/* * Copyright (c) 2019 Microchip Technology Inc. * Copyright (c) 2016 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include "device_power.h" /* * Deep Sleep * Pros: * Lower power dissipation, 48MHz PLL is off * Cons: * Longer wake latency. CPU start running on ring oscillator * between 16 to 25 MHz. Minimum 3ms until PLL reaches lock * frequency of 48MHz. * * Implementation Notes: * We touch the Cortex-M's primary mask and base priority registers * because we do not want to enter an ISR immediately upon wake. * We must restore any hardware state that was modified upon sleep * entry before allowing interrupts to be serviced. Zephyr arch level * does not provide API's to manipulate both primary mask and base priority. * * DEBUG NOTES: * If a JTAG/SWD debug probe is connected driving TRST# high and * possibly polling the DUT then MEC1501 will not shut off its 48MHz * PLL. Firmware should not disable JTAG/SWD in the EC subsystem * while a probe is using the interface. This can leave the JTAG/SWD * TAP controller in a state of requesting clocks preventing the PLL * from being shut off. */ static void z_power_soc_deep_sleep(void) { /* Mask all exceptions and interrupts except NMI and HardFault */ __set_PRIMASK(1); soc_deep_sleep_periph_save(); soc_deep_sleep_enable(); soc_deep_sleep_wait_clk_idle(); soc_deep_sleep_non_wake_en(); /* * Unmask all interrupts in BASEPRI. PRIMASK is used above to * prevent entering an ISR after unmasking in BASEPRI. */ __set_BASEPRI(0); __DSB(); __WFI(); /* triggers sleep hardware */ __NOP(); __NOP(); soc_deep_sleep_disable(); soc_deep_sleep_non_wake_dis(); /* Wait for PLL to lock */ while ((PCR_REGS->OSC_ID & MCHP_PCR_OSC_ID_PLL_LOCK) == 0) { } soc_deep_sleep_periph_restore(); /* * pm_power_state_exit_post_ops() is not being called * after exiting deep sleep, so need to unmask exceptions * and interrupts here. */ __set_PRIMASK(0); } /* * Light Sleep * Pros: * Fast wake response: * Cons: * Higher power dissipation, 48MHz PLL remains on. */ static void z_power_soc_sleep(void) { __set_PRIMASK(1); soc_lite_sleep_enable(); __set_BASEPRI(0); /* Make sure wake interrupts are not masked! */ __DSB(); __WFI(); /* triggers sleep hardware */ __NOP(); __NOP(); } /* * Called from pm_system_suspend(int32_t ticks) in subsys/power.c * For deep sleep pm_system_suspend has executed all the driver * power management call backs. */ void pm_power_state_set(struct pm_state_info info) { switch (info.state) { case PM_STATE_SUSPEND_TO_IDLE: z_power_soc_sleep(); break; case PM_STATE_SUSPEND_TO_RAM: z_power_soc_deep_sleep(); break; default: break; } } /* * Zephyr PM code expects us to enabled interrupts at post op exit. Zephyr used * arch_irq_lock() which sets BASEPRI to a non-zero value masking all interrupts * preventing wake. MCHP z_power_soc_(deep)_sleep sets PRIMASK=1 and BASEPRI=0 * allowing wake from any enabled interrupt and prevents the CPU from entering * an ISR on wake except for faults. We re-enable interrupts by setting PRIMASK * to 0. */ void pm_power_state_exit_post_ops(struct pm_state_info info) { switch (info.state) { case PM_STATE_SUSPEND_TO_IDLE: case PM_STATE_SUSPEND_TO_RAM: __set_PRIMASK(0); __ISB(); break; default: irq_unlock(0); break; } }