Wajahat Abbas
gnss
TESTS/unit_tests/default/main.cpp
- Committer:
- rob.meades@u-blox.com
- Date:
- 2017-04-10
- Revision:
- 1:ef70a58a6c98
- Child:
- 6:56eda66d585b
File content as of revision 1:ef70a58a6c98:
#include "mbed.h"
#include "greentea-client/test_env.h"
#include "unity.h"
#include "utest.h"
#include "gnss.h"
extern "C" {
#include "c030_api.h"
}
using namespace utest::v1;
// ----------------------------------------------------------------
// COMPILE-TIME MACROS
// ----------------------------------------------------------------
// How long to wait for a GNSS result
#define GNSS_WAIT_SECONDS 120
// ----------------------------------------------------------------
// PRIVATE VARIABLES
// ----------------------------------------------------------------
// ----------------------------------------------------------------
// PRIVATE FUNCTIONS
// ----------------------------------------------------------------
static void printHex (char * pData, uint32_t lenData)
{
char * pEnd = pData + lenData;
uint8_t x;
printf (" 0 1 2 3 4 5 6 7 8 9 A B C D E F\n");
while (pData < pEnd) {
for (x = 1; (x <= 32) && (pData < pEnd); x++) {
if (x % 16 == 8) {
printf ("%02x ", *pData);
} else if (x % 16 == 0) {
printf ("%02x\n", *pData);
} else {
printf ("%02x-", *pData);
}
pData++;
}
if (x % 16 != 1) {
printf("\n");
}
}
}
// ----------------------------------------------------------------
// TESTS
// ----------------------------------------------------------------
// Test sending a u-blox command over serial
void test_serial_ubx() {
char buffer[64];
int responseLength = 0;
int returnCode;
GnssSerial *pGnss = new GnssSerial();
// Initialise the GNSS chip and wait for it to start up
pGnss->init(NC);
wait_ms(1000);
// See ublox7-V14_ReceiverDescrProtSpec section 30.11.15 (CFG-NAV5)
// Set automotive mode, which should be acknowledged
memset (buffer, 0, sizeof (buffer));
buffer[0] = 0x00;
buffer[1] = 0x01; // Set dynamic config only
buffer[2] = 0x04; // Automotive
// Send length is 32 bytes of payload + 6 bytes header + 2 bytes CRC
TEST_ASSERT_EQUAL_INT (40, pGnss->sendUbx(0x06, 0x24, buffer, 32));
while (responseLength == 0) {
// Wait for the required Ack
returnCode = pGnss->getMessage(buffer, sizeof(buffer));
if ((returnCode != GnssSerial::WAIT) && (returnCode != GnssSerial::NOT_FOUND)) {
responseLength = LENGTH(returnCode);
if ((PROTOCOL(returnCode) == GnssSerial::UBX)) {
printHex(buffer, responseLength);
// Ack is 0xb5-62-05-00-02-00-msgclass-msgid-crcA-crcB
// Nack is 0xb5-62-05-01-02-00-msgclass-msgid-crcA-crcB
TEST_ASSERT_EQUAL_UINT8(0xb5, buffer[0]);
TEST_ASSERT_EQUAL_UINT8(0x62, buffer[1]);
TEST_ASSERT_EQUAL_UINT8(0x05, buffer[2]);
TEST_ASSERT_EQUAL_UINT8(0x00, buffer[3]);
TEST_ASSERT_EQUAL_UINT8(0x02, buffer[4]);
TEST_ASSERT_EQUAL_UINT8(0x00, buffer[5]);
TEST_ASSERT_EQUAL_UINT8(0x06, buffer[6]);
TEST_ASSERT_EQUAL_UINT8(0x24, buffer[7]);
} else if ((PROTOCOL(returnCode) == GnssSerial::NMEA)) {
printf ("%.*s", responseLength, buffer);
responseLength = 0;
} else {
printHex(buffer, responseLength);
responseLength = 0;
}
}
wait_ms (100);
}
}
// Test getting a response from GNSS using the serial interface
void test_serial_time() {
GnssSerial *pGnss = new GnssSerial();
bool gotLatLong = false;
bool gotElevation = false;
bool gotSpeed = false;
bool gotTime = false;
char buffer[256];
int returnCode;
double latitude;
double longitude;
double elevation;
double speed;
printf("GNSS: powering up and waiting up to %d second(s) for something to happen.\n", GNSS_WAIT_SECONDS);
pGnss->init();
memset(buffer, 0, sizeof(buffer));
for (uint32_t x = 0; (x < GNSS_WAIT_SECONDS) && !gotTime; x++)
{
while (((returnCode = pGnss->getMessage(buffer, sizeof(buffer))) > 0) &&
!(gotLatLong && gotElevation && gotSpeed && gotTime))
{
int32_t length = LENGTH(returnCode);
if ((PROTOCOL(returnCode) == GnssParser::NMEA) && (length > 6))
{
printf(".");
// talker is $GA=Galileo $GB=Beidou $GL=Glonass $GN=Combined $GP=GNSS
if ((buffer[0] == '$') || buffer[1] == 'G')
{
#define _CHECK_TALKER(s) ((buffer[3] == s[0]) && (buffer[4] == s[1]) && (buffer[5] == s[2]))
if (_CHECK_TALKER("GLL"))
{
char ch;
if (pGnss->getNmeaAngle(1, buffer, length, latitude) &&
pGnss->getNmeaAngle(3, buffer, length, longitude) &&
pGnss->getNmeaItem(6, buffer, length, ch) &&
ch == 'A')
{
gotLatLong = true;
latitude *= 60000;
longitude *= 60000;
printf("\nGNSS: location %.5f %.5f %c.\n", latitude, longitude, ch);
}
}
else if (_CHECK_TALKER("GGA") || _CHECK_TALKER("GNS"))
{
const char *pTimeString = NULL;
// Retrieve the time
pTimeString = pGnss->findNmeaItemPos(1, buffer, buffer + length);
if (pTimeString != NULL)
{
gotTime = true;
printf("\nGNSS: time is %.6s.", pTimeString);
}
if (pGnss->getNmeaItem(9, buffer, length, elevation)) // altitude msl [m]
{
gotElevation = true;
printf("\nGNSS: elevation: %.1f.", elevation);
}
}
else if (_CHECK_TALKER("VTG"))
{
if (pGnss->getNmeaItem(7, buffer, length, speed)) // speed [km/h]
{
gotSpeed = true;
printf("\nGNSS: speed: %.1f.", speed);
}
}
}
}
}
wait_ms(1000);
}
printf("\n");
// Depending on antenna positioning we may not be able to get a GNSS fix but we
// should at least be able to receive the time from a satellite
TEST_ASSERT(gotTime);
}
// ----------------------------------------------------------------
// TEST ENVIRONMENT
// ----------------------------------------------------------------
// Setup the test environment
utest::v1::status_t test_setup(const size_t number_of_cases) {
// Setup Greentea with a timeout
GREENTEA_SETUP(120, "default_auto");
return verbose_test_setup_handler(number_of_cases);
}
// Test cases
Case cases[] = {
Case("Ubx command", test_serial_ubx),
Case("Get time", test_serial_time),
};
Specification specification(test_setup, cases);
// ----------------------------------------------------------------
// MAIN
// ----------------------------------------------------------------
int main() {
c030_init(); // HACK
return !Harness::run(specification);
}
// End Of File