llvm-project/llvm/lib/TextAPI/TextStub.cpp

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//===- TextStub.cpp -------------------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// Implements the text stub file reader/writer.
//
//===----------------------------------------------------------------------===//
#include "TextAPIContext.h"
#include "TextStubCommon.h"
#include "llvm/ADT/BitmaskEnum.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/SourceMgr.h"
#include "llvm/Support/YAMLTraits.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/TextAPI/Architecture.h"
#include "llvm/TextAPI/ArchitectureSet.h"
#include "llvm/TextAPI/InterfaceFile.h"
#include "llvm/TextAPI/PackedVersion.h"
#include "llvm/TextAPI/TextAPIReader.h"
#include "llvm/TextAPI/TextAPIWriter.h"
#include <algorithm>
#include <set>
// clang-format off
/*
YAML Format specification.
The TBD v1 format only support two level address libraries and is per
definition application extension safe.
--- # the tag !tapi-tbd-v1 is optional and
# shouldn't be emitted to support older linker.
archs: [ armv7, armv7s, arm64 ] # the list of architecture slices that are
# supported by this file.
platform: ios # Specifies the platform (macosx, ios, etc)
install-name: /u/l/libfoo.dylib #
current-version: 1.2.3 # Optional: defaults to 1.0
compatibility-version: 1.0 # Optional: defaults to 1.0
swift-version: 0 # Optional: defaults to 0
objc-constraint: none # Optional: defaults to none
exports: # List of export sections
...
Each export section is defined as following:
- archs: [ arm64 ] # the list of architecture slices
allowed-clients: [ client ] # Optional: List of clients
re-exports: [ ] # Optional: List of re-exports
symbols: [ _sym ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-ivars: [] # Optional: List of Objective C Instance
# Variables
weak-def-symbols: [] # Optional: List of weak defined symbols
thread-local-symbols: [] # Optional: List of thread local symbols
*/
/*
YAML Format specification.
--- !tapi-tbd-v2
archs: [ armv7, armv7s, arm64 ] # the list of architecture slices that are
# supported by this file.
uuids: [ armv7:... ] # Optional: List of architecture and UUID pairs.
platform: ios # Specifies the platform (macosx, ios, etc)
flags: [] # Optional:
install-name: /u/l/libfoo.dylib #
current-version: 1.2.3 # Optional: defaults to 1.0
compatibility-version: 1.0 # Optional: defaults to 1.0
swift-version: 0 # Optional: defaults to 0
objc-constraint: retain_release # Optional: defaults to retain_release
parent-umbrella: # Optional:
exports: # List of export sections
...
undefineds: # List of undefineds sections
...
Each export section is defined as following:
- archs: [ arm64 ] # the list of architecture slices
allowed-clients: [ client ] # Optional: List of clients
re-exports: [ ] # Optional: List of re-exports
symbols: [ _sym ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-ivars: [] # Optional: List of Objective C Instance
# Variables
weak-def-symbols: [] # Optional: List of weak defined symbols
thread-local-symbols: [] # Optional: List of thread local symbols
Each undefineds section is defined as following:
- archs: [ arm64 ] # the list of architecture slices
symbols: [ _sym ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-ivars: [] # Optional: List of Objective C Instance Variables
weak-ref-symbols: [] # Optional: List of weak defined symbols
*/
/*
YAML Format specification.
--- !tapi-tbd-v3
archs: [ armv7, armv7s, arm64 ] # the list of architecture slices that are
# supported by this file.
uuids: [ armv7:... ] # Optional: List of architecture and UUID pairs.
platform: ios # Specifies the platform (macosx, ios, etc)
flags: [] # Optional:
install-name: /u/l/libfoo.dylib #
current-version: 1.2.3 # Optional: defaults to 1.0
compatibility-version: 1.0 # Optional: defaults to 1.0
swift-abi-version: 0 # Optional: defaults to 0
objc-constraint: retain_release # Optional: defaults to retain_release
parent-umbrella: # Optional:
exports: # List of export sections
...
undefineds: # List of undefineds sections
...
Each export section is defined as following:
- archs: [ arm64 ] # the list of architecture slices
allowed-clients: [ client ] # Optional: List of clients
re-exports: [ ] # Optional: List of re-exports
symbols: [ _sym ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-eh-types: [] # Optional: List of Objective-C classes
# with EH
objc-ivars: [] # Optional: List of Objective C Instance
# Variables
weak-def-symbols: [] # Optional: List of weak defined symbols
thread-local-symbols: [] # Optional: List of thread local symbols
Each undefineds section is defined as following:
- archs: [ arm64 ] # the list of architecture slices
symbols: [ _sym ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-eh-types: [] # Optional: List of Objective-C classes
# with EH
objc-ivars: [] # Optional: List of Objective C Instance Variables
weak-ref-symbols: [] # Optional: List of weak defined symbols
*/
/*
YAML Format specification.
--- !tapi-tbd
tbd-version: 4 # The tbd version for format
targets: [ armv7-ios, x86_64-maccatalyst ] # The list of applicable tapi supported target triples
uuids: # Optional: List of target and UUID pairs.
- target: armv7-ios
value: ...
