/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Kernel { static Singleton s_the; static constexpr int root_mount_flags = MS_NODEV | MS_NOSUID | MS_RDONLY; UNMAP_AFTER_INIT void VirtualFileSystem::initialize() { s_the.ensure_instance(); } VirtualFileSystem& VirtualFileSystem::the() { return *s_the; } UNMAP_AFTER_INIT VirtualFileSystem::VirtualFileSystem() { } UNMAP_AFTER_INIT VirtualFileSystem::~VirtualFileSystem() = default; InodeIdentifier VirtualFileSystem::root_inode_id() const { VERIFY(m_root_inode); return m_root_inode->identifier(); } ErrorOr VirtualFileSystem::mount(FileSystem& fs, Custody& mount_point, int flags) { return m_mounts.with([&](auto& mounts) -> ErrorOr { auto& inode = mount_point.inode(); dbgln("VirtualFileSystem: Mounting {} at inode {} with flags {}", fs.class_name(), inode.identifier(), flags); // FIXME: check that this is not already a mount point Mount mount { fs, &mount_point, flags }; mounts.append(move(mount)); return {}; }); } ErrorOr VirtualFileSystem::bind_mount(Custody& source, Custody& mount_point, int flags) { return m_mounts.with([&](auto& mounts) -> ErrorOr { dbgln("VirtualFileSystem: Bind-mounting inode {} at inode {}", source.inode().identifier(), mount_point.inode().identifier()); // FIXME: check that this is not already a mount point Mount mount { source.inode(), mount_point, flags }; mounts.append(move(mount)); return {}; }); } ErrorOr VirtualFileSystem::remount(Custody& mount_point, int new_flags) { dbgln("VirtualFileSystem: Remounting inode {}", mount_point.inode().identifier()); auto* mount = find_mount_for_guest(mount_point.inode().identifier()); if (!mount) return ENODEV; mount->set_flags(new_flags); return {}; } ErrorOr VirtualFileSystem::unmount(Inode& guest_inode) { dbgln("VirtualFileSystem: unmount called with inode {}", guest_inode.identifier()); return m_mounts.with([&](auto& mounts) -> ErrorOr { for (size_t i = 0; i < mounts.size(); ++i) { auto& mount = mounts[i]; if (&mount.guest() != &guest_inode) continue; TRY(mount.guest_fs().prepare_to_unmount()); dbgln("VirtualFileSystem: Unmounting file system {}...", mount.guest_fs().fsid()); mounts.unstable_take(i); return {}; } dbgln("VirtualFileSystem: Nothing mounted on inode {}", guest_inode.identifier()); return ENODEV; }); } ErrorOr VirtualFileSystem::mount_root(FileSystem& fs) { if (m_root_inode) { dmesgln("VirtualFileSystem: mount_root can't mount another root"); return EEXIST; } Mount mount { fs, nullptr, root_mount_flags }; auto& root_inode = fs.root_inode(); if (!root_inode.is_directory()) { dmesgln("VirtualFileSystem: root inode ({}) for / is not a directory :(", root_inode.identifier()); return ENOTDIR; } m_root_inode = root_inode; auto pseudo_path = TRY(static_cast(fs).file_description().pseudo_path()); dmesgln("VirtualFileSystem: mounted root from {} ({})", fs.class_name(), pseudo_path); m_mounts.with([&](auto& mounts) { mounts.append(move(mount)); }); m_root_custody = TRY(Custody::try_create(nullptr, "", *m_root_inode, root_mount_flags)); return {}; } auto VirtualFileSystem::find_mount_for_host(InodeIdentifier id) -> Mount* { return m_mounts.with([&](auto& mounts) -> Mount* { for (auto& mount : mounts) { if (mount.host() && mount.host()->identifier() == id) return &mount; } return nullptr; }); } auto VirtualFileSystem::find_mount_for_guest(InodeIdentifier id) -> Mount* { return m_mounts.with([&](auto& mounts) -> Mount* { for (auto& mount : mounts) { if (mount.guest().identifier() == id) return &mount; } return nullptr; }); } bool VirtualFileSystem::is_vfs_root(InodeIdentifier inode) const { return inode == root_inode_id(); } ErrorOr