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718ae68621
To accomplish this, we add another VeilState which is called LockedInherited. The idea is to apply exec unveil data, similar to execpromises of the pledge syscall, on the current exec'ed program during the execve sequence. When applying the forced unveil data, the veil state is set to be locked but the special state of LockedInherited ensures that if the new program tries to unveil paths, the request will silently be ignored, so the program will continue running without receiving an error, but is still can only use the paths that were unveiled before the exec syscall. This in turn, allows us to use the unveil syscall with a special utility to sandbox other userland programs in terms of what is visible to them on the filesystem, and is usable on both programs that use or don't use the unveil syscall in their code.
176 lines
7.5 KiB
C++
176 lines
7.5 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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* Copyright (c) 2021, Max Wipfli <mail@maxwipfli.ch>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/RefPtr.h>
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#include <AK/StringView.h>
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#include <Kernel/API/Unveil.h>
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#include <Kernel/FileSystem/Custody.h>
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#include <Kernel/FileSystem/VirtualFileSystem.h>
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#include <Kernel/KLexicalPath.h>
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#include <Kernel/Process.h>
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namespace Kernel {
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static void update_intermediate_node_permissions(UnveilNode& root_node, UnveilAccess new_permissions)
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{
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for (auto& entry : root_node.children()) {
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auto& node = static_cast<UnveilNode&>(*entry.value);
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if (node.was_explicitly_unveiled())
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continue;
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node.metadata_value().permissions = new_permissions;
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update_intermediate_node_permissions(node, new_permissions);
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}
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}
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static ErrorOr<void> update_unveil_data(Process::UnveilData& locked_unveil_data, StringView unveiled_path, UnveilAccess new_permissions)
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{
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auto path_parts = KLexicalPath::parts(unveiled_path);
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auto it = path_parts.begin();
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// Note: For the sake of completence, we check if the locked state was inherited
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// by an execve'd sequence. If that is the case, just silently ignore this.
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if (locked_unveil_data.state == VeilState::LockedInherited)
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return {};
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// NOTE: We have to check again, since the veil may have been locked by another thread
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// while we were parsing the arguments.
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if (locked_unveil_data.state == VeilState::Locked)
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return EPERM;
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auto& matching_node = locked_unveil_data.paths.traverse_until_last_accessible_node(it, path_parts.end());
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if (it.is_end()) {
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// If the path has already been explicitly unveiled, do not allow elevating its permissions.
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if (matching_node.was_explicitly_unveiled()) {
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if (new_permissions & ~matching_node.permissions())
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return EPERM;
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}
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// It is possible that nodes that are "grandchildren" of the matching node have already been unveiled.
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// This means that there may be intermediate nodes between this one and the unveiled "grandchildren"
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// that inherited the current node's previous permissions. Those nodes now need their permissions
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// updated to match the current node.
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if (matching_node.permissions() != new_permissions)
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update_intermediate_node_permissions(matching_node, new_permissions);
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matching_node.metadata_value().explicitly_unveiled = true;
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matching_node.metadata_value().permissions = new_permissions;
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locked_unveil_data.state = VeilState::Dropped;
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return {};
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}
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auto new_unveiled_path = TRY(KString::try_create(unveiled_path));
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TRY(matching_node.insert(
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it,
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path_parts.end(),
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{ move(new_unveiled_path), new_permissions, true },
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[](auto& parent, auto& it) -> ErrorOr<Optional<UnveilMetadata>> {
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auto path = TRY(KString::formatted("{}/{}", parent.path(), *it));
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return UnveilMetadata(move(path), parent.permissions(), false);
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}));
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VERIFY(locked_unveil_data.state != VeilState::Locked);
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locked_unveil_data.state = VeilState::Dropped;
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return {};
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}
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ErrorOr<FlatPtr> Process::sys$unveil(Userspace<Syscall::SC_unveil_params const*> user_params)
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{
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VERIFY_NO_PROCESS_BIG_LOCK(this);
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auto params = TRY(copy_typed_from_user(user_params));
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if (!params.path.characters && !params.permissions.characters) {
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m_unveil_data.with([&](auto& unveil_data) { unveil_data.state = VeilState::Locked; });
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return 0;
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}
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if (!((params.flags & to_underlying(UnveilFlags::CurrentProgram)) || (params.flags & to_underlying(UnveilFlags::AfterExec))))
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return EINVAL;
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// Note: If we inherited a locked state, then silently ignore the unveil request,
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// and let the user program potentially deal with an ENOENT error later on.
