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ladybird/Kernel/FileSystem/TmpFS.cpp

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/*
* Copyright (c) 2019-2020, Sergey Bugaev <bugaevc@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <Kernel/FileSystem/TmpFS.h>
#include <Kernel/Process.h>
#include <Kernel/Thread.h>
namespace Kernel {
NonnullRefPtr<TmpFS> TmpFS::create()
{
return adopt(*new TmpFS);
}
TmpFS::TmpFS()
{
}
TmpFS::~TmpFS()
{
}
bool TmpFS::initialize()
{
m_root_inode = TmpFSInode::create_root(*this);
return true;
}
InodeIdentifier TmpFS::root_inode() const
{
ASSERT(!m_root_inode.is_null());
return m_root_inode->identifier();
}
void TmpFS::register_inode(TmpFSInode& inode)
{
LOCKER(m_lock);
ASSERT(inode.identifier().fsid() == fsid());
unsigned index = inode.identifier().index();
m_inodes.set(index, inode);
}
void TmpFS::unregister_inode(InodeIdentifier identifier)
{
LOCKER(m_lock);
ASSERT(identifier.fsid() == fsid());
m_inodes.remove(identifier.index());
}
unsigned TmpFS::next_inode_index()
{
LOCKER(m_lock);
return m_next_inode_index++;
}
RefPtr<Inode> TmpFS::get_inode(InodeIdentifier identifier) const
{
LOCKER(m_lock);
ASSERT(identifier.fsid() == fsid());
auto it = m_inodes.find(identifier.index());
if (it == m_inodes.end())
return nullptr;
return it->value;
}
KResultOr<NonnullRefPtr<Inode>> TmpFS::create_inode(InodeIdentifier parent_id, const String& name, mode_t mode, off_t size, dev_t dev, uid_t uid, gid_t gid)
{
LOCKER(m_lock);
ASSERT(parent_id.fsid() == fsid());
ASSERT(size == 0);
ASSERT(dev == 0);
struct timeval now;
kgettimeofday(now);
InodeMetadata metadata;
metadata.mode = mode;
metadata.uid = uid;
metadata.gid = gid;
metadata.atime = now.tv_sec;
metadata.ctime = now.tv_sec;
metadata.mtime = now.tv_sec;
auto inode = TmpFSInode::create(*this, metadata, parent_id);
auto it = m_inodes.find(parent_id.index());
ASSERT(it != m_inodes.end());
auto parent_inode = it->value;
auto result = parent_inode->add_child(inode->identifier(), name, mode);
if (result.is_error())
return result;
return inode;
}
KResult TmpFS::create_directory(InodeIdentifier parent_id, const String& name, mode_t mode, uid_t uid, gid_t gid)
{
// Ensure it's a directory.
mode &= ~0170000;
mode |= 0040000;
auto result = create_inode(parent_id, name, mode, 0, 0, uid, gid);
if (result.is_error())
return result.error();
return KSuccess;
}
TmpFSInode::TmpFSInode(TmpFS& fs, InodeMetadata metadata, InodeIdentifier parent)
: Inode(fs, fs.next_inode_index())
, m_metadata(metadata)
, m_parent(parent)
{
m_metadata.inode = identifier();
}
TmpFSInode::~TmpFSInode()
{
}
NonnullRefPtr<TmpFSInode> TmpFSInode::create(TmpFS& fs, InodeMetadata metadata, InodeIdentifier parent)
{
auto inode = adopt(*new TmpFSInode(fs, metadata, parent));
fs.register_inode(inode);
return inode;
}
NonnullRefPtr<TmpFSInode> TmpFSInode::create_root(TmpFS& fs)
{
InodeMetadata metadata;
metadata.mode = 0041777;
return create(fs, metadata, { fs.fsid(), 1 });
}
InodeMetadata TmpFSInode::metadata() const
{
LOCKER(m_lock);
return m_metadata;
}
bool TmpFSInode::traverse_as_directory(Function<bool(const FS::DirectoryEntry&)> callback) const
{
LOCKER(m_lock);
if (!is_directory())
return false;
callback({ ".", identifier(), 0 });
callback({ "..", m_parent, 0 });
for (auto& it : m_children)
callback(it.value.entry);
return true;
}
ssize_t TmpFSInode::read_bytes(off_t offset, ssize_t size, u8* buffer, FileDescription*) const
{
LOCKER(m_lock);
ASSERT(!is_directory());
ASSERT(size >= 0);
ASSERT(offset >= 0);
if (!m_content.has_value())
return 0;
if (offset >= m_metadata.size)
return 0;
if (static_cast<off_t>(size) > m_metadata.size - offset)
size = m_metadata.size - offset;
memcpy(buffer, m_content.value().data() + offset, size);
return size;
}
ssize_t TmpFSInode::write_bytes(off_t offset, ssize_t size, const u8* buffer, FileDescription*)
{
LOCKER(m_lock);
ASSERT(!is_directory());
ASSERT(offset >= 0);
auto result = prepare_to_write_data();
if (result.is_error())
return result;
off_t old_size = m_metadata.size;
off_t new_size = m_metadata.size;
if ((offset + size) > new_size)
new_size = offset + size;
if (new_size > old_size) {
if (m_content.has_value() && m_content.value().capacity() >= (size_t)new_size) {
m_content.value().set_size(new_size);
} else {
// Grow the content buffer 2x the new sizeto accomodate repeating write() calls.
