Here's an updated version with more comments. James On 14/11/13 23:06, Kaylor, Andrew wrote:> Oh, I see now. It turns out that even knowing what the end goal was I misunderstood part of what the macros were doing. > > If you could add some comments explaining what the macros are doing then I guess I can live with the patch in this form. I definitely agree that it's better not to have two copies of the list. > > Thanks, > Andy > > > -----Original Message----- > From: James Lyon [mailto:jameslyon0 at gmail.com] > Sent: Thursday, November 14, 2013 2:26 PM > To: Kaylor, Andrew; LLVM Dev > Subject: Re: [LLVMdev] Android JIT patch > > Well, the reason I did it that way was that the list of functions is fairly long and has to be written out twice; once to declare the functions and once to do the if(Name==#fn) bit, and I thought nested macros was simpler than having two copies of the list. > > On 14/11/13 22:07, Kaylor, Andrew wrote: >> Thanks for splitting up the patch. I'm not the right person to comment on the modification and access time changes (though it looks alright to me). You might want to re-submit that part on its own as it's likely to be ignored by people who aren't interested in JIT stuff otherwise. >> >> Regarding the memory manager changes, functionally this looks good. I'm not a big fan of macros, and especially not nested macros. It took some mental effort to work through it and verify that it was doing what it was supposed to be doing. I can only imagine that it would be even harder to comprehend for someone who didn't know what it was supposed to be doing. >> >> I wouldn't be opposed to a single macro that wrapped the 'if (Name == "foo") return (uint64_t)&foo;' pattern, which is quite ugly. >> >> What do you think of this? >> >> #define EXPOSE_STATIC_FUNCTION (fn) if (Name == #fn) return >> (uint64_t)&fn; >> >> And then inside getSymbolAddress: >> >> #if ... conditions ... >> EXPOSE_STATIC_FUNCTION(__aeabi_d2f); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2iz); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2lz); >> etc. >> #endif >> >> -Andy >> >> -----Original Message----- >> From: James Lyon [mailto:jameslyon0 at gmail.com] >> Sent: Thursday, November 14, 2013 1:25 PM >> To: Kaylor, Andrew; LLVM Dev >> Subject: Re: [LLVMdev] Android JIT patch >> >> Well, is the attached version better? I've extended the RTDyldMemoryManager hooks instead to pick up the ARM math functions statically, and left JITMemoryManager alone except for changing the conditional so that it will build with non-glibc libraries. >> >> I've also split the original patch up into two parts, to separate the math function fixes from setLastModificationAndAccessTime. The second patch modifies the setLastModificationAndAccessTime function to use utime (so it takes a filename) rather than just refusing to compile if futimes and futimens are not available, due to Renato's suggestion. I don't know whether this has external users, but the function didn't exist in 3.3. >> >> James >> >> On 11/11/13 19:23, Kaylor, Andrew wrote: >>> The various ExecutionEngine pieces may be the only places within LLVM that are using the DynamicLibrary stuff, but there's no telling what various LLVM consumers may be using it for. >>> >>> The "stat" symbols shouldn't be exposed the way they are in the old JIT memory manager location. It's not clear to me why that didn't happen inside getPointerToNamedFunction there. >>> >>> Is there a reason not to just do this kind of handling in RTDyldMemoryManager/DefaultJITMemoryManager::getPointerToNamedFunction()? >>> >>> -Andy >>> >>> -----Original Message----- >>> From: James Lyon [mailto:jameslyon0 at gmail.com] >>> Sent: Monday, November 11, 2013 11:13 AM >>> To: Kaylor, Andrew; LLVM Dev >>> Subject: Re: [LLVMdev] Android JIT patch >>> >>> On 11/11/13 17:42, Kaylor, Andrew wrote: >>>> I've got a number of problems with this patch. >>>> >>>> First, we have plans to pry apart the remaining strands connecting JIT with MCJIT, so I don't want to do anything that reconnects them. That is, I'm against moving things from RTDyldMemoryManager into ExecutionEngine. >>> The direction of LLVM is not something I'm in a position to comment on. >>> The problem of locating these functions is common to the JIT and MCJIT though (and even the interpreter for Linux/x86). >>>> Second, unless I'm reading it wrong, this relies on static constructors. That causes headaches and is against the LLVM coding standards. >>> My bad, I just ripped off the existing