[llvm-dev] [RFC] Embedded bitcode and related upstream (Part II)

[Adrian Prantl via cfe-commits]

> On Jun 13, 2016, at 9:37 AM, Steven Wu <stevenwu at apple.com> wrote:
> 
> Thanks for the feedback! Replies inline. 
> 
>> On Jun 12, 2016, at 11:44 PM, Eric Christopher <echristo at gmail.com <mailto:echristo at gmail.com>> wrote:
>> 
>> Hi Steven,
>> 
>> Great to see the commentary and updates here. I've got a few questions about some of this work. It might be nice to see some separate RFCs for a couple of things, but we'll figure that out after you send out patches probably :)
>> 
>> What needs to be improved:
>> 1. Whitelist for command line options that can be used with bitcode:
>> Current trunk implementation embeds all the cc1 command line options (that includes header include paths, warning flags and other front-end options) in the command line section. That is lot of redundant information. To re-create the object file from the embedded optimized bitcode, most of these options are useless. On the other hand, they can leak information of the source code. One solution will be keeping a list of all the options that can affect code generation but not encoded in the bitcode. I have internally prototyped with disallowing these options explicitly and allowed only the reminder of the  options to be embedded (http://reviews.llvm.org/D17394 <http://reviews.llvm.org/D17394>). A better solution might be encoding that information in "Options.td" as specific group.
>> 
>> This is really interesting. I'm not a particularly security minded person so I don't have a lot of commentary there. An explicit whitelist sounds a bit painful to keep maintained, explicitly having a group in Options.td sounds pretty nice. You'll need to add them to multiple groups, but it seems pretty nice.
> 
> I have already implemented the new approach in http://reviews.llvm.org/D21230 <http://reviews.llvm.org/D21230>. It creates a new group for all the cc1 options that can affect codegen but not having a corresponding attribute in the bitcode. When I wrote up this patch, I think it is also a good idea to extend the group to driver flags so clang driver can issue warnings when using these flags with LTO because they are likely to be dropped in the process. That is my next thing to do if someone reviews my patch and agrees that is right thing to do.
> 
>>  
>> 2. Assembly input handling:
>> This is a workaround to allow source code written in assembly to work with "-fembed-bitcode" options. When compiling assembly source code with "-fembed-bitcode", clang-as creates an empty section "__LLVM, __asm" in the object file. That is just a way to distinguish object files compiled from assembly source from those compiled from higher level source code but forgot to use "-fembed-bitcode" options. Linker can use this section to diagnose if "-fembed-bitcode" is consistently used on all the object files participated in the linking.
>> 
>> I'm surprised you want a separate and empty section and not a header flag as those are easier to keep around and won't take up a precious mach-o section. There are probably other options here as well. There are probably other options or concerns that someone shipping bitcode might have here as well, but I'm sure those are being talked about - doesn't have too much affect on the community though.
> 
> I suppose you mean the alternative is to burn a macho command for that. Well, that is a limited resource and we don't have much left. Plus, using empty section will make this accessible to other binary format, not only macho files. I also have an interesting thought about handle the assembly, that is to wrap it in module assembly in a bitcode file. I am not sure it would preserve the all semantics of the original assembly and that would mean I need to somehow teach the assembler about bitcode (which might make this not very attractive). Yes, you might be right this doesn't affect the community, if no one else is interesting in a solution for the problem we have, then this might not be suitable for contributing. I am happy to keep it downstream.
> 
>> 
>> 3. Bitcode symbol hiding:
>> There was some concerns for leaking source code information when using bitcode feature. One approach to avoid the leak is to add a pass which renames all the globals and metadata strings. The also keeps a reverse map in case the original name needs to be recovered. The final bitcode should contain no more symbols or debug info than a stripped binary. To make sure modified bitcode can still be linked correctly, the renaming need to be consistent across all bitcode participated in the linking and everything that is external of the linkage unit need to be preserved. This means the pass can only be run during the linking and requires some LTO api.
>> 
>> How are you planning to ensure the safety of the reverse map? Seems that requiring linking is a bit icky, but might work. Are you mostly worried about function names that could be stripped out? What LTO api are you envisioning here? 
> 
> The reverse map is emitted as a separate file from the output binary/bitcode. It should not be shipped together with the binary output, just like dSYM bundle.
> The reason it needs to be done after linking is a limitation of the symbol hiding technique. It requires that the symbols must be resolved. Think about the following case:
> a.o:
> T export_symbol
> T global_symbol
> t local_symbol
> b.o:
> U global_symbol
> 
> To make sure the bitcode after symbol hiding pass can still link and produce the same output, the pass need to rename them:
> a.o:
> T export_symbol    --> export_symbol (preserve)
> T global_symbol    --> hidden_symbol_1 (rename, but need to have the same name as the one in b.o)
> t local_symbol       --> hidden_symbol_2 (rename, but don't care what it becomes)
> b.o:
> U global_symbol   --> hidden_symbol_1
> The pass need to know what symbols to keep and a global renaming table so the names after renaming are consistent across all the modules.
>  
>>  
>> 4. Debug info strip to line-tables pass:
>> As the name suggested, this pass strip down the full debug info to line-tables only. This is also one of the steps we took to prevent the leak of source code information in bitcode.
>> 
>> I'm very curious about what's going on here. Could you elaborate? :)
> 
> Cc Adrian
> He would know more about it. I would only know that it can reconstruct -gline-tables-only debug info from full debug info. We use it as a part of the bitcode pipeline because we don't want the bitcode file to be exceedingly large but I can see this pass to be useful in other circumstances.

It’s a pass that aims at downgrading full debug info to -gline-tables-only debug info. It performs a deep copy of the debug metadata graph, removing all types and variables while leaving all locations, subprograms, and inline information intact. It then makes the IR point to the newly created stripped subprograms, CU, and locations.

-- adrian

> 
> Steven
> 
>> 
>> Thanks a ton for the update - glad to see this being worked on!
>> 
>> -eric
>>  
>> 
>> Please let me know what do you think about the pieces above or if you have any concerns about the methodology. I will put up patches for review soon.
>> 
>> Thanks
>> 
>> Steven
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