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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
#include "go_asm.h"
#include "go_tls.h"
#include "textflag.h"
// void runtime·asmstdcall(void *c);
TEXT runtime·asmstdcall(SB),NOSPLIT,$0
MOVL fn+0(FP), BX
// SetLastError(0).
MOVL $0, 0x34(FS)
// Copy args to the stack.
MOVL SP, BP
MOVL libcall_n(BX), CX // words
MOVL CX, AX
SALL $2, AX
SUBL AX, SP // room for args
MOVL SP, DI
MOVL libcall_args(BX), SI
CLD
REP; MOVSL
// Call stdcall or cdecl function.
// DI SI BP BX are preserved, SP is not
CALL libcall_fn(BX)
MOVL BP, SP
// Return result.
MOVL fn+0(FP), BX
MOVL AX, libcall_r1(BX)
MOVL DX, libcall_r2(BX)
// GetLastError().
MOVL 0x34(FS), AX
MOVL AX, libcall_err(BX)
RET
TEXT runtime·badsignal2(SB),NOSPLIT,$24
// stderr
MOVL $-12, 0(SP)
MOVL SP, BP
CALL *runtime·_GetStdHandle(SB)
MOVL BP, SP
MOVL AX, 0(SP) // handle
MOVL $runtime·badsignalmsg(SB), DX // pointer
MOVL DX, 4(SP)
MOVL runtime·badsignallen(SB), DX // count
MOVL DX, 8(SP)
LEAL 20(SP), DX // written count
MOVL $0, 0(DX)
MOVL DX, 12(SP)
MOVL $0, 16(SP) // overlapped
CALL *runtime·_WriteFile(SB)
MOVL BP, SI
RET
// faster get/set last error
TEXT runtime·getlasterror(SB),NOSPLIT,$0
MOVL 0x34(FS), AX
MOVL AX, ret+0(FP)
RET
TEXT runtime·setlasterror(SB),NOSPLIT,$0
MOVL err+0(FP), AX
MOVL AX, 0x34(FS)
RET
// Called by Windows as a Vectored Exception Handler (VEH).
// First argument is pointer to struct containing
// exception record and context pointers.
// Handler function is stored in AX.
// Return 0 for 'not handled', -1 for handled.
TEXT runtime·sigtramp(SB),NOSPLIT,$0-0
MOVL ptrs+0(FP), CX
SUBL $40, SP
// save callee-saved registers
MOVL BX, 28(SP)
MOVL BP, 16(SP)
MOVL SI, 20(SP)
MOVL DI, 24(SP)
MOVL AX, SI // save handler address
// find g
get_tls(DX)
CMPL DX, $0
JNE 3(PC)
MOVL $0, AX // continue
JMP done
MOVL g(DX), DX
CMPL DX, $0
JNE 2(PC)
CALL runtime·badsignal2(SB)
// save g and SP in case of stack switch
MOVL DX, 32(SP) // g
MOVL SP, 36(SP)
// do we need to switch to the g0 stack?
MOVL g_m(DX), BX
MOVL m_g0(BX), BX
CMPL DX, BX
JEQ g0
// switch to the g0 stack
get_tls(BP)
MOVL BX, g(BP)
MOVL (g_sched+gobuf_sp)(BX), DI
// make it look like mstart called us on g0, to stop traceback
SUBL $4, DI
MOVL $runtime·mstart(SB), 0(DI)
// traceback will think that we've done SUBL
// on this stack, so subtract them here to match.
// (we need room for sighandler arguments anyway).
// and re-save old SP for restoring later.
SUBL $40, DI
MOVL SP, 36(DI)
MOVL DI, SP
g0:
MOVL 0(CX), BX // ExceptionRecord*
MOVL 4(CX), CX // Context*
MOVL BX, 0(SP)
MOVL CX, 4(SP)
MOVL DX, 8(SP)
CALL SI // call handler
// AX is set to report result back to Windows
MOVL 12(SP), AX
// switch back to original stack and g
// no-op if we never left.
