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https://github.com/c64scene-ar/llvm-6502.git
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dd04df0ec3
Get rid of the difference between file paths and directory paths. The Path class now simply stores a path that can refer to either a file or a directory. This required various changes in the implementation and interface of the class with the corresponding impact to its users. Doxygen comments were also updated to reflect these changes. Interface changes are: appendDirectory -> appendComponent appendFile -> appendComponent elideDirectory -> eraseComponent elideFile -> eraseComponent elideSuffix -> eraseSuffix renameFile -> rename setDirectory -> set setFile -> set Changes pass Dejagnu and llvm-test/SingleSource tests. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@22349 91177308-0d34-0410-b5e6-96231b3b80d8
535 lines
17 KiB
C++
535 lines
17 KiB
C++
//===-- ArchiveReader.cpp - Read LLVM archive files -------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by Reid Spencer and is distributed under the
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// University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Builds up standard unix archive files (.a) containing LLVM bytecode.
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//
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//===----------------------------------------------------------------------===//
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#include "ArchiveInternals.h"
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#include "llvm/Bytecode/Reader.h"
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using namespace llvm;
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/// Read a variable-bit-rate encoded unsigned integer
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inline unsigned readInteger(const char*&At, const char*End) {
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unsigned Shift = 0;
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unsigned Result = 0;
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do {
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if (At == End)
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throw std::string("Ran out of data reading vbr_uint!");
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Result |= (unsigned)((*At++) & 0x7F) << Shift;
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Shift += 7;
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} while (At[-1] & 0x80);
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return Result;
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}
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// Completely parse the Archive's symbol table and populate symTab member var.
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void
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Archive::parseSymbolTable(const void* data, unsigned size) {
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const char* At = (const char*) data;
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const char* End = At + size;
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while (At < End) {
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unsigned offset = readInteger(At, End);
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unsigned length = readInteger(At, End);
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if (At + length > End)
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throw std::string("malformed symbol table");
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// we don't care if it can't be inserted (duplicate entry)
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symTab.insert(std::make_pair(std::string(At, length), offset));
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At += length;
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}
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symTabSize = size;
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}
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// This member parses an ArchiveMemberHeader that is presumed to be pointed to
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// by At. The At pointer is updated to the byte just after the header, which
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// can be variable in size.
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ArchiveMember*
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Archive::parseMemberHeader(const char*& At, const char* End) {
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assert(At + sizeof(ArchiveMemberHeader) < End && "Not enough data");
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// Cast archive member header
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ArchiveMemberHeader* Hdr = (ArchiveMemberHeader*)At;
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At += sizeof(ArchiveMemberHeader);
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// Instantiate the ArchiveMember to be filled
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ArchiveMember* member = new ArchiveMember(this);
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// Extract the size and determine if the file is
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// compressed or not (negative length).
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int flags = 0;
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int MemberSize = atoi(Hdr->size);
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if (MemberSize < 0) {
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flags |= ArchiveMember::CompressedFlag;
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MemberSize = -MemberSize;
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}
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// Check the size of the member for sanity
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if (At + MemberSize > End)
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throw std::string("invalid member length in archive file");
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// Check the member signature
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if (!Hdr->checkSignature())
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throw std::string("invalid file member signature");
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// Convert and check the member name
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// The empty name ( '/' and 15 blanks) is for a foreign (non-LLVM) symbol
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// table. The special name "//" and 14 blanks is for a string table, used
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// for long file names. This library doesn't generate either of those but
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// it will accept them. If the name starts with #1/ and the remainder is
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// digits, then those digits specify the length of the name that is
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// stored immediately following the header. The special name
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// __LLVM_SYM_TAB__ identifies the symbol table for LLVM bytecode.
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// Anything else is a regular, short filename that is terminated with
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// a '/' and blanks.
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std::string pathname;
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switch (Hdr->name[0]) {
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case '#':
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if (Hdr->name[1] == '1' && Hdr->name[2] == '/') {
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if (isdigit(Hdr->name[3])) {
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unsigned len = atoi(&Hdr->name[3]);
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pathname.assign(At, len);
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At += len;
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MemberSize -= len;
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flags |= ArchiveMember::HasLongFilenameFlag;
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} else
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throw std::string("invalid long filename");
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} else if (Hdr->name[1] == '_' &&
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(0 == memcmp(Hdr->name, ARFILE_LLVM_SYMTAB_NAME, 16))) {
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// The member is using a long file name (>15 chars) format.
