[llvm-commits] CVS: llvm/lib/CodeGen/MachOWriter.cpp

Nate Begeman natebegeman at mac.com
Wed Aug 23 14:09:10 PDT 2006



Changes in directory llvm/lib/CodeGen:

MachOWriter.cpp added (r1.1)
---
Log message:

Initial checkin of the Mach-O emitter.  There's plenty of fixmes, but it
does emit linkable .o files in very simple cases.


---
Diffs of the changes:  (+428 -0)

 MachOWriter.cpp |  428 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 files changed, 428 insertions(+)


Index: llvm/lib/CodeGen/MachOWriter.cpp
diff -c /dev/null llvm/lib/CodeGen/MachOWriter.cpp:1.1
*** /dev/null	Wed Aug 23 16:09:02 2006
--- llvm/lib/CodeGen/MachOWriter.cpp	Wed Aug 23 16:08:52 2006
***************
*** 0 ****
--- 1,428 ----
+ //===-- MachOWriter.cpp - Target-independent Mach-O Writer code -----------===//
+ //
+ //                     The LLVM Compiler Infrastructure
+ //
+ // This file was developed by Nate Begeman and is distributed under the
+ // University of Illinois Open Source License. See LICENSE.TXT for details.
+ //
+ //===----------------------------------------------------------------------===//
+ //
+ // This file implements the target-independent Mach-O writer.  This file writes
+ // out the Mach-O file in the following order:
+ //
+ //  #1 FatHeader (universal-only)
+ //  #2 FatArch (universal-only, 1 per universal arch)
+ //  Per arch:
+ //    #3 Header
+ //    #4 Load Commands
+ //    #5 Sections
+ //    #6 Relocations
+ //    #7 Symbols
+ //    #8 Strings
+ //
+ //===----------------------------------------------------------------------===//
+ 
+ #include "llvm/Module.h"
+ #include "llvm/CodeGen/MachineCodeEmitter.h"
+ #include "llvm/CodeGen/MachineConstantPool.h"
+ #include "llvm/CodeGen/MachineRelocation.h"
+ #include "llvm/CodeGen/MachOWriter.h"
+ #include "llvm/Target/TargetData.h"
+ #include "llvm/Target/TargetJITInfo.h"
+ #include "llvm/Target/TargetMachine.h"
+ #include "llvm/Support/Mangler.h"
+ #include <iostream>
+ using namespace llvm;
+ 
+ //===----------------------------------------------------------------------===//
+ //                       MachOCodeEmitter Implementation
+ //===----------------------------------------------------------------------===//
+ 
+ namespace llvm {
+   /// MachOCodeEmitter - This class is used by the MachOWriter to emit the code 
+   /// for functions to the Mach-O file.
+   class MachOCodeEmitter : public MachineCodeEmitter {
+     MachOWriter &MOW;
+     
+     /// MOS - The current section we're writing to
+     MachOWriter::MachOSection *MOS;
+ 
+     /// Relocations - These are the relocations that the function needs, as
+     /// emitted.
+     std::vector<MachineRelocation> Relocations;
+ 
+     /// MBBLocations - This vector is a mapping from MBB ID's to their address.
+     /// It is filled in by the StartMachineBasicBlock callback and queried by
+     /// the getMachineBasicBlockAddress callback.
+     std::vector<intptr_t> MBBLocations;
+     
+   public:
+     MachOCodeEmitter(MachOWriter &mow) : MOW(mow) {}
+ 
+     void startFunction(MachineFunction &F);
+     bool finishFunction(MachineFunction &F);
+ 
+     void addRelocation(const MachineRelocation &MR) {
+       Relocations.push_back(MR);
+     }
+     
+     virtual void StartMachineBasicBlock(MachineBasicBlock *MBB) {
+       if (MBBLocations.size() <= (unsigned)MBB->getNumber())
+         MBBLocations.resize((MBB->getNumber()+1)*2);
+       MBBLocations[MBB->getNumber()] = getCurrentPCValue();
+     }
+ 
+     virtual intptr_t getConstantPoolEntryAddress(unsigned Index) const {
+       assert(0 && "CP not implementated yet!");
+       return 0;
+     }
+     virtual intptr_t getJumpTableEntryAddress(unsigned Index) const {
+       assert(0 && "JT not implementated yet!");
+       return 0;
+     }
+ 
+     virtual intptr_t getMachineBasicBlockAddress(MachineBasicBlock *MBB) const {
+       assert(MBBLocations.size() > (unsigned)MBB->getNumber() && 
+              MBBLocations[MBB->getNumber()] && "MBB not emitted!");
+       return MBBLocations[MBB->getNumber()];
+     }
+ 
+     /// JIT SPECIFIC FUNCTIONS - DO NOT IMPLEMENT THESE HERE!
