_CELL_GPIO_1, the value for which is 16. If you prefer
+ * to use plain integers in your code you can just pass in the GPIO IDs
+ * (i.e. 16 etc., the ones which usually map to the physical pin
+ * number) and that will also work fine.
+ *
+ * Note: to configure a pin as an input or output controlled by this MCU
+ * once more, call uCellGpioConfig().
+ *
+ * @param cellHandle      the handle of the cellular instance.
+ * @param gpioId          the GPIO ID to set.
+ * @param specialFunction the special function to adopt.
+ * @return                zero on success else negative error code.
+ */
+int32_t uCellGpioConfigSpecialFunction(uDeviceHandle_t cellHandle,
+                                       uCellGpioName_t gpioId,
+                                       uCellGpioSpecialFunction_t specialFunction);
+
 /** Set the state of a GPIO of a cellular module.
+ *
  * VERY IMPORTANT: adopting the terminology of the u-blox AT commmand
  * manual, each cellular module pin may be referred to in three ways:
  *
@@ -159,6 +240,7 @@ int32_t uCellGpioSet(uDeviceHandle_t cellHandle, uCellGpioName_t gpioId,
                      int32_t level);
 
 /** Get the state of a GPIO of a cellular module.
+ *
  * VERY IMPORTANT: adopting the terminology of the u-blox AT commmand
  * manual, each cellular module pin may be referred to in three ways:
  *

cell/api/u_cell_module_type.h

@@ -92,6 +92,8 @@ typedef enum {
     U_CELL_MODULE_TYPE_LENA_R8 = 8,
     U_CELL_MODULE_TYPE_SARA_R52 = 9,
     U_CELL_MODULE_TYPE_LEXI_R10 = 10,
+    U_CELL_MODULE_TYPE_LEXI_R422 = 11,
+    U_CELL_MODULE_TYPE_LEXI_R52 = 12,
     // Add any new module types here, before U_CELL_MODULE_TYPE_ANY, assigning
     // them to specific values.
     // IMPORTANT IMPORTANT IMPORTANT IMPORTANT IMPORTANT: see note above.

cell/api/u_cell_time.h

@@ -42,7 +42,7 @@
  * high accuracy.  In other words, the functions are about
  * timING, using an arbitrary time-base, and NOT about absolute
  * clock/calender time.  This API is only currently supported by
- * SARA-R5 modules.
+ * LEXI-R5/SARA-R5 modules.
  *
  * These functions are thread-safe with the proviso that a cellular
  * instance should not be accessed before it has been added or after
@@ -212,11 +212,23 @@ typedef struct {
  * FUNCTIONS: CELLTIME
  * -------------------------------------------------------------- */
 
