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8994e20f69
The needed lld matching changes to be submitted immediately next, but this revision will cause lld failures with this alone which is expected. This removes the eating of the error in Archive::Child::getSize() when the characters in the size field in the archive header for the member is not a number. To do this we have all of the needed methods return ErrorOr to push them up until we get out of lib. Then the tools and can handle the error in whatever way is appropriate for that tool. So the solution is to plumb all the ErrorOr stuff through everything that touches archives. This include its iterators as one can create an Archive object but the first or any other Child object may fail to be created due to a bad size field in its header. Thanks to Lang Hames on the changes making child_iterator contain an ErrorOr<Child> instead of a Child and the needed changes to ErrorOr.h to add operator overloading for * and -> . We don’t want to use llvm_unreachable() as it calls abort() and is produces a “crash” and using report_fatal_error() to move the error checking will cause the program to stop, neither of which are really correct in library code. There are still some uses of these that should be cleaned up in this library code for other than the size field. The test cases use archives with text files so one can see the non-digit character, in this case a ‘%’, in the size field. These changes will require corresponding changes to the lld project. That will be committed immediately after this change. But this revision will cause lld failures with this alone which is expected. llvm-svn: 252192
612 lines
19 KiB
C++
612 lines
19 KiB
C++
//===- Archive.cpp - ar File Format implementation --------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the ArchiveObjectFile class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Object/Archive.h"
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#include "llvm/ADT/APInt.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/Support/Endian.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/Path.h"
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using namespace llvm;
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using namespace object;
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using namespace llvm::support::endian;
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static const char *const Magic = "!<arch>\n";
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static const char *const ThinMagic = "!<thin>\n";
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void Archive::anchor() { }
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StringRef ArchiveMemberHeader::getName() const {
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char EndCond;
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if (Name[0] == '/' || Name[0] == '#')
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EndCond = ' ';
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else
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EndCond = '/';
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llvm::StringRef::size_type end =
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llvm::StringRef(Name, sizeof(Name)).find(EndCond);
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if (end == llvm::StringRef::npos)
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end = sizeof(Name);
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assert(end <= sizeof(Name) && end > 0);
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// Don't include the EndCond if there is one.
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return llvm::StringRef(Name, end);
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}
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ErrorOr<uint32_t> ArchiveMemberHeader::getSize() const {
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uint32_t Ret;
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if (llvm::StringRef(Size, sizeof(Size)).rtrim(" ").getAsInteger(10, Ret))
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return object_error::parse_failed; // Size is not a decimal number.
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return Ret;
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}
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sys::fs::perms ArchiveMemberHeader::getAccessMode() const {
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unsigned Ret;
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if (StringRef(AccessMode, sizeof(AccessMode)).rtrim(" ").getAsInteger(8, Ret))
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llvm_unreachable("Access mode is not an octal number.");
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return static_cast<sys::fs::perms>(Ret);
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}
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sys::TimeValue ArchiveMemberHeader::getLastModified() const {
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unsigned Seconds;
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if (StringRef(LastModified, sizeof(LastModified)).rtrim(" ")
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.getAsInteger(10, Seconds))
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llvm_unreachable("Last modified time not a decimal number.");
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sys::TimeValue Ret;
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Ret.fromEpochTime(Seconds);
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return Ret;
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}
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unsigned ArchiveMemberHeader::getUID() const {
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unsigned Ret;
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if (StringRef(UID, sizeof(UID)).rtrim(" ").getAsInteger(10, Ret))
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llvm_unreachable("UID time not a decimal number.");
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return Ret;
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}
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unsigned ArchiveMemberHeader::getGID() const {
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unsigned Ret;
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if (StringRef(GID, sizeof(GID)).rtrim(" ").getAsInteger(10, Ret))
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llvm_unreachable("GID time not a decimal number.");
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return Ret;
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}
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Archive::Child::Child(const Archive *Parent, StringRef Data,
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uint16_t StartOfFile)
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: Parent(Parent), Data(Data), StartOfFile(StartOfFile) {}
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Archive::Child::Child(const Archive *Parent, const char *Start,
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std::error_code *EC)
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: Parent(Parent) {
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if (!Start)
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return;
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uint64_t Size = sizeof(ArchiveMemberHeader);
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Data = StringRef(Start, Size);
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if (!isThinMember()) {
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ErrorOr<uint64_t> MemberSize = getRawSize();
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if ((*EC = MemberSize.getError()))
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return;
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Size += MemberSize.get();
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Data = StringRef(Start, Size);
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}
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// Setup StartOfFile and PaddingBytes.