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// This format is standard for 4.4BSD and Mac OSX operating
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// systems. LLVM uses it similarly. In this format, the
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// remainder of the name field (after #1/) specifies the
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// length of the file name which occupy the first bytes of
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// the member's data. The pathname already has the #1/ stripped.
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pathname.assign(ARFILE_LLVM_SYMTAB_NAME);
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flags |= ArchiveMember::LLVMSymbolTableFlag;
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}
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break;
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case '/':
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if (Hdr->name[1]== '/') {
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if (0 == memcmp(Hdr->name, ARFILE_STRTAB_NAME, 16)) {
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pathname.assign(ARFILE_STRTAB_NAME);
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flags |= ArchiveMember::StringTableFlag;
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} else {
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throw std::string("invalid string table name");
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}
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} else if (Hdr->name[1] == ' ') {
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if (0 == memcmp(Hdr->name, ARFILE_SVR4_SYMTAB_NAME, 16)) {
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pathname.assign(ARFILE_SVR4_SYMTAB_NAME);
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flags |= ArchiveMember::SVR4SymbolTableFlag;
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} else {
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throw std::string("invalid SVR4 symbol table name");
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}
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} else if (isdigit(Hdr->name[1])) {
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unsigned index = atoi(&Hdr->name[1]);
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if (index < strtab.length()) {
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const char* namep = strtab.c_str() + index;
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const char* endp = strtab.c_str() + strtab.length();
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const char* p = namep;
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const char* last_p = p;
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while (p < endp) {
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if (*p == '\n' && *last_p == '/') {
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pathname.assign(namep, last_p - namep);
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flags |= ArchiveMember::HasLongFilenameFlag;
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break;
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}
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last_p = p;
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p++;
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}
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if (p >= endp)
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throw std::string("missing name termiantor in string table");
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} else {
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throw std::string("name index beyond string table");
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}
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}
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break;
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case '_':
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if (Hdr->name[1] == '_' &&
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(0 == memcmp(Hdr->name, ARFILE_BSD4_SYMTAB_NAME, 16))) {
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pathname.assign(ARFILE_BSD4_SYMTAB_NAME);
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flags |= ArchiveMember::BSD4SymbolTableFlag;
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break;
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}
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/* FALL THROUGH */
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default:
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char* slash = (char*) memchr(Hdr->name, '/', 16);
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if (slash == 0)
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slash = Hdr->name + 16;
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pathname.assign(Hdr->name, slash - Hdr->name);
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break;
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}
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// Determine if this is a bytecode file
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switch (sys::IdentifyFileType(At, 4)) {
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case sys::BytecodeFileType:
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flags |= ArchiveMember::BytecodeFlag;
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break;
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case sys::CompressedBytecodeFileType:
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flags |= ArchiveMember::CompressedBytecodeFlag;
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flags &= ~ArchiveMember::CompressedFlag;
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break;
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default:
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flags &= ~(ArchiveMember::BytecodeFlag|
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ArchiveMember::CompressedBytecodeFlag);
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break;
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}
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// Fill in fields of the ArchiveMember
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member->next = 0;
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member->prev = 0;
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member->parent = this;
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member->path.set(pathname);
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member->info.fileSize = MemberSize;
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member->info.modTime.fromEpochTime(atoi(Hdr->date));
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unsigned int mode;
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sscanf(Hdr->mode, "%o", &mode);
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member->info.mode = mode;
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member->info.user = atoi(Hdr->uid);
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member->info.group = atoi(Hdr->gid);
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member->flags = flags;
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member->data = At;
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return member;
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}
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void
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Archive::checkSignature() {
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// Check the magic string at file's header
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if (mapfile->size() < 8 || memcmp(base, ARFILE_MAGIC, 8))
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throw std::string("invalid signature for an archive file");
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}
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// This function loads the entire archive and fully populates its ilist with
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// the members of the archive file. This is typically used in preparation for
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// editing the contents of the archive.
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void
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Archive::loadArchive() {
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// Set up parsing
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members.clear();
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symTab.clear();
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const char *At = base;
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const char *End = base + mapfile->size();
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checkSignature();
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At += 8; // Skip the magic string.
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bool seenSymbolTable = false;
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bool foundFirstFile = false;
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while (At < End) {
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// parse the member header
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const char* Save = At;
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ArchiveMember* mbr = parseMemberHeader(At, End);
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// check if this is the foreign symbol table
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if (mbr->isSVR4SymbolTable() || mbr->isBSD4SymbolTable()) {
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// We just save this but don't do anything special
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// with it. It doesn't count as the "first file".
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if (foreignST) {
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// What? Multiple foreign symbol tables? Just chuck it
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// and retain the last one found.