VirtualFileSystem::traverse_directory_inode(Inode& dir_inode, Function(FileSystem::DirectoryEntryView const&)> callback) { return dir_inode.traverse_as_directory([&](auto& entry) -> ErrorOr { InodeIdentifier resolved_inode; if (auto mount = find_mount_for_host(entry.inode)) resolved_inode = mount->guest().identifier(); else resolved_inode = entry.inode; // FIXME: This is now broken considering chroot and bind mounts. bool is_root_inode = dir_inode.identifier() == dir_inode.fs().root_inode().identifier(); if (is_root_inode && !is_vfs_root(dir_inode.identifier()) && entry.name == "..") { auto mount = find_mount_for_guest(dir_inode.identifier()); VERIFY(mount); VERIFY(mount->host()); resolved_inode = mount->host()->identifier(); } TRY(callback({ entry.name, resolved_inode, entry.file_type })); return {}; }); } ErrorOr VirtualFileSystem::utime(StringView path, Custody& base, time_t atime, time_t mtime) { auto custody = TRY(resolve_path(path, base)); auto& inode = custody->inode(); auto& current_process = Process::current(); if (!current_process.is_superuser() && inode.metadata().uid != current_process.euid()) return EACCES; if (custody->is_readonly()) return EROFS; TRY(inode.set_atime(atime)); TRY(inode.set_mtime(mtime)); return {}; } ErrorOr VirtualFileSystem::utimensat(StringView path, Custody& base, timespec const& atime, timespec const& mtime, int options) { auto custody = TRY(resolve_path(path, base, nullptr, options)); auto& inode = custody->inode(); auto& current_process = Process::current(); if (!current_process.is_superuser() && inode.metadata().uid != current_process.euid()) return EACCES; if (custody->is_readonly()) return EROFS; // NOTE: A standard ext2 inode cannot store nanosecond timestamps. if (atime.tv_nsec != UTIME_OMIT) TRY(inode.set_atime(atime.tv_sec)); if (mtime.tv_nsec != UTIME_OMIT) TRY(inode.set_mtime(mtime.tv_sec)); return {}; } ErrorOr VirtualFileSystem::lookup_metadata(StringView path, Custody& base, int options) { auto custody = TRY(resolve_path(path, base, nullptr, options)); return custody->inode().metadata(); } ErrorOr> VirtualFileSystem::open(StringView path, int options, mode_t mode, Custody& base, Optional owner) { if ((options & O_CREAT) && (options & O_DIRECTORY)) return EINVAL; RefPtr parent_custody; auto custody_or_error = resolve_path(path, base, &parent_custody, options); if (custody_or_error.is_error()) { // NOTE: ENOENT with a non-null parent custody signals us that the immediate parent // of the file exists, but the file itself does not. if ((options & O_CREAT) && custody_or_error.error().code() == ENOENT && parent_custody) return create(path, options, mode, *parent_custody, move(owner)); return custody_or_error.release_error(); } if ((options & O_CREAT) && (options & O_EXCL)) return EEXIST; auto& custody = *custody_or_error.value(); auto& inode = custody.inode(); auto metadata = inode.metadata(); if ((options & O_DIRECTORY) && !metadata.is_directory()) return ENOTDIR; bool should_truncate_file = false; auto& current_process = Process::current(); if ((options & O_RDONLY) && !metadata.may_read(current_process)) return EACCES; if (options & O_WRONLY) { if (!metadata.may_write(current_process)) return EACCES; if (metadata.is_directory()) return EISDIR; should_truncate_file = options & O_TRUNC; } if (options & O_EXEC) { if (!metadata.may_execute(current_process) || (custody.mount_flags() & MS_NOEXEC)) return EACCES; } if (metadata.is_fifo()) { auto fifo = TRY(inode.fifo()); if (options & O_WRONLY) { auto description = TRY(fifo->open_direction_blocking(FIFO::Direction::Writer)); description->set_rw_mode(options); description->set_file_flags(options); description->set_original_inode({}, inode); return