// Note that we're not actually committing physical memory to the buffer
// until it's needed. We only grow VM here.
// FIXME: Fix this so that no memcpy() is necessary, and we can just grow the
// KBuffer and it will add physical pages as needed while keeping the
// existing ones.
auto tmp = KBuffer::create_with_size(new_size * 2);
tmp.set_size(new_size);
if (m_content.has_value())
memcpy(tmp.data(), m_content.value().data(), old_size);
m_content = move(tmp);
}
m_metadata.size = new_size;
set_metadata_dirty(true);
set_metadata_dirty(false);
inode_size_changed(old_size, new_size);
}
memcpy(m_content.value().data() + offset, buffer, size);
inode_contents_changed(offset, size, buffer);
return size;
}
RefPtr<Inode> TmpFSInode::lookup(StringView name)
{
LOCKER(m_lock);
ASSERT(is_directory());
if (name == ".")
return fs().get_inode(identifier());
if (name == "..")
return fs().get_inode(m_parent);
auto it = m_children.find(name);
if (it == m_children.end())
return {};
return fs().get_inode(it->value.entry.inode);
}
size_t TmpFSInode::directory_entry_count() const
{
LOCKER(m_lock);
ASSERT(is_directory());
return 2 + m_children.size();
}
void TmpFSInode::flush_metadata()
{
// We don't really have any metadata that could become dirty.
// The only reason we even call set_metadata_dirty() is
// to let the watchers know we have updates. Once that is
// switched to a different mechanism, we can stop ever marking
// our metadata as dirty at all.
set_metadata_dirty(false);
}
KResult TmpFSInode::chmod(mode_t mode)
{
LOCKER(m_lock);
m_metadata.mode = mode;
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
KResult TmpFSInode::chown(uid_t uid, gid_t gid)
{
LOCKER(m_lock);
m_metadata.uid = uid;
m_metadata.gid = gid;
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
KResult TmpFSInode::add_child(InodeIdentifier child_id, const StringView& name, mode_t)
{
LOCKER(m_lock);
ASSERT(is_directory());
ASSERT(child_id.fsid() == fsid());
String owned_name = name;
FS::DirectoryEntry entry = { owned_name.characters(), owned_name.length(), child_id, 0 };
RefPtr<Inode> child_tmp = fs().get_inode(child_id);
NonnullRefPtr<TmpFSInode> child = static_cast<NonnullRefPtr<TmpFSInode>>(child_tmp.release_nonnull());
m_children.set(owned_name, { entry, move(child) });
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
KResult TmpFSInode::remove_child(const StringView& name)
{
LOCKER(m_lock);
ASSERT(is_directory());
if (name == "." || name == "..")
return KSuccess;
auto it = m_children.find(name);
if (it == m_children.end())
return KResult(-ENOENT);
m_children.remove(it);
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
KResult TmpFSInode::truncate(u64 size)
{
LOCKER(m_lock);
ASSERT(!is_directory());
if (size == 0)
m_content.clear();
else if (!m_content.has_value()) {
m_content = KBuffer::create_with_size(size);
} else if (static_cast<size_t>(size) < m_content.value().capacity()) {
size_t prev_size = m_metadata.size;
m_content.value().set_size(size);
if (prev_size < static_cast<size_t>(size))
memset(m_content.value().data() + prev_size, 0, size - prev_size);
} else {
size_t prev_size = m_metadata.size;
KBuffer tmp = KBuffer::create_with_size(size);
memcpy(tmp.data(), m_content.value().data(), prev_size);
m_content = move(tmp);
}
size_t old_size = m_metadata.size;
m_metadata.size = size;
set_metadata_dirty(true);
set_metadata_dirty(false);
if (old_size != (size_t)size) {
inode_size_changed(old_size, size);
if (m_content.has_value())
inode_contents_changed(0, size, m_content.value().data());
}
return KSuccess;
}
int TmpFSInode::set_atime(time_t time)
{
LOCKER(m_lock);
m_metadata.atime = time;
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
int TmpFSInode::set_ctime(time_t time)
{
LOCKER(m_lock);
m_metadata.ctime = time;
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
int TmpFSInode::set_mtime(time_t time)
{
LOCKER(m_lock);
m_metadata.mtime = time;
set_metadata_dirty(true);
set_metadata_dirty(false);
return KSuccess;
}
void TmpFSInode::one_ref_left()
{
// Destroy ourselves.
fs().unregister_inode(identifier());
}
}
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