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delete foreignST;
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}
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foreignST = mbr;
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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} else if (mbr->isStringTable()) {
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// Simply suck the entire string table into a string
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// variable. This will be used to get the names of the
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// members that use the "/ddd" format for their names
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// (SVR4 style long names).
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strtab.assign(At, mbr->getSize());
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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delete mbr;
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} else if (mbr->isLLVMSymbolTable()) {
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// This is the LLVM symbol table for the archive. If we've seen it
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// already, its an error. Otherwise, parse the symbol table and move on.
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if (seenSymbolTable)
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throw std::string("invalid archive: multiple symbol tables");
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parseSymbolTable(mbr->getData(), mbr->getSize());
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seenSymbolTable = true;
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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delete mbr; // We don't need this member in the list of members.
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} else {
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// This is just a regular file. If its the first one, save its offset.
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// Otherwise just push it on the list and move on to the next file.
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if (!foundFirstFile) {
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firstFileOffset = Save - base;
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foundFirstFile = true;
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}
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members.push_back(mbr);
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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}
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}
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}
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// Open and completely load the archive file.
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Archive*
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Archive::OpenAndLoad(const sys::Path& file, std::string* ErrorMessage) {
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try {
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std::auto_ptr<Archive> result ( new Archive(file, true));
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result->loadArchive();
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return result.release();
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} catch (const std::string& msg) {
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if (ErrorMessage) {
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*ErrorMessage = msg;
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}
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return 0;
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}
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}
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// Get all the bytecode modules from the archive
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bool
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Archive::getAllModules(std::vector<Module*>& Modules, std::string* ErrMessage) {
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for (iterator I=begin(), E=end(); I != E; ++I) {
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if (I->isBytecode() || I->isCompressedBytecode()) {
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std::string FullMemberName = archPath.toString() +
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"(" + I->getPath().toString() + ")";
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Module* M = ParseBytecodeBuffer((const unsigned char*)I->getData(),
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I->getSize(), FullMemberName, ErrMessage);
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if (!M)
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return true;
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Modules.push_back(M);
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}
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}
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return false;
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}
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// Load just the symbol table from the archive file
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void
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Archive::loadSymbolTable() {
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// Set up parsing
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members.clear();
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symTab.clear();
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const char *At = base;
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const char *End = base + mapfile->size();
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// Make sure we're dealing with an archive
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checkSignature();
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At += 8; // Skip signature
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// Parse the first file member header
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const char* FirstFile = At;
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ArchiveMember* mbr = parseMemberHeader(At, End);
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if (mbr->isSVR4SymbolTable() || mbr->isBSD4SymbolTable()) {
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// Skip the foreign symbol table, we don't do anything with it
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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delete mbr;
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// Read the next one
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FirstFile = At;
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mbr = parseMemberHeader(At, End);
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}
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if (mbr->isStringTable()) {
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// Process the string table entry
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strtab.assign((const char*)mbr->getData(), mbr->getSize());
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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delete mbr;
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// Get the next one
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FirstFile = At;
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mbr = parseMemberHeader(At, End);
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}
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// See if its the symbol table
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if (mbr->isLLVMSymbolTable()) {
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parseSymbolTable(mbr->getData(), mbr->getSize());
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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FirstFile = At;
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} else {
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// There's no symbol table in the file. We have to rebuild it from scratch
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// because the intent of this method is to get the symbol table loaded so
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// it can be searched efficiently.
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// Add the member to the members list
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members.push_back(mbr);
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}
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firstFileOffset = FirstFile - base;
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}
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// Open the archive and load just the symbol tables
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Archive*
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Archive::OpenAndLoadSymbols(const sys::Path& file, std::string* ErrorMessage) {
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try {
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std::auto_ptr<Archive> result ( new Archive(file, true) );
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result->loadSymbolTable();
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return result.release();
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} catch (const std::string& msg) {
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if (ErrorMessage) {
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*ErrorMessage = msg;
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}
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return 0;
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}
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}
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// Look up one symbol in the symbol table and return a ModuleProvider for the
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// module that defines that symbol.
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ModuleProvider*
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Archive::findModuleDefiningSymbol(const std::string& symbol) {
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SymTabType::iterator SI = symTab.find(symbol);
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if (SI == symTab.end())
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return 0;
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// The symbol table was previously constructed assuming that the members were
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// written without the symbol table header. Because VBR encoding is used, the
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// values could not be adjusted to account for the offset of the symbol table
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// because that could affect the size of the symbol table due to VBR encoding.
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// We now have to account for this by adjusting the offset by the size of the
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// symbol table and its header.
