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audk/MdeModulePkg/Universal/DebugSupportDxe/X64/AsmFuncs.S

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ArmAsm
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#/**@file
# Low leve x64 specific debug support functions.
#
# Copyright (c) 2006 - 2008, Intel Corporation
# All rights reserved. This program and the accompanying materials
# are licensed and made available under the terms and conditions of the BSD License
# which accompanies this distribution. The full text of the license may be found at
# http://opensource.org/licenses/bsd-license.php
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#
#**/
ASM_GLOBAL ASM_PFX(OrigVector)
ASM_GLOBAL ASM_PFX(InterruptEntryStub)
ASM_GLOBAL ASM_PFX(StubSize)
ASM_GLOBAL ASM_PFX(CommonIdtEntry)
ASM_GLOBAL ASM_PFX(FxStorSupport)
.data
ASM_PFX(StubSize): .long ASM_PFX(InterruptEntryStubEnd) - ASM_PFX(InterruptEntryStub)
ASM_PFX(AppRsp): .long 0x11111111 # ?
.long 0x11111111 # ?
ASM_PFX(DebugRsp): .long 0x22222222 # ?
.long 0x22222222 # ?
ASM_PFX(ExtraPush): .long 0x33333333 # ?
.long 0x33333333 # ?
ASM_PFX(ExceptData): .long 0x44444444 # ?
.long 0x44444444 # ?
ASM_PFX(Rflags): .long 0x55555555 # ?
.long 0x55555555 # ?
ASM_PFX(OrigVector): .long 0x66666666 # ?
.long 0x66666666 # ?
## The declarations below define the memory region that will be used for the debug stack.
## The context record will be built by pushing register values onto this stack.
## It is imparitive that alignment be carefully managed, since the FXSTOR and
## FXRSTOR instructions will GP fault if their memory operand is not 16 byte aligned.
##
## The stub will switch stacks from the application stack to the debuger stack
## and pushes the exception number.
##
## Then we building the context record on the stack. Since the stack grows down,
## we push the fields of the context record from the back to the front. There
## are 336 bytes of stack used prior allocating the 512 bytes of stack to be
## used as the memory buffer for the fxstor instruction. Therefore address of
## the buffer used for the FXSTOR instruction is &Eax - 336 - 512, which
## must be 16 byte aligned.
##
## We carefully locate the stack to make this happen.
##
## For reference, the context structure looks like this:
## struct {
## UINT64 ExceptionData;
## FX_SAVE_STATE_X64 FxSaveState; // 512 bytes, must be 16 byte aligned
## UINT64 Dr0, Dr1, Dr2, Dr3, Dr6, Dr7;
## UINT64 Cr0, Cr1, Cr2, Cr3, Cr4, Cr8;
## UINT64 RFlags;
## UINT64 Ldtr, Tr;
## UINT64 Gdtr[2], Idtr[2];
## UINT64 Rip;
## UINT64 Gs, Fs, Es, Ds, Cs, Ss;
## UINT64 Rdi, Rsi, Rbp, Rsp, Rbx, Rdx, Rcx, Rax;
## UINT64 R8, R9, R10, R11, R12, R13, R14, R15;
## } SYSTEM_CONTEXT_X64; // 64 bit system context record
.align 16
DebugStackEnd : .ascii "DbgStkEnd >>>>>>" # 16 byte long string - must be 16 bytes to preserve alignment
.rept 0x1ffc
.long 0x00000000
.endr
# 32K should be enough stack
# This allocation is coocked to insure
# that the the buffer for the FXSTORE instruction
# will be 16 byte aligned also.
#
ASM_PFX(ExceptionNumber): .long 0x77777777 # first entry will be the vector number pushed by the stub
.long 0x77777777 # ?
