mirror of
https://github.com/golang/go
synced 2024-11-19 22:04:44 -07:00
562e38c0af
This fixes the problems with signal handling that were inadvertently introduced in https://go-review.googlesource.com/21006. Fixes #14899 Change-Id: Ia746914dcb3146a52413d32c57b089af763f0810 Reviewed-on: https://go-review.googlesource.com/21145 Reviewed-by: Ian Lance Taylor <iant@golang.org>
363 lines
7.8 KiB
ArmAsm
363 lines
7.8 KiB
ArmAsm
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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//
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// System calls and other sys.stuff for AMD64, SunOS
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// /usr/include/sys/syscall.h for syscall numbers.
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//
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#include "go_asm.h"
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#include "go_tls.h"
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#include "textflag.h"
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// This is needed by asm_amd64.s
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TEXT runtime·settls(SB),NOSPLIT,$8
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RET
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// void libc_miniterrno(void *(*___errno)(void));
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//
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// Set the TLS errno pointer in M.
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//
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// Called using runtime·asmcgocall from os_solaris.c:/minit.
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// NOT USING GO CALLING CONVENTION.
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TEXT runtime·miniterrno(SB),NOSPLIT,$0
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// asmcgocall will put first argument into DI.
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CALL DI // SysV ABI so returns in AX
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get_tls(CX)
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MOVQ g(CX), BX
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MOVQ g_m(BX), BX
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MOVQ AX, (m_mOS+mOS_perrno)(BX)
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RET
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// int64 runtime·nanotime1(void);
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//
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// clock_gettime(3c) wrapper because Timespec is too large for
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// runtime·nanotime stack.
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//
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// Called using runtime·sysvicall6 from os_solaris.c:/nanotime.
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// NOT USING GO CALLING CONVENTION.
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TEXT runtime·nanotime1(SB),NOSPLIT,$0
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// need space for the timespec argument.
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SUBQ $64, SP // 16 bytes will do, but who knows in the future?
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MOVQ $3, DI // CLOCK_REALTIME from <sys/time_impl.h>
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MOVQ SP, SI
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LEAQ libc_clock_gettime(SB), AX
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CALL AX
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MOVQ (SP), AX // tv_sec from struct timespec
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IMULQ $1000000000, AX // multiply into nanoseconds
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ADDQ 8(SP), AX // tv_nsec, offset should be stable.
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ADDQ $64, SP
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RET
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// pipe(3c) wrapper that returns fds in AX, DX.
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// NOT USING GO CALLING CONVENTION.
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TEXT runtime·pipe1(SB),NOSPLIT,$0
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SUBQ $16, SP // 8 bytes will do, but stack has to be 16-byte aligned
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MOVQ SP, DI
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LEAQ libc_pipe(SB), AX
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CALL AX
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MOVL 0(SP), AX
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MOVL 4(SP), DX
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ADDQ $16, SP
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RET
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// Call a library function with SysV calling conventions.
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// The called function can take a maximum of 6 INTEGER class arguments,
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// see
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// Michael Matz, Jan Hubicka, Andreas Jaeger, and Mark Mitchell
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// System V Application Binary Interface
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// AMD64 Architecture Processor Supplement
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// section 3.2.3.
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//
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// Called by runtime·asmcgocall or runtime·cgocall.
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// NOT USING GO CALLING CONVENTION.
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TEXT runtime·asmsysvicall6(SB),NOSPLIT,$0
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// asmcgocall will put first argument into DI.
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PUSHQ DI // save for later
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MOVQ libcall_fn(DI), AX
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MOVQ libcall_args(DI), R11
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MOVQ libcall_n(DI), R10
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get_tls(CX)
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MOVQ g(CX), BX
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CMPQ BX, $0
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JEQ skiperrno1
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MOVQ g_m(BX), BX
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MOVQ (m_mOS+mOS_perrno)(BX), DX
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CMPQ DX, $0
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JEQ skiperrno1
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MOVL $0, 0(DX)
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skiperrno1:
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CMPQ R11, $0
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JEQ skipargs
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// Load 6 args into correspondent registers.
