doxygen/html/arch_2x86_2intel64_2thread_8h_source.html

/*

 * Copyright (c) 2019 Intel Corporation

 * SPDX-License-Identifier: Apache-2.0

 */


#ifndef ZEPHYR_INCLUDE_ARCH_X86_INTEL64_THREAD_H_

#define ZEPHYR_INCLUDE_ARCH_X86_INTEL64_THREAD_H_


#define X86_THREAD_FLAG_ALL 0x01 /* _thread_arch.flags: entire state saved */


/*

 * GDT selectors - these must agree with the GDT layout in locore.S.

 */


#define X86_KERNEL_CS_32        0x08    /* 32-bit kernel code */

#define X86_KERNEL_DS_32        0x10    /* 32-bit kernel data */

#define X86_KERNEL_CS           0x18    /* 64-bit kernel code */

#define X86_KERNEL_DS           0x20    /* 64-bit kernel data */

#define X86_USER_CS_32          0x28    /* 32-bit user data (unused) */

#define X86_USER_DS             0x30    /* 64-bit user mode data */

#define X86_USER_CS             0x38    /* 64-bit user mode code */


/* Value programmed into bits 63:32 of STAR MSR with proper segment

 * descriptors for implementing user mode with syscall/sysret

 */

#define X86_STAR_UPPER          ((X86_USER_CS_32 << 16) | X86_KERNEL_CS)


#define X86_KERNEL_CPU0_TR      0x40    /* 64-bit task state segment */

#define X86_KERNEL_CPU1_TR      0x50    /* 64-bit task state segment */

#define X86_KERNEL_CPU2_TR      0x60    /* 64-bit task state segment */

#define X86_KERNEL_CPU3_TR      0x70    /* 64-bit task state segment */


/*

 * Some SSE definitions. Ideally these will ultimately be shared with 32-bit.

 */


#define X86_FXSAVE_SIZE         512     /* size and alignment of buffer ... */

#define X86_FXSAVE_ALIGN        16      /* ... for FXSAVE/FXRSTOR ops */


/* MXCSR Control and Status Register for SIMD floating-point operations.

 * Set default value 1F80H according to the Intel(R) 64 and IA-32 Manual.

 * Disable denormals-are-zeros mode.

 */

#define X86_MXCSR_SANE          0x1f80


#ifndef _ASMLANGUAGE


#include <zephyr/types.h>

#include <zephyr/arch/x86/mmustructs.h>


/*

 * 64-bit Task State Segment. One defined per CPU.

 */


struct x86_tss64 {

        /*

         * Architecturally-defined portion. It is somewhat tedious to

         * enumerate each member specifically (rather than using arrays)

         * but we need to get (some of) their offsets from assembly.

         */


        uint8_t reserved0[4];


        uint64_t rsp0;          /* privileged stacks */

        uint64_t rsp1;

        uint64_t rsp2;


        uint8_t reserved[8];


        uint64_t ist1;          /* interrupt stacks */

        uint64_t ist2;

        uint64_t ist3;

        uint64_t ist4;

        uint64_t ist5;

        uint64_t ist6;

        uint64_t ist7;


        uint8_t reserved1[10];


        uint16_t iomapb;                /* offset to I/O base */


        /*

         * Zephyr specific portion. Stash per-CPU data here for convenience.

         */


        struct _cpu *cpu;

#ifdef CONFIG_USERSPACE

        /* Privilege mode stack pointer value when doing a system call */

        char *psp;


        /* Storage area for user mode stack pointer when doing a syscall */

        char *usp;

#endif /* CONFIG_USERSPACE */

} __packed __aligned(8);


typedef struct x86_tss64 x86_tss64_t;


/*

 * The _callee_saved registers are unconditionally saved/restored across

 * context switches; the _thread_arch registers are only preserved when

 * the thread is interrupted. _arch_thread.flags tells __resume when to

 * cheat and only restore the first set. For more details see locore.S.

 */


struct _callee_saved {

        uint64_t rsp;

        uint64_t rbx;

        uint64_t rbp;

        uint64_t r12;

        uint64_t r13;

        uint64_t r14;

        uint64_t r15;

        uint64_t rip;

        uint64_t rflags;

};


typedef struct _callee_saved _callee_saved_t;


struct _thread_arch {

        uint8_t flags;


#ifdef CONFIG_USERSPACE

#ifndef CONFIG_X86_COMMON_PAGE_TABLE

        /* Physical address of the page tables used by this thread */

        uintptr_t ptables;

#endif /* CONFIG_X86_COMMON_PAGE_TABLE */


        /* Initial privilege mode stack pointer when doing a system call.

         * Un-set for supervisor threads.

         */

        char *psp;


        /* SS and CS selectors for this thread when restoring context */

        uint64_t ss;

        uint64_t cs;

#endif


        uint64_t rax;

        uint64_t rcx;

        uint64_t rdx;

        uint64_t rsi;

        uint64_t rdi;

        uint64_t r8;

        uint64_t r9;

        uint64_t r10;

        uint64_t r11;

        char __aligned(X86_FXSAVE_ALIGN) sse[X86_FXSAVE_SIZE];

};


typedef struct _thread_arch _thread_arch_t;


#endif /* _ASMLANGUAGE */


#endif /* ZEPHYR_INCLUDE_ARCH_X86_INTEL64_THREAD_H_ */

X86_FXSAVE_ALIGN
#define X86_FXSAVE_ALIGN
Definition thread.h:38

X86_FXSAVE_SIZE
#define X86_FXSAVE_SIZE
Definition thread.h:37

types.h

mmustructs.h

flags
flags
Definition parser.h:96

uint64_t
__UINT64_TYPE__ uint64_t
Definition stdint.h:91

uint8_t
__UINT8_TYPE__ uint8_t
Definition stdint.h:88

uintptr_t
__UINTPTR_TYPE__ uintptr_t
Definition stdint.h:105

uint16_t
__UINT16_TYPE__ uint16_t
Definition stdint.h:89

x86_tss64
Definition thread.h:55

x86_tss64::ist2
uint64_t ist2
Definition thread.h:71

x86_tss64::ist6
uint64_t ist6
Definition thread.h:75

x86_tss64::cpu
struct _cpu * cpu
Definition thread.h:86

x86_tss64::rsp1
uint64_t rsp1
Definition thread.h:65

x86_tss64::reserved0
uint8_t reserved0[4]
Definition thread.h:62

x86_tss64::reserved1
uint8_t reserved1[10]
Definition thread.h:78

x86_tss64::ist4
uint64_t ist4
Definition thread.h:73

x86_tss64::ist7
uint64_t ist7
Definition thread.h:76

x86_tss64::ist3
uint64_t ist3
Definition thread.h:72

x86_tss64::psp
char * psp
Definition thread.h:89

x86_tss64::rsp2
uint64_t rsp2
Definition thread.h:66

x86_tss64::ist1
uint64_t ist1
Definition thread.h:70

x86_tss64::rsp0
uint64_t rsp0
Definition thread.h:64

x86_tss64::ist5
uint64_t ist5
Definition thread.h:74

x86_tss64::iomapb
uint16_t iomapb
Definition thread.h:80

x86_tss64::reserved
uint8_t reserved[8]
Definition thread.h:68

x86_tss64::usp
char * usp
Definition thread.h:92