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atomic_386.go
(2.22 KB)
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atomic_386.s
(6.53 KB)
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atomic_amd64.go
(2.46 KB)
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atomic_amd64.s
(5.18 KB)
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atomic_andor_generic.go
(1.06 KB)
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atomic_andor_test.go
(5.14 KB)
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atomic_arm.go
(4.74 KB)
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atomic_arm.s
(5.69 KB)
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atomic_arm64.go
(2.15 KB)
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atomic_arm64.s
(8.26 KB)
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atomic_loong64.go
(1.76 KB)
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atomic_loong64.s
(5.25 KB)
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atomic_mips64x.go
(1.77 KB)
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atomic_mips64x.s
(6.08 KB)
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atomic_mipsx.go
(2.66 KB)
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atomic_mipsx.s
(4.3 KB)
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atomic_ppc64x.go
(2.12 KB)
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atomic_ppc64x.s
(7.49 KB)
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atomic_riscv64.go
(2.03 KB)
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atomic_riscv64.s
(6.99 KB)
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atomic_s390x.go
(2.12 KB)
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atomic_s390x.s
(5.89 KB)
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atomic_test.go
(8.52 KB)
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atomic_wasm.go
(5.32 KB)
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atomic_wasm.s
(269 B)
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bench_test.go
(3.24 KB)
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doc.go
(771 B)
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stubs.go
(1.23 KB)
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sys_linux_arm.s
(2.84 KB)
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sys_nonlinux_arm.s
(1.33 KB)
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types.go
(14.23 KB)
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types_64bit.go
(1.1 KB)
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unaligned.go
(246 B)
Editing: atomic_ppc64x.s
// Copyright 2014 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. //go:build ppc64 || ppc64le #include "textflag.h" // For more details about how various memory models are // enforced on POWER, the following paper provides more // details about how they enforce C/C++ like models. This // gives context about why the strange looking code // sequences below work. // // http://www.rdrop.com/users/paulmck/scalability/paper/N2745r.2011.03.04a.html // uint32 路Load(uint32 volatile* ptr) TEXT 路Load(SB),NOSPLIT|NOFRAME,$-8-12 MOVD ptr+0(FP), R3 SYNC MOVWZ 0(R3), R3 CMPW R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7,0x4 ISYNC MOVW R3, ret+8(FP) RET // uint8 路Load8(uint8 volatile* ptr) TEXT 