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MOVQ 0(R11), DI
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MOVQ 8(R11), SI
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MOVQ 16(R11), DX
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MOVQ 24(R11), CX
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MOVQ 32(R11), R8
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MOVQ 40(R11), R9
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skipargs:
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// Call SysV function
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CALL AX
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// Return result
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POPQ DI
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MOVQ AX, libcall_r1(DI)
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MOVQ DX, libcall_r2(DI)
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get_tls(CX)
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MOVQ g(CX), BX
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CMPQ BX, $0
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JEQ skiperrno2
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MOVQ g_m(BX), BX
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MOVQ (m_mOS+mOS_perrno)(BX), AX
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CMPQ AX, $0
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JEQ skiperrno2
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MOVL 0(AX), AX
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MOVQ AX, libcall_err(DI)
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skiperrno2:
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RET
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// uint32 tstart_sysvicall(M *newm);
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TEXT runtime·tstart_sysvicall(SB),NOSPLIT,$0
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// DI contains first arg newm
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MOVQ m_g0(DI), DX // g
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// Make TLS entries point at g and m.
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get_tls(BX)
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MOVQ DX, g(BX)
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MOVQ DI, g_m(DX)
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// Layout new m scheduler stack on os stack.
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MOVQ SP, AX
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MOVQ AX, (g_stack+stack_hi)(DX)
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SUBQ $(0x100000), AX // stack size
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MOVQ AX, (g_stack+stack_lo)(DX)
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ADDQ $const__StackGuard, AX
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MOVQ AX, g_stackguard0(DX)
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MOVQ AX, g_stackguard1(DX)
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// Someday the convention will be D is always cleared.
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CLD
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CALL runtime·stackcheck(SB) // clobbers AX,CX
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CALL runtime·mstart(SB)
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XORL AX, AX // return 0 == success
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MOVL AX, ret+8(FP)
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RET
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// Careful, this is called by __sighndlr, a libc function. We must preserve
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// registers as per AMD 64 ABI.
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TEXT runtime·sigtramp(SB),NOSPLIT,$0
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// Note that we are executing on altsigstack here, so we have
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// more stack available than NOSPLIT would have us believe.
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// To defeat the linker, we make our own stack frame with
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// more space:
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SUBQ $184, SP
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// save registers
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MOVQ BX, 32(SP)
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MOVQ BP, 40(SP)
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MOVQ R12, 48(SP)
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MOVQ R13, 56(SP)
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MOVQ R14, 64(SP)
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MOVQ R15, 72(SP)
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get_tls(BX)
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// check that g exists
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MOVQ g(BX), R10
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CMPQ R10, $0
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JNE allgood
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MOVQ SI, 80(SP)
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MOVQ DX, 88(SP)
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LEAQ 80(SP), AX
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MOVQ DI, 0(SP)
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MOVQ AX, 8(SP)
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MOVQ $runtime·badsignal(SB), AX
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CALL AX
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JMP exit
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allgood:
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// save g
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MOVQ R10, 80(SP)
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// Save m->libcall and m->scratch. We need to do this because we
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// might get interrupted by a signal in runtime·asmcgocall.
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// save m->libcall
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MOVQ g_m(R10), BP
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LEAQ m_libcall(BP), R11
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MOVQ libcall_fn(R11), R10
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MOVQ R10, 88(SP)
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MOVQ libcall_args(R11), R10
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MOVQ R10, 96(SP)
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MOVQ libcall_n(R11), R10
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MOVQ R10, 104(SP)
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MOVQ libcall_r1(R11), R10
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MOVQ R10, 168(SP)
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MOVQ libcall_r2(R11), R10
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MOVQ R10, 176(SP)
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// save m->scratch
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LEAQ (m_mOS+mOS_scratch)(BP), R11
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MOVQ 0(R11), R10
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MOVQ R10, 112(SP)
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MOVQ 8(R11), R10
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MOVQ R10, 120(SP)
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MOVQ 16(R11), R10
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MOVQ R10, 128(SP)
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MOVQ 24(R11), R10
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MOVQ R10, 136(SP)
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MOVQ 32(R11), R10
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MOVQ R10, 144(SP)
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MOVQ 40(R11), R10
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MOVQ R10, 152(SP)
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// save errno, it might be EINTR; stuff we do here might reset it.
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MOVQ (m_mOS+mOS_perrno)(BP), R10
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MOVL 0(R10), R10
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MOVQ R10, 160(SP)
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MOVQ g(BX), R10
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// g = m->gsignal
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MOVQ m_gsignal(BP), BP
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MOVQ BP, g(BX)
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// TODO: If current SP is not in gsignal.stack, then adjust.
