/* Copyright 2017 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. */ /* ADT7481 temperature sensor module for Chrome EC */ #include "common.h" #include "console.h" #include "adt7481.h" #include "gpio.h" #include "i2c.h" #include "hooks.h" #include "util.h" static int temp_val_local; static int temp_val_remote1; static int temp_val_remote2; static uint8_t is_sensor_shutdown; /** * Determine whether the sensor is powered. * * @return non-zero the adt7481 sensor is powered. */ static int has_power(void) { #ifdef CONFIG_TEMP_SENSOR_POWER_GPIO return gpio_get_level(CONFIG_TEMP_SENSOR_POWER_GPIO); #else return !is_sensor_shutdown; #endif } static int raw_read8(const int offset, int *data_ptr) { return i2c_read8(I2C_PORT_THERMAL, ADT7481_I2C_ADDR, offset, data_ptr); } static int raw_write8(const int offset, int data) { return i2c_write8(I2C_PORT_THERMAL, ADT7481_I2C_ADDR, offset, data); } static int get_temp(const int offset, int *temp_ptr) { int rv; int temp_raw = 0; rv = raw_read8(offset, &temp_raw); if (rv < 0) return rv; *temp_ptr = (int)(int8_t)temp_raw; return EC_SUCCESS; } #ifdef CONFIG_CMD_TEMP_SENSOR static int adt7481_set_temp(const int offset, int temp) { if (temp < -127 || temp > 127) return EC_ERROR_INVAL; return raw_write8(offset, (uint8_t)temp); } #endif int adt7481_get_val(int idx, int *temp_ptr) { if (!has_power()) return EC_ERROR_NOT_POWERED; switch (idx) { case ADT7481_IDX_LOCAL: *temp_ptr = temp_val_local; break; case ADT7481_IDX_REMOTE1: *temp_ptr = temp_val_remote1; break; case ADT7481_IDX_REMOTE2: *temp_ptr = temp_val_remote2; break; default: return EC_ERROR_UNKNOWN; } return EC_SUCCESS; } static int adt7481_shutdown(uint8_t want_shutdown) { int ret, value; if (want_shutdown == is_sensor_shutdown) return EC_SUCCESS; ret = raw_read8(ADT7481_CONFIGURATION1_R, &value); if (ret < 0) { ccprintf("ERROR: Temp sensor I2C read8 error.\n"); return ret; } if (want_shutdown && !(value & ADT7481_CONFIG1_RUN_L)) { /* adt7481 is running, and want it to shutdown */ /* CONFIG REG1 BIT6: 0=Run, 1=Shutdown */ /* shut it down */ value |= ADT7481_CONFIG1_RUN_L; ret = raw_write8(ADT7481_CONFIGURATION1_R, value); } else if (!want_shutdown && (value & ADT7481_CONFIG1_RUN_L)) { /* adt7481 is shutdown, and want turn it on */ value &= ~ADT7481_CONFIG1_RUN_L; ret = raw_write8(ADT7481_CONFIGURATION1_R, value); } /* else, the current setting is exactly what you want */ is_sensor_shutdown = want_shutdown; return ret; } static int adt7481_set_therm_mode(void) { int ret = 0; int data = 0; ret = raw_read8(ADT7481_CONFIGURATION1_R, &data); if (ret) return EC_ERROR_UNKNOWN; data |= ADT7481_CONFIG1_MODE; ret = raw_write8(ADT7481_CONFIGURATION1_W, data); if (ret) return EC_ERROR_UNKNOWN; return EC_SUCCESS; } int adt7481_set_therm_limit(int channel, int limit_c, int hysteresis) { int ret = 0; int reg = 0; if (channel >= ADT7481_CHANNEL_COUNT) return EC_ERROR_INVAL; if (hysteresis > ADT7481_HYSTERESIS_HIGH_LIMIT || hysteresis < ADT7481_HYSTERESIS_LOW_LIMIT) return EC_ERROR_INVAL; /* hysteresis must be less than high limit */ if (hysteresis > limit_c) return EC_ERROR_INVAL; if (adt7481_set_therm_mode() != EC_SUCCESS) return EC_ERROR_UNKNOWN; switch (channel) { case ADT7481_CHANNEL_LOCAL: reg = ADT7481_LOCAL_HIGH_LIMIT_W; break; case ADT7481_CHANNEL_REMOTE1: reg = ADT7481_REMOTE1_HIGH_LIMIT_W; break; case ADT7481_CHANNEL_REMOTE2: reg = ADT7481_REMOTE2_HIGH_LIMIT; break; } ret = raw_write8(reg, limit_c); if (ret) return EC_ERROR_UNKNOWN; ret = raw_write8(ADT7481_THERM_HYSTERESIS, hysteresis); if (ret) return EC_ERROR_UNKNOWN; return EC_SUCCESS; } static void adt7481_temp_sensor_poll(void) { int temp_c; if (!has_power()) return; if (get_temp(ADT7481_LOCAL, &temp_c) == EC_SUCCESS) temp_val_local = C_TO_K(temp_c); if (get_temp(ADT7481_REMOTE1, &temp_c) == EC_SUCCESS) temp_val_remote1 = C_TO_K(temp_c); if (get_temp(ADT7481_REMOTE2, &temp_c) == EC_SUCCESS) temp_val_remote2 = C_TO_K(temp_c); } DECLARE_HOOK(HOOK_SECOND, adt7481_temp_sensor_poll, HOOK_PRIO_TEMP_SENSOR); #ifdef CONFIG_CMD_TEMP_SENSOR static void print_temps( const char *name, const int adt7481_temp_reg, const int adt7481_therm_limit_reg, const int adt7481_high_limit_reg, const int adt7481_low_limit_reg) { int value; if (!has_power()) { ccprintf(" ADT7481 is shutdown\n"); return; } ccprintf("%s:\n", name); if (get_temp(adt7481_temp_reg, &value) == EC_SUCCESS) ccprintf(" Temp %3dC\n", value); if (get_temp(adt7481_therm_limit_reg, &value) == EC_SUCCESS) ccprintf(" Therm Trip %3dC\n", value); if (get_temp(adt7481_high_limit_reg, &value) == EC_SUCCESS) ccprintf(" High Alarm %3dC\n", value); if (get_temp(adt7481_low_limit_reg, &value) == EC_SUCCESS) ccprintf(" Low Alarm %3dC\n", value); } static int print_status(void) { int value; print_temps("Local", ADT7481_LOCAL, ADT7481_LOCAL_THERM_LIMIT, ADT7481_LOCAL_HIGH_LIMIT_R, ADT7481_LOCAL_LOW_LIMIT_R); print_temps("Remote1", ADT7481_REMOTE1, ADT7481_REMOTE1_THERM_LIMIT, ADT7481_REMOTE1_HIGH_LIMIT_R, ADT7481_REMOTE1_LOW_LIMIT_R); print_temps("Remote2", ADT7481_REMOTE2, ADT7481_REMOTE2_THERM_LIMIT, ADT7481_REMOTE2_HIGH_LIMIT, ADT7481_REMOTE2_LOW_LIMIT); ccprintf("\n"); if (raw_read8(ADT7481_STATUS1_R, &value) == EC_SUCCESS) ccprintf("STATUS1: %08b\n", value); if (raw_read8(ADT7481_STATUS2_R, &value) == EC_SUCCESS) ccprintf("STATUS2: %08b\n", value); if (raw_read8(ADT7481_CONFIGURATION1_R, &value) == EC_SUCCESS) ccprintf("CONFIG1: %08b\n", value); if (raw_read8(ADT7481_CONFIGURATION2, &value) == EC_SUCCESS) ccprintf("CONFIG2: %08b\n", value); return EC_SUCCESS; } static int command_adt7481(int argc, char **argv) { char *command; char *e; char *power; int data; int offset; int rv; /* handle "power" command before checking the power status. */ if ((argc == 3) && !strcasecmp(argv[1], "power")) { power = argv[2]; if (!strncasecmp(power, "on", sizeof("on"))) { rv = adt7481_set_power(ADT7481_POWER_ON); if (!rv) print_status(); } else if (!strncasecmp(power, "off", sizeof("off"))) rv = adt7481_set_power(ADT7481_POWER_OFF); else return EC_ERROR_PARAM2; ccprintf("Set ADT7481 %s\n", power); return rv; } if (!has_power()) { ccprintf("ERROR: Temp sensor not powered.\n"); return EC_ERROR_NOT_POWERED; } /* If no args just print status */ if (argc == 1) return print_status(); if (argc < 3) return EC_ERROR_PARAM_COUNT; command = argv[1]; offset = strtoi(argv[2], &e, 0); if (*e || offset < 0 || offset > 255) return EC_ERROR_PARAM2; if (!strcasecmp(command, "getbyte")) { rv = raw_read8(offset, &data); if (rv < 0) return rv; ccprintf("Byte at offset 0x%02x is %08b\n", offset, data); return rv; } /* Remaining commands are "adt7481 set-command offset data" */ if (argc != 4) return EC_ERROR_PARAM_COUNT; data = strtoi(argv[3], &e, 0); if (*e) return EC_ERROR_PARAM3; if (!strcasecmp(command, "settemp")) { ccprintf("Setting 0x%02x to %dC\n", offset, data); rv = adt7481_set_temp(offset, data); } else if (!strcasecmp(command, "setbyte")) { ccprintf("Setting 0x%02x to 0x%02x\n", offset, data); rv = raw_write8(offset, data); } else return EC_ERROR_PARAM1; return rv; } DECLARE_CONSOLE_COMMAND(adt7481, command_adt7481, "[settemp|setbyte ] or [getbyte ] or" "[power ]. " "Temps in Celsius.", "Print tmp432 temp sensor status or set parameters."); #endif int adt7481_set_power(enum adt7481_power_state power_on) { #ifndef CONFIG_TEMP_SENSOR_POWER_GPIO uint8_t shutdown = (power_on == ADT7481_POWER_OFF) ? 1 : 0; return adt7481_shutdown(shutdown); #else gpio_set_level(CONFIG_TEMP_SENSOR_POWER_GPIO, power_on); return EC_SUCCESS; #endif }