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mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-22 18:54:02 +01:00
llvm-mirror/tools/llvm-rc/ResourceFileWriter.cpp
Martin Storsjö 9d14adb9f6 [llvm] Rename StringRef _lower() method calls to _insensitive()
This is a mechanical change. This actually also renames the
similarly named methods in the SmallString class, however these
methods don't seem to be used outside of the llvm subproject, so
this doesn't break building of the rest of the monorepo.
2021-06-25 00:22:01 +03:00

1568 lines
52 KiB
C++

//===-- ResourceFileWriter.cpp --------------------------------*- C++-*-===//
//
// 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
//
//===---------------------------------------------------------------------===//
//
// This implements the visitor serializing resources to a .res stream.
//
//===---------------------------------------------------------------------===//
#include "ResourceFileWriter.h"
#include "llvm/Object/WindowsResource.h"
#include "llvm/Support/ConvertUTF.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/EndianStream.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Process.h"
using namespace llvm::support;
// Take an expression returning llvm::Error and forward the error if it exists.
#define RETURN_IF_ERROR(Expr) \
if (auto Err = (Expr)) \
return Err;
namespace llvm {
namespace rc {
// Class that employs RAII to save the current FileWriter object state
// and revert to it as soon as we leave the scope. This is useful if resources
// declare their own resource-local statements.
class ContextKeeper {
ResourceFileWriter *FileWriter;
ResourceFileWriter::ObjectInfo SavedInfo;
public:
ContextKeeper(ResourceFileWriter *V)
: FileWriter(V), SavedInfo(V->ObjectData) {}
~ContextKeeper() { FileWriter->ObjectData = SavedInfo; }
};
static Error createError(const Twine &Message,
std::errc Type = std::errc::invalid_argument) {
return make_error<StringError>(Message, std::make_error_code(Type));
}
static Error checkNumberFits(uint32_t Number, size_t MaxBits,
const Twine &FieldName) {
assert(1 <= MaxBits && MaxBits <= 32);
if (!(Number >> MaxBits))
return Error::success();
return createError(FieldName + " (" + Twine(Number) + ") does not fit in " +
Twine(MaxBits) + " bits.",
std::errc::value_too_large);
}
template <typename FitType>
static Error checkNumberFits(uint32_t Number, const Twine &FieldName) {
return checkNumberFits(Number, sizeof(FitType) * 8, FieldName);
}
// A similar function for signed integers.
template <typename FitType>
static Error checkSignedNumberFits(uint32_t Number, const Twine &FieldName,
bool CanBeNegative) {
int32_t SignedNum = Number;
if (SignedNum < std::numeric_limits<FitType>::min() ||
SignedNum > std::numeric_limits<FitType>::max())
return createError(FieldName + " (" + Twine(SignedNum) +
") does not fit in " + Twine(sizeof(FitType) * 8) +
"-bit signed integer type.",
std::errc::value_too_large);
if (!CanBeNegative && SignedNum < 0)
return createError(FieldName + " (" + Twine(SignedNum) +
") cannot be negative.");
return Error::success();
}
static Error checkRCInt(RCInt Number, const Twine &FieldName) {
if (Number.isLong())
return Error::success();
return checkNumberFits<uint16_t>(Number, FieldName);
}
static Error checkIntOrString(IntOrString Value, const Twine &FieldName) {
if (!Value.isInt())
return Error::success();
return checkNumberFits<uint16_t>(Value.getInt(), FieldName);
}
static bool stripQuotes(StringRef &Str, bool &IsLongString) {
if (!Str.contains('"'))
return false;
// Just take the contents of the string, checking if it's been marked long.
IsLongString = Str.startswith_insensitive("L");
if (IsLongString)
Str = Str.drop_front();
bool StripSuccess = Str.consume_front("\"") && Str.consume_back("\"");
(void)StripSuccess;
assert(StripSuccess && "Strings should be enclosed in quotes.");
return true;
}
static UTF16 cp1252ToUnicode(unsigned char C) {
static const UTF16 Map80[] = {
0x20ac, 0x0081, 0x201a, 0x0192, 0x201e, 0x2026, 0x2020, 0x2021,
0x02c6, 0x2030, 0x0160, 0x2039, 0x0152, 0x008d, 0x017d, 0x008f,
0x0090, 0x2018, 0x2019, 0x201c, 0x201d, 0x2022, 0x2013, 0x2014,
0x02dc, 0x2122, 0x0161, 0x203a, 0x0153, 0x009d, 0x017e, 0x0178,
};
if (C >= 0x80 && C <= 0x9F)
return Map80[C - 0x80];
return C;
}
// Describes a way to handle '\0' characters when processing the string.
// rc.exe tool sometimes behaves in a weird way in postprocessing.
// If the string to be output is equivalent to a C-string (e.g. in MENU
// titles), string is (predictably) truncated after first 0-byte.
// When outputting a string table, the behavior is equivalent to appending
// '\0\0' at the end of the string, and then stripping the string
// before the first '\0\0' occurrence.
// Finally, when handling strings in user-defined resources, 0-bytes
// aren't stripped, nor do they terminate the string.
enum class NullHandlingMethod {
UserResource, // Don't terminate string on '\0'.
CutAtNull, // Terminate string on '\0'.
CutAtDoubleNull // Terminate string on '\0\0'; strip final '\0'.
};
// Parses an identifier or string and returns a processed version of it:
// * Strip the string boundary quotes.
// * Convert the input code page characters to UTF16.
// * Squash "" to a single ".
// * Replace the escape sequences with their processed version.
// For identifiers, this is no-op.
static Error processString(StringRef Str, NullHandlingMethod NullHandler,
bool &IsLongString, SmallVectorImpl<UTF16> &Result,
int CodePage) {
bool IsString = stripQuotes(Str, IsLongString);
SmallVector<UTF16, 128> Chars;
// Convert the input bytes according to the chosen codepage.
if (CodePage == CpUtf8) {
convertUTF8ToUTF16String(Str, Chars);
} else if (CodePage == CpWin1252) {
for (char C : Str)
Chars.push_back(cp1252ToUnicode((unsigned char)C));
} else {
// For other, unknown codepages, only allow plain ASCII input.
for (char C : Str) {
if ((unsigned char)C > 0x7F)
return createError("Non-ASCII 8-bit codepoint (" + Twine(C) +
") can't be interpreted in the current codepage");
Chars.push_back((unsigned char)C);
}
}
if (!IsString) {
// It's an identifier if it's not a string. Make all characters uppercase.
for (UTF16 &Ch : Chars) {
assert(Ch <= 0x7F && "We didn't allow identifiers to be non-ASCII");
Ch = toupper(Ch);
}
Result.swap(Chars);
return Error::success();
}
Result.reserve(Chars.size());
size_t Pos = 0;
auto AddRes = [&Result, NullHandler, IsLongString](UTF16 Char) -> Error {
if (!IsLongString) {
if (NullHandler == NullHandlingMethod::UserResource) {
// Narrow strings in user-defined resources are *not* output in
// UTF-16 format.
