llvm-project/llvm/lib/Support/TarWriter.cpp
Fangrui Song 4687b45433 Reland D78945 TarWriter: Only use 137 of the 155 prefix bytes.
With a fix to unittests/Support/TarWriterTest.cpp

This makes lld's --reproduce output more compatible with tar 1.13 and
before.  This is a very old version of tar, but it's the version in
both gnuwin and unxutils, and the cost for supporting them are very
low, so we might as well just do that.

https://bugs.chromium.org/p/chromium/issues/detail?id=1073524#c21
and onward has more details.

Differential Revision: https://reviews.llvm.org/D78945
2020-04-27 10:37:23 -07:00

212 lines
7.2 KiB
C++

//===-- TarWriter.cpp - Tar archive file creator --------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// TarWriter class provides a feature to create a tar archive file.
//
// I put emphasis on simplicity over comprehensiveness when implementing this
// class because we don't need a full-fledged archive file generator in LLVM
// at the moment.
//
// The filename field in the Unix V7 tar header is 100 bytes. Longer filenames
// are stored using the PAX extension. The PAX header is standardized in
// POSIX.1-2001.
//
// The struct definition of UstarHeader is copied from
// https://www.freebsd.org/cgi/man.cgi?query=tar&sektion=5
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/TarWriter.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/Path.h"
using namespace llvm;
// Each file in an archive must be aligned to this block size.
static const int BlockSize = 512;
struct UstarHeader {
char Name[100];
char Mode[8];
char Uid[8];
char Gid[8];
char Size[12];
char Mtime[12];
char Checksum[8];
char TypeFlag;
char Linkname[100];
char Magic[6];
char Version[2];
char Uname[32];
char Gname[32];
char DevMajor[8];
char DevMinor[8];
char Prefix[155];
char Pad[12];
};
static_assert(sizeof(UstarHeader) == BlockSize, "invalid Ustar header");
static UstarHeader makeUstarHeader() {
UstarHeader Hdr = {};
memcpy(Hdr.Magic, "ustar", 5); // Ustar magic
memcpy(Hdr.Version, "00", 2); // Ustar version
return Hdr;
}
// A PAX attribute is in the form of "<length> <key>=<value>\n"
// where <length> is the length of the entire string including
// the length field itself. An example string is this.
//
// 25 ctime=1084839148.1212\n
//
// This function create such string.
static std::string formatPax(StringRef Key, StringRef Val) {
int Len = Key.size() + Val.size() + 3; // +3 for " ", "=" and "\n"
// We need to compute total size twice because appending
// a length field could change total size by one.
int Total = Len + Twine(Len).str().size();
Total = Len + Twine(Total).str().size();
return (Twine(Total) + " " + Key + "=" + Val + "\n").str();
}
// Headers in tar files must be aligned to 512 byte boundaries.
// This function forwards the current file position to the next boundary.
static void pad(raw_fd_ostream &OS) {
uint64_t Pos = OS.tell();
OS.seek(alignTo(Pos, BlockSize));
}
// Computes a checksum for a tar header.
static void computeChecksum(UstarHeader &Hdr) {
// Before computing a checksum, checksum field must be
// filled with space characters.
memset(Hdr.Checksum, ' ', sizeof(Hdr.Checksum));
// Compute a checksum and set it to the checksum field.
unsigned Chksum = 0;
for (size_t I = 0; I < sizeof(Hdr); ++I)
Chksum += reinterpret_cast<uint8_t *>(&Hdr)[I];
snprintf(Hdr.Checksum, sizeof(Hdr.Checksum), "%06o", Chksum);
}
// Create a tar header and write it to a given output stream.
static void writePaxHeader(raw_fd_ostream &OS, StringRef Path) {
// A PAX header consists of a 512-byte header followed
// by key-value strings. First, create key-value strings.
