diff --git a/docs/DebuggingJITedCode.html b/docs/DebuggingJITedCode.html index 83acbe439bb..7c998bbe9c1 100644 --- a/docs/DebuggingJITedCode.html +++ b/docs/DebuggingJITedCode.html @@ -9,87 +9,24 @@
Without special runtime support, debugging dynamically generated code with -GDB (as well as most debuggers) can be quite painful. Debuggers generally read -debug information from the object file of the code, but for JITed code, there is -no such file to look for. +
In order to debug code JITed by LLVM, you need GDB 7.0 or newer, which is +available on most modern distributions of Linux. The version of GDB that Apple +ships with XCode has been frozen at 6.3 for a while. LLDB may be a better +option for debugging JITed code on Mac OS X.
-Depending on the architecture, this can impact the debugging experience in -different ways. For example, on most 32-bit x86 architectures, you can simply -compile with -fno-omit-frame-pointer for GCC and -disable-fp-elim for LLVM. -When GDB creates a backtrace, it can properly unwind the stack, but the stack -frames owned by JITed code have ??'s instead of the appropriate symbol name. -However, on Linux x86_64 in particular, GDB relies on the DWARF CFA debug -information to unwind the stack, so even if you compile your program to leave -the frame pointer untouched, GDB will usually be unable to unwind the stack past -any JITed code stack frames. -
- -In order to communicate the necessary debug info to GDB, an interface for -registering JITed code with debuggers has been designed and implemented for -GDB and LLVM. At a high level, whenever LLVM generates new machine code, it -also generates an object file in memory containing the debug information. LLVM -then adds the object file to the global list of object files and calls a special -function (__jit_debug_register_code) marked noinline that GDB knows about. When -GDB attaches to a process, it puts a breakpoint in this function and loads all -of the object files in the global list. When LLVM calls the registration -function, GDB catches the breakpoint signal, loads the new object file from -LLVM's memory, and resumes the execution. In this way, GDB can get the -necessary debug information. -
- -At the time of this writing, LLVM only supports architectures that use ELF -object files and it only generates symbols and DWARF CFA information. However, -it would be easy to add more information to the object file, so we don't need to -coordinate with GDB to get better debug information. -
-In order to debug code JITed by LLVM, you need to install a recent version -of GDB. The interface was added on 2009-08-19, so you need a snapshot of GDB -more recent than that. Either download a snapshot of GDB or checkout CVS as -instructed here. Here -are the commands for doing a checkout and building the code: -
- --$ cvs -z 3 -d :pserver:anoncvs@sourceware.org:/cvs/src co gdb -$ mv src gdb # You probably don't want this checkout called "src". -$ cd gdb -$ ./configure --prefix="$GDB_INSTALL" -$ make -$ make install -- -
You can then use -jit-emit-debug in the LLVM command line arguments to enable -the interface. -
-For example, consider debugging running lli on the following C code in -foo.c: +
Consider debugging the following code compiled with clang and run through +lli:
@@ -119,7 +56,9 @@ trace at the crash:# Compile foo.c to bitcode. You can use either clang or llvm-gcc with this # command line. Both require -fexceptions, or the calls are all marked -# 'nounwind' which disables DWARF CFA info. +# 'nounwind' which disables DWARF exception handling info. Custom frontends +# should avoid adding this attribute to JITed code, since it interferes with +# DWARF CFA generation at the moment. $ clang foo.c -fexceptions -emit-llvm -c -o foo.bc # Run foo.bc under lli with -jit-emit-debug. If you built lli in debug mode, @@ -143,18 +82,60 @@ Program received signal SIGSEGV, Segmentation fault. #3 0x00007ffff7f5502a in main () #4 0x00000000007c0225 in llvm::JIT::runFunction(llvm::Function*, std::vector<llvm::GenericValue, - std::allocator<llvm::GenericValue> > const&) () + std::allocator<llvm::GenericValue> > const&) () #5 0x00000000007d6d98 in llvm::ExecutionEngine::runFunctionAsMain(llvm::Function*, std::vector<std::string, - std::allocator<std::string> > const&, char const* const*) () + std::allocator<std::string> > const&, char const* const*) () #6 0x00000000004dab76 in main ()-
As you can see, GDB can correctly unwind the stack and has the appropriate function names.
+ + + + + +Without special runtime support, debugging dynamically generated code with +GDB (as well as most debuggers) can be quite painful. Debuggers generally read +debug information from the object file of the code, but for JITed code, there is +no such file to look for. +
+ +Depending on the architecture, this can impact the debugging experience in +different ways. For example, on most 32-bit x86 architectures, you can simply +compile with -fno-omit-frame-pointer for GCC and -disable-fp-elim for LLVM. +When GDB creates a backtrace, it can properly unwind the stack, but the stack +frames owned by JITed code have ??'s instead of the appropriate symbol name. +However, on Linux x86_64 in particular, GDB relies on the DWARF call frame +address (CFA) debug information to unwind the stack, so even if you compile +your program to leave the frame pointer untouched, GDB will usually be unable +to unwind the stack past any JITed code stack frames. +
+ +In order to communicate the necessary debug info to GDB, an interface for +registering JITed code with debuggers has been designed and implemented for +GDB and LLVM. At a high level, whenever LLVM generates new machine code, it +also generates an object file in memory containing the debug information. LLVM +then adds the object file to the global list of object files and calls a special +function (__jit_debug_register_code) marked noinline that GDB knows about. When +GDB attaches to a process, it puts a breakpoint in this function and loads all +of the object files in the global list. When LLVM calls the registration +function, GDB catches the breakpoint signal, loads the new object file from +LLVM's memory, and resumes the execution. In this way, GDB can get the +necessary debug information. +
+ +At the time of this writing, LLVM only supports architectures that use ELF +object files and it only generates symbols and DWARF CFA information. However, +it would be easy to add more information to the object file, so we don't need to +coordinate with GDB to get better debug information. +
+