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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmXCOFF.h"
#include <algorithm>
#include <cstddef>
#include <cm/memory>
#include <cm/string_view>
#include "cmsys/FStream.hxx"
#include "cmStringAlgorithms.h"
// Include the XCOFF format information system header.
#ifdef _AIX
# define __XCOFF32__
# define __XCOFF64__
# include <xcoff.h>
# define __AR_BIG__
# include <ar.h>
#else
# error "This source may be compiled only on AIX."
#endif
// Function to align a number num with align_num bytes.
size_t align(size_t num, int align_num)
{
align_num = 1 << (align_num);
return (((num + align_num - 1) / align_num) * align_num);
}
class cmXCOFFInternal
{
public:
// Construct and take ownership of the file stream object.
cmXCOFFInternal(cmXCOFF* external, std::unique_ptr<std::iostream> fin,
cmXCOFF::Mode mode)
: External(external)
, Stream(std::move(fin))
, Mode(mode)
{
}
// Destruct and delete the file stream object.
virtual ~cmXCOFFInternal() = default;
cmXCOFF::Mode GetMode() const { return this->Mode; }
virtual cm::optional<cm::string_view> GetLibPath() = 0;
virtual bool SetLibPath(cm::string_view libPath) = 0;
virtual bool RemoveLibPath() = 0;
protected:
// Data common to all ELF class implementations.
// The external cmXCOFF object.
cmXCOFF* External;
// The stream from which to read.
std::unique_ptr<std::iostream> Stream;
cmXCOFF::Mode Mode;
// Helper methods for subclasses.
void SetErrorMessage(const char* msg) { this->External->ErrorMessage = msg; }
};
namespace {
struct XCOFF32
{
using filehdr = struct filehdr;
using aouthdr = struct aouthdr;
using scnhdr = struct scnhdr;
using ldhdr = struct ldhdr;
static const std::size_t aouthdr_size = _AOUTHSZ_EXEC;
};
const unsigned char xcoff32_magic[] = { 0x01, 0xDF };
struct XCOFF64
{
using filehdr = struct filehdr_64;
using aouthdr = struct aouthdr_64;
using scnhdr = struct scnhdr_64;
using ldhdr = struct ldhdr_64;
static const std::size_t aouthdr_size = _AOUTHSZ_EXEC_64;
};
const unsigned char xcoff64_magic[] = { 0x01, 0xF7 };
enum class IsArchive
{
No,
Yes,
};
template <typename XCOFF>
class Impl : public cmXCOFFInternal
{
static_assert(sizeof(typename XCOFF::aouthdr) == XCOFF::aouthdr_size,
"aouthdr structure size matches _AOUTHSZ_EXEC macro");
typename XCOFF::filehdr FileHeader;
typename XCOFF::aouthdr AuxHeader;
typename XCOFF::scnhdr LoaderSectionHeader;
typename XCOFF::ldhdr LoaderHeader;
std::streamoff LoaderImportFileTablePos = 0;
std::vector<char> LoaderImportFileTable;
bool Read(fl_hdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool Read(ar_hdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool Read(typename XCOFF::filehdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool Read(typename XCOFF::aouthdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool Read(typename XCOFF::scnhdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool Read(typename XCOFF::ldhdr& x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->read(reinterpret_cast<char*>(&x), sizeof(x)));
}
bool WriteLoaderImportFileTableLength(decltype(XCOFF::ldhdr::l_istlen) x)
{
// FIXME: Add byte swapping if needed.
return static_cast<bool>(
this->Stream->write(reinterpret_cast<char const*>(&x), sizeof(x)));
}
public:
Impl(cmXCOFF* external, std::unique_ptr<std::iostream> fin,
cmXCOFF::Mode mode, IsArchive IsBigArchive, int nextEvenBytePos);
cm::optional<cm::string_view> GetLibPath() override;
bool SetLibPath(cm::string_view libPath) override;
bool RemoveLibPath() override;
// Needed for SetLibPath () to move in a archive while write.