if (Char > 0xFF)
return createError("Non-8-bit codepoint (" + Twine(Char) +
") can't occur in a user-defined narrow string");
}
}
Result.push_back(Char);
return Error::success();
};
auto AddEscapedChar = [AddRes, IsLongString, CodePage](UTF16 Char) -> Error {
if (!IsLongString) {
// Escaped chars in narrow strings have to be interpreted according to
// the chosen code page.
if (Char > 0xFF)
return createError("Non-8-bit escaped char (" + Twine(Char) +
") can't occur in narrow string");
if (CodePage == CpUtf8) {
if (Char >= 0x80)
return createError("Unable to interpret single byte (" + Twine(Char) +
") as UTF-8");
} else if (CodePage == CpWin1252) {
Char = cp1252ToUnicode(Char);
} else {
// Unknown/unsupported codepage, only allow ASCII input.
if (Char > 0x7F)
return createError("Non-ASCII 8-bit codepoint (" + Twine(Char) +
") can't "
"occur in a non-Unicode string");
}
}
return AddRes(Char);
};
while (Pos < Chars.size()) {
UTF16 CurChar = Chars[Pos];
++Pos;
// Strip double "".
if (CurChar == '"') {
if (Pos == Chars.size() || Chars[Pos] != '"')
return createError("Expected \"\"");
++Pos;
RETURN_IF_ERROR(AddRes('"'));
continue;
}
if (CurChar == '\\') {
UTF16 TypeChar = Chars[Pos];
++Pos;
if (TypeChar == 'x' || TypeChar == 'X') {
// Read a hex number. Max number of characters to read differs between
// narrow and wide strings.
UTF16 ReadInt = 0;
size_t RemainingChars = IsLongString ? 4 : 2;
// We don't want to read non-ASCII hex digits. std:: functions past
// 0xFF invoke UB.
//
// FIXME: actually, Microsoft version probably doesn't check this
// condition and uses their Unicode version of 'isxdigit'. However,
// there are some hex-digit Unicode character outside of ASCII, and
// some of these are actually accepted by rc.exe, the notable example
// being fullwidth forms (U+FF10..U+FF19 etc.) These can be written
// instead of ASCII digits in \x... escape sequence and get accepted.
// However, the resulting hexcodes seem totally unpredictable.
// We think it's infeasible to try to reproduce this behavior, nor to
// put effort in order to detect it.
while (RemainingChars && Pos < Chars.size() && Chars[Pos] < 0x80) {
if (!isxdigit(Chars[Pos]))
break;
char Digit = tolower(Chars[Pos]);
++Pos;
ReadInt <<= 4;
if (isdigit(Digit))
ReadInt |= Digit - '0';
else
ReadInt |= Digit - 'a' + 10;
--RemainingChars;
}
RETURN_IF_ERROR(AddEscapedChar(ReadInt));
continue;
}
if (TypeChar >= '0' && TypeChar < '8') {
// Read an octal number. Note that we've already read the first digit.
UTF16 ReadInt = TypeChar - '0';
size_t RemainingChars = IsLongString ? 6 : 2;
while (RemainingChars && Pos < Chars.size() && Chars[Pos] >= '0' &&
Chars[Pos] < '8') {
ReadInt <<= 3;
ReadInt |= Chars[Pos] - '0';
--RemainingChars;
++Pos;
}
RETURN_IF_ERROR(AddEscapedChar(ReadInt));
continue;
}
switch (TypeChar) {
case 'A':
case 'a':
// Windows '\a' translates into '\b' (Backspace).
RETURN_IF_ERROR(AddRes('\b'));
break;
case 'n': // Somehow, RC doesn't recognize '\N' and '\R'.
RETURN_IF_ERROR(AddRes('\n'));
break;
case 'r':
RETURN_IF_ERROR(AddRes('\r'));
break;
case 'T':
case 't':
RETURN_IF_ERROR(AddRes('\t'));
break;
case '\\':
RETURN_IF_ERROR(AddRes('\\'));
break;
case '"':
// RC accepts \" only if another " comes afterwards; then, \"" means
// a single ".
if (Pos == Chars.size() || Chars[Pos] != '"')
return createError("Expected \\\"\"");
++Pos;
RETURN_IF_ERROR(AddRes('"'));
break;
default:
// If TypeChar means nothing, \ is should be output to stdout with
// following char. However, rc.exe consumes these characters when
// dealing with wide strings.
if (!IsLongString) {
RETURN_IF_ERROR(AddRes('\\'));
RETURN_IF_ERROR(AddRes(TypeChar));
}
break;
}
continue;
}
// If nothing interesting happens, just output the character.
RETURN_IF_ERROR(AddRes(CurChar));
}
switch (NullHandler) {
case NullHandlingMethod::CutAtNull:
for (size_t Pos = 0; Pos < Result.size(); ++Pos)
if (Result[Pos] == '\0')
Result.resize(Pos);
break;
case NullHandlingMethod::CutAtDoubleNull:
for (size_t Pos = 0; Pos + 1 < Result.size(); ++Pos)
if (Result[Pos] == '\0' && Result[Pos + 1] == '\0')
Result.resize(Pos);
if (Result.size() > 0 && Result.back() == '\0')
Result.pop_back();
break;
case NullHandlingMethod::UserResource:
break;
}
return Error::success();
}
uint64_t ResourceFileWriter::writeObject(const ArrayRef<uint8_t> Data) {
uint64_t Result = tell();
FS->write((const char *)Data.begin(), Data.size());
return Result;
}
Error ResourceFileWriter::writeCString(StringRef Str, bool WriteTerminator) {
SmallVector<UTF16, 128> ProcessedString;
bool IsLongString;
RETURN_IF_ERROR(processString(Str, NullHandlingMethod::CutAtNull,
IsLongString, ProcessedString,
Params.CodePage));
for (auto Ch : ProcessedString)
writeInt<uint16_t>(Ch);
if (WriteTerminator)
writeInt<uint16_t>(0);
return Error::success();
}
Error ResourceFileWriter::writeIdentifier(const IntOrString &Ident) {
return writeIntOrString(Ident);
}
Error ResourceFileWriter::writeIntOrString(const IntOrString &Value) {
if (!Value.isInt())
return writeCString(Value.getString());
writeInt<uint16_t>(0xFFFF);
writeInt<uint16_t>(Value.getInt());
return Error::success();
}
void ResourceFileWriter::writeRCInt(RCInt Value) {
if (Value.isLong())
writeInt<uint32_t>(Value);
else
writeInt<uint16_t>(Value);
}
Error ResourceFileWriter::appendFile(StringRef Filename) {
bool IsLong;
stripQuotes(Filename, IsLong);
auto File = loadFile(Filename);
if (!File)
return File.takeError();
*FS << (*File)->getBuffer();
return Error::success();
}
void ResourceFileWriter::padStream(uint64_t Length) {
assert(Length > 0);
uint64_t Location = tell();
Location %= Length;
uint64_t Pad = (Length - Location) % Length;
for (uint64_t i = 0; i < Pad; ++i)
writeInt<uint8_t>(0);
}
Error ResourceFileWriter::handleError(Error Err, const RCResource *Res) {
if (Err)
return joinErrors(createError("Error in " + Res->getResourceTypeName() +
" statement (ID " + Twine(Res->ResName) +
"): "),
std::move(Err));
return Error::success();
}
Error ResourceFileWriter::visitNullResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeNullBody);
}
Error ResourceFileWriter::visitAcceleratorsResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeAcceleratorsBody);
}
Error ResourceFileWriter::visitBitmapResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeBitmapBody);
}
Error ResourceFileWriter::visitCursorResource(const RCResource *Res) {
return handleError(visitIconOrCursorResource(Res), Res);
}
Error ResourceFileWriter::visitDialogResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeDialogBody);
}
Error ResourceFileWriter::visitIconResource(const RCResource *Res) {
return handleError(visitIconOrCursorResource(Res), Res);
}
Error ResourceFileWriter::visitCaptionStmt(const CaptionStmt *Stmt) {
ObjectData.Caption = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::visitClassStmt(const ClassStmt *Stmt) {
ObjectData.Class = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::visitHTMLResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeHTMLBody);
}
Error ResourceFileWriter::visitMenuResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeMenuBody);
}
Error ResourceFileWriter::visitStringTableResource(const RCResource *Base) {
const auto *Res = cast<StringTableResource>(Base);
ContextKeeper RAII(this);
RETURN_IF_ERROR(Res->applyStmts(this));
for (auto &String : Res->Table) {
RETURN_IF_ERROR(checkNumberFits<uint16_t>(String.first, "String ID"));
uint16_t BundleID = String.first >> 4;
StringTableInfo::BundleKey Key(BundleID, ObjectData.LanguageInfo);
auto &BundleData = StringTableData.BundleData;
auto Iter = BundleData.find(Key);
if (Iter == BundleData.end()) {
// Need to create a bundle.
