//===-- sanitizer_stacktrace_test.cpp -------------------------------------===// // // 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/AddressSanitizer runtime. // //===----------------------------------------------------------------------===// #include "sanitizer_common/sanitizer_stacktrace.h" #include #include #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "sanitizer_common/sanitizer_common.h" #include "sanitizer_internal_defs.h" using testing::ContainsRegex; using testing::MatchesRegex; namespace __sanitizer { class FastUnwindTest : public ::testing::Test { protected: virtual void SetUp(); virtual void TearDown(); void UnwindFast(); void *mapping; uhwptr *fake_stack; const uptr fake_stack_size = 10; uhwptr start_pc; uhwptr fake_bp; uhwptr fake_top; uhwptr fake_bottom; BufferedStackTrace trace; #if defined(__loongarch__) || defined(__riscv) const uptr kFpOffset = 4; const uptr kBpOffset = 2; #else const uptr kFpOffset = 2; const uptr kBpOffset = 0; #endif private: CommonFlags tmp_flags_; }; static uptr PC(uptr idx) { return (1<<20) + idx; } void FastUnwindTest::SetUp() { size_t ps = GetPageSize(); mapping = MmapOrDie(2 * ps, "FastUnwindTest"); MprotectNoAccess((uptr)mapping, ps); // Unwinder may peek 1 word down from the starting FP. fake_stack = (uhwptr *)((uptr)mapping + ps + sizeof(uhwptr)); // Fill an array of pointers with fake fp+retaddr pairs. Frame pointers have // even indices. for (uptr i = 0; i + 1 < fake_stack_size; i += 2) { fake_stack[i] = (uptr)&fake_stack[i + kFpOffset]; // fp fake_stack[i+1] = PC(i + 1); // retaddr } // Mark the last fp point back up to terminate the stack trace. fake_stack[RoundDownTo(fake_stack_size - 1, 2)] = (uhwptr)&fake_stack[0]; // Top is two slots past the end because UnwindFast subtracts two. fake_top = (uhwptr)&fake_stack[fake_stack_size + kFpOffset]; // Bottom is one slot before the start because UnwindFast uses >. fake_bottom = (uhwptr)mapping; fake_bp = (uptr)&fake_stack[kBpOffset]; start_pc = PC(0); tmp_flags_.CopyFrom(*common_flags()); } void FastUnwindTest::TearDown() { size_t ps = GetPageSize(); UnmapOrDie(mapping, 2 * ps); // Restore default flags. OverrideCommonFlags(tmp_flags_); } #if SANITIZER_CAN_FAST_UNWIND #ifdef __sparc__ // Fake stacks don't meet SPARC UnwindFast requirements. #define SKIP_ON_SPARC(x) DISABLED_##x #else #define SKIP_ON_SPARC(x) x #endif void FastUnwindTest::UnwindFast() { trace.UnwindFast(start_pc, fake_bp, fake_top, fake_bottom, kStackTraceMax); } TEST_F(FastUnwindTest, SKIP_ON_SPARC(Basic)) { UnwindFast(); // Should get all on-stack retaddrs and start_pc. EXPECT_EQ(6U, trace.size); EXPECT_EQ(start_pc, trace.trace[0]); for (uptr i = 1; i <= 5; i++) { EXPECT_EQ(PC(i*2 - 1), trace.trace[i]); } } // From: https://github.com/google/sanitizers/issues/162 TEST_F(FastUnwindTest, SKIP_ON_SPARC(FramePointerLoop)) { // Make one fp point to itself. fake_stack[4] = (uhwptr)&fake_stack[4]; UnwindFast(); // Should get all on-stack retaddrs up to the 4th slot and start_pc. EXPECT_EQ(4U, trace.size); EXPECT_EQ(start_pc, trace.trace[0]); for (uptr i = 1; i <= 3; i++) { EXPECT_EQ(PC(i*2 - 1), trace.trace[i]); } } TEST_F(FastUnwindTest, SKIP_ON_SPARC(MisalignedFramePointer)) { // Make one fp misaligned. fake_stack[4] += 3; UnwindFast(); // Should get all on-stack retaddrs up to the 4th slot and start_pc. EXPECT_EQ(4U, trace.size); EXPECT_EQ(start_pc, trace.trace[0]); for (uptr i = 1; i < 4U; i++) { EXPECT_EQ(PC(i*2 - 1), trace.trace[i]); } } TEST_F(FastUnwindTest, OneFrameStackTrace) { trace.Unwind(start_pc, fake_bp, nullptr, true, 1); EXPECT_EQ(1U, trace.size); EXPECT_EQ(start_pc, trace.trace[0]); EXPECT_EQ((uhwptr)&fake_stack[kBpOffset], trace.top_frame_bp); } TEST_F(FastUnwindTest, ZeroFramesStackTrace) { trace.Unwind(start_pc, fake_bp, nullptr, true, 0); EXPECT_EQ(0U, trace.size); EXPECT_EQ(0U, trace.top_frame_bp); } TEST_F(FastUnwindTest, SKIP_ON_SPARC(FPBelowPrevFP)) { // The