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/* SPDX-License-Identifier: GPL-2.0+ */
/*
* (C) Copyright 2002
* Daniel Engström, Omicron Ceti AB, daniel@omicron.se.
*/
#ifndef _U_BOOT_I386_H_
#define _U_BOOT_I386_H_ 1
struct global_data;
extern char gdt_rom[];
/* cpu/.../cpu.c */
int arch_cpu_init(void);
/**
* x86_cpu_init_f() - Set up basic features of the x86 CPU
*
* 0 on success, -ve on error
*/
int x86_cpu_init_f(void);
/**
* x86_cpu_reinit_f() - Set up the CPU a second time
*
* Once cpu_init_f() has been called (e.g. in SPL) we should not call it
* again (e.g. in U-Boot proper) since it sets up the state from scratch.
* Call this function in later phases of U-Boot instead. It reads the CPU
* identify so that CPU functions can be used correctly, but does not change
* anything.
*
* Return: 0 (indicating success, to mimic cpu_init_f())
*/
int x86_cpu_reinit_f(void);
/**
* x86_cpu_init_tpl() - Do the minimum possible CPU init
*
* This just sets up the CPU features and figured out the identity
*
* Return: 0 (indicating success, to mimic cpu_init_f())
*/
int x86_cpu_init_tpl(void);
/**
* cpu_reinit_fpu() - Reinit the FPU if something is wrong with it
*
* The FSP-M code can leave registers in use in the FPU. This functions reinits
* it so that the FPU can be used safely
*/
void cpu_reinit_fpu(void);
int cpu_init_f(void);
void setup_gdt(struct global_data *id, u64 *gdt_addr);
/*
* Setup FSP execution environment GDT to use the one we used in
* arch/x86/cpu/start16.S and reload the segment registers.
*/
void setup_fsp_gdt(void);
int init_cache(void);
int cleanup_before_linux(void);
/* cpu/.../timer.c */
void timer_isr(void *);
typedef void (timer_fnc_t) (void);
int register_timer_isr (timer_fnc_t *isr_func);
unsigned long get_tbclk_mhz(void);
void timer_set_base(uint64_t base);
int i8254_init(void);
/* cpu/.../interrupts.c */
int cpu_init_interrupts(void);
int cleanup_before_linux(void);
int x86_cleanup_before_linux(void);
void x86_enable_caches(void);
void x86_disable_caches(void);
int x86_init_cache(void);
phys_addr_t board_get_usable_ram_top(phys_size_t total_size);
int default_print_cpuinfo(void);
/* Set up a UART which can be used with printch(), printhex8(), etc. */
int setup_internal_uart(int enable);
void isa_unmap_rom(u32 addr);
u32 isa_map_rom(u32 bus_addr, int size);
/* arch/x86/lib/... */
int video_bios_init(void);
/* arch/x86/lib/fsp1,2/... */
/**
* fsp_save_s3_stack() - save stack address to CMOS for next S3 boot
*
* At the end of pre-relocation phase, save the new stack address
* to CMOS and use it as the stack on next S3 boot for fsp_init()
* continuation function.
*
* @return: 0 if OK, -ve on error
*/
int fsp_save_s3_stack(void);
/**
* board_init_f_r_trampoline() - jump to relocated address with new stack
*
* @sp: New stack pointer to use
*/
void __noreturn board_init_f_r_trampoline(ulong sp);
/**
* board_init_f_r() - jump to relocated U-Boot
*
* This is used to jump from pre-relocation to post-relocation U-Boot. It
* enables the cache and jump to the new location.
*/
void __noreturn board_init_f_r(void);
/*
* board_init_f_r_trampoline64() - jump to relocated address with new stack
*
* This is the 64-bit version
*
* @new_gd: New global_data pointer to use
* @sp: New stack pointer to pass on to board_init_r()
*/
void __noreturn board_init_f_r_trampoline64(struct global_data *new_gd,
ulong sp);
int arch_misc_init(void);
/* Read the time stamp counter */
static inline notrace uint64_t rdtsc(void)
{
uint32_t high, low;
__asm__ __volatile__("rdtsc" : "=a" (low), "=d" (high));
return (((uint64_t)high) << 32) | low;
}
/* board/... */
void timer_set_tsc_base(uint64_t new_base);
uint64_t timer_get_tsc(void);
void quick_ram_check(void);
#define PCI_VGA_RAM_IMAGE_START 0xc0000
#endif /* _U_BOOT_I386_H_ */
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