// Copyright 2011 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. // +build !race // Linux/ARM atomic operations. // Because there is so much variation in ARM devices, // the Linux kernel provides an appropriate compare-and-swap // implementation at address 0xffff0fc0. Caller sets: // R0 = old value // R1 = new value // R2 = addr // LR = return address // The function returns with CS true if the swap happened. // http://lxr.linux.no/linux+v2.6.37.2/arch/arm/kernel/entry-armv.S#L850 // On older kernels (before 2.6.24) the function can incorrectly // report a conflict, so we have to double-check the compare ourselves // and retry if necessary. // // http://git.kernel.org/?p=linux/kernel/git/torvalds/linux-2.6.git;a=commit;h=b49c0f24cf6744a3f4fd09289fe7cade349dead5 // TEXT cas<>(SB),7,$0 MOVW $0xffff0fc0, PC TEXT ·CompareAndSwapInt32(SB),7,$0 B ·CompareAndSwapUint32(SB) // Implement using kernel cas for portability. TEXT ·CompareAndSwapUint32(SB),7,$0 MOVW addr+0(FP), R2 MOVW old+4(FP), R0 casagain: MOVW new+8(FP), R1 BL cas<>(SB) BCC cascheck MOVW $1, R0 casret: MOVW R0, ret+12(FP) RET cascheck: // Kernel lies; double-check. MOVW addr+0(FP), R2 MOVW old+4(FP), R0 MOVW 0(R2), R3 CMP R0, R3 BEQ casagain MOVW $0, R0 B casret TEXT ·CompareAndSwapUintptr(SB),7,$0 B ·CompareAndSwapUint32(SB) TEXT ·CompareAndSwapPointer(SB),7,$0 B ·CompareAndSwapUint32(SB) TEXT ·AddInt32(SB),7,$0 B ·AddUint32(SB) // Implement using kernel cas for portability. TEXT ·AddUint32(SB),7,$0 MOVW addr+0(FP), R2 MOVW delta+4(FP), R4 addloop1: MOVW 0(R2), R0 MOVW R0, R1 ADD R4, R1 BL cas<>(SB) BCC addloop1 MOVW R1, ret+8(FP) RET TEXT ·AddUintptr(SB),7,$0 B ·AddUint32(SB) TEXT cas64<>(SB),7,$0 MOVW $0xffff0f60, PC // __kuser_cmpxchg64: Linux-3.1 and above TEXT kernelCAS64<>(SB),7,$0 // int (*__kuser_cmpxchg64_t)(const int64_t *oldval, const int64_t *newval, volatile int64_t *ptr); MOVW addr+0(FP), R2 // ptr // make unaligned atomic access panic AND.S $7, R2, R1 BEQ 2(PC) MOVW R1, (R1) MOVW $4(FP), R0 // oldval MOVW $12(FP), R1 // newval BL cas64<>(SB) MOVW.CS $1, R0 // C is set if the kernel has changed *ptr MOVW.CC $0, R0 MOVW R0, 20(FP) RET TEXT generalCAS64<>(SB),7,$20 // bool runtime·cas64(uint64 volatile *addr, uint64 *old, uint64 new) MOVW addr+0(FP), R0 // make unaligned atomic access panic AND.S $7, R0, R1 BEQ 2(PC) MOVW R1, (R1) MOVW R0, 4(R13) MOVW $4(FP), R1 // oldval MOVW R1, 8(R13) MOVW newlo+12(FP), R2 MOVW R2, 12(R13) MOVW newhi+16(FP), R3 MOVW R3, 16(R13) BL runtime·cas64(SB) MOVW R0, 20(FP) RET GLOBL armCAS64(SB), $4 TEXT setupAndCallCAS64<>(SB),7,$-4 MOVW $0xffff0ffc, R0 // __kuser_helper_version MOVW (R0), R0 // __kuser_cmpxchg64 only present if helper version >= 5 CMP $5, R0 MOVW.CS $kernelCAS64<>(SB), R1 MOVW.CS R1, armCAS64(SB) MOVW.CS R1, PC MOVB runtime·armArch(SB), R0 // LDREXD, STREXD only present on ARMv6K or higher CMP $6, R0 // TODO(minux): how to differentiate ARMv6 with ARMv6K? MOVW.CS $·armCompareAndSwapUint64(SB), R1 MOVW.CS R1, armCAS64(SB) MOVW.CS R1, PC // we are out of luck, can only use runtime's emulated 64-bit cas MOVW $generalCAS64<>(SB), R1 MOVW R1, armCAS64(SB) MOVW R1, PC TEXT ·CompareAndSwapInt64(SB),7,$0 B ·CompareAndSwapUint64(SB) TEXT ·CompareAndSwapUint64(SB),7,$-4 MOVW armCAS64(SB), R0 CMP $0, R0 MOVW.NE R0, PC B setupAndCallCAS64<>(SB) TEXT ·AddInt64(SB),7,$0 B ·addUint64(SB) TEXT ·AddUint64(SB),7,$0 B ·addUint64(SB) TEXT ·LoadInt32(SB),7,$0 B ·LoadUint32(SB) TEXT ·LoadUint32(SB),7,$0 MOVW addr+0(FP), R2 loadloop1: MOVW 0(R2), R0 MOVW R0, R1 BL cas<>(SB) BCC loadloop1 MOVW R1, val+4(FP) RET TEXT ·LoadInt64(SB),7,$0 B ·loadUint64(SB) TEXT ·LoadUint64(SB),7,$0 B ·loadUint64(SB) TEXT ·LoadUintptr(SB),7,$0 B ·LoadUint32(SB) TEXT ·LoadPointer(SB),7,$0 B ·LoadUint32(SB) TEXT ·StoreInt32(SB),7,$0 B ·StoreUint32(SB) TEXT ·StoreUint32(SB),7,$0 MOVW addr+0(FP), R2 MOVW val+4(FP), R1 storeloop1: MOVW 0(R2), R0 BL cas<>(SB) BCC storeloop1 RET TEXT ·StoreInt64(SB),7,$0 B ·storeUint64(SB) TEXT ·StoreUint64(SB),7,$0 B ·storeUint64(SB) TEXT ·StoreUintptr(SB),7,$0 B ·StoreUint32(SB) TEXT ·StorePointer(SB),7,$0 B ·StoreUint32(SB)