DebugStackBegin : .ascii "<<<< DbgStkBegin" # initial debug ESP == DebugStackBegin, set in stub
.text
#------------------------------------------------------------------------------
# BOOLEAN
# FxStorSupport (
# void
# )
#
# Abstract: Returns TRUE if FxStor instructions are supported
#
ASM_GLOBAL ASM_PFX(FxStorSupport)
ASM_PFX(FxStorSupport):
#
# cpuid corrupts rbx which must be preserved per the C calling convention
#
pushq %rbx
movq $1, %rax
cpuid
movl %edx, %eax
andq $0x01000000, %rax
shrq $24, %rax
popq %rbx
ret
#------------------------------------------------------------------------------
# void
# Vect2Desc (
# IA32_IDT_GATE_DESCRIPTOR * DestDesc, // rcx
# void (*Vector) (void) // rdx
# )
#
# Abstract: Encodes an IDT descriptor with the given physical address
#
ASM_GLOBAL ASM_PFX(Vect2Desc)
ASM_PFX(Vect2Desc):
movq %rdx, %rax
movw %ax, (%rcx) # write bits 15..0 of offset
movw %cs, %dx
movw %dx, 2(%rcx) # SYS_CODE_SEL from GDT
movw $(0x0e00 | 0x8000), 4(%rcx) # type = 386 interrupt gate, present
shrq $16, %rax
movw %ax, 6(%rcx) # write bits 31..16 of offset
shrq $16, %rax
movl %eax, 8(%rcx) # write bits 63..32 of offset
ret
#------------------------------------------------------------------------------
# InterruptEntryStub
#
# Abstract: This code is not a function, but is a small piece of code that is
# copied and fixed up once for each IDT entry that is hooked.
#
ASM_GLOBAL ASM_PFX(InterruptEntryStub)
ASM_PFX(InterruptEntryStub):
pushq $0 # push vector number - will be modified before installed
jmp ASM_PFX(CommonIdtEntry)
ASM_GLOBAL ASM_PFX(InterruptEntryStubEnd)
ASM_PFX(InterruptEntryStubEnd):
#------------------------------------------------------------------------------
# CommonIdtEntry
#
# Abstract: This code is not a function, but is the common part for all IDT
# vectors.
#
ASM_GLOBAL ASM_PFX(CommonIdtEntry)
##
## At this point, the stub has saved the current application stack esp into AppRsp
## and switched stacks to the debug stack, where it pushed the vector number
##
## The application stack looks like this:
##
## ...
## (last application stack entry)
## [16 bytes alignment, do not care it]
## SS from interrupted task
## RSP from interrupted task
## rflags from interrupted task
## CS from interrupted task
## RIP from interrupted task
## Error code <-------------------- Only present for some exeption types
##
## Vector Number <----------------- pushed in our IDT Entry
##
## The stub switched us to the debug stack and pushed the interrupt number.
##
## Next, construct the context record. It will be build on the debug stack by
## pushing the registers in the correct order so as to create the context structure
## on the debug stack. The context record must be built from the end back to the
## beginning because the stack grows down...
#
## For reference, the context record looks like this:
##
## typedef
## struct {
## UINT64 ExceptionData;
## FX_SAVE_STATE_X64 FxSaveState;
## UINT64 Dr0, Dr1, Dr2, Dr3, Dr6, Dr7;
## UINT64 Cr0, Cr2, Cr3, Cr4, Cr8;
## UINT64 RFlags;
## UINT64 Ldtr, Tr;
## UINT64 Gdtr[2], Idtr[2];
## UINT64 Rip;
## UINT64 Gs, Fs, Es, Ds, Cs, Ss;
## UINT64 Rdi, Rsi, Rbp, Rsp, Rbx, Rdx, Rcx, Rax;
## UINT64 R8, R9, R10, R11, R12, R13, R14, R15;
## } SYSTEM_CONTEXT_X64; // 64
ASM_PFX(CommonIdtEntry):
## NOTE: we save rsp here to prevent compiler put rip reference cause error AppRsp
pushq %rax
movq (8)(%rsp), %rax # save vector number
movq %rax, ASM_PFX(ExceptionNumber) # save vector number
popq %rax
addq $8, %rsp # pop vector number
movq %rsp, ASM_PFX(AppRsp) # save stack top
movq DebugStackBegin, %rsp # switch to debugger stack
subq $8, %rsp # leave space for vector number
## UINT64 Rdi, Rsi, Rbp, Rsp, Rbx, Rdx, Rcx, Rax;
## UINT64 R8, R9, R10, R11, R12, R13, R14, R15;
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %r11
pushq %r10
pushq %r9
pushq %r8
pushq %rax
pushq %rcx
pushq %rdx
pushq %rbx
pushq %rsp
pushq %rbp
pushq %rsi
pushq %rdi
## Save interrupt state rflags register...
pushfq
popq %rax
movq %rax, ASM_PFX(Rflags)