+     void startFunctionStub(unsigned StubSize) {
+       assert(0 && "JIT specific function called!");
+       abort();
+     }
+     void *finishFunctionStub(const Function *F) {
+       assert(0 && "JIT specific function called!");
+       abort();
+       return 0;
+     }
+   };
+ }
+ 
+ /// startFunction - This callback is invoked when a new machine function is
+ /// about to be emitted.
+ void MachOCodeEmitter::startFunction(MachineFunction &F) {
+   // Align the output buffer to the appropriate alignment, power of 2.
+   // FIXME: GENERICIZE!!
+   unsigned Align = 4;
+ 
+   // Get the Mach-O Section that this function belongs in.
+   MOS = &MOW.getTextSection();
+   
+    // FIXME: better memory management
+   MOS->SectionData.reserve(4096);
+   BufferBegin = &(MOS->SectionData[0]);
+   BufferEnd = BufferBegin + MOS->SectionData.capacity();
+   CurBufferPtr = BufferBegin + MOS->size;
+ 
+   // Upgrade the section alignment if required.
+   if (MOS->align < Align) MOS->align = Align;
+ 
+   // Make sure we only relocate to this function's MBBs.
+   MBBLocations.clear();
+ }
+ 
+ /// finishFunction - This callback is invoked after the function is completely
+ /// finished.
+ bool MachOCodeEmitter::finishFunction(MachineFunction &F) {
+   MOS->size += CurBufferPtr - BufferBegin;
+   
+   // Get a symbol for the function to add to the symbol table
+   MachOWriter::MachOSym FnSym(F.getFunction(), MOS->Index);
+   
+   // Figure out the binding (linkage) of the symbol.
+   switch (F.getFunction()->getLinkage()) {
+   default:
+     // appending linkage is illegal for functions.
+     assert(0 && "Unknown linkage type!");
+   case GlobalValue::ExternalLinkage:
+     FnSym.n_type = MachOWriter::MachOSym::N_SECT | MachOWriter::MachOSym::N_EXT;
+     break;
+   case GlobalValue::InternalLinkage:
+     FnSym.n_type = MachOWriter::MachOSym::N_SECT;
+     break;
+   }
+   
+   // Resolve the function's relocations either to concrete pointers in the case
+   // of branches from one block to another, or to target relocation entries.
+   for (unsigned i = 0, e = Relocations.size(); i != e; ++i) {
+     MachineRelocation &MR = Relocations[i];
+     if (MR.isBasicBlock()) {
+       void *MBBAddr = (void *)getMachineBasicBlockAddress(MR.getBasicBlock());
+       MR.setResultPointer(MBBAddr);
+       MOW.TM.getJITInfo()->relocate(BufferBegin, &MR, 1, 0);
+       // FIXME: we basically want the JITInfo relocate() function to rewrite
+       //        this guy right now, so we just write the correct displacement
+       //        to the file.
+     } else {
+       // isString | isGV | isCPI | isJTI
+       // FIXME: do something smart here.  We won't be able to relocate these
+       //        until the sections are all layed out, but we still need to
+       //        record them.  Maybe emit TargetRelocations and then resolve
+       //        those at file writing time?
+       std::cerr << "whee!\n";
+     }
+   }
+   Relocations.clear();
+   
+   // Finally, add it to the symtab.
+   MOW.SymbolTable.push_back(FnSym);
+   return false;
+ }
+ 
+ //===----------------------------------------------------------------------===//
+ //                          MachOWriter Implementation
+ //===----------------------------------------------------------------------===//
+ 
+ MachOWriter::MachOWriter(std::ostream &o, TargetMachine &tm) : O(o), TM(tm) {
+   // FIXME: set cpu type and cpu subtype somehow from TM
+   is64Bit = TM.getTargetData()->getPointerSizeInBits() == 64;
+   isLittleEndian = TM.getTargetData()->isLittleEndian();
+ 
+   // Create the machine code emitter object for this target.
+   MCE = new MachOCodeEmitter(*this);
+ }
+ 
+ MachOWriter::~MachOWriter() {
+   delete MCE;
+ }
+ 
+ void MachOWriter::EmitGlobal(GlobalVariable *GV) {
+   // FIXME: do something smart here.
+ }
+ 
+ 
+ bool MachOWriter::runOnMachineFunction(MachineFunction &MF) {
+   // Nothing to do here, this is all done through the MCE object.
+   return false;
+ }
+ 
+ bool MachOWriter::doInitialization(Module &M) {
+   // Set the magic value, now that we know the pointer size and endianness
