/* Copyright 2012 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. */ /* Clocks and power management settings */ #include "clock.h" #include "common.h" #include "console.h" #include "cpu.h" #include "gpio.h" #include "hooks.h" #include "hwtimer.h" #include "registers.h" #include "system.h" #include "task.h" #include "timer.h" #include "uart.h" #include "util.h" #include "watchdog.h" /* Console output macros */ #define CPUTS(outstr) cputs(CC_CLOCK, outstr) #define CPRINTS(format, args...) cprints(CC_CLOCK, format, ## args) #define PLL_CLOCK 66666667 /* System clock = 200MHz PLL/3 = 66.667MHz */ #ifdef CONFIG_LOW_POWER_USE_LFIOSC /* * Length of time for the processor to wake up from deep sleep. Actual * measurement gives anywhere up to 780us, depending on the mode it is coming * out of. The datasheet gives a maximum of 846us, for coming out of deep * sleep in our worst case deep sleep mode. */ #define DEEP_SLEEP_RECOVER_TIME_USEC 850 #else /* * Length of time for the processor to wake up from deep sleep. Datasheet * maximum is 145us, but in practice have seen as much as 336us. */ #define DEEP_SLEEP_RECOVER_TIME_USEC 400 #endif /* Low power idle statistics */ #ifdef CONFIG_LOW_POWER_IDLE static int idle_sleep_cnt; static int idle_dsleep_cnt; static uint64_t idle_dsleep_time_us; static int dsleep_recovery_margin_us = 1000000; /* * Fixed amount of time to keep the console in use flag true after boot in * order to give a permanent window in which the low speed clock is not used. */ #define CONSOLE_IN_USE_ON_BOOT_TIME (15*SECOND) static int console_in_use_timeout_sec = 60; static timestamp_t console_expire_time; #endif static int freq; /** * Disable the PLL; run off internal oscillator. */ static void disable_pll(void) { /* Switch to 16MHz internal oscillator and power down the PLL */ LM4_SYSTEM_RCC = LM4_SYSTEM_RCC_SYSDIV(0) | LM4_SYSTEM_RCC_BYPASS | LM4_SYSTEM_RCC_PWRDN | LM4_SYSTEM_RCC_OSCSRC(1) | LM4_SYSTEM_RCC_MOSCDIS; #ifdef CONFIG_LOW_POWER_IDLE /* * If using the low power idle, then set the ACG bit, which specifies * that the sleep and deep sleep modes are using their own clock gating * registers SCGC and DCGS respectively instead of using the run mode * clock gating registers RCGC. */ LM4_SYSTEM_RCC |= LM4_SYSTEM_RCC_ACG; #endif LM4_SYSTEM_RCC2 &= ~LM4_SYSTEM_RCC2_USERCC2; freq = INTERNAL_CLOCK; } /** * Enable the PLL to run at full clock speed. */ static void enable_pll(void) { /* Disable the PLL so we can reconfigure it */ disable_pll(); /* * Enable the PLL (PWRDN is no longer set) and set divider. PLL is * still bypassed, since it hasn't locked yet. */ LM4_SYSTEM_RCC = LM4_SYSTEM_RCC_SYSDIV(2) | LM4_SYSTEM_RCC_USESYSDIV | LM4_SYSTEM_RCC_BYPASS | LM4_SYSTEM_RCC_OSCSRC(1) | LM4_SYSTEM_RCC_MOSCDIS; #ifdef CONFIG_LOW_POWER_IDLE /* * If using the low power idle, then set the ACG bit, which specifies * that the sleep and deep sleep modes are using their own clock gating * registers SCGC and DCGS respectively instead of using the run mode * clock gating registers RCGC. */ LM4_SYSTEM_RCC |= LM4_SYSTEM_RCC_ACG; #endif /* Wait for the PLL to lock */ clock_wait_cycles(1024); while (!(LM4_SYSTEM_PLLSTAT & 1)) ; /* Remove bypass on PLL */ LM4_SYSTEM_RCC &= ~LM4_SYSTEM_RCC_BYPASS; freq = PLL_CLOCK; } void clock_enable_pll(int enable, int notify) { if (enable) enable_pll(); else disable_pll(); /* Notify modules of frequency change */ if (notify) hook_notify(HOOK_FREQ_CHANGE); } void clock_wait_cycles(uint32_t cycles) { asm volatile("1: subs %0, #1\n" " bne 1b\n" : "+r"(cycles)); } int clock_get_freq(void) { return freq; } void clock_init(void) { #ifdef BOARD_BDS /* * Perform an auto calibration of the internal oscillator using the * 32.768KHz hibernate clock, unless we've already done so. This is * only necessary on A2 silicon as on BDS; A3 silicon is all * factory-trimmed. */ if ((LM4_SYSTEM_PIOSCSTAT & 0x300) != 0x100) { /* Start calibration */ LM4_SYSTEM_PIOSCCAL = 0x80000000; LM4_SYSTEM_PIOSCCAL = 0x80000200; /* Wait for result */ clock_wait_cycles(16); while (!