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bbf189c8abc5a7b8e937a1a39b2564e7be24c11b
swift-mirror/lib/Serialization/ModuleDependencyScanner.cpp
Allan Shortlidge bbf189c8ab AST: Make the versioned variants of #if canImport() more reliable and consistent. 
Previously, when evaluating a `#if canImport(Module, _version: 42)` directive the compiler could diagnose and ignore the directive under the following conditions:

- The associated binary module is corrupt/bogus.
- The .tbd for an underlying Clang module is missing a current-version field.

This behavior is surprising when there is a valid `.swiftinterface` available and it only becomes apparent when building against an SDK with an old enough version of the module that the version in the `.swiftinterface` is too low, making this failure easy to miss. Some modules have different versioning systems for their Swift and Clang modules and it can also be intentional for a distributed binary `.swiftmodule` to contain bogus data (to force the compiler to recompile the `.swiftinterface`) so we need to handle both of these cases gracefully and predictably.

Now the compiler will enumerate all module loaders, ask each of them to attempt to parse the module version and then consistently use the parsed version from a single source. The `.swiftinterface` is preferred if present, then the binary module if present, and then finally the `.tbd`. The `.tbd` is still always used exclusively for the `_underlyingVersion` variant of `canImport()`.

Resolves rdar://88723492
2022-09-07 14:18:05 -07:00

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//===--- ModuleDependencyScanner.cpp - Compute module dependencies --------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
#include "swift/AST/ASTContext.h"
#include "swift/AST/DiagnosticSuppression.h"
#include "swift/AST/DiagnosticsFrontend.h"
#include "swift/AST/ModuleDependencies.h"
#include "swift/AST/SourceFile.h"
#include "swift/AST/TypeCheckRequests.h"
#include "swift/Basic/FileTypes.h"
#include "swift/Frontend/ModuleInterfaceLoader.h"
#include "swift/Serialization/SerializedModuleLoader.h"
#include "swift/Serialization/ModuleDependencyScanner.h"
#include "swift/Subsystems.h"
using namespace swift;
using llvm::ErrorOr;
std::error_code ModuleDependencyScanner::findModuleFilesInDirectory(
ImportPath::Element ModuleID,
const SerializedModuleBaseName &BaseName,
SmallVectorImpl<char> *ModuleInterfacePath,
std::unique_ptr<llvm::MemoryBuffer> *ModuleBuffer,
std::unique_ptr<llvm::MemoryBuffer> *ModuleDocBuffer,
std::unique_ptr<llvm::MemoryBuffer> *ModuleSourceInfoBuffer,
bool skipBuildingInterface, bool IsFramework) {
using namespace llvm::sys;
auto &fs = *Ctx.SourceMgr.getFileSystem();
auto ModPath = BaseName.getName(file_types::TY_SwiftModuleFile);
auto InPath = BaseName.getName(file_types::TY_SwiftModuleInterfaceFile);
if (LoadMode == ModuleLoadingMode::OnlySerialized || !fs.exists(InPath)) {
if (fs.exists(ModPath)) {
// The module file will be loaded directly.
auto dependencies = scanModuleFile(ModPath);
if (dependencies) {
this->dependencies = std::move(dependencies.get());
return std::error_code();
}
return dependencies.getError();
} else {
return std::make_error_code(std::errc::no_such_file_or_directory);
}
}
assert(fs.exists(InPath));
// Use the private interface file if exits.
auto PrivateInPath =
BaseName.getName(file_types::TY_PrivateSwiftModuleInterfaceFile);
if (fs.exists(PrivateInPath)) {
InPath = PrivateInPath;
}
auto dependencies = scanInterfaceFile(InPath, IsFramework);
if (dependencies) {
this->dependencies = std::move(dependencies.get());
return std::error_code();
}
return dependencies.getError();
}
bool PlaceholderSwiftModuleScanner::findModule(
ImportPath::Element moduleID, SmallVectorImpl<char> *moduleInterfacePath,
std::unique_ptr<llvm::MemoryBuffer> *moduleBuffer,
std::unique_ptr<llvm::MemoryBuffer> *moduleDocBuffer,
std::unique_ptr<llvm::MemoryBuffer> *moduleSourceInfoBuffer,
bool skipBuildingInterface, bool &isFramework, bool &isSystemModule) {
StringRef moduleName = Ctx.getRealModuleName(moduleID.Item).str();
auto it = PlaceholderDependencyModuleMap.find(moduleName);
if (it == PlaceholderDependencyModuleMap.end()) {
return false;
}
auto &moduleInfo = it->getValue();
auto dependencies = ModuleDependencies::forPlaceholderSwiftModuleStub(
moduleInfo.modulePath, moduleInfo.moduleDocPath,
moduleInfo.moduleSourceInfoPath);
this->dependencies = std::move(dependencies);
