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/*
* Hypercall and fault low-level handling routines.
*
* Copyright (c) 2005, K A Fraser
*/
#include <xen/config.h>
#include <xen/errno.h>
#include <xen/softirq.h>
#include <asm/asm_defns.h>
#include <asm/apicdef.h>
#include <asm/page.h>
#include <public/xen.h>
#define GET_CURRENT(reg) \
movq $STACK_SIZE-8, reg; \
orq %rsp, reg; \
andq $~7,reg; \
movq (reg),reg;
ALIGN
/* %rbx: struct vcpu, interrupts disabled */
switch_to_kernel:
leaq VCPU_trap_bounce(%rbx),%rdx
movq VCPU_syscall_addr(%rbx),%rax
movq %rax,TRAPBOUNCE_eip(%rdx)
movw $0,TRAPBOUNCE_flags(%rdx)
call create_bounce_frame
/* %rbx: struct vcpu */
restore_all_guest:
RESTORE_ALL
testw $TRAP_syscall,4(%rsp)
jz iret_exit_to_guest
addq $8,%rsp
popq %rcx # RIP
popq %r11 # CS
cmpw $__GUEST_CS32,%r11
popq %r11 # RFLAGS
cli # No interrupts after stack switch
popq %rsp # RSP
je 1f
sysretq
1: sysretl
ALIGN
/* No special register assumptions. */
iret_exit_to_guest:
addq $8,%rsp
FLT1: iretq
.section .fixup,"ax"
FIX1: popq -15*8-8(%rsp) # error_code/entry_vector
SAVE_ALL # 15*8 bytes pushed
movq -8(%rsp),%rsi # error_code/entry_vector
sti # after stack abuse (-1024(%rsp))
pushq $__HYPERVISOR_DS # SS
leaq 8(%rsp),%rax
pushq %rax # RSP
pushf # RFLAGS
pushq $__HYPERVISOR_CS # CS
leaq DBLFLT1(%rip),%rax
pushq %rax # RIP
pushq %rsi # error_code/entry_vector
jmp error_code
DBLFLT1:GET_CURRENT(%rbx)
jmp test_all_events
failsafe_callback:
GET_CURRENT(%rbx)
leaq VCPU_trap_bounce(%rbx),%rdx
movq VCPU_failsafe_addr(%rbx),%rax
movq %rax,TRAPBOUNCE_eip(%rdx)
movw $TBF_FAILSAFE,TRAPBOUNCE_flags(%rdx)
call create_bounce_frame
jmp test_all_events
.previous
.section __pre_ex_table,"a"
.quad FLT1,FIX1
.previous
.section __ex_table,"a"
.quad DBLFLT1,failsafe_callback
.previous
ALIGN
/* No special register assumptions. */
restore_all_xen:
RESTORE_ALL
addq $8,%rsp
iretq
/*
* When entering SYSCALL from kernel mode:
* %rax = hypercall vector
* %rdi, %rsi, %rdx, %r10, %r8, %9 = hypercall arguments
* %r11, %rcx = SYSCALL-saved %rflags and %rip
* NB. We must move %r10 to %rcx for C function-calling ABI.
*
* When entering SYSCALL from user mode:
* Vector directly to the registered arch.syscall_addr.
*
* Initial work is done by per-CPU stack trampolines. At this point %rsp
* has been initialised to point at the correct Xen stack, and %rsp, %rflags
* and %cs have been saved. All other registers are still to be saved onto
* the stack, starting with %rip, and an appropriate %ss must be saved into
* the space left by the trampoline.
