// This test checks that .eh_frame_hdr address is in bounds of the last LOAD // end address i.e. the section address is smaller then the LOAD end address. // REQUIRES: system-linux,bolt-runtime,target=x86_64{{.*}} // RUN: %clangxx %cxxflags -static -Wl,-q %s -o %t.exe -Wl,--entry=_start // RUN: llvm-bolt %t.exe -o %t.instr -instrument \ // RUN: --instrumentation-file=%t.fdata -instrumentation-sleep-time=1 // RUN: llvm-readelf -SW %t.instr | grep -v bolt > %t.sections // RUN: llvm-readelf -lW %t.instr | grep LOAD | tail -n 1 >> %t.sections // RUN: FileCheck %s < %t.sections // CHECK: {{.*}} .eh_frame_hdr PROGBITS [[#%x, EH_ADDR:]] // CHECK: LOAD 0x[[#%x, LD_OFFSET:]] 0x[[#%x, LD_VADDR:]] 0x[[#%x, LD_FSIZE:]] // CHECK-SAME: 0x[[#%x, LD_MEMSIZE:]] // // If .eh_frame_hdr address bigger then last LOAD segment end address test would // fail with overflow error, otherwise the result of the expression is 0 that // could be found on this line e.g. in LOAD align field. // CHECK-SAME: [[#LD_VADDR + LD_MEMSIZE - max(LD_VADDR + LD_MEMSIZE,EH_ADDR)]] #include #include void foo() { throw std::runtime_error("Exception from foo()"); } void bar() { foo(); } int main() { try { bar(); } catch (const std::exception &e) { printf("Exception caught: %s\n", e.what()); } } extern "C" { void _start(); } void _start() { main(); }