| //===-- tsan_trace.h --------------------------------------------*- C++ -*-===// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // This file is a part of ThreadSanitizer (TSan), a race detector. |
| // |
| //===----------------------------------------------------------------------===// |
| #ifndef TSAN_TRACE_H |
| #define TSAN_TRACE_H |
| |
| #include "tsan_defs.h" |
| #include "tsan_ilist.h" |
| #include "tsan_mutexset.h" |
| #include "tsan_stack_trace.h" |
| |
| namespace __tsan { |
| |
| const int kTracePartSizeBits = 13; |
| const int kTracePartSize = 1 << kTracePartSizeBits; |
| const int kTraceParts = 2 * 1024 * 1024 / kTracePartSize; |
| const int kTraceSize = kTracePartSize * kTraceParts; |
| |
| // Must fit into 3 bits. |
| enum EventType { |
| EventTypeMop, |
| EventTypeFuncEnter, |
| EventTypeFuncExit, |
| EventTypeLock, |
| EventTypeUnlock, |
| EventTypeRLock, |
| EventTypeRUnlock |
| }; |
| |
| // Represents a thread event (from most significant bit): |
| // u64 typ : 3; // EventType. |
| // u64 addr : 61; // Associated pc. |
| typedef u64 Event; |
| |
| const uptr kEventPCBits = 61; |
| |
| struct TraceHeader { |
| #if !SANITIZER_GO |
| BufferedStackTrace stack0; // Start stack for the trace. |
| #else |
| VarSizeStackTrace stack0; |
| #endif |
| u64 epoch0; // Start epoch for the trace. |
| MutexSet mset0; |
| |
| TraceHeader() : stack0(), epoch0() {} |
| }; |
| |
| struct Trace { |
| Mutex mtx; |
| #if !SANITIZER_GO |
| // Must be last to catch overflow as paging fault. |
| // Go shadow stack is dynamically allocated. |
| uptr shadow_stack[kShadowStackSize]; |
| #endif |
| // Must be the last field, because we unmap the unused part in |
| // CreateThreadContext. |
| TraceHeader headers[kTraceParts]; |
| |
| Trace() : mtx(MutexTypeTrace) {} |
| }; |
| |
| namespace v3 { |
| |
| enum class EventType : u64 { |
| kAccessExt, |
| kAccessRange, |
| kLock, |
| kRLock, |
| kUnlock, |
| kTime, |
| }; |
| |
| // "Base" type for all events for type dispatch. |
| struct Event { |
| // We use variable-length type encoding to give more bits to some event |
| // types that need them. If is_access is set, this is EventAccess. |
| // Otherwise, if is_func is set, this is EventFunc. |
| // Otherwise type denotes the type. |
| u64 is_access : 1; |
| u64 is_func : 1; |
| EventType type : 3; |
| u64 _ : 59; |
| }; |
| static_assert(sizeof(Event) == 8, "bad Event size"); |
| |
| // Nop event used as padding and does not affect state during replay. |
| static constexpr Event NopEvent = {1, 0, EventType::kAccessExt, 0}; |
| |
| // Compressed memory access can represent only some events with PCs |
| // close enough to each other. Otherwise we fall back to EventAccessExt. |
| struct EventAccess { |
| static constexpr uptr kPCBits = 15; |
| |
| u64 is_access : 1; // = 1 |
| u64 is_read : 1; |
| u64 is_atomic : 1; |
| u64 size_log : 2; |
| u64 pc_delta : kPCBits; // signed delta from the previous memory access PC |
| u64 addr : kCompressedAddrBits; |
| }; |
| static_assert(sizeof(EventAccess) == 8, "bad EventAccess size"); |
| |
| // Function entry (pc != 0) or exit (pc == 0). |
| struct EventFunc { |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 1 |
| u64 pc : 62; |
| }; |
| static_assert(sizeof(EventFunc) == 8, "bad EventFunc size"); |