*/
ALIGN
ENTRY(syscall_enter)
movl $__GUEST_SS,24(%rsp)
pushq %rcx
pushq $0
movl $TRAP_syscall,4(%rsp)
SAVE_ALL
GET_CURRENT(%rbx)
testb $TF_kernel_mode,VCPU_thread_flags(%rbx)
jz switch_to_kernel
/*hypercall:*/
sti
movq %r10,%rcx
andq $(NR_hypercalls-1),%rax
leaq hypercall_table(%rip),%r10
PERFC_INCR(PERFC_hypercalls, %rax)
callq *(%r10,%rax,8)
movq %rax,UREGS_rax(%rsp) # save the return value
/* %rbx: struct vcpu */
test_all_events:
cli # tests must not race interrupts
/*test_softirqs:*/
movl VCPU_processor(%rbx),%eax
shl $IRQSTAT_shift,%rax
leaq irq_stat(%rip),%rcx
testl $~0,(%rcx,%rax,1)
jnz process_softirqs
/*test_guest_events:*/
movq VCPU_vcpu_info(%rbx),%rax
testb $0xFF,VCPUINFO_upcall_mask(%rax)
jnz restore_all_guest
testb $0xFF,VCPUINFO_upcall_pending(%rax)
jz restore_all_guest
/*process_guest_events:*/
sti
leaq VCPU_trap_bounce(%rbx),%rdx
movq VCPU_event_addr(%rbx),%rax
movq %rax,TRAPBOUNCE_eip(%rdx)
movw $TBF_INTERRUPT,TRAPBOUNCE_flags(%rdx)
call create_bounce_frame
jmp test_all_events
#ifdef CONFIG_VMX
/*
* At VMExit time the processor saves the guest selectors, rsp, rip,
* and rflags. Therefore we don't save them, but simply decrement
* the kernel stack pointer to make it consistent with the stack frame
* at usual interruption time. The rflags of the host is not saved by VMX,
* and we set it to the fixed value.
*
* We also need the room, especially because orig_eax field is used
* by do_IRQ(). Compared the cpu_user_regs, we skip pushing for the following:
* (10) u64 gs;
* (9) u64 fs;
* (8) u64 ds;
* (7) u64 es;
* <- get_stack_bottom() (= HOST_ESP)
* (6) u64 ss;
* (5) u64 rsp;
* (4) u64 rflags;
* (3) u64 cs;
* (2) u64 rip;
* (2/1) u32 entry_vector;
* (1/1) u32 error_code;
*/
#define VMX_MONITOR_RFLAGS 0x202 /* IF on */
#define NR_SKIPPED_REGS 6 /* See the above explanation */
#define VMX_SAVE_ALL_NOSEGREGS \
pushq $VMX_MONITOR_RFLAGS; \
popfq; \
subq $(NR_SKIPPED_REGS*8), %rsp; \
pushq %rdi; \
pushq %rsi; \
pushq %rdx; \
pushq %rcx; \
pushq %rax; \
pushq %r8; \
pushq %r9; \
pushq %r10; \
pushq %r11; \
pushq %rbx; \
pushq %rbp; \
pushq %r12; \
pushq %r13; \
pushq %r14; \
pushq %r15; \
ENTRY(vmx_asm_vmexit_handler)
/* selectors are restored/saved by VMX */
VMX_SAVE_ALL_NOSEGREGS
call vmx_vmexit_handler
jmp vmx_asm_do_resume
ENTRY(vmx_asm_do_launch)
popq %r15
popq %r14
popq %r13
popq %r12
popq %rbp
popq %rbx
popq %r11
popq %r10
popq %r9
popq %r8
popq %rax
popq %rcx
popq %rdx
popq %rsi
popq %rdi
addq $(NR_SKIPPED_REGS*8), %rsp
/* VMLUANCH */
.byte 0x0f,0x01,0xc2
pushfq
call vm_launch_fail
hlt
ALIGN
ENTRY(vmx_asm_do_resume)
vmx_test_all_events:
GET_CURRENT(%rbx)
/* test_all_events: */
cli # tests must not race interrupts
/*test_softirqs:*/
movl VCPU_processor(%rbx),%eax
shl $IRQSTAT_shift,%rax
leaq irq_stat(%rip), %rdx
testl $~0,(%rdx,%rax,1)
jnz vmx_process_softirqs
vmx_restore_all_guest:
call load_cr2
/*
* Check if we are going back to VMX-based VM
* By this time, all the setups in the VMCS must be complete.