(LM4_SYSTEM_PIOSCSTAT & 0x300)) ; } #else /* * Only BDS has an external crystal; other boards don't have one, and * can disable main oscillator control to reduce power consumption. */ LM4_SYSTEM_MOSCCTL = 0x04; #endif /* Make sure PLL is disabled */ disable_pll(); } void clock_enable_peripheral(uint32_t offset, uint32_t mask, uint32_t mode) { if (mode & CGC_MODE_RUN) *(LM4_SYSTEM_RCGC_BASE + offset) |= mask; if (mode & CGC_MODE_SLEEP) *(LM4_SYSTEM_SCGC_BASE + offset) |= mask; if (mode & CGC_MODE_DSLEEP) *(LM4_SYSTEM_DCGC_BASE + offset) |= mask; /* Wait for clock change to take affect. */ clock_wait_cycles(3); } void clock_disable_peripheral(uint32_t offset, uint32_t mask, uint32_t mode) { if (mode & CGC_MODE_RUN) *(LM4_SYSTEM_RCGC_BASE + offset) &= ~mask; if (mode & CGC_MODE_SLEEP) *(LM4_SYSTEM_SCGC_BASE + offset) &= ~mask; if (mode & CGC_MODE_DSLEEP) *(LM4_SYSTEM_DCGC_BASE + offset) &= ~mask; } /* * The low power idle task does not support using the EEPROM, * because it is dangerous to go to deep sleep while EEPROM * transaction is in progress. To fix, LM4_EEPROM_EEDONE, should * be checked before going in to deep sleep. */ #if defined(CONFIG_LOW_POWER_IDLE) && defined(CONFIG_EEPROM) #error "Low power idle mode does not support use of EEPROM" #endif #ifdef CONFIG_LOW_POWER_IDLE void clock_refresh_console_in_use(void) { disable_sleep(SLEEP_MASK_CONSOLE); /* Set console in use expire time. */ console_expire_time = get_time(); console_expire_time.val += console_in_use_timeout_sec * SECOND; } /* Low power idle task. Executed when no tasks are ready to be scheduled. */ void __idle(void) { timestamp_t t0, t1, rtc_t0, rtc_t1; int next_delay = 0; int time_for_dsleep, margin_us; int use_low_speed_clock; /* Enable the hibernate IRQ used to wake up from deep sleep */ system_enable_hib_interrupt(); /* Set SRAM and flash power management to 'low power' in deep sleep. */ LM4_SYSTEM_DSLPPWRCFG = 0x23; /* Enable JTAG interrupt which will notify us when JTAG is in use. */ gpio_enable_interrupt(GPIO_JTAG_TCK); /* * Initialize console in use to true and specify the console expire * time in order to give a fixed window on boot in which the low speed * clock will not be used in idle. */ disable_sleep(SLEEP_MASK_CONSOLE); console_expire_time.val = get_time().val + CONSOLE_IN_USE_ON_BOOT_TIME; /* * Print when the idle task starts. This is the lowest priority task, * so this only starts once all other tasks have gotten a chance to do * their task inits and have gone to sleep. */ CPRINTS("low power idle task started"); while (1) { /* * Disable interrupts before going to deep sleep in order to * calculate the appropriate time to wake up. Note: the wfi * instruction waits until an interrupt is pending, so it * will still wake up even with interrupts disabled. */ interrupt_disable(); t0 = get_time(); next_delay = __hw_clock_event_get() - t0.le.lo; /* Do we have enough time before next event to deep sleep. */ time_for_dsleep = next_delay > (DEEP_SLEEP_RECOVER_TIME_USEC + HIB_SET_RTC_MATCH_DELAY_USEC); if (DEEP_SLEEP_ALLOWED && time_for_dsleep) { /* Deep-sleep in STOP mode. */ idle_dsleep_cnt++; /* Check if the console use has expired. */ if ((sleep_mask & SLEEP_MASK_CONSOLE) && t0.val > console_expire_time.val) { /* Enable low speed deep sleep. */ enable_sleep(SLEEP_MASK_CONSOLE); /* * Wait one clock before checking if low speed * deep sleep is allowed to give time for * sleep mask to update. */ clock_wait_cycles(1); if (LOW_SPEED_DEEP_SLEEP_ALLOWED) CPRINTS("Disabling console in " "deep sleep"); } /* * Determine if we should use a lower clock speed or * keep the same (16MHz) clock in deep sleep. Use the * lower speed only if the sleep mask specifies that low * speed sleep is allowed, the console UART TX is not * busy, and the console UART buffer is empty. */ use_low_speed_clock = LOW_SPEED_DEEP_SLEEP_ALLOWED && !uart_tx_in_progress() && uart_buffer_empty(); #ifdef CONFIG_LOW_POWER_USE_LFIOSC /* Set the deep sleep clock register. Use either the * normal PIOSC (16MHz) or the LFIOSC (32kHz). */ LM4_SYSTEM_DSLPCLKCFG = use_low_speed_clock ? 