- target: x86_64-maccatalyst
value: ...
flags: [] # Optional:
install-name: /u/l/libfoo.dylib #
current-version: 1.2.3 # Optional: defaults to 1.0
compatibility-version: 1.0 # Optional: defaults to 1.0
swift-abi-version: 0 # Optional: defaults to 0
parent-umbrella: # Optional:
allowable-clients:
- targets: [ armv7-ios ] # Optional:
clients: [ clientA ]
exports: # List of export sections
...
re-exports: # List of reexport sections
...
undefineds: # List of undefineds sections
...
Each export and reexport section is defined as following:
- targets: [ arm64-macos ] # The list of target triples associated with symbols
symbols: [ _symA ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-eh-types: [] # Optional: List of Objective-C classes
# with EH
objc-ivars: [] # Optional: List of Objective C Instance
# Variables
weak-symbols: [] # Optional: List of weak defined symbols
thread-local-symbols: [] # Optional: List of thread local symbols
- targets: [ arm64-macos, x86_64-maccatalyst ] # Optional: Targets for applicable additional symbols
symbols: [ _symB ] # Optional: List of symbols
Each undefineds section is defined as following:
- targets: [ arm64-macos ] # The list of target triples associated with symbols
symbols: [ _symC ] # Optional: List of symbols
objc-classes: [] # Optional: List of Objective-C classes
objc-eh-types: [] # Optional: List of Objective-C classes
# with EH
objc-ivars: [] # Optional: List of Objective C Instance Variables
weak-symbols: [] # Optional: List of weak defined symbols
*/
// clang-format on
using namespace llvm;
using namespace llvm::yaml;
using namespace llvm::MachO;
namespace {
struct ExportSection {
std::vector<Architecture> Architectures;
std::vector<FlowStringRef> AllowableClients;
std::vector<FlowStringRef> ReexportedLibraries;
std::vector<FlowStringRef> Symbols;
std::vector<FlowStringRef> Classes;
std::vector<FlowStringRef> ClassEHs;
std::vector<FlowStringRef> IVars;
std::vector<FlowStringRef> WeakDefSymbols;
std::vector<FlowStringRef> TLVSymbols;
};
struct UndefinedSection {
std::vector<Architecture> Architectures;
std::vector<FlowStringRef> Symbols;
std::vector<FlowStringRef> Classes;
std::vector<FlowStringRef> ClassEHs;
std::vector<FlowStringRef> IVars;
std::vector<FlowStringRef> WeakRefSymbols;
};
// Sections for direct target mapping in TBDv4
struct SymbolSection {
TargetList Targets;
std::vector<FlowStringRef> Symbols;
std::vector<FlowStringRef> Classes;
std::vector<FlowStringRef> ClassEHs;
std::vector<FlowStringRef> Ivars;
std::vector<FlowStringRef> WeakSymbols;
std::vector<FlowStringRef> TlvSymbols;
};
struct MetadataSection {
enum Option { Clients, Libraries };
std::vector<Target> Targets;
std::vector<FlowStringRef> Values;
};
struct UmbrellaSection {
std::vector<Target> Targets;
std::string Umbrella;
};
// UUID's for TBDv4 are mapped to target not arch
struct UUIDv4 {
Target TargetID;
std::string Value;
UUIDv4() = default;
UUIDv4(const Target &TargetID, const std::string &Value)
: TargetID(TargetID), Value(Value) {}
};
// clang-format off
enum TBDFlags : unsigned {
None = 0U,
FlatNamespace = 1U << 0,
NotApplicationExtensionSafe = 1U << 1,
InstallAPI = 1U << 2,
LLVM_MARK_AS_BITMASK_ENUM(/*LargestValue=*/InstallAPI),
};
// clang-format on
} // end anonymous namespace.
LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(Architecture)
LLVM_YAML_IS_SEQUENCE_VECTOR(ExportSection)
LLVM_YAML_IS_SEQUENCE_VECTOR(UndefinedSection)
// Specific to TBDv4
LLVM_YAML_IS_SEQUENCE_VECTOR(SymbolSection)
LLVM_YAML_IS_SEQUENCE_VECTOR(MetadataSection)
LLVM_YAML_IS_SEQUENCE_VECTOR(UmbrellaSection)
LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(Target)
LLVM_YAML_IS_SEQUENCE_VECTOR(UUIDv4)
namespace llvm {
namespace yaml {
template <> struct MappingTraits<ExportSection> {
static void mapping(IO &IO, ExportSection &Section) {
const auto *Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert((!Ctx || (Ctx && Ctx->FileKind != FileType::Invalid)) &&
"File type is not set in YAML context");
IO.mapRequired("archs", Section.Architectures);
if (Ctx->FileKind == FileType::TBD_V1)
IO.mapOptional("allowed-clients", Section.AllowableClients);
else
IO.mapOptional("allowable-clients", Section.AllowableClients);
IO.mapOptional("re-exports", Section.ReexportedLibraries);
IO.mapOptional("symbols", Section.Symbols);
IO.mapOptional("objc-classes", Section.Classes);
if (Ctx->FileKind == FileType::TBD_V3)
IO.mapOptional("objc-eh-types", Section.ClassEHs);
IO.mapOptional("objc-ivars", Section.IVars);
IO.mapOptional("weak-def-symbols", Section.WeakDefSymbols);
IO.mapOptional("thread-local-symbols", Section.TLVSymbols);
}
};
template <> struct MappingTraits<UndefinedSection> {
static void mapping(IO &IO, UndefinedSection &Section) {
const auto *Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert((!Ctx || (Ctx && Ctx->FileKind != FileType::Invalid)) &&
"File type is not set in YAML context");
IO.mapRequired("archs", Section.Architectures);
IO.mapOptional("symbols", Section.Symbols);
IO.mapOptional("objc-classes", Section.Classes);
if (Ctx->FileKind == FileType::TBD_V3)
IO.mapOptional("objc-eh-types", Section.ClassEHs);
IO.mapOptional("objc-ivars", Section.IVars);
IO.mapOptional("weak-ref-symbols", Section.WeakRefSymbols);
}
};
template <> struct MappingTraits<SymbolSection> {
static void mapping(IO &IO, SymbolSection &Section) {
IO.mapRequired("targets", Section.Targets);
IO.mapOptional("symbols", Section.Symbols);
IO.mapOptional("objc-classes", Section.Classes);
IO.mapOptional("objc-eh-types", Section.ClassEHs);
IO.mapOptional("objc-ivars", Section.Ivars);
IO.mapOptional("weak-symbols", Section.WeakSymbols);
IO.mapOptional("thread-local-symbols", Section.TlvSymbols);
}
};
template <> struct MappingTraits<UmbrellaSection> {
static void mapping(IO &IO, UmbrellaSection &Section) {
IO.mapRequired("targets", Section.Targets);
IO.mapRequired("umbrella", Section.Umbrella);
}
};
template <> struct MappingTraits<UUIDv4> {
static void mapping(IO &IO, UUIDv4 &UUID) {
IO.mapRequired("target", UUID.TargetID);
IO.mapRequired("value", UUID.Value);
}
};
template <>
struct MappingContextTraits<MetadataSection, MetadataSection::Option> {
static void mapping(IO &IO, MetadataSection &Section,
MetadataSection::Option &OptionKind) {
IO.mapRequired("targets", Section.Targets);
switch (OptionKind) {
case MetadataSection::Option::Clients:
IO.mapRequired("clients", Section.Values);
return;
case MetadataSection::Option::Libraries:
IO.mapRequired("libraries", Section.Values);
return;
}
llvm_unreachable("unexpected option for metadata");
}
};
template <> struct ScalarBitSetTraits<TBDFlags> {
static void bitset(IO &IO, TBDFlags &Flags) {
IO.bitSetCase(Flags, "flat_namespace", TBDFlags::FlatNamespace);
IO.bitSetCase(Flags, "not_app_extension_safe",
TBDFlags::NotApplicationExtensionSafe);
IO.bitSetCase(Flags, "installapi", TBDFlags::InstallAPI);
}
};
template <> struct ScalarTraits<Target> {
static void output(const Target &Value, void *, raw_ostream &OS) {
OS << Value.Arch << "-";
switch (Value.Platform) {
default:
OS << "unknown";
break;
case PlatformKind::macOS:
OS << "macos";
break;
case PlatformKind::iOS:
OS << "ios";
break;
case PlatformKind::tvOS:
OS << "tvos";
break;
case PlatformKind::watchOS:
OS << "watchos";
break;
case PlatformKind::bridgeOS:
OS << "bridgeos";
break;
case PlatformKind::macCatalyst:
OS << "maccatalyst";
break;
case PlatformKind::iOSSimulator:
OS << "ios-simulator";
break;
case PlatformKind::tvOSSimulator:
OS << "tvos-simulator";
break;
case PlatformKind::watchOSSimulator:
OS << "watchos-simulator";
break;
case PlatformKind::driverKit:
OS << "driverkit";
break;
}
}
static StringRef input(StringRef Scalar, void *, Target &Value) {
auto Result = Target::create(Scalar);
if (!Result) {
consumeError(Result.takeError());
return "unparsable target";
}
Value = *Result;
if (Value.Arch == AK_unknown)
return "unknown architecture";
if (Value.Platform == PlatformKind::unknown)
return "unknown platform";
return {};
}
static QuotingType mustQuote(StringRef) { return QuotingType::None; }
};
template <> struct MappingTraits<const InterfaceFile *> {
