Ejemplo n.º 1
0
FrameIterator::FrameIterator(const WasmActivation& activation)
  : cx_(activation.cx()),
    instance_(&activation.instance()),
    callsite_(nullptr),
    codeRange_(nullptr),
    fp_(activation.fp()),
    missingFrameMessage_(false)
{
    if (fp_) {
        settle();
        return;
    }

    void* pc = activation.resumePC();
    if (!pc)
        return;

    const CodeRange* codeRange = instance_->lookupCodeRange(pc);
    MOZ_ASSERT(codeRange);

    if (codeRange->kind() == CodeRange::Function)
        codeRange_ = codeRange;
    else
        missingFrameMessage_ = true;

    MOZ_ASSERT(!done());
}
Ejemplo n.º 2
0
ProfilingFrameIterator::ProfilingFrameIterator(const WasmActivation& activation)
  : instance_(&activation.instance()),
    codeRange_(nullptr),
    callerFP_(nullptr),
    callerPC_(nullptr),
    stackAddress_(nullptr),
    exitReason_(ExitReason::None)
{
    // If profiling hasn't been enabled for this instance, then CallerFPFromFP
    // will be trash, so ignore the entire activation. In practice, this only
    // happens if profiling is enabled while the instance is on the stack (in
    // which case profiling will be enabled when the instance becomes inactive
    // and gets called again).
    if (!instance_->profilingEnabled()) {
        MOZ_ASSERT(done());
        return;
    }

    initFromFP(activation);
}
Ejemplo n.º 3
0
ProfilingFrameIterator::ProfilingFrameIterator(const WasmActivation& activation,
                                               const RegisterState& state)
  : instance_(&activation.instance()),
    codeRange_(nullptr),
    callerFP_(nullptr),
    callerPC_(nullptr),
    stackAddress_(nullptr),
    exitReason_(ExitReason::None)
{
    // If profiling hasn't been enabled for this instance, then CallerFPFromFP
    // will be trash, so ignore the entire activation. In practice, this only
    // happens if profiling is enabled while the instance is on the stack (in
    // which case profiling will be enabled when the instance becomes inactive
    // and gets called again).
    if (!instance_->profilingEnabled()) {
        MOZ_ASSERT(done());
        return;
    }

    // If pc isn't in the instance's code, we must have exited the code via an
    // exit trampoline or signal handler.
    if (!instance_->codeSegment().containsCodePC(state.pc)) {
        initFromFP(activation);
        return;
    }

    // Note: fp may be null while entering and leaving the activation.
    uint8_t* fp = activation.fp();

    const CodeRange* codeRange = instance_->lookupCodeRange(state.pc);
    switch (codeRange->kind()) {
      case CodeRange::Function:
      case CodeRange::CallThunk:
      case CodeRange::ImportJitExit:
      case CodeRange::ImportInterpExit: {
        // When the pc is inside the prologue/epilogue, the innermost
        // call's AsmJSFrame is not complete and thus fp points to the the
        // second-to-innermost call's AsmJSFrame. Since fp can only tell you
        // about its caller (via ReturnAddressFromFP(fp)), naively unwinding
        // while pc is in the prologue/epilogue would skip the second-to-
        // innermost call. To avoid this problem, we use the static structure of
        // the code in the prologue and epilogue to do the Right Thing.
        MOZ_ASSERT(instance_->codeSegment().containsCodePC(state.pc));
        uint32_t offsetInModule = (uint8_t*)state.pc - instance_->codeSegment().code();
        MOZ_ASSERT(offsetInModule >= codeRange->begin());
        MOZ_ASSERT(offsetInModule < codeRange->end());
        uint32_t offsetInCodeRange = offsetInModule - codeRange->begin();
        void** sp = (void**)state.sp;
#if defined(JS_CODEGEN_ARM) || defined(JS_CODEGEN_MIPS32) || defined(JS_CODEGEN_MIPS64)
        if (offsetInCodeRange < PushedRetAddr || InThunk(*codeRange, offsetInModule)) {
            // First instruction of the ARM/MIPS function; the return address is
            // still in lr and fp still holds the caller's fp.
            callerPC_ = state.lr;
            callerFP_ = fp;
            AssertMatchesCallSite(*instance_, callerPC_, callerFP_, sp - 2);
        } else if (offsetInModule == codeRange->profilingReturn() - PostStorePrePopFP) {
            // Second-to-last instruction of the ARM/MIPS function; fp points to
            // the caller's fp; have not yet popped AsmJSFrame.
            callerPC_ = ReturnAddressFromFP(sp);
            callerFP_ = CallerFPFromFP(sp);
            AssertMatchesCallSite(*instance_, callerPC_, callerFP_, sp);
        } else
#endif
        if (offsetInCodeRange < PushedFP || offsetInModule == codeRange->profilingReturn() ||
            InThunk(*codeRange, offsetInModule))
        {
            // The return address has been pushed on the stack but not fp; fp
            // still points to the caller's fp.
            callerPC_ = *sp;
            callerFP_ = fp;
            AssertMatchesCallSite(*instance_, callerPC_, callerFP_, sp - 1);
        } else if (offsetInCodeRange < StoredFP) {
            // The full AsmJSFrame has been pushed; fp still points to the
            // caller's frame.
            MOZ_ASSERT(fp == CallerFPFromFP(sp));
            callerPC_ = ReturnAddressFromFP(sp);
            callerFP_ = CallerFPFromFP(sp);
            AssertMatchesCallSite(*instance_, callerPC_, callerFP_, sp);
        } else {
            // Not in the prologue/epilogue.
            callerPC_ = ReturnAddressFromFP(fp);
            callerFP_ = CallerFPFromFP(fp);
            AssertMatchesCallSite(*instance_, callerPC_, callerFP_, fp);
        }
        break;
      }
      case CodeRange::Entry: {
        // The entry trampoline is the final frame in an WasmActivation. The entry
        // trampoline also doesn't GeneratePrologue/Epilogue so we can't use
        // the general unwinding logic above.
        MOZ_ASSERT(!fp);
        callerPC_ = nullptr;
        callerFP_ = nullptr;
        break;
      }
      case CodeRange::Inline: {
        // The throw stub clears WasmActivation::fp on it's way out.
        if (!fp) {
            MOZ_ASSERT(done());
            return;
        }

        // Most inline code stubs execute after the prologue/epilogue have
        // completed so we can simply unwind based on fp. The only exception is
        // the async interrupt stub, since it can be executed at any time.
        // However, the async interrupt is super rare, so we can tolerate
        // skipped frames. Thus, we use simply unwind based on fp.
        callerPC_ = ReturnAddressFromFP(fp);
        callerFP_ = CallerFPFromFP(fp);
        AssertMatchesCallSite(*instance_, callerPC_, callerFP_, fp);
        break;
      }
    }

    codeRange_ = codeRange;
    stackAddress_ = state.sp;
    MOZ_ASSERT(!done());
}