-/** Enable CellTime, only supported on SARA-R5.  CellTime is about
+/** Enable CellTime, only supported on SARA-R5/LEXI-R5.  CellTime is about
  * using the highly accurate cellular network for timing of hardware,
  * using an arbitrary time-base, it is NOT about absolute clock/calender
  * time (UTC or local).
  *
+ * IMPORTANT: in the case of SARA-R5 the pins of the cellular module
+ * used to signal time pulse output (in #U_CELL_TIME_MODE_PULSE or
+ * #U_CELL_TIME_MODE_ONE_SHOT mode), receive an EXT_INT input
+ * (in #U_CELL_TIME_MODE_EXT_INT_TIMESTAMP mode) or provide an external
+ * GNSS device connected to the cellular module with a time pulse
+ * input are fixed at pin number/GPIO ID 19 ("GPIO6"),
+ * pin number/GPIO ID 33 ("EXT_INT") and pin number.GPIO ID 46
+ * ("SDIO_CMD") respectively.  HOWEVER in the case of LEXI-R5 there
+ * is no fixed pin for these functions and hence it is up to the
+ * application to configure those pins, as required with calls to
+ * uCellGpioConfigSpecialFunction().
+ *
  * If this function returns success it doesn't necessarily mean that
  * the requested CellTime operation has succeeded, since the operation
  * may take a while to complete: please monitor pCallback for progress
@@ -228,23 +240,29 @@ typedef struct {
  * first.
  *
  * Any time pulse will appear on pin number/GPIO ID 19, pin name
- * "GPIO6" of the cellular module.  If the mode is
- * #U_CELL_TIME_MODE_PULSE then for SARA-R5xx-00B the pulse width
- * is fixed at 3 ms and the period 1 second while for SARA-R5xx-01B and
- * later the pulse will be of duration #U_CELL_TIME_PULSE_WIDTH_MILLISECONDS
- * and period #U_CELL_TIME_PULSE_PERIOD_SECONDS.  If the mode is
+ * "GPIO6" of SARA-R5, or in the case of LEXI-R5 pin on a pin that
+ * the application selects using uCellGpioConfigSpecialFunction().
+ * If the mode is #U_CELL_TIME_MODE_PULSE then for SARA-R5xx-00B the
+ * pulse width is fixed at 3 ms and the period 1 second while for
+ * SARA-R5xx-01B and later the pulse will be of duration
+ * #U_CELL_TIME_PULSE_WIDTH_MILLISECONDS and period
+ * #U_CELL_TIME_PULSE_PERIOD_SECONDS.  If the mode is
  * #U_CELL_TIME_MODE_EXT_INT_TIMESTAMP then the input pin is
- * the "EXT_INT" pin of the cellular module, pin number/GPIO ID 33.
+ * the "EXT_INT" pin of the cellular module, pin number/GPIO ID 33, or
+ * in the case of LEXI-R5 a pin that the application selects through
+ * calling uCellGpioConfigSpecialFunction().
  *
  * If the GNSS device is external to the cellular module, two additional
- * pins must be connected: pin number/GPIO ID 46, pin name "SDIO_CMD",
- * must be connected to the GNSS device TIMEPULSE output and pin
- * number/GPIO ID 25, pin name "GPIO4", must be conncted to the
- * GNSS device EXTINT output.
+ * pins must be connected: pin number/GPIO ID 46, pin name "SDIO_CMD"
+ * (or if LEXI-R5 then a pin that the application selects through
+ * calling uCellGpioConfigSpecialFunction()), must be connected to the
+ * GNSS device TIMEPULSE output and pin number/GPIO ID 25, pin name "GPIO4",
+ * (or if LEXI-R5 then pin number/GPIO ID 17, still pin name "GPIO4" but
+ * for LEXI), must be conncted to the GNSS device EXTINT output.
  *
- * If uCellGpioConfig() had previously been called to use the pins
- * in question as user-controllable pins, this will override that
- * setting.
+ * Where the pins are fixed, if uCellGpioConfigSpecialFunction() had previously been
+ * called to use the pins in question as user-controllable pins, this
+ * will override that setting.
  *
  * If the GNSS device available to the cellular module is already in
  * use for something else (e.g. used by the GNSS API or by Cell Locate)

cell/src/u_cell_cfg.c

@@ -916,7 +916,7 @@ static int32_t setRatSaraRx(uCellPrivateInstance_t *pInstance,
     uAtClientHandle_t atHandle = pInstance->atHandle;
     int32_t cFunMode = -1;
 
-    if (U_CELL_PRIVATE_MODULE_IS_SARA_R5(pInstance->pModule->moduleType)) {
+    if (U_CELL_PRIVATE_MODULE_IS_R5(pInstance->pModule->moduleType)) {
         // For SARA-R5 the module has to be in state AT+CFUN=0
         cFunMode = uCellPrivateCFunGet(pInstance);
         if (cFunMode != 0) {
@@ -979,7 +979,7 @@ static int32_t setRatRankSaraRx(uCellPrivateInstance_t *pInstance,
         }
     }
 
-    if (U_CELL_PRIVATE_MODULE_IS_SARA_R5(pInstance->pModule->moduleType)) {
+    if (U_CELL_PRIVATE_MODULE_IS_R5(pInstance->pModule->moduleType)) {
         // For SARA-R5 the module has to be in state AT+CFUN=0
         cFunMode = uCellPrivateCFunGet(pInstance);
         if (cFunMode != 0) {

cell/src/u_cell_file.c

@@ -396,7 +396,7 @@ int32_t uCellFileRead(uDeviceHandle_t cellHandle,
                 }
                 uAtClientCommandStop(atHandle);
                 // Grab the response
-                if (U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+                if (U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                     // SARA-R4 only puts \n before the
                     // response, not \r\n as it should
                     uAtClientResponseStart(atHandle, "\n+URDFILE:");
@@ -553,7 +553,7 @@ int32_t uCellFileBlockRead(uDeviceHandle_t cellHandle,
                     uAtClientWriteInt(atHandle, (int32_t) dataSize);
                     uAtClientCommandStop(atHandle);
                     // Grab the response
-                    if (U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+                    if (U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                         // SARA-R4 only puts \n before the
                         // response, not \r\n as it should
                         uAtClientResponseStart(atHandle, "\n+URDBLOCK:");