0x32 : 0x10; #else /* * Set the deep sleep clock register. Use either the * PIOSC with no divider (16MHz) or the PIOSC with * a /64 divider (250kHz). */ LM4_SYSTEM_DSLPCLKCFG = use_low_speed_clock ? 0x1f800010 : 0x10; #endif /* * If using low speed clock, disable console. * This will also convert the console RX pin to a GPIO * and set an edge interrupt to wake us from deep sleep * if any action occurs on console. */ if (use_low_speed_clock) uart_enter_dsleep(); /* Set deep sleep bit. */ CPU_SCB_SYSCTRL |= 0x4; /* Record real time before sleeping. */ rtc_t0 = system_get_rtc(); /* * Set RTC interrupt in time to wake up before * next event. */ system_set_rtc_alarm(0, next_delay - DEEP_SLEEP_RECOVER_TIME_USEC); /* Wait for interrupt: goes into deep sleep. */ asm("wfi"); /* Clear deep sleep bit. */ CPU_SCB_SYSCTRL &= ~0x4; /* Disable and clear RTC interrupt. */ system_reset_rtc_alarm(); /* Fast forward timer according to RTC counter. */ rtc_t1 = system_get_rtc(); t1.val = t0.val + (rtc_t1.val - rtc_t0.val); force_time(t1); /* If using low speed clock, re-enable the console. */ if (use_low_speed_clock) uart_exit_dsleep(); /* Record time spent in deep sleep. */ idle_dsleep_time_us += (rtc_t1.val - rtc_t0.val); /* Calculate how close we were to missing deadline */ margin_us = next_delay - (int)(rtc_t1.val - rtc_t0.val); if (margin_us < 0) CPRINTS("overslept by %dus", -margin_us); /* Record the closest to missing a deadline. */ if (margin_us < dsleep_recovery_margin_us) dsleep_recovery_margin_us = margin_us; } else { idle_sleep_cnt++; /* Normal idle : only CPU clock stopped. */ asm("wfi"); } interrupt_enable(); } } #endif /* CONFIG_LOW_POWER_IDLE */ /*****************************************************************************/ /* Console commands */ #ifdef CONFIG_CMD_SLEEP /** * Measure baseline for power consumption. * * Levels : * 0 : CPU running in tight loop * 1 : CPU running in tight loop but peripherals gated * 2 : CPU in sleep mode * 3 : CPU in sleep mode and peripherals gated * 4 : CPU in deep sleep mode * 5 : CPU in deep sleep mode and peripherals gated * * Clocks : * 0 : No change * 1 : 16MHz * 2 : 1 MHz * 3 : 30kHz * * SRAM Power Management: * 0 : Active * 1 : Standby * 3 : Low Power * * Flash Power Management: * 0 : Active * 2 : Low Power */ static int command_sleep(int argc, char **argv) { int level = 0; int clock = 0; int sram_pm = 0; int flash_pm = 0; uint32_t uartibrd = 0; uint32_t uartfbrd = 0; if (argc >= 2) level = strtoi(argv[1], NULL, 10); if (argc >= 3) clock = strtoi(argv[2], NULL, 10); if (argc >= 4) sram_pm = strtoi(argv[3], NULL, 10); if (argc >= 5) flash_pm = strtoi(argv[4], NULL, 10); #ifdef BOARD_BDS /* Remove LED current sink. */ gpio_set_level(GPIO_DEBUG_LED, 0); #endif ccprintf("Sleep : level %d, clock %d, sram pm %d, flash_pm %d...\n", level, clock, sram_pm, flash_pm); cflush(); /* Set clock speed. */ if (clock) { /* Use ROM code function to set the clock */ void **func_table = (void **)*(uint32_t *)0x01000044; void (*rom_clock_set)(uint32_t rcc) = func_table[23]; /* Disable interrupts. */ asm volatile("cpsid i"); switch (clock) { case 1: /* 16MHz IOSC */ uartibrd = 17; uartfbrd = 23; rom_clock_set(0x00000d51); break; case 2: /* 1MHz IOSC */ uartibrd = 1; uartfbrd = 5; rom_clock_set(0x07C00d51); break; case 3: /* 30 kHz */ uartibrd = 0; uartfbrd = 0; rom_clock_set(0x00000d71); break; } /* * TODO(crosbug.com/p/23795): move this to the UART module; * ugly to have UARTisms here. Also note this only fixes * UART0, not UART1. Should just be able to trigger * HOOK_FREQ_CHANGE and have that take care of it. */ if (uartfbrd) { /* Disable the port via UARTCTL and add HSE. */ LM4_UART_CTL(0) = 0x0320; /* Set the baud rate divisor. */ LM4_UART_IBRD(0) = uartibrd; LM4_UART_FBRD(0) = uartfbrd; /* Poke UARTLCRH to make the new divisor take effect. */ LM4_UART_LCRH(0) = LM4_UART_LCRH(0); /* Enable the port. */ LM4_UART_CTL(0) |= 0x0001; } asm volatile("cpsie i"); } if (uartfbrd) { ccprintf("We are still alive. RCC=%08x\n", LM4_SYSTEM_RCC); cflush(); } /* Enable interrupts. */ asm volatile("cpsid i"); /* gate peripheral clocks */ if (level & 1) { clock_disable_peripheral(CGC_OFFSET_WD, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_TIMER, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_GPIO, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_DMA, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_HIB, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_UART, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_SSI, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_I2C, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_ADC, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_LPC, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_PECI, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_FAN, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_EEPROM, 0xffffffff, CGC_MODE_ALL); clock_disable_peripheral(CGC_OFFSET_WTIMER, 0xffffffff, CGC_MODE_ALL); } /* Set deep sleep bit. */ if (level >= 4) CPU_SCB_SYSCTRL |= 0x4; /* Set SRAM and flash PM for sleep and deep sleep. */ LM4_SYSTEM_SLPPWRCFG = (flash_pm << 4) | sram_pm; LM4_SYSTEM_DSLPPWRCFG = (flash_pm << 4) | sram_pm; /* Go to low power mode (forever ...) */ if (level > 1) while (1) { asm("wfi"); watchdog_reload(); } else while (1) watchdog_reload(); return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(sleep, command_sleep, "[level [clock] [sram pm] [flash pm]]", "Drop into sleep"); #endif /* CONFIG_CMD_SLEEP */ #ifdef CONFIG_CMD_PLL static int command_pll(int argc, char **argv) { int v; /* Toggle the PLL */ if (argc > 1) { if (parse_bool(argv[1], &v)) { clock_enable_pll(v, 1); } else { /* Disable PLL and set extra divider */ char *e; v = strtoi(argv[1], &e, 10); if (*e) return EC_ERROR_PARAM1; LM4_SYSTEM_RCC = LM4_SYSTEM_RCC_SYSDIV(v - 1) | LM4_SYSTEM_RCC_BYPASS | LM4_SYSTEM_RCC_PWRDN | LM4_SYSTEM_RCC_OSCSRC(1) | LM4_SYSTEM_RCC_MOSCDIS; freq = INTERNAL_CLOCK / v; /* Notify modules of frequency change */ hook_notify(HOOK_FREQ_CHANGE); } } /* Print current PLL state */ ccprintf("RCC: 0x%08x\n", LM4_SYSTEM_RCC); ccprintf("RCC2: 0x%08x\n", LM4_SYSTEM_RCC2); ccprintf("PLLSTAT: 0x%08x\n", LM4_SYSTEM_PLLSTAT); ccprintf("Clock: %d Hz\n", clock_get_freq()); return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(pll, command_pll, "[ on | off |
]", "Get/set PLL state"); #endif /* CONFIG_CMD_PLL */ #ifdef CONFIG_CMD_CLOCKGATES /** * Print all clock gating registers */ static int command_clock_gating(int argc, char **argv) { ccprintf(" Run , Sleep , Deep Sleep\n"); ccprintf("WD: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_WD)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_WD)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_WD)); ccprintf("TIMER: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_TIMER)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_TIMER)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_TIMER)); ccprintf("GPIO: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_GPIO)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_GPIO)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_GPIO)); ccprintf("DMA: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_DMA)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_DMA)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_DMA)); ccprintf("HIB: