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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
commit36d22d82aa202bb199967e9512281e9a53db42c9 (patch)
tree105e8c98ddea1c1e4784a60a5a6410fa416be2de /js/src/jit/shared/AtomicOperations-shared-jit.h
parentInitial commit. (diff)
downloadfirefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz
firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip
Adding upstream version 115.7.0esr.upstream/115.7.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'js/src/jit/shared/AtomicOperations-shared-jit.h')
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diff --git a/js/src/jit/shared/AtomicOperations-shared-jit.h b/js/src/jit/shared/AtomicOperations-shared-jit.h
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+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
+ * vim: set ts=8 sts=4 et sw=4 tw=99:
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+/* For overall documentation, see jit/AtomicOperations.h.
+ *
+ * NOTE CAREFULLY: This file is only applicable when we have configured a JIT
+ * and the JIT is for the same architecture that we're compiling the shell for.
+ * Simulators must use a different mechanism.
+ *
+ * See comments before the include nest near the end of jit/AtomicOperations.h
+ * if you didn't understand that.
+ */
+
+#ifndef jit_shared_AtomicOperations_shared_jit_h
+#define jit_shared_AtomicOperations_shared_jit_h
+
+#include "mozilla/Assertions.h"
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include "jit/AtomicOperationsGenerated.h"
+#include "vm/Uint8Clamped.h"
+
+namespace js {
+namespace jit {
+
+#ifndef JS_64BIT
+// `AtomicCompilerFence` erects a reordering boundary for operations on the
+// current thread. We use it to prevent the compiler from reordering loads and
+// stores inside larger primitives that are synthesized from cmpxchg.
+extern void AtomicCompilerFence();
+#endif
+
+// `...MemcpyDown` moves bytes toward lower addresses in memory: dest <= src.
+// `...MemcpyUp` moves bytes toward higher addresses in memory: dest >= src.
+extern void AtomicMemcpyDownUnsynchronized(uint8_t* dest, const uint8_t* src,
+ size_t nbytes);
+extern void AtomicMemcpyUpUnsynchronized(uint8_t* dest, const uint8_t* src,
+ size_t nbytes);
+
+} // namespace jit
+} // namespace js
+
+inline bool js::jit::AtomicOperations::hasAtomic8() { return true; }
+
+inline bool js::jit::AtomicOperations::isLockfree8() { return true; }
+
+inline void js::jit::AtomicOperations::fenceSeqCst() { AtomicFenceSeqCst(); }
+
+#define JIT_LOADOP(T, U, loadop) \
+ template <> \
+ inline T AtomicOperations::loadSeqCst(T* addr) { \
+ return (T)loadop((U*)addr); \
+ }
+
+#ifndef JS_64BIT
+# define JIT_LOADOP_CAS(T) \
+ template <> \
+ inline T AtomicOperations::loadSeqCst(T* addr) { \
+ AtomicCompilerFence(); \
+ return (T)AtomicCmpXchg64SeqCst((uint64_t*)addr, 0, 0); \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_LOADOP(int8_t, uint8_t, AtomicLoad8SeqCst)