路Load8(SB),NOSPLIT|NOFRAME,$-8-9 MOVD ptr+0(FP), R3 SYNC MOVBZ 0(R3), R3 CMP R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7,0x4 ISYNC MOVB R3, ret+8(FP) RET // uint64 路Load64(uint64 volatile* ptr) TEXT 路Load64(SB),NOSPLIT|NOFRAME,$-8-16 MOVD ptr+0(FP), R3 SYNC MOVD 0(R3), R3 CMP R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7,0x4 ISYNC MOVD R3, ret+8(FP) RET // void *路Loadp(void *volatile *ptr) TEXT 路Loadp(SB),NOSPLIT|NOFRAME,$-8-16 MOVD ptr+0(FP), R3 SYNC MOVD 0(R3), R3 CMP R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7,0x4 ISYNC MOVD R3, ret+8(FP) RET // uint32 路LoadAcq(uint32 volatile* ptr) TEXT 路LoadAcq(SB),NOSPLIT|NOFRAME,$-8-12 MOVD ptr+0(FP), R3 MOVWZ 0(R3), R3 CMPW R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7, 0x4 ISYNC MOVW R3, ret+8(FP) RET // uint64 路LoadAcq64(uint64 volatile* ptr) TEXT 路LoadAcq64(SB),NOSPLIT|NOFRAME,$-8-16 MOVD ptr+0(FP), R3 MOVD 0(R3), R3 CMP R3, R3, CR7 BC 4, 30, 1(PC) // bne- cr7, 0x4 ISYNC MOVD R3, ret+8(FP) RET // bool cas(uint32 *ptr, uint32 old, uint32 new) // Atomically: // if(*val == old){ // *val = new; // return 1; // } else // return 0; TEXT 路Cas(SB), NOSPLIT, $0-17 MOVD ptr+0(FP), R3 MOVWZ old+8(FP), R4 MOVWZ new+12(FP), R5 LWSYNC cas_again: LWAR (R3), R6 CMPW R6, R4 BNE cas_fail STWCCC R5, (R3) BNE cas_again MOVD $1, R3 LWSYNC MOVB R3, ret+16(FP) RET cas_fail: LWSYNC MOVB R0, ret+16(FP) RET // bool 路Cas64(uint64 *ptr, uint64 old, uint64 new) // Atomically: // if(*val == old){ // *val = new; // return 1; // } else { // return 0; // } TEXT 路Cas64(SB), NOSPLIT, $0-25 MOVD ptr+0(FP), R3 MOVD old+8(FP), R4 MOVD new+16(FP), R5 LWSYNC cas64_again: LDAR (R3), R6 CMP R6, R4 BNE cas64_fail STDCCC R5, (R3) BNE cas64_again MOVD $1, R3 LWSYNC MOVB R3, ret+24(FP) RET cas64_fail: LWSYNC MOVB R0, ret+24(FP) RET TEXT 路CasRel(SB), NOSPLIT, $0-17 MOVD ptr+0(FP), R3 MOVWZ old+8(FP), R4 MOVWZ new+12(FP), R5 LWSYNC cas_again: LWAR (R3), $0, R6 // 0 = Mutex release hint CMPW R6, R4 BNE cas_fail STWCCC R5, (R3) BNE cas_again MOVD $1, R3 MOVB R3, ret+16(FP) RET cas_fail: MOVB R0, ret+16(FP) RET TEXT 路Casint32(SB), NOSPLIT, $0-17 BR 路Cas(SB) TEXT 路Casint64(SB), NOSPLIT, $0-25 BR 路Cas64(SB) TEXT 路Casuintptr(SB), NOSPLIT, $0-25 BR 路Cas64(SB) TEXT 路Loaduintptr(SB), NOSPLIT|NOFRAME, $0-16 BR 路Load64(SB) TEXT 路LoadAcquintptr(SB), NOSPLIT|NOFRAME, $0-16 BR 路LoadAcq64(SB) TEXT 路Loaduint(SB), NOSPLIT|NOFRAME, $0-16 BR 路Load64(SB) TEXT 路Storeint32(SB), NOSPLIT, $0-12 BR 路Store(SB) TEXT 路Storeint64(SB), NOSPLIT, $0-16 BR 路Store64(SB) TEXT 路Storeuintptr(SB), NOSPLIT, $0-16 BR 路Store64(SB) TEXT 路StoreReluintptr(SB), NOSPLIT, $0-16 BR 路StoreRel64(SB) TEXT 路Xadduintptr(SB), NOSPLIT, $0-24 BR 路Xadd64(SB) TEXT 路Loadint32(SB), NOSPLIT, $0-12 BR 路Load(SB) TEXT 路Loadint64(SB), NOSPLIT, $0-16 BR 路Load64(SB) TEXT 路Xaddint32(SB), NOSPLIT, $0-20 BR 路Xadd(SB) TEXT 路Xaddint64(SB), NOSPLIT, $0-24 BR 路Xadd64(SB) // bool casp(void **val, void *old, void *new) // Atomically: // if(*val == old){ // *val = new; // return 1; // } else // return 0; TEXT 路Casp1(SB), NOSPLIT, $0-25 BR 路Cas64(SB) // uint32 xadd(uint32 volatile *ptr, int32 delta) // Atomically: // *val += delta; // return *val; TEXT 路Xadd(SB), NOSPLIT, $0-20 MOVD ptr+0(FP), R4 MOVW delta+8(FP), R5 LWSYNC LWAR (R4), R3 ADD R5, R3 STWCCC R3, (R4) BNE -3(PC) MOVW R3, ret+16(FP) RET // uint64 