| |
| // Extended memory access with full PC. |
| struct EventAccessExt { |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 0 |
| EventType type : 3; // = EventType::kAccessExt |
| u64 is_read : 1; |
| u64 is_atomic : 1; |
| u64 size_log : 2; |
| u64 _ : 11; |
| u64 addr : kCompressedAddrBits; |
| u64 pc; |
| }; |
| static_assert(sizeof(EventAccessExt) == 16, "bad EventAccessExt size"); |
| |
| // Access to a memory range. |
| struct EventAccessRange { |
| static constexpr uptr kSizeLoBits = 13; |
| |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 0 |
| EventType type : 3; // = EventType::kAccessRange |
| u64 is_read : 1; |
| u64 is_free : 1; |
| u64 size_lo : kSizeLoBits; |
| u64 pc : kCompressedAddrBits; |
| u64 addr : kCompressedAddrBits; |
| u64 size_hi : 64 - kCompressedAddrBits; |
| }; |
| static_assert(sizeof(EventAccessRange) == 16, "bad EventAccessRange size"); |
| |
| // Mutex lock. |
| struct EventLock { |
| static constexpr uptr kStackIDLoBits = 15; |
| |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 0 |
| EventType type : 3; // = EventType::kLock or EventType::kRLock |
| u64 pc : kCompressedAddrBits; |
| u64 stack_lo : kStackIDLoBits; |
| u64 stack_hi : sizeof(StackID) * kByteBits - kStackIDLoBits; |
| u64 _ : 3; |
| u64 addr : kCompressedAddrBits; |
| }; |
| static_assert(sizeof(EventLock) == 16, "bad EventLock size"); |
| |
| // Mutex unlock. |
| struct EventUnlock { |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 0 |
| EventType type : 3; // = EventType::kUnlock |
| u64 _ : 15; |
| u64 addr : kCompressedAddrBits; |
| }; |
| static_assert(sizeof(EventUnlock) == 8, "bad EventUnlock size"); |
| |
| // Time change event. |
| struct EventTime { |
| u64 is_access : 1; // = 0 |
| u64 is_func : 1; // = 0 |
| EventType type : 3; // = EventType::kTime |
| u64 sid : sizeof(Sid) * kByteBits; |
| u64 epoch : kEpochBits; |
| u64 _ : 64 - 5 - sizeof(Sid) * kByteBits - kEpochBits; |
| }; |
| static_assert(sizeof(EventTime) == 8, "bad EventTime size"); |
| |
| struct Trace; |
| |
| struct TraceHeader { |
| Trace* trace = nullptr; // back-pointer to Trace containing this part |
| INode trace_parts; // in Trace::parts |
| }; |
| |
| struct TracePart : TraceHeader { |
| static constexpr uptr kByteSize = 256 << 10; |
| static constexpr uptr kSize = |
| (kByteSize - sizeof(TraceHeader)) / sizeof(Event); |
| // TraceAcquire does a fast event pointer overflow check by comparing |
| // pointer into TracePart::events with kAlignment mask. Since TracePart's |
| // are allocated page-aligned, this check detects end of the array |
| // (it also have false positives in the middle that are filtered separately). |
| // This also requires events to be the last field. |
| static constexpr uptr kAlignment = 0xff0; |
| Event events[kSize]; |
| |
| TracePart() {} |
| }; |
| static_assert(sizeof(TracePart) == TracePart::kByteSize, "bad TracePart size"); |
| |
| struct Trace { |
| Mutex mtx; |
| IList<TraceHeader, &TraceHeader::trace_parts, TracePart> parts; |
| Event* final_pos = |
| nullptr; // final position in the last part for finished threads |
| |
| Trace() : mtx(MutexTypeTrace) {} |
| }; |
| |
| } // namespace v3 |
| |
| } // namespace __tsan |
| |
| #endif // TSAN_TRACE_H |