// Copyright (c) 2010, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com> // stackwalker_amd64_unittest.cc: Unit tests for StackwalkerAMD64 class. #include <string.h> #include <string> #include <vector> #include "breakpad_googletest_includes.h" #include "common/test_assembler.h" #include "common/using_std_string.h" #include "google_breakpad/common/minidump_format.h" #include "google_breakpad/processor/basic_source_line_resolver.h" #include "google_breakpad/processor/call_stack.h" #include "google_breakpad/processor/code_module.h" #include "google_breakpad/processor/source_line_resolver_interface.h" #include "google_breakpad/processor/stack_frame_cpu.h" #include "processor/stackwalker_unittest_utils.h" #include "processor/stackwalker_amd64.h" using google_breakpad::BasicSourceLineResolver; using google_breakpad::CallStack; using google_breakpad::CodeModule; using google_breakpad::StackFrameSymbolizer; using google_breakpad::StackFrame; using google_breakpad::StackFrameAMD64; using google_breakpad::Stackwalker; using google_breakpad::StackwalkerAMD64; using google_breakpad::SystemInfo; using google_breakpad::test_assembler::kLittleEndian; using google_breakpad::test_assembler::Label; using google_breakpad::test_assembler::Section; using std::vector; using testing::_; using testing::AnyNumber; using testing::Return; using testing::SetArgumentPointee; using testing::Test; class StackwalkerAMD64Fixture { public: StackwalkerAMD64Fixture() : stack_section(kLittleEndian), // Give the two modules reasonable standard locations and names // for tests to play with. module1(0x40000000c0000000ULL, 0x10000, "module1", "version1"), module2(0x50000000b0000000ULL, 0x10000, "module2", "version2") { // Identify the system as a Linux system. system_info.os = "Linux"; system_info.os_short = "linux"; system_info.os_version = "Horrendous Hippo"; system_info.cpu = "x86"; system_info.cpu_info = ""; // Put distinctive values in the raw CPU context. BrandContext(&raw_context); // Create some modules with some stock debugging information. modules.Add(&module1); modules.Add(&module2); // By default, none of the modules have symbol info; call // SetModuleSymbols to override this. EXPECT_CALL(supplier, GetCStringSymbolData(_, _, _, _, _)) .WillRepeatedly(Return(MockSymbolSupplier::NOT_FOUND)); // Avoid GMOCK WARNING "Uninteresting mock function call - returning // directly" for FreeSymbolData(). EXPECT_CALL(supplier, FreeSymbolData(_)).Times(AnyNumber()); // Reset max_frames_scanned since it's static. Stackwalker::set_max_frames_scanned(1024); } // Set the Breakpad symbol information that supplier should return for // MODULE to INFO. void SetModuleSymbols(MockCodeModule *module, const string &info) { size_t buffer_size; char *buffer = supplier.CopySymbolDataAndOwnTheCopy(info, &buffer_size); EXPECT_CALL(supplier, GetCStringSymbolData(module, &system_info, _, _, _)) .WillRepeatedly(DoAll(SetArgumentPointee<3>(buffer), SetArgumentPointee<4>(buffer_size), Return(MockSymbolSupplier::FOUND))); } // Populate stack_region with the contents of stack_section. Use // stack_section.start() as the region's starting address. void RegionFromSection() { string contents; ASSERT_TRUE(stack_section.GetContents(&contents)); stack_region.Init(stack_section.start().Value(), contents); } // Fill RAW_CONTEXT with pseudo-random data, for round-trip checking. void BrandContext(MDRawContextAMD64 *raw_context) { uint8_t x = 173; for (size_t i = 0; i < sizeof(*raw_context); i++) reinterpret_cast<uint8_t *>(raw_context)[i] = (x += 17); } SystemInfo system_info; MDRawContextAMD64 raw_context; Section stack_section; MockMemoryRegion stack_region; MockCodeModule module1; MockCodeModule module2; MockCodeModules