arch/x86/include/asm/xen/interface_64.h - kernel/bruno - Git at Google

 #ifndef _ASM_X86_XEN_INTERFACE_64_H
 #define _ASM_X86_XEN_INTERFACE_64_H

 /*
  * 64-bit segment selectors
  * These flat segments are in the Xen-private section of every GDT. Since these
  * are also present in the initial GDT, many OSes will be able to avoid
  * installing their own GDT.
  */

 #define FLAT_RING3_CS32 0xe023  /* GDT index 260 */
 #define FLAT_RING3_CS64 0xe033  /* GDT index 261 */
 #define FLAT_RING3_DS32 0xe02b  /* GDT index 262 */
 #define FLAT_RING3_DS64 0x0000  /* NULL selector */
 #define FLAT_RING3_SS32 0xe02b  /* GDT index 262 */
 #define FLAT_RING3_SS64 0xe02b  /* GDT index 262 */

 #define FLAT_KERNEL_DS64 FLAT_RING3_DS64
 #define FLAT_KERNEL_DS32 FLAT_RING3_DS32
 #define FLAT_KERNEL_DS   FLAT_KERNEL_DS64
 #define FLAT_KERNEL_CS64 FLAT_RING3_CS64
 #define FLAT_KERNEL_CS32 FLAT_RING3_CS32
 #define FLAT_KERNEL_CS   FLAT_KERNEL_CS64
 #define FLAT_KERNEL_SS64 FLAT_RING3_SS64
 #define FLAT_KERNEL_SS32 FLAT_RING3_SS32
 #define FLAT_KERNEL_SS   FLAT_KERNEL_SS64

 #define FLAT_USER_DS64 FLAT_RING3_DS64
 #define FLAT_USER_DS32 FLAT_RING3_DS32
 #define FLAT_USER_DS   FLAT_USER_DS64
 #define FLAT_USER_CS64 FLAT_RING3_CS64
 #define FLAT_USER_CS32 FLAT_RING3_CS32
 #define FLAT_USER_CS   FLAT_USER_CS64
 #define FLAT_USER_SS64 FLAT_RING3_SS64
 #define FLAT_USER_SS32 FLAT_RING3_SS32
 #define FLAT_USER_SS   FLAT_USER_SS64

 #define __HYPERVISOR_VIRT_START 0xFFFF800000000000
 #define __HYPERVISOR_VIRT_END   0xFFFF880000000000
 #define __MACH2PHYS_VIRT_START  0xFFFF800000000000
 #define __MACH2PHYS_VIRT_END    0xFFFF804000000000
 #define __MACH2PHYS_SHIFT       3

 /*
  * int HYPERVISOR_set_segment_base(unsigned int which, unsigned long base)
  *  @which == SEGBASE_*  ;  @base == 64-bit base address
  * Returns 0 on success.
  */
 #define SEGBASE_FS          0
 #define SEGBASE_GS_USER     1
 #define SEGBASE_GS_KERNEL   2
 #define SEGBASE_GS_USER_SEL 3 /* Set user %gs specified in base[15:0] */

 /*
  * int HYPERVISOR_iret(void)
  * All arguments are on the kernel stack, in the following format.
  * Never returns if successful. Current kernel context is lost.
  * The saved CS is mapped as follows:
  *   RING0 -> RING3 kernel mode.
  *   RING1 -> RING3 kernel mode.
  *   RING2 -> RING3 kernel mode.
  *   RING3 -> RING3 user mode.
  * However RING0 indicates that the guest kernel should return to iteself
  * directly with
  *      orb   $3,1*8(%rsp)
  *      iretq
  * If flags contains VGCF_in_syscall:
  *   Restore RAX, RIP, RFLAGS, RSP.
  *   Discard R11, RCX, CS, SS.
  * Otherwise:
  *   Restore RAX, R11, RCX, CS:RIP, RFLAGS, SS:RSP.
  * All other registers are saved on hypercall entry and restored to user.
  */
 /* Guest exited in SYSCALL context? Return to guest with SYSRET? */
 #define _VGCF_in_syscall 8
 #define VGCF_in_syscall  (1<<_VGCF_in_syscall)
 #define VGCF_IN_SYSCALL  VGCF_in_syscall

 #ifndef __ASSEMBLY__

 struct iret_context {
     /* Top of stack (%rsp at point of hypercall). */
     uint64_t rax, r11, rcx, flags, rip, cs, rflags, rsp, ss;
     /* Bottom of iret stack frame. */
 };