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StartOfFile = sizeof(ArchiveMemberHeader);
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// Don't include attached name.
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StringRef Name = getRawName();
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if (Name.startswith("#1/")) {
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uint64_t NameSize;
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if (Name.substr(3).rtrim(" ").getAsInteger(10, NameSize))
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llvm_unreachable("Long name length is not an integer");
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StartOfFile += NameSize;
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}
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}
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ErrorOr<uint64_t> Archive::Child::getSize() const {
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if (Parent->IsThin) {
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ErrorOr<uint32_t> Size = getHeader()->getSize();
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if (std::error_code EC = Size.getError())
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return EC;
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return Size.get();
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}
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return Data.size() - StartOfFile;
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}
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ErrorOr<uint64_t> Archive::Child::getRawSize() const {
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ErrorOr<uint32_t> Size = getHeader()->getSize();
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if (std::error_code EC = Size.getError())
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return EC;
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return Size.get();
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}
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bool Archive::Child::isThinMember() const {
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StringRef Name = getHeader()->getName();
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return Parent->IsThin && Name != "/" && Name != "//";
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}
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ErrorOr<StringRef> Archive::Child::getBuffer() const {
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if (!isThinMember()) {
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ErrorOr<uint32_t> Size = getSize();
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if (std::error_code EC = Size.getError())
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return EC;
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return StringRef(Data.data() + StartOfFile, Size.get());
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}
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ErrorOr<StringRef> Name = getName();
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if (std::error_code EC = Name.getError())
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return EC;
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SmallString<128> FullName = sys::path::parent_path(
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Parent->getMemoryBufferRef().getBufferIdentifier());
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sys::path::append(FullName, *Name);
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ErrorOr<std::unique_ptr<MemoryBuffer>> Buf = MemoryBuffer::getFile(FullName);
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if (std::error_code EC = Buf.getError())
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return EC;
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Parent->ThinBuffers.push_back(std::move(*Buf));
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return Parent->ThinBuffers.back()->getBuffer();
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}
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ErrorOr<Archive::Child> Archive::Child::getNext() const {
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size_t SpaceToSkip = Data.size();
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// If it's odd, add 1 to make it even.
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if (SpaceToSkip & 1)
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++SpaceToSkip;
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const char *NextLoc = Data.data() + SpaceToSkip;
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// Check to see if this is at the end of the archive.
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if (NextLoc == Parent->Data.getBufferEnd())
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return Child(Parent, nullptr, nullptr);
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// Check to see if this is past the end of the archive.
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if (NextLoc > Parent->Data.getBufferEnd())
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return object_error::parse_failed;
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std::error_code EC;
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Child Ret(Parent, NextLoc, &EC);
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if (EC)
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return EC;
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return Ret;
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}
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uint64_t Archive::Child::getChildOffset() const {
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const char *a = Parent->Data.getBuffer().data();
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const char *c = Data.data();
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uint64_t offset = c - a;
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return offset;
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}
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ErrorOr<StringRef> Archive::Child::getName() const {
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StringRef name = getRawName();
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// Check if it's a special name.
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if (name[0] == '/') {
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if (name.size() == 1) // Linker member.
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return name;
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if (name.size() == 2 && name[1] == '/') // String table.
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return name;
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// It's a long name.
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// Get the offset.
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std::size_t offset;
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if (name.substr(1).rtrim(" ").getAsInteger(10, offset))
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llvm_unreachable("Long name offset is not an integer");
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// Verify it.
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if (offset >= Parent->StringTable.size())
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return object_error::parse_failed;
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const char *addr = Parent->StringTable.begin() + offset;
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// GNU long file names end with a "/\n".
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if (Parent->kind() == K_GNU || Parent->kind() == K_MIPS64) {
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StringRef::size_type End = StringRef(addr).find('\n');
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return StringRef(addr, End - 1);
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}
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return StringRef(addr);
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} else if (name.startswith("#1/")) {
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uint64_t name_size;
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if (name.substr(3).rtrim(" ").getAsInteger(10, name_size))
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llvm_unreachable("Long name length is not an ingeter");
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return Data.substr(sizeof(ArchiveMemberHeader), name_size)
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.rtrim(StringRef("\0", 1));
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}
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// It's a simple name.