struct NormalizedTBD {
explicit NormalizedTBD(IO &IO) {}
NormalizedTBD(IO &IO, const InterfaceFile *&File) {
Architectures = File->getArchitectures();
UUIDs = File->uuids();
Platforms = File->getPlatforms();
InstallName = File->getInstallName();
CurrentVersion = PackedVersion(File->getCurrentVersion());
CompatibilityVersion = PackedVersion(File->getCompatibilityVersion());
SwiftABIVersion = File->getSwiftABIVersion();
ObjCConstraint = File->getObjCConstraint();
Flags = TBDFlags::None;
if (!File->isApplicationExtensionSafe())
Flags |= TBDFlags::NotApplicationExtensionSafe;
if (!File->isTwoLevelNamespace())
Flags |= TBDFlags::FlatNamespace;
if (File->isInstallAPI())
Flags |= TBDFlags::InstallAPI;
if (!File->umbrellas().empty())
ParentUmbrella = File->umbrellas().begin()->second;
std::set<ArchitectureSet> ArchSet;
for (const auto &Library : File->allowableClients())
ArchSet.insert(Library.getArchitectures());
for (const auto &Library : File->reexportedLibraries())
ArchSet.insert(Library.getArchitectures());
std::map<const Symbol *, ArchitectureSet> SymbolToArchSet;
for (const auto *Symbol : File->exports()) {
auto Architectures = Symbol->getArchitectures();
SymbolToArchSet[Symbol] = Architectures;
ArchSet.insert(Architectures);
}
for (auto Architectures : ArchSet) {
ExportSection Section;
Section.Architectures = Architectures;
for (const auto &Library : File->allowableClients())
if (Library.getArchitectures() == Architectures)
Section.AllowableClients.emplace_back(Library.getInstallName());
for (const auto &Library : File->reexportedLibraries())
if (Library.getArchitectures() == Architectures)
Section.ReexportedLibraries.emplace_back(Library.getInstallName());
for (const auto &SymArch : SymbolToArchSet) {
if (SymArch.second != Architectures)
continue;
const auto *Symbol = SymArch.first;
switch (Symbol->getKind()) {
case SymbolKind::GlobalSymbol:
if (Symbol->isWeakDefined())
Section.WeakDefSymbols.emplace_back(Symbol->getName());
else if (Symbol->isThreadLocalValue())
Section.TLVSymbols.emplace_back(Symbol->getName());
else
Section.Symbols.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClass:
if (File->getFileType() != FileType::TBD_V3)
Section.Classes.emplace_back(
copyString("_" + Symbol->getName().str()));
else
Section.Classes.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClassEHType:
if (File->getFileType() != FileType::TBD_V3)
Section.Symbols.emplace_back(
copyString("_OBJC_EHTYPE_$_" + Symbol->getName().str()));
else
Section.ClassEHs.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCInstanceVariable:
if (File->getFileType() != FileType::TBD_V3)
Section.IVars.emplace_back(
copyString("_" + Symbol->getName().str()));
else
Section.IVars.emplace_back(Symbol->getName());
break;
}
}
2021-01-18 02:39:45 +08:00
llvm::sort(Section.Symbols);
llvm::sort(Section.Classes);
llvm::sort(Section.ClassEHs);
llvm::sort(Section.IVars);
llvm::sort(Section.WeakDefSymbols);
llvm::sort(Section.TLVSymbols);
Exports.emplace_back(std::move(Section));
}
ArchSet.clear();
SymbolToArchSet.clear();
for (const auto *Symbol : File->undefineds()) {
auto Architectures = Symbol->getArchitectures();
SymbolToArchSet[Symbol] = Architectures;
ArchSet.insert(Architectures);
}
for (auto Architectures : ArchSet) {
UndefinedSection Section;
Section.Architectures = Architectures;
for (const auto &SymArch : SymbolToArchSet) {
if (SymArch.second != Architectures)
continue;
const auto *Symbol = SymArch.first;
switch (Symbol->getKind()) {
case SymbolKind::GlobalSymbol:
if (Symbol->isWeakReferenced())
Section.WeakRefSymbols.emplace_back(Symbol->getName());
else
Section.Symbols.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClass:
if (File->getFileType() != FileType::TBD_V3)
Section.Classes.emplace_back(
copyString("_" + Symbol->getName().str()));
else
Section.Classes.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClassEHType:
if (File->getFileType() != FileType::TBD_V3)
Section.Symbols.emplace_back(
copyString("_OBJC_EHTYPE_$_" + Symbol->getName().str()));
else
Section.ClassEHs.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCInstanceVariable:
if (File->getFileType() != FileType::TBD_V3)
Section.IVars.emplace_back(
copyString("_" + Symbol->getName().str()));
else
Section.IVars.emplace_back(Symbol->getName());
break;
}
}
2021-01-18 02:39:45 +08:00
llvm::sort(Section.Symbols);
llvm::sort(Section.Classes);
llvm::sort(Section.ClassEHs);
llvm::sort(Section.IVars);
llvm::sort(Section.WeakRefSymbols);
Undefineds.emplace_back(std::move(Section));
}
}
// TBD v1 - TBD v3 files only support one platform and several
// architectures. It is possible to have more than one platform for TBD v3
// files, but the architectures don't apply to all
// platforms, specifically to filter out the i386 slice from
// platform macCatalyst.
