// SPDX-License-Identifier: Apache-2.0 /* Copyright 2013-2019 IBM Corp. */ #ifndef __SKIBOOT_H #define __SKIBOOT_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Special ELF sections */ #define __force_data __section(".force.data") struct mem_region; extern struct mem_region *mem_region_next(struct mem_region *region); /* Misc linker script symbols */ extern char _start[]; extern char _stext[]; extern char _etext[]; extern char __sym_map_end[]; extern char _romem_end[]; #ifndef __TESTING__ /* Readonly section start and end. */ extern char __rodata_start[], __rodata_end[]; static inline bool is_rodata(const void *p) { return ((const char *)p >= __rodata_start && (const char *)p < __rodata_end); } #else static inline bool is_rodata(const void *p) { return false; } #endif /* Console logging * Update console_get_level() if you add here */ #define PR_EMERG 0 #define PR_ALERT 1 #define PR_CRIT 2 #define PR_ERR 3 #define PR_WARNING 4 #define PR_NOTICE 5 #define PR_PRINTF PR_NOTICE #define PR_INFO 6 #define PR_DEBUG 7 #define PR_TRACE 8 #define PR_INSANE 9 #ifndef pr_fmt #define pr_fmt(fmt) fmt #endif void _prlog(int log_level, const char* fmt, ...) __attribute__((format (printf, 2, 3))); #define prlog(l, f, ...) do { _prlog(l, pr_fmt(f), ##__VA_ARGS__); } while(0) #define prerror(fmt...) do { prlog(PR_ERR, fmt); } while(0) #define prlog_once(arg, ...) \ ({ \ static bool __prlog_once = false; \ if (!__prlog_once) { \ __prlog_once = true; \ prlog(arg, ##__VA_ARGS__); \ } \ }) /* Location codes -- at most 80 chars with null termination */ #define LOC_CODE_SIZE 80 /* Processor generation */ enum proc_gen { proc_gen_unknown, proc_gen_p8, proc_gen_p9, }; extern enum proc_gen proc_gen; extern unsigned int pcie_max_link_speed; /* Convert a 4-bit number to a hex char */ extern char __attrconst tohex(uint8_t nibble); #ifndef __TEST__ /* Bit position of the most significant 1-bit (LSB=0, MSB=63) */ static inline int ilog2(unsigned long val) { int left_zeros; asm volatile ("cntlzd %0,%1" : "=r" (left_zeros) : "r" (val)); return 63 - left_zeros; } static inline bool is_pow2(unsigned long val) { return val == (1ul << ilog2(val)); } #endif #define lo32(x) ((x) & 0xffffffff) #define hi32(x) (((x) >> 32) & 0xffffffff) /* WARNING: _a *MUST* be a power of two */ #define ALIGN_UP(_v, _a) (((_v) + (_a) - 1) & ~((_a) - 1)) #define ALIGN_DOWN(_v, _a) ((_v) & ~((_a) - 1)) /* TCE alignment */ #define TCE_SHIFT 12 #define TCE_PSIZE (1ul << 12) #define TCE_MASK (TCE_PSIZE - 1) /* Not the greatest variants but will do for now ... */ #define MIN(a, b) ((a) < (b) ? (a) : (b)) #define MAX(a, b) ((a) > (b) ? (a) : (b)) /* Clean the stray high bit which the FSP inserts: we only have 52 bits real */ static inline u64 cleanup_addr(u64 addr) { return addr & ((1ULL << 52) - 1); } /* Start the kernel */ extern void start_kernel(uint64_t entry, void* fdt, uint64_t mem_top) __noreturn; extern void start_kernel32(uint64_t entry, void* fdt, uint64_t mem_top) __noreturn; extern void start_kernel_secondary(uint64_t entry) __noreturn; /* Get description of machine from HDAT and create device-tree */ extern int parse_hdat(bool is_opal); struct dt_node; /* Add /cpus/features node for boot environment that passes an fdt */ extern void dt_add_cpufeatures(struct dt_node *root); /* Root of device tree. */ extern struct dt_node *dt_root; /* Full skiboot version number (possibly includes gitid). */ extern const char version[]; /* Debug support */ extern char __sym_map_start[]; extern char __sym_map_end[]; extern size_t snprintf_symbol(char *buf, size_t len, uint64_t addr); /* Direct controls */ extern void direct_controls_init(void); extern int64_t opal_signal_system_reset(int cpu_nr); /* Fast reboot support */ extern void disable_fast_reboot(const char *reason); extern void add_fast_reboot_dt_entries(void); extern void fast_reboot(void); extern void __noreturn __secondary_cpu_entry(void); extern void __noreturn load_and_boot_kernel(bool is_reboot); extern void cleanup_local_tlb(void); extern void cleanup_global_tlb(void); extern void init_shared_sprs(void); extern void init_replicated_sprs(void); extern bool start_preload_kernel(void); extern void copy_exception_vectors(void); extern void copy_sreset_vector(void); extern void copy_sreset_vector_fast_reboot(void); /* Various probe routines, to replace with an initcall system */ extern void probe_phb3(void); extern void probe_phb4(void); extern int