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if (name[name.size() - 1] == '/')
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return name.substr(0, name.size() - 1);
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return name;
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}
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ErrorOr<MemoryBufferRef> Archive::Child::getMemoryBufferRef() const {
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ErrorOr<StringRef> NameOrErr = getName();
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if (std::error_code EC = NameOrErr.getError())
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return EC;
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StringRef Name = NameOrErr.get();
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ErrorOr<StringRef> Buf = getBuffer();
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if (std::error_code EC = Buf.getError())
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return EC;
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return MemoryBufferRef(*Buf, Name);
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}
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ErrorOr<std::unique_ptr<Binary>>
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Archive::Child::getAsBinary(LLVMContext *Context) const {
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ErrorOr<MemoryBufferRef> BuffOrErr = getMemoryBufferRef();
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if (std::error_code EC = BuffOrErr.getError())
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return EC;
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return createBinary(BuffOrErr.get(), Context);
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}
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ErrorOr<std::unique_ptr<Archive>> Archive::create(MemoryBufferRef Source) {
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std::error_code EC;
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std::unique_ptr<Archive> Ret(new Archive(Source, EC));
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if (EC)
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return EC;
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return std::move(Ret);
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}
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void Archive::setFirstRegular(const Child &C) {
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FirstRegularData = C.Data;
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FirstRegularStartOfFile = C.StartOfFile;
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}
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Archive::Archive(MemoryBufferRef Source, std::error_code &ec)
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: Binary(Binary::ID_Archive, Source) {
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StringRef Buffer = Data.getBuffer();
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// Check for sufficient magic.
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if (Buffer.startswith(ThinMagic)) {
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IsThin = true;
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} else if (Buffer.startswith(Magic)) {
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IsThin = false;
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} else {
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ec = object_error::invalid_file_type;
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return;
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}
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// Get the special members.
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child_iterator I = child_begin(false);
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if ((ec = I->getError()))
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return;
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child_iterator E = child_end();
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if (I == E) {
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ec = std::error_code();
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return;
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}
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const Child *C = &**I;
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auto Increment = [&]() {
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++I;
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if ((ec = I->getError()))
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return true;
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C = &**I;
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return false;
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};
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StringRef Name = C->getRawName();
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// Below is the pattern that is used to figure out the archive format
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// GNU archive format
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// First member : / (may exist, if it exists, points to the symbol table )
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// Second member : // (may exist, if it exists, points to the string table)
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// Note : The string table is used if the filename exceeds 15 characters
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// BSD archive format
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// First member : __.SYMDEF or "__.SYMDEF SORTED" (the symbol table)
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// There is no string table, if the filename exceeds 15 characters or has a
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// embedded space, the filename has #1/<size>, The size represents the size
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// of the filename that needs to be read after the archive header
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// COFF archive format
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// First member : /
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// Second member : / (provides a directory of symbols)
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// Third member : // (may exist, if it exists, contains the string table)
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// Note: Microsoft PE/COFF Spec 8.3 says that the third member is present
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// even if the string table is empty. However, lib.exe does not in fact
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// seem to create the third member if there's no member whose filename
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// exceeds 15 characters. So the third member is optional.
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if (Name == "__.SYMDEF") {
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Format = K_BSD;
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// We know that the symbol table is not an external file, so we just assert
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// there is no error.
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SymbolTable = *C->getBuffer();
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if (Increment())
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return;
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setFirstRegular(*C);
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ec = std::error_code();
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return;
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}
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if (Name.startswith("#1/")) {
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Format = K_BSD;
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// We know this is BSD, so getName will work since there is no string table.
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ErrorOr<StringRef> NameOrErr = C->getName();
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ec = NameOrErr.getError();
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if (ec)
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return;
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Name = NameOrErr.get();
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if (Name == "__.SYMDEF SORTED" || Name == "__.SYMDEF") {
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// We know that the symbol table is not an external file, so we just
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// assert there is no error.
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SymbolTable = *C->getBuffer();
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if (Increment())
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return;
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}
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setFirstRegular(*C);
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return;
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}
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// MIPS 64-bit ELF archives use a special format of a symbol table.
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// This format is marked by `ar_name` field equals to "/SYM64/".
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// For detailed description see page 96 in the following document:
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// http://techpubs.sgi.com/library/manuals/4000/007-4658-001/pdf/007-4658-001.pdf
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bool has64SymTable = false;
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if (Name == "/" || Name == "/SYM64/") {
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// We know that the symbol table is not an external file, so we just assert
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// there is no error.
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SymbolTable = *C->getBuffer();
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if (Name == "/SYM64/")
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has64SymTable = true;
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if (Increment())
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return;
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if (I == E) {
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ec = std::error_code();
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return;
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}
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Name = C->getRawName();
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}
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if (Name == "//") {
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Format = has64SymTable ? K_MIPS64 : K_GNU;
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// The string table is never an external member, so we just assert on the
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// ErrorOr.