*/
popq %r15
popq %r14
popq %r13
popq %r12
popq %rbp
popq %rbx
popq %r11
popq %r10
popq %r9
popq %r8
popq %rax
popq %rcx
popq %rdx
popq %rsi
popq %rdi
addq $(NR_SKIPPED_REGS*8), %rsp
/* VMRESUME */
.byte 0x0f,0x01,0xc3
pushfq
call vm_resume_fail
/* Should never reach here */
hlt
ALIGN
vmx_process_softirqs:
sti
call do_softirq
jmp vmx_test_all_events
#endif
ALIGN
/* %rbx: struct vcpu */
process_softirqs:
sti
call do_softirq
jmp test_all_events
/* CREATE A BASIC EXCEPTION FRAME ON GUEST OS STACK: */
/* { RCX, R11, [DS-GS,] [CR2,] [ERRCODE,] RIP, CS, RFLAGS, RSP, SS } */
/* %rdx: trap_bounce, %rbx: struct vcpu */
/* On return only %rbx is guaranteed non-clobbered. */
create_bounce_frame:
testb $TF_kernel_mode,VCPU_thread_flags(%rbx)
jnz 1f
/* Push new frame at registered guest-OS stack base. */
pushq %rdx
movq %rbx,%rdi
call toggle_guest_mode
popq %rdx
movq VCPU_kernel_sp(%rbx),%rsi
jmp 2f
1: /* In kernel context already: push new frame at existing %rsp. */
movq UREGS_rsp+8(%rsp),%rsi
andb $0xfc,UREGS_cs+8(%rsp) # Indicate kernel context to guest.
2: movq $HYPERVISOR_VIRT_START,%rax
cmpq %rax,%rsi
jb 1f # In +ve address space? Then okay.
movq $HYPERVISOR_VIRT_END+60,%rax
cmpq %rax,%rsi
jb domain_crash_synchronous # Above Xen private area? Then okay.
1: movb TRAPBOUNCE_flags(%rdx),%cl
subq $40,%rsi
movq UREGS_ss+8(%rsp),%rax
FLT2: movq %rax,32(%rsi) # SS
movq UREGS_rsp+8(%rsp),%rax
FLT3: movq %rax,24(%rsi) # RSP
movq UREGS_eflags+8(%rsp),%rax
FLT4: movq %rax,16(%rsi) # RFLAGS
movq VCPU_vcpu_info(%rbx),%rax
pushq VCPUINFO_upcall_mask(%rax)
testb $TBF_INTERRUPT,%cl
setnz VCPUINFO_upcall_mask(%rax)# TBF_INTERRUPT -> clear upcall mask
popq %rax
shll $16,%eax # Bits 16-23: saved_upcall_mask
movw UREGS_cs+8(%rsp),%ax # Bits 0-15: CS
FLT5: movq %rax,8(%rsi) # CS/saved_upcall_mask
movq UREGS_rip+8(%rsp),%rax
testq %rax,%rax
jz domain_crash_synchronous
FLT6: movq %rax,(%rsi) # RIP
testb $TBF_EXCEPTION_ERRCODE,%cl
jz 1f
subq $8,%rsi
movl TRAPBOUNCE_error_code(%rdx),%eax
FLT7: movq %rax,(%rsi) # ERROR CODE
testb $TBF_EXCEPTION_CR2,%cl
jz 2f
subq $8,%rsi
movq TRAPBOUNCE_cr2(%rdx),%rax
FLT8: movq %rax,(%rsi) # CR2
1: testb $TBF_FAILSAFE,%cl
jz 2f
subq $32,%rsi
movl %gs,%eax
FLT9: movq %rax,24(%rsi) # GS
movl %fs,%eax
FLT10: movq %rax,16(%rsi) # FS
movl %es,%eax