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// prepare call
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MOVQ DI, 0(SP)
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MOVQ SI, 8(SP)
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MOVQ DX, 16(SP)
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MOVQ R10, 24(SP)
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CALL runtime·sighandler(SB)
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get_tls(BX)
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MOVQ g(BX), BP
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MOVQ g_m(BP), BP
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// restore libcall
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LEAQ m_libcall(BP), R11
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MOVQ 88(SP), R10
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MOVQ R10, libcall_fn(R11)
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MOVQ 96(SP), R10
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MOVQ R10, libcall_args(R11)
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MOVQ 104(SP), R10
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MOVQ R10, libcall_n(R11)
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MOVQ 168(SP), R10
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MOVQ R10, libcall_r1(R11)
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MOVQ 176(SP), R10
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MOVQ R10, libcall_r2(R11)
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// restore scratch
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LEAQ (m_mOS+mOS_scratch)(BP), R11
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MOVQ 112(SP), R10
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MOVQ R10, 0(R11)
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MOVQ 120(SP), R10
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MOVQ R10, 8(R11)
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MOVQ 128(SP), R10
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MOVQ R10, 16(R11)
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MOVQ 136(SP), R10
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MOVQ R10, 24(R11)
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MOVQ 144(SP), R10
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MOVQ R10, 32(R11)
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MOVQ 152(SP), R10
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MOVQ R10, 40(R11)
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// restore errno
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MOVQ (m_mOS+mOS_perrno)(BP), R11
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MOVQ 160(SP), R10
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MOVL R10, 0(R11)
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// restore g
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MOVQ 80(SP), R10
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MOVQ R10, g(BX)
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exit:
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// restore registers
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MOVQ 32(SP), BX
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MOVQ 40(SP), BP
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MOVQ 48(SP), R12
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MOVQ 56(SP), R13
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MOVQ 64(SP), R14
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MOVQ 72(SP), R15
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ADDQ $184, SP
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RET
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// Called from runtime·usleep (Go). Can be called on Go stack, on OS stack,
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// can also be called in cgo callback path without a g->m.
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TEXT runtime·usleep1(SB),NOSPLIT,$0
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MOVL usec+0(FP), DI
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MOVQ $runtime·usleep2(SB), AX // to hide from 6l
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// Execute call on m->g0.
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get_tls(R15)
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CMPQ R15, $0
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JE noswitch
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MOVQ g(R15), R13
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CMPQ R13, $0
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JE noswitch
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MOVQ g_m(R13), R13
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CMPQ R13, $0
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JE noswitch
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// TODO(aram): do something about the cpu profiler here.
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MOVQ m_g0(R13), R14
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CMPQ g(R15), R14
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JNE switch
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// executing on m->g0 already
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CALL AX
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RET
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switch:
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// Switch to m->g0 stack and back.
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MOVQ (g_sched+gobuf_sp)(R14), R14
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MOVQ SP, -8(R14)
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LEAQ -8(R14), SP
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CALL AX
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MOVQ 0(SP), SP
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RET
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noswitch:
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// Not a Go-managed thread. Do not switch stack.
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CALL AX
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RET
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// Runs on OS stack. duration (in µs units) is in DI.
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TEXT runtime·usleep2(SB),NOSPLIT,$0
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LEAQ libc_usleep(SB), AX
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CALL AX
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RET
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// Runs on OS stack, called from runtime·osyield.
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TEXT runtime·osyield1(SB),NOSPLIT,$0
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LEAQ libc_sched_yield(SB), AX
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CALL AX
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RET
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// func now() (sec int64, nsec int32)
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TEXT time·now(SB),NOSPLIT,$8-12
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CALL runtime·nanotime(SB)
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MOVQ 0(SP), AX
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// generated code for
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// func f(x uint64) (uint64, uint64) { return x/1000000000, x%100000000 }
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// adapted to reduce duplication
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MOVQ AX, CX
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MOVQ $1360296554856532783, AX
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MULQ CX
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ADDQ CX, DX
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RCRQ $1, DX
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SHRQ $29, DX
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MOVQ DX, sec+0(FP)
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IMULQ $1000000000, DX
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SUBQ DX, CX
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MOVL CX, nsec+8(FP)
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RET
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