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unsigned fileOffset =
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SI->second + // offset in symbol-table-less file
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firstFileOffset; // add offset to first "real" file in archive
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// See if the module is already loaded
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ModuleMap::iterator MI = modules.find(fileOffset);
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if (MI != modules.end())
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return MI->second.first;
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// Module hasn't been loaded yet, we need to load it
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const char* modptr = base + fileOffset;
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ArchiveMember* mbr = parseMemberHeader(modptr, base + mapfile->size());
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// Now, load the bytecode module to get the ModuleProvider
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std::string FullMemberName = archPath.toString() + "(" +
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mbr->getPath().toString() + ")";
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ModuleProvider* mp = getBytecodeBufferModuleProvider(
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(const unsigned char*) mbr->getData(), mbr->getSize(),
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FullMemberName, 0);
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modules.insert(std::make_pair(fileOffset, std::make_pair(mp, mbr)));
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return mp;
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}
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// Look up multiple symbols in the symbol table and return a set of
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// ModuleProviders that define those symbols.
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void
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Archive::findModulesDefiningSymbols(std::set<std::string>& symbols,
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std::set<ModuleProvider*>& result)
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{
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assert(mapfile && base && "Can't findModulesDefiningSymbols on new archive");
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if (symTab.empty()) {
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// We don't have a symbol table, so we must build it now but lets also
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// make sure that we populate the modules table as we do this to ensure
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// that we don't load them twice when findModuleDefiningSymbol is called
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// below.
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// Get a pointer to the first file
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const char* At = ((const char*)base) + firstFileOffset;
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const char* End = ((const char*)base) + mapfile->size();
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while ( At < End) {
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// Compute the offset to be put in the symbol table
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unsigned offset = At - base - firstFileOffset;
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// Parse the file's header
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ArchiveMember* mbr = parseMemberHeader(At, End);
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// If it contains symbols
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if (mbr->isBytecode() || mbr->isCompressedBytecode()) {
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// Get the symbols
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std::vector<std::string> symbols;
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std::string FullMemberName = archPath.toString() + "(" +
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mbr->getPath().toString() + ")";
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ModuleProvider* MP = GetBytecodeSymbols((const unsigned char*)At,
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mbr->getSize(), FullMemberName, symbols);
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if (MP) {
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// Insert the module's symbols into the symbol table
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for (std::vector<std::string>::iterator I = symbols.begin(),
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E=symbols.end(); I != E; ++I ) {
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symTab.insert(std::make_pair(*I, offset));
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}
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// Insert the ModuleProvider and the ArchiveMember into the table of
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// modules.
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modules.insert(std::make_pair(offset, std::make_pair(MP, mbr)));
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} else {
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throw std::string("Can't parse bytecode member: ") +
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mbr->getPath().toString();
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}
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}
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// Go to the next file location
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At += mbr->getSize();
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if ((intptr_t(At) & 1) == 1)
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At++;
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}
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}
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// At this point we have a valid symbol table (one way or another) so we
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// just use it to quickly find the symbols requested.
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for (std::set<std::string>::iterator I=symbols.begin(),
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E=symbols.end(); I != E;) {
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// See if this symbol exists
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ModuleProvider* mp = findModuleDefiningSymbol(*I);
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if (mp) {
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// The symbol exists, insert the ModuleProvider into our result,
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// duplicates wil be ignored
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result.insert(mp);
|
|
|
|
// Remove the symbol now that its been resolved, being careful to
|
|
// post-increment the iterator.
|
|
symbols.erase(I++);
|
|
} else {
|
|
++I;
|
|
}
|
|
}
|
|
}
|
|
|
|
bool
|
|
Archive::isBytecodeArchive()
|
|
{
|
|
//Make sure the symTab has been loaded...
|
|
//in most cases this should have been done
|
|
//when the archive was constructed, but still,
|
|
//this is just in case.
|
|
if ( !symTab.size() )
|
|
loadSymbolTable();
|
|
|
|
//Now that we know it's been loaded, return true
|
|
//if it has a size
|
|
if ( symTab.size() ) return true;
|
|
|
|
//We still can't be sure it isn't a bytecode archive
|
|
loadArchive();
|
|
|
|
std::vector<Module *> Modules;
|
|
std::string ErrorMessage;
|
|
|
|
//If getAllModules gives an error then this isn't a proper
|
|
//bytecode archive
|
|
if ( getAllModules( Modules, &ErrorMessage ) ) return false;
|
|
|
|
//Finally, if we find any bytecode modules then this is a proper
|
|
//bytecode archive
|
|
return Modules.size();
|
|
}
|