/* Copyright 2016 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. */ /* Intel X86 chipset power control module for Chrome EC */ #include "board_config.h" #include "charge_state.h" #include "chipset.h" #include "console.h" #include "ec_commands.h" #include "espi.h" #include "gpio.h" #include "hooks.h" #include "intel_x86.h" #include "lpc.h" #include "power.h" #include "power_button.h" #include "system.h" #include "task.h" #include "util.h" #include "vboot.h" #include "wireless.h" /* Chipset specific header files */ /* Geminilake and apollolake use same power sequencing. */ #ifdef CONFIG_CHIPSET_APL_GLK #include "apollolake.h" #elif defined(CONFIG_CHIPSET_CANNONLAKE) #include "cannonlake.h" #elif defined(CONFIG_CHIPSET_COMETLAKE) #include "cometlake.h" #elif defined(CONFIG_CHIPSET_ICELAKE) #include "icelake.h" #elif defined(CONFIG_CHIPSET_SKYLAKE) #include "skylake.h" #endif /* Console output macros */ #define CPRINTS(format, args...) cprints(CC_CHIPSET, format, ## args) enum sys_sleep_state { SYS_SLEEP_S3, SYS_SLEEP_S4, #ifdef CONFIG_POWER_S0IX SYS_SLEEP_S0IX, #endif }; static const int sleep_sig[] = { #ifdef CONFIG_HOSTCMD_ESPI_VW_SLP_SIGNALS [SYS_SLEEP_S3] = VW_SLP_S3_L, [SYS_SLEEP_S4] = VW_SLP_S4_L, #else [SYS_SLEEP_S3] = GPIO_PCH_SLP_S3_L, [SYS_SLEEP_S4] = GPIO_PCH_SLP_S4_L, #endif #ifdef CONFIG_POWER_S0IX [SYS_SLEEP_S0IX] = GPIO_PCH_SLP_S0_L, #endif }; static int power_s5_up; /* Chipset is sequencing up or down */ #ifdef CONFIG_CHARGER /* Flag to indicate if power up was inhibited due to low battery SOC level. */ static int power_up_inhibited; /* * Check if AP power up should be inhibited. * 0 = Ok to boot up AP * 1 = AP power up is inhibited. */ static int is_power_up_inhibited(void) { /* Defaulting to power button not pressed. */ const int power_button_pressed = 0; return charge_prevent_power_on(power_button_pressed) || charge_want_shutdown(); } static void power_up_inhibited_cb(void) { if (!power_up_inhibited) return; if (is_power_up_inhibited()) { CPRINTS("power-up still inhibited"); return; } CPRINTS("Battery SOC ok to boot AP!"); power_up_inhibited = 0; chipset_exit_hard_off(); } DECLARE_HOOK(HOOK_BATTERY_SOC_CHANGE, power_up_inhibited_cb, HOOK_PRIO_DEFAULT); #endif /* Get system sleep state through GPIOs or VWs */ static inline int chipset_get_sleep_signal(enum sys_sleep_state state) { #ifdef CONFIG_HOSTCMD_ESPI_VW_SLP_SIGNALS if (espi_signal_is_vw(sleep_sig[state])) return espi_vw_get_wire(sleep_sig[state]); else #endif return gpio_get_level(sleep_sig[state]); } #ifdef CONFIG_BOARD_HAS_RTC_RESET static enum power_state power_wait_s5_rtc_reset(void) { static int s5_exit_tries; /* Wait for S5 exit and then attempt RTC reset */ while ((power_get_signals() & IN_PCH_SLP_S4_DEASSERTED) == 0) { /* Handle RSMRST passthru event while waiting */ common_intel_x86_handle_rsmrst(POWER_S5); if (task_wait_event(SECOND*4) == TASK_EVENT_TIMER) { CPRINTS("timeout waiting for S5 exit"); chipset_force_g3(); /* Assert RTCRST# and retry 5 times */ board_rtc_reset(); if (++s5_exit_tries > 4) { s5_exit_tries = 0; return POWER_G3; /* Stay off */ } udelay(10 * MSEC); return POWER_G3S5; /* Power up again */ } } s5_exit_tries = 0; return POWER_S5S3; /* Power up to next state */ } #endif #ifdef CONFIG_POWER_S0IX /* * Backup copies of SCI and SMI mask to preserve across S0ix suspend/resume * cycle. If the host uses S0ix, BIOS is not involved during suspend and resume * operations and hence SCI/SMI masks are programmed only once during boot-up. * * These backup variables are set whenever host expresses its interest to * enter S0ix and then lpc_host_event_mask for SCI and SMI are cleared. When * host resumes from