modules; MockSymbolSupplier supplier; BasicSourceLineResolver resolver; CallStack call_stack; const vector<StackFrame *> *frames; }; class GetContextFrame: public StackwalkerAMD64Fixture, public Test { }; class SanityCheck: public StackwalkerAMD64Fixture, public Test { }; TEST_F(SanityCheck, NoResolver) { // There should be no references to the stack in this walk: we don't // provide any call frame information, so trying to reconstruct the // context frame's caller should fail. So there's no need for us to // provide stack contents. raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = 0x8000000080000000ULL; StackFrameSymbolizer frame_symbolizer(NULL, NULL); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); // This should succeed even without a resolver or supplier. vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(1U, modules_without_symbols.size()); ASSERT_EQ("module1", modules_without_symbols[0]->debug_file()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_GE(1U, frames->size()); StackFrameAMD64 *frame = static_cast<StackFrameAMD64 *>(frames->at(0)); // Check that the values from the original raw context made it // through to the context in the stack frame. EXPECT_EQ(0, memcmp(&raw_context, &frame->context, sizeof(raw_context))); } TEST_F(GetContextFrame, Simple) { // There should be no references to the stack in this walk: we don't // provide any call frame information, so trying to reconstruct the // context frame's caller should fail. So there's no need for us to // provide stack contents. raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = 0x8000000080000000ULL; StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(1U, modules_without_symbols.size()); ASSERT_EQ("module1", modules_without_symbols[0]->debug_file()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_GE(1U, frames->size()); StackFrameAMD64 *frame = static_cast<StackFrameAMD64 *>(frames->at(0)); // Check that the values from the original raw context made it // through to the context in the stack frame. EXPECT_EQ(0, memcmp(&raw_context, &frame->context, sizeof(raw_context))); } // The stackwalker should be able to produce the context frame even // without stack memory present. TEST_F(GetContextFrame, NoStackMemory) { raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = 0x8000000080000000ULL; StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, NULL, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(1U, modules_without_symbols.size()); ASSERT_EQ("module1", modules_without_symbols[0]->debug_file()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_GE(1U, frames->size()); StackFrameAMD64 *frame = static_cast<StackFrameAMD64 *>(frames->at(0)); // Check that the values from the original raw context made it // through to the context in the stack frame. EXPECT_EQ(0, memcmp(&raw_context, &frame->context, sizeof(raw_context))); } class GetCallerFrame: public StackwalkerAMD64Fixture, public Test { }; TEST_F(GetCallerFrame, ScanWithoutSymbols) { // When the stack walker resorts to scanning the stack, // only addresses located within loaded modules are // considered valid return addresses. // Force scanning through three frames to ensure that the // stack pointer is set properly in scan-recovered frames. stack_section.start() = 0x8000000080000000ULL; uint64_t return_address1 = 0x50000000b0000100ULL; uint64_t return_address2 = 0x50000000b0000900ULL; Label frame1_sp, frame2_sp, frame1_rbp; stack_section // frame 0 .Append(16, 0) // space .D64(0x40000000b0000000ULL) // junk that's not .D64(0x50000000d0000000ULL) // a return address .D64(return_address1) // actual return address // frame 1 .Mark(&frame1_sp) .Append(16, 0) // space .D64(0x40000000b0000000ULL) // more