std::string PaxAttr = formatPax("path", Path);
// Create a 512-byte header.
UstarHeader Hdr = makeUstarHeader();
snprintf(Hdr.Size, sizeof(Hdr.Size), "%011zo", PaxAttr.size());
Hdr.TypeFlag = 'x'; // PAX magic
computeChecksum(Hdr);
// Write them down.
OS << StringRef(reinterpret_cast<char *>(&Hdr), sizeof(Hdr));
OS << PaxAttr;
pad(OS);
}
// Path fits in a Ustar header if
//
// - Path is less than 100 characters long, or
// - Path is in the form of "<prefix>/<name>" where <prefix> is less
// than or equal to 155 characters long and <name> is less than 100
// characters long. Both <prefix> and <name> can contain extra '/'.
//
// If Path fits in a Ustar header, updates Prefix and Name and returns true.
// Otherwise, returns false.
static bool splitUstar(StringRef Path, StringRef &Prefix, StringRef &Name) {
if (Path.size() < sizeof(UstarHeader::Name)) {
Prefix = "";
Name = Path;
return true;
}
// tar 1.13 and earlier unconditionally look at the tar header interpreted
// as an 'oldgnu_header', which has an 'isextended' byte at offset 482 in the
// header, corresponding to offset 137 in the prefix. That's the version of
// tar in gnuwin, so only use 137 of the 155 bytes in the prefix. This means
// we'll need a pax header after 237 bytes of path instead of after 255,
// but in return paths up to 237 bytes work with gnuwin, instead of just
// 137 bytes of directory + 100 bytes of basename previously.
// (tar-1.13 also doesn't support pax headers, but in practice all paths in
// llvm's test suite are short enough for that to not matter.)
const int MaxPrefix = 137;
size_t Sep = Path.rfind('/', MaxPrefix + 1);
if (Sep == StringRef::npos)
return false;
if (Path.size() - Sep - 1 >= sizeof(UstarHeader::Name))
return false;
Prefix = Path.substr(0, Sep);
Name = Path.substr(Sep + 1);
return true;
}
// The PAX header is an extended format, so a PAX header needs
// to be followed by a "real" header.
static void writeUstarHeader(raw_fd_ostream &OS, StringRef Prefix,
StringRef Name, size_t Size) {
UstarHeader Hdr = makeUstarHeader();
memcpy(Hdr.Name, Name.data(), Name.size());
memcpy(Hdr.Mode, "0000664", 8);
snprintf(Hdr.Size, sizeof(Hdr.Size), "%011zo", Size);
memcpy(Hdr.Prefix, Prefix.data(), Prefix.size());
computeChecksum(Hdr);
OS << StringRef(reinterpret_cast<char *>(&Hdr), sizeof(Hdr));
}
// Creates a TarWriter instance and returns it.
Expected<std::unique_ptr<TarWriter>> TarWriter::create(StringRef OutputPath,
StringRef BaseDir) {
using namespace sys::fs;
int FD;
if (std::error_code EC =
openFileForWrite(OutputPath, FD, CD_CreateAlways, OF_None))
return make_error<StringError>("cannot open " + OutputPath, EC);
return std::unique_ptr<TarWriter>(new TarWriter(FD, BaseDir));
}
TarWriter::TarWriter(int FD, StringRef BaseDir)
: OS(FD, /*shouldClose=*/true, /*unbuffered=*/false),
BaseDir(std::string(BaseDir)) {}
// Append a given file to an archive.
void TarWriter::append(StringRef Path, StringRef Data) {
// Write Path and Data.
std::string Fullpath = BaseDir + "/" + sys::path::convert_to_slash(Path);
// We do not want to include the same file more than once.
if (!Files.insert(Fullpath).second)
return;
StringRef Prefix;
StringRef Name;
if (splitUstar(Fullpath, Prefix, Name)) {
writeUstarHeader(OS, Prefix, Name, Data.size());
} else {
writePaxHeader(OS, Fullpath);
writeUstarHeader(OS, "", "", Data.size());
}
OS << Data;
pad(OS);
// POSIX requires tar archives end with two null blocks.
// Here, we write the terminator and then seek back, so that
// the file being output is terminated correctly at any moment.
uint64_t Pos = OS.tell();
OS << std::string(BlockSize * 2, '\0');
OS.seek(Pos);
OS.flush();
}