MOVL 36(SP), SP
MOVL 32(SP), DX
get_tls(BP)
MOVL DX, g(BP)
done:
// restore callee-saved registers
MOVL 24(SP), DI
MOVL 20(SP), SI
MOVL 16(SP), BP
MOVL 28(SP), BX
ADDL $40, SP
// RET 4 (return and pop 4 bytes parameters)
BYTE $0xC2; WORD $4
RET // unreached; make assembler happy
TEXT runtime·exceptiontramp(SB),NOSPLIT,$0
MOVL $runtime·exceptionhandler(SB), AX
JMP runtime·sigtramp(SB)
TEXT runtime·firstcontinuetramp(SB),NOSPLIT,$0-0
// is never called
INT $3
TEXT runtime·lastcontinuetramp(SB),NOSPLIT,$0-0
MOVL $runtime·lastcontinuehandler(SB), AX
JMP runtime·sigtramp(SB)
TEXT runtime·ctrlhandler(SB),NOSPLIT,$0
PUSHL $runtime·ctrlhandler1(SB)
CALL runtime·externalthreadhandler(SB)
MOVL 4(SP), CX
ADDL $12, SP
JMP CX
TEXT runtime·profileloop(SB),NOSPLIT,$0
PUSHL $runtime·profileloop1(SB)
CALL runtime·externalthreadhandler(SB)
MOVL 4(SP), CX
ADDL $12, SP
JMP CX
TEXT runtime·externalthreadhandler(SB),NOSPLIT,$0
PUSHL BP
MOVL SP, BP
PUSHL BX
PUSHL SI
PUSHL DI
PUSHL 0x14(FS)
MOVL SP, DX
// setup dummy m, g
SUBL $m__size, SP // space for M
MOVL SP, 0(SP)
MOVL $m__size, 4(SP)
CALL runtime·memclrNoHeapPointers(SB) // smashes AX,BX,CX
LEAL m_tls(SP), CX
MOVL CX, 0x14(FS)
MOVL SP, BX
SUBL $g__size, SP // space for G
MOVL SP, g(CX)
MOVL SP, m_g0(BX)
MOVL SP, 0(SP)
MOVL $g__size, 4(SP)
CALL runtime·memclrNoHeapPointers(SB) // smashes AX,BX,CX
LEAL g__size(SP), BX
MOVL BX, g_m(SP)
LEAL -32768(SP), CX // must be less than SizeOfStackReserve set by linker
MOVL CX, (g_stack+stack_lo)(SP)
ADDL $const__StackGuard, CX
MOVL CX, g_stackguard0(SP)
MOVL CX, g_stackguard1(SP)
MOVL DX, (g_stack+stack_hi)(SP)
PUSHL AX // room for return value
PUSHL 16(BP) // arg for handler
CALL 8(BP)
POPL CX
POPL AX // pass return value to Windows in AX
get_tls(CX)
MOVL g(CX), CX
MOVL (g_stack+stack_hi)(CX), SP
POPL 0x14(FS)
POPL DI
POPL SI
POPL BX
POPL BP
RET
GLOBL runtime·cbctxts(SB), NOPTR, $4
TEXT runtime·callbackasm1+0(SB),NOSPLIT,$0
MOVL 0(SP), AX // will use to find our callback context
// remove return address from stack, we are not returning there
ADDL $4, SP
// address to callback parameters into CX
LEAL 4(SP), CX
// save registers as required for windows callback
PUSHL DI
PUSHL SI
PUSHL BP
PUSHL BX
// determine index into runtime·cbctxts table
SUBL $runtime·callbackasm(SB), AX
MOVL $0, DX
MOVL $5, BX // divide by 5 because each call instruction in runtime·callbacks is 5 bytes long
DIVL BX
// find correspondent runtime·cbctxts table entry
MOVL runtime·cbctxts(SB), BX
MOVL -4(BX)(AX*4), BX
// extract callback context
MOVL wincallbackcontext_gobody(BX), AX
MOVL wincallbackcontext_argsize(BX), DX
// preserve whatever's at the memory location that
// the callback will use to store the return value
PUSHL 0(CX)(DX*1)
// extend argsize by size of return value
ADDL $4, DX
// remember how to restore stack on return
MOVL wincallbackcontext_restorestack(BX), BX
PUSHL BX
// call target Go function
PUSHL DX // argsize (including return value)
PUSHL CX // callback parameters
PUSHL AX // address of target Go function
CLD
CALL runtime·cgocallback_gofunc(SB)
POPL AX
POPL CX
POPL DX
// how to restore stack on return
POPL BX
// return value into AX (as per Windows spec)
// and restore previously preserved value
MOVL -4(CX)(DX*1), AX
POPL -4(CX)(DX*1)
MOVL BX, CX // cannot use BX anymore
// restore registers as required for windows callback
POPL BX
POPL BP
POPL SI
POPL DI
// remove callback parameters before return (as per Windows spec)
POPL DX
ADDL CX, SP
PUSHL DX
CLD
RET
// void tstart(M *newm);
TEXT runtime·tstart(SB),NOSPLIT,$0
MOVL newm+0(FP), CX // m
MOVL m_g0(CX), DX // g
// Layout new m scheduler stack on os stack.
