/* Copyright 2021 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include #include #include #include #include #include #include "common.h" #include "../driver/temp_sensor/thermistor.h" #define GPIO_PG_EC_DSW_PWROK_PATH DT_PATH(named_gpios, pg_ec_dsw_pwrok) #define GPIO_PG_EC_DSW_PWROK_PORT DT_GPIO_PIN(GPIO_PG_EC_DSW_PWROK_PATH, gpios) #define ADC_DEVICE_NODE DT_NODELABEL(adc0) #define TEMP_3V3_13K7_47K_4050B_INST DT_INST(0, temp_3v3_13k7_47k_4050b) #define ADC_CHANNEL_3V3_13K7_47K_4050B \ DT_PROP(DT_PHANDLE(TEMP_3V3_13K7_47K_4050B_INST, adc), channel) #define TEMP_3V3_30K9_47K_4050B_INST DT_INST(0, temp_3v3_30k9_47k_4050b) #define ADC_CHANNEL_3V3_30K9_47K_4050B \ DT_PROP(DT_PHANDLE(TEMP_3V3_30K9_47K_4050B_INST, adc), channel) #define TEMP_3V3_51K1_47K_4050B_INST DT_INST(0, temp_3v3_51k1_47k_4050b) #define ADC_CHANNEL_3V3_51K1_47K_4050B \ DT_PROP(DT_PHANDLE(TEMP_3V3_51K1_47K_4050B_INST, adc), channel) #define TEMP_3V0_22K6_47K_4050B_INST DT_INST(0, temp_3v0_22k6_47k_4050b) #define ADC_CHANNEL_3V0_22K6_47K_4050B \ DT_PROP(DT_PHANDLE(TEMP_3V0_22K6_47K_4050B_INST, adc), channel) /* Conversion of temperature doesn't need to be 100% accurate */ #define TEMP_EPS 2 /** * Test if get temp function return expected error when ADC is not powered * (indicated as GPIO pin set to low) and return success after powering on ADC. */ static void test_thermistor_power_pin(void) { const struct device *gpio_dev = DEVICE_DT_GET(DT_GPIO_CTLR(GPIO_PG_EC_DSW_PWROK_PATH, gpios)); const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); int temp; zassert_not_null(gpio_dev, "Cannot get GPIO device"); zassert_not_null(adc_dev, "Cannot get ADC device"); /* Make sure that ADC return any valid value */ zassert_ok(adc_emul_const_value_set(adc_dev, ADC_CHANNEL_3V3_13K7_47K_4050B, 1000), "adc_emul_const_value_set() failed"); zassert_ok(adc_emul_const_value_set(adc_dev, ADC_CHANNEL_3V3_30K9_47K_4050B, 1000), "adc_emul_const_value_set() failed"); zassert_ok(adc_emul_const_value_set(adc_dev, ADC_CHANNEL_3V3_51K1_47K_4050B, 1000), "adc_emul_const_value_set() failed"); zassert_ok(adc_emul_const_value_set(adc_dev, ADC_CHANNEL_3V0_22K6_47K_4050B, 1000), "adc_emul_const_value_set() failed"); /* pg_ec_dsw_pwrok = 0 means ADC is not powered. */ zassert_ok(gpio_emul_input_set(gpio_dev, GPIO_PG_EC_DSW_PWROK_PORT, 0), NULL); zassert_equal(EC_ERROR_NOT_POWERED, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_NOT_POWERED, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_NOT_POWERED, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_NOT_POWERED, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); /* pg_ec_dsw_pwrok = 1 means ADC is powered. */ zassert_ok(gpio_emul_input_set(gpio_dev, GPIO_PG_EC_DSW_PWROK_PORT, 1), NULL); zassert_equal(EC_SUCCESS, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_equal(EC_SUCCESS, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_equal(EC_SUCCESS, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_equal(EC_SUCCESS, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); } /** Simple ADC emulator custom function which always return error */ static int adc_error_func(const struct device *dev, unsigned int channel, void *param, uint32_t *result) { return -EINVAL; } /** Test if get temp function return expected error on ADC malfunction */ static void test_thermistor_adc_read_error(void) { const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); int temp; zassert_not_null(adc_dev, "Cannot get ADC device"); /* Return error on all ADC channels */ zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_13K7_47K_4050B, adc_error_func, NULL), "adc_emul_value_func_set() failed"); zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_30K9_47K_4050B, adc_error_func, NULL), "adc_emul_value_func_set() failed"); zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_51K1_47K_4050B, adc_error_func, NULL), "adc_emul_value_func_set() failed"); zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V0_22K6_47K_4050B, adc_error_func, NULL), "adc_emul_value_func_set() failed"); zassert_equal(EC_ERROR_UNKNOWN, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_UNKNOWN, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_UNKNOWN, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_equal(EC_ERROR_UNKNOWN, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); } /** Get