IsArchive is_big_archive;
int nextEvenByte;
int bytes_to_align;
};
template <typename XCOFF>
Impl<XCOFF>::Impl(cmXCOFF* external, std::unique_ptr<std::iostream> fin,
cmXCOFF::Mode mode, IsArchive IsBigArchive,
int nextEvenBytePos)
: cmXCOFFInternal(external, std::move(fin), mode)
{
this->is_big_archive = IsBigArchive;
this->nextEvenByte = nextEvenBytePos;
if (this->is_big_archive == IsArchive::Yes) {
fl_hdr header;
this->Stream->read(reinterpret_cast<char*>(&header), sizeof(fl_hdr));
long long fstmoff = std::atoll(header.fl_fstmoff);
this->Stream->seekg(fstmoff, std::ios::beg);
ar_hdr arHeader;
this->Stream->read(reinterpret_cast<char*>(&arHeader), sizeof(ar_hdr));
// Move the pointer to next even byte after reading headers.
this->Stream->seekg(this->nextEvenByte, std::ios::cur);
}
if (!this->Read(this->FileHeader)) {
this->SetErrorMessage("Failed to read XCOFF file header.");
return;
}
if (this->FileHeader.f_opthdr != XCOFF::aouthdr_size) {
this->SetErrorMessage("XCOFF auxiliary header missing.");
return;
}
if (!this->Read(this->AuxHeader)) {
this->SetErrorMessage("Failed to read XCOFF auxiliary header.");
return;
}
if (this->AuxHeader.o_snloader == 0) {
this->SetErrorMessage("XCOFF loader section missing.");
return;
}
this->bytes_to_align =
this->AuxHeader.o_algntext > this->AuxHeader.o_algndata
? this->AuxHeader.o_algntext
: this->AuxHeader.o_algndata;
if (!this->Stream->seekg((this->AuxHeader.o_snloader - 1) *
sizeof(typename XCOFF::scnhdr),
std::ios::cur)) {
this->SetErrorMessage("Failed to seek to XCOFF loader section header.");
return;
}
if (!this->Read(this->LoaderSectionHeader)) {
this->SetErrorMessage("Failed to read XCOFF loader section header.");
return;
}
if ((this->LoaderSectionHeader.s_flags & STYP_LOADER) == 0) {
this->SetErrorMessage("XCOFF loader section header missing STYP_LOADER.");
return;
}
if (is_big_archive == IsArchive::Yes) {
size_t header_len = this->nextEvenByte + sizeof(fl_hdr) + sizeof(ar_hdr);
size_t scnptrFromArchiveStart = this->LoaderSectionHeader.s_scnptr +
align(header_len, this->bytes_to_align);
if (!this->Stream->seekg(scnptrFromArchiveStart, std::ios::beg)) {
this->SetErrorMessage("Failed to seek to XCOFF loader header.");
return;
}
} else if (!this->Stream->seekg(this->LoaderSectionHeader.s_scnptr,
std::ios::beg)) {
this->SetErrorMessage("Failed to seek to XCOFF loader header.");
return;
}
if (!this->Read(this->LoaderHeader)) {
this->SetErrorMessage("Failed to read XCOFF loader header.");
return;
}
if (is_big_archive == IsArchive::Yes) {
size_t header_len = sizeof(fl_hdr) + sizeof(ar_hdr) + this->nextEvenByte;
size_t scnptrFromArchiveStartPlusOff = this->LoaderSectionHeader.s_scnptr +
this->LoaderHeader.l_impoff + align(header_len, this->bytes_to_align);
this->LoaderImportFileTablePos = scnptrFromArchiveStartPlusOff;
} else {
this->LoaderImportFileTablePos =
this->LoaderSectionHeader.s_scnptr + this->LoaderHeader.l_impoff;
}
if (!this->Stream->seekg(this->LoaderImportFileTablePos)) {
this->SetErrorMessage(
"Failed to seek to XCOFF loader import file id table.");
return;
}
this->LoaderImportFileTable.resize(this->LoaderHeader.l_istlen);
if (!this->Stream->read(this->LoaderImportFileTable.data(),
this->LoaderImportFileTable.size())) {
this->SetErrorMessage("Failed to read XCOFF loader import file id table.");
return;
}
}
template <typename XCOFF>
cm::optional<cm::string_view> Impl<XCOFF>::GetLibPath()
{
cm::optional<cm::string_view> result;
auto end = std::find(this->LoaderImportFileTable.begin(),
this->LoaderImportFileTable.end(), '\0');
if (end != this->LoaderImportFileTable.end()) {
result = cm::string_view(this->LoaderImportFileTable.data(),
end - this->LoaderImportFileTable.begin());
}
return result;
}
template <typename XCOFF>
bool Impl<XCOFF>::SetLibPath(cm::string_view libPath)
{
// The new LIBPATH must contain standard AIX LIBPATH entries.
