/test/periphery-lld/INA219_v1/aos_test_INA219.c - AMiRo-OS - Research for Cognitive Interaction

amiro-os / test / periphery-lld / INA219_v1 / aos_test_INA219.c @ ce12e797

History | View | Annotate | Download (8.478 KB)

       /*
       AMiRo-OS is an operating system designed for the Autonomous Mini Robot (AMiRo) platform.
       Copyright (C) 2016..2019  Thomas Schöpping et al.
       This program is free software: you can redistribute it and/or modify
       it under the terms of the GNU General Public License as published by
       the Free Software Foundation, either version 3 of the License, or
       (at your option) any later version.
       This program is distributed in the hope that it will be useful,
       but WITHOUT ANY WARRANTY; without even the implied warranty of
       MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
       GNU General Public License for more details.
       You should have received a copy of the GNU General Public License
       along with this program.  If not, see <http://www.gnu.org/licenses/>.
       */
       #include <amiroos.h>
       #include <aos_test_INA219.h>
       #if (AMIROOS_CFG_TESTS_ENABLE == true) || defined(__DOXYGEN__)
       #include <math.h>
       /******************************************************************************/
       /* LOCAL DEFINITIONS                                                          */
       /******************************************************************************/
       /******************************************************************************/
       /* EXPORTED VARIABLES                                                         */
       /******************************************************************************/
       /******************************************************************************/
       /* LOCAL TYPES                                                                */
       /******************************************************************************/
       /******************************************************************************/
       /* LOCAL VARIABLES                                                            */
       /******************************************************************************/
       /******************************************************************************/
       /* LOCAL FUNCTIONS                                                            */
       /******************************************************************************/
       /******************************************************************************/
       /* EXPORTED FUNCTIONS                                                         */
       /******************************************************************************/
       aos_testresult_t aosTestIna219Func(BaseSequentialStream* stream, const aos_test_t* test)
+      {
         aosDbgCheck(test->data != NULL && ((aos_test_ina219data_t*)(test->data))->inad != NULL);
         // local variables
         aos_testresult_t result;
         int32_t status;
         uint16_t data[6];
         uint16_t write_data = 0x1011;
         uint16_t new_data[6];
         uint16_t reset_data;
         uint16_t test_calib = 0;
         int16_t usensor_data = 0;
         uint16_t busready = 0;
         uint32_t power = 0;
         int32_t shunt;
         uint32_t bus;
         aosTestResultInit(&result);
         chprintf(stream, "read registers...\n");
         status = ina219_lld_read_register(((aos_test_ina219data_t*)test->data)->inad, INA219_LLD_REGISTER_CONFIGURATION, data, 6, ((aos_test_ina219data_t*)test->data)->timeout);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "write registers...\n");
         status = ina219_lld_write_register(((aos_test_ina219data_t*)test->data)->inad, INA219_LLD_REGISTER_CONFIGURATION, &write_data, 1, ((aos_test_ina219data_t*)test->data)->timeout);
         status |= ina219_lld_read_register(((aos_test_ina219data_t*)test->data)->inad, INA219_LLD_REGISTER_CONFIGURATION, new_data, 6, ((aos_test_ina219data_t*)test->data)->timeout);
         if (status == APAL_STATUS_SUCCESS && new_data[0] == write_data) {
           uint8_t errors = 0;
           for (uint8_t dataIdx = 1; dataIdx < 6; dataIdx++) {
             if (new_data[dataIdx] != data[dataIdx]) {
               ++errors;
+            }
+          }
           if (errors == 0) {
             aosTestPassed(stream, &result);
           } else {
             aosTestFailed(stream, &result);
+          }
