/* * Copyright (C) <2018> Intel Corporation * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct cpu_context cpu_ctx; /* The values in this structure should come from host ACPI table */ static struct pm_s_state_data host_pm_s_state = { .pm1a_evt = { .space_id = PM1A_EVT_SPACE_ID, .bit_width = PM1A_EVT_BIT_WIDTH, .bit_offset = PM1A_EVT_BIT_OFFSET, .access_size = PM1A_EVT_ACCESS_SIZE, .address = PM1A_EVT_ADDRESS }, .pm1b_evt = { .space_id = PM1B_EVT_SPACE_ID, .bit_width = PM1B_EVT_BIT_WIDTH, .bit_offset = PM1B_EVT_BIT_OFFSET, .access_size = PM1B_EVT_ACCESS_SIZE, .address = PM1B_EVT_ADDRESS }, .pm1a_cnt = { .space_id = PM1A_CNT_SPACE_ID, .bit_width = PM1A_CNT_BIT_WIDTH, .bit_offset = PM1A_CNT_BIT_OFFSET, .access_size = PM1A_CNT_ACCESS_SIZE, .address = PM1A_CNT_ADDRESS }, .pm1b_cnt = { .space_id = PM1B_CNT_SPACE_ID, .bit_width = PM1B_CNT_BIT_WIDTH, .bit_offset = PM1B_CNT_BIT_OFFSET, .access_size = PM1B_CNT_ACCESS_SIZE, .address = PM1B_CNT_ADDRESS }, .s3_pkg = { .val_pm1a = S3_PKG_VAL_PM1A, .val_pm1b = S3_PKG_VAL_PM1B, .reserved = S3_PKG_RESERVED }, .s5_pkg = { .val_pm1a = S5_PKG_VAL_PM1A, .val_pm1b = S5_PKG_VAL_PM1B, .reserved = S5_PKG_RESERVED }, .wake_vector_32 = (uint32_t *)WAKE_VECTOR_32, .wake_vector_64 = (uint64_t *)WAKE_VECTOR_64 }; /* host reset register defined in ACPI */ static struct acpi_reset_reg host_reset_reg = { .reg = { .space_id = RESET_REGISTER_SPACE_ID, .bit_width = RESET_REGISTER_BIT_WIDTH, .bit_offset = RESET_REGISTER_BIT_OFFSET, .access_size = RESET_REGISTER_ACCESS_SIZE, .address = RESET_REGISTER_ADDRESS, }, .val = RESET_REGISTER_VALUE }; struct pm_s_state_data *get_host_sstate_data(void) { return &host_pm_s_state; } struct acpi_reset_reg *get_host_reset_reg_data(void) { return &host_reset_reg; } void restore_msrs(void) { #ifdef STACK_PROTECTOR struct stack_canary *psc = &get_cpu_var(stk_canary); msr_write(MSR_IA32_FS_BASE, (uint64_t)psc); #endif } static void acpi_gas_write(const struct acrn_acpi_generic_address *gas, uint32_t val) { uint16_t val16 = (uint16_t)val; if (gas->space_id == SPACE_SYSTEM_MEMORY) { mmio_write16(val16, hpa2hva(gas->address)); } else { pio_write16(val16, (uint16_t)gas->address); } } static uint32_t acpi_gas_read(const struct acrn_acpi_generic_address *gas) { uint32_t ret = 0U; if (gas->space_id == SPACE_SYSTEM_MEMORY) { ret = mmio_read16(hpa2hva(gas->address)); } else { ret = pio_read16((uint16_t)gas->address); } return ret; } /* This function supports enter S3 or S5 according to the value given to pm1a_cnt_val and pm1b_cnt_val */ void do_acpi_sx(const struct pm_s_state_data *sstate_data, uint32_t pm1a_cnt_val, uint32_t pm1b_cnt_val) { uint32_t s1, s2; acpi_gas_write(&(sstate_data->pm1a_cnt), pm1a_cnt_val); if (sstate_data->pm1b_cnt.address != 0U) { acpi_gas_write(&(sstate_data->pm1b_cnt), pm1b_cnt_val); } do { /* polling PM1 state register to detect wether * the Sx state enter is interrupted by wakeup event. */ s1 = acpi_gas_read(&(sstate_data->pm1a_evt)); if (sstate_data->pm1b_evt.address != 0U) { s2 = acpi_gas_read(&(sstate_data->pm1b_evt)); s1 |= s2; } /* According to ACPI