+JIT_LOADOP(uint8_t, uint8_t, AtomicLoad8SeqCst)
+JIT_LOADOP(int16_t, uint16_t, AtomicLoad16SeqCst)
+JIT_LOADOP(uint16_t, uint16_t, AtomicLoad16SeqCst)
+JIT_LOADOP(int32_t, uint32_t, AtomicLoad32SeqCst)
+JIT_LOADOP(uint32_t, uint32_t, AtomicLoad32SeqCst)
+
+#ifdef JIT_LOADOP_CAS
+JIT_LOADOP_CAS(int64_t)
+JIT_LOADOP_CAS(uint64_t)
+#else
+JIT_LOADOP(int64_t, uint64_t, AtomicLoad64SeqCst)
+JIT_LOADOP(uint64_t, uint64_t, AtomicLoad64SeqCst)
+#endif
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_LOADOP
+#undef JIT_LOADOP_CAS
+
+#define JIT_STOREOP(T, U, storeop) \
+ template <> \
+ inline void AtomicOperations::storeSeqCst(T* addr, T val) { \
+ storeop((U*)addr, val); \
+ }
+
+#ifndef JS_64BIT
+# define JIT_STOREOP_CAS(T) \
+ template <> \
+ inline void AtomicOperations::storeSeqCst(T* addr, T val) { \
+ AtomicCompilerFence(); \
+ T oldval = *addr; /* good initial approximation */ \
+ for (;;) { \
+ T nextval = (T)AtomicCmpXchg64SeqCst((uint64_t*)addr, \
+ (uint64_t)oldval, (uint64_t)val); \
+ if (nextval == oldval) { \
+ break; \
+ } \
+ oldval = nextval; \
+ } \
+ AtomicCompilerFence(); \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_STOREOP(int8_t, uint8_t, AtomicStore8SeqCst)
+JIT_STOREOP(uint8_t, uint8_t, AtomicStore8SeqCst)
+JIT_STOREOP(int16_t, uint16_t, AtomicStore16SeqCst)
+JIT_STOREOP(uint16_t, uint16_t, AtomicStore16SeqCst)
+JIT_STOREOP(int32_t, uint32_t, AtomicStore32SeqCst)
+JIT_STOREOP(uint32_t, uint32_t, AtomicStore32SeqCst)
+
+#ifdef JIT_STOREOP_CAS
+JIT_STOREOP_CAS(int64_t)
+JIT_STOREOP_CAS(uint64_t)
+#else
+JIT_STOREOP(int64_t, uint64_t, AtomicStore64SeqCst)
+JIT_STOREOP(uint64_t, uint64_t, AtomicStore64SeqCst)
+#endif
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_STOREOP
+#undef JIT_STOREOP_CAS
+
+#define JIT_EXCHANGEOP(T, U, xchgop) \
+ template <> \
+ inline T AtomicOperations::exchangeSeqCst(T* addr, T val) { \
+ return (T)xchgop((U*)addr, (U)val); \
+ }
+
+#ifndef JS_64BIT
+# define JIT_EXCHANGEOP_CAS(T) \
+ template <> \
+ inline T AtomicOperations::exchangeSeqCst(T* addr, T val) { \
+ AtomicCompilerFence(); \
+ T oldval = *addr; \
+ for (;;) { \
+ T nextval = (T)AtomicCmpXchg64SeqCst((uint64_t*)addr, \
+ (uint64_t)oldval, (uint64_t)val); \
+ if (nextval == oldval) { \
+ break; \
+ } \
+ oldval = nextval; \
+ } \
+ AtomicCompilerFence(); \
+ return oldval; \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_EXCHANGEOP(int8_t, uint8_t, AtomicExchange8SeqCst)
+JIT_EXCHANGEOP(uint8_t, uint8_t, AtomicExchange8SeqCst)
+JIT_EXCHANGEOP(int16_t, uint16_t, AtomicExchange16SeqCst)
+JIT_EXCHANGEOP(uint16_t, uint16_t, AtomicExchange16SeqCst)
+JIT_EXCHANGEOP(int32_t, uint32_t, AtomicExchange32SeqCst)
+JIT_EXCHANGEOP(uint32_t, uint32_t, AtomicExchange32SeqCst)
+
+#ifdef JIT_EXCHANGEOP_CAS
+JIT_EXCHANGEOP_CAS(int64_t)
+JIT_EXCHANGEOP_CAS(uint64_t)
+#else
+JIT_EXCHANGEOP(int64_t, uint64_t, AtomicExchange64SeqCst)
+JIT_EXCHANGEOP(uint64_t, uint64_t, AtomicExchange64SeqCst)
+#endif
