ladybird/VirtualFileSystem/VirtualFileSystem.cpp
Andreas Kling ba185e3eba Zero out VirtualFileSystem::s_the in initializeGlobals().
This catches attempts to access the vfs before it's been constructed.
2018-10-22 12:54:19 +02:00

467 lines
14 KiB
C++

#include "VirtualFileSystem.h"
#include "FileHandle.h"
#include "FileSystem.h"
#include <AK/kmalloc.h>
#include <AK/kstdio.h>
#include <AK/ktime.h>
//#define VFS_DEBUG
static dword encodedDevice(unsigned major, unsigned minor)
{
return (minor & 0xff) | (major << 8) | ((minor & ~0xff) << 12);
}
static VirtualFileSystem* s_the;
VirtualFileSystem& VirtualFileSystem::the()
{
ASSERT(s_the);
return *s_the;
}
void VirtualFileSystem::initializeGlobals()
{
s_the = nullptr;
FileSystem::initializeGlobals();
}
VirtualFileSystem::VirtualFileSystem()
{
#ifdef VFS_DEBUG
kprintf("[VFS] Constructing VFS\n");
#endif
s_the = this;
m_maxNodeCount = 16;
m_nodes = reinterpret_cast<Node*>(kmalloc(sizeof(Node) * maxNodeCount()));
memset(m_nodes, 0, sizeof(Node) * maxNodeCount());
for (unsigned i = 0; i < m_maxNodeCount; ++i)
m_nodeFreeList.append(&m_nodes[i]);
}
VirtualFileSystem::~VirtualFileSystem()
{
kprintf("[VFS] ~VirtualFileSystem with %u nodes allocated\n", allocatedNodeCount());
}
auto VirtualFileSystem::makeNode(InodeIdentifier inode) -> RetainPtr<Node>
{
auto metadata = inode.metadata();
if (!metadata.isValid())
return nullptr;
CharacterDevice* characterDevice = nullptr;
if (metadata.isCharacterDevice()) {
auto it = m_characterDevices.find(encodedDevice(metadata.majorDevice, metadata.minorDevice));
if (it != m_characterDevices.end()) {
characterDevice = (*it).value;
} else {
kprintf("[VFS] makeNode() no such character device %u,%u\n", metadata.majorDevice, metadata.minorDevice);
return nullptr;
}
}
auto vnode = allocateNode();
ASSERT(vnode);
FileSystem* fileSystem = inode.fileSystem();
fileSystem->retain();
vnode->inode = inode;
#ifdef VFS_DEBUG
kprintf("makeNode: inode=%u, size=%u, mode=%o, uid=%u, gid=%u\n", inode.index(), metadata.size, metadata.mode, metadata.uid, metadata.gid);
#endif
m_inode2vnode.set(inode, vnode.ptr());
vnode->m_characterDevice = characterDevice;
return vnode;
}
auto VirtualFileSystem::getOrCreateNode(InodeIdentifier inode) -> RetainPtr<Node>
{
auto it = m_inode2vnode.find(inode);
if (it != m_inode2vnode.end())
return (*it).value;
return makeNode(inode);
}
bool VirtualFileSystem::mount(RetainPtr<FileSystem>&& fileSystem, const String& path)
{
ASSERT(fileSystem);
auto inode = resolvePath(path);
if (!inode.isValid()) {
kprintf("[VFS] mount can't resolve mount point '%s'\n", path.characters());
return false;
}
kprintf("mounting %s{%p} at %s (inode: %u)\n", fileSystem->className(), fileSystem.ptr(), path.characters(), inode.index());
// FIXME: check that this is not already a mount point
auto mount = make<Mount>(inode, move(fileSystem));
m_mounts.append(move(mount));
return true;
}
bool VirtualFileSystem::mountRoot(RetainPtr<FileSystem>&& fileSystem)
{
if (m_rootNode) {
kprintf("[VFS] mountRoot can't mount another root\n");
return false;
}
auto mount = make<Mount>(InodeIdentifier(), move(fileSystem));
auto node = makeNode(mount->guest());
if (!node->inUse()) {