MOVL SP, AX
MOVL AX, (g_stack+stack_hi)(DX)
SUBL $(64*1024), AX // stack size
MOVL AX, (g_stack+stack_lo)(DX)
ADDL $const__StackGuard, AX
MOVL AX, g_stackguard0(DX)
MOVL AX, g_stackguard1(DX)
// Set up tls.
LEAL m_tls(CX), SI
MOVL SI, 0x14(FS)
MOVL CX, g_m(DX)
MOVL DX, g(SI)
// Someday the convention will be D is always cleared.
CLD
CALL runtime·stackcheck(SB) // clobbers AX,CX
CALL runtime·mstart(SB)
RET
// uint32 tstart_stdcall(M *newm);
TEXT runtime·tstart_stdcall(SB),NOSPLIT,$0
MOVL newm+0(FP), BX
PUSHL BX
CALL runtime·tstart(SB)
POPL BX
// Adjust stack for stdcall to return properly.
MOVL (SP), AX // save return address
ADDL $4, SP // remove single parameter
MOVL AX, (SP) // restore return address
XORL AX, AX // return 0 == success
RET
// setldt(int entry, int address, int limit)
TEXT runtime·setldt(SB),NOSPLIT,$0
MOVL address+4(FP), CX
MOVL CX, 0x14(FS)
RET
// onosstack calls fn on OS stack.
// func onosstack(fn unsafe.Pointer, arg uint32)
TEXT runtime·onosstack(SB),NOSPLIT,$0
MOVL fn+0(FP), AX // to hide from 8l
MOVL arg+4(FP), BX
// Execute call on m->g0 stack, in case we are not actually
// calling a system call wrapper, like when running under WINE.
get_tls(CX)
CMPL CX, $0
JNE 3(PC)
// Not a Go-managed thread. Do not switch stack.
CALL AX
RET
MOVL g(CX), BP
MOVL g_m(BP), BP
// leave pc/sp for cpu profiler
MOVL (SP), SI
MOVL SI, m_libcallpc(BP)
MOVL g(CX), SI
MOVL SI, m_libcallg(BP)
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
LEAL usec+0(FP), SI
MOVL SI, m_libcallsp(BP)
MOVL m_g0(BP), SI
CMPL g(CX), SI
JNE switch
// executing on m->g0 already
CALL AX
JMP ret
switch:
// Switch to m->g0 stack and back.
MOVL (g_sched+gobuf_sp)(SI), SI
MOVL SP, -4(SI)
LEAL -4(SI), SP
CALL AX
MOVL 0(SP), SP
ret:
get_tls(CX)
MOVL g(CX), BP
MOVL g_m(BP), BP
MOVL $0, m_libcallsp(BP)
RET
// Runs on OS stack. duration (in 100ns units) is in BX.
TEXT runtime·usleep2(SB),NOSPLIT,$20
// Want negative 100ns units.
NEGL BX
MOVL $-1, hi-4(SP)
MOVL BX, lo-8(SP)
LEAL lo-8(SP), BX
MOVL BX, ptime-12(SP)
MOVL $0, alertable-16(SP)
MOVL $-1, handle-20(SP)
MOVL SP, BP
MOVL runtime·_NtWaitForSingleObject(SB), AX
CALL AX
MOVL BP, SP
RET
// Runs on OS stack.
