lib/Archive/ArchiveReader.cpp - llvm - Git at Google

 //===- ArchiveReader.cpp - Code to read LLVM bytecode from .a files -------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file was developed by the LLVM research group and is distributed under
 // the University of Illinois Open Source License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements the ReadArchiveFile interface, which allows a linker to
 // read all of the LLVM bytecode files contained in a .a file.  This file
 // understands the standard system .a file format.  This can only handle the .a
 // variant prevalent on Linux systems so far, but may be extended.  See
 // information in this source file for more information:
 //   http://sources.redhat.com/cgi-bin/cvsweb.cgi/src/bfd/archive.c?cvsroot=src
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/Bytecode/Reader.h"
 #include "llvm/Module.h"
 #include "Config/sys/stat.h"
 #include "Config/sys/mman.h"
 #include "Config/fcntl.h"

 namespace {
   struct ar_hdr {
     char name[16];
     char date[12];
     char uid[6];
     char gid[6];
     char mode[8];
     char size[10];
     char fmag[2];          // Always equal to '`\n'
   };

   enum ObjectType {
     UserObject,            // A user .o/.bc file
     Unknown,               // Unknown file, just ignore it
     SVR4LongFilename,      // a "//" section used for long file names
   };
 }


 // getObjectType - Determine the type of object that this header represents.
 // This is capable of parsing the variety of special sections used for various
 // purposes.
 static enum ObjectType getObjectType(ar_hdr *H, unsigned Size) {
   // Check for sections with special names...
   if (!memcmp(H->name, "//              ", 16))
     return SVR4LongFilename;

   // Check to see if it looks like an llvm object file...
   if (Size >= 4 && !memcmp(H+1, "llvm", 4))
     return UserObject;

   return Unknown;
 }


 static inline bool Error(std::string *ErrorStr, const char *Message) {
   if (ErrorStr) *ErrorStr = Message;
   return true;
 }

 static bool ParseLongFilenameSection(unsigned char *Buffer, unsigned Size,
                                      std::vector<std::string> &LongFilenames,
                                      std::string *S) {
   if (!LongFilenames.empty())
     return Error(S, "archive file contains multiple long filename entries");

   while (Size) {
     // Long filename entries are newline delimited to keep the archive readable.
     unsigned char *Ptr = (unsigned char*)memchr(Buffer, '\n', Size);
     if (Ptr == 0)
       return Error(S, "archive long filename entry doesn't end with newline!");
     assert(*Ptr == '\n');

     if (Ptr == Buffer) break;  // Last entry contains just a newline.

     unsigned char *End = Ptr;
     if (End[-1] == '/') --End; // Remove trailing / from name

     LongFilenames.push_back(std::string(Buffer, End));
     Size -= Ptr-Buffer+1;
     Buffer = Ptr+1;
   }

   return false;
 }


 static bool ReadArchiveBuffer(const std::string &Filename,
                               unsigned char *Buffer, unsigned Length,
                               std::vector<Module*> &Objects,
                               std::string *ErrorStr) {
   if (Length < 8 || memcmp(Buffer, "!<arch>\n", 8))
     return Error(ErrorStr, "signature incorrect for an archive file!");
   Buffer += 8;  Length -= 8; // Skip the magic string.

   std::vector<std::string> LongFilenames;

   while (Length >= sizeof(ar_hdr)) {
     ar_hdr *Hdr = (ar_hdr*)Buffer;
     unsigned Size = atoi(Hdr->size);
     if (Size+sizeof(ar_hdr) > Length)
       return Error(ErrorStr, "invalid record length in archive file!");

     switch (getObjectType(Hdr, Size)) {
     case SVR4LongFilename:
       // If this is a long filename section, read all of the file names into the
       // LongFilenames vector.
       //
       if (ParseLongFilenameSection(Buffer+sizeof(ar_hdr), Size,
                                    LongFilenames, ErrorStr))
         return true;
       break;
     case UserObject: {
       Module *M = ParseBytecodeBuffer(Buffer+sizeof(ar_hdr), Size,
                                       Filename+":somefile", ErrorStr);
       if (!M) return true;
       Objects.push_back(M);
       break;
     }
     case Unknown:
       std::cerr << "ReadArchiveBuffer: WARNING: Skipping unknown file: ";
       std::cerr << std::string(Hdr->name, Hdr->name+sizeof(Hdr->name+1)) <<"\n";
       break;   // Just ignore unknown files.
     }