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StringTable = *C->getBuffer();
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if (Increment())
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return;
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setFirstRegular(*C);
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ec = std::error_code();
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return;
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}
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if (Name[0] != '/') {
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Format = has64SymTable ? K_MIPS64 : K_GNU;
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setFirstRegular(*C);
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ec = std::error_code();
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return;
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}
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if (Name != "/") {
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ec = object_error::parse_failed;
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return;
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}
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Format = K_COFF;
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// We know that the symbol table is not an external file, so we just assert
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// there is no error.
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SymbolTable = *C->getBuffer();
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if (Increment())
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return;
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if (I == E) {
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setFirstRegular(*C);
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ec = std::error_code();
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return;
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}
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Name = C->getRawName();
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if (Name == "//") {
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// The string table is never an external member, so we just assert on the
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// ErrorOr.
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StringTable = *C->getBuffer();
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if (Increment())
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return;
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}
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setFirstRegular(*C);
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ec = std::error_code();
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}
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Archive::child_iterator Archive::child_begin(bool SkipInternal) const {
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if (Data.getBufferSize() == 8) // empty archive.
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return child_end();
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if (SkipInternal)
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return Child(this, FirstRegularData, FirstRegularStartOfFile);
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const char *Loc = Data.getBufferStart() + strlen(Magic);
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std::error_code EC;
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Child c(this, Loc, &EC);
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if (EC)
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return child_iterator(EC);
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return child_iterator(c);
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}
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Archive::child_iterator Archive::child_end() const {
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return Child(this, nullptr, nullptr);
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}
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StringRef Archive::Symbol::getName() const {
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return Parent->getSymbolTable().begin() + StringIndex;
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}
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ErrorOr<Archive::Child> Archive::Symbol::getMember() const {
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const char *Buf = Parent->getSymbolTable().begin();
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const char *Offsets = Buf;
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if (Parent->kind() == K_MIPS64)
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Offsets += sizeof(uint64_t);
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else
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Offsets += sizeof(uint32_t);
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uint32_t Offset = 0;
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if (Parent->kind() == K_GNU) {
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Offset = read32be(Offsets + SymbolIndex * 4);
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} else if (Parent->kind() == K_MIPS64) {
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Offset = read64be(Offsets + SymbolIndex * 8);
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} else if (Parent->kind() == K_BSD) {
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// The SymbolIndex is an index into the ranlib structs that start at
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// Offsets (the first uint32_t is the number of bytes of the ranlib
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// structs). The ranlib structs are a pair of uint32_t's the first
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// being a string table offset and the second being the offset into
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// the archive of the member that defines the symbol. Which is what
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// is needed here.
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Offset = read32le(Offsets + SymbolIndex * 8 + 4);
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} else {
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// Skip offsets.
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uint32_t MemberCount = read32le(Buf);
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Buf += MemberCount * 4 + 4;
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uint32_t SymbolCount = read32le(Buf);
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if (SymbolIndex >= SymbolCount)
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return object_error::parse_failed;
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// Skip SymbolCount to get to the indices table.
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const char *Indices = Buf + 4;
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// Get the index of the offset in the file member offset table for this
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// symbol.
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uint16_t OffsetIndex = read16le(Indices + SymbolIndex * 2);
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// Subtract 1 since OffsetIndex is 1 based.
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--OffsetIndex;
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if (OffsetIndex >= MemberCount)
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return object_error::parse_failed;
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Offset = read32le(Offsets + OffsetIndex * 4);
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}
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const char *Loc = Parent->getData().begin() + Offset;
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std::error_code EC;
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Child C(Parent, Loc, &EC);
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if (EC)
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return EC;
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return C;
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}
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Archive::Symbol Archive::Symbol::getNext() const {
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Symbol t(*this);
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if (Parent->kind() == K_BSD) {
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// t.StringIndex is an offset from the start of the __.SYMDEF or
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// "__.SYMDEF SORTED" member into the string table for the ranlib
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// struct indexed by t.SymbolIndex . To change t.StringIndex to the
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// offset in the string table for t.SymbolIndex+1 we subtract the
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// its offset from the start of the string table for t.SymbolIndex
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// and add the offset of the string table for t.SymbolIndex+1.
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// The __.SYMDEF or "__.SYMDEF SORTED" member starts with a uint32_t
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// which is the number of bytes of ranlib structs that follow. The ranlib
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// structs are a pair of uint32_t's the first being a string table offset
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// and the second being the offset into the archive of the member that
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// define the symbol. After that the next uint32_t is the byte count of
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// the string table followed by the string table.