StringTableData.BundleList.push_back(Key);
auto EmplaceResult = BundleData.emplace(
Key, StringTableInfo::Bundle(ObjectData, Res->MemoryFlags));
assert(EmplaceResult.second && "Could not create a bundle");
Iter = EmplaceResult.first;
}
RETURN_IF_ERROR(
insertStringIntoBundle(Iter->second, String.first, String.second));
}
return Error::success();
}
Error ResourceFileWriter::visitUserDefinedResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeUserDefinedBody);
}
Error ResourceFileWriter::visitVersionInfoResource(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeVersionInfoBody);
}
Error ResourceFileWriter::visitCharacteristicsStmt(
const CharacteristicsStmt *Stmt) {
ObjectData.Characteristics = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::visitExStyleStmt(const ExStyleStmt *Stmt) {
ObjectData.ExStyle = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::visitFontStmt(const FontStmt *Stmt) {
RETURN_IF_ERROR(checkNumberFits<uint16_t>(Stmt->Size, "Font size"));
RETURN_IF_ERROR(checkNumberFits<uint16_t>(Stmt->Weight, "Font weight"));
RETURN_IF_ERROR(checkNumberFits<uint8_t>(Stmt->Charset, "Font charset"));
ObjectInfo::FontInfo Font{Stmt->Size, Stmt->Name, Stmt->Weight, Stmt->Italic,
Stmt->Charset};
ObjectData.Font.emplace(Font);
return Error::success();
}
Error ResourceFileWriter::visitLanguageStmt(const LanguageResource *Stmt) {
RETURN_IF_ERROR(checkNumberFits(Stmt->Lang, 10, "Primary language ID"));
RETURN_IF_ERROR(checkNumberFits(Stmt->SubLang, 6, "Sublanguage ID"));
ObjectData.LanguageInfo = Stmt->Lang | (Stmt->SubLang << 10);
return Error::success();
}
Error ResourceFileWriter::visitStyleStmt(const StyleStmt *Stmt) {
ObjectData.Style = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::visitVersionStmt(const VersionStmt *Stmt) {
ObjectData.VersionInfo = Stmt->Value;
return Error::success();
}
Error ResourceFileWriter::writeResource(
const RCResource *Res,
Error (ResourceFileWriter::*BodyWriter)(const RCResource *)) {
// We don't know the sizes yet.
object::WinResHeaderPrefix HeaderPrefix{ulittle32_t(0U), ulittle32_t(0U)};
uint64_t HeaderLoc = writeObject(HeaderPrefix);
auto ResType = Res->getResourceType();
RETURN_IF_ERROR(checkIntOrString(ResType, "Resource type"));
RETURN_IF_ERROR(checkIntOrString(Res->ResName, "Resource ID"));
RETURN_IF_ERROR(handleError(writeIdentifier(ResType), Res));
RETURN_IF_ERROR(handleError(writeIdentifier(Res->ResName), Res));
// Apply the resource-local optional statements.
ContextKeeper RAII(this);
RETURN_IF_ERROR(handleError(Res->applyStmts(this), Res));
padStream(sizeof(uint32_t));
object::WinResHeaderSuffix HeaderSuffix{
ulittle32_t(0), // DataVersion; seems to always be 0
ulittle16_t(Res->MemoryFlags), ulittle16_t(ObjectData.LanguageInfo),
ulittle32_t(ObjectData.VersionInfo),
ulittle32_t(ObjectData.Characteristics)};
writeObject(HeaderSuffix);
uint64_t DataLoc = tell();
RETURN_IF_ERROR(handleError((this->*BodyWriter)(Res), Res));
// RETURN_IF_ERROR(handleError(dumpResource(Ctx)));
// Update the sizes.
HeaderPrefix.DataSize = tell() - DataLoc;
HeaderPrefix.HeaderSize = DataLoc - HeaderLoc;
writeObjectAt(HeaderPrefix, HeaderLoc);
padStream(sizeof(uint32_t));
return Error::success();
}
// --- NullResource helpers. --- //
Error ResourceFileWriter::writeNullBody(const RCResource *) {
return Error::success();
}
// --- AcceleratorsResource helpers. --- //
Error ResourceFileWriter::writeSingleAccelerator(
const AcceleratorsResource::Accelerator &Obj, bool IsLastItem) {
using Accelerator = AcceleratorsResource::Accelerator;
using Opt = Accelerator::Options;
struct AccelTableEntry {
ulittle16_t Flags;
ulittle16_t ANSICode;
ulittle16_t Id;
uint16_t Padding;
} Entry{ulittle16_t(0), ulittle16_t(0), ulittle16_t(0), 0};
bool IsASCII = Obj.Flags & Opt::ASCII, IsVirtKey = Obj.Flags & Opt::VIRTKEY;
// Remove ASCII flags (which doesn't occur in .res files).
