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swift-foundation/Sources/FoundationEssentials/FileManager/FileManager+Basics.swift
Saleem Abdulrasool a7692238a8
FoundationEssentials: initial pass to add Android support (#704) 
This adds the necessary guards and includes for the Android modules.
While the module does not compile currently due to nullability
differences (and in some cases missing declarations), this at least
brings the module to a point where we can start working on the errors
and differences to create a maintainable codebase for Android.
2024-06-26 16:00:37 -07:00

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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2023 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
//
//===----------------------------------------------------------------------===//
#if canImport(Darwin)
import Darwin
#elseif os(Android)
import Android
#elseif canImport(Glibc)
import Glibc
#elseif os(Windows)
import CRT
import WinSDK
#endif
#if os(Windows)
extension _FILE_ID_128 /* : @retroactive Equatable */ {
internal static func _equals(_ lhs: _FILE_ID_128, _ rhs: _FILE_ID_128) -> Bool {
return withUnsafeBytes(of: lhs.Identifier) { pLHS in
return withUnsafeBytes(of: rhs.Identifier) { pRHS in
return memcmp(pLHS.baseAddress, pRHS.baseAddress, MemoryLayout.size(ofValue: lhs.Identifier)) == 0
}
}
}
}
extension LARGE_INTEGER /* : @retroactive Equatable */ {
internal static func _equals(_ lhs: LARGE_INTEGER, _ rhs: LARGE_INTEGER) -> Bool {
return lhs.QuadPart == rhs.QuadPart
}
}
#endif
internal struct _FileManagerImpl {
weak var _manager: FileManager?
weak var delegate: FileManagerDelegate?
var fileManager: FileManager {
guard let _manager else {
fatalError("_FileManagerImpl called without a valid reference to a FileManager")
}
return _manager
}
var safeDelegate: FileManagerDelegate? {
#if FOUNDATION_FRAMEWORK
fileManager._safeDelegate() as? FileManagerDelegate
#else
self.delegate
#endif
}
init() {}
#if FOUNDATION_FRAMEWORK
func displayName(atPath path: String) -> String {
// We lie to filePath:directoryHint: to avoid the extra stat. Since this URL isn't used as a base URL for another URL, it shouldn't make any difference.
let url = URL(filePath: path, directoryHint: .notDirectory)
if let storedName = try? url.resourceValues(forKeys: [.localizedNameKey]).localizedName {
return storedName
}
return path.lastPathComponent.replacing(":", with: "/")
}
#endif
func contents(atPath path: String) -> Data? {
try? Data(contentsOfFile: path)
}
func contentsEqual(
atPath path: String,
andPath other: String
) -> Bool {
#if os(Windows)
return (try? path.withNTPathRepresentation {
let hLHS = CreateFileW($0, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nil, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, nil)
if hLHS == INVALID_HANDLE_VALUE {
return false
}
defer { CloseHandle(hLHS) }
return (try? other.withNTPathRepresentation {
let hRHS = CreateFileW($0, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nil, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, nil)
if hRHS == INVALID_HANDLE_VALUE {
return false
}
defer { CloseHandle(hRHS) }
let dwLHSFileType: DWORD = GetFileType(hLHS)
let dwRHSFileType: DWORD = GetFileType(hRHS)
guard dwLHSFileType == FILE_TYPE_DISK, dwRHSFileType == FILE_TYPE_DISK else {
return CompareObjectHandles(hLHS, hRHS)
}
var fiLHS: FILE_ID_INFO = .init()