implementation. I guess the JITMemoryManager part is destined to go away along with the JIT. >>>> Third, I don't think sys::DynamicLibrary::AddSymbol() is the right way to go here. I know I have recently suggested using that function, but I was wrong. That function exposes symbols to the entire host program as if they were present in a locally loaded shared library. For some programs that may be acceptable behavior, but it cannot be the default behavior for LLVM. In particular, MCJIT may not even be generating code for local execution. >>> Well, that's a bit trickier. Somewhere there needs to be a hook to find these functions (and make the linker include them). For remote execution I suppose that the user would have to load a shared object supporting this functionality into the target address space and then query it for the address of such functions. I'm assuming that the user isn't expected to solve this problem if they're not using remote execution. >>>> The default RTDyldMemoryManager implementation selectively exposes symbols to execution engines for which it is used, and MCJIT/RuntimeDyld clients performing remote execution can (and should) override this behavior. We probably also need to fix the addGlobalMapping support for MCJIT. >>> The situation right now is actually more complicated than this: since llvm-config --libs MCJIT includes the LLVMJIT library the JITMemoryManager hack is always there (subject to being dropped by ld?) so these symbols are actually exposed globally. >>> >>> As I said, I basically just borrowed from the existing code and added the functions which won't work without glibc on ARM. >>> sys::DynamicLibrary::SearchForAddressOfSymbol only seems to be used by stuff under lib/ExecutionEngine, so making that find functions which are expected to be in libc during normal linking doesn't seem unreasonable. >>> >>> James >>>> -Andy >>>> >>>> -----Original Message----- >>>> From: llvmdev-bounces at cs.uiuc.edu >>>> [mailto:llvmdev-bounces at cs.uiuc.edu] >>>> On Behalf Of James Lyon >>>> Sent: Sunday, November 10, 2013 5:45 PM >>>> To: LLVM Dev >>>> Subject: [LLVMdev] Android JIT patch >>>> >>>> I've attached a patch which has got JIT compilation working (for me >>>> at >>>> least!) on Android. It turns out that the problem was a bunch of intrinsic __aeabi* functions which reside in libgcc.a rather than libc.so so are not available unless explicitly linked in, so it's rather similar to the StatSymbols hack. >>>> >>>> I moved the StatSymbols code into ExecutionEngine.cpp rather than JITMemoryManager.cpp since it's required for both the JIT and MCJIT, and deleted the code in RTDyldMemoryManager.cpp which did the same thing for fewer functions. They should now be picked up through the sys::DynamicLibrary::AddSymbol mechanism in both cases. The symbols required for ARM/Android are then added by an identical hack just below. >>>> >>>> There's one other minor change since setLastModificationAndAccessTime can't be supported on Android; all relevant system calls are missing from the C library. I've therefore changed the code to fail at runtime rather than compile-time here. >>>> >>>> James-------------- next part -------------- A non-text attachment was scrubbed... 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That looks great. Thanks for seeing this through! -Andy -----Original Message----- From: James Lyon [mailto:jameslyon0 at gmail.com] Sent: Thursday, November 14, 2013 4:58 PM To: Kaylor, Andrew; LLVM Dev Subject: Re: [LLVMdev] Android JIT patch Here's an updated version with more comments. James On 14/11/13 23:06, Kaylor, Andrew wrote:> Oh, I see now. It turns out that even knowing what the end goal was I misunderstood part of what the macros were doing. > > If you could add some comments explaining what the macros are doing then I guess I can live with the patch in this form. I definitely agree that it's better not to have two copies of the list. > > Thanks, > Andy > > > -----Original Message----- > From: James Lyon [mailto:jameslyon0 at gmail.com] > Sent: Thursday, November 14, 2013 2:26 PM > To: Kaylor, Andrew; LLVM Dev > Subject: Re: [LLVMdev] Android JIT patch > > Well, the reason I did it that way was that the list of functions is fairly long and has to be written out twice; once to declare the functions and once to do the if(Name==#fn) bit, and I thought nested macros was simpler than having two copies of the list. > > On 14/11/13 22:07, Kaylor, Andrew wrote: >> Thanks for splitting up the patch. I'm not