TargetList synthesizeTargets(ArchitectureSet Architectures,
const PlatformSet &Platforms) {
TargetList Targets;
for (auto Platform : Platforms) {
Platform = mapToPlatformKind(Platform, Architectures.hasX86());
for (const auto &&Architecture : Architectures) {
if ((Architecture == AK_i386) &&
(Platform == PlatformKind::macCatalyst))
continue;
Targets.emplace_back(Architecture, Platform);
}
}
return Targets;
}
const InterfaceFile *denormalize(IO &IO) {
auto Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert(Ctx);
auto *File = new InterfaceFile;
File->setPath(Ctx->Path);
File->setFileType(Ctx->FileKind);
File->addTargets(synthesizeTargets(Architectures, Platforms));
for (auto &ID : UUIDs)
File->addUUID(ID.first, ID.second);
File->setInstallName(InstallName);
File->setCurrentVersion(CurrentVersion);
File->setCompatibilityVersion(CompatibilityVersion);
File->setSwiftABIVersion(SwiftABIVersion);
File->setObjCConstraint(ObjCConstraint);
for (const auto &Target : File->targets())
File->addParentUmbrella(Target, ParentUmbrella);
if (Ctx->FileKind == FileType::TBD_V1) {
File->setTwoLevelNamespace();
File->setApplicationExtensionSafe();
} else {
File->setTwoLevelNamespace(!(Flags & TBDFlags::FlatNamespace));
File->setApplicationExtensionSafe(
!(Flags & TBDFlags::NotApplicationExtensionSafe));
File->setInstallAPI(Flags & TBDFlags::InstallAPI);
}
for (const auto &Section : Exports) {
const auto Targets =
synthesizeTargets(Section.Architectures, Platforms);
for (const auto &Lib : Section.AllowableClients)
for (const auto &Target : Targets)
File->addAllowableClient(Lib, Target);
for (const auto &Lib : Section.ReexportedLibraries)
for (const auto &Target : Targets)
File->addReexportedLibrary(Lib, Target);
for (const auto &Symbol : Section.Symbols) {
if (Ctx->FileKind != FileType::TBD_V3 &&
Symbol.value.startswith("_OBJC_EHTYPE_$_"))
File->addSymbol(SymbolKind::ObjectiveCClassEHType,
Symbol.value.drop_front(15), Targets);
else
File->addSymbol(SymbolKind::GlobalSymbol, Symbol, Targets);
}
for (auto &Symbol : Section.Classes) {
auto Name = Symbol.value;
if (Ctx->FileKind != FileType::TBD_V3)
Name = Name.drop_front();
File->addSymbol(SymbolKind::ObjectiveCClass, Name, Targets);
}
for (auto &Symbol : Section.ClassEHs)
File->addSymbol(SymbolKind::ObjectiveCClassEHType, Symbol, Targets);
for (auto &Symbol : Section.IVars) {
auto Name = Symbol.value;
if (Ctx->FileKind != FileType::TBD_V3)
Name = Name.drop_front();
File->addSymbol(SymbolKind::ObjectiveCInstanceVariable, Name,
Targets);
}
for (auto &Symbol : Section.WeakDefSymbols)
File->addSymbol(SymbolKind::GlobalSymbol, Symbol, Targets,
SymbolFlags::WeakDefined);
for (auto &Symbol : Section.TLVSymbols)
File->addSymbol(SymbolKind::GlobalSymbol, Symbol, Targets,
SymbolFlags::ThreadLocalValue);
}
for (const auto &Section : Undefineds) {
const auto Targets =
synthesizeTargets(Section.Architectures, Platforms);
for (auto &Symbol : Section.Symbols) {
if (Ctx->FileKind != FileType::TBD_V3 &&
Symbol.value.startswith("_OBJC_EHTYPE_$_"))
File->addSymbol(SymbolKind::ObjectiveCClassEHType,
Symbol.value.drop_front(15), Targets,
SymbolFlags::Undefined);
else
File->addSymbol(SymbolKind::GlobalSymbol, Symbol, Targets,
SymbolFlags::Undefined);
}
for (auto &Symbol : Section.Classes) {
auto Name = Symbol.value;
if (Ctx->FileKind != FileType::TBD_V3)
Name = Name.drop_front();
File->addSymbol(SymbolKind::ObjectiveCClass, Name, Targets,
SymbolFlags::Undefined);
}
for (auto &Symbol : Section.ClassEHs)
File->addSymbol(SymbolKind::ObjectiveCClassEHType, Symbol, Targets,
SymbolFlags::Undefined);
for (auto &Symbol : Section.IVars) {
auto Name = Symbol.value;
if (Ctx->FileKind != FileType::TBD_V3)
Name = Name.drop_front();
File->addSymbol(SymbolKind::ObjectiveCInstanceVariable, Name, Targets,
SymbolFlags::Undefined);
}
for (auto &Symbol : Section.WeakRefSymbols)
File->addSymbol(SymbolKind::GlobalSymbol, Symbol, Targets,
SymbolFlags::Undefined | SymbolFlags::WeakReferenced);
}
return File;
}
llvm::BumpPtrAllocator Allocator;
StringRef copyString(StringRef String) {
if (String.empty())
return {};
void *Ptr = Allocator.Allocate(String.size(), 1);
memcpy(Ptr, String.data(), String.size());
return StringRef(reinterpret_cast<const char *>(Ptr), String.size());
}
std::vector<Architecture> Architectures;
std::vector<UUID> UUIDs;
PlatformSet Platforms;
StringRef InstallName;
PackedVersion CurrentVersion;
PackedVersion CompatibilityVersion;
SwiftVersion SwiftABIVersion{0};
ObjCConstraintType ObjCConstraint{ObjCConstraintType::None};
TBDFlags Flags{TBDFlags::None};
StringRef ParentUmbrella;
std::vector<ExportSection> Exports;
std::vector<UndefinedSection> Undefineds;
};
static void setFileTypeForInput(TextAPIContext *Ctx, IO &IO) {
if (IO.mapTag("!tapi-tbd", false))
Ctx->FileKind = FileType::TBD_V4;
else if (IO.mapTag("!tapi-tbd-v3", false))
Ctx->FileKind = FileType::TBD_V3;
else if (IO.mapTag("!tapi-tbd-v2", false))
Ctx->FileKind = FileType::TBD_V2;
else if (IO.mapTag("!tapi-tbd-v1", false) ||
IO.mapTag("tag:yaml.org,2002:map", false))
Ctx->FileKind = FileType::TBD_V1;
else {
Ctx->FileKind = FileType::Invalid;
return;
}
}
static void mapping(IO &IO, const InterfaceFile *&File) {
auto *Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert((!Ctx || !IO.outputting() ||
(Ctx && Ctx->FileKind != FileType::Invalid)) &&
"File type is not set in YAML context");
if (!IO.outputting()) {
setFileTypeForInput(Ctx, IO);
switch (Ctx->FileKind) {
default:
break;
case FileType::TBD_V4:
mapKeysToValuesV4(IO, File);
return;
case FileType::Invalid:
IO.setError("unsupported file type");
return;
}
} else {
// Set file type when writing.