Entry.Flags = Obj.Flags & ~Opt::ASCII;
if (IsLastItem)
Entry.Flags |= 0x80;
RETURN_IF_ERROR(checkNumberFits<uint16_t>(Obj.Id, "ACCELERATORS entry ID"));
Entry.Id = ulittle16_t(Obj.Id);
auto createAccError = [&Obj](const char *Msg) {
return createError("Accelerator ID " + Twine(Obj.Id) + ": " + Msg);
};
if (IsASCII && IsVirtKey)
return createAccError("Accelerator can't be both ASCII and VIRTKEY");
if (!IsVirtKey && (Obj.Flags & (Opt::ALT | Opt::SHIFT | Opt::CONTROL)))
return createAccError("Can only apply ALT, SHIFT or CONTROL to VIRTKEY"
" accelerators");
if (Obj.Event.isInt()) {
if (!IsASCII && !IsVirtKey)
return createAccError(
"Accelerator with a numeric event must be either ASCII"
" or VIRTKEY");
uint32_t EventVal = Obj.Event.getInt();
RETURN_IF_ERROR(
checkNumberFits<uint16_t>(EventVal, "Numeric event key ID"));
Entry.ANSICode = ulittle16_t(EventVal);
writeObject(Entry);
return Error::success();
}
StringRef Str = Obj.Event.getString();
bool IsWide;
stripQuotes(Str, IsWide);
if (Str.size() == 0 || Str.size() > 2)
return createAccError(
"Accelerator string events should have length 1 or 2");
if (Str[0] == '^') {
if (Str.size() == 1)
return createAccError("No character following '^' in accelerator event");
if (IsVirtKey)
return createAccError(
"VIRTKEY accelerator events can't be preceded by '^'");
char Ch = Str[1];
if (Ch >= 'a' && Ch <= 'z')
Entry.ANSICode = ulittle16_t(Ch - 'a' + 1);
else if (Ch >= 'A' && Ch <= 'Z')
Entry.ANSICode = ulittle16_t(Ch - 'A' + 1);
else
return createAccError("Control character accelerator event should be"
" alphabetic");
writeObject(Entry);
return Error::success();
}
if (Str.size() == 2)
return createAccError("Event string should be one-character, possibly"
" preceded by '^'");
uint8_t EventCh = Str[0];
// The original tool just warns in this situation. We chose to fail.
if (IsVirtKey && !isalnum(EventCh))
return createAccError("Non-alphanumeric characters cannot describe virtual"
" keys");
if (EventCh > 0x7F)
return createAccError("Non-ASCII description of accelerator");
if (IsVirtKey)
EventCh = toupper(EventCh);
Entry.ANSICode = ulittle16_t(EventCh);
writeObject(Entry);
return Error::success();
}
Error ResourceFileWriter::writeAcceleratorsBody(const RCResource *Base) {
auto *Res = cast<AcceleratorsResource>(Base);
size_t AcceleratorId = 0;
for (auto &Acc : Res->Accelerators) {
++AcceleratorId;
RETURN_IF_ERROR(
writeSingleAccelerator(Acc, AcceleratorId == Res->Accelerators.size()));
}
return Error::success();
}
// --- BitmapResource helpers. --- //
Error ResourceFileWriter::writeBitmapBody(const RCResource *Base) {
StringRef Filename = cast<BitmapResource>(Base)->BitmapLoc;
bool IsLong;
stripQuotes(Filename, IsLong);
auto File = loadFile(Filename);
if (!File)
return File.takeError();
StringRef Buffer = (*File)->getBuffer();
// Skip the 14 byte BITMAPFILEHEADER.
constexpr size_t BITMAPFILEHEADER_size = 14;
if (Buffer.size() < BITMAPFILEHEADER_size || Buffer[0] != 'B' ||
Buffer[1] != 'M')
return createError("Incorrect bitmap file.");
*FS << Buffer.substr(BITMAPFILEHEADER_size);
return Error::success();
}
// --- CursorResource and IconResource helpers. --- //
// ICONRESDIR structure. Describes a single icon in resource group.
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648016.aspx
struct IconResDir {
uint8_t Width;
uint8_t Height;
uint8_t ColorCount;
uint8_t Reserved;
};
// CURSORDIR structure. Describes a single cursor in resource group.
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648011(v=vs.85).aspx
struct CursorDir {
ulittle16_t Width;
ulittle16_t Height;
};
// RESDIRENTRY structure, stripped from the last item. Stripping made
// for compatibility with RESDIR.
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648026(v=vs.85).aspx
struct ResourceDirEntryStart {
union {
CursorDir Cursor; // Used in CURSOR resources.
IconResDir Icon; // Used in .ico and .cur files, and ICON resources.
};
ulittle16_t Planes; // HotspotX (.cur files but not CURSOR resource).
ulittle16_t BitCount; // HotspotY (.cur files but not CURSOR resource).
ulittle32_t Size;
// ulittle32_t ImageOffset; // Offset to image data (ICONDIRENTRY only).
// ulittle16_t IconID; // Resource icon ID (RESDIR only).
};
// BITMAPINFOHEADER structure. Describes basic information about the bitmap
// being read.
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/dd183376(v=vs.85).aspx
struct BitmapInfoHeader {
ulittle32_t Size;
ulittle32_t Width;
ulittle32_t Height;
ulittle16_t Planes;
ulittle16_t BitCount;
ulittle32_t Compression;
ulittle32_t SizeImage;
ulittle32_t XPelsPerMeter;
ulittle32_t YPelsPerMeter;
ulittle32_t ClrUsed;
ulittle32_t ClrImportant;
};
// Group icon directory header. Called ICONDIR in .ico/.cur files and
// NEWHEADER in .res files.
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648023(v=vs.85).aspx
struct GroupIconDir {
ulittle16_t Reserved; // Always 0.
ulittle16_t ResType; // 1 for icons, 2 for cursors.
ulittle16_t ResCount; // Number of items.
};
enum class IconCursorGroupType { Icon, Cursor };
class SingleIconCursorResource : public RCResource {
public:
IconCursorGroupType Type;
const ResourceDirEntryStart &Header;
ArrayRef<uint8_t> Image;
SingleIconCursorResource(IconCursorGroupType ResourceType,
const ResourceDirEntryStart &HeaderEntry,
ArrayRef<uint8_t> ImageData, uint16_t Flags)
: RCResource(Flags), Type(ResourceType), Header(HeaderEntry),
Image(ImageData) {}
Twine getResourceTypeName() const override { return "Icon/cursor image"; }
IntOrString getResourceType() const override {
return Type == IconCursorGroupType::Icon ? RkSingleIcon : RkSingleCursor;
}
ResourceKind getKind() const override { return RkSingleCursorOrIconRes; }
static bool classof(const RCResource *Res) {
return Res->getKind() == RkSingleCursorOrIconRes;
}
};
class IconCursorGroupResource : public RCResource {
public:
IconCursorGroupType Type;
GroupIconDir Header;
std::vector<ResourceDirEntryStart> ItemEntries;
IconCursorGroupResource(IconCursorGroupType ResourceType,
const GroupIconDir &HeaderData,
std::vector<ResourceDirEntryStart> &&Entries)
: Type(ResourceType), Header(HeaderData),
ItemEntries(std::move(Entries)) {}
Twine getResourceTypeName() const override { return "Icon/cursor group"; }
IntOrString getResourceType() const override {
return Type == IconCursorGroupType::Icon ? RkIconGroup : RkCursorGroup;
}
ResourceKind getKind() const override { return RkCursorOrIconGroupRes; }
static bool classof(const RCResource *Res) {
return Res->getKind() == RkCursorOrIconGroupRes;
}
};
Error ResourceFileWriter::writeSingleIconOrCursorBody(const RCResource *Base) {
auto *Res = cast<SingleIconCursorResource>(Base);
if (Res->Type == IconCursorGroupType::Cursor) {
// In case of cursors, two WORDS are appended to the beginning
// of the resource: HotspotX (Planes in RESDIRENTRY),
// and HotspotY (BitCount).