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_EXCHANGEOP
+#undef JIT_EXCHANGEOP_CAS
+
+#define JIT_CAS(T, U, cmpxchg) \
+ template <> \
+ inline T AtomicOperations::compareExchangeSeqCst(T* addr, T oldval, \
+ T newval) { \
+ return (T)cmpxchg((U*)addr, (U)oldval, (U)newval); \
+ }
+
+namespace js {
+namespace jit {
+
+JIT_CAS(int8_t, uint8_t, AtomicCmpXchg8SeqCst)
+JIT_CAS(uint8_t, uint8_t, AtomicCmpXchg8SeqCst)
+JIT_CAS(int16_t, uint16_t, AtomicCmpXchg16SeqCst)
+JIT_CAS(uint16_t, uint16_t, AtomicCmpXchg16SeqCst)
+JIT_CAS(int32_t, uint32_t, AtomicCmpXchg32SeqCst)
+JIT_CAS(uint32_t, uint32_t, AtomicCmpXchg32SeqCst)
+JIT_CAS(int64_t, uint64_t, AtomicCmpXchg64SeqCst)
+JIT_CAS(uint64_t, uint64_t, AtomicCmpXchg64SeqCst)
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_CAS
+
+#define JIT_FETCHADDOP(T, U, xadd) \
+ template <> \
+ inline T AtomicOperations::fetchAddSeqCst(T* addr, T val) { \
+ return (T)xadd((U*)addr, (U)val); \
+ }
+
+#define JIT_FETCHSUBOP(T) \
+ template <> \
+ inline T AtomicOperations::fetchSubSeqCst(T* addr, T val) { \
+ return fetchAddSeqCst(addr, (T)(0 - val)); \
+ }
+
+#ifndef JS_64BIT
+# define JIT_FETCHADDOP_CAS(T) \
+ template <> \
+ inline T AtomicOperations::fetchAddSeqCst(T* addr, T val) { \
+ AtomicCompilerFence(); \
+ T oldval = *addr; /* Good initial approximation */ \
+ for (;;) { \
+ T nextval = (T)AtomicCmpXchg64SeqCst( \
+ (uint64_t*)addr, (uint64_t)oldval, (uint64_t)(oldval + val)); \
+ if (nextval == oldval) { \
+ break; \
+ } \
+ oldval = nextval; \
+ } \
+ AtomicCompilerFence(); \
+ return oldval; \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_FETCHADDOP(int8_t, uint8_t, AtomicAdd8SeqCst)
+JIT_FETCHADDOP(uint8_t, uint8_t, AtomicAdd8SeqCst)
+JIT_FETCHADDOP(int16_t, uint16_t, AtomicAdd16SeqCst)
+JIT_FETCHADDOP(uint16_t, uint16_t, AtomicAdd16SeqCst)
+JIT_FETCHADDOP(int32_t, uint32_t, AtomicAdd32SeqCst)
+JIT_FETCHADDOP(uint32_t, uint32_t, AtomicAdd32SeqCst)
+
+#ifdef JIT_FETCHADDOP_CAS
+JIT_FETCHADDOP_CAS(int64_t)
+JIT_FETCHADDOP_CAS(uint64_t)
+#else
+JIT_FETCHADDOP(int64_t, uint64_t, AtomicAdd64SeqCst)
+JIT_FETCHADDOP(uint64_t, uint64_t, AtomicAdd64SeqCst)
+#endif
+
+JIT_FETCHSUBOP(int8_t)
+JIT_FETCHSUBOP(uint8_t)
+JIT_FETCHSUBOP(int16_t)
+JIT_FETCHSUBOP(uint16_t)
+JIT_FETCHSUBOP(int32_t)
+JIT_FETCHSUBOP(uint32_t)
+JIT_FETCHSUBOP(int64_t)
+JIT_FETCHSUBOP(uint64_t)
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_FETCHADDOP
+#undef JIT_FETCHADDOP_CAS
+#undef JIT_FETCHSUBOP
+
+#define JIT_FETCHBITOPX(T, U, name, op) \
+ template <> \
+ inline T AtomicOperations::name(T* addr, T val) { \
+ return (T)op((U*)addr, (U)val); \
+ }
+
+#define JIT_FETCHBITOP(T, U, andop, orop, xorop) \
+ JIT_FETCHBITOPX(T, U, fetchAndSeqCst, andop) \
+ JIT_FETCHBITOPX(T, U, fetchOrSeqCst, orop) \
+ JIT_FETCHBITOPX(T, U, fetchXorSeqCst, xorop)
+
+#ifndef JS_64BIT
+
+# define AND_OP &
+# define OR_OP |
+# define XOR_OP ^
+
+# define JIT_FETCHBITOPX_CAS(T, name, OP) \
+ template <> \