guard GetFileInformationByHandleEx(hLHS, FileIdInfo, &fiLHS, DWORD(MemoryLayout.size(ofValue: fiLHS))) else {
return false
}
var fiRHS: FILE_ID_INFO = .init()
guard GetFileInformationByHandleEx(hRHS, FileIdInfo, &fiRHS, DWORD(MemoryLayout.size(ofValue: fiRHS))) else {
return false
}
if fiLHS.VolumeSerialNumber == fiRHS.VolumeSerialNumber, _FILE_ID_128._equals(fiLHS.FileId, fiRHS.FileId) {
return true
}
var fbiLHS: FILE_BASIC_INFO = .init()
guard GetFileInformationByHandleEx(hLHS, FileBasicInfo, &fbiLHS, DWORD(MemoryLayout.size(ofValue: fbiLHS))) else {
return false
}
var fbiRHS: FILE_BASIC_INFO = .init()
guard GetFileInformationByHandleEx(hRHS, FileBasicInfo, &fbiRHS, DWORD(MemoryLayout.size(ofValue: fbiRHS))) else {
return false
}
if fbiLHS.FileAttributes & FILE_ATTRIBUTE_REPARSE_POINT == FILE_ATTRIBUTE_REPARSE_POINT,
fbiRHS.FileAttributes & FILE_ATTRIBUTE_REPARSE_POINT == FILE_ATTRIBUTE_REPARSE_POINT {
return (try? fileManager.destinationOfSymbolicLink(atPath: path) == fileManager.destinationOfSymbolicLink(atPath: other)) ?? false
} else if fbiLHS.FileAttributes & FILE_ATTRIBUTE_DIRECTORY == FILE_ATTRIBUTE_DIRECTORY,
fbiRHS.FileAttributes & FILE_ATTRIBUTE_DIRECTORY == FILE_ATTRIBUTE_DIRECTORY {
guard let aLHSItems = try? fileManager.contentsOfDirectory(atPath: path),
let aRHSItems = try? fileManager.contentsOfDirectory(atPath: other),
aLHSItems == aRHSItems else {
return false
}
for item in aLHSItems {
var hr: HRESULT
var pszLHS: PWSTR? = nil
hr = PathAllocCombine(path, item, PATHCCH_ALLOW_LONG_PATHS, &pszLHS)
guard hr == S_OK else { return false }
defer { LocalFree(pszLHS) }
var pszRHS: PWSTR? = nil
hr = PathAllocCombine(other, item, PATHCCH_ALLOW_LONG_PATHS, &pszRHS)
guard hr == S_OK else { return false }
defer { LocalFree(pszRHS) }
let lhs: String = String(decodingCString: pszLHS!, as: UTF16.self)
let rhs: String = String(decodingCString: pszRHS!, as: UTF16.self)
guard contentsEqual(atPath: lhs, andPath: rhs) else { return false }
}
return true
} else {
var liLHSSize: LARGE_INTEGER = .init()
var liRHSSize: LARGE_INTEGER = .init()
guard GetFileSizeEx(hLHS, &liLHSSize), GetFileSizeEx(hRHS, &liRHSSize), LARGE_INTEGER._equals(liLHSSize, liRHSSize) else {
return false
}
let kBufferSize = 0x1000
var dwBytesRemaining: UInt64 = UInt64(liLHSSize.QuadPart)
return withUnsafeTemporaryAllocation(of: CChar.self, capacity: kBufferSize) { pLHSBuffer in
return withUnsafeTemporaryAllocation(of: CChar.self, capacity: kBufferSize) { pRHSBuffer in
repeat {
let dwBytesToRead: DWORD = DWORD(min(UInt64(pLHSBuffer.count), dwBytesRemaining))
var dwLHSRead: DWORD = 0
guard ReadFile(hLHS, pLHSBuffer.baseAddress, dwBytesToRead, &dwLHSRead, nil) else {
return false
}
var dwRHSRead: DWORD = 0
guard ReadFile(hRHS, pRHSBuffer.baseAddress, dwBytesToRead, &dwRHSRead, nil) else {
return false
}
guard dwLHSRead == dwRHSRead else {
return false
}
guard memcmp(pLHSBuffer.baseAddress, pRHSBuffer.baseAddress, Int(dwLHSRead)) == 0 else {
return false
}
if dwLHSRead < dwBytesToRead {
break
}
dwBytesRemaining -= UInt64(dwLHSRead)
} while dwBytesRemaining > 0
return dwBytesRemaining == 0
}
}
}
return false
}) ?? false
}) ?? false
#else
func _openFD(_ path: UnsafePointer<CChar>) -> Int32? {
var statBuf = stat()
let fd = open(path, 0, 0)
guard fd >= 0 else { return nil }
if fstat(fd, &statBuf) < 0 || statBuf.st_mode & S_IFMT == S_IFDIR {
close(fd)
return nil
}
return fd
}
// compares contents in efficient manner
// note that symlinks are not traversed!