kprintf("[VFS] root inode for / is not in use :(\n");
return false;
}
if (!node->inode.metadata().isDirectory()) {
kprintf("[VFS] root inode for / is not in use :(\n");
return false;
}
m_rootNode = move(node);
kprintf("[VFS] mountRoot mounted %s{%p}\n",
m_rootNode->fileSystem()->className(),
m_rootNode->fileSystem());
m_mounts.append(move(mount));
return true;
}
auto VirtualFileSystem::allocateNode() -> RetainPtr<Node>
{
if (m_nodeFreeList.isEmpty()) {
kprintf("[VFS] allocateNode has no nodes left\n");
return nullptr;
}
auto* node = m_nodeFreeList.takeLast();
ASSERT(node->retainCount == 0);
node->retainCount = 1;
node->vfs = this;
return adopt(*node);
}
void VirtualFileSystem::freeNode(Node* node)
{
ASSERT(node);
ASSERT(node->inUse());
m_inode2vnode.remove(node->inode);
node->inode.fileSystem()->release();
node->inode = InodeIdentifier();
node->m_characterDevice = nullptr;
m_nodeFreeList.append(move(node));
}
bool VirtualFileSystem::isDirectory(const String& path)
{
auto inode = resolvePath(path);
if (!inode.isValid())
return false;
return inode.metadata().isDirectory();
}
auto VirtualFileSystem::findMountForHost(InodeIdentifier inode) -> Mount*
{
for (auto& mount : m_mounts) {
if (mount->host() == inode)
return mount.ptr();
}
return nullptr;
}
auto VirtualFileSystem::findMountForGuest(InodeIdentifier inode) -> Mount*
{
for (auto& mount : m_mounts) {
if (mount->guest() == inode)
return mount.ptr();
}
return nullptr;
}
bool VirtualFileSystem::isRoot(InodeIdentifier inode) const
{
return inode == m_rootNode->inode;
}
template<typename F>
void VirtualFileSystem::enumerateDirectoryInode(InodeIdentifier directoryInode, F func)
{
if (!directoryInode.isValid())
return;
directoryInode.fileSystem()->enumerateDirectoryInode(directoryInode, [&] (const FileSystem::DirectoryEntry& entry) {
InodeIdentifier resolvedInode;
if (auto mount = findMountForHost(entry.inode))
resolvedInode = mount->guest();
else
resolvedInode = entry.inode;
if (directoryInode.isRootInode() && !isRoot(directoryInode) && entry.name == "..") {
auto mount = findMountForGuest(entry.inode);
ASSERT(mount);
resolvedInode = mount->host();
}
func({ entry.name, resolvedInode });
return true;
});
}
void VirtualFileSystem::listDirectory(const String& path)
{
auto directoryInode = resolvePath(path);
if (!directoryInode.isValid())
return;
kprintf("[VFS] ls %s -> %s %02u:%08u\n", path.characters(), directoryInode.fileSystem()->className(), directoryInode.fileSystemID(), directoryInode.index());
enumerateDirectoryInode(directoryInode, [&] (const FileSystem::DirectoryEntry& entry) {
const char* nameColorBegin = "";
const char* nameColorEnd = "";
auto metadata = entry.inode.metadata();
ASSERT(metadata.isValid());
if (metadata.isDirectory()) {
nameColorBegin = "\033[34;1m";
nameColorEnd = "\033[0m";
} else if (metadata.isSymbolicLink()) {
nameColorBegin = "\033[36;1m";
nameColorEnd = "\033[0m";
}
if (metadata.isSticky()) {
nameColorBegin = "\033[42;30m";
nameColorEnd = "\033[0m";
}
if (metadata.isCharacterDevice() || metadata.isBlockDevice()) {
nameColorBegin = "\033[33;1m";
nameColorEnd = "\033[0m";
}
kprintf("%02u:%08u ",
metadata.inode.fileSystemID(),
metadata.inode.index());
if (metadata.isDirectory())
kprintf("d");