return true;
}
static std::vector<std::string> getCompiledCandidates(ASTContext &ctx,
StringRef moduleName,
StringRef interfacePath) {
return ctx.getModuleInterfaceChecker()->getCompiledModuleCandidatesForInterface(
moduleName.str(), interfacePath);
}
ErrorOr<ModuleDependencies> ModuleDependencyScanner::scanInterfaceFile(
Twine moduleInterfacePath, bool isFramework) {
// Create a module filename.
// FIXME: Query the module interface loader to determine an appropriate
// name for the module, which includes an appropriate hash.
auto newExt = file_types::getExtension(file_types::TY_SwiftModuleFile);
auto realModuleName = Ctx.getRealModuleName(moduleName);
llvm::SmallString<32> modulePath = realModuleName.str();
llvm::sys::path::replace_extension(modulePath, newExt);
Optional<ModuleDependencies> Result;
std::error_code code =
astDelegate.runInSubContext(realModuleName.str(),
moduleInterfacePath.str(),
StringRef(),
SourceLoc(),
[&](ASTContext &Ctx, ModuleDecl *mainMod,
ArrayRef<StringRef> Args,
ArrayRef<StringRef> PCMArgs, StringRef Hash) {
assert(mainMod);
std::string InPath = moduleInterfacePath.str();
auto compiledCandidates = getCompiledCandidates(Ctx, realModuleName.str(),
InPath);
Result = ModuleDependencies::forSwiftInterfaceModule(InPath,
compiledCandidates,
Args,
PCMArgs,
Hash,
isFramework);
// Open the interface file.
auto &fs = *Ctx.SourceMgr.getFileSystem();
auto interfaceBuf = fs.getBufferForFile(moduleInterfacePath);
if (!interfaceBuf) {
return interfaceBuf.getError();
}
// Create a source file.
unsigned bufferID = Ctx.SourceMgr.addNewSourceBuffer(std::move(interfaceBuf.get()));
auto moduleDecl = ModuleDecl::create(realModuleName, Ctx);
auto sourceFile = new (Ctx) SourceFile(
*moduleDecl, SourceFileKind::Interface, bufferID);
// Walk the source file to find the import declarations.
llvm::StringSet<> alreadyAddedModules;
Result->addModuleDependencies(*sourceFile, alreadyAddedModules);
// Collect implicitly imported modules in case they are not explicitly
// printed in the interface file, e.g. SwiftOnoneSupport.
auto &imInfo = mainMod->getImplicitImportInfo();
for (auto import: imInfo.AdditionalUnloadedImports) {
Result->addModuleDependency(import.module.getModulePath(), &alreadyAddedModules);
}
return std::error_code();
});
if (code) {
return code;
}
return *Result;
}
Optional<ModuleDependencies> SerializedModuleLoaderBase::getModuleDependencies(
StringRef moduleName, ModuleDependenciesCache &cache,
InterfaceSubContextDelegate &delegate) {
auto currentSearchPathSet = Ctx.getAllModuleSearchPathsSet();
// Check whether we've cached this result.
if (auto found = cache.findDependencies(
moduleName,
{ModuleDependenciesKind::SwiftInterface, currentSearchPathSet}))
return found;
if (auto found = cache.findDependencies(
moduleName,
{ModuleDependenciesKind::SwiftSource, currentSearchPathSet}))
return found;
if (auto found = cache.findDependencies(
moduleName,
{ModuleDependenciesKind::SwiftBinary, currentSearchPathSet}))
return found;
if (auto found = cache.findDependencies(
moduleName,
{ModuleDependenciesKind::SwiftPlaceholder, currentSearchPathSet}))
return found;
ImportPath::Module::Builder builder(Ctx, moduleName, /*separator=*/'.');
auto modulePath = builder.get();
auto moduleId = modulePath.front().Item;
// Instantiate dependency scanning "loaders".
SmallVector<std::unique_ptr<ModuleDependencyScanner>, 2> scanners;
// Placeholder dependencies must be resolved first, to prevent the
// ModuleDependencyScanner from first discovering artifacts of a previous
// build. Such artifacts are captured as compiledModuleCandidates in the
// dependency graph of the placeholder dependency module itself.
// FIXME: submodules?
scanners.push_back(std::make_unique<PlaceholderSwiftModuleScanner>(
Ctx, LoadMode, moduleId, Ctx.SearchPathOpts.PlaceholderDependencyModuleMap,
delegate));
scanners.push_back(std::make_unique<ModuleDependencyScanner>(
Ctx, LoadMode, moduleId, delegate));
// Check whether there is a module with this name that we can import.
assert(isa<PlaceholderSwiftModuleScanner>(scanners[0].get()) &&
"Expected PlaceholderSwiftModuleScanner as the first dependency scanner loader.");
for (auto &scanner : scanners) {
if (scanner->canImportModule(modulePath, nullptr)) {
// Record the dependencies.
cache.recordDependencies(moduleName, *(scanner->dependencies));
return std::move(scanner->dependencies);
}
}
return None;
}
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