the right person to comment on the modification and access time changes (though it looks alright to me). You might want to re-submit that part on its own as it's likely to be ignored by people who aren't interested in JIT stuff otherwise. >> >> Regarding the memory manager changes, functionally this looks good. I'm not a big fan of macros, and especially not nested macros. It took some mental effort to work through it and verify that it was doing what it was supposed to be doing. I can only imagine that it would be even harder to comprehend for someone who didn't know what it was supposed to be doing. >> >> I wouldn't be opposed to a single macro that wrapped the 'if (Name == "foo") return (uint64_t)&foo;' pattern, which is quite ugly. >> >> What do you think of this? >> >> #define EXPOSE_STATIC_FUNCTION (fn) if (Name == #fn) return >> (uint64_t)&fn; >> >> And then inside getSymbolAddress: >> >> #if ... conditions ... >> EXPOSE_STATIC_FUNCTION(__aeabi_d2f); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2iz); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2lz); >> etc. >> #endif >> >> -Andy >> >> -----Original Message----- >> From: James Lyon [mailto:jameslyon0 at gmail.com] >> Sent: Thursday, November 14, 2013 1:25 PM >> To: Kaylor, Andrew; LLVM Dev >> Subject: Re: [LLVMdev] Android JIT patch >> >> Well, is the attached version better? I've extended the RTDyldMemoryManager hooks instead to pick up the ARM math functions statically, and left JITMemoryManager alone except for changing the conditional so that it will build with non-glibc libraries. >> >> I've also split the original patch up into two parts, to separate the math function fixes from setLastModificationAndAccessTime. The second patch modifies the setLastModificationAndAccessTime function to use utime (so it takes a filename) rather than just refusing to compile if futimes and futimens are not available, due to Renato's suggestion. I don't know whether this has external users, but the function didn't exist in 3.3. >> >> James >> >> On 11/11/13 19:23, Kaylor, Andrew wrote: >>> The various ExecutionEngine pieces may be the only places within LLVM that are using the DynamicLibrary stuff, but there's no telling what various LLVM consumers may be using it for. >>> >>> The "stat" symbols shouldn't be exposed the way they are in the old JIT memory manager location. It's not clear to me why that didn't happen inside getPointerToNamedFunction there. >>> >>> Is there a reason not to just do this kind of handling in RTDyldMemoryManager/DefaultJITMemoryManager::getPointerToNamedFunction()? >>> >>> -Andy >>> >>> -----Original Message----- >>> From: James Lyon [mailto:jameslyon0 at gmail.com] >>> Sent: Monday, November 11, 2013 11:13 AM >>> To: Kaylor, Andrew; LLVM Dev >>> Subject: Re: [LLVMdev] Android JIT patch >>> >>> On 11/11/13 17:42, Kaylor, Andrew wrote: >>>> I've got a number of problems with this patch. >>>> >>>> First, we have plans to pry apart the remaining strands connecting JIT with MCJIT, so I don't want to do anything that reconnects them. That is, I'm against moving things from RTDyldMemoryManager into ExecutionEngine. >>> The direction of LLVM is not something I'm in a position to comment on. >>> The problem of locating these functions is common to the JIT and MCJIT though (and even the interpreter for Linux/x86). >>>> Second, unless I'm reading it wrong, this relies on static constructors. That causes headaches and is against the LLVM coding standards. >>> My bad, I just ripped off the existing implementation. I guess the JITMemoryManager part is destined to go away along with the JIT. >>>> Third, I don't think sys::DynamicLibrary::AddSymbol() is the right way to go here. I know I have recently suggested using that function, but I was wrong. That function exposes symbols to the entire host program as if they were present in a locally loaded shared library. For some programs that may be acceptable behavior, but it cannot be the default behavior for LLVM. In particular, MCJIT may not even be generating code for local execution. >>> Well, that's a bit trickier. Somewhere there needs to be a hook to find these functions (and make the linker include them). For remote execution I suppose that the user would have to load a shared object supporting this functionality into the target address space and then query it for the address of such functions. I'm assuming that the user isn't expected to solve this problem if they're not using remote execution. >>>> The default