FLT11: movq %rax,8(%rsi) # ES
movl %ds,%eax
FLT12: movq %rax,(%rsi) # DS
2: subq $16,%rsi
movq UREGS_r11+8(%rsp),%rax
FLT13: movq %rax,8(%rsi) # R11
movq UREGS_rcx+8(%rsp),%rax
FLT14: movq %rax,(%rsi) # RCX
/* Rewrite our stack frame and return to guest-OS mode. */
/* IA32 Ref. Vol. 3: TF, VM, RF and NT flags are cleared on trap. */
movq $TRAP_syscall,UREGS_entry_vector+8(%rsp)
andl $0xfffcbeff,UREGS_eflags+8(%rsp)
movq $__GUEST_SS,UREGS_ss+8(%rsp)
movq %rsi,UREGS_rsp+8(%rsp)
movq $__GUEST_CS,UREGS_cs+8(%rsp)
movq TRAPBOUNCE_eip(%rdx),%rax
movq %rax,UREGS_rip+8(%rsp)
movb $0,TRAPBOUNCE_flags(%rdx)
ret
.section __ex_table,"a"
.quad FLT2,domain_crash_synchronous , FLT3,domain_crash_synchronous
.quad FLT4,domain_crash_synchronous , FLT5,domain_crash_synchronous
.quad FLT6,domain_crash_synchronous , FLT7,domain_crash_synchronous
.quad FLT8,domain_crash_synchronous , FLT9,domain_crash_synchronous
.quad FLT10,domain_crash_synchronous , FLT11,domain_crash_synchronous
.quad FLT12,domain_crash_synchronous , FLT13,domain_crash_synchronous
.quad FLT14,domain_crash_synchronous
.previous
ALIGN
/* %rbx: struct vcpu */
process_guest_exception_and_events:
leaq VCPU_trap_bounce(%rbx),%rdx
testb $TBF_EXCEPTION,TRAPBOUNCE_flags(%rdx)
jz test_all_events
call create_bounce_frame
jmp test_all_events
ALIGN
/* No special register assumptions. */
ENTRY(ret_from_intr)
GET_CURRENT(%rbx)
testb $3,UREGS_cs(%rsp)
jnz test_all_events
jmp restore_all_xen
ALIGN
/* No special register assumptions. */
error_code:
SAVE_ALL
testb $X86_EFLAGS_IF>>8,UREGS_eflags+1(%rsp)
jz exception_with_ints_disabled
sti
movq %rsp,%rdi
movl UREGS_entry_vector(%rsp),%eax
leaq exception_table(%rip),%rdx
GET_CURRENT(%rbx)
PERFC_INCR(PERFC_exceptions, %rax)
callq *(%rdx,%rax,8)
testb $3,UREGS_cs(%rsp)
jz restore_all_xen
jmp process_guest_exception_and_events
/* No special register assumptions. */
exception_with_ints_disabled:
testb $3,UREGS_cs(%rsp) # interrupts disabled outside Xen?
jnz FATAL_exception_with_ints_disabled
movq %rsp,%rdi
call search_pre_exception_table
testq %rax,%rax # no fixup code for faulting EIP?
jz FATAL_exception_with_ints_disabled
movq %rax,UREGS_rip(%rsp)
subq $8,UREGS_rsp(%rsp) # add ec/ev to previous stack frame
testb $15,UREGS_rsp(%rsp) # return %rsp is now aligned?