cell/src/u_cell_gpio.c

@@ -68,6 +68,24 @@
  * STATIC FUNCTIONS
  * -------------------------------------------------------------- */
 
+// Configure a GPIO.
+static int32_t config(uAtClientHandle_t atHandle, uCellGpioName_t gpioId,
+                      int32_t function, int32_t level)
+{
+    uAtClientLock(atHandle);
+    uAtClientCommandStart(atHandle, "AT+UGPIOC=");
+    // Write GPIO ID
+    uAtClientWriteInt(atHandle, (int32_t) gpioId);
+    // Write function
+    uAtClientWriteInt(atHandle, function);
+    if (level >= 0) {
+        // Write initial output value
+        uAtClientWriteInt(atHandle, level);
+    }
+    uAtClientCommandStopReadResponse(atHandle);
+    return uAtClientUnlock(atHandle);
+}
+
 /* ----------------------------------------------------------------
  * PUBLIC FUNCTIONS
  * -------------------------------------------------------------- */
@@ -78,28 +96,39 @@ int32_t uCellGpioConfig(uDeviceHandle_t cellHandle, uCellGpioName_t gpioId,
 {
     int32_t errorCode = (int32_t) U_ERROR_COMMON_INVALID_PARAMETER;
     uCellPrivateInstance_t *pInstance;
-    uAtClientHandle_t atHandle;
 
     if (gUCellPrivateMutex != NULL) {
 
         U_PORT_MUTEX_LOCK(gUCellPrivateMutex);
 
         pInstance = pUCellPrivateGetInstance(cellHandle);
         if ((pInstance != NULL) && ((int32_t) gpioId >= 0)) {
-            atHandle = pInstance->atHandle;
+            errorCode = config(pInstance->atHandle, gpioId,
+                               isOutput ? 0 : 1,
+                               isOutput ? level : -1);
+        }
 
-            uAtClientLock(atHandle);
-            uAtClientCommandStart(atHandle, "AT+UGPIOC=");
-            // Write GPIO ID.
-            uAtClientWriteInt(atHandle, (int32_t) gpioId);
-            // Write GPIO direction.
-            uAtClientWriteInt(atHandle, isOutput ? 0 : 1);
-            if (isOutput) {
-                // Write initial output value
-                uAtClientWriteInt(atHandle, level);
-            }
-            uAtClientCommandStopReadResponse(atHandle);
-            errorCode = uAtClientUnlock(atHandle);
+        U_PORT_MUTEX_UNLOCK(gUCellPrivateMutex);
+    }
+
+    return errorCode;
+}
+
+// Configure a pin of a cellular module to have a special function.
+int32_t uCellGpioConfigSpecialFunction(uDeviceHandle_t cellHandle,
+                                       uCellGpioName_t gpioId,
+                                       uCellGpioSpecialFunction_t specialFunction)
+{
+    int32_t errorCode = (int32_t) U_ERROR_COMMON_INVALID_PARAMETER;
+    uCellPrivateInstance_t *pInstance;
+
+    if (gUCellPrivateMutex != NULL) {
+
+        U_PORT_MUTEX_LOCK(gUCellPrivateMutex);
+
+        pInstance = pUCellPrivateGetInstance(cellHandle);
+        if ((pInstance != NULL) && ((int32_t) gpioId >= 0)) {
+            errorCode = config(pInstance->atHandle, gpioId, specialFunction, -1);
         }
 