resistance of thermistor for given temperature */ static int resistance(int t) { /* Thermistor manufacturer resistance lookup table*/ int r_table[] = { 155700, 147900, 140600, 133700, 127200, /* 0*C - 4*C */ 121000, 115100, 109600, 104300, 99310, /* 5*C - 9*C */ 94600, 90130, 85890, 81870, 78070, /* 10*C - 14*C */ 74450, 71020, 67770, 64680, 61750, /* 15*C - 19*C */ 58970, 56320, 53810, 51430, 49160, /* 20*C - 24*C */ 47000, 44950, 42990, 41130, 39360, /* 25*C - 29*C */ 37680, 36070, 34540, 33080, 31690, /* 30*C - 34*C */ 30360, 29100, 27900, 26750, 25650, /* 35*C - 39*C */ 24610, 23610, 22660, 21750, 20880, /* 40*C - 44*C */ 20050, 19260, 18500, 17780, 17090, /* 45*C - 49*C */ 16430, 15800, 15200, 14620, 14070, /* 50*C - 54*C */ 13540, 13030, 12550, 12090, 11640, /* 55*C - 59*C */ 11210, 10800, 10410, 10040, 9676, /* 60*C - 64*C */ 9331, 8999, 8680, 8374, 8081, /* 65*C - 69*C */ 7799, 7528, 7268, 7018, 6777, /* 70*C - 74*C */ 6546, 6324, 6111, 5906, 5708, /* 75*C - 79*C */ 5518, 5335, 5160, 4990, 4827, /* 80*C - 84*C */ 4671, 4519, 4374, 4233, 4098, /* 85*C - 89*C */ 3968, 3842, 3721, 3605, 3492, /* 90*C - 94*C */ 3384, 3279, 3179, 3082, 2988, /* 95*C - 99*C */ 2898 /* 100*C */ }; t -= 273; if (t < 0) return r_table[0] + 10000; if (t >= ARRAY_SIZE(r_table)) return r_table[ARRAY_SIZE(r_table) - 1] - 100; return r_table[t]; } /** * Calculate output voltage in voltage divider circuit using formula * Vout = Vs * r2 / (r1 + r2) */ static int volt_divider(int vs, int r1, int r2) { return vs * r2 / (r1 + r2); } struct thermistor_state { const int v; const int r; int temp_expected; }; /** ADC emulator function which calculate output voltage for given thermistor */ static int adc_temperature_func(const struct device *dev, unsigned int channel, void *param, uint32_t *result) { struct thermistor_state *s = (struct thermistor_state *)param; *result = volt_divider(s->v, s->r, resistance(s->temp_expected)); return 0; } /** Test conversion from ADC raw value to temperature */ static void test_thermistor_3v3_13k7_47k_4050b(void) { const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); struct thermistor_state state = { .v = 3300, .r = 13700, }; int temp_expected; int temp; zassert_not_null(adc_dev, "Cannot get ADC device"); /* Setup ADC channel */ zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_13K7_47K_4050B, adc_temperature_func, &state), "adc_emul_value_func_set() failed"); /* Makes sure that reference voltage is correct for given thermistor */ zassert_ok(adc_emul_ref_voltage_set(adc_dev, ADC_REF_INTERNAL, state.v), "adc_emul_ref_voltage_set() failed"); /* Test whole supported range from 0*C to 100*C (273*K to 373*K) */ for (temp_expected = 273; temp_expected <= 373; temp_expected++) { state.temp_expected = temp_expected; zassert_equal(EC_SUCCESS, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_within(temp_expected, temp, TEMP_EPS, "Expected %d*K, got %d*K", temp_expected, temp); } /* Temperatures below 0*C should be reported as 0*C */ state.temp_expected = -15 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_equal(273, temp, "Expected %d*K, got %d*K", 273, temp); /* Temperatures above 100*C should be reported as 100*C */ state.temp_expected = 115 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_13k7_47k_4050b( ADC_CHANNEL_3V3_13K7_47K_4050B, &temp), NULL); zassert_equal(373, temp, "Expected %d*K, got %d*K", 373, temp); } /** Test conversion from ADC raw value to temperature */ static void test_thermistor_3v3_30k9_47k_4050b(void) { const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); struct thermistor_state state = { .v = 3300, .r = 30900, }; int temp_expected; int temp; zassert_not_null(adc_dev, "Cannot get ADC device"); /* Setup ADC channel */ zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_30K9_47K_4050B, adc_temperature_func, &state), "adc_emul_value_func_set() failed"); /* Makes sure that reference voltage is correct for given thermistor */ zassert_ok(adc_emul_ref_voltage_set(adc_dev, ADC_REF_INTERNAL, state.v), "adc_emul_ref_voltage_set() failed"); /* Test whole supported range from 0*C to 100*C (273*K to 373*K) */ for (temp_expected = 273; temp_expected <= 373; temp_expected++) { state.temp_expected = temp_expected; zassert_equal(EC_SUCCESS, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_within(temp_expected, temp, TEMP_EPS, "Expected %d*K, got %d*K", temp_expected, temp); } /* Temperatures below 0*C should be reported as 0*C */ state.temp_expected = -15 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_equal(273, temp, "Expected %d*K, got %d*K", 273, temp); /* Temperatures above 100*C should be reported as 100*C */ state.temp_expected = 115 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_30k9_47k_4050b( ADC_CHANNEL_3V3_30K9_47K_4050B, &temp), NULL); zassert_equal(373, temp, "Expected %d*K, got %d*K", 373, temp); } /** Test conversion from ADC raw value to temperature */ static void test_thermistor_3v3_51k1_47k_4050b(void) { const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); struct thermistor_state state = { .v = 3300, .r = 51100, }; int temp_expected; int temp; zassert_not_null(adc_dev, "Cannot get ADC device"); /* Setup ADC channel */ zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V3_51K1_47K_4050B, adc_temperature_func, &state), "adc_emul_value_func_set() failed"); /* Makes sure that reference voltage is correct for given thermistor */ zassert_ok(adc_emul_ref_voltage_set(adc_dev, ADC_REF_INTERNAL, state.v), "adc_emul_ref_voltage_set() failed"); /* Test whole supported range from 0*C to 100*C (273*K to 373*K) */ for (temp_expected = 273; temp_expected <= 373; temp_expected++) { state.temp_expected = temp_expected; zassert_equal(EC_SUCCESS, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_within(temp_expected, temp, TEMP_EPS, "Expected %d*K, got %d*K", temp_expected, temp); } /* Temperatures below 0*C should be reported as 0*C */ state.temp_expected = -15 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_equal(273, temp, "Expected %d*K, got %d*K", 273, temp); /* Temperatures above 100*C should be reported as 100*C */ state.temp_expected = 115 + 273; zassert_equal(EC_SUCCESS, get_temp_3v3_51k1_47k_4050b( ADC_CHANNEL_3V3_51K1_47K_4050B, &temp), NULL); zassert_equal(373, temp, "Expected %d*K, got %d*K", 373, temp); } /** Test conversion from ADC raw value to temperature */ static void test_thermistor_3v0_22k6_47k_4050b(void) { const struct device *adc_dev = DEVICE_DT_GET(ADC_DEVICE_NODE); struct thermistor_state state = { .v = 3000, .r = 22600, }; int temp_expected; int temp; zassert_not_null(adc_dev, "Cannot get ADC device"); /* Setup ADC channel */ zassert_ok(adc_emul_value_func_set(adc_dev, ADC_CHANNEL_3V0_22K6_47K_4050B, adc_temperature_func, &state), "adc_emul_value_func_set() failed"); /* Makes sure that reference voltage is correct for given thermistor */ zassert_ok(adc_emul_ref_voltage_set(adc_dev, ADC_REF_INTERNAL, state.v), "adc_emul_ref_voltage_set() failed"); /* Test whole supported range from 0*C to 100*C (273*K to 373*K) */ for (temp_expected = 273; temp_expected <= 373; temp_expected++) { state.temp_expected = temp_expected; zassert_equal(EC_SUCCESS, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); zassert_within(temp_expected, temp, TEMP_EPS, "Expected %d*K, got %d*K", temp_expected, temp); } /* Temperatures below 0*C should be reported as 0*C */ state.temp_expected = -15 + 273; zassert_equal(EC_SUCCESS, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); zassert_equal(273, temp, "Expected %d*K, got %d*K", 273, temp); /* Temperatures above 100*C should be reported as 100*C */ state.temp_expected = 115 + 273; zassert_equal(EC_SUCCESS, get_temp_3v0_22k6_47k_4050b( ADC_CHANNEL_3V0_22K6_47K_4050B, &temp), NULL); zassert_equal(373, temp, "Expected %d*K, got %d*K", 373, temp); } void test_suite_thermistor(void) { const struct device *dev = DEVICE_DT_GET(DT_GPIO_CTLR(GPIO_PG_EC_DSW_PWROK_PATH, gpios)); zassert_not_null(dev, NULL); /* Before tests make sure that power pin is set. */ zassert_ok(gpio_emul_input_set(dev, GPIO_PG_EC_DSW_PWROK_PORT, 1), NULL); ztest_test_suite(thermistor, ztest_user_unit_test(test_thermistor_power_pin), ztest_user_unit_test(test_thermistor_adc_read_error), ztest_user_unit_test( test_thermistor_3v3_13k7_47k_4050b), ztest_user_unit_test( test_thermistor_3v3_30k9_47k_4050b), ztest_user_unit_test( test_thermistor_3v3_51k1_47k_4050b), ztest_user_unit_test( test_thermistor_3v0_22k6_47k_4050b)); ztest_run_test_suite(thermistor); }