琬菁楊
2010-Apr-02 16:28 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
Hello Chris, I have survey the efi specification and ask some question to efi engineer. Difference between EFI C and ANSI C is as following: 1. void* In EFI C, the void* is 4-byte for 32-bit processor and 8-byte for 64-bit processor. And it can appears in any where like ANSI C. So the main problem is that struct layout like struct S{ void* X; }; is not static. 2. no floating support in EFI C 3. no C++ support in EFI C 4. no assembly support in EFI C, all assembly must convert to C I am wondering that does LLVM support model which structure layout is determined at run time?? If not, do I need to modify the parser in clang to support this feature?? thanks ching -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20100403/c4d0de77/attachment.html>
Chris Lattner
2010-Apr-02 17:17 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
On Apr 2, 2010, at 9:28 AM, 琬菁楊 wrote:> Hello Chris, > > I have survey the efi specification and ask some question to efi engineer. > Difference between EFI C and ANSI C is as following: > 1. void* > In EFI C, the void* is 4-byte for 32-bit processor and 8-byte for 64-bit processor. > And it can appears in any where like ANSI C. > So the main problem is that struct layout like > struct S{ > void* X; > }; > is not static. > 2. no floating support in EFI C > 3. no C++ support in EFI C > 4. no assembly support in EFI C, all assembly must convert to COk, all of this is easy except #1.> I am wondering that does LLVM support model which structure layout is determined at run time??No.> If not, do I need to modify the parser in clang to support this feature??No, please don't. This is something we specifically do not want to support. The issue is not the parser, the issue is that struct field offsets are no longer constant in this model. -Chris
琬菁楊
2010-Apr-02 17:47 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
Hello Chris> If not, do I need to modify the parser in clang to support this feature?? > > No, please don't. This is something we specifically do not want to > support. The issue is not the parser, the issue is that struct field > offsets are no longer constant in this model. >Does that struct field offsets are no longer constant would crash the following optimization in LLVM?? thanks ching -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20100403/57c0cff8/attachment.html>
Dale Johannesen
2010-Apr-02 17:56 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
On Apr 2, 2010, at 10:17 AMPDT, Chris Lattner wrote:>> Hello Chris, >> >> I have survey the efi specification and ask some question to efi engineer. >> Difference between EFI C and ANSI C is as following: >> 1. void* >> In EFI C, the void* is 4-byte for 32-bit processor and 8-byte for 64-bit processor. >> And it can appears in any where like ANSI C. >> So the main problem is that struct layout like >> struct S{ >> void* X; >> }; >> is not static. > >> If not, do I need to modify the parser in clang to support this feature?? > > No, please don't. This is something we specifically do not want to support. The issue is not the parser, the issue is that struct field offsets are no longer constant in this model.LLVM may not be a good match for this project, but there's prior art elsewhere; have a look at ANDF.
Russell Wallace
2010-Apr-03 12:36 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
On Fri, Apr 2, 2010 at 6:17 PM, Chris Lattner <clattner at apple.com> wrote:> No, please don't. This is something we specifically do not want to support. The issue is not the parser, the issue is that struct field offsets are no longer constant in this model.What about declaring that pointers are always 64 bits, for all purposes other than final code generation of actual pointer instructions? Would that solve the problem?
琬菁楊
2010-Apr-06 19:02 UTC
[LLVMdev] Idea for Google Summer Code : C Compiler for EFI Byte Code implement in LLVM
Hello Chris> I have survey the efi specification and ask some question to efi engineer. > > Difference between EFI C and ANSI C is as following: > > 1. void* > > In EFI C, the void* is 4-byte for 32-bit processor and 8-byte for > 64-bit processor. > > And it can appears in any where like ANSI C. > > So the main problem is that struct layout like > > struct S{ > > void* X; > > }; > > is not static. > > 2. no floating support in EFI C > > 3. no C++ support in EFI C > > 4. no assembly support in EFI C, all assembly must convert to C > > Ok, all of this is easy except #1. > > > I am wondering that does LLVM support model which structure layout is > determined at run time?? > > No. > > > If not, do I need to modify the parser in clang to support this feature?? > > No, please don't. This is something we specifically do not want to > support. The issue is not the parser, the issue is that struct field > offsets are no longer constant in this model. >I have read the EFI specification v1.10 and find the natural indexing about solving the dynamic structure layout problem: 19.4.4 Natural Units Natural units are used when a structure has fields that can vary with the architecture of the processor. Fields that precipitate the use of natural units include pointers and EFI INTN and UINTN data types. The size of one pointer or INTN/UINTN equals one natural unit. The natural units field in an index encoding is a count of the number of natural fields whose sizes (in bytes) must be added to determine a field offset. As an example, assume that a given EBC instruction specifies a 16-bit index of 0xA048. This breaks down into: • Sign bit (bit 15) = 1 (negative offset) • Bits assigned to natural units (w, bits 14-12) = 2. Multiply by index size in bytes = 2 x 2 = 4 (A) • c = bits 11-4 = 4 • n = bits 3-0 = 8 On a 32-bit machine, the offset is then calculated to be: • Offset = (4 + 8 * 4) * -1 = -36 On a 64-bit machine, the offset is calculated to be: • Offset = (4 + 8 * 8) * -1 = -68 By this indexing model, the dynamic struture layout problem seems to be solved by the underlying EBC vm. Although the data field is at different address between 32-bit and 64-bit processor. Both can use the same encoding. Does it means that the issue 1 can be solved?? thanks ching -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20100407/55c52ef5/attachment.html>
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