std::string libPathBuf;
#define ENSURE_ENTRY(x) \
if (libPath != x && !cmHasLiteralPrefix(libPath, x ":") && \
!cmHasLiteralSuffix(libPath, ":" x) && \
libPath.find(":" x ":") == std::string::npos) { \
libPathBuf = std::string(libPath); \
if (!libPathBuf.empty() && libPathBuf.back() != ':') { \
libPathBuf.push_back(':'); \
} \
libPathBuf += x; \
libPath = libPathBuf; \
}
ENSURE_ENTRY("/usr/lib")
ENSURE_ENTRY("/lib")
#undef ENSURE_ENTRY
auto oldEnd = std::find(this->LoaderImportFileTable.begin(),
this->LoaderImportFileTable.end(), '\0');
if (oldEnd == this->LoaderImportFileTable.end()) {
this->SetErrorMessage("XCOFF loader import file id table is invalid.");
return false;
}
if ((this->LoaderImportFileTable.begin() + libPath.size()) > oldEnd) {
this->SetErrorMessage("XCOFF loader import file id table is too small.");
return false;
}
{
std::vector<char> ift;
ift.reserve(this->LoaderImportFileTable.size());
// Start with the new LIBPATH.
ift.insert(ift.end(), libPath.begin(), libPath.end());
// Add the rest of the original table.
ift.insert(ift.end(), oldEnd, this->LoaderImportFileTable.end());
// If the new table is shorter, zero out the leftover space.
ift.resize(this->LoaderImportFileTable.size(), 0);
this->LoaderHeader.l_istlen =
static_cast<decltype(XCOFF::ldhdr::l_istlen)>(ift.size());
this->LoaderImportFileTable = std::move(ift);
}
size_t scnptr;
if (this->is_big_archive == IsArchive::Yes) {
size_t header_len = sizeof(fl_hdr) + sizeof(ar_hdr) + this->nextEvenByte;
scnptr = this->LoaderSectionHeader.s_scnptr +
offsetof(typename XCOFF::ldhdr, l_istlen) +
align(header_len, this->bytes_to_align);
} else {
scnptr = this->LoaderSectionHeader.s_scnptr +
offsetof(typename XCOFF::ldhdr, l_istlen);
}
if (!this->Stream->seekp(scnptr, std::ios::beg)) {
this->SetErrorMessage(
"Failed to seek to XCOFF loader header import file id table length.");
return false;
}
if (!this->WriteLoaderImportFileTableLength(this->LoaderHeader.l_istlen)) {
this->SetErrorMessage(
"Failed to write XCOFF loader header import file id table length.");
return false;
}
if (!this->Stream->seekp(this->LoaderImportFileTablePos, std::ios::beg)) {
this->SetErrorMessage(
"Failed to seek to XCOFF loader import file id table.");
return false;
}
if (!this->Stream->write(this->LoaderImportFileTable.data(),
this->LoaderImportFileTable.size())) {
this->SetErrorMessage(
"Failed to write XCOFF loader import file id table.");
return false;
}
return true;
}
template <typename XCOFF>
bool Impl<XCOFF>::RemoveLibPath()
{
return this->SetLibPath({});
}
}
IsArchive check_if_big_archive(const char* fname)
{
int len = std::strlen(fname);
if (len < 2) {
return IsArchive::No;
}
if (std::strcmp(fname + len - 2, ".a") == 0) {
return IsArchive::Yes;
} else {
return IsArchive::No;
}
}
//============================================================================
// External class implementation.