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_HIB)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_HIB)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_HIB)); ccprintf("UART: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_UART)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_UART)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_UART)); ccprintf("SSI: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_SSI)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_SSI)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_SSI)); ccprintf("I2C: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_I2C)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_I2C)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_I2C)); ccprintf("ADC: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_ADC)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_ADC)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_ADC)); ccprintf("LPC: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_LPC)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_LPC)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_LPC)); ccprintf("PECI: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_PECI)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_PECI)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_PECI)); ccprintf("FAN: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_FAN)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_FAN)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_FAN)); ccprintf("EEPROM: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_EEPROM)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_EEPROM)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_EEPROM)); ccprintf("WTIMER: 0x%08x, ", *(LM4_SYSTEM_RCGC_BASE + CGC_OFFSET_WTIMER)); ccprintf("0x%08x, ", *(LM4_SYSTEM_SCGC_BASE + CGC_OFFSET_WTIMER)); ccprintf("0x%08x\n", *(LM4_SYSTEM_DCGC_BASE + CGC_OFFSET_WTIMER)); return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(clockgates, command_clock_gating, "", "Get state of the clock gating controls regs"); #endif /* CONFIG_CMD_CLOCKGATES */ #ifdef CONFIG_LOW_POWER_IDLE /** * Print low power idle statistics */ static int command_idle_stats(int argc, char **argv) { timestamp_t ts = get_time(); ccprintf("Num idle calls that sleep: %d\n", idle_sleep_cnt); ccprintf("Num idle calls that deep-sleep: %d\n", idle_dsleep_cnt); ccprintf("Time spent in deep-sleep: %.6llds\n", idle_dsleep_time_us); ccprintf("Total time on: %.6llds\n", ts.val); ccprintf("Deep-sleep closest to wake deadline: %dus\n", dsleep_recovery_margin_us); return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(idlestats, command_idle_stats, "", "Print last idle stats"); /** * Configure deep sleep clock settings. */ static int command_dsleep(int argc, char **argv) { int v; if (argc > 1) { if (parse_bool(argv[1], &v)) { /* * Force deep sleep not to use low speed clock or * allow it to use the low speed clock. */ if (v) disable_sleep(SLEEP_MASK_FORCE_NO_LOW_SPEED); else enable_sleep(SLEEP_MASK_FORCE_NO_LOW_SPEED); } else { /* Set console in use timeout. */ char *e; v = strtoi(argv[1], &e, 10); if (*e) return EC_ERROR_PARAM1; console_in_use_timeout_sec = v; /* Refresh console in use to use new timeout. */ clock_refresh_console_in_use(); } } ccprintf("Sleep mask: %08x\n", sleep_mask); ccprintf("Console in use timeout: %d sec\n", console_in_use_timeout_sec); ccprintf("DSLPCLKCFG register: 0x%08x\n", LM4_SYSTEM_DSLPCLKCFG); return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(dsleep, command_dsleep, "[ on | off | sec]", "Deep sleep clock settings:\nUse 'on' to force deep " "sleep not to use low speed clock.\nUse 'off' to " "allow deep sleep to auto-select using the low speed " "clock.\n" "Give a timeout value for the console in use timeout.\n" "See also 'sleepmask'."); #endif /* CONFIG_LOW_POWER_IDLE */