RTDyldMemoryManager implementation selectively exposes symbols to execution engines for which it is used, and MCJIT/RuntimeDyld clients performing remote execution can (and should) override this behavior. We probably also need to fix the addGlobalMapping support for MCJIT. >>> The situation right now is actually more complicated than this: since llvm-config --libs MCJIT includes the LLVMJIT library the JITMemoryManager hack is always there (subject to being dropped by ld?) so these symbols are actually exposed globally. >>> >>> As I said, I basically just borrowed from the existing code and added the functions which won't work without glibc on ARM. >>> sys::DynamicLibrary::SearchForAddressOfSymbol only seems to be used by stuff under lib/ExecutionEngine, so making that find functions which are expected to be in libc during normal linking doesn't seem unreasonable. >>> >>> James >>>> -Andy >>>> >>>> -----Original Message----- >>>> From: llvmdev-bounces at cs.uiuc.edu >>>> [mailto:llvmdev-bounces at cs.uiuc.edu] >>>> On Behalf Of James Lyon >>>> Sent: Sunday, November 10, 2013 5:45 PM >>>> To: LLVM Dev >>>> Subject: [LLVMdev] Android JIT patch >>>> >>>> I've attached a patch which has got JIT compilation working (for me >>>> at >>>> least!) on Android. It turns out that the problem was a bunch of intrinsic __aeabi* functions which reside in libgcc.a rather than libc.so so are not available unless explicitly linked in, so it's rather similar to the StatSymbols hack. >>>> >>>> I moved the StatSymbols code into ExecutionEngine.cpp rather than JITMemoryManager.cpp since it's required for both the JIT and MCJIT, and deleted the code in RTDyldMemoryManager.cpp which did the same thing for fewer functions. They should now be picked up through the sys::DynamicLibrary::AddSymbol mechanism in both cases. The symbols required for ARM/Android are then added by an identical hack just below. >>>> >>>> There's one other minor change since setLastModificationAndAccessTime can't be supported on Android; all relevant system calls are missing from the C library. I've therefore changed the code to fail at runtime rather than compile-time here. >>>> >>>> James
Committed as r194832. -----Original Message----- From: James Lyon [mailto:jameslyon0 at gmail.com] Sent: Thursday, November 14, 2013 4:58 PM To: Kaylor, Andrew; LLVM Dev Subject: Re: [LLVMdev] Android JIT patch Here's an updated version with more comments. James On 14/11/13 23:06, Kaylor, Andrew wrote:> Oh, I see now. It turns out that even knowing what the end goal was I misunderstood part of what the macros were doing. > > If you could add some comments explaining what the macros are doing then I guess I can live with the patch in this form. I definitely agree that it's better not to have two copies of the list. > > Thanks, > Andy > > > -----Original Message----- > From: James Lyon [mailto:jameslyon0 at gmail.com] > Sent: Thursday, November 14, 2013 2:26 PM > To: Kaylor, Andrew; LLVM Dev > Subject: Re: [LLVMdev] Android JIT patch > > Well, the reason I did it that way was that the list of functions is fairly long and has to be written out twice; once to declare the functions and once to do the if(Name==#fn) bit, and I thought nested macros was simpler than having two copies of the list. > > On 14/11/13 22:07, Kaylor, Andrew wrote: >> Thanks for splitting up the patch. I'm not the right person to comment on the modification and access time changes (though it looks alright to me). You might want to re-submit that part on its own as it's likely to be ignored by people who aren't interested in JIT stuff otherwise. >> >> Regarding the memory manager changes, functionally this looks good. I'm not a big fan of macros, and especially not nested macros. It took some mental effort to work through it and verify that it was doing what it was supposed to be doing. I can only imagine that it would be even harder to comprehend for someone who didn't know what it was supposed to be doing. >> >> I wouldn't be opposed to a single macro that wrapped the 'if (Name == "foo") return (uint64_t)&foo;' pattern, which is quite ugly. >> >> What do you think of this? >> >> #define EXPOSE_STATIC_FUNCTION (fn) if (Name == #fn) return >> (uint64_t)&fn; >> >> And then inside getSymbolAddress: >> >> #if ... conditions ... >> EXPOSE_STATIC_FUNCTION(__aeabi_d2f); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2iz); >> EXPOSE_STATIC_FUNCTION(__aeabi_d2lz); >> etc. >> #endif >> >> -Andy >> >> -----Original Message----- >> From: James