## We need to determine if any extra data was pushed by the exception, and if so, save it
## To do this, we check the exception number pushed by the stub, and cache the
## result in a variable since we'll need this again.
cmpl $0, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $10, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $11, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $12, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $13, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $14, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
cmpl $17, ASM_PFX(ExceptionNumber)
jz ExtraPushOne
movl $0, ASM_PFX(ExtraPush)
movl $0, ASM_PFX(ExceptData)
jmp ExtraPushDone
ExtraPushOne:
movl $1, ASM_PFX(ExtraPush)
## If there's some extra data, save it also, and modify the saved AppRsp to effectively
## pop this value off the application's stack.
movq ASM_PFX(AppRsp), %rax
movq (%rax), %rbx
movq %rbx, ASM_PFX(ExceptData)
addq $8, %rax
movq %rax, ASM_PFX(AppRsp)
ExtraPushDone:
## The "push" above pushed the debug stack rsp. Since what we're actually doing
## is building the context record on the debug stack, we need to save the pushed
## debug RSP, and replace it with the application's last stack entry...
movq 24(%rsp), %rax
movq %rax, ASM_PFX(DebugRsp)
movq ASM_PFX(AppRsp), %rax
addq $40, %rax
# application stack has ss, rsp, rflags, cs, & rip, so
# last actual application stack entry is 40 bytes
# into the application stack.
movq %rax, 24(%rsp)
## continue building context record
## UINT64 Gs, Fs, Es, Ds, Cs, Ss; insure high 16 bits of each is zero
movq %ss, %rax
pushq %rax
# CS from application is one entry back in application stack
movq ASM_PFX(AppRsp), %rax
movzxw 8(%rax), %rax
pushq %rax
movq %ds, %rax
pushq %rax
movq %es, %rax
pushq %rax
movq %fs, %rax
pushq %rax
movq %gs, %rax
pushq %rax
## UINT64 Rip;
# Rip from application is on top of application stack
movq ASM_PFX(AppRsp), %rax
pushq (%rax)
## UINT64 Gdtr[2], Idtr[2];
push $0
push $0
sidtq (%rsp)
push $0
push $0
sgdtq (%rsp)
## UINT64 Ldtr, Tr;
xorq %rax, %rax
str %ax
pushq %rax
sldt %ax
pushq %rax
## UINT64 RFlags;
## Rflags from application is two entries back in application stack
movq ASM_PFX(AppRsp), %rax
pushq 16(%rax)
## UINT64 Cr0, Cr1, Cr2, Cr3, Cr4, Cr8;
## insure FXSAVE/FXRSTOR is enabled in CR4...
## ... while we're at it, make sure DE is also enabled...
movq %cr8, %rax
pushq %rax
movq %cr4, %rax
orq $0x208, %rax
movq %rax, %cr4
pushq %rax
movq %cr3, %rax
pushq %rax
movq %cr2, %rax
pushq %rax
push $0
movq %cr0, %rax
pushq %rax
## UINT64 Dr0, Dr1, Dr2, Dr3, Dr6, Dr7;
movq %dr7, %rax
pushq %rax
## clear Dr7 while executing debugger itself
xorq %rax, %rax
movq %rax, %dr7
movq %dr6, %rax
pushq %rax
## insure all status bits in dr6 are clear...
xorq %rax, %rax
movq %rax, %dr6
movq %dr3, %rax
pushq %rax
movq %dr2, %rax
pushq %rax
movq %dr1, %rax
pushq %rax
movq %dr0, %rax
pushq %rax
## FX_SAVE_STATE_X64 FxSaveState;
subq $512, %rsp
movq %rsp, %rdi
# IMPORTANT!! The debug stack has been carefully constructed to
# insure that rsp and rdi are 16 byte aligned when we get here.
# They MUST be. If they are not, a GP fault will occur.
# FXSTOR_RDI
fxsave (%rdi)
## UINT64 ExceptionData;
movq ASM_PFX(ExceptData), %rax
pushq %rax
# call to C code which will in turn call registered handler
# pass in the vector number
movq %rsp, %rdx
movq ASM_PFX(ExceptionNumber), %rcx
subq $40, %rsp
call ASM_PFX(InterruptDistrubutionHub)