     // Round Size up to an even number...
     Size = (Size+1)/2*2;
     Buffer += sizeof(ar_hdr)+Size;   // Move to the next entry
     Length -= sizeof(ar_hdr)+Size;
   }

   return Length != 0;
 }


 // ReadArchiveFile - Read bytecode files from the specified .a file, returning
 // true on error, or false on success.  This does not support reading files from
 // standard input.
 //
 bool ReadArchiveFile(const std::string &Filename, std::vector<Module*> &Objects,
                      std::string *ErrorStr) {
   int FD = open(Filename.c_str(), O_RDONLY);
   if (FD == -1)
     return Error(ErrorStr, "Error opening file!");

   // Stat the file to get its length...
   struct stat StatBuf;
   if (fstat(FD, &StatBuf) == -1 || StatBuf.st_size == 0)
     return Error(ErrorStr, "Error stat'ing file!");

     // mmap in the file all at once...
   int Length = StatBuf.st_size;
   unsigned char *Buffer = (unsigned char*)mmap(0, Length, PROT_READ,
                                                MAP_PRIVATE, FD, 0);
   if (Buffer == (unsigned char*)MAP_FAILED)
     return Error(ErrorStr, "Error mmapping file!");

   // Parse the archive files we mmap'ped in
   bool Result = ReadArchiveBuffer(Filename, Buffer, Length, Objects, ErrorStr);

   // Unmmap the archive...
   munmap((char*)Buffer, Length);

   if (Result)    // Free any loaded objects
     while (!Objects.empty()) {
       delete Objects.back();
       Objects.pop_back();
     }

   return Result;
 }
	//===- ArchiveReader.cpp - Code to read LLVM bytecode from .a files -------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file was developed by the LLVM research group and is distributed under
	// the University of Illinois Open Source License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the ReadArchiveFile interface, which allows a linker to
	// read all of the LLVM bytecode files contained in a .a file. This file
	// understands the standard system .a file format. This can only handle the .a
	// variant prevalent on Linux systems so far, but may be extended. See
	// information in this source file for more information:
	// http://sources.redhat.com/cgi-bin/cvsweb.cgi/src/bfd/archive.c?cvsroot=src
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/Bytecode/Reader.h"
	#include "llvm/Module.h"
	#include "Config/sys/stat.h"
	#include "Config/sys/mman.h"
	#include "Config/fcntl.h"

	namespace {
	struct ar_hdr {
	char name[16];
	char date[12];
	char uid[6];
	char gid[6];
	char mode[8];
	char size[10];
	char fmag[2]; // Always equal to '`\n'
	};

	enum ObjectType {
	UserObject, // A user .o/.bc file
	Unknown, // Unknown file, just ignore it
	SVR4LongFilename, // a "//" section used for long file names
	};
	}


	// getObjectType - Determine the type of object that this header represents.
	// This is capable of parsing the variety of special sections used for various
	// purposes.
	static enum ObjectType getObjectType(ar_hdr *H, unsigned Size) {
	// Check for sections with special names...
	if (!memcmp(H->name, "// ", 16))
	return SVR4LongFilename;