description; } else if (options & O_RDONLY) { auto description = TRY(fifo->open_direction_blocking(FIFO::Direction::Reader)); description->set_rw_mode(options); description->set_file_flags(options); description->set_original_inode({}, inode); return description; } return EINVAL; } if (metadata.is_device()) { if (custody.mount_flags() & MS_NODEV) return EACCES; auto device = DeviceManagement::the().get_device(metadata.major_device, metadata.minor_device); if (device == nullptr) { return ENODEV; } auto description = TRY(device->open(options)); description->set_original_inode({}, inode); description->set_original_custody({}, custody); return description; } // Check for read-only FS. Do this after handling devices, but before modifying the inode in any way. if ((options & O_WRONLY) && custody.is_readonly()) return EROFS; if (should_truncate_file) { TRY(inode.truncate(0)); TRY(inode.set_mtime(kgettimeofday().to_truncated_seconds())); } auto description = TRY(OpenFileDescription::try_create(custody)); description->set_rw_mode(options); description->set_file_flags(options); return description; } ErrorOr VirtualFileSystem::mknod(StringView path, mode_t mode, dev_t dev, Custody& base) { if (!is_regular_file(mode) && !is_block_device(mode) && !is_character_device(mode) && !is_fifo(mode) && !is_socket(mode)) return EINVAL; RefPtr parent_custody; auto existing_file_or_error = resolve_path(path, base, &parent_custody); if (!existing_file_or_error.is_error()) return EEXIST; if (!parent_custody) return ENOENT; if (existing_file_or_error.error().code() != ENOENT) return existing_file_or_error.release_error(); auto& parent_inode = parent_custody->inode(); auto& current_process = Process::current(); if (!parent_inode.metadata().may_write(current_process)) return EACCES; if (parent_custody->is_readonly()) return EROFS; auto basename = KLexicalPath::basename(path); dbgln_if(VFS_DEBUG, "VirtualFileSystem::mknod: '{}' mode={} dev={} in {}", basename, mode, dev, parent_inode.identifier()); (void)TRY(parent_inode.create_child(basename, mode, dev, current_process.euid(), current_process.egid())); return {}; } ErrorOr> VirtualFileSystem::create(StringView path, int options, mode_t mode, Custody& parent_custody, Optional owner) { auto basename = KLexicalPath::basename(path); auto parent_path = TRY(parent_custody.try_serialize_absolute_path()); auto full_path = TRY(KLexicalPath::try_join(parent_path->view(), basename)); TRY(validate_path_against_process_veil(full_path->view(), options)); if (!is_socket(mode) && !is_fifo(mode) && !is_block_device(mode) && !is_character_device(mode)) { // Turn it into a regular file. (This feels rather hackish.) mode |= 0100000; } auto& parent_inode = parent_custody.inode(); auto& current_process = Process::current(); if (!parent_inode.metadata().may_write(current_process)) return EACCES; if (parent_custody.is_readonly()) return EROFS; dbgln_if(VFS_DEBUG, "VirtualFileSystem::create: '{}' in {}", basename, parent_inode.identifier()); auto uid = owner.has_value() ? owner.value().uid : current_process.euid(); auto gid = owner.has_value() ? owner.value().gid : current_process.egid(); auto inode = TRY(parent_inode.create_child(basename, mode, 0, uid, gid)); auto custody = TRY(Custody::try_create(&parent_custody, basename, inode, parent_custody.mount_flags())); auto description = TRY(OpenFileDescription::try_create(move(custody))); description->set_rw_mode(options); description->set_file_flags(options); return description; } ErrorOr VirtualFileSystem::mkdir(StringView path, mode_t mode, Custody& base) { // Unlike in basically every other case, where it's only the last // path component (the one being