TEXT runtime·switchtothread(SB),NOSPLIT,$0
MOVL SP, BP
MOVL runtime·_SwitchToThread(SB), AX
CALL AX
MOVL BP, SP
RET
// See http://www.dcl.hpi.uni-potsdam.de/research/WRK/2007/08/getting-os-information-the-kuser_shared_data-structure/
// Must read hi1, then lo, then hi2. The snapshot is valid if hi1 == hi2.
#define _INTERRUPT_TIME 0x7ffe0008
#define _SYSTEM_TIME 0x7ffe0014
#define time_lo 0
#define time_hi1 4
#define time_hi2 8
TEXT runtime·nanotime(SB),NOSPLIT,$0-8
CMPB runtime·useQPCTime(SB), $0
JNE useQPC
loop:
MOVL (_INTERRUPT_TIME+time_hi1), AX
MOVL (_INTERRUPT_TIME+time_lo), CX
MOVL (_INTERRUPT_TIME+time_hi2), DI
CMPL AX, DI
JNE loop
// wintime = DI:CX, multiply by 100
MOVL $100, AX
MULL CX
IMULL $100, DI
ADDL DI, DX
// wintime*100 = DX:AX, subtract startNano and return
SUBL runtime·startNano+0(SB), AX
SBBL runtime·startNano+4(SB), DX
MOVL AX, ret_lo+0(FP)
MOVL DX, ret_hi+4(FP)
RET
useQPC:
JMP runtime·nanotimeQPC(SB)
RET
TEXT time·now(SB),NOSPLIT,$0-20
CMPB runtime·useQPCTime(SB), $0
JNE useQPC
loop:
MOVL (_INTERRUPT_TIME+time_hi1), AX
MOVL (_INTERRUPT_TIME+time_lo), CX
MOVL (_INTERRUPT_TIME+time_hi2), DI
CMPL AX, DI
JNE loop
// w = DI:CX
// multiply by 100
MOVL $100, AX
MULL CX
IMULL $100, DI
ADDL DI, DX
// w*100 = DX:AX
// subtract startNano and save for return
SUBL runtime·startNano+0(SB), AX
SBBL runtime·startNano+4(SB), DX
MOVL AX, mono+12(FP)
MOVL DX, mono+16(FP)
wall:
MOVL (_SYSTEM_TIME+time_hi1), CX
MOVL (_SYSTEM_TIME+time_lo), AX
MOVL (_SYSTEM_TIME+time_hi2), DX
CMPL CX, DX
JNE wall
// w = DX:AX
// convert to Unix epoch (but still 100ns units)
#define delta 116444736000000000
SUBL $(delta & 0xFFFFFFFF), AX
SBBL $(delta >> 32), DX
// nano/100 = DX:AX
// split into two decimal halves by div 1e9.
// (decimal point is two spots over from correct place,
// but we avoid overflow in the high word.)
MOVL $1000000000, CX
DIVL CX
MOVL AX, DI
MOVL DX, SI
// DI = nano/100/1e9 = nano/1e11 = sec/100, DX = SI = nano/100%1e9
// split DX into seconds and nanoseconds by div 1e7 magic multiply.
MOVL DX, AX
MOVL $1801439851, CX
MULL CX
SHRL $22, DX
MOVL DX, BX
IMULL $10000000, DX
MOVL SI, CX
SUBL DX, CX
// DI = sec/100 (still)
// BX = (nano/100%1e9)/1e7 = (nano/1e9)%100 = sec%100
// CX = (nano/100%1e9)%1e7 = (nano%1e9)/100 = nsec/100
// store nsec for return
IMULL $100, CX
MOVL CX, nsec+8(FP)
// DI = sec/100 (still)
// BX = sec%100
// construct DX:AX = 64-bit sec and store for return
MOVL $0, DX
MOVL $100, AX
MULL DI
ADDL BX, AX
ADCL $0, DX
MOVL AX, sec+0(FP)
MOVL DX, sec+4(FP)
RET
useQPC:
JMP runtime·nowQPC(SB)
RET