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if ((params.flags & static_cast<unsigned>(UnveilFlags::CurrentProgram)) && veil_state() == VeilState::LockedInherited)
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return 0;
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// Note: We only lock the unveil state for current program, while allowing adding
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// indefinitely unveil data before doing the actual exec().
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if ((params.flags & static_cast<unsigned>(UnveilFlags::CurrentProgram)) && veil_state() == VeilState::Locked)
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return EPERM;
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if (!params.path.characters || !params.permissions.characters)
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return EINVAL;
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if (params.permissions.length > 5)
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return EINVAL;
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auto path = TRY(get_syscall_path_argument(params.path));
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if (path->is_empty() || !path->view().starts_with('/'))
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return EINVAL;
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auto permissions = TRY(try_copy_kstring_from_user(params.permissions));
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// Let's work out permissions first...
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unsigned new_permissions = 0;
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for (char const permission : permissions->view()) {
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switch (permission) {
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case 'r':
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new_permissions |= UnveilAccess::Read;
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break;
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case 'w':
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new_permissions |= UnveilAccess::Write;
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break;
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case 'x':
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new_permissions |= UnveilAccess::Execute;
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break;
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case 'c':
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new_permissions |= UnveilAccess::CreateOrRemove;
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break;
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case 'b':
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new_permissions |= UnveilAccess::Browse;
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break;
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default:
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return EINVAL;
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}
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}
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// Now, let's try and resolve the path and obtain custody of the inode on the disk, and if not, bail out with
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// the error from resolve_path_without_veil()
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// However, if the user specified unveil() with "c" permissions, we don't set errno if ENOENT is encountered,
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// because they most likely intend the program to create the file for them later on.
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// If this case is encountered, the parent node of the path is returned and the custody of that inode is used instead.
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RefPtr<Custody> parent_custody; // Parent inode in case of ENOENT
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OwnPtr<KString> new_unveiled_path;
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auto custody_or_error = VirtualFileSystem::the().resolve_path_without_veil(credentials(), path->view(), VirtualFileSystem::the().root_custody(), &parent_custody);
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if (!custody_or_error.is_error()) {
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new_unveiled_path = TRY(custody_or_error.value()->try_serialize_absolute_path());
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} else if (custody_or_error.error().code() == ENOENT && parent_custody && (new_permissions & UnveilAccess::CreateOrRemove)) {
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auto parent_custody_path = TRY(parent_custody->try_serialize_absolute_path());
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new_unveiled_path = TRY(KLexicalPath::try_join(parent_custody_path->view(), KLexicalPath::basename(path->view())));
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} else {
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// FIXME Should this be EINVAL?
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return custody_or_error.release_error();
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}
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if (params.flags & static_cast<unsigned>(UnveilFlags::CurrentProgram)) {
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TRY(unveil_data().with([&](auto& data) -> ErrorOr<void> {
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TRY(update_unveil_data(data, new_unveiled_path->view(), static_cast<UnveilAccess>(new_permissions)));
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return {};
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}));
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}
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if (params.flags & static_cast<unsigned>(UnveilFlags::AfterExec)) {
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TRY(exec_unveil_data().with([&](auto& data) -> ErrorOr<void> {
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// Note: The only valid way to get into this state is by using unveil before doing
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// an actual exec with the UnveilFlags::AfterExec flag. Then this state is applied on
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// the actual new program unveil data, and never on the m_exec_unveil_data.
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VERIFY(data.state != VeilState::LockedInherited);
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TRY(update_unveil_data(data, new_unveiled_path->view(), static_cast<UnveilAccess>(new_permissions)));
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return {};
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}));
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}
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return 0;
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}
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}
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