addq $40, %rsp
# restore context...
## UINT64 ExceptionData;
addq $8, %rsp
## FX_SAVE_STATE_X64 FxSaveState;
movq %rsp, %rsi
# FXRSTOR_RSI
fxrstor (%rsi)
addq $512, %rsp
## UINT64 Dr0, Dr1, Dr2, Dr3, Dr6, Dr7;
popq %rax
movq %rax, %dr0
popq %rax
movq %rax, %dr1
popq %rax
movq %rax, %dr2
popq %rax
movq %rax, %dr3
## skip restore of dr6. We cleared dr6 during the context save.
addq $8, %rsp
popq %rax
movq %rax, %dr7
## UINT64 Cr0, Cr1, Cr2, Cr3, Cr4, Cr8;
popq %rax
movq %rax, %cr0
addq $8, %rsp
popq %rax
movq %rax, %cr2
popq %rax
movq %rax, %cr3
popq %rax
movq %rax, %cr4
popq %rax
movq %rax, %cr8
## UINT64 RFlags;
movq ASM_PFX(AppRsp), %rax
popq 16(%rax)
## UINT64 Ldtr, Tr;
## UINT64 Gdtr[2], Idtr[2];
## Best not let anyone mess with these particular registers...
addq $48, %rsp
## UINT64 Rip;
popq (%rax)
## UINT64 Gs, Fs, Es, Ds, Cs, Ss;
## NOTE - modified segment registers could hang the debugger... We
## could attempt to insulate ourselves against this possibility,
## but that poses risks as well.
##
popq %rax
# movq %rax, %gs
popq %rax
# movq %rax, %fs
popq %rax
movq %rax, %es
popq %rax
movq %rax, %ds
movq ASM_PFX(AppRsp), %rax
popq 8(%rax)
popq %rax
movq %rax, %ss
## The next stuff to restore is the general purpose registers that were pushed
## using the "push" instruction.
##
## The value of RSP as stored in the context record is the application RSP
## including the 5 entries on the application stack caused by the exception
## itself. It may have been modified by the debug agent, so we need to
## determine if we need to relocate the application stack.
movq 24(%rsp), %rbx # move the potentially modified AppRsp into rbx
movq ASM_PFX(AppRsp), %rax
addq $40, %rax
cmpq %rax, %rbx
je NoAppStackMove
movq ASM_PFX(AppRsp), %rax
movq (%rax), %rcx # RIP
movq %rcx, (%rbx)
movq 8(%rax), %rcx # CS
movq %rcx, 8(%rbx)
movq 16(%rax), %rcx # RFLAGS
movq %rcx, 16(%rbx)
movq 24(%rax), %rcx # RSP
movq %rcx, 24(%rbx)
movq 32(%rax), %rcx # SS
movq %rcx, 32(%rbx)
movq %rbx, %rax # modify the saved AppRsp to the new AppRsp
movq %rax, ASM_PFX(AppRsp)
NoAppStackMove:
movq ASM_PFX(DebugRsp), %rax # restore the DebugRsp on the debug stack
# so our "pop" will not cause a stack switch
movq %rax, 24(%rsp)
cmpl $0x068, ASM_PFX(ExceptionNumber)
jne NoChain
Chain:
## Restore rflags so when we chain, the flags will be exactly as if we were never here.
## We gin up the stack to do an iretq so we can get ALL the flags.
movq ASM_PFX(AppRsp), %rax
movq 40(%rax), %rbx
pushq %rbx
movq %ss, %rax
pushq %rax
movq %rsp, %rax
addq $16, %rax
pushq %rax
movq ASM_PFX(AppRsp), %rax
movq 16(%rax), %rbx
andq $0xfffffffffffffcff, %rbx # special handling for IF and TF
pushq %rbx
movq %cs, %rax
pushq %rax
movq PhonyIretq, %rax
pushq %rax
iretq
PhonyIretq:
## UINT64 Rdi, Rsi, Rbp, Rsp, Rbx, Rdx, Rcx, Rax;
## UINT64 R8, R9, R10, R11, R12, R13, R14, R15;
popq %rdi
popq %rsi
popq %rbp
popq %rsp
popq %rbx
popq %rdx
popq %rcx
popq %rax
popq %r8
popq %r9
popq %r10
popq %r11
popq %r12
popq %r13
popq %r14
popq %r15
## Switch back to application stack
movq ASM_PFX(AppRsp), %rsp
## Jump to original handler
jmp ASM_PFX(OrigVector)
NoChain:
## UINT64 Rdi, Rsi, Rbp, Rsp, Rbx, Rdx, Rcx, Rax;
## UINT64 R8, R9, R10, R11, R12, R13, R14, R15;
popq %rdi
popq %rsi
popq %rbp
popq %rsp
popq %rbx
popq %rdx
popq %rcx
popq %rax
popq %r8
popq %r9
popq %r10
popq %r11
popq %r12
popq %r13
popq %r14
popq %r15
## Switch back to application stack
movq ASM_PFX(AppRsp), %rsp
## We're outa here...
iret
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