guard let myInfo = fileManager._fileStat(path), let otherInfo = fileManager._fileStat(other) else {
return false
}
/* check for being hard links */
if myInfo.st_dev == otherInfo.st_dev && myInfo.st_ino == otherInfo.st_ino {
return true
}
/* check for being same type */
if myInfo.st_mode & S_IFMT != otherInfo.st_mode & S_IFMT {
return false
}
if myInfo.isSpecial {
return myInfo.st_rdev == otherInfo.st_rdev // different inodes aiming at same device
}
if myInfo.isRegular {
if myInfo.st_size != otherInfo.st_size {
return false
}
return fileManager.withFileSystemRepresentation(for: path) { pathPtr in
guard let pathPtr, let fd1 = _openFD(pathPtr) else { return false }
defer { close(fd1) }
return fileManager.withFileSystemRepresentation(for: other) { otherPtr in
guard let otherPtr, let fd2 = _openFD(otherPtr) else { return false }
defer { close(fd2) }
#if canImport(Darwin)
_ = fcntl(fd1, F_NOCACHE, 1)
_ = fcntl(fd2, F_NOCACHE, 1)
#endif
let quantum = 8 * 1024
return withUnsafeTemporaryAllocation(of: CChar.self, capacity: quantum) { buf1 in
buf1.initialize(repeating: 0)
defer { buf1.deinitialize() }
return withUnsafeTemporaryAllocation(of: CChar.self, capacity: quantum) { buf2 in
buf2.initialize(repeating: 0)
defer { buf2.deinitialize() }
var readBytes = 0
while true {
readBytes = read(fd1, buf1.baseAddress!, quantum)
guard readBytes > 0 else { break }
if read(fd2, buf2.baseAddress!, quantum) != readBytes {
return false
}
if !buf1.elementsEqual(buf2) {
return false
}
}
if readBytes < -1 { return false }
return true
}
}
}
}
} else if myInfo.isSymbolicLink {
return (try? fileManager.destinationOfSymbolicLink(atPath: path) == fileManager.destinationOfSymbolicLink(atPath: other)) ?? false
} else if myInfo.isDirectory {
guard let myContents = try? fileManager.contentsOfDirectory(atPath: path),
let otherContents = try? Set(fileManager.contentsOfDirectory(atPath: other)),
myContents.count == otherContents.count else { return false }
for item in myContents {
guard otherContents.contains(item) else { return false }
let myItemPath = "\(path)/\(item)"
let otherItemPath = "\(other)/\(item)"
// Ok to call to self here because it's the same function
if !self.contentsEqual(atPath: myItemPath, andPath: otherItemPath) {
return false
}
}
return true
}
fatalError("Unknown file type 0x\(String(myInfo.st_mode, radix: 16)) for file \(path)")
#endif
}
func fileSystemRepresentation(withPath path: String) -> UnsafePointer<CChar>? {
path.withFileSystemRepresentation { ptr -> UnsafePointer<CChar>? in
guard let ptr else {
return nil
}
let len = strlen(ptr) + 1
let newPtr = UnsafeMutablePointer<CChar>.allocate(capacity: len)
_ = memcpy(newPtr, ptr, len)
return UnsafePointer(newPtr)
}
}
// SPI
func getFileSystemRepresentation(_ buffer: UnsafeMutablePointer<CChar>, maxLength: UInt, with path: String) -> Bool {
guard !path.isEmpty else {
return false
}
return path.withFileSystemRepresentation { ptr in
guard let ptr else {
return false
}
let lengthOfData = strlen(ptr) + 1
guard lengthOfData <= maxLength else {
return false
}
_ = memcpy(buffer, ptr, lengthOfData)
return true
}
}
func string(
withFileSystemRepresentation str: UnsafePointer<CChar>,
length len: Int
) -> String {
UnsafeBufferPointer(start: str, count: len).withMemoryRebound(to: UInt8.self) { buffer in
String(decoding: buffer, as: UTF8.self)
}
}
}
extension FileManager {
#if FOUNDATION_FRAMEWORK
@nonobjc
func withFileSystemRepresentation<R>(for path: String, _ body: (UnsafePointer<CChar>?) throws -> R) rethrows -> R {
var selfType: Any.Type { Self.self }
if selfType != FileManager.self {
// Subclasses can override getFileSystemRepresentation. Continue to call into that function to preserve subclassing behavior
return try withUnsafeTemporaryAllocation(of: CChar.self, capacity: FileManager.MAX_PATH_SIZE) { buffer in
guard self.getFileSystemRepresentation(buffer.baseAddress!, maxLength: FileManager.MAX_PATH_SIZE, withPath: path) else {
return try body(nil)
}
return try body(buffer.baseAddress)
}
}
// We don't have a subclass, so we can call this directly to avoid the temp allocation + copy
return try path.withFileSystemRepresentation(body)
}
#endif
#if !os(Windows)
@nonobjc
func _fileStat(_ path: String) -> stat? {
let result = self.withFileSystemRepresentation(for: path) { rep -> stat? in
var s = stat()
guard let rep, lstat(rep, &s) == 0 else {
return nil
}
return s
}
guard let result else { return nil }
return result
}
#endif
@nonobjc
static var MAX_PATH_SIZE: Int { 1026 }
}
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