Xadd64(uint64 volatile *val, int64 delta) // Atomically: // *val += delta; // return *val; TEXT 路Xadd64(SB), NOSPLIT, $0-24 MOVD ptr+0(FP), R4 MOVD delta+8(FP), R5 LWSYNC LDAR (R4), R3 ADD R5, R3 STDCCC R3, (R4) BNE -3(PC) MOVD R3, ret+16(FP) RET // uint32 Xchg(ptr *uint32, new uint32) // Atomically: // old := *ptr; // *ptr = new; // return old; TEXT 路Xchg(SB), NOSPLIT, $0-20 MOVD ptr+0(FP), R4 MOVW new+8(FP), R5 LWSYNC LWAR (R4), R3 STWCCC R5, (R4) BNE -2(PC) ISYNC MOVW R3, ret+16(FP) RET // uint64 Xchg64(ptr *uint64, new uint64) // Atomically: // old := *ptr; // *ptr = new; // return old; TEXT 路Xchg64(SB), NOSPLIT, $0-24 MOVD ptr+0(FP), R4 MOVD new+8(FP), R5 LWSYNC LDAR (R4), R3 STDCCC R5, (R4) BNE -2(PC) ISYNC MOVD R3, ret+16(FP) RET TEXT 路Xchgint32(SB), NOSPLIT, $0-20 BR 路Xchg(SB) TEXT 路Xchgint64(SB), NOSPLIT, $0-24 BR 路Xchg64(SB) TEXT 路Xchguintptr(SB), NOSPLIT, $0-24 BR 路Xchg64(SB) TEXT 路StorepNoWB(SB), NOSPLIT, $0-16 BR 路Store64(SB) TEXT 路Store(SB), NOSPLIT, $0-12 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 SYNC MOVW R4, 0(R3) RET TEXT 路Store8(SB), NOSPLIT, $0-9 MOVD ptr+0(FP), R3 MOVB val+8(FP), R4 SYNC MOVB R4, 0(R3) RET TEXT 路Store64(SB), NOSPLIT, $0-16 MOVD ptr+0(FP), R3 MOVD val+8(FP), R4 SYNC MOVD R4, 0(R3) RET TEXT 路StoreRel(SB), NOSPLIT, $0-12 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 LWSYNC MOVW R4, 0(R3) RET TEXT 路StoreRel64(SB), NOSPLIT, $0-16 MOVD ptr+0(FP), R3 MOVD val+8(FP), R4 LWSYNC MOVD R4, 0(R3) RET // void 路Or8(byte volatile*, byte); TEXT 路Or8(SB), NOSPLIT, $0-9 MOVD ptr+0(FP), R3 MOVBZ val+8(FP), R4 LWSYNC again: LBAR (R3), R6 OR R4, R6 STBCCC R6, (R3) BNE again RET // void 路And8(byte volatile*, byte); TEXT 路And8(SB), NOSPLIT, $0-9 MOVD ptr+0(FP), R3 MOVBZ val+8(FP), R4 LWSYNC again: LBAR (R3), R6 AND R4, R6 STBCCC R6, (R3) BNE again RET // func Or(addr *uint32, v uint32) TEXT 路Or(SB), NOSPLIT, $0-12 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 LWSYNC again: LWAR (R3), R6 OR R4, R6 STWCCC R6, (R3) BNE again RET // func And(addr *uint32, v uint32) TEXT 路And(SB), NOSPLIT, $0-12 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 LWSYNC again: LWAR (R3),R6 AND R4, R6 STWCCC R6, (R3) BNE again RET // func Or32(addr *uint32, v uint32) old uint32 TEXT 路Or32(SB), NOSPLIT, $0-20 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 LWSYNC again: LWAR (R3), R6 OR R4, R6, R7 STWCCC R7, (R3) BNE again MOVW R6, ret+16(FP) RET // func And32(addr *uint32, v uint32) old uint32 TEXT 路And32(SB), NOSPLIT, $0-20 MOVD ptr+0(FP), R3 MOVW val+8(FP), R4 LWSYNC again: LWAR (R3),R6 AND R4, R6, R7 STWCCC R7, (R3) BNE again MOVW R6, ret+16(FP) RET // func Or64(addr *uint64, v uint64) old uint64 TEXT 路Or64(SB), NOSPLIT, $0-24 MOVD ptr+0(FP), R3 MOVD val+8(FP), R4 LWSYNC again: LDAR (R3), R6 OR R4, R6, R7 STDCCC R7, (R3) BNE again MOVD R6, ret+16(FP) RET // func And64(addr *uint64, v uint64) old uint64 TEXT 路And64(SB), NOSPLIT, $0-24 MOVD ptr+0(FP), R3 MOVD val+8(FP), R4 LWSYNC again: LDAR (R3),R6 AND R4, R6, R7 STDCCC R7, (R3) BNE again MOVD R6, ret+16(FP) RET // func Anduintptr(addr *uintptr, v uintptr) old uintptr TEXT 路Anduintptr(SB), NOSPLIT, $0-24 JMP 路And64(SB) // func Oruintptr(addr *uintptr, v uintptr) old uintptr TEXT 路Oruintptr(SB), NOSPLIT, $0-24 JMP 路Or64(SB)
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