switch (Ctx->FileKind) {
default:
llvm_unreachable("unexpected file type");
case FileType::TBD_V4:
mapKeysToValuesV4(IO, File);
return;
case FileType::TBD_V3:
IO.mapTag("!tapi-tbd-v3", true);
break;
case FileType::TBD_V2:
IO.mapTag("!tapi-tbd-v2", true);
break;
case FileType::TBD_V1:
// Don't write the tag into the .tbd file for TBD v1
break;
}
}
mapKeysToValues(Ctx->FileKind, IO, File);
}
using SectionList = std::vector<SymbolSection>;
struct NormalizedTBD_V4 {
explicit NormalizedTBD_V4(IO &IO) {}
NormalizedTBD_V4(IO &IO, const InterfaceFile *&File) {
auto Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert(Ctx);
TBDVersion = Ctx->FileKind >> 1;
Targets.insert(Targets.begin(), File->targets().begin(),
File->targets().end());
for (const auto &IT : File->uuids())
UUIDs.emplace_back(IT.first, IT.second);
InstallName = File->getInstallName();
CurrentVersion = File->getCurrentVersion();
CompatibilityVersion = File->getCompatibilityVersion();
SwiftABIVersion = File->getSwiftABIVersion();
Flags = TBDFlags::None;
if (!File->isApplicationExtensionSafe())
Flags |= TBDFlags::NotApplicationExtensionSafe;
if (!File->isTwoLevelNamespace())
Flags |= TBDFlags::FlatNamespace;
if (File->isInstallAPI())
Flags |= TBDFlags::InstallAPI;
{
std::map<std::string, TargetList> valueToTargetList;
for (const auto &it : File->umbrellas())
valueToTargetList[it.second].emplace_back(it.first);
for (const auto &it : valueToTargetList) {
UmbrellaSection CurrentSection;
CurrentSection.Targets.insert(CurrentSection.Targets.begin(),
it.second.begin(), it.second.end());
CurrentSection.Umbrella = it.first;
ParentUmbrellas.emplace_back(std::move(CurrentSection));
}
}
assignTargetsToLibrary(File->allowableClients(), AllowableClients);
assignTargetsToLibrary(File->reexportedLibraries(), ReexportedLibraries);
auto handleSymbols =
[](SectionList &CurrentSections,
InterfaceFile::const_filtered_symbol_range Symbols,
std::function<bool(const Symbol *)> Pred) {
std::set<TargetList> TargetSet;
std::map<const Symbol *, TargetList> SymbolToTargetList;
for (const auto *Symbol : Symbols) {
if (!Pred(Symbol))
continue;
TargetList Targets(Symbol->targets());
SymbolToTargetList[Symbol] = Targets;
TargetSet.emplace(std::move(Targets));
}
for (const auto &TargetIDs : TargetSet) {
SymbolSection CurrentSection;
CurrentSection.Targets.insert(CurrentSection.Targets.begin(),
TargetIDs.begin(), TargetIDs.end());
for (const auto &IT : SymbolToTargetList) {
if (IT.second != TargetIDs)
continue;
const auto *Symbol = IT.first;
switch (Symbol->getKind()) {
case SymbolKind::GlobalSymbol:
if (Symbol->isWeakDefined())
CurrentSection.WeakSymbols.emplace_back(Symbol->getName());
else if (Symbol->isThreadLocalValue())
CurrentSection.TlvSymbols.emplace_back(Symbol->getName());
else
CurrentSection.Symbols.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClass:
CurrentSection.Classes.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCClassEHType:
CurrentSection.ClassEHs.emplace_back(Symbol->getName());
break;
case SymbolKind::ObjectiveCInstanceVariable:
CurrentSection.Ivars.emplace_back(Symbol->getName());
break;
}
}
sort(CurrentSection.Symbols);
sort(CurrentSection.Classes);
sort(CurrentSection.ClassEHs);
sort(CurrentSection.Ivars);
sort(CurrentSection.WeakSymbols);
sort(CurrentSection.TlvSymbols);
CurrentSections.emplace_back(std::move(CurrentSection));
}
};
handleSymbols(Exports, File->exports(), [](const Symbol *Symbol) {
return !Symbol->isReexported();
});
handleSymbols(Reexports, File->exports(), [](const Symbol *Symbol) {
return Symbol->isReexported();
});
handleSymbols(Undefineds, File->undefineds(),
[](const Symbol *Symbol) { return true; });
}
const InterfaceFile *denormalize(IO &IO) {
auto Ctx = reinterpret_cast<TextAPIContext *>(IO.getContext());
assert(Ctx);
auto *File = new InterfaceFile;
File->setPath(Ctx->Path);
File->setFileType(Ctx->FileKind);
for (auto &id : UUIDs)
File->addUUID(id.TargetID, id.Value);