created) that is allowed not to // exist, POSIX allows mkdir'ed path to have trailing slashes. // Let's handle that case by trimming any trailing slashes. path = path.trim("/"sv, TrimMode::Right); if (path.is_empty()) { // NOTE: This means the path was a series of slashes, which resolves to "/". path = "/"; } RefPtr parent_custody; // FIXME: The errors returned by resolve_path_without_veil can leak information about paths that are not unveiled, // e.g. when the error is EACCESS or similar. auto result = resolve_path_without_veil(path, base, &parent_custody); if (!result.is_error()) return EEXIST; else if (!parent_custody) return result.release_error(); // NOTE: If resolve_path fails with a non-null parent custody, the error should be ENOENT. VERIFY(result.error().code() == ENOENT); TRY(validate_path_against_process_veil(*parent_custody, O_CREAT)); auto& parent_inode = parent_custody->inode(); auto& current_process = Process::current(); if (!parent_inode.metadata().may_write(current_process)) return EACCES; if (parent_custody->is_readonly()) return EROFS; auto basename = KLexicalPath::basename(path); dbgln_if(VFS_DEBUG, "VirtualFileSystem::mkdir: '{}' in {}", basename, parent_inode.identifier()); (void)TRY(parent_inode.create_child(basename, S_IFDIR | mode, 0, current_process.euid(), current_process.egid())); return {}; } ErrorOr VirtualFileSystem::access(StringView path, int mode, Custody& base) { auto custody = TRY(resolve_path(path, base)); auto& inode = custody->inode(); auto metadata = inode.metadata(); auto& current_process = Process::current(); if (mode & R_OK) { if (!metadata.may_read(current_process)) return EACCES; } if (mode & W_OK) { if (!metadata.may_write(current_process)) return EACCES; if (custody->is_readonly()) return EROFS; } if (mode & X_OK) { if (!metadata.may_execute(current_process)) return EACCES; } return {}; } ErrorOr> VirtualFileSystem::open_directory(StringView path, Custody& base) { auto custody = TRY(resolve_path(path, base)); auto& inode = custody->inode(); if (!inode.is_directory()) return ENOTDIR; if (!inode.metadata().may_execute(Process::current())) return EACCES; return custody; } ErrorOr VirtualFileSystem::chmod(Custody& custody, mode_t mode) { auto& inode = custody.inode(); auto& current_process = Process::current(); if (current_process.euid() != inode.metadata().uid && !current_process.is_superuser()) return EPERM; if (custody.is_readonly()) return EROFS; // Only change the permission bits. mode = (inode.mode() & ~07777u) | (mode & 07777u); return inode.chmod(mode); } ErrorOr VirtualFileSystem::chmod(StringView path, mode_t mode, Custody& base, int options) { auto custody = TRY(resolve_path(path, base, nullptr, options)); return chmod(custody, mode); } ErrorOr VirtualFileSystem::rename(StringView old_path, StringView new_path, Custody& base) { RefPtr old_parent_custody; auto old_custody = TRY(resolve_path(old_path, base, &old_parent_custody, O_NOFOLLOW_NOERROR)); auto& old_inode = old_custody->inode(); RefPtr new_parent_custody; auto new_custody_or_error = resolve_path(new_path, base, &new_parent_custody); if (new_custody_or_error.is_error()) { if (new_custody_or_error.error().code() != ENOENT || !new_parent_custody) return new_custody_or_error.release_error(); } if (!old_parent_custody || !new_parent_custody) { return EPERM; } if (!new_custody_or_error.is_error()) { auto& new_inode = new_custody_or_error.value()->inode(); if (old_inode.index() != new_inode.index() && old_inode.is_directory() && new_inode.is_directory()) { size_t child_count = 0; TRY(new_inode.traverse_as_directory([&child_count](auto&) -> ErrorOr { ++child_count; return {}; })); if (child_count > 2) return ENOTEMPTY; } } auto& old_parent_inode = old_parent_custody->inode(); auto& new_parent_inode = new_parent_custody->inode(); if (&old_parent_inode.fs() != &new_parent_inode.fs()) return EXDEV; for (auto* new_ancestor = new_parent_custody.ptr(); new_ancestor; new_ancestor = new_ancestor->parent()) { if (&old_inode == &new_ancestor->inode()) return EDIRINTOSELF; } auto& current_process = Process::current(); if (!new_parent_inode.metadata().may_write(current_process)) return EACCES; if (!old_parent_inode.metadata().may_write(current_process)) return EACCES; if (old_parent_inode.metadata().is_sticky()) { if (!current_process.is_superuser() && old_inode.metadata().uid != current_process.euid()) return EACCES; } if (old_parent_custody->is_readonly() || new_parent_custody->is_readonly()) return EROFS; auto old_basename = KLexicalPath::basename(old_path); if (old_basename.is_empty() || old_basename == "."sv || old_basename == ".."sv) return EINVAL; auto new_basename = KLexicalPath::basename(new_path); if (new_basename.is_empty() || new_basename == "."sv || new_basename == ".."sv) return EINVAL; if (old_basename == new_basename && old_parent_inode.index() == new_parent_inode.index()) return {}; if (!new_custody_or_error.is_error()) { auto& new_custody = *new_custody_or_error.value(); auto& new_inode = new_custody.inode(); // FIXME: Is this really correct? Check what other systems do. if (&new_inode == &old_inode) return {}; if (new_parent_inode.metadata().is_sticky()) { if (!current_process.is_superuser() && new_inode.metadata().uid != current_process.euid()) return EACCES; } if (new_inode.is_directory() && !old_inode.is_directory()) return EISDIR; TRY(new_parent_inode.remove_child(new_basename)); } TRY(new_parent_inode.add_child(old_inode, new_basename, old_inode.mode())); TRY(old_parent_inode.remove_child(old_basename)); return {}; } ErrorOr VirtualFileSystem::chown(Custody& custody, UserID a_uid, GroupID a_gid) { auto& inode = custody.inode(); auto metadata = inode.metadata(); auto& current_process = Process::current(); if (current_process.euid() != metadata.uid && !current_process.is_superuser()) return EPERM; UserID new_uid = metadata.uid; GroupID new_gid = metadata.gid; if (a_uid != (uid_t)-1) { if (current_process.euid() != a_uid && !current_process.is_superuser()) return EPERM; new_uid = a_uid; } if (a_gid != (gid_t)-1) { if (!current_process.in_group(a_gid) && !current_process.is_superuser()) return EPERM; new_gid = a_gid; } if (custody.is_readonly()) return EROFS; dbgln_if(VFS_DEBUG, "VirtualFileSystem::chown(): inode {} <- uid={} gid={}", inode.identifier(), new_uid, new_gid); if (metadata.is_setuid() || metadata.is_setgid()) { dbgln_if(VFS_DEBUG, "VirtualFileSystem::chown(): Stripping SUID/SGID bits from {}", inode.identifier()); TRY(inode.chmod(metadata.mode & ~(04000 | 02000))); } return inode.chown(new_uid, new_gid); } ErrorOr VirtualFileSystem::chown(StringView path, UserID a_uid, GroupID a_gid, Custody& base, int options) { auto custody = TRY(resolve_path(path, base, nullptr, options)); return chown(custody, a_uid, a_gid); } static bool hard_link_allowed(Inode const& inode) { auto metadata = inode.metadata(); if (Process::current().euid() == metadata.uid) return true; if (metadata.is_regular_file() && !metadata.is_setuid() && !