cmXCOFF::cmXCOFF(const char* fname, Mode mode)
{
// Try to open the file.
std::ios::openmode fmode = std::ios::in | std::ios::binary;
if (mode == Mode::ReadWrite) {
fmode |= std::ios::out;
}
auto f = cm::make_unique<cmsys::fstream>(fname, fmode);
// Quit now if the file could not be opened.
if (!f || !*f) {
this->ErrorMessage = "Error opening input file.";
return;
}
// Read the XCOFF magic number.
unsigned char magic[2];
// To hold the length of the shared object name in the path.
int nextEvenByte = 0;
// Read archive name length.
int archive_name_length = 0;
// If a big archive, we will read the archive file headers first.
// Then move to the next even byte to get the magic number.
if (check_if_big_archive(fname) == IsArchive::Yes) {
fl_hdr header;
f->read(reinterpret_cast<char*>(&header), sizeof(fl_hdr));
if (std::strncmp(header.fl_magic, AIAMAGBIG, SAIAMAG) != 0) {
this->ErrorMessage = "Not a valid archive file or wrong format";
return;
}
long long fstmoff = std::atoll(header.fl_fstmoff);
f->seekg(fstmoff, std::ios::beg);
ar_hdr arHeader;
f->read(reinterpret_cast<char*>(&arHeader), sizeof(ar_hdr));
{
errno = 0;
char* ar_namlen_endp;
unsigned long ar_namlen =
strtoul(arHeader.ar_namlen, &ar_namlen_endp, 10);
if ((ar_namlen_endp != arHeader.ar_namlen) && (errno == 0)) {
archive_name_length = static_cast<int>(ar_namlen);
} else {
this->ErrorMessage = "Error parsing archive name length.";
return;
}
}
// Round off to even byte.
if (archive_name_length % 2 == 0) {
nextEvenByte = archive_name_length;
} else {
nextEvenByte = archive_name_length + 1;
}
f->seekg(nextEvenByte, std::ios::cur);
}
if (!f->read(reinterpret_cast<char*>(magic), sizeof(magic))) {
this->ErrorMessage = "Error reading XCOFF magic number.";
return;
}
if (!f->seekg(0)) {
this->ErrorMessage = "Error seeking to beginning of file.";
return;
}
// Check the XCOFF type.
if (magic[0] == xcoff32_magic[0] && magic[1] == xcoff32_magic[1]) {
this->Internal = cm::make_unique<Impl<XCOFF32>>(
this, std::move(f), mode, check_if_big_archive(fname), nextEvenByte);
} else if (magic[0] == xcoff64_magic[0] && magic[1] == xcoff64_magic[1]) {
this->Internal = cm::make_unique<Impl<XCOFF64>>(
this, std::move(f), mode, check_if_big_archive(fname), nextEvenByte);
} else {
this->ErrorMessage = "File is not a XCOFF32 or XCOFF64 binary.";
}
}
cmXCOFF::~cmXCOFF() = default;
cmXCOFF::cmXCOFF(cmXCOFF&&) noexcept = default;
cmXCOFF& cmXCOFF::operator=(cmXCOFF&&) noexcept = default;
bool cmXCOFF::Valid() const
{
return this->Internal && this->ErrorMessage.empty();
}
cm::optional<cm::string_view> cmXCOFF::GetLibPath() const
{
cm::optional<cm::string_view> result;
if (this->Valid()) {
result = this->Internal->GetLibPath();
}
return result;
}
bool cmXCOFF::SetLibPath(cm::string_view libPath)
{
return this->Valid() && this->Internal->GetMode() == Mode::ReadWrite &&
this->Internal->SetLibPath(libPath);
}
bool cmXCOFF::RemoveLibPath()
{
return this->Valid() && this->Internal->GetMode() == Mode::ReadWrite &&
this->Internal->RemoveLibPath();
}