+   Header.setMagic(isLittleEndian, is64Bit);
+ 
+   // Set the file type
+   // FIXME: this only works for object files, we do not support the creation
+   //        of dynamic libraries or executables at this time.
+   Header.filetype = MachOHeader::MH_OBJECT;
+ 
+   Mang = new Mangler(M);
+   return false;
+ }
+ 
+ /// doFinalization - Now that the module has been completely processed, emit
+ /// the Mach-O file to 'O'.
+ bool MachOWriter::doFinalization(Module &M) {
+   // Okay, the.text section has been completed, build the .data, .bss, and 
+   // "common" sections next.
+   for (Module::global_iterator I = M.global_begin(), E = M.global_end();
+        I != E; ++I)
+     EmitGlobal(I);
+   
+   // Emit the header and load commands.
+   EmitHeaderAndLoadCommands();
+ 
+   // Emit the text and data sections.
+   EmitSections();
+ 
+   // Emit the relocation entry data for each section.
+   // FIXME: presumably this should be a virtual method, since different targets
+   //        have different relocation types.
+   EmitRelocations();
+ 
+   // Emit the symbol table.
+   // FIXME: we don't handle debug info yet, we should probably do that.
+   EmitSymbolTable();
+ 
+   // Emit the string table for the sections we have.
+   EmitStringTable();
+ 
+   // We are done with the abstract symbols.
+   SectionList.clear();
+   SymbolTable.clear();
+   DynamicSymbolTable.clear();
+ 
+   // Release the name mangler object.
+   delete Mang; Mang = 0;
+   return false;
+ }
+ 
+ void MachOWriter::EmitHeaderAndLoadCommands() {
+   // Step #0: Fill in the segment load command size, since we need it to figure
+   //          out the rest of the header fields
+   MachOSegment SEG("", is64Bit);
+   SEG.nsects  = SectionList.size();
+   SEG.cmdsize = SEG.cmdSize(is64Bit) + 
+                 SEG.nsects * SectionList.begin()->cmdSize(is64Bit);
+   
+   // Step #1: calculate the number of load commands.  We always have at least
+   //          one, for the LC_SEGMENT load command, plus two for the normal
+   //          and dynamic symbol tables, if there are any symbols.
+   Header.ncmds = SymbolTable.empty() ? 1 : 3;
+   
+   // Step #2: calculate the size of the load commands
+   Header.sizeofcmds = SEG.cmdsize;
+   if (!SymbolTable.empty())
+     Header.sizeofcmds += SymTab.cmdsize + DySymTab.cmdsize;
+     
+   // Step #3: write the header to the file
+   // Local alias to shortenify coming code.
+   DataBuffer &FH = Header.HeaderData;
+   outword(FH, Header.magic);
+   outword(FH, Header.cputype);
+   outword(FH, Header.cpusubtype);
+   outword(FH, Header.filetype);
+   outword(FH, Header.ncmds);
+   outword(FH, Header.sizeofcmds);
+   outword(FH, Header.flags);
+   if (is64Bit)
+     outword(FH, Header.reserved);
+   
+   // Step #4: Finish filling in the segment load command and write it out
+   for (std::list<MachOSection>::iterator I = SectionList.begin(),
+          E = SectionList.end(); I != E; ++I)
+     SEG.filesize += I->size;
+   SEG.vmsize = SEG.filesize;
+   SEG.fileoff = Header.cmdSize(is64Bit) + Header.sizeofcmds;
+   
+   outword(FH, SEG.cmd);
+   outword(FH, SEG.cmdsize);
+   outstring(FH, SEG.segname, 16);
+   outaddr(FH, SEG.vmaddr);
+   outaddr(FH, SEG.vmsize);
+   outaddr(FH, SEG.fileoff);
+   outaddr(FH, SEG.filesize);
+   outword(FH, SEG.maxprot);
+   outword(FH, SEG.initprot);
+   outword(FH, SEG.nsects);
+   outword(FH, SEG.flags);
+   
+   // Step #5: Write out the section commands for each section
+   for (std::list<MachOSection>::iterator I = SectionList.begin(),
+          E = SectionList.end(); I != E; ++I) {
+     I->offset = SEG.fileoff;  // FIXME: separate offset
+     outstring(FH, I->sectname, 16);
+     outstring(FH, I->segname, 16);
+     outaddr(FH, I->addr);
+     outaddr(FH, I->size);
+     outword(FH, I->offset);
+     outword(FH, I->align);
+     outword(FH, I->reloff);
+     outword(FH, I->nreloc);
+     outword(FH, I->flags);
+     outword(FH, I->reserved1);
+     outword(FH, I->reserved2);
+     if (is64Bit)
+       outword(FH, I->reserved3);
+   }
+   
+   // Step #6: Emit LC_SYMTAB/LC_DYSYMTAB load commands