(metadata.is_setgid() && metadata.mode & S_IXGRP) && metadata.may_write(Process::current())) { return true; } return false; } ErrorOr VirtualFileSystem::link(StringView old_path, StringView new_path, Custody& base) { auto old_custody = TRY(resolve_path(old_path, base)); auto& old_inode = old_custody->inode(); RefPtr parent_custody; auto new_custody_or_error = resolve_path(new_path, base, &parent_custody); if (!new_custody_or_error.is_error()) return EEXIST; if (!parent_custody) return ENOENT; auto& parent_inode = parent_custody->inode(); if (parent_inode.fsid() != old_inode.fsid()) return EXDEV; if (!parent_inode.metadata().may_write(Process::current())) return EACCES; if (old_inode.is_directory()) return EPERM; if (parent_custody->is_readonly()) return EROFS; if (!hard_link_allowed(old_inode)) return EPERM; return parent_inode.add_child(old_inode, KLexicalPath::basename(new_path), old_inode.mode()); } ErrorOr VirtualFileSystem::unlink(StringView path, Custody& base) { RefPtr parent_custody; auto custody = TRY(resolve_path(path, base, &parent_custody, O_NOFOLLOW_NOERROR | O_UNLINK_INTERNAL)); auto& inode = custody->inode(); if (inode.is_directory()) return EISDIR; // We have just checked that the inode is not a directory, and thus it's not // the root. So it should have a parent. Note that this would be invalidated // if we were to support bind-mounting regular files on top of the root. VERIFY(parent_custody); auto& parent_inode = parent_custody->inode(); auto& current_process = Process::current(); if (!parent_inode.metadata().may_write(current_process)) return EACCES; if (parent_inode.metadata().is_sticky()) { if (!current_process.is_superuser() && inode.metadata().uid != current_process.euid()) return EACCES; } if (parent_custody->is_readonly()) return EROFS; return parent_inode.remove_child(KLexicalPath::basename(path)); } ErrorOr VirtualFileSystem::symlink(StringView target, StringView linkpath, Custody& base) { RefPtr parent_custody; auto existing_custody_or_error = resolve_path(linkpath, base, &parent_custody); if (!existing_custody_or_error.is_error()) return EEXIST; if (!parent_custody) return ENOENT; if (existing_custody_or_error.is_error() && existing_custody_or_error.error().code() != ENOENT) return existing_custody_or_error.release_error(); auto& parent_inode = parent_custody->inode(); auto& current_process = Process::current(); if (!parent_inode.metadata().may_write(current_process)) return EACCES; if (parent_custody->is_readonly()) return EROFS; auto basename = KLexicalPath::basename(linkpath); dbgln_if(VFS_DEBUG, "VirtualFileSystem::symlink: '{}' (-> '{}') in {}", basename, target, parent_inode.identifier()); auto inode = TRY(parent_inode.create_child(basename, S_IFLNK | 0644, 0, current_process.euid(), current_process.egid())); auto target_buffer = UserOrKernelBuffer::for_kernel_buffer(const_cast((u8 const*)target.characters_without_null_termination())); TRY(inode->write_bytes(0, target.length(), target_buffer, nullptr)); return {}; } ErrorOr VirtualFileSystem::rmdir(StringView path, Custody& base) { RefPtr parent_custody; auto custody = TRY(resolve_path(path, base, &parent_custody)); auto& inode = custody->inode(); // FIXME: We should return EINVAL if the last component of the path is "." // FIXME: We should return ENOTEMPTY if the last component of the path is ".." if (!inode.is_directory()) return ENOTDIR; if (!parent_custody) return EBUSY; auto& parent_inode = parent_custody->inode(); auto parent_metadata = parent_inode.metadata(); auto& current_process = Process::current(); if (!parent_metadata.may_write(current_process)) return EACCES; if (parent_metadata.is_sticky()) { if (!current_process.is_superuser() && inode.metadata().uid != current_process.euid()) return EACCES; } size_t child_count = 0; TRY(inode.traverse_as_directory([&child_count](auto&) -> ErrorOr { ++child_count; return {}; })); if (child_count != 2) return ENOTEMPTY; if (custody->is_readonly()) return EROFS; TRY(inode.remove_child(".")); TRY(inode.remove_child("..")); return