On Tue, Jul 6, 2010 at 9:08 AM, Greg Clayton <gclayton at apple.com> wrote:>> 2) Can I easily debug JIT'd code with LLDB? > > Are you running JIT'd code within another process that can be debugged (i.e. the simulation binary)? If so, you might want to have LLVM generate a full blown dylib, not just a JIT'd chunk of code and load the dylib using the standard shared library load/unload calls. Why? This gets you around the fact that JIT'd code isn't recognized by the dynamic linker on most systems. /usr/bin/dyld on Mac OS X has some provisions for JIT'd code, but nothing that gives debuggers visibility into that code. So going the dylib route has a few benefits: > - code will work with any debugger (gdb and lldb) in a standard kind of way > - dylib's can have debug information generated in the standard way > - no need to manage memory chunks for JIT'd codeThis idea has been kicked around a few times on IRC and elsewhere, and I think it's pretty clever. The idea is to JIT by making a valid dylib/dll/so (heceforth, dylib) with the JITed code in memory, and then convincing the loader to load it. This is nice for the reasons listed above. I think it would be neat if LLVM could package up this functionality, since it fits most use cases for the current LLVM JIT. LLVM compilation is already heavyweight, so the overhead of linking and loading the library shouldn't be too bad. For now, this can be achieved by rolling your own compilation pipeline of: 1. run llc or the equivalent to make a .s in a temp dir 2. assemble it 3. link it to make a dylib in the temp dir 4. dlopen it 5. use dladdr to get the function pointer for your code 1 and 2 can already be done in memory with LLVM. 3 cannot, and doesn't look like it is on anyone's roadmap. I think 4 may become possible on OS X, and there's this feature request for glibc that essentially implements "dlopen from memory": http://sourceware.org/bugzilla/show_bug.cgi?id=11767 5 is trivial. Even a prototype of this initial JIT model that uses temporaries on the filesystem would be useful for JIT users doing debugging or profiling. I don't really have time to implement this. I'm just kicking the proverbial can down the road. I may file a feature request PR or write up something in the style of sabre's LLVMNotes: http://nondot.org/sabre/LLVMNotes/ Reid
Wouldn't it mean each time a function is compiled it would need to be bundled to its own dylib? How well would that scale? Félix Le 2010-07-07 à 15:41:18, Reid Kleckner a écrit :> On Tue, Jul 6, 2010 at 9:08 AM, Greg Clayton <gclayton at apple.com> wrote: >>> 2) Can I easily debug JIT'd code with LLDB? >> >> Are you running JIT'd code within another process that can be debugged (i.e. the simulation binary)? If so, you might want to have LLVM generate a full blown dylib, not just a JIT'd chunk of code and load the dylib using the standard shared library load/unload calls. Why? This gets you around the fact that JIT'd code isn't recognized by the dynamic linker on most systems. /usr/bin/dyld on Mac OS X has some provisions for JIT'd code, but nothing that gives debuggers visibility into that code. So going the dylib route has a few benefits: >> - code will work with any debugger (gdb and lldb) in a standard kind of way >> - dylib's can have debug information generated in the standard way >> - no need to manage memory chunks for JIT'd code > > This idea has been kicked around a few times on IRC and elsewhere, and > I think it's pretty clever. The idea is to JIT by making a valid > dylib/dll/so (heceforth, dylib) with the JITed code in memory, and > then convincing the loader to load it. This is nice for the reasons > listed above. > > I think it would be neat if LLVM could package up this functionality, > since it fits most use cases for the current LLVM JIT. LLVM > compilation is already heavyweight, so the overhead of linking and > loading the library shouldn't be too bad. > > For now, this can be achieved by rolling your own compilation pipeline of: > 1. run llc or the equivalent to make a .s in a temp dir > 2. assemble it > 3. link it to make a dylib in the temp dir > 4. dlopen it > 5. use dladdr to get the function pointer for your code > > 1 and 2 can already be done in memory with LLVM. > > 3 cannot, and doesn't look like it is on anyone's roadmap. > > I think 4 may become possible on OS X, and there's this feature > request for glibc that essentially implements "dlopen from memory": > http://sourceware.org/bugzilla/show_bug.cgi?id=11767 > > 5 is trivial. > > Even a prototype of this initial JIT model that uses temporaries on > the filesystem would be useful for JIT users doing debugging or > profiling. > > I don't really have time to implement this. I'm just kicking the > proverbial can down the road. I may file a feature request PR or > write up something in the style of sabre's LLVMNotes: > http://nondot.org/sabre/LLVMNotes/ > > Reid > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
Probably not well. But it depends on the application, and probably the loader. Some applications (OpenCL comes to mind) have the bitcode ready to go as soon as they start. The only reason they use the JIT is because they want to compile the code to run fast on the available hardware. It really depends on how often the application wants to generate code, which for some people may not be that often. This is a new model that doesn't really fit with the current interface, but it could be made to work. I just wanted to throw the idea out for discussion and to gauge interest. Reid 2010/7/7 Félix Cloutier <felixcca at yahoo.ca>:> Wouldn't it mean each time a function is compiled it would need to be bundled to its own dylib? How well would that scale? > > Félix > > Le 2010-07-07 à 15:41:18, Reid Kleckner a écrit : > >> On Tue, Jul 6, 2010 at 9:08 AM, Greg Clayton <gclayton at apple.com> wrote: >>>> 2) Can I easily debug JIT'd code with LLDB? >>> >>> Are you running JIT'd code within another process that can be debugged (i.e. the simulation binary)? If so, you might want to have LLVM generate a full blown dylib, not just a JIT'd chunk of code and load the dylib using the standard shared library load/unload calls. Why? This gets you around the fact that JIT'd code isn't recognized by the dynamic linker on most systems. /usr/bin/dyld on Mac OS X has some provisions for JIT'd code, but nothing that gives debuggers visibility into that code. So going the dylib route has a few benefits: >>> - code will work with any debugger (gdb and lldb) in a standard kind of way >>> - dylib's can have debug information generated in the standard way >>> - no need to manage memory chunks for JIT'd code >> >> This idea has been kicked around a few times on IRC and elsewhere, and >> I think it's pretty clever. The idea is to JIT by making a valid >> dylib/dll/so (heceforth, dylib) with the JITed code in memory, and >> then convincing the loader to load it. This is nice for the reasons >> listed above. >> >> I think it would be neat if LLVM could package up this functionality, >> since it fits most use cases for the current LLVM JIT. LLVM >> compilation is already heavyweight, so the overhead of linking and >> loading the library shouldn't be too bad. >> >> For now, this can be achieved by rolling your own compilation pipeline of: >> 1. run llc or the equivalent to make a .s in a temp dir >> 2. assemble it >> 3. link it to make a dylib in the temp dir >> 4. dlopen it >> 5. use dladdr to get the function pointer for your code >> >> 1 and 2 can already be done in memory with LLVM. >> >> 3 cannot, and doesn't look like it is on anyone's roadmap. >> >> I think 4 may become possible on OS X, and there's this feature >> request for glibc that essentially implements "dlopen from memory": >> http://sourceware.org/bugzilla/show_bug.cgi?id=11767 >> >> 5 is trivial. >> >> Even a prototype of this initial JIT model that uses temporaries on >> the filesystem would be useful for JIT users doing debugging or >> profiling. >> >> I don't really have time to implement this. I'm just kicking the >> proverbial can down the road. I may file a feature request PR or >> write up something in the style of sabre's LLVMNotes: >> http://nondot.org/sabre/LLVMNotes/ >> >> Reid >> >> _______________________________________________ >> LLVM Developers mailing list >> LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu >> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > > >
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