File->addTargets(Targets);
File->setInstallName(InstallName);
File->setCurrentVersion(CurrentVersion);
File->setCompatibilityVersion(CompatibilityVersion);
File->setSwiftABIVersion(SwiftABIVersion);
for (const auto &CurrentSection : ParentUmbrellas)
for (const auto &target : CurrentSection.Targets)
File->addParentUmbrella(target, CurrentSection.Umbrella);
File->setTwoLevelNamespace(!(Flags & TBDFlags::FlatNamespace));
File->setApplicationExtensionSafe(
!(Flags & TBDFlags::NotApplicationExtensionSafe));
File->setInstallAPI(Flags & TBDFlags::InstallAPI);
for (const auto &CurrentSection : AllowableClients) {
for (const auto &lib : CurrentSection.Values)
for (const auto &Target : CurrentSection.Targets)
File->addAllowableClient(lib, Target);
}
for (const auto &CurrentSection : ReexportedLibraries) {
for (const auto &Lib : CurrentSection.Values)
for (const auto &Target : CurrentSection.Targets)
File->addReexportedLibrary(Lib, Target);
}
auto handleSymbols = [File](const SectionList &CurrentSections,
SymbolFlags Flag = SymbolFlags::None) {
for (const auto &CurrentSection : CurrentSections) {
for (auto &sym : CurrentSection.Symbols)
File->addSymbol(SymbolKind::GlobalSymbol, sym,
CurrentSection.Targets, Flag);
for (auto &sym : CurrentSection.Classes)
File->addSymbol(SymbolKind::ObjectiveCClass, sym,
CurrentSection.Targets);
for (auto &sym : CurrentSection.ClassEHs)
File->addSymbol(SymbolKind::ObjectiveCClassEHType, sym,
CurrentSection.Targets);
for (auto &sym : CurrentSection.Ivars)
File->addSymbol(SymbolKind::ObjectiveCInstanceVariable, sym,
CurrentSection.Targets);
for (auto &sym : CurrentSection.WeakSymbols)
File->addSymbol(SymbolKind::GlobalSymbol, sym,
CurrentSection.Targets, SymbolFlags::WeakDefined);
for (auto &sym : CurrentSection.TlvSymbols)
File->addSymbol(SymbolKind::GlobalSymbol, sym,
CurrentSection.Targets,
SymbolFlags::ThreadLocalValue);
}
};
handleSymbols(Exports);
handleSymbols(Reexports, SymbolFlags::Rexported);
handleSymbols(Undefineds, SymbolFlags::Undefined);
return File;
}
unsigned TBDVersion;
std::vector<UUIDv4> UUIDs;
TargetList Targets;
StringRef InstallName;
PackedVersion CurrentVersion;
PackedVersion CompatibilityVersion;
SwiftVersion SwiftABIVersion{0};
std::vector<MetadataSection> AllowableClients;
std::vector<MetadataSection> ReexportedLibraries;
TBDFlags Flags{TBDFlags::None};
std::vector<UmbrellaSection> ParentUmbrellas;
SectionList Exports;
SectionList Reexports;
SectionList Undefineds;
private:
void assignTargetsToLibrary(const std::vector<InterfaceFileRef> &Libraries,
std::vector<MetadataSection> &Section) {
std::set<TargetList> targetSet;
std::map<const InterfaceFileRef *, TargetList> valueToTargetList;
for (const auto &library : Libraries) {
TargetList targets(library.targets());
valueToTargetList[&library] = targets;
targetSet.emplace(std::move(targets));
}
for (const auto &targets : targetSet) {
MetadataSection CurrentSection;
CurrentSection.Targets.insert(CurrentSection.Targets.begin(),
targets.begin(), targets.end());
for (const auto &it : valueToTargetList) {
if (it.second != targets)
continue;
CurrentSection.Values.emplace_back(it.first->getInstallName());
}
llvm::sort(CurrentSection.Values);
Section.emplace_back(std::move(CurrentSection));
}
}
};
static void mapKeysToValues(FileType FileKind, IO &IO,
const InterfaceFile *&File) {
MappingNormalization<NormalizedTBD, const InterfaceFile *> Keys(IO, File);
IO.mapRequired("archs", Keys->Architectures);
if (FileKind != FileType::TBD_V1)
IO.mapOptional("uuids", Keys->UUIDs);
IO.mapRequired("platform", Keys->Platforms);
if (FileKind != FileType::TBD_V1)
IO.mapOptional("flags", Keys->Flags, TBDFlags::None);
IO.mapRequired("install-name", Keys->InstallName);
IO.mapOptional("current-version", Keys->CurrentVersion,
PackedVersion(1, 0, 0));
IO.mapOptional("compatibility-version", Keys->CompatibilityVersion,
PackedVersion(1, 0, 0));
if (FileKind != FileType::TBD_V3)