 #if defined(__GNUC__) && !defined(__STRICT_ANSI__)
 /* Anonymous union includes both 32- and 64-bit names (e.g., eax/rax). */
 #define __DECL_REG(name) union { \
     uint64_t r ## name, e ## name; \
     uint32_t _e ## name; \
 }
 #else
 /* Non-gcc sources must always use the proper 64-bit name (e.g., rax). */
 #define __DECL_REG(name) uint64_t r ## name
 #endif

 struct cpu_user_regs {
     uint64_t r15;
     uint64_t r14;
     uint64_t r13;
     uint64_t r12;
     __DECL_REG(bp);
     __DECL_REG(bx);
     uint64_t r11;
     uint64_t r10;
     uint64_t r9;
     uint64_t r8;
     __DECL_REG(ax);
     __DECL_REG(cx);
     __DECL_REG(dx);
     __DECL_REG(si);
     __DECL_REG(di);
     uint32_t error_code;    /* private */
     uint32_t entry_vector;  /* private */
     __DECL_REG(ip);
     uint16_t cs, _pad0[1];
     uint8_t  saved_upcall_mask;
     uint8_t  _pad1[3];
     __DECL_REG(flags);      /* rflags.IF == !saved_upcall_mask */
     __DECL_REG(sp);
     uint16_t ss, _pad2[3];
     uint16_t es, _pad3[3];
     uint16_t ds, _pad4[3];
     uint16_t fs, _pad5[3]; /* Non-zero => takes precedence over fs_base.     */
     uint16_t gs, _pad6[3]; /* Non-zero => takes precedence over gs_base_usr. */
 };
 DEFINE_GUEST_HANDLE_STRUCT(cpu_user_regs);

 #undef __DECL_REG

 #define xen_pfn_to_cr3(pfn) ((unsigned long)(pfn) << 12)
 #define xen_cr3_to_pfn(cr3) ((unsigned long)(cr3) >> 12)

 struct arch_vcpu_info {
     unsigned long cr2;
     unsigned long pad; /* sizeof(vcpu_info_t) == 64 */
 };

 typedef unsigned long xen_callback_t;

 #define XEN_CALLBACK(__cs, __rip)				\
 	((unsigned long)(__rip))

 #endif /* !__ASSEMBLY__ */


 #endif /* _ASM_X86_XEN_INTERFACE_64_H */
	#ifndef _ASM_X86_XEN_INTERFACE_64_H
	#define _ASM_X86_XEN_INTERFACE_64_H

	/*
	* 64-bit segment selectors
	* These flat segments are in the Xen-private section of every GDT. Since these
	* are also present in the initial GDT, many OSes will be able to avoid
	* installing their own GDT.
	*/

	#define FLAT_RING3_CS32 0xe023 /* GDT index 260 */
	#define FLAT_RING3_CS64 0xe033 /* GDT index 261 */
	#define FLAT_RING3_DS32 0xe02b /* GDT index 262 */
	#define FLAT_RING3_DS64 0x0000 /* NULL selector */
	#define FLAT_RING3_SS32 0xe02b /* GDT index 262 */
	#define FLAT_RING3_SS64 0xe02b /* GDT index 262 */

	#define FLAT_KERNEL_DS64 FLAT_RING3_DS64
	#define FLAT_KERNEL_DS32 FLAT_RING3_DS32
	#define FLAT_KERNEL_DS FLAT_KERNEL_DS64
	#define FLAT_KERNEL_CS64 FLAT_RING3_CS64
	#define FLAT_KERNEL_CS32 FLAT_RING3_CS32
	#define FLAT_KERNEL_CS FLAT_KERNEL_CS64
	#define FLAT_KERNEL_SS64 FLAT_RING3_SS64
	#define FLAT_KERNEL_SS32 FLAT_RING3_SS32
	#define FLAT_KERNEL_SS FLAT_KERNEL_SS64

	#define FLAT_USER_DS64 FLAT_RING3_DS64
	#define FLAT_USER_DS32 FLAT_RING3_DS32
	#define FLAT_USER_DS FLAT_USER_DS64
	#define FLAT_USER_CS64 FLAT_RING3_CS64
	#define FLAT_USER_CS32 FLAT_RING3_CS32
	#define FLAT_USER_CS FLAT_USER_CS64
	#define FLAT_USER_SS64 FLAT_RING3_SS64
	#define FLAT_USER_SS32 FLAT_RING3_SS32
	#define FLAT_USER_SS FLAT_USER_SS64