parent_inode.remove_child(KLexicalPath::basename(path)); } ErrorOr VirtualFileSystem::for_each_mount(Function(Mount const&)> callback) const { return m_mounts.with([&](auto& mounts) -> ErrorOr { for (auto& mount : mounts) TRY(callback(mount)); return {}; }); } void VirtualFileSystem::sync() { FileSystem::sync(); } Custody& VirtualFileSystem::root_custody() { return *m_root_custody; } UnveilNode const& VirtualFileSystem::find_matching_unveiled_path(StringView path) { auto& current_process = Process::current(); VERIFY(current_process.veil_state() != VeilState::None); return current_process.unveil_data().with([&](auto const& unveil_data) -> UnveilNode const& { auto path_parts = KLexicalPath::parts(path); return unveil_data.paths.traverse_until_last_accessible_node(path_parts.begin(), path_parts.end()); }); } ErrorOr VirtualFileSystem::validate_path_against_process_veil(Custody const& custody, int options) { if (Process::current().veil_state() == VeilState::None) return {}; auto absolute_path = TRY(custody.try_serialize_absolute_path()); return validate_path_against_process_veil(absolute_path->view(), options); } ErrorOr VirtualFileSystem::validate_path_against_process_veil(StringView path, int options) { if (Process::current().veil_state() == VeilState::None) return {}; if (options == O_EXEC && path == "/usr/lib/Loader.so") return {}; VERIFY(path.starts_with('/')); VERIFY(!path.contains("/../"sv) && !path.ends_with("/.."sv)); VERIFY(!path.contains("/./"sv) && !path.ends_with("/."sv)); #ifdef SKIP_PATH_VALIDATION_FOR_COVERAGE_INSTRUMENTATION // Skip veil validation against profile data when coverage is enabled for userspace // so that all processes can write out coverage data even with veils in place if (KLexicalPath::basename(path).ends_with(".profraw"sv)) return {}; #endif auto& unveiled_path = find_matching_unveiled_path(path); if (unveiled_path.permissions() == UnveilAccess::None) { dbgln("Rejecting path '{}' since it hasn't been unveiled.", path); dump_backtrace(); return ENOENT; } if (options & O_CREAT) { if (!(unveiled_path.permissions() & UnveilAccess::CreateOrRemove)) { dbgln("Rejecting path '{}' since it hasn't been unveiled with 'c' permission.", path); dump_backtrace(); return EACCES; } } if (options & O_UNLINK_INTERNAL) { if (!(unveiled_path.permissions() & UnveilAccess::CreateOrRemove)) { dbgln("Rejecting path '{}' for unlink since it hasn't been unveiled with 'c' permission.", path); dump_backtrace(); return EACCES; } return {}; } if (options & O_RDONLY) { if (options & O_DIRECTORY) { if (!(unveiled_path.permissions() & (UnveilAccess::Read | UnveilAccess::Browse))) { dbgln("Rejecting path '{}' since it hasn't been unveiled with 'r' or 'b' permissions.", path); dump_backtrace(); return EACCES; } } else { if (!(unveiled_path.permissions() & UnveilAccess::Read)) { dbgln("Rejecting path '{}' since it hasn't been unveiled with 'r' permission.", path); dump_backtrace(); return EACCES; } } } if (options & O_WRONLY) { if (!(unveiled_path.permissions() & UnveilAccess::Write)) { dbgln("Rejecting path '{}' since it hasn't been unveiled with 'w' permission.", path); dump_backtrace(); return EACCES; } } if (options & O_EXEC) { if (!