preload_capp_ucode(void); extern void preload_io_vpd(void); extern void probe_npu(void); extern void probe_npu2(void); extern void probe_npu3(void); extern void uart_init(void); extern void mbox_init(void); extern void early_uart_init(void); extern void homer_init(void); extern void slw_init(void); extern void add_cpu_idle_state_properties(void); extern void lpc_rtc_init(void); /* flash support */ struct flash_chip; extern int flash_register(struct blocklevel_device *bl); extern int flash_start_preload_resource(enum resource_id id, uint32_t subid, void *buf, size_t *len); extern int flash_resource_loaded(enum resource_id id, uint32_t idx); extern bool flash_reserve(void); extern void flash_release(void); extern bool flash_unregister(void); #define FLASH_SUBPART_ALIGNMENT 0x1000 #define FLASH_SUBPART_HEADER_SIZE FLASH_SUBPART_ALIGNMENT extern int flash_subpart_info(void *part_header, uint32_t header_len, uint32_t part_size, uint32_t *part_actual, uint32_t subid, uint32_t *offset, uint32_t *size); extern void flash_fw_version_preload(void); extern void flash_dt_add_fw_version(void); extern const char *flash_map_resource_name(enum resource_id id); /* * Decompression routines * * The below structure members are needed for the xz library routines, * src: Source address (The compressed binary) * src_size: Source size * dst: Destination address (The memory area where the `src` will be * decompressed) * dst_size: Destination size */ struct xz_decompress { void *dst; void *src; size_t dst_size; size_t src_size; /* The status of the decompress process: - OPAL_PARTIAL: if the job is in progress - OPAL_SUCCESS: if the job is successful - OPAL_NO_MEM: memory allocation failure - OPAL_PARAMETER: If any of the above (src, dst..) are invalid or if xz decompress fails. In which case the caller should check the xz_error for failure reason. */ int status; int xz_error; /* The decompression job, this will be freed if the caller uses * `wait_xz_decompression` function, in any other case its the * responsibility of caller to free the allocation job. */ struct cpu_job *job; }; extern void xz_start_decompress(struct xz_decompress *); extern void wait_xz_decompress(struct xz_decompress *); /* NVRAM support */ extern void nvram_init(void); extern void nvram_read_complete(bool success); /* UART stuff */ enum { UART_CONSOLE_OPAL, UART_CONSOLE_OS }; extern void uart_set_console_policy(int policy); extern bool uart_enabled(void); /* PRD */ extern void prd_psi_interrupt(uint32_t proc); extern void prd_tmgt_interrupt(uint32_t proc); extern void prd_occ_reset(uint32_t proc); extern void prd_sbe_passthrough(uint32_t proc); extern void prd_init(void); extern void prd_register_reserved_memory(void); extern void prd_fsp_occ_reset(uint32_t proc); extern void prd_fsp_occ_load_start(u32 proc); extern void prd_fw_resp_fsp_response(int status); extern int prd_hbrt_fsp_msg_notify(void *data, u32 dsize); /* Flatten device-tree */ extern void *create_dtb(const struct dt_node *root, bool exclusive); /* Track failure in Wakup engine */ enum wakeup_engine_states { WAKEUP_ENGINE_NOT_PRESENT, WAKEUP_ENGINE_PRESENT, WAKEUP_ENGINE_FAILED }; extern enum wakeup_engine_states wakeup_engine_state; extern bool has_deep_states; extern void nx_p9_rng_late_init(void); extern void xive_late_init(void); /* SLW reinit function for switching core settings */ extern int64_t slw_reinit(uint64_t flags); /* Patch SPR in SLW image */ extern int64_t opal_slw_set_reg(uint64_t cpu_pir, uint64_t sprn, uint64_t val); extern void fast_sleep_exit(void); /* Fallback fake RTC */ extern void fake_rtc_init(void); /* Exceptions */ struct stack_frame; extern void exception_entry(struct stack_frame *stack); extern void exception_entry_pm_sreset(void); extern void exception_entry_pm_mce(void); /* Assembly in head.S */ extern void disable_machine_check(void); extern void enable_machine_check(void); extern unsigned int enter_p8_pm_state(bool winkle); extern unsigned int enter_p9_pm_state(uint64_t psscr); extern void enter_p9_pm_lite_state(uint64_t psscr); extern uint32_t reset_patch_start; extern uint32_t reset_patch_end; extern uint32_t reset_fast_reboot_patch_start; extern uint32_t reset_fast_reboot_patch_end; /* Fallback fake NVRAM */ extern int fake_nvram_info(uint32_t *total_size); extern int fake_nvram_start_read(void *dst, uint32_t src, uint32_t len); extern int fake_nvram_write(uint32_t offset, void *src, uint32_t size); #endif /* __SKIBOOT_H */