S0ix, masks from backup variables are copied over to * lpc_host_event_mask for SCI and SMI. */ static host_event_t backup_sci_mask; static host_event_t backup_smi_mask; /* * Clear host event masks for SMI and SCI when host is entering S0ix. This is * done to prevent any SCI/SMI interrupts when the host is in suspend. Since * BIOS is not involved in the suspend path, EC needs to take care of clearing * these masks. */ static void lpc_s0ix_suspend_clear_masks(void) { backup_sci_mask = lpc_get_host_event_mask(LPC_HOST_EVENT_SCI); backup_smi_mask = lpc_get_host_event_mask(LPC_HOST_EVENT_SMI); lpc_set_host_event_mask(LPC_HOST_EVENT_SCI, 0); lpc_set_host_event_mask(LPC_HOST_EVENT_SMI, 0); } /* * Restore host event masks for SMI and SCI when host exits S0ix. This is done * because BIOS is not involved in the resume path and so EC needs to restore * the masks from backup variables. */ static void lpc_s0ix_resume_restore_masks(void) { lpc_set_host_event_mask(LPC_HOST_EVENT_SCI, backup_sci_mask); lpc_set_host_event_mask(LPC_HOST_EVENT_SMI, backup_smi_mask); } enum s0ix_notify_type { S0IX_NOTIFY_NONE, S0IX_NOTIFY_SUSPEND, S0IX_NOTIFY_RESUME, }; /* Flag to notify listeners about S0ix suspend/resume events. */ enum s0ix_notify_type s0ix_notify = S0IX_NOTIFY_NONE; static void s0ix_transition(int check_state, int hook_id) { if (s0ix_notify != check_state) return; /* Clear masks before any hooks are run for suspend. */ if (s0ix_notify == S0IX_NOTIFY_SUSPEND) lpc_s0ix_suspend_clear_masks(); hook_notify(hook_id); s0ix_notify = S0IX_NOTIFY_NONE; } static void handle_chipset_reset(void) { if (chipset_in_state(CHIPSET_STATE_STANDBY)) { CPRINTS("chipset reset: exit s0ix"); power_reset_host_sleep_state(); task_wake(TASK_ID_CHIPSET); } } DECLARE_HOOK(HOOK_CHIPSET_RESET, handle_chipset_reset, HOOK_PRIO_FIRST); #endif void chipset_throttle_cpu(int throttle) { #ifdef CONFIG_CPU_PROCHOT_ACTIVE_LOW throttle = !throttle; #endif /* CONFIG_CPU_PROCHOT_ACTIVE_LOW */ if (chipset_in_state(CHIPSET_STATE_ON)) gpio_set_level(GPIO_CPU_PROCHOT, throttle); } enum power_state power_chipset_init(void) { /* * If we're switching between images without rebooting, see if the x86 * is already powered on; if so, leave it there instead of cycling * through G3. */ if (system_jumped_to_this_image()) { if ((power_get_signals() & IN_ALL_S0) == IN_ALL_S0) { /* Disable idle task deep sleep when in S0. */ disable_sleep(SLEEP_MASK_AP_RUN); CPRINTS("already in S0"); return POWER_S0; } /* Force all signals to their G3 states */ chipset_force_g3(); } return POWER_G3; } enum power_state common_intel_x86_power_handle_state(enum power_state state) { switch (state) { case POWER_G3: break; case POWER_S5: #ifdef CONFIG_BOARD_HAS_RTC_RESET /* Wait for S5 exit and attempt RTC reset if supported */ if (power_s5_up) return power_wait_s5_rtc_reset(); #endif if (chipset_get_sleep_signal(SYS_SLEEP_S4) == 1) return POWER_S5S3; /* Power up to next state */ break; case POWER_S3: if (!power_has_signals(IN_PGOOD_ALL_CORE)) { /* Required rail went away */ chipset_force_shutdown(CHIPSET_SHUTDOWN_POWERFAIL); return POWER_S3S5; } else if (chipset_get_sleep_signal(SYS_SLEEP_S3) == 1) { /* Power up to next state */ return POWER_S3S0; } else if (chipset_get_sleep_signal(SYS_SLEEP_S4) == 0) { /* Power down to next state */ return POWER_S3S5; } break; case POWER_S0: if (!power_has_signals(IN_PGOOD_ALL_CORE)) { chipset_force_shutdown(CHIPSET_SHUTDOWN_POWERFAIL); return POWER_S0S3; } else if (chipset_get_sleep_signal(SYS_SLEEP_S3) == 0) { /* Power down to next state */ return POWER_S0S3; #ifdef CONFIG_POWER_S0IX /* * SLP_S0 may assert in system idle scenario without a kernel * freeze