spec 4.8.3.1.1 PM1 state register, the bit * WAK_STS(bit 15) is set if system will transition to working * state. */ } while ((s1 & (1U << BIT_WAK_STS)) == 0U); } static uint32_t system_pm1a_cnt_val, system_pm1b_cnt_val; void save_s5_reg_val(uint32_t pm1a_cnt_val, uint32_t pm1b_cnt_val) { system_pm1a_cnt_val = pm1a_cnt_val; system_pm1b_cnt_val = pm1b_cnt_val; } void shutdown_system(void) { struct pm_s_state_data *sx_data = get_host_sstate_data(); do_acpi_sx(sx_data, system_pm1a_cnt_val, system_pm1b_cnt_val); } static void suspend_tsc(__unused void *data) { per_cpu(tsc_suspend, get_pcpu_id()) = rdtsc(); } static void resume_tsc(__unused void *data) { msr_write(MSR_IA32_TIME_STAMP_COUNTER, per_cpu(tsc_suspend, get_pcpu_id())); } void host_enter_s3(const struct pm_s_state_data *sstate_data, uint32_t pm1a_cnt_val, uint32_t pm1b_cnt_val) { uint64_t pmain_entry_saved; stac(); /* set ACRN wakeup vec instead */ *(sstate_data->wake_vector_32) = (uint32_t)get_trampoline_start16_paddr(); clac(); /* Save TSC on all PCPU */ smp_call_function(get_active_pcpu_bitmap(), suspend_tsc, NULL); /* offline all APs */ stop_pcpus(); stac(); /* Save default main entry and we will restore it after * back from S3. So the AP online could jmp to correct * main entry. */ pmain_entry_saved = read_trampoline_sym(main_entry); /* Set the main entry for resume from S3 state */ write_trampoline_sym(main_entry, (uint64_t)restore_s3_context); clac(); CPU_IRQ_DISABLE(); vmx_off(); suspend_console(); suspend_ioapic(); suspend_iommu(); suspend_lapic(); asm_enter_s3(sstate_data, pm1a_cnt_val, pm1b_cnt_val); resume_lapic(); resume_iommu(); resume_ioapic(); vmx_on(); CPU_IRQ_ENABLE(); /* restore the default main entry */ stac(); write_trampoline_sym(main_entry, pmain_entry_saved); clac(); /* online all APs again */ if (!start_pcpus(AP_MASK)) { panic("Failed to start all APs!"); } /* Restore TSC on all PCPU * Caution: There should no timer setup before TSC resumed. */ smp_call_function(get_active_pcpu_bitmap(), resume_tsc, NULL); /* console must be resumed after TSC restored since it will setup timer base on TSC */ resume_console(); } void reset_host(void) { struct acrn_acpi_generic_address *gas = &(host_reset_reg.reg); /* TODO: gracefully shut down all guests before doing host reset. */ /* * Assumption: * The platform we are running must support at least one of reset method: * - ACPI reset * - 0xcf9 reset * * UEFI more likely sets the reset value as 0x6 (not 0xe) for 0xcf9 port. * This asserts PLTRST# to reset devices on the platform, but not the * SLP_S3#/4#/5# signals, which power down the systems. This might not be * enough for us. */ if ((gas->space_id == SPACE_SYSTEM_IO) && (gas->bit_width == 8U) && (gas->bit_offset == 0U) && (gas->address != 0U) && (gas->address != 0xcf9U)) { pio_write8(host_reset_reg.val, (uint16_t)host_reset_reg.reg.address); } else { /* making sure bit 2 (RST_CPU) is '0', when the reset command is issued. */ pio_write8(0x2U, 0xcf9U); udelay(50U); pio_write8(0xeU, 0xcf9U); } pr_fatal("%s(): can't reset host.", __func__); while (1) { asm_pause(); } }