	#define __HYPERVISOR_VIRT_START 0xFFFF800000000000
	#define __HYPERVISOR_VIRT_END 0xFFFF880000000000
	#define __MACH2PHYS_VIRT_START 0xFFFF800000000000
	#define __MACH2PHYS_VIRT_END 0xFFFF804000000000
	#define __MACH2PHYS_SHIFT 3

	/*
	* int HYPERVISOR_set_segment_base(unsigned int which, unsigned long base)
	* @which == SEGBASE_* ; @base == 64-bit base address
	* Returns 0 on success.
	*/
	#define SEGBASE_FS 0
	#define SEGBASE_GS_USER 1
	#define SEGBASE_GS_KERNEL 2
	#define SEGBASE_GS_USER_SEL 3 /* Set user %gs specified in base[15:0] */

	/*
	* int HYPERVISOR_iret(void)
	* All arguments are on the kernel stack, in the following format.
	* Never returns if successful. Current kernel context is lost.
	* The saved CS is mapped as follows:
	* RING0 -> RING3 kernel mode.
	* RING1 -> RING3 kernel mode.
	* RING2 -> RING3 kernel mode.
	* RING3 -> RING3 user mode.
	* However RING0 indicates that the guest kernel should return to iteself
	* directly with
	* orb $3,1*8(%rsp)
	* iretq
	* If flags contains VGCF_in_syscall:
	* Restore RAX, RIP, RFLAGS, RSP.
	* Discard R11, RCX, CS, SS.
	* Otherwise:
	* Restore RAX, R11, RCX, CS:RIP, RFLAGS, SS:RSP.
	* All other registers are saved on hypercall entry and restored to user.
	*/
	/* Guest exited in SYSCALL context? Return to guest with SYSRET? */
	#define _VGCF_in_syscall 8
	#define VGCF_in_syscall (1<<_VGCF_in_syscall)
	#define VGCF_IN_SYSCALL VGCF_in_syscall

	#ifndef __ASSEMBLY__

	struct iret_context {
	/* Top of stack (%rsp at point of hypercall). */
	uint64_t rax, r11, rcx, flags, rip, cs, rflags, rsp, ss;
	/* Bottom of iret stack frame. */
	};

	#if defined(__GNUC__) && !defined(__STRICT_ANSI__)
	/* Anonymous union includes both 32- and 64-bit names (e.g., eax/rax). */
	#define __DECL_REG(name) union { \
	uint64_t r ## name, e ## name; \
	uint32_t _e ## name; \
	}
	#else
	/* Non-gcc sources must always use the proper 64-bit name (e.g., rax). */
	#define __DECL_REG(name) uint64_t r ## name
	#endif

	struct cpu_user_regs {
	uint64_t r15;
	uint64_t r14;
	uint64_t r13;
	uint64_t r12;
	__DECL_REG(bp);
	__DECL_REG(bx);
	uint64_t r11;
	uint64_t r10;
	uint64_t r9;
	uint64_t r8;
	__DECL_REG(ax);
	__DECL_REG(cx);
	__DECL_REG(dx);
	__DECL_REG(si);
	__DECL_REG(di);
	uint32_t error_code; /* private */
	uint32_t entry_vector; /* private */
	__DECL_REG(ip);
	uint16_t cs, _pad0[1];
	uint8_t saved_upcall_mask;
	uint8_t _pad1[3];
	__DECL_REG(flags); /* rflags.IF == !saved_upcall_mask */
	__DECL_REG(sp);
	uint16_t ss, _pad2[3];
	uint16_t es, _pad3[3];
	uint16_t ds, _pad4[3];
	uint16_t fs, _pad5[3]; /* Non-zero => takes precedence over fs_base. */
	uint16_t gs, _pad6[3]; /* Non-zero => takes precedence over gs_base_usr. */
	};
	DEFINE_GUEST_HANDLE_STRUCT(cpu_user_regs);

	#undef __DECL_REG

	#define xen_pfn_to_cr3(pfn) ((unsigned long)(pfn) << 12)
	#define xen_cr3_to_pfn(cr3) ((unsigned long)(cr3) >> 12)

	struct arch_vcpu_info {
	unsigned long cr2;
	unsigned long pad; /* sizeof(vcpu_info_t) == 64 */
	};

	typedef unsigned long xen_callback_t;

	#define XEN_CALLBACK(__cs, __rip) \
	((unsigned long)(__rip))

	#endif /* !__ASSEMBLY__ */


	#endif /* _ASM_X86_XEN_INTERFACE_64_H */