1 /* SPDX-License-Identifier: BSD-2-Clause */ 2 /* 3 * Copyright (c) 2015-2020, Linaro Limited 4 * Copyright (c) 2021-2023, Arm Limited 5 */ 6 #ifndef __KERNEL_BOOT_H 7 #define __KERNEL_BOOT_H 8 9 #include <initcall.h> 10 #include <kernel/dt.h> 11 #include <types_ext.h> 12 13 /* 14 * struct boot_embdata - Embedded boot data 15 * @total_len: Total length of the embedded boot data 16 * @num_blobs: Number of blobs in the embedded boot data, always 2 even if 17 * one blob is empty 18 * @hashes_offset: Offset of hashes from start of this struct 19 * @hashes_len: Length of hashes 20 * @reloc_offset: Offset of reloc from start of this struct 21 * @reloc_len: Length of reloc 22 * 23 * This struct is initialized by scripts/gen_tee_bin.py and must be kept 24 * in sync with that script. The struct and the following data is loaded 25 * at different addresses at boot depending on CFG_WITH_PAGER. 26 * 27 * If configured with CFG_WITH_PAGER=y the struct with data is following 28 * init part, this is together with the init part moved by the primary CPU 29 * so it ends up at __init_end. Whatever need to be saved for later need to 30 * be copied to a safe location in init_runtime(). 31 * 32 * If configured with CFG_WITH_PAGER=n following the struct with data is 33 * __data_end, this is moved by the primary CPU so it ends up at __end. 34 */ 35 struct boot_embdata { 36 uint32_t total_len; 37 uint32_t num_blobs; 38 uint32_t hashes_offset; 39 uint32_t hashes_len; 40 uint32_t reloc_offset; 41 uint32_t reloc_len; 42 }; 43 44 extern const struct core_mmu_config boot_mmu_config; 45 46 void boot_init_primary_early(void); 47 void boot_init_primary_late(unsigned long fdt, unsigned long manifest); 48 void boot_init_primary_runtime(void); 49 void boot_init_primary_final(void); 50 void boot_init_memtag(void); 51 void boot_clear_memtag(void); 52 void boot_save_args(unsigned long a0, unsigned long a1, unsigned long a2, 53 unsigned long a3, unsigned long a4); 54 55 void __panic_at_smc_return(void) __noreturn; 56 57 #if defined(CFG_WITH_ARM_TRUSTED_FW) 58 unsigned long cpu_on_handler(unsigned long a0, unsigned long a1); 59 unsigned long boot_cpu_on_handler(unsigned long a0, unsigned long a1); 60 #else 61 void boot_init_secondary(unsigned long nsec_entry); 62 #endif 63 64 void boot_primary_init_intc(void); 65 void boot_secondary_init_intc(void); 66 67 void init_sec_mon(unsigned long nsec_entry); 68 void init_tee_runtime(void); 69 70 /* weak routines eventually overridden by platform */ 71 void plat_cpu_reset_early(void); 72 void plat_primary_init_early(void); 73 unsigned long plat_get_aslr_seed(void); 74 unsigned long plat_get_freq(void); 75 #if defined(_CFG_CORE_STACK_PROTECTOR) || defined(CFG_WITH_STACK_CANARIES) 76 /* 77 * plat_get_random_stack_canaries() - Get random values for stack canaries. 78 * @buf: Pointer to the buffer where to store canaries 79 * @ncan: The number of canaries to generate. 80 * @size: The size (in bytes) of each canary. 81 * 82 * This function has a __weak default implementation. 83 */ 84 void plat_get_random_stack_canaries(void *buf, size_t ncan, size_t size); 85 #endif 86 void arm_cl2_config(vaddr_t pl310); 87 void arm_cl2_enable(vaddr_t pl310); 88 89 #if defined(CFG_BOOT_SECONDARY_REQUEST) 90 void boot_set_core_ns_entry(size_t core_idx, uintptr_t entry, 91 uintptr_t context_id); 92 93 int boot_core_release(size_t core_idx, paddr_t entry); 94 struct ns_entry_context *boot_core_hpen(void); 95 #endif 96 97 /* 98 * get_aslr_seed() - return a random seed for core ASLR 99 * 100 * This function has a __weak default implementation. 101 */ 102 unsigned long get_aslr_seed(void); 103 104 /* Identify non-secure memory regions for dynamic shared memory */ 105 void discover_nsec_memory(void); 106 /* Add reserved memory for static shared memory in the device-tree */ 107 int mark_static_shm_as_reserved(struct dt_descriptor *dt); 108 109 /* 110 * Stack-like memory allocations during boot before a heap has been 111 * configured. boot_mem_relocate() performs relocation of the boot memory 112 * and address cells registered with boot_mem_add_reloc() during virtual 113 * memory initialization. Unused memory is unmapped and released to pool of 114 * free physical memory once MMU is initialized. 115 */ 116 void boot_mem_init(vaddr_t start, vaddr_t end, vaddr_t orig_end); 117 void boot_mem_foreach_padding(bool (*func)(vaddr_t va, size_t len, void *ptr), 118 void *ptr); 119 void boot_mem_add_reloc(void *ptr); 120 void boot_mem_relocate(size_t offs); 121 void *boot_mem_alloc(size_t len, size_t align); 122 void *boot_mem_alloc_tmp(size_t len, size_t align); 123 vaddr_t boot_mem_release_unused(void); 124 void boot_mem_release_tmp_alloc(void); 125 126 #endif /* __KERNEL_BOOT_H */ 127