+ inline T AtomicOperations::name(T* addr, T val) { \
+ AtomicCompilerFence(); \
+ T oldval = *addr; \
+ for (;;) { \
+ T nextval = (T)AtomicCmpXchg64SeqCst( \
+ (uint64_t*)addr, (uint64_t)oldval, (uint64_t)(oldval OP val)); \
+ if (nextval == oldval) { \
+ break; \
+ } \
+ oldval = nextval; \
+ } \
+ AtomicCompilerFence(); \
+ return oldval; \
+ }
+
+# define JIT_FETCHBITOP_CAS(T) \
+ JIT_FETCHBITOPX_CAS(T, fetchAndSeqCst, AND_OP) \
+ JIT_FETCHBITOPX_CAS(T, fetchOrSeqCst, OR_OP) \
+ JIT_FETCHBITOPX_CAS(T, fetchXorSeqCst, XOR_OP)
+
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_FETCHBITOP(int8_t, uint8_t, AtomicAnd8SeqCst, AtomicOr8SeqCst,
+ AtomicXor8SeqCst)
+JIT_FETCHBITOP(uint8_t, uint8_t, AtomicAnd8SeqCst, AtomicOr8SeqCst,
+ AtomicXor8SeqCst)
+JIT_FETCHBITOP(int16_t, uint16_t, AtomicAnd16SeqCst, AtomicOr16SeqCst,
+ AtomicXor16SeqCst)
+JIT_FETCHBITOP(uint16_t, uint16_t, AtomicAnd16SeqCst, AtomicOr16SeqCst,
+ AtomicXor16SeqCst)
+JIT_FETCHBITOP(int32_t, uint32_t, AtomicAnd32SeqCst, AtomicOr32SeqCst,
+ AtomicXor32SeqCst)
+JIT_FETCHBITOP(uint32_t, uint32_t, AtomicAnd32SeqCst, AtomicOr32SeqCst,
+ AtomicXor32SeqCst)
+
+#ifdef JIT_FETCHBITOP_CAS
+JIT_FETCHBITOP_CAS(int64_t)
+JIT_FETCHBITOP_CAS(uint64_t)
+#else
+JIT_FETCHBITOP(int64_t, uint64_t, AtomicAnd64SeqCst, AtomicOr64SeqCst,
+ AtomicXor64SeqCst)
+JIT_FETCHBITOP(uint64_t, uint64_t, AtomicAnd64SeqCst, AtomicOr64SeqCst,
+ AtomicXor64SeqCst)
+#endif
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_FETCHBITOPX_CAS
+#undef JIT_FETCHBITOPX
+#undef JIT_FETCHBITOP_CAS
+#undef JIT_FETCHBITOP
+
+#define JIT_LOADSAFE(T, U, loadop) \
+ template <> \
+ inline T js::jit::AtomicOperations::loadSafeWhenRacy(T* addr) { \
+ union { \
+ U u; \
+ T t; \
+ }; \
+ u = loadop((U*)addr); \
+ return t; \
+ }
+
+#ifndef JS_64BIT
+# define JIT_LOADSAFE_TEARING(T) \
+ template <> \
+ inline T js::jit::AtomicOperations::loadSafeWhenRacy(T* addr) { \
+ MOZ_ASSERT(sizeof(T) == 8); \
+ union { \
+ uint32_t u[2]; \
+ T t; \
+ }; \
+ uint32_t* ptr = (uint32_t*)addr; \
+ u[0] = AtomicLoad32Unsynchronized(ptr); \
+ u[1] = AtomicLoad32Unsynchronized(ptr + 1); \
+ return t; \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_LOADSAFE(int8_t, uint8_t, AtomicLoad8Unsynchronized)
+JIT_LOADSAFE(uint8_t, uint8_t, AtomicLoad8Unsynchronized)
+JIT_LOADSAFE(int16_t, uint16_t, AtomicLoad16Unsynchronized)
+JIT_LOADSAFE(uint16_t, uint16_t, AtomicLoad16Unsynchronized)
+JIT_LOADSAFE(int32_t, uint32_t, AtomicLoad32Unsynchronized)
+JIT_LOADSAFE(uint32_t, uint32_t, AtomicLoad32Unsynchronized)
+#ifdef JIT_LOADSAFE_TEARING
+JIT_LOADSAFE_TEARING(int64_t)
+JIT_LOADSAFE_TEARING(uint64_t)
+JIT_LOADSAFE_TEARING(double)
+#else
+JIT_LOADSAFE(int64_t, uint64_t, AtomicLoad64Unsynchronized)
+JIT_LOADSAFE(uint64_t, uint64_t, AtomicLoad64Unsynchronized)
+JIT_LOADSAFE(double, uint64_t, AtomicLoad64Unsynchronized)
+#endif
+JIT_LOADSAFE(float, uint32_t, AtomicLoad32Unsynchronized)
+
+// Clang requires a specialization for uint8_clamped.
