#include #include #include "utils.h" #include "bootup.h" #include "fuse.h" #include "flow.h" #include "pmc.h" #include "mc.h" #include "car.h" #include "se.h" #include "masterkey.h" #include "configitem.h" #include "timers.h" #include "misc.h" #include "bpmp.h" #include "sysreg.h" #include "interrupt.h" #include "cpu_context.h" #include "actmon.h" #include "sysctr0.h" #include "mmu.h" #include "arm.h" #include "memory_map.h" #include "synchronization.h" static bool g_has_booted_up = false; void bootup_misc_mmio(void) { /* Initialize Fuse registers. */ fuse_init(); /* Verify Security Engine sanity. */ se_set_in_context_save_mode(false); /* TODO: se_verify_keys_unreadable(); */ se_validate_stored_vector(); for (unsigned int i = 0; i < KEYSLOT_SWITCH_SESSIONKEY; i++) { clear_aes_keyslot(i); } for (unsigned int i = 0; i < KEYSLOT_RSA_MAX; i++) { clear_rsa_keyslot(i); } se_initialize_rng(KEYSLOT_SWITCH_RNGKEY); se_generate_random_key(KEYSLOT_SWITCH_SRKGENKEY, KEYSLOT_SWITCH_RNGKEY); se_generate_srk(KEYSLOT_SWITCH_SRKGENKEY); /* TODO: Why does this DRAM write occur? */ if (!g_has_booted_up && mkey_get_revision() >= MASTERKEY_REVISION_400_CURRENT) { /* 4.x writes this magic number into DRAM. Why? */ (*(volatile uint32_t *)(0x8005FFFC)) = 0xC0EDBBCC; } /* Todo: What? */ MAKE_TIMERS_REG(0x1A4) = 0xF1E0; FLOW_CTLR_BPMP_CLUSTER_CONTROL_0 = 4; /* ACTIVE_CLUSTER_LOCK. */ FLOW_CTLR_FLOW_DBG_QUAL_0 = 0x10000000; /* Enable FIQ2CCPLEX */ /* Disable Deep Power Down. */ APBDEV_PMC_DPD_ENABLE_0 = 0; /* Setup MC. */ /* TODO: What are these MC reg writes? */ MAKE_MC_REG(0x984) = 1; MAKE_MC_REG(0x648) = 0; MAKE_MC_REG(0x64C) = 0; MAKE_MC_REG(0x650) = 1; MAKE_MC_REG(0x670) = 0; MAKE_MC_REG(0x674) = 0; MAKE_MC_REG(0x678) = 1; MAKE_MC_REG(0x9A0) = 0; MAKE_MC_REG(0x9A4) = 0; MAKE_MC_REG(0x9A8) = 0; MAKE_MC_REG(0x9AC) = 1; MC_SECURITY_CFG0_0 = 0; MC_SECURITY_CFG1_0 = 0; MC_SECURITY_CFG3_0 = 3; configure_default_carveouts(); /* Mark registers secure world only. */ /* Mark SATA_AUX, DTV, QSPI, SE, SATA, LA secure only. */ APB_MISC_SECURE_REGS_APB_SLAVE_SECURITY_ENABLE_REG0_0 = 0x504244; /* By default, mark SPI1, SPI2, SPI3, SPI5, SPI6, I2C6 secure only. */ uint32_t sec_disable_1 = 0x83700000; /* By default, mark SDMMC3, DDS, DP2 secure only. */ uint32_t sec_disable_2 = 0x304; uint64_t hardware_type = configitem_get_hardware_type(); if (hardware_type != 1) { /* Also mark I2C5 secure only, */ sec_disable_1 |= 0x20000000; } if (hardware_type != 0 && mkey_get_revision() >= MASTERKEY_REVISION_400_CURRENT) { /* Starting