Lyon [mailto:jameslyon0 at gmail.com] >> Sent: Thursday, November 14, 2013 1:25 PM >> To: Kaylor, Andrew; LLVM Dev >> Subject: Re: [LLVMdev] Android JIT patch >> >> Well, is the attached version better? I've extended the RTDyldMemoryManager hooks instead to pick up the ARM math functions statically, and left JITMemoryManager alone except for changing the conditional so that it will build with non-glibc libraries. >> >> I've also split the original patch up into two parts, to separate the math function fixes from setLastModificationAndAccessTime. The second patch modifies the setLastModificationAndAccessTime function to use utime (so it takes a filename) rather than just refusing to compile if futimes and futimens are not available, due to Renato's suggestion. I don't know whether this has external users, but the function didn't exist in 3.3. >> >> James >> >> On 11/11/13 19:23, Kaylor, Andrew wrote: >>> The various ExecutionEngine pieces may be the only places within LLVM that are using the DynamicLibrary stuff, but there's no telling what various LLVM consumers may be using it for. >>> >>> The "stat" symbols shouldn't be exposed the way they are in the old JIT memory manager location. It's not clear to me why that didn't happen inside getPointerToNamedFunction there. >>> >>> Is there a reason not to just do this kind of handling in RTDyldMemoryManager/DefaultJITMemoryManager::getPointerToNamedFunction()? >>> >>> -Andy >>> >>> -----Original Message----- >>> From: James Lyon [mailto:jameslyon0 at gmail.com] >>> Sent: Monday, November 11, 2013 11:13 AM >>> To: Kaylor, Andrew; LLVM Dev >>> Subject: Re: [LLVMdev] Android JIT patch >>> >>> On 11/11/13 17:42, Kaylor, Andrew wrote: >>>> I've got a number of problems with this patch. >>>> >>>> First, we have plans to pry apart the remaining strands connecting JIT with MCJIT, so I don't want to do anything that reconnects them. That is, I'm against moving things from RTDyldMemoryManager into ExecutionEngine. >>> The direction of LLVM is not something I'm in a position to comment on. >>> The problem of locating these functions is common to the JIT and MCJIT though (and even the interpreter for Linux/x86). >>>> Second, unless I'm reading it wrong, this relies on static constructors. That causes headaches and is against the LLVM coding standards. >>> My bad, I just ripped off the existing implementation. I guess the JITMemoryManager part is destined to go away along with the JIT. >>>> Third, I don't think sys::DynamicLibrary::AddSymbol() is the right way to go here. I know I have recently suggested using that function, but I was wrong. That function exposes symbols to the entire host program as if they were present in a locally loaded shared library. For some programs that may be acceptable behavior, but it cannot be the default behavior for LLVM. In particular, MCJIT may not even be generating code for local execution. >>> Well, that's a bit trickier. Somewhere there needs to be a hook to find these functions (and make the linker include them). For remote execution I suppose that the user would have to load a shared object supporting this functionality into the target address space and then query it for the address of such functions. I'm assuming that the user isn't expected to solve this problem if they're not using remote execution. >>>> The default RTDyldMemoryManager implementation selectively exposes symbols to execution engines for which it is used, and MCJIT/RuntimeDyld clients performing remote execution can (and should) override this behavior. We probably also need to fix the addGlobalMapping support for MCJIT. >>> The situation right now is actually more complicated than this: since llvm-config --libs MCJIT includes the LLVMJIT library the JITMemoryManager hack is always there (subject to being dropped by ld?) so these symbols are actually exposed globally. >>> >>> As I said, I basically just borrowed from the existing code and added the functions which won't work without glibc on ARM. >>> sys::DynamicLibrary::SearchForAddressOfSymbol only seems to be used by stuff under lib/ExecutionEngine, so making that find functions which are expected to be in libc during normal linking doesn't seem unreasonable. >>> >>> James >>>> -Andy >>>> >>>> -----Original Message----- >>>> From: llvmdev-bounces at cs.uiuc.edu >>>> [mailto:llvmdev-bounces at cs.uiuc.edu] >>>> On Behalf Of James Lyon >>>> Sent: Sunday, November 10, 2013 5:45 PM >>>> To: LLVM Dev >>>> Subject: [LLVMdev] Android JIT patch >>>> >>>> I've