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648026.aspx
// (Remarks section).
writeObject(Res->Header.Planes);
writeObject(Res->Header.BitCount);
}
writeObject(Res->Image);
return Error::success();
}
Error ResourceFileWriter::writeIconOrCursorGroupBody(const RCResource *Base) {
auto *Res = cast<IconCursorGroupResource>(Base);
writeObject(Res->Header);
for (auto Item : Res->ItemEntries) {
writeObject(Item);
writeInt(IconCursorID++);
}
return Error::success();
}
Error ResourceFileWriter::visitSingleIconOrCursor(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeSingleIconOrCursorBody);
}
Error ResourceFileWriter::visitIconOrCursorGroup(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeIconOrCursorGroupBody);
}
Error ResourceFileWriter::visitIconOrCursorResource(const RCResource *Base) {
IconCursorGroupType Type;
StringRef FileStr;
IntOrString ResName = Base->ResName;
if (auto *IconRes = dyn_cast<IconResource>(Base)) {
FileStr = IconRes->IconLoc;
Type = IconCursorGroupType::Icon;
} else {
auto *CursorRes = dyn_cast<CursorResource>(Base);
FileStr = CursorRes->CursorLoc;
Type = IconCursorGroupType::Cursor;
}
bool IsLong;
stripQuotes(FileStr, IsLong);
auto File = loadFile(FileStr);
if (!File)
return File.takeError();
BinaryStreamReader Reader((*File)->getBuffer(), support::little);
// Read the file headers.
// - At the beginning, ICONDIR/NEWHEADER header.
// - Then, a number of RESDIR headers follow. These contain offsets
// to data.
const GroupIconDir *Header;
RETURN_IF_ERROR(Reader.readObject(Header));
if (Header->Reserved != 0)
return createError("Incorrect icon/cursor Reserved field; should be 0.");
uint16_t NeededType = Type == IconCursorGroupType::Icon ? 1 : 2;
if (Header->ResType != NeededType)
return createError("Incorrect icon/cursor ResType field; should be " +
Twine(NeededType) + ".");
uint16_t NumItems = Header->ResCount;
// Read single ico/cur headers.
std::vector<ResourceDirEntryStart> ItemEntries;
ItemEntries.reserve(NumItems);
std::vector<uint32_t> ItemOffsets(NumItems);
for (size_t ID = 0; ID < NumItems; ++ID) {
const ResourceDirEntryStart *Object;
RETURN_IF_ERROR(Reader.readObject(Object));
ItemEntries.push_back(*Object);
RETURN_IF_ERROR(Reader.readInteger(ItemOffsets[ID]));
}
// Now write each icon/cursors one by one. At first, all the contents
// without ICO/CUR header. This is described by SingleIconCursorResource.
for (size_t ID = 0; ID < NumItems; ++ID) {
// Load the fragment of file.
Reader.setOffset(ItemOffsets[ID]);
ArrayRef<uint8_t> Image;
RETURN_IF_ERROR(Reader.readArray(Image, ItemEntries[ID].Size));
SingleIconCursorResource SingleRes(Type, ItemEntries[ID], Image,
Base->MemoryFlags);
SingleRes.setName(IconCursorID + ID);
RETURN_IF_ERROR(visitSingleIconOrCursor(&SingleRes));
}
// Now, write all the headers concatenated into a separate resource.
for (size_t ID = 0; ID < NumItems; ++ID) {
// We need to rewrite the cursor headers, and fetch actual values
// for Planes/BitCount.
const auto &OldHeader = ItemEntries[ID];
ResourceDirEntryStart NewHeader = OldHeader;
if (Type == IconCursorGroupType::Cursor) {
NewHeader.Cursor.Width = OldHeader.Icon.Width;
// Each cursor in fact stores two bitmaps, one under another.
// Height provided in cursor definition describes the height of the
// cursor, whereas the value existing in resource definition describes
// the height of the bitmap. Therefore, we need to double this height.
NewHeader.Cursor.Height = OldHeader.Icon.Height * 2;
// Two WORDs were written at the beginning of the resource (hotspot
// location). This is reflected in Size field.
NewHeader.Size += 2 * sizeof(uint16_t);
}
// Now, we actually need to read the bitmap header to find
// the number of planes and the number of bits per pixel.
Reader.setOffset(ItemOffsets[ID]);
const BitmapInfoHeader *BMPHeader;
RETURN_IF_ERROR(Reader.readObject(BMPHeader));
if (BMPHeader->Size == sizeof(BitmapInfoHeader)) {
NewHeader.Planes = BMPHeader->Planes;
NewHeader.BitCount = BMPHeader->BitCount;
} else {
// A PNG .ico file.
// https://blogs.msdn.microsoft.com/oldnewthing/20101022-00/?p=12473
// "The image must be in 32bpp"
NewHeader.Planes = 1;
NewHeader.BitCount = 32;
}
ItemEntries[ID] = NewHeader;
}
IconCursorGroupResource HeaderRes(Type, *Header, std::move(ItemEntries));
HeaderRes.setName(ResName);
if (Base->MemoryFlags & MfPreload) {
HeaderRes.MemoryFlags |= MfPreload;
HeaderRes.MemoryFlags &= ~MfPure;
}
RETURN_IF_ERROR(visitIconOrCursorGroup(&HeaderRes));
return Error::success();
}
// --- DialogResource helpers. --- //
Error ResourceFileWriter::writeSingleDialogControl(const Control &Ctl,
bool IsExtended) {
// Each control should be aligned to DWORD.
padStream(sizeof(uint32_t));
auto TypeInfo = Control::SupportedCtls.lookup(Ctl.Type);
IntWithNotMask CtlStyle(TypeInfo.Style);
CtlStyle |= Ctl.Style.getValueOr(RCInt(0));
uint32_t CtlExtStyle = Ctl.ExtStyle.getValueOr(0);
// DIALOG(EX) item header prefix.
if (!IsExtended) {
struct {
ulittle32_t Style;
ulittle32_t ExtStyle;
} Prefix{ulittle32_t(CtlStyle.getValue()), ulittle32_t(CtlExtStyle)};
writeObject(Prefix);
} else {
struct {
ulittle32_t HelpID;
ulittle32_t ExtStyle;
ulittle32_t Style;
} Prefix{ulittle32_t(Ctl.HelpID.getValueOr(0)), ulittle32_t(CtlExtStyle),
ulittle32_t(CtlStyle.getValue())};
writeObject(Prefix);
}
// Common fixed-length part.