on 4.x on non-dev units, mark UARTB, UARTC, SPI4, I2C3 secure only. */ sec_disable_1 |= 0x10806000; /* Starting on 4.x on non-dev units, mark SDMMC1 secure only. */ sec_disable_2 |= 1; } APB_MISC_SECURE_REGS_APB_SLAVE_SECURITY_ENABLE_REG1_0 = sec_disable_1; APB_MISC_SECURE_REGS_APB_SLAVE_SECURITY_ENABLE_REG2_0 = sec_disable_2; /* TODO: What are these MC reg writes? */ MAKE_MC_REG(0x228) = 0xFFFFFFFF; MAKE_MC_REG(0x22C) = 0xFFFFFFFF; MAKE_MC_REG(0x230) = 0xFFFFFFFF; MAKE_MC_REG(0x234) = 0xFFFFFFFF; MAKE_MC_REG(0xB98) = 0xFFFFFFFF; MAKE_MC_REG(0x038) = 0; MAKE_MC_REG(0x03C) = 0; MAKE_MC_REG(0x0E0) = 0; MAKE_MC_REG(0x0E4) = 0; MAKE_MC_REG(0x0E8) = 0; MAKE_MC_REG(0x0EC) = 0; MAKE_MC_REG(0x0F0) = 0; MAKE_MC_REG(0x0F4) = 0; MAKE_MC_REG(0x020) = 0; MAKE_MC_REG(0x014) = 0x30000030; MAKE_MC_REG(0x018) = 0x2800003F; (void)(MAKE_MC_REG(0x014)); MAKE_MC_REG(0x034) = 0; (void)(MAKE_MC_REG(0x014)); MAKE_MC_REG(0x030) = 0; (void)(MAKE_MC_REG(0x014)); MAKE_MC_REG(0x010) = 1; (void)(MAKE_MC_REG(0x014)); /* Clear RESET Vector, setup CPU Secure Boot RESET Vectors. */ uint32_t reset_vec = TZRAM_GET_SEGMENT_PA(TZRAM_SEGMENT_ID_WARMBOOT_CRT0_AND_MAIN); EVP_CPU_RESET_VECTOR_0 = 0; SB_AA64_RESET_LOW_0 = reset_vec | 1; SB_AA64_RESET_HIGH_0 = 0; /* Lock Non-Secure writes to Secure Boot RESET Vector. */ SB_CSR_0 = 2; /* Setup PMC Secure Scratch RESET Vector for warmboot. */ APBDEV_PMC_SECURE_SCRATCH34_0 = reset_vec; APBDEV_PMC_SECURE_SCRATCH35_0 = 0; APBDEV_PMC_SEC_DISABLE3_0 = 0x500000; /* Setup FIQs. */ /* And assign "se_operation_completed" to Interrupt 0x5A. */ intr_set_priority(INTERRUPT_ID_SECURITY_ENGINE, 0); intr_set_group(INTERRUPT_ID_SECURITY_ENGINE, 0); intr_set_enabled(INTERRUPT_ID_SECURITY_ENGINE, 1); intr_set_cpu_mask(INTERRUPT_ID_SECURITY_ENGINE, 8); intr_set_edge_level(INTERRUPT_ID_SECURITY_ENGINE, 0); intr_set_priority(INTERRUPT_ID_ACTIVITY_MONITOR_4X, 0); intr_set_group(INTERRUPT_ID_ACTIVITY_MONITOR_4X, 0); intr_set_enabled(INTERRUPT_ID_ACTIVITY_MONITOR_4X, 1); intr_set_cpu_mask(INTERRUPT_ID_ACTIVITY_MONITOR_4X, 8); intr_set_edge_level(INTERRUPT_ID_ACTIVITY_MONITOR_4X, 0); if (!g_has_booted_up) { intr_register_handler(INTERRUPT_ID_SECURITY_ENGINE, se_operation_completed); intr_register_handler(INTERRUPT_ID_ACTIVITY_MONITOR_4X, actmon_interrupt_handler); for (unsigned int core = 1; core < NUM_CPU_CORES; core++) { set_core_is_active(core, false); } g_has_booted_up = true; } else if (mkey_get_revision() < MASTERKEY_REVISION_400_CURRENT) { /* TODO: What are these MC reg writes? */ MAKE_MC_REG(0x65C) = 0xFFFFF000; MAKE_MC_REG(0x660) = 0; MAKE_MC_REG(0x964) |= 1; CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD_0 &= 0xFFF7FFFF; } } void setup_4x_mmio(void) { /* TODO */ } void setup_current_core_state(void) { uint64_t temp_reg; /* Setup system registers. */ SET_SYSREG(spsr_el3, 0b1111 << 6 | 0b1001); /* use EL2h+DAIF set initially, may be overwritten later. Not in official code */ SET_SYSREG(actlr_el3, 0x73ull); SET_SYSREG(actlr_el2, 0x73ull); SET_SYSREG(hcr_el2, 0x80000000ull); SET_SYSREG(dacr32_el2, 0xFFFFFFFFull); SET_SYSREG(sctlr_el1, 0xC50838ull); SET_SYSREG(sctlr_el2, 0x30C50838ull); __isb(); SET_SYSREG(cntfrq_el0, MAKE_SYSCTR0_REG(0x20)); /* TODO: Reg name. */ SET_SYSREG(cnthctl_el2, 3ull); __isb(); /* Setup Interrupts, flow. */ flow_clear_csr0_and_events(get_core_id()); intr_initialize_gic(); intr_set_priority(INTERRUPT_ID_1C, 0); intr_set_group(INTERRUPT_ID_1C, 0); intr_set_enabled(INTERRUPT_ID_1C, 1); /* Restore current core context. */ restore_current_core_context(); } void identity_unmap_iram_cd_tzram(void) { /* See also: configure_ttbls (in coldboot_init.c). */ uintptr_t *mmu_l1_tbl = (uintptr_t *)(TZRAM_GET_SEGMENT_ADDRESS(TZRAM_SEGEMENT_ID_SECMON_EVT) + 0x800 - 64); uintptr_t *mmu_l2_tbl = (uintptr_t *)TZRAM_GET_SEGMENT_ADDRESS(TZRAM_SEGMENT_ID_L2_TRANSLATION_TABLE); uintptr_t *mmu_l3_tbl = (uintptr_t *)TZRAM_GET_SEGMENT_ADDRESS(TZRAM_SEGMENT_ID_L3_TRANSLATION_TABLE); mmu_unmap_range(3, mmu_l3_tbl, IDENTITY_GET_MAPPING_ADDRESS(IDENTITY_MAPPING_IRAM_CD), IDENTITY_GET_MAPPING_SIZE(IDENTITY_MAPPING_IRAM_CD)); mmu_unmap_range(3, mmu_l3_tbl, IDENTITY_GET_MAPPING_ADDRESS(IDENTITY_MAPPING_TZRAM), IDENTITY_GET_MAPPING_SIZE(IDENTITY_MAPPING_TZRAM)); mmu_unmap(2, mmu_l2_tbl, 0x40000000); mmu_unmap(2, mmu_l2_tbl, 0x7C000000); mmu_unmap(1, mmu_l1_tbl, 0x40000000); tlb_invalidate_all_inner_shareable(); } void secure_additional_devices(void) { if (mkey_get_revision() >= MASTERKEY_REVISION_400_CURRENT) { APB_MISC_SECURE_REGS_APB_SLAVE_SECURITY_ENABLE_REG0_0 |= 0x2000; /* make PMC secure-only (2.x+ but see note below) */ APB_MISC_SECURE_REGS_APB_SLAVE_SECURITY_ENABLE_REG1_0 |= 0X510; /* make MC0, MC1, MCB secure-only (4.x+) */ } else { /* TODO: Detect 1.x */ } } void set_extabt_serror_taken_to_el3(bool taken_to_el3) { uint64_t temp_scr_el3; __asm__ __volatile__ ("mrs %0, scr_el3" : "=r"(temp_scr_el3) :: "memory"); temp_scr_el3 &= 0xFFFFFFF7; temp_scr_el3 |= taken_to_el3 ? 8 : 0; __asm__ __volatile__ ("msr scr_el3, %0" :: "r"(temp_scr_el3) : "memory"); __isb(); }