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "reset...\n");
         status = ina219_lld_reset(((aos_test_ina219data_t*)test->data)->inad, ((aos_test_ina219data_t*)test->data)->timeout);
         status |= ina219_lld_read_register(((aos_test_ina219data_t*)test->data)->inad, INA219_LLD_REGISTER_CONFIGURATION, &reset_data, 1, ((aos_test_ina219data_t*)test->data)->timeout);
         if (status == APAL_STATUS_SUCCESS && reset_data == 0x399F) {
           aosTestPassed(stream, &result);
         } else {
           chprintf(stream, "\tfailed\n");
           ++result.failed;
+        }
         chprintf(stream, "read config...\n");
         ina219_lld_cfg_t ina_config;
         status = ina219_lld_read_config(((aos_test_ina219data_t*)test->data)->inad, &ina_config, ((aos_test_ina219data_t*)test->data)->timeout);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "write config...\n");
         ina_config.data = 0x7FFu;
         status = ina219_lld_write_config(((aos_test_ina219data_t*)test->data)->inad, ina_config, ((aos_test_ina219data_t*)test->data)->timeout);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "calibrate...\n");
         ina219_lld_calib_input_t calib_in;
         calib_in.shunt_resistance_0 = 0.1f;
         calib_in.max_expected_current_A = 0.075f;
         calib_in.current_lsb_uA = 10;
         calib_in.cfg_reg = ina_config;
         ina219_lld_calib_output_t calib_out;
         status = ina219_lld_calibration(((aos_test_ina219data_t*)test->data)->inad, &calib_in, &calib_out);
         status |= ina219_lld_write_calibration(((aos_test_ina219data_t*)test->data)->inad, calib_out.calibration & 0xFFFEu, ((aos_test_ina219data_t*)test->data)->timeout);
         status |= ina219_lld_write_calibration(((aos_test_ina219data_t*)test->data)->inad, 0xA000, ((aos_test_ina219data_t*)test->data)->timeout);
         ina219_lld_cfg_t test_config;
         ((aos_test_ina219data_t*)test->data)->inad->current_lsb_uA = 0xA;
         status |= ina219_lld_read_config(((aos_test_ina219data_t*)test->data)->inad, &test_config, ((aos_test_ina219data_t*)test->data)->timeout);
         status |= ina219_lld_read_calibration(((aos_test_ina219data_t*)test->data)->inad, &test_calib, ((aos_test_ina219data_t*)test->data)->timeout);
         while (!busready || power == 0) {
           aosThdMSleep(20);
           status |= ina219_lld_bus_conversion_ready(((aos_test_ina219data_t*)test->data)->inad, &busready, ((aos_test_ina219data_t*)test->data)->timeout);
           status |= ina219_lld_read_power(((aos_test_ina219data_t*)test->data)->inad, &power, ((aos_test_ina219data_t*)test->data)->timeout);
+        }
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "read shunt voltage...\n");
         status = ina219_lld_read_shunt_voltage(((aos_test_ina219data_t*)test->data)->inad, &shunt, ((aos_test_ina219data_t*)test->data)->timeout);
         chprintf(stream, "\t\tshunt voltage: %fV\n", (float)shunt/1000000.f);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "read bus voltage (%u%% tolerance)...\n", (uint8_t)(((aos_test_ina219data_t*)test->data)->tolerance * 100.f + 0.5f));
         status = ina219_lld_read_bus_voltage(((aos_test_ina219data_t*)test->data)->inad, &bus, ((aos_test_ina219data_t*)test->data)->timeout);
         chprintf(stream, "\t\tbus voltage: %fV\n", (float)bus/1000000.f);
         if ((status == APAL_STATUS_SUCCESS) && (fabs(((float)bus/1000000.f) - ((aos_test_ina219data_t*)test->data)->v_expected) < ((aos_test_ina219data_t*)test->data)->v_expected * ((aos_test_ina219data_t*)test->data)->tolerance)) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "read power...\n");
         status = ina219_lld_read_power(((aos_test_ina219data_t*)test->data)->inad, &power, ((aos_test_ina219data_t*)test->data)->timeout);
         chprintf(stream, "\t\tpower: %fW\n", (float)(power)/1000000.f);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         chprintf(stream, "read current...\n");
         status = ina219_lld_read_current(((aos_test_ina219data_t*)test->data)->inad, &usensor_data, ((aos_test_ina219data_t*)test->data)->timeout);
         chprintf(stream, "\t\tcurrent: %fA\n", (float)(usensor_data)/1000000.f);
         if (status == APAL_STATUS_SUCCESS) {
           aosTestPassed(stream, &result);
         } else {
           aosTestFailed(stream, &result);
+        }
         aosTestInfoMsg(stream, "driver object memory footprint: %u bytes\n", sizeof(INA219Driver));
         return result;
+      }
       #endif /* (AMIROOS_CFG_TESTS_ENABLE == true) */