         U_PORT_MUTEX_UNLOCK(gUCellPrivateMutex);

cell/src/u_cell_info.c

@@ -761,9 +761,11 @@ int32_t uCellInfoRefreshRadioParameters(uDeviceHandle_t cellHandle)
                         switch (pInstance->pModule->moduleType) {
                             case U_CELL_MODULE_TYPE_SARA_R5:
                             case U_CELL_MODULE_TYPE_SARA_R52:
+                            case U_CELL_MODULE_TYPE_LEXI_R52:
                                 errorCode = getRadioParamsUcged2SaraR5(atHandle, pRadioParameters);
                                 break;
                             case U_CELL_MODULE_TYPE_SARA_R422:
+                            case U_CELL_MODULE_TYPE_LEXI_R422:
                                 errorCode = getRadioParamsUcged2SaraR422(atHandle, pRadioParameters);
                                 break;
                             case U_CELL_MODULE_TYPE_LARA_R6:

cell/src/u_cell_mqtt.c

@@ -496,7 +496,7 @@ static void UUMQTTC_UUMQTTSNC_urc(uAtClientHandle_t atHandle,
             uAtClientReadString(atHandle, (char *) pUrcStatus->topicNameShort,
                                 sizeof(pUrcStatus->topicNameShort), false);
         }
-        if (U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+        if (U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
             // On SARA-R4, 0 to 2 mean success
             if ((urcParam1 >= 0) && (urcParam1 <= 2) &&
                 (urcParam2 >= 0)) {
@@ -803,7 +803,7 @@ static void UUMQTT_urc(uAtClientHandle_t atHandle,
         // Sort out if this is "+UUMQTTC:"/"+UUMQTTSNC:"
         // or "+UUMQTTx:" or [SARA-R4 only] "+UUMQTTCM:"
         if (uAtClientReadBytes(atHandle, bytes, sizeof(bytes), true) == sizeof(bytes)) {
-            if (U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+            if (U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                 if (bytes[0] == 'C') {
                     // Either "+UUMQTTC" or "+UUMQTTCM"
                     if (bytes[1] == 'M') {
@@ -1983,7 +1983,7 @@ static int32_t readMessage(const uCellPrivateInstance_t *pInstance,
                                U_CELL_PRIVATE_FEATURE_MQTT_SARA_R4_OLD_SYNTAX)) {
             U_ASSERT(pUrcMessage != NULL);
             // For the old-style SARA-R4 interface we need a URC capture
-            U_ASSERT(U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType));
+            U_ASSERT(U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType));
             pUrcMessage->messageRead = false;
             pUrcMessage->pTopicNameStr = pTopicNameStr;
             pUrcMessage->topicNameSizeBytes = (int32_t) topicNameSizeBytes;
@@ -2220,12 +2220,12 @@ int32_t uCellMqttInit(uDeviceHandle_t cellHandle, const char *pBrokerNameStr,
                     pContext->numTries = U_CELL_MQTT_RETRIES_DEFAULT + 1;
                     pContext->mqttSn = mqttSn;
                     pInstance->pMqttContext = pContext;
-                    if (U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+                    if (U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                         // SARA-R4 requires a pUrcMessage as well
                         pContext->pUrcMessage = (uCellMqttUrcMessage_t *) pUPortMalloc(sizeof(*(pContext->pUrcMessage)));
                     }
                     if ((pContext->pUrcMessage != NULL) ||
-                        !U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+                        !U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                         atHandle = pInstance->atHandle;
                         // Deal with the broker name string
                         // Allocate space to fiddle with the
@@ -2525,7 +2525,7 @@ int32_t uCellMqttGetLocalPort(uDeviceHandle_t cellHandle)
                 }
             }
             if ((errorCodeOrPort < 0) &&
-                U_CELL_PRIVATE_MODULE_IS_SARA_R4(pInstance->pModule->moduleType)) {
+                U_CELL_PRIVATE_MODULE_IS_R4(pInstance->pModule->moduleType)) {
                 // SARA-R4 doesn't respond with a port number if the
                 // port number is just the default one.
                 errorCodeOrPort = (int32_t) U_ERROR_COMMON_NOT_SUPPORTED;

cell/src/u_cell_mux.c

@@ -1079,7 +1079,7 @@ static uint8_t getChannelGnss(const uCellPrivateInstance_t *pInstance)
 {
     uint8_t channel = (uint8_t) pInstance->pModule->defaultMuxChannelGnss;
 
-    if (U_CELL_PRIVATE_MODULE_IS_SARA_R5(pInstance->pModule->moduleType)) {
+    if (U_CELL_PRIVATE_MODULE_IS_R5(pInstance->pModule->moduleType)) {
         // For the SARA-R5 case the CMUX channel for GNSS is different
         // if we are exchanging AT commands on the AUX UART, which is
         // USIO variant 2.