IO.mapOptional("swift-version", Keys->SwiftABIVersion, SwiftVersion(0));
else
IO.mapOptional("swift-abi-version", Keys->SwiftABIVersion,
SwiftVersion(0));
IO.mapOptional("objc-constraint", Keys->ObjCConstraint,
(FileKind == FileType::TBD_V1)
? ObjCConstraintType::None
: ObjCConstraintType::Retain_Release);
if (FileKind != FileType::TBD_V1)
IO.mapOptional("parent-umbrella", Keys->ParentUmbrella, StringRef());
IO.mapOptional("exports", Keys->Exports);
if (FileKind != FileType::TBD_V1)
IO.mapOptional("undefineds", Keys->Undefineds);
}
static void mapKeysToValuesV4(IO &IO, const InterfaceFile *&File) {
MappingNormalization<NormalizedTBD_V4, const InterfaceFile *> Keys(IO,
File);
IO.mapTag("!tapi-tbd", true);
IO.mapRequired("tbd-version", Keys->TBDVersion);
IO.mapRequired("targets", Keys->Targets);
IO.mapOptional("uuids", Keys->UUIDs);
IO.mapOptional("flags", Keys->Flags, TBDFlags::None);
IO.mapRequired("install-name", Keys->InstallName);
IO.mapOptional("current-version", Keys->CurrentVersion,
PackedVersion(1, 0, 0));
IO.mapOptional("compatibility-version", Keys->CompatibilityVersion,
PackedVersion(1, 0, 0));
IO.mapOptional("swift-abi-version", Keys->SwiftABIVersion, SwiftVersion(0));
IO.mapOptional("parent-umbrella", Keys->ParentUmbrellas);
auto OptionKind = MetadataSection::Option::Clients;
IO.mapOptionalWithContext("allowable-clients", Keys->AllowableClients,
OptionKind);
OptionKind = MetadataSection::Option::Libraries;
IO.mapOptionalWithContext("reexported-libraries", Keys->ReexportedLibraries,
OptionKind);
IO.mapOptional("exports", Keys->Exports);
IO.mapOptional("reexports", Keys->Reexports);
IO.mapOptional("undefineds", Keys->Undefineds);
}
};
template <>
struct DocumentListTraits<std::vector<const MachO::InterfaceFile *>> {
static size_t size(IO &IO, std::vector<const MachO::InterfaceFile *> &Seq) {
return Seq.size();
}
static const InterfaceFile *&
element(IO &IO, std::vector<const InterfaceFile *> &Seq, size_t Index) {
if (Index >= Seq.size())
Seq.resize(Index + 1);
return Seq[Index];
}
};
} // end namespace yaml.
} // namespace llvm
static void DiagHandler(const SMDiagnostic &Diag, void *Context) {
auto *File = static_cast<TextAPIContext *>(Context);
SmallString<1024> Message;
raw_svector_ostream S(Message);
SMDiagnostic NewDiag(*Diag.getSourceMgr(), Diag.getLoc(), File->Path,
Diag.getLineNo(), Diag.getColumnNo(), Diag.getKind(),
Diag.getMessage(), Diag.getLineContents(),
Diag.getRanges(), Diag.getFixIts());
NewDiag.print(nullptr, S);
File->ErrorMessage = ("malformed file\n" + Message).str();
}
Expected<std::unique_ptr<InterfaceFile>>
TextAPIReader::get(MemoryBufferRef InputBuffer) {
TextAPIContext Ctx;
Ctx.Path = std::string(InputBuffer.getBufferIdentifier());
yaml::Input YAMLIn(InputBuffer.getBuffer(), &Ctx, DiagHandler, &Ctx);
// Fill vector with interface file objects created by parsing the YAML file.
std::vector<const InterfaceFile *> Files;
YAMLIn >> Files;
// YAMLIn dynamically allocates for Interface file and in case of error,
// memory leak will occur unless wrapped around unique_ptr
auto File = std::unique_ptr<InterfaceFile>(
const_cast<InterfaceFile *>(Files.front()));
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for (const InterfaceFile *FI : llvm::drop_begin(Files))
File->addDocument(
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std::shared_ptr<InterfaceFile>(const_cast<InterfaceFile *>(FI)));
if (YAMLIn.error())
return make_error<StringError>(Ctx.ErrorMessage, YAMLIn.error());
return std::move(File);
}
Error TextAPIWriter::writeToStream(raw_ostream &OS, const InterfaceFile &File) {
TextAPIContext Ctx;
Ctx.Path = std::string(File.getPath());
Ctx.FileKind = File.getFileType();
llvm::yaml::Output YAMLOut(OS, &Ctx, /*WrapColumn=*/80);
std::vector<const InterfaceFile *> Files;
Files.emplace_back(&File);
for (auto Document : File.documents())
Files.emplace_back(Document.get());
// Stream out yaml.
YAMLOut << Files;
return Error::success();
}