The Chrome Developer Tools can be used to debug programs running on the GraalVM LLVM runtime.
See user/DEBUGGING.md for details.
If running from the source directory using mx, note that the tools suite
needs to be imported for debugging to work:
mx --dynamicimport /tools lli --inspect ...
To diagnose problems in the LLVM runtime itself, it it sometimes useful to debug programs running on GraalVM on the level of the LLVM bitcode directly, instead of showing the original high-level (e.g. C language) source code.
This debugging mode can be enabled using the --llvm.llDebug option:
lli --inspect --enable-experimental-options --llvm.llDebug ...
To debug on the LLVM-IR level, you need to provide disassembled bitcode files
next to the binary files that are loaded by GraalVM. These can be produced with
the llvm-dis tool. Use the --llvm.llDebug.verbose option to get diagnostic
messages about missing disassembled bitcode files.
There is a helper script in mx to produce the disassembled bitcode files and
put them in the correct place:
mx llvm-dis <path-to-file>
You can pass any file to mx llvm-dis that the GraalVM LLVM runtime can open,
e.g. bitcode files, ELF files with embedded bitcode and so on. The script will
extract the bitcode from the file, disassemble it, and put the result in a file
next to it with the correct name for the --llvm.llDebug code to find it.
GraalVM can produce an LLVM IR-level trace of its program execution. You ca
enable this feature by passing the --llvm.traceIR=<...> option to lli. This
requires --llvm.llDebug to be enabled and the disassembled bitcode to be
available.
$ mx lli --experimental-options --llvm.traceIR --llvm.llDebug hello.bc
[lli] >> Entering function @main at hello.ll:9:1 with arguments:[StackPointer 0x7fd46bfff010 (Bounds: 0x7fd466fff010 - 0x7fd46bfff010), 1, 0x7fd4ec261978, 0x7fd4ec261988]
[lli] >> hello.ll:10:1 -> %1 = alloca i32, align 4
[lli] >> hello.ll:11:1 -> store i32 0, i32* %1, align 4
[lli] >> hello.ll:12:1 -> %2 = call i32 (i8*, ...) @printf(i8* getelementptr inbounds ([15 x i8], [15 x i8]* @.str, i32 0, i32 0)), !dbg !13
Hello, World!
[lli] >> hello.ll:13:1 -> ret i32 0, !dbg !14
[lli] >> Leaving @main
For debugging the internals of the runtime, it is recommended to run the GraalVM
LLVM runtime in JVM mode (lli --jvm). Then a regular Java debugger can be
attached.
If running with mx, the -d option can be used to enable debugging:
$ mx -d lli hello
Listening for transport dt_socket at address: 8000
Or for running unit tests (see TESTS):
$ mx -d unittest SulongSuite
Listening for transport dt_socket at address: 8000
Alternatively, from a built GraalVM, debugging can be enabled using the standard Java debugging flags, for example:
lli --jvm --vm.Xdebug --vm.Xrunjdwp:transport=dt_socket,server=y,address=8000,suspend=y ...
Sometimes it is useful to debug in both modes simultaneously. For that you can just pass both options, and attach both a Java IDE and the Chrome Inspector to the VM:
mx --dynamicimport /tools -d lli --inspect ...
That way, it is possible to for example step through a C program to the interesting point, and then enable a breakpoint in the Java debugger, so it will suspend on the next "step" command in the Chrome Inspector, or vice versa.