(unveiled_path.permissions() & UnveilAccess::Execute)) { dbgln("Rejecting path '{}' since it hasn't been unveiled with 'x' permission.", path); dump_backtrace(); return EACCES; } } return {}; } ErrorOr> VirtualFileSystem::resolve_path(StringView path, Custody& base, RefPtr* out_parent, int options, int symlink_recursion_level) { // FIXME: The errors returned by resolve_path_without_veil can leak information about paths that are not unveiled, // e.g. when the error is EACCESS or similar. auto custody = TRY(resolve_path_without_veil(path, base, out_parent, options, symlink_recursion_level)); if (auto result = validate_path_against_process_veil(*custody, options); result.is_error()) { if (out_parent) out_parent->clear(); return result.release_error(); } return custody; } static bool safe_to_follow_symlink(Inode const& inode, InodeMetadata const& parent_metadata) { auto metadata = inode.metadata(); if (Process::current().euid() == metadata.uid) return true; if (!(parent_metadata.is_sticky() && parent_metadata.mode & S_IWOTH)) return true; if (metadata.uid == parent_metadata.uid) return true; return false; } ErrorOr> VirtualFileSystem::resolve_path_without_veil(StringView path, Custody& base, RefPtr* out_parent, int options, int symlink_recursion_level) { if (symlink_recursion_level >= symlink_recursion_limit) return ELOOP; if (path.is_empty()) return EINVAL; GenericLexer path_lexer(path); auto& current_process = Process::current(); NonnullRefPtr custody = path[0] == '/' ? root_custody() : base; bool extra_iteration = path[path.length() - 1] == '/'; while (!path_lexer.is_eof() || extra_iteration) { if (path_lexer.is_eof()) extra_iteration = false; auto part = path_lexer.consume_until('/'); path_lexer.ignore(); Custody& parent = custody; auto parent_metadata = parent.inode().metadata(); if (!parent_metadata.is_directory()) return ENOTDIR; // Ensure the current user is allowed to resolve paths inside this directory. if (!parent_metadata.may_execute(current_process)) return EACCES; bool have_more_parts = !path_lexer.is_eof() || extra_iteration; if (part == "..") { // If we encounter a "..", take a step back, but don't go beyond the root. if (custody->parent()) custody = *custody->parent(); continue; } else if (part == "." || part.is_empty()) { continue; } // Okay, let's look up this part. auto child_or_error = parent.inode().lookup(part); if (child_or_error.is_error()) { if (out_parent) { // ENOENT with a non-null parent custody signals to caller that // we found the immediate parent of the file, but the file itself // does not exist yet. *out_parent = have_more_parts ? nullptr : &parent; } return child_or_error.release_error(); } auto child_inode = child_or_error.release_value(); int mount_flags_for_child = parent.mount_flags(); // See if there's something mounted on the child; in that case // we would need to return the guest inode, not the host inode. if (auto mount = find_mount_for_host(child_inode->identifier())) { child_inode = mount->guest(); mount_flags_for_child = mount->flags(); } custody = TRY(Custody::try_create(&parent, part, *child_inode, mount_flags_for_child)); if (child_inode->metadata().is_symlink()) { if (!have_more_parts) { if (options & O_NOFOLLOW) return ELOOP; if (options & O_NOFOLLOW_NOERROR) break; } if (!safe_to_follow_symlink(*child_inode, parent_metadata)) return EACCES; TRY(validate_path_against_process_veil(*custody, options)); auto symlink_target = TRY(child_inode->resolve_as_link(parent, out_parent, options, symlink_recursion_level + 1)); if (!have_more_parts) return symlink_target; // Now, resolve the remaining path relative to the symlink target. // We prepend a "." to it to ensure that it's not empty and that // any initial slashes it might have get interpreted properly. StringBuilder remaining_path; TRY(remaining_path.try_append('.')); TRY(remaining_path.try_append(path.substring_view_starting_after_substring(part))); return resolve_path_without_veil(remaining_path.string_view(), symlink_target, out_parent, options, symlink_recursion_level + 1); } } if (out_parent) *out_parent = custody->parent(); return custody; } }