RETURN_IF_ERROR(checkSignedNumberFits<int16_t>(
Ctl.X, "Dialog control x-coordinate", true));
RETURN_IF_ERROR(checkSignedNumberFits<int16_t>(
Ctl.Y, "Dialog control y-coordinate", true));
RETURN_IF_ERROR(
checkSignedNumberFits<int16_t>(Ctl.Width, "Dialog control width", false));
RETURN_IF_ERROR(checkSignedNumberFits<int16_t>(
Ctl.Height, "Dialog control height", false));
struct {
ulittle16_t X;
ulittle16_t Y;
ulittle16_t Width;
ulittle16_t Height;
} Middle{ulittle16_t(Ctl.X), ulittle16_t(Ctl.Y), ulittle16_t(Ctl.Width),
ulittle16_t(Ctl.Height)};
writeObject(Middle);
// ID; it's 16-bit in DIALOG and 32-bit in DIALOGEX.
if (!IsExtended) {
// It's common to use -1, i.e. UINT32_MAX, for controls one doesn't
// want to refer to later.
if (Ctl.ID != static_cast<uint32_t>(-1))
RETURN_IF_ERROR(checkNumberFits<uint16_t>(
Ctl.ID, "Control ID in simple DIALOG resource"));
writeInt<uint16_t>(Ctl.ID);
} else {
writeInt<uint32_t>(Ctl.ID);
}
// Window class - either 0xFFFF + 16-bit integer or a string.
RETURN_IF_ERROR(writeIntOrString(Ctl.Class));
// Element caption/reference ID. ID is preceded by 0xFFFF.
RETURN_IF_ERROR(checkIntOrString(Ctl.Title, "Control reference ID"));
RETURN_IF_ERROR(writeIntOrString(Ctl.Title));
// # bytes of extra creation data count. Don't pass any.
writeInt<uint16_t>(0);
return Error::success();
}
Error ResourceFileWriter::writeDialogBody(const RCResource *Base) {
auto *Res = cast<DialogResource>(Base);
// Default style: WS_POPUP | WS_BORDER | WS_SYSMENU.
const uint32_t DefaultStyle = 0x80880000;
const uint32_t StyleFontFlag = 0x40;
const uint32_t StyleCaptionFlag = 0x00C00000;
uint32_t UsedStyle = ObjectData.Style.getValueOr(DefaultStyle);
if (ObjectData.Font)
UsedStyle |= StyleFontFlag;
else
UsedStyle &= ~StyleFontFlag;
// Actually, in case of empty (but existent) caption, the examined field
// is equal to "\"\"". That's why empty captions are still noticed.
if (ObjectData.Caption != "")
UsedStyle |= StyleCaptionFlag;
const uint16_t DialogExMagic = 0xFFFF;
uint32_t ExStyle = ObjectData.ExStyle.getValueOr(0);
// Write DIALOG(EX) header prefix. These are pretty different.
if (!Res->IsExtended) {
// We cannot let the higher word of DefaultStyle be equal to 0xFFFF.
// In such a case, whole object (in .res file) is equivalent to a
// DIALOGEX. It might lead to access violation/segmentation fault in
// resource readers. For example,
// 1 DIALOG 0, 0, 0, 65432
// STYLE 0xFFFF0001 {}
// would be compiled to a DIALOGEX with 65432 controls.
if ((UsedStyle >> 16) == DialogExMagic)
return createError("16 higher bits of DIALOG resource style cannot be"
" equal to 0xFFFF");
struct {
ulittle32_t Style;
ulittle32_t ExtStyle;
} Prefix{ulittle32_t(UsedStyle),
ulittle32_t(ExStyle)};
writeObject(Prefix);
} else {
struct {
ulittle16_t Version;
ulittle16_t Magic;
ulittle32_t HelpID;
ulittle32_t ExtStyle;
ulittle32_t Style;
} Prefix{ulittle16_t(1), ulittle16_t(DialogExMagic),
ulittle32_t(Res->HelpID), ulittle32_t(ExStyle), ulittle32_t(UsedStyle)};
writeObject(Prefix);
}
// Now, a common part. First, fixed-length fields.
RETURN_IF_ERROR(checkNumberFits<uint16_t>(Res->Controls.size(),
"Number of dialog controls"));
RETURN_IF_ERROR(
checkSignedNumberFits<int16_t>(Res->X, "Dialog x-coordinate", true));
RETURN_IF_ERROR(
checkSignedNumberFits<int16_t>(Res->Y, "Dialog y-coordinate", true));
RETURN_IF_ERROR(
checkSignedNumberFits<int16_t>(Res->Width, "Dialog width", false));
RETURN_IF_ERROR(
checkSignedNumberFits<int16_t>(Res->Height, "Dialog height", false));
struct {
ulittle16_t Count;
ulittle16_t PosX;
ulittle16_t PosY;
ulittle16_t DialogWidth;
ulittle16_t DialogHeight;
} Middle{ulittle16_t(Res->Controls.size()), ulittle16_t(Res->X),
ulittle16_t(Res->Y), ulittle16_t(Res->Width),
ulittle16_t(Res->Height)};
writeObject(Middle);
// MENU field. As of now, we don't keep them in the state and can peacefully
// think there is no menu attached to the dialog.
writeInt<uint16_t>(0);
// Window CLASS field.
RETURN_IF_ERROR(writeIntOrString(ObjectData.Class));
// Window title or a single word equal to 0.
RETURN_IF_ERROR(writeCString(ObjectData.Caption));
// If there *is* a window font declared, output its data.
auto &Font = ObjectData.Font;
if (Font) {
writeInt<uint16_t>(Font->Size);
// Additional description occurs only in DIALOGEX.
if (Res->IsExtended) {
writeInt<uint16_t>(Font->Weight);
writeInt<uint8_t>(Font->IsItalic);
writeInt<uint8_t>(Font->Charset);
}
RETURN_IF_ERROR(writeCString(Font->Typeface));
}
auto handleCtlError = [&](Error &&Err, const Control &Ctl) -> Error {
if (!Err)
return Error::success();
return joinErrors(createError("Error in " + Twine(Ctl.Type) +
" control (ID " + Twine(Ctl.ID) + "):"),
std::move(Err));
};
for (auto &Ctl : Res->Controls)
RETURN_IF_ERROR(
handleCtlError(writeSingleDialogControl(Ctl, Res->IsExtended), Ctl));
return Error::success();
}
// --- HTMLResource helpers. --- //
Error ResourceFileWriter::writeHTMLBody(const RCResource *Base) {
return appendFile(cast<HTMLResource>(Base)->HTMLLoc);
}
// --- MenuResource helpers. --- //
Error ResourceFileWriter::writeMenuDefinition(
const std::unique_ptr<MenuDefinition> &Def, uint16_t Flags) {
assert(Def);
const MenuDefinition *DefPtr = Def.get();
if (auto *MenuItemPtr = dyn_cast<MenuItem>(DefPtr)) {
writeInt<uint16_t>(Flags);
// Some resource files use -1, i.e. UINT32_MAX, for empty menu items.
if (MenuItemPtr->Id != static_cast<uint32_t>(-1))
RETURN_IF_ERROR(
checkNumberFits<uint16_t>(MenuItemPtr->Id, "MENUITEM action ID"));
writeInt<uint16_t>(MenuItemPtr->Id);
RETURN_IF_ERROR(writeCString(MenuItemPtr->Name));
return Error::success();
}
if (isa<MenuSeparator>(DefPtr)) {
writeInt<uint16_t>(Flags);
writeInt<uint32_t>(0);
return Error::success();
}
auto *PopupPtr = cast<PopupItem>(DefPtr);
writeInt<uint16_t>(Flags);
RETURN_IF_ERROR(writeCString(PopupPtr->Name));
return writeMenuDefinitionList(PopupPtr->SubItems);
}
Error ResourceFileWriter::writeMenuDefinitionList(
const MenuDefinitionList &List) {
for (auto &Def : List.Definitions) {
uint16_t Flags = Def->getResFlags();
// Last element receives an additional 0x80 flag.
const uint16_t LastElementFlag = 0x0080;
if (&Def == &List.Definitions.back())
Flags |= LastElementFlag;
RETURN_IF_ERROR(writeMenuDefinition(Def, Flags));
}
return Error::success();
}
Error ResourceFileWriter::writeMenuBody(const RCResource *Base) {
// At first, MENUHEADER structure. In fact, these are two WORDs equal to 0.