attached a patch which has got JIT compilation working (for me >>>> at >>>> least!) on Android. It turns out that the problem was a bunch of intrinsic __aeabi* functions which reside in libgcc.a rather than libc.so so are not available unless explicitly linked in, so it's rather similar to the StatSymbols hack. >>>> >>>> I moved the StatSymbols code into ExecutionEngine.cpp rather than JITMemoryManager.cpp since it's required for both the JIT and MCJIT, and deleted the code in RTDyldMemoryManager.cpp which did the same thing for fewer functions. They should now be picked up through the sys::DynamicLibrary::AddSymbol mechanism in both cases. The symbols required for ARM/Android are then added by an identical hack just below. >>>> >>>> There's one other minor change since setLastModificationAndAccessTime can't be supported on Android; all relevant system calls are missing from the C library. I've therefore changed the code to fail at runtime rather than compile-time here. >>>> >>>> James
Thank you! On 15/11/13 18:04, Kaylor, Andrew wrote:> Committed as r194832. > > -----Original Message----- > From: James Lyon [mailto:jameslyon0 at gmail.com] > Sent: Thursday, November 14, 2013 4:58 PM > To: Kaylor, Andrew; LLVM Dev > Subject: Re: [LLVMdev] Android JIT patch > > Here's an updated version with more comments. > > James > > On 14/11/13 23:06, Kaylor, Andrew wrote: >> Oh, I see now. It turns out that even knowing what the end goal was I misunderstood part of what the macros were doing. >> >> If you could add some comments explaining what the macros are doing then I guess I can live with the patch in this form. I definitely agree that it's better not to have two copies of the list. >> >> Thanks, >> Andy >> >> >> -----Original Message----- >> From: James Lyon [mailto:jameslyon0 at gmail.com] >> Sent: Thursday, November 14, 2013 2:26 PM >> To: Kaylor, Andrew; LLVM Dev >> Subject: Re: [LLVMdev] Android JIT patch >> >> Well, the reason I did it that way was that the list of functions is fairly long and has to be written out twice; once to declare the functions and once to do the if(Name==#fn) bit, and I thought nested macros was simpler than having two copies of the list. >> >> On 14/11/13 22:07, Kaylor, Andrew wrote: >>> Thanks for splitting up the patch. I'm not the right person to comment on the modification and access time changes (though it looks alright to me). You might want to re-submit that part on its own as it's likely to be ignored by people who aren't interested in JIT stuff otherwise. >>> >>> Regarding the memory manager changes, functionally this looks good. I'm not a big fan of macros, and especially not nested macros. It took some mental effort to work through it and verify that it was doing what it was supposed to be doing. I can only imagine that it would be even harder to comprehend for someone who didn't know what it was supposed to be doing. >>> >>> I wouldn't be opposed to a single macro that wrapped the 'if (Name == "foo") return (uint64_t)&foo;' pattern, which is quite ugly. >>> >>> What do you think of this? >>> >>> #define EXPOSE_STATIC_FUNCTION (fn) if (Name == #fn) return >>> (uint64_t)&fn; >>> >>> And then inside getSymbolAddress: >>> >>> #if ... conditions ... >>> EXPOSE_STATIC_FUNCTION(__aeabi_d2f); >>> EXPOSE_STATIC_FUNCTION(__aeabi_d2iz); >>> EXPOSE_STATIC_FUNCTION(__aeabi_d2lz); >>> etc. >>> #endif >>> >>> -Andy >>> >>> -----Original Message----- >>> From: James Lyon [mailto:jameslyon0 at gmail.com] >>> Sent: Thursday, November 14, 2013 1:25 PM >>> To: Kaylor, Andrew; LLVM Dev >>> Subject: Re: [LLVMdev] Android JIT patch >>> >>> Well, is the attached version better? I've extended the RTDyldMemoryManager hooks instead to pick up the ARM math functions statically, and left JITMemoryManager alone except for changing the conditional so that it will build with non-glibc libraries. >>> >>> I've also split the original patch up into two parts, to separate the math function fixes from setLastModificationAndAccessTime. The second patch modifies the setLastModificationAndAccessTime function to use utime (so it takes a filename) rather than just refusing to compile if futimes and futimens are not available, due to Renato's suggestion. I don't know whether this has external users, but the function didn't exist in 3.3. >>> >>> James >>> >>> On 11/11/13 19:23, Kaylor, Andrew wrote: >>>> The various ExecutionEngine pieces may be the only places within LLVM that are using the DynamicLibrary stuff, but there's no telling what