	// Check to see if it looks like an llvm object file...
	if (Size >= 4 && !memcmp(H+1, "llvm", 4))
	return UserObject;

	return Unknown;
	}


	static inline bool Error(std::string ErrorStr, const char Message) {
	if (ErrorStr) *ErrorStr = Message;
	return true;
	}

	static bool ParseLongFilenameSection(unsigned char *Buffer, unsigned Size,
	std::vector<std::string> &LongFilenames,
	std::string *S) {
	if (!LongFilenames.empty())
	return Error(S, "archive file contains multiple long filename entries");

	while (Size) {
	// Long filename entries are newline delimited to keep the archive readable.
	unsigned char Ptr = (unsigned char)memchr(Buffer, '\n', Size);
	if (Ptr == 0)
	return Error(S, "archive long filename entry doesn't end with newline!");
	assert(*Ptr == '\n');

	if (Ptr == Buffer) break; // Last entry contains just a newline.

	unsigned char *End = Ptr;
	if (End[-1] == '/') --End; // Remove trailing / from name

	LongFilenames.push_back(std::string(Buffer, End));
	Size -= Ptr-Buffer+1;
	Buffer = Ptr+1;
	}

	return false;
	}


	static bool ReadArchiveBuffer(const std::string &Filename,
	unsigned char *Buffer, unsigned Length,
	std::vector<Module*> &Objects,
	std::string *ErrorStr) {
	if (Length < 8 \|\| memcmp(Buffer, "!<arch>\n", 8))
	return Error(ErrorStr, "signature incorrect for an archive file!");
	Buffer += 8; Length -= 8; // Skip the magic string.

	std::vector<std::string> LongFilenames;

	while (Length >= sizeof(ar_hdr)) {
	ar_hdr Hdr = (ar_hdr)Buffer;
	unsigned Size = atoi(Hdr->size);
	if (Size+sizeof(ar_hdr) > Length)
	return Error(ErrorStr, "invalid record length in archive file!");

	switch (getObjectType(Hdr, Size)) {
	case SVR4LongFilename:
	// If this is a long filename section, read all of the file names into the
	// LongFilenames vector.
	//
	if (ParseLongFilenameSection(Buffer+sizeof(ar_hdr), Size,
	LongFilenames, ErrorStr))
	return true;
	break;
	case UserObject: {
	Module *M = ParseBytecodeBuffer(Buffer+sizeof(ar_hdr), Size,
	Filename+":somefile", ErrorStr);
	if (!M) return true;
	Objects.push_back(M);
	break;
	}
	case Unknown:
	std::cerr << "ReadArchiveBuffer: WARNING: Skipping unknown file: ";
	std::cerr << std::string(Hdr->name, Hdr->name+sizeof(Hdr->name+1)) <<"\n";
	break; // Just ignore unknown files.
	}

	// Round Size up to an even number...
	Size = (Size+1)/2*2;
	Buffer += sizeof(ar_hdr)+Size; // Move to the next entry
	Length -= sizeof(ar_hdr)+Size;
	}

	return Length != 0;
	}


	// ReadArchiveFile - Read bytecode files from the specified .a file, returning
	// true on error, or false on success. This does not support reading files from
	// standard input.
	//
	bool ReadArchiveFile(const std::string &Filename, std::vector<Module*> &Objects,
	std::string *ErrorStr) {
	int FD = open(Filename.c_str(), O_RDONLY);
	if (FD == -1)
	return Error(ErrorStr, "Error opening file!");

	// Stat the file to get its length...
	struct stat StatBuf;
	if (fstat(FD, &StatBuf) == -1 \|\| StatBuf.st_size == 0)
	return Error(ErrorStr, "Error stat'ing file!");

	// mmap in the file all at once...
	int Length = StatBuf.st_size;
	unsigned char Buffer = (unsigned char)mmap(0, Length, PROT_READ,
	MAP_PRIVATE, FD, 0);
	if (Buffer == (unsigned char*)MAP_FAILED)
	return Error(ErrorStr, "Error mmapping file!");

	// Parse the archive files we mmap'ped in
	bool Result = ReadArchiveBuffer(Filename, Buffer, Length, Objects, ErrorStr);

	// Unmmap the archive...
	munmap((char*)Buffer, Length);

	if (Result) // Free any loaded objects
	while (!Objects.empty()) {
	delete Objects.back();
	Objects.pop_back();
	}

	return Result;
	}