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms648018.aspx
writeInt<uint32_t>(0);
return writeMenuDefinitionList(cast<MenuResource>(Base)->Elements);
}
// --- StringTableResource helpers. --- //
class BundleResource : public RCResource {
public:
using BundleType = ResourceFileWriter::StringTableInfo::Bundle;
BundleType Bundle;
BundleResource(const BundleType &StrBundle)
: RCResource(StrBundle.MemoryFlags), Bundle(StrBundle) {}
IntOrString getResourceType() const override { return 6; }
ResourceKind getKind() const override { return RkStringTableBundle; }
static bool classof(const RCResource *Res) {
return Res->getKind() == RkStringTableBundle;
}
Twine getResourceTypeName() const override { return "STRINGTABLE"; }
};
Error ResourceFileWriter::visitStringTableBundle(const RCResource *Res) {
return writeResource(Res, &ResourceFileWriter::writeStringTableBundleBody);
}
Error ResourceFileWriter::insertStringIntoBundle(
StringTableInfo::Bundle &Bundle, uint16_t StringID,
const std::vector<StringRef> &String) {
uint16_t StringLoc = StringID & 15;
if (Bundle.Data[StringLoc])
return createError("Multiple STRINGTABLE strings located under ID " +
Twine(StringID));
Bundle.Data[StringLoc] = String;
return Error::success();
}
Error ResourceFileWriter::writeStringTableBundleBody(const RCResource *Base) {
auto *Res = cast<BundleResource>(Base);
for (size_t ID = 0; ID < Res->Bundle.Data.size(); ++ID) {
// The string format is a tiny bit different here. We
// first output the size of the string, and then the string itself
// (which is not null-terminated).
SmallVector<UTF16, 128> Data;
if (Res->Bundle.Data[ID]) {
bool IsLongString;
for (StringRef S : *Res->Bundle.Data[ID])
RETURN_IF_ERROR(processString(S, NullHandlingMethod::CutAtDoubleNull,
IsLongString, Data, Params.CodePage));
if (AppendNull)
Data.push_back('\0');
}
RETURN_IF_ERROR(
checkNumberFits<uint16_t>(Data.size(), "STRINGTABLE string size"));
writeInt<uint16_t>(Data.size());
for (auto Char : Data)
writeInt(Char);
}
return Error::success();
}
Error ResourceFileWriter::dumpAllStringTables() {
for (auto Key : StringTableData.BundleList) {
auto Iter = StringTableData.BundleData.find(Key);
assert(Iter != StringTableData.BundleData.end());
// For a moment, revert the context info to moment of bundle declaration.
ContextKeeper RAII(this);
ObjectData = Iter->second.DeclTimeInfo;
BundleResource Res(Iter->second);
// Bundle #(k+1) contains keys [16k, 16k + 15].
Res.setName(Key.first + 1);
RETURN_IF_ERROR(visitStringTableBundle(&Res));
}
return Error::success();
}
// --- UserDefinedResource helpers. --- //
Error ResourceFileWriter::writeUserDefinedBody(const RCResource *Base) {
auto *Res = cast<UserDefinedResource>(Base);
if (Res->IsFileResource)
return appendFile(Res->FileLoc);
for (auto &Elem : Res->Contents) {
if (Elem.isInt()) {
RETURN_IF_ERROR(
checkRCInt(Elem.getInt(), "Number in user-defined resource"));
writeRCInt(Elem.getInt());
continue;
}
SmallVector<UTF16, 128> ProcessedString;
bool IsLongString;
RETURN_IF_ERROR(
processString(Elem.getString(), NullHandlingMethod::UserResource,
IsLongString, ProcessedString, Params.CodePage));
for (auto Ch : ProcessedString) {
if (IsLongString) {
writeInt(Ch);
continue;
}
RETURN_IF_ERROR(checkNumberFits<uint8_t>(
Ch, "Character in narrow string in user-defined resource"));
writeInt<uint8_t>(Ch);
}
}
return Error::success();
}
// --- VersionInfoResourceResource helpers. --- //
Error ResourceFileWriter::writeVersionInfoBlock(const VersionInfoBlock &Blk) {
// Output the header if the block has name.
bool OutputHeader = Blk.Name != "";
uint64_t LengthLoc;
padStream(sizeof(uint32_t));
if (OutputHeader) {
LengthLoc = writeInt<uint16_t>(0);
writeInt<uint16_t>(0);
writeInt<uint16_t>(1); // true
RETURN_IF_ERROR(writeCString(Blk.Name));
padStream(sizeof(uint32_t));
}
for (const std::unique_ptr<VersionInfoStmt> &Item : Blk.Stmts) {
VersionInfoStmt *ItemPtr = Item.get();
if (auto *BlockPtr = dyn_cast<VersionInfoBlock>(ItemPtr)) {
RETURN_IF_ERROR(writeVersionInfoBlock(*BlockPtr));
continue;
}
auto *ValuePtr = cast<VersionInfoValue>(ItemPtr);
RETURN_IF_ERROR(writeVersionInfoValue(*ValuePtr));
}
if (OutputHeader) {
uint64_t CurLoc = tell();
writeObjectAt(ulittle16_t(CurLoc - LengthLoc), LengthLoc);
}
return Error::success();
}
Error ResourceFileWriter::writeVersionInfoValue(const VersionInfoValue &Val) {
// rc has a peculiar algorithm to output VERSIONINFO VALUEs. Each VALUE
// is a mapping from the key (string) to the value (a sequence of ints or
// a sequence of strings).
//
// If integers are to be written: width of each integer written depends on
// whether it's been declared 'long' (it's DWORD then) or not (it's WORD).
// ValueLength defined in structure referenced below is then the total
// number of bytes taken by these integers.
//
// If strings are to be written: characters are always WORDs.
// Moreover, '\0' character is written after the last string, and between
// every two strings separated by comma (if strings are not comma-separated,
// they're simply concatenated). ValueLength is equal to the number of WORDs
// written (that is, half of the bytes written).