junk .D64(0x50000000d0000000ULL) .Mark(&frame1_rbp) .D64(stack_section.start()) // This is in the right place to be // a saved rbp, but it's bogus, so // we shouldn't report it. .D64(return_address2) // actual return address // frame 2 .Mark(&frame2_sp) .Append(32, 0); // end of stack RegionFromSection(); raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = frame1_rbp.Value(); raw_context.rsp = stack_section.start().Value(); StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(2U, modules_without_symbols.size()); ASSERT_EQ("module1", modules_without_symbols[0]->debug_file()); ASSERT_EQ("module2", modules_without_symbols[1]->debug_file()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_EQ(3U, frames->size()); StackFrameAMD64 *frame0 = static_cast<StackFrameAMD64 *>(frames->at(0)); EXPECT_EQ(StackFrame::FRAME_TRUST_CONTEXT, frame0->trust); ASSERT_EQ(StackFrameAMD64::CONTEXT_VALID_ALL, frame0->context_validity); EXPECT_EQ(0, memcmp(&raw_context, &frame0->context, sizeof(raw_context))); StackFrameAMD64 *frame1 = static_cast<StackFrameAMD64 *>(frames->at(1)); EXPECT_EQ(StackFrame::FRAME_TRUST_SCAN, frame1->trust); ASSERT_EQ((StackFrameAMD64::CONTEXT_VALID_RIP | StackFrameAMD64::CONTEXT_VALID_RSP | StackFrameAMD64::CONTEXT_VALID_RBP), frame1->context_validity); EXPECT_EQ(return_address1, frame1->context.rip); EXPECT_EQ(frame1_sp.Value(), frame1->context.rsp); EXPECT_EQ(frame1_rbp.Value(), frame1->context.rbp); StackFrameAMD64 *frame2 = static_cast<StackFrameAMD64 *>(frames->at(2)); EXPECT_EQ(StackFrame::FRAME_TRUST_SCAN, frame2->trust); ASSERT_EQ((StackFrameAMD64::CONTEXT_VALID_RIP | StackFrameAMD64::CONTEXT_VALID_RSP), frame2->context_validity); EXPECT_EQ(return_address2, frame2->context.rip); EXPECT_EQ(frame2_sp.Value(), frame2->context.rsp); } TEST_F(GetCallerFrame, ScanWithFunctionSymbols) { // During stack scanning, if a potential return address // is located within a loaded module that has symbols, // it is only considered a valid return address if it // lies within a function's bounds. stack_section.start() = 0x8000000080000000ULL; uint64_t return_address = 0x50000000b0000110ULL; Label frame1_sp, frame1_rbp; stack_section // frame 0 .Append(16, 0) // space .D64(0x40000000b0000000ULL) // junk that's not .D64(0x50000000b0000000ULL) // a return address .D64(0x40000000c0001000ULL) // a couple of plausible addresses .D64(0x50000000b000aaaaULL) // that are not within functions .D64(return_address) // actual return address // frame 1 .Mark(&frame1_sp) .Append(32, 0) // end of stack .Mark(&frame1_rbp); RegionFromSection(); raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = frame1_rbp.Value(); raw_context.rsp = stack_section.start().Value(); SetModuleSymbols(&module1, // The youngest frame's function. "FUNC 100 400 10 platypus\n"); SetModuleSymbols(&module2, // The calling frame's function. "FUNC 100 400 10 echidna\n"); StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(0U, modules_without_symbols.size()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_EQ(2U, frames->size()); StackFrameAMD64 *frame0 = static_cast<StackFrameAMD64 *>(frames->at(0)); EXPECT_EQ(StackFrame::FRAME_TRUST_CONTEXT, frame0->trust); ASSERT_EQ(StackFrameAMD64::CONTEXT_VALID_ALL, frame0->context_validity); EXPECT_EQ("platypus", frame0->function_name); EXPECT_EQ(0x40000000c0000100ULL, frame0->function_base); StackFrameAMD64 *frame1 = static_cast<StackFrameAMD64 *>(frames->at(1)); EXPECT_EQ(StackFrame::FRAME_TRUST_SCAN, frame1->trust); ASSERT_EQ((StackFrameAMD64::CONTEXT_VALID_RIP | StackFrameAMD64::CONTEXT_VALID_RSP | StackFrameAMD64::CONTEXT_VALID_RBP), frame1->context_validity); EXPECT_EQ(return_address, frame1->context.rip); EXPECT_EQ(frame1_sp.Value(), frame1->context.rsp); EXPECT_EQ(frame1_rbp.Value(), frame1->context.rbp); EXPECT_EQ("echidna", frame1->function_name); EXPECT_EQ(0x50000000b0000100ULL, frame1->function_base); } // Test that set_max_frames_scanned prevents using stack scanning // to find caller frames. TEST_F(GetCallerFrame, ScanningNotAllowed) { // When the stack walker resorts to scanning the stack, // only addresses located within loaded modules are // considered valid return addresses. stack_section.start() = 0x8000000080000000ULL; uint64_t return_address1 = 0x50000000b0000100ULL; uint64_t return_address2 = 0x50000000b0000900ULL; Label frame1_sp, frame2_sp, frame1_rbp; stack_section // frame 0 .Append(16, 0) // space .D64(0x40000000b0000000ULL) // junk that's not .D64(0x50000000d0000000ULL) // a return address .D64(return_address1) // actual return address // frame 1 .Mark(&frame1_sp) .Append(16, 0) // space .D64(0x40000000b0000000ULL) // more junk .D64(0x50000000d0000000ULL) .Mark(&frame1_rbp) .D64(stack_section.start()) // This is in the right place to be // a saved rbp, but it's bogus, so // we shouldn't report it. .D64(return_address2) // actual return address // frame 2 .Mark(&frame2_sp) .Append(32, 0); // end of stack RegionFromSection(); raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = frame1_rbp.Value(); raw_context.rsp = stack_section.start().Value(); StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); Stackwalker::set_max_frames_scanned(0); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(1U, modules_without_symbols.size()); ASSERT_EQ("module1", modules_without_symbols[0]->debug_file()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_EQ(1U, frames->size()); StackFrameAMD64 *frame0 = static_cast<StackFrameAMD64 *>(frames->at(0)); EXPECT_EQ(StackFrame::FRAME_TRUST_CONTEXT, frame0->trust); ASSERT_EQ(StackFrameAMD64::CONTEXT_VALID_ALL, frame0->context_validity); EXPECT_EQ(0, memcmp(&raw_context, &frame0->context, sizeof(raw_context))); } TEST_F(GetCallerFrame, CallerPushedRBP) { // Functions typically push their %rbp upon entry and set %rbp pointing // there. If stackwalking finds a plausible address for the next frame's // %rbp directly below the return address, assume that it is indeed the // next frame's %rbp. stack_section.start() = 0x8000000080000000ULL; uint64_t return_address = 0x50000000b0000110ULL; Label frame0_rbp, frame1_sp, frame1_rbp; stack_section // frame 0 .Append(16, 0) // space .D64(0x40000000b0000000ULL) // junk that's not .D64(0x50000000b0000000ULL) // a return address .D64(0x40000000c0001000ULL) // a couple of plausible addresses .D64(0x50000000b000aaaaULL) // that are not within functions .Mark(&frame0_rbp) .D64(frame1_rbp) // caller-pushed %rbp .D64(return_address) // actual return address // frame 1 .Mark(&frame1_sp) .Append(32, 0) // body of frame1 .Mark(&frame1_rbp); // end of stack RegionFromSection(); raw_context.rip = 0x40000000c0000200ULL; raw_context.rbp = frame0_rbp.Value(); raw_context.rsp = stack_section.start().Value(); SetModuleSymbols(&module1, // The youngest frame's function. "FUNC 100 400 10 sasquatch\n"); SetModuleSymbols(&module2, // The calling frame's function. "FUNC 100 400 10 yeti\n"); StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(0U, modules_without_symbols.size()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_EQ(2U, frames->size()); StackFrameAMD64 *frame0 = static_cast<StackFrameAMD64 *>(frames->at(0)); EXPECT_EQ(StackFrame::FRAME_TRUST_CONTEXT, frame0->trust); ASSERT_EQ(StackFrameAMD64::CONTEXT_VALID_ALL, frame0->context_validity); EXPECT_EQ(frame0_rbp.Value(), frame0->context.rbp); EXPECT_EQ("sasquatch", frame0->function_name); EXPECT_EQ(0x40000000c0000100ULL, frame0->function_base); StackFrameAMD64 *frame1 = static_cast<StackFrameAMD64 *>(frames->at(1)); EXPECT_EQ(StackFrame::FRAME_TRUST_FP, frame1->trust); ASSERT_EQ((StackFrameAMD64::CONTEXT_VALID_RIP | StackFrameAMD64::CONTEXT_VALID_RSP | StackFrameAMD64::CONTEXT_VALID_RBP), frame1->context_validity); EXPECT_EQ(return_address, frame1->context.rip); EXPECT_EQ(frame1_sp.Value(), frame1->context.rsp); EXPECT_EQ(frame1_rbp.Value(), frame1->context.rbp); EXPECT_EQ("yeti", frame1->function_name); EXPECT_EQ(0x50000000b0000100ULL, frame1->function_base); } struct CFIFixture: public StackwalkerAMD64Fixture { CFIFixture() { // Provide a bunch of STACK CFI records; we'll walk to the caller // from every point in this series, expecting to find the same set // of register values. SetModuleSymbols(&module1, // The youngest frame's function. "FUNC 4000 1000 10 enchiridion\n" // Initially, just a return address. "STACK CFI INIT 4000 100 .cfa: $rsp 8 + .ra: .cfa 8 - ^\n" // Push %rbx. "STACK CFI 4001 .cfa: $rsp 16 + $rbx: .cfa 16 - ^\n" // Save %r12 in %rbx. Weird, but permitted. "STACK CFI 4002 $r12: $rbx\n" // Allocate frame space, and save %r13. "STACK CFI 4003 .cfa: $rsp 40 + $r13: .cfa 32 - ^\n" // Put the return address in %r13. "STACK CFI 4005 .ra: $r13\n" // Save %rbp, and use it as a frame pointer. "STACK CFI 4006 .cfa: $rbp 16 + $rbp: .cfa 24 - ^\n" // The calling function. "FUNC 5000 1000 10 epictetus\n" // Mark it as end of stack. "STACK CFI INIT 5000 1000 .cfa: $rsp .ra 0\n"); // Provide some distinctive values for the caller's registers. expected.rsp = 0x8000000080000000ULL; expected.rip = 0x40000000c0005510ULL; expected.rbp = 0x68995b1de4700266ULL; expected.rbx = 0x5a5beeb38de23be8ULL; expected.r12 = 0xed1b02e8cc0fc79cULL; expected.r13 = 0x1d20ad8acacbe930ULL; expected.r14 = 0xe94cffc2f7adaa28ULL; expected.r15 = 0xb638d17d8da413b5ULL; // By default, registers are unchanged. raw_context = expected; } // Walk the stack, using stack_section as the contents of the stack // and raw_context as the current register values. (Set // raw_context.rsp to the stack's starting address.) Expect two // stack frames; in the older frame, expect the callee-saves // registers to have values matching those in 'expected'. void CheckWalk() { RegionFromSection(); raw_context.rsp = stack_section.start().Value(); StackFrameSymbolizer frame_symbolizer(&supplier, &resolver); StackwalkerAMD64 walker(&system_info, &raw_context, &stack_region, &modules, &frame_symbolizer); vector<const CodeModule*> modules_without_symbols; vector<const CodeModule*> modules_with_corrupt_symbols; ASSERT_TRUE(walker.Walk(&call_stack, &modules_without_symbols, &modules_with_corrupt_symbols)); ASSERT_EQ(0U, modules_without_symbols.size()); ASSERT_EQ(0U, modules_with_corrupt_symbols.size()); frames = call_stack.frames(); ASSERT_EQ(2U, frames->size()); StackFrameAMD64 *frame0 = static_cast<StackFrameAMD64 *>(frames->at(0)); EXPECT_EQ(StackFrame::FRAME_TRUST_CONTEXT, frame0->trust); ASSERT_EQ(StackFrameAMD64::CONTEXT_VALID_ALL, frame0->context_validity); EXPECT_EQ("enchiridion", frame0->function_name); EXPECT_EQ(0x40000000c0004000ULL, frame0->function_base); StackFrameAMD64 *frame1 = static_cast<StackFrameAMD64 *>(frames->at(1)); EXPECT_EQ(StackFrame::FRAME_TRUST_CFI, frame1->trust); ASSERT_EQ((StackFrameAMD64::CONTEXT_VALID_RIP | StackFrameAMD64::CONTEXT_VALID_RSP | StackFrameAMD64::CONTEXT_VALID_RBP | StackFrameAMD64::CONTEXT_VALID_RBX | StackFrameAMD64::CONTEXT_VALID_R12 | StackFrameAMD64::CONTEXT_VALID_R13 | StackFrameAMD64::CONTEXT_VALID_R14 | StackFrameAMD64::CONTEXT_VALID_R15), frame1->context_validity); EXPECT_EQ(expected.rip, frame1->context.rip); EXPECT_EQ(expected.rsp, frame1->context.rsp); EXPECT_EQ(expected.rbp, frame1->context.rbp); EXPECT_EQ(expected.rbx, frame1->context.rbx); EXPECT_EQ(expected.r12, frame1->context.r12); EXPECT_EQ(expected.r13, frame1->context.r13); EXPECT_EQ(expected.r14, frame1->context.r14); EXPECT_EQ(expected.r15, frame1->context.r15); EXPECT_EQ("epictetus", frame1->function_name); } // The values we expect to find for the caller's registers. MDRawContextAMD64 expected; }; class CFI: public CFIFixture, public Test { }; TEST_F(CFI, At4000) { Label frame1_rsp = expected.rsp; stack_section .D64(0x40000000c0005510ULL) // return address .