next FP points to unreadable memory inside the stack limits, but below // current FP. fake_stack[0] = (uhwptr)&fake_stack[-50]; fake_stack[1] = PC(1); UnwindFast(); EXPECT_EQ(2U, trace.size); EXPECT_EQ(PC(0), trace.trace[0]); EXPECT_EQ(PC(1), trace.trace[1]); } TEST_F(FastUnwindTest, SKIP_ON_SPARC(CloseToZeroFrame)) { // Make one pc a NULL pointer. fake_stack[5] = 0x0; UnwindFast(); // The stack should be truncated at the NULL pointer (and not include it). EXPECT_EQ(3U, trace.size); EXPECT_EQ(start_pc, trace.trace[0]); for (uptr i = 1; i < 3U; i++) { EXPECT_EQ(PC(i*2 - 1), trace.trace[i]); } } using StackPrintTest = FastUnwindTest; TEST_F(StackPrintTest, SKIP_ON_SPARC(ContainsFullTrace)) { // Override stack trace format to make testing code independent of default // flag values. CommonFlags flags; flags.CopyFrom(*common_flags()); flags.stack_trace_format = "#%n %p"; OverrideCommonFlags(flags); UnwindFast(); char buf[3000]; trace.PrintTo(buf, sizeof(buf)); EXPECT_THAT(std::string(buf), MatchesRegex("(#[0-9]+ 0x[0-9a-f]+\n){" + std::to_string(trace.size) + "}\n")); } TEST_F(StackPrintTest, SKIP_ON_SPARC(TruncatesContents)) { UnwindFast(); char buf[3000]; uptr actual_len = trace.PrintTo(buf, sizeof(buf)); ASSERT_LT(actual_len, sizeof(buf)); char tinybuf[10]; trace.PrintTo(tinybuf, sizeof(tinybuf)); // This the truncation case. ASSERT_GT(actual_len, sizeof(tinybuf)); // The truncated contents should be a prefix of the full contents. size_t lastpos = sizeof(tinybuf) - 1; EXPECT_EQ(strncmp(buf, tinybuf, lastpos), 0); EXPECT_EQ(tinybuf[lastpos], '\0'); // Full bufffer has more contents... EXPECT_NE(buf[lastpos], '\0'); } TEST_F(StackPrintTest, SKIP_ON_SPARC(WorksWithEmptyStack)) { char buf[3000]; trace.PrintTo(buf, sizeof(buf)); EXPECT_NE(strstr(buf, ""), nullptr); } TEST_F(StackPrintTest, SKIP_ON_SPARC(ReturnsCorrectLength)) { UnwindFast(); char buf[3000]; uptr len = trace.PrintTo(buf, sizeof(buf)); size_t actual_len = strlen(buf); ASSERT_LT(len, sizeof(buf)); EXPECT_EQ(len, actual_len); char tinybuf[5]; len = trace.PrintTo(tinybuf, sizeof(tinybuf)); size_t truncated_len = strlen(tinybuf); ASSERT_GE(len, sizeof(tinybuf)); EXPECT_EQ(len, actual_len); EXPECT_EQ(truncated_len, sizeof(tinybuf) - 1); } TEST_F(StackPrintTest, SKIP_ON_SPARC(AcceptsZeroSize)) { UnwindFast(); char buf[1]; EXPECT_GT(trace.PrintTo(buf, 0), 0u); } using StackPrintDeathTest = StackPrintTest; TEST_F(StackPrintDeathTest, SKIP_ON_SPARC(RequiresNonNullBuffer)) { UnwindFast(); EXPECT_DEATH(trace.PrintTo(NULL, 100), ""); } #endif // SANITIZER_CAN_FAST_UNWIND TEST(SlowUnwindTest, ShortStackTrace) { UNINITIALIZED BufferedStackTrace stack; uptr pc = StackTrace::GetCurrentPc(); uptr bp = GET_CURRENT_FRAME(); stack.Unwind(pc, bp, nullptr, false, /*max_depth=*/0); EXPECT_EQ(0U, stack.size); EXPECT_EQ(0U, stack.top_frame_bp); stack.Unwind(pc, bp, nullptr, false, /*max_depth=*/1); EXPECT_EQ(1U, stack.size); EXPECT_EQ(pc, stack.trace[0]); EXPECT_EQ(bp, stack.top_frame_bp); } TEST(GetCurrentPc, Basic) { // Test that PCs obtained via GET_CURRENT_PC() // and StackTrace::GetCurrentPc() are all different // and are close to the function start. struct Local { static NOINLINE void Test() { const uptr pcs[] = { (uptr)&Local::Test, GET_CURRENT_PC(), StackTrace::GetCurrentPc(), StackTrace::GetCurrentPc(), }; for (uptr i = 0; i < ARRAY_SIZE(pcs); i++) Printf("pc%zu: %p\n", i, (void *)(pcs[i])); for (uptr i = 1; i < ARRAY_SIZE(pcs); i++) { EXPECT_GT(pcs[i], pcs[0]); EXPECT_LT(pcs[i], pcs[0] + 1000); for (uptr j = 0; j < i; j++) EXPECT_NE(pcs[i], pcs[j]); } } }; Local::Test(); } // Dummy implementation. This should never be called, but is required to link // non-optimized builds of this test. void BufferedStackTrace::UnwindImpl(uptr pc, uptr bp, void *context, bool request_fast, u32 max_depth) { UNIMPLEMENTED(); } } // namespace __sanitizer