//
// Ref: msdn.microsoft.com/en-us/library/windows/desktop/ms646994.aspx
bool HasStrings = false, HasInts = false;
for (auto &Item : Val.Values)
(Item.isInt() ? HasInts : HasStrings) = true;
assert((HasStrings || HasInts) && "VALUE must have at least one argument");
if (HasStrings && HasInts)
return createError(Twine("VALUE ") + Val.Key +
" cannot contain both strings and integers");
padStream(sizeof(uint32_t));
auto LengthLoc = writeInt<uint16_t>(0);
auto ValLengthLoc = writeInt<uint16_t>(0);
writeInt<uint16_t>(HasStrings);
RETURN_IF_ERROR(writeCString(Val.Key));
padStream(sizeof(uint32_t));
auto DataLoc = tell();
for (size_t Id = 0; Id < Val.Values.size(); ++Id) {
auto &Item = Val.Values[Id];
if (Item.isInt()) {
auto Value = Item.getInt();
RETURN_IF_ERROR(checkRCInt(Value, "VERSIONINFO integer value"));
writeRCInt(Value);
continue;
}
bool WriteTerminator =
Id == Val.Values.size() - 1 || Val.HasPrecedingComma[Id + 1];
RETURN_IF_ERROR(writeCString(Item.getString(), WriteTerminator));
}
auto CurLoc = tell();
auto ValueLength = CurLoc - DataLoc;
if (HasStrings) {
assert(ValueLength % 2 == 0);
ValueLength /= 2;
}
writeObjectAt(ulittle16_t(CurLoc - LengthLoc), LengthLoc);
writeObjectAt(ulittle16_t(ValueLength), ValLengthLoc);
return Error::success();
}
template <typename Ty>
static Ty getWithDefault(const StringMap<Ty> &Map, StringRef Key,
const Ty &Default) {
auto Iter = Map.find(Key);
if (Iter != Map.end())
return Iter->getValue();
return Default;
}
Error ResourceFileWriter::writeVersionInfoBody(const RCResource *Base) {
auto *Res = cast<VersionInfoResource>(Base);
const auto &FixedData = Res->FixedData;
struct /* VS_FIXEDFILEINFO */ {
ulittle32_t Signature = ulittle32_t(0xFEEF04BD);
ulittle32_t StructVersion = ulittle32_t(0x10000);
// It's weird to have most-significant DWORD first on the little-endian
// machines, but let it be this way.
ulittle32_t FileVersionMS;
ulittle32_t FileVersionLS;
ulittle32_t ProductVersionMS;
ulittle32_t ProductVersionLS;
ulittle32_t FileFlagsMask;
ulittle32_t FileFlags;
ulittle32_t FileOS;
ulittle32_t FileType;
ulittle32_t FileSubtype;
// MS implementation seems to always set these fields to 0.
ulittle32_t FileDateMS = ulittle32_t(0);
ulittle32_t FileDateLS = ulittle32_t(0);
} FixedInfo;
// First, VS_VERSIONINFO.
auto LengthLoc = writeInt<uint16_t>(0);
writeInt<uint16_t>(sizeof(FixedInfo));
writeInt<uint16_t>(0);
cantFail(writeCString("VS_VERSION_INFO"));
padStream(sizeof(uint32_t));
using VersionInfoFixed = VersionInfoResource::VersionInfoFixed;
auto GetField = [&](VersionInfoFixed::VersionInfoFixedType Type) {
static const SmallVector<uint32_t, 4> DefaultOut{0, 0, 0, 0};
if (!FixedData.IsTypePresent[(int)Type])
return DefaultOut;
return FixedData.FixedInfo[(int)Type];
};
auto FileVer = GetField(VersionInfoFixed::FtFileVersion);
RETURN_IF_ERROR(checkNumberFits<uint16_t>(
*std::max_element(FileVer.begin(), FileVer.end()), "FILEVERSION fields"));
FixedInfo.FileVersionMS = (FileVer[0] << 16) | FileVer[1];
FixedInfo.FileVersionLS = (FileVer[2] << 16) | FileVer[3];
auto ProdVer = GetField(VersionInfoFixed::FtProductVersion);
RETURN_IF_ERROR(checkNumberFits<uint16_t>(
*std::max_element(ProdVer.begin(), ProdVer.end()),
"PRODUCTVERSION fields"));
FixedInfo.ProductVersionMS = (ProdVer[0] << 16) | ProdVer[1];
FixedInfo.ProductVersionLS = (ProdVer[2] << 16) | ProdVer[3];
FixedInfo.FileFlagsMask = GetField(VersionInfoFixed::FtFileFlagsMask)[0];
FixedInfo.FileFlags = GetField(VersionInfoFixed::FtFileFlags)[0];
FixedInfo.FileOS = GetField(VersionInfoFixed::FtFileOS)[0];
FixedInfo.FileType = GetField(VersionInfoFixed::FtFileType)[0];
FixedInfo.FileSubtype = GetField(VersionInfoFixed::FtFileSubtype)[0];
writeObject(FixedInfo);
padStream(sizeof(uint32_t));
RETURN_IF_ERROR(writeVersionInfoBlock(Res->MainBlock));
// FIXME: check overflow?
writeObjectAt(ulittle16_t(tell() - LengthLoc), LengthLoc);
return Error::success();
}
Expected<std::unique_ptr<MemoryBuffer>>
ResourceFileWriter::loadFile(StringRef File) const {
SmallString<128> Path;
SmallString<128> Cwd;
std::unique_ptr<MemoryBuffer> Result;
// 0. The file path is absolute or has a root directory, so we shouldn't
// try to append it on top of other base directories. (An absolute path
// must have a root directory, but e.g. the path "\dir\file" on windows
// isn't considered absolute, but it does have a root directory. As long as
// sys::path::append doesn't handle appending an absolute path or a path
// starting with a root directory on top of a base, we must handle this
// case separately at the top. C++17's path::append handles that case
// properly though, so if using that to append paths below, this early
// exception case could be removed.)
if (sys::path::has_root_directory(File))
return errorOrToExpected(MemoryBuffer::getFile(
File, /*IsText=*/false, /*RequiresNullTerminator=*/false));
// 1. The current working directory.
sys::fs::current_path(Cwd);
Path.assign(Cwd.begin(), Cwd.end());
sys::path::append(Path, File);
if (sys::fs::exists(Path))
return errorOrToExpected(MemoryBuffer::getFile(
Path, /*IsText=*/false, /*RequiresNullTerminator=*/false));
// 2. The directory of the input resource file, if it is different from the
// current working directory.
StringRef InputFileDir = sys::path::parent_path(Params.InputFilePath);
Path.assign(InputFileDir.begin(), InputFileDir.end());
sys::path::append(Path, File);
if (sys::fs::exists(Path))
return errorOrToExpected(MemoryBuffer::getFile(
Path, /*IsText=*/false, /*RequiresNullTerminator=*/false));
// 3. All of the include directories specified on the command line.
for (StringRef ForceInclude : Params.Include) {
Path.assign(ForceInclude.begin(), ForceInclude.end());
sys::path::append(Path, File);
if (sys::fs::exists(Path))
return errorOrToExpected(MemoryBuffer::getFile(
Path, /*IsText=*/false, /*RequiresNullTerminator=*/false));
}
if (!Params.NoInclude) {
if (auto Result = llvm::sys::Process::FindInEnvPath("INCLUDE", File))
return errorOrToExpected(MemoryBuffer::getFile(
*Result, /*IsText=*/false, /*RequiresNullTerminator=*/false));
}
return make_error<StringError>("error : file not found : " + Twine(File),
inconvertibleErrorCode());
}
} // namespace rc
} // namespace llvm