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004000ULL; CheckWalk(); } TEST_F(CFI, At4001) { Label frame1_rsp = expected.rsp; stack_section .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0x40000000c0005510ULL) // return address .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004001ULL; raw_context.rbx = 0xbe0487d2f9eafe29ULL; // callee's (distinct) %rbx value CheckWalk(); } TEST_F(CFI, At4002) { Label frame1_rsp = expected.rsp; stack_section .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0x40000000c0005510ULL) // return address .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004002ULL; raw_context.rbx = 0xed1b02e8cc0fc79cULL; // saved %r12 raw_context.r12 = 0xb0118de918a4bceaULL; // callee's (distinct) %r12 value CheckWalk(); } TEST_F(CFI, At4003) { Label frame1_rsp = expected.rsp; stack_section .D64(0x0e023828dffd4d81ULL) // garbage .D64(0x1d20ad8acacbe930ULL) // saved %r13 .D64(0x319e68b49e3ace0fULL) // garbage .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0x40000000c0005510ULL) // return address .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004003ULL; raw_context.rbx = 0xed1b02e8cc0fc79cULL; // saved %r12 raw_context.r12 = 0x89d04fa804c87a43ULL; // callee's (distinct) %r12 raw_context.r13 = 0x5118e02cbdb24b03ULL; // callee's (distinct) %r13 CheckWalk(); } // The results here should be the same as those at module offset 0x4003. TEST_F(CFI, At4004) { Label frame1_rsp = expected.rsp; stack_section .D64(0x0e023828dffd4d81ULL) // garbage .D64(0x1d20ad8acacbe930ULL) // saved %r13 .D64(0x319e68b49e3ace0fULL) // garbage .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0x40000000c0005510ULL) // return address .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004004ULL; raw_context.rbx = 0xed1b02e8cc0fc79cULL; // saved %r12 raw_context.r12 = 0x89d04fa804c87a43ULL; // callee's (distinct) %r12 raw_context.r13 = 0x5118e02cbdb24b03ULL; // callee's (distinct) %r13 CheckWalk(); } TEST_F(CFI, At4005) { Label frame1_rsp = expected.rsp; stack_section .D64(0x4b516dd035745953ULL) // garbage .D64(0x1d20ad8acacbe930ULL) // saved %r13 .D64(0xa6d445e16ae3d872ULL) // garbage .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0xaa95fa054aedfbaeULL) // garbage .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004005ULL; raw_context.rbx = 0xed1b02e8cc0fc79cULL; // saved %r12 raw_context.r12 = 0x46b1b8868891b34aULL; // callee's %r12 raw_context.r13 = 0x40000000c0005510ULL; // return address CheckWalk(); } TEST_F(CFI, At4006) { Label frame0_rbp; Label frame1_rsp = expected.rsp; stack_section .D64(0x043c6dfceb91aa34ULL) // garbage .D64(0x1d20ad8acacbe930ULL) // saved %r13 .D64(0x68995b1de4700266ULL) // saved %rbp .Mark(&frame0_rbp) // frame pointer points here .D64(0x5a5beeb38de23be8ULL) // saved %rbx .D64(0xf015ee516ad89eabULL) // garbage .Mark(&frame1_rsp); // This effectively sets stack_section.start(). raw_context.rip = 0x40000000c0004006ULL; raw_context.rbp = frame0_rbp.Value(); raw_context.rbx = 0xed1b02e8cc0fc79cULL; // saved %r12 raw_context.r12 = 0x26e007b341acfebdULL; // callee's %r12 raw_context.r13 = 0x40000000c0005510ULL; // return address CheckWalk(); }