call. This may cause interrupt storm since there is * no freeze/unfreeze of threads/process in the idle scenario. * Ignore the SLP_S0 assertions in idle scenario by checking * the host sleep state. */ } else if (power_get_host_sleep_state() == HOST_SLEEP_EVENT_S0IX_SUSPEND && chipset_get_sleep_signal(SYS_SLEEP_S0IX) == 0) { return POWER_S0S0ix; } else { s0ix_transition(S0IX_NOTIFY_RESUME, HOOK_CHIPSET_RESUME); #endif } break; #ifdef CONFIG_POWER_S0IX case POWER_S0ix: /* System in S0 only if SLP_S0 and SLP_S3 are de-asserted */ if ((chipset_get_sleep_signal(SYS_SLEEP_S0IX) == 1) && (chipset_get_sleep_signal(SYS_SLEEP_S3) == 1)) { return POWER_S0ixS0; } else if (!power_has_signals(IN_PGOOD_ALL_CORE)) { return POWER_S0; } break; #endif case POWER_G3S5: #ifdef CONFIG_CHARGER { int tries = 0; /* * Allow charger to be initialized for upto defined tries, * in case we're trying to boot the AP with no battery. */ while ((tries < CHARGER_INITIALIZED_TRIES) && is_power_up_inhibited()) { msleep(CHARGER_INITIALIZED_DELAY_MS); tries++; } /* * Return to G3 if battery level is too low. Set * power_up_inhibited in order to check the eligibility to boot * AP up after battery SOC changes. */ if (tries == CHARGER_INITIALIZED_TRIES) { CPRINTS("power-up inhibited"); power_up_inhibited = 1; chipset_force_shutdown( CHIPSET_SHUTDOWN_BATTERY_INHIBIT); return POWER_G3; } power_up_inhibited = 0; } #endif #ifdef CONFIG_VBOOT_EFS /* * We have to test power readiness here (instead of S5->S3) * because when entering S5, EC enables EC_ROP_SLP_SUS pin * which causes (short-powered) system to brown out. */ while (!system_can_boot_ap()) msleep(200); #endif #ifdef CONFIG_CHIPSET_HAS_PRE_INIT_CALLBACK /* * Callback to do pre-initialization within the context of * chipset task. */ chipset_pre_init_callback(); #endif if (power_wait_signals(CHIPSET_G3S5_POWERUP_SIGNAL)) { chipset_force_shutdown(CHIPSET_SHUTDOWN_WAIT); return POWER_G3; } power_s5_up = 1; return POWER_S5; case POWER_S5S3: if (!power_has_signals(IN_PGOOD_ALL_CORE)) { /* Required rail went away */ chipset_force_shutdown(CHIPSET_SHUTDOWN_POWERFAIL); return POWER_S5G3; } /* Call hooks now that rails are up */ hook_notify(HOOK_CHIPSET_STARTUP); #ifdef CONFIG_POWER_S0IX /* * Clearing the S0ix flag on the path to S0 * to handle any reset conditions. */ power_reset_host_sleep_state(); #endif return POWER_S3; case POWER_S3S0: if (!power_has_signals(IN_PGOOD_ALL_CORE)) { /* Required rail went away */ chipset_force_shutdown(CHIPSET_SHUTDOWN_POWERFAIL); return POWER_S3S5; } /* Enable wireless */ wireless_set_state(WIRELESS_ON); lpc_s3_resume_clear_masks(); /* Call hooks now that rails are up */ hook_notify(HOOK_CHIPSET_RESUME); /* * Disable idle task deep sleep. This means that the low * power idle task will not go into deep sleep while in S0. */ disable_sleep(SLEEP_MASK_AP_RUN); /* * Throttle CPU if necessary. This should only be asserted * when +VCCP is powered (it is by now). */ #ifdef CONFIG_CPU_PROCHOT_ACTIVE_LOW gpio_set_level(GPIO_CPU_PROCHOT, 1); #else gpio_set_level(GPIO_CPU_PROCHOT, 0); #endif /* CONFIG_CPU_PROCHOT_ACTIVE_LOW */ return POWER_S0; case POWER_S0S3: /* Call hooks before we remove power rails */ hook_notify(HOOK_CHIPSET_SUSPEND); /* Suspend wireless */ wireless_set_state(WIRELESS_SUSPEND); /* * Enable idle task deep sleep. Allow the low power idle task * to go into deep sleep in S3 or lower. */ enable_sleep(SLEEP_MASK_AP_RUN); #ifdef CONFIG_POWER_S0IX /* re-init S0ix flag */ power_reset_host_sleep_state(); #endif return POWER_S3; #ifdef CONFIG_POWER_S0IX case POWER_S0S0ix: /* * Call hooks only if we haven't notified listeners of S0ix * suspend. */ s0ix_transition(S0IX_NOTIFY_SUSPEND, HOOK_CHIPSET_SUSPEND); /* * Enable idle task deep sleep. Allow the low power idle task * to go into deep sleep in S0ix. */ enable_sleep(SLEEP_MASK_AP_RUN); return POWER_S0ix; case POWER_S0ixS0: /* * Disable idle task deep sleep. This means that the low * power idle task will not go into deep sleep while in S0. */ disable_sleep(SLEEP_MASK_AP_RUN); return POWER_S0; #endif case POWER_S3S5: /* Call hooks before we remove power rails */ hook_notify(HOOK_CHIPSET_SHUTDOWN); /* Disable wireless */ wireless_set_state(WIRELESS_OFF); /* Always enter into S5 state. The S5 state is required to * correctly handle global resets which have a bit of delay * while the SLP_Sx_L signals are asserted then deasserted. */ power_s5_up = 0; return POWER_S5; case POWER_S5G3: return chipset_force_g3(); default: break; } return state; } void common_intel_x86_handle_rsmrst(enum power_state state) { /* * Pass through RSMRST asynchronously, as PCH may not react * immediately to power changes. */ int rsmrst_in = gpio_get_level(GPIO_RSMRST_L_PGOOD); int rsmrst_out = gpio_get_level(GPIO_PCH_RSMRST_L); /* Nothing to do. */ if (rsmrst_in == rsmrst_out) return; #ifdef CONFIG_BOARD_HAS_BEFORE_RSMRST board_before_rsmrst(rsmrst_in); #endif #ifdef CONFIG_CHIPSET_APL_GLK /* Only passthrough RSMRST_L de-assertion on power up */ if (rsmrst_in && !power_s5_up) return; #elif defined(CONFIG_CHIPSET_X86_RSMRST_DELAY) /* * Wait at least 10ms between power signals going high * and deasserting RSMRST to PCH. */ if (rsmrst_in) msleep(10); #endif gpio_set_level(GPIO_PCH_RSMRST_L, rsmrst_in); CPRINTS("Pass through GPIO_RSMRST_L_PGOOD: %d", rsmrst_in); } #ifdef CONFIG_POWER_TRACK_HOST_SLEEP_STATE void __attribute__((weak)) power_board_handle_host_sleep_event(enum host_sleep_event state) { /* Default weak implementation -- no action required. */ } void power_chipset_handle_host_sleep_event(enum host_sleep_event state) { power_board_handle_host_sleep_event(state); #ifdef CONFIG_POWER_S0IX if (state == HOST_SLEEP_EVENT_S0IX_SUSPEND) { /* * Indicate to power state machine that a new host event for * s0ix suspend has been received and so chipset suspend * notification needs to be sent to listeners. */ s0ix_notify = S0IX_NOTIFY_SUSPEND; power_signal_enable_interrupt(sleep_sig[SYS_SLEEP_S0IX]); } else if (state == HOST_SLEEP_EVENT_S0IX_RESUME) { /* * Wake up chipset task and indicate to power state machine that * listeners need to be notified of chipset resume. */ s0ix_notify = S0IX_NOTIFY_RESUME; task_wake(TASK_ID_CHIPSET); /* clear host events */ while (lpc_get_next_host_event() != 0) ; lpc_s0ix_resume_restore_masks(); power_signal_disable_interrupt(sleep_sig[SYS_SLEEP_S0IX]); } else if (state == HOST_SLEEP_EVENT_DEFAULT_RESET) { power_signal_disable_interrupt(sleep_sig[SYS_SLEEP_S0IX]); } #endif } #endif void chipset_reset(enum chipset_reset_reason reason) { /* * Irrespective of cold_reset value, always toggle SYS_RESET_L to * perform a chipset reset. RCIN# which was used earlier to trigger * a warm reset is known to not work in certain cases where the CPU * is in a bad state (crbug.com/721853). * * The EC cannot control warm vs cold reset of the chipset using * SYS_RESET_L; it's more of a request. */ CPRINTS("%s: %d", __func__, reason); /* * Toggling SYS_RESET_L will not have any impact when it's already * low (i,e. Chipset is in reset state). */ if (gpio_get_level(GPIO_SYS_RESET_L) == 0) { CPRINTS("Chipset is in reset state"); return; } report_ap_reset(reason); gpio_set_level(GPIO_SYS_RESET_L, 0); /* * Debounce time for SYS_RESET_L is 16 ms. Wait twice that period * to be safe. */ udelay(32 * MSEC); gpio_set_level(GPIO_SYS_RESET_L, 1); }