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const char *Buf = Parent->getSymbolTable().begin();
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uint32_t RanlibCount = 0;
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RanlibCount = read32le(Buf) / 8;
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// If t.SymbolIndex + 1 will be past the count of symbols (the RanlibCount)
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// don't change the t.StringIndex as we don't want to reference a ranlib
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// past RanlibCount.
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if (t.SymbolIndex + 1 < RanlibCount) {
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const char *Ranlibs = Buf + 4;
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uint32_t CurRanStrx = 0;
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uint32_t NextRanStrx = 0;
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CurRanStrx = read32le(Ranlibs + t.SymbolIndex * 8);
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NextRanStrx = read32le(Ranlibs + (t.SymbolIndex + 1) * 8);
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t.StringIndex -= CurRanStrx;
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t.StringIndex += NextRanStrx;
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}
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} else {
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// Go to one past next null.
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t.StringIndex = Parent->getSymbolTable().find('\0', t.StringIndex) + 1;
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}
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++t.SymbolIndex;
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return t;
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}
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Archive::symbol_iterator Archive::symbol_begin() const {
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if (!hasSymbolTable())
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return symbol_iterator(Symbol(this, 0, 0));
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const char *buf = getSymbolTable().begin();
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if (kind() == K_GNU) {
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uint32_t symbol_count = 0;
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symbol_count = read32be(buf);
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buf += sizeof(uint32_t) + (symbol_count * (sizeof(uint32_t)));
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} else if (kind() == K_MIPS64) {
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uint64_t symbol_count = read64be(buf);
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buf += sizeof(uint64_t) + (symbol_count * (sizeof(uint64_t)));
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} else if (kind() == K_BSD) {
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// The __.SYMDEF or "__.SYMDEF SORTED" member starts with a uint32_t
|
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// which is the number of bytes of ranlib structs that follow. The ranlib
|
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// structs are a pair of uint32_t's the first being a string table offset
|
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// and the second being the offset into the archive of the member that
|
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// define the symbol. After that the next uint32_t is the byte count of
|
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// the string table followed by the string table.
|
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uint32_t ranlib_count = 0;
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ranlib_count = read32le(buf) / 8;
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const char *ranlibs = buf + 4;
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uint32_t ran_strx = 0;
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ran_strx = read32le(ranlibs);
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buf += sizeof(uint32_t) + (ranlib_count * (2 * (sizeof(uint32_t))));
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// Skip the byte count of the string table.
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buf += sizeof(uint32_t);
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buf += ran_strx;
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} else {
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uint32_t member_count = 0;
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uint32_t symbol_count = 0;
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member_count = read32le(buf);
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buf += 4 + (member_count * 4); // Skip offsets.
|
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symbol_count = read32le(buf);
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buf += 4 + (symbol_count * 2); // Skip indices.
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}
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uint32_t string_start_offset = buf - getSymbolTable().begin();
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return symbol_iterator(Symbol(this, 0, string_start_offset));
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}
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Archive::symbol_iterator Archive::symbol_end() const {
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return symbol_iterator(Symbol(this, getNumberOfSymbols(), 0));
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}
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uint32_t Archive::getNumberOfSymbols() const {
|
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if (!hasSymbolTable())
|
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return 0;
|
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const char *buf = getSymbolTable().begin();
|
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if (kind() == K_GNU)
|
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return read32be(buf);
|
|
if (kind() == K_MIPS64)
|
|
return read64be(buf);
|
|
if (kind() == K_BSD)
|
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return read32le(buf) / 8;
|
|
uint32_t member_count = 0;
|
|
member_count = read32le(buf);
|
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buf += 4 + (member_count * 4); // Skip offsets.
|
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return read32le(buf);
|
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}
|
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|
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Archive::child_iterator Archive::findSym(StringRef name) const {
|
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Archive::symbol_iterator bs = symbol_begin();
|
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Archive::symbol_iterator es = symbol_end();
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|
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for (; bs != es; ++bs) {
|
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StringRef SymName = bs->getName();
|
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if (SymName == name) {
|
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ErrorOr<Archive::child_iterator> ResultOrErr = bs->getMember();
|
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// FIXME: Should we really eat the error?
|
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if (ResultOrErr.getError())
|
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return child_end();
|
|
return ResultOrErr.get();
|
|
}
|
|
}
|
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return child_end();
|
|
}
|
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|
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bool Archive::hasSymbolTable() const { return !SymbolTable.empty(); }
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