various LLVM consumers may be using it for. >>>> >>>> The "stat" symbols shouldn't be exposed the way they are in the old JIT memory manager location. It's not clear to me why that didn't happen inside getPointerToNamedFunction there. >>>> >>>> Is there a reason not to just do this kind of handling in RTDyldMemoryManager/DefaultJITMemoryManager::getPointerToNamedFunction()? >>>> >>>> -Andy >>>> >>>> -----Original Message----- >>>> From: James Lyon [mailto:jameslyon0 at gmail.com] >>>> Sent: Monday, November 11, 2013 11:13 AM >>>> To: Kaylor, Andrew; LLVM Dev >>>> Subject: Re: [LLVMdev] Android JIT patch >>>> >>>> On 11/11/13 17:42, Kaylor, Andrew wrote: >>>>> I've got a number of problems with this patch. >>>>> >>>>> First, we have plans to pry apart the remaining strands connecting JIT with MCJIT, so I don't want to do anything that reconnects them. That is, I'm against moving things from RTDyldMemoryManager into ExecutionEngine. >>>> The direction of LLVM is not something I'm in a position to comment on. >>>> The problem of locating these functions is common to the JIT and MCJIT though (and even the interpreter for Linux/x86). >>>>> Second, unless I'm reading it wrong, this relies on static constructors. That causes headaches and is against the LLVM coding standards. >>>> My bad, I just ripped off the existing implementation. I guess the JITMemoryManager part is destined to go away along with the JIT. >>>>> Third, I don't think sys::DynamicLibrary::AddSymbol() is the right way to go here. I know I have recently suggested using that function, but I was wrong. That function exposes symbols to the entire host program as if they were present in a locally loaded shared library. For some programs that may be acceptable behavior, but it cannot be the default behavior for LLVM. In particular, MCJIT may not even be generating code for local execution. >>>> Well, that's a bit trickier. Somewhere there needs to be a hook to find these functions (and make the linker include them). For remote execution I suppose that the user would have to load a shared object supporting this functionality into the target address space and then query it for the address of such functions. I'm assuming that the user isn't expected to solve this problem if they're not using remote execution. >>>>> The default RTDyldMemoryManager implementation selectively exposes symbols to execution engines for which it is used, and MCJIT/RuntimeDyld clients performing remote execution can (and should) override this behavior. We probably also need to fix the addGlobalMapping support for MCJIT. >>>> The situation right now is actually more complicated than this: since llvm-config --libs MCJIT includes the LLVMJIT library the JITMemoryManager hack is always there (subject to being dropped by ld?) so these symbols are actually exposed globally. >>>> >>>> As I said, I basically just borrowed from the existing code and added the functions which won't work without glibc on ARM. >>>> sys::DynamicLibrary::SearchForAddressOfSymbol only seems to be used by stuff under lib/ExecutionEngine, so making that find functions which are expected to be in libc during normal linking doesn't seem unreasonable. >>>> >>>> James >>>>> -Andy >>>>> >>>>> -----Original Message----- >>>>> From: llvmdev-bounces at cs.uiuc.edu >>>>> [mailto:llvmdev-bounces at cs.uiuc.edu] >>>>> On Behalf Of James Lyon >>>>> Sent: Sunday, November 10, 2013 5:45 PM >>>>> To: LLVM Dev >>>>> Subject: [LLVMdev] Android JIT patch >>>>> >>>>> I've attached a patch which has got JIT compilation working (for me >>>>> at >>>>> least!) on Android. It turns out that the problem was a bunch of intrinsic __aeabi* functions which reside in libgcc.a rather than libc.so so are not available unless explicitly linked in, so it's rather similar to the StatSymbols hack. >>>>> >>>>> I moved the StatSymbols code into ExecutionEngine.cpp rather than JITMemoryManager.cpp since it's required for both the JIT and MCJIT, and deleted the code in RTDyldMemoryManager.cpp which did the same thing for fewer functions. They should now be picked up through the sys::DynamicLibrary::AddSymbol mechanism in both cases. The symbols required for ARM/Android are then added by an identical hack just below. >>>>> >>>>> There's one other minor change since setLastModificationAndAccessTime can't be supported on Android; all relevant system calls are missing from the C library. I've therefore changed the code to fail at runtime rather than compile-time here. >>>>> >>>>> James