+template <>
+inline uint8_clamped js::jit::AtomicOperations::loadSafeWhenRacy(
+ uint8_clamped* addr) {
+ return uint8_clamped(loadSafeWhenRacy((uint8_t*)addr));
+}
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_LOADSAFE
+#undef JIT_LOADSAFE_TEARING
+
+#define JIT_STORESAFE(T, U, storeop) \
+ template <> \
+ inline void js::jit::AtomicOperations::storeSafeWhenRacy(T* addr, T val) { \
+ union { \
+ U u; \
+ T t; \
+ }; \
+ t = val; \
+ storeop((U*)addr, u); \
+ }
+
+#ifndef JS_64BIT
+# define JIT_STORESAFE_TEARING(T) \
+ template <> \
+ inline void js::jit::AtomicOperations::storeSafeWhenRacy(T* addr, T val) { \
+ union { \
+ uint32_t u[2]; \
+ T t; \
+ }; \
+ t = val; \
+ uint32_t* ptr = (uint32_t*)addr; \
+ AtomicStore32Unsynchronized(ptr, u[0]); \
+ AtomicStore32Unsynchronized(ptr + 1, u[1]); \
+ }
+#endif // !JS_64BIT
+
+namespace js {
+namespace jit {
+
+JIT_STORESAFE(int8_t, uint8_t, AtomicStore8Unsynchronized)
+JIT_STORESAFE(uint8_t, uint8_t, AtomicStore8Unsynchronized)
+JIT_STORESAFE(int16_t, uint16_t, AtomicStore16Unsynchronized)
+JIT_STORESAFE(uint16_t, uint16_t, AtomicStore16Unsynchronized)
+JIT_STORESAFE(int32_t, uint32_t, AtomicStore32Unsynchronized)
+JIT_STORESAFE(uint32_t, uint32_t, AtomicStore32Unsynchronized)
+#ifdef JIT_STORESAFE_TEARING
+JIT_STORESAFE_TEARING(int64_t)
+JIT_STORESAFE_TEARING(uint64_t)
+JIT_STORESAFE_TEARING(double)
+#else
+JIT_STORESAFE(int64_t, uint64_t, AtomicStore64Unsynchronized)
+JIT_STORESAFE(uint64_t, uint64_t, AtomicStore64Unsynchronized)
+JIT_STORESAFE(double, uint64_t, AtomicStore64Unsynchronized)
+#endif
+JIT_STORESAFE(float, uint32_t, AtomicStore32Unsynchronized)
+
+// Clang requires a specialization for uint8_clamped.
+template <>
+inline void js::jit::AtomicOperations::storeSafeWhenRacy(uint8_clamped* addr,
+ uint8_clamped val) {
+ storeSafeWhenRacy((uint8_t*)addr, (uint8_t)val);
+}
+
+} // namespace jit
+} // namespace js
+
+#undef JIT_STORESAFE
+#undef JIT_STORESAFE_TEARING
+
+void js::jit::AtomicOperations::memcpySafeWhenRacy(void* dest, const void* src,
+ size_t nbytes) {
+ MOZ_ASSERT(!((char*)dest <= (char*)src && (char*)src < (char*)dest + nbytes));
+ MOZ_ASSERT(!((char*)src <= (char*)dest && (char*)dest < (char*)src + nbytes));
+ AtomicMemcpyDownUnsynchronized((uint8_t*)dest, (const uint8_t*)src, nbytes);
+}
+
+inline void js::jit::AtomicOperations::memmoveSafeWhenRacy(void* dest,
+ const void* src,
+ size_t nbytes) {
+ if ((char*)dest <= (char*)src) {
+ AtomicMemcpyDownUnsynchronized((uint8_t*)dest, (const uint8_t*)src, nbytes);
+ } else {
+ AtomicMemcpyUpUnsynchronized((uint8_t*)dest, (const uint8_t*)src, nbytes);
+ }
+}
+
+#endif // jit_shared_AtomicOperations_shared_jit_h