+   // FIXME: We'll need to scan over the symbol table and possibly do the sort
+   // here so that we can set the proper indices in the dysymtab load command for
+   // the index and number of external symbols defined in this module.
+   // FIXME: We'll also need to scan over all the symbols so that we can 
+   // calculate the size of the string table.
+   // FIXME: add size of relocs
+   SymTab.symoff  = SEG.fileoff + SEG.filesize;
+   SymTab.nsyms   = SymbolTable.size();
+   SymTab.stroff  = SymTab.symoff + SymTab.nsyms * MachOSym::entrySize();
+   SymTab.strsize = 10;
+   outword(FH, SymTab.cmd);
+   outword(FH, SymTab.cmdsize);
+   outword(FH, SymTab.symoff);
+   outword(FH, SymTab.nsyms);
+   outword(FH, SymTab.stroff);
+   outword(FH, SymTab.strsize);
+ 
+   // FIXME: set DySymTab fields appropriately
+   outword(FH, DySymTab.cmd);
+   outword(FH, DySymTab.cmdsize);
+   outword(FH, DySymTab.ilocalsym);
+   outword(FH, DySymTab.nlocalsym);
+   outword(FH, DySymTab.iextdefsym);
+   outword(FH, DySymTab.nextdefsym);
+   outword(FH, DySymTab.iundefsym);
+   outword(FH, DySymTab.nundefsym);
+   outword(FH, DySymTab.tocoff);
+   outword(FH, DySymTab.ntoc);
+   outword(FH, DySymTab.modtaboff);
+   outword(FH, DySymTab.nmodtab);
+   outword(FH, DySymTab.extrefsymoff);
+   outword(FH, DySymTab.nextrefsyms);
+   outword(FH, DySymTab.indirectsymoff);
+   outword(FH, DySymTab.nindirectsyms);
+   outword(FH, DySymTab.extreloff);
+   outword(FH, DySymTab.nextrel);
+   outword(FH, DySymTab.locreloff);
+   outword(FH, DySymTab.nlocrel);
+   
+   O.write((char*)&FH[0], FH.size());
+ }
+ 
+ /// EmitSections - Now that we have constructed the file header and load
+ /// commands, emit the data for each section to the file.
+ void MachOWriter::EmitSections() {
+   for (std::list<MachOSection>::iterator I = SectionList.begin(),
+          E = SectionList.end(); I != E; ++I) {
+     O.write((char*)&I->SectionData[0], I->size);
+   }
+ }
+ 
+ void MachOWriter::EmitRelocations() {
+   // FIXME: this should probably be a pure virtual function, since the
+   // relocation types and layout of the relocations themselves are target
+   // specific.
+ }
+ 
+ /// EmitSymbolTable - Sort the symbols we encountered and assign them each a 
+ /// string table index so that they appear in the correct order in the output 
+ /// file.
+ void MachOWriter::EmitSymbolTable() {
+   // The order of the symbol table is:
+   // local symbols
+   // defined external symbols (sorted by name)
+   // undefined external symbols (sorted by name)
+   DataBuffer ST;
+   
+   // FIXME: enforce the above ordering, presumably by sorting by name, 
+   // then partitioning twice.
+   unsigned stringIndex;
+   for (std::vector<MachOSym>::iterator I = SymbolTable.begin(),
+          E = SymbolTable.end(); I != E; ++I) {
+     // FIXME: remove when we actually calculate these correctly
+     I->n_strx = 1;
+     StringTable.push_back(Mang->getValueName(I->GV));
+     // Emit nlist to buffer
+     outword(ST, I->n_strx);
+     outbyte(ST, I->n_type);
+     outbyte(ST, I->n_sect);
+     outhalf(ST, I->n_desc);
+     outaddr(ST, I->n_value);
+   }
+   
+   O.write((char*)&ST[0], ST.size());
+ }
+ 
+ /// EmitStringTable - This method adds and emits a section for the Mach-O 
+ /// string table.
+ void MachOWriter::EmitStringTable() {
+   // The order of the string table is:
+   // strings for external symbols
+   // strings for local symbols
+   // This is the symbol table, but backwards.  This allows us to avoid a sorting
+   // the symbol table again; all we have to do is use a reverse iterator.
+   DataBuffer ST;
+ 
+   // Write out a leading zero byte when emitting string table, for n_strx == 0
+   // which means an empty string.
+   outbyte(ST, 0);
+ 
+   for (std::vector<std::string>::iterator I = StringTable.begin(),
+          E = StringTable.end(); I != E; ++I) {
+     // FIXME: do not arbitrarily cap symbols to 16 characters
+     // FIXME: do something more efficient than outstring
+     outstring(ST, *I, 16);
+   }
+   O.write((char*)&ST[0], ST.size());
+ }






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