jz 1f # then there is a pad quadword already
movq %rsp,%rsi
subq $8,%rsp
movq %rsp,%rdi
movq $UREGS_kernel_sizeof/8,%rcx
rep; movsq # make room for ec/ev
1: movq UREGS_error_code(%rsp),%rax # ec/ev
movq %rax,UREGS_kernel_sizeof(%rsp)
jmp restore_all_xen # return to fixup code
/* No special register assumptions. */
FATAL_exception_with_ints_disabled:
movl UREGS_entry_vector(%rsp),%edi
movq %rsp,%rsi
call fatal_trap
ud2
ENTRY(divide_error)
pushq $0
movl $TRAP_divide_error,4(%rsp)
jmp error_code
ENTRY(coprocessor_error)
pushq $0
movl $TRAP_copro_error,4(%rsp)
jmp error_code
ENTRY(simd_coprocessor_error)
pushq $0
movl $TRAP_simd_error,4(%rsp)
jmp error_code
ENTRY(device_not_available)
pushq $0
movl $TRAP_no_device,4(%rsp)
jmp error_code
ENTRY(debug)
pushq $0
movl $TRAP_debug,4(%rsp)
jmp error_code
ENTRY(int3)
pushq $0
movl $TRAP_int3,4(%rsp)
jmp error_code
ENTRY(overflow)
pushq $0
movl $TRAP_overflow,4(%rsp)
jmp error_code
ENTRY(bounds)
pushq $0
movl $TRAP_bounds,4(%rsp)
jmp error_code
ENTRY(invalid_op)
pushq $0
movl $TRAP_invalid_op,4(%rsp)
jmp error_code
ENTRY(coprocessor_segment_overrun)
pushq $0
movl $TRAP_copro_seg,4(%rsp)
jmp error_code
ENTRY(invalid_TSS)
movl $TRAP_invalid_tss,4(%rsp)
jmp error_code
ENTRY(segment_not_present)
movl $TRAP_no_segment,4(%rsp)
jmp error_code
ENTRY(stack_segment)
movl $TRAP_stack_error,4(%rsp)
jmp error_code
ENTRY(general_protection)
movl $TRAP_gp_fault,4(%rsp)
jmp error_code
ENTRY(alignment_check)
movl $TRAP_alignment_check,4(%rsp)
jmp error_code
ENTRY(page_fault)
movl $TRAP_page_fault,4(%rsp)
jmp error_code
ENTRY(machine_check)
pushq $0
movl $TRAP_machine_check,4(%rsp)
jmp error_code
ENTRY(spurious_interrupt_bug)
pushq $0
movl $TRAP_spurious_int,4(%rsp)
jmp error_code
ENTRY(double_fault)
movl $TRAP_double_fault,4(%rsp)
jmp error_code
ENTRY(nmi)
pushq $0
SAVE_ALL
inb $0x61,%al
movl %eax,%esi # reason
movq %rsp,%rdi # regs
call do_nmi
jmp restore_all_xen
do_arch_sched_op:
# Ensure we return success even if we return via schedule_tail()
xorl %eax,%eax
movq %rax,UREGS_rax+8(%rsp)
jmp do_sched_op
.data
ENTRY(exception_table)
.quad do_divide_error
.quad do_debug
.quad 0 # nmi
.quad do_int3
.quad do_overflow
.quad do_bounds
.quad do_invalid_op
.quad math_state_restore
.quad do_double_fault
.quad do_coprocessor_segment_overrun
.quad do_invalid_TSS
.quad do_segment_not_present
.quad do_stack_segment
.quad do_general_protection
.quad do_page_fault
.quad do_spurious_interrupt_bug
.quad do_coprocessor_error
.quad do_alignment_check
.quad do_machine_check
.quad do_simd_coprocessor_error
ENTRY(hypercall_table)
.quad do_set_trap_table /* 0 */
.quad do_mmu_update
.quad do_set_gdt
.quad do_stack_switch
.quad do_set_callbacks
.quad do_fpu_taskswitch /* 5 */
.quad do_arch_sched_op
.quad do_dom0_op
.quad do_set_debugreg
.quad do_get_debugreg
.quad do_update_descriptor /* 10 */
.quad do_ni_hypercall
.quad do_dom_mem_op
.quad do_multicall
.quad do_update_va_mapping
.quad do_set_timer_op /* 15 */
.quad do_event_channel_op
.quad do_xen_version
.quad do_console_io
.quad do_physdev_op
.quad do_grant_table_op /* 20 */
.quad do_vm_assist
.quad do_update_va_mapping_otherdomain
.quad do_switch_to_user
.quad do_boot_vcpu
.quad do_set_segment_base /* 25 */
.quad do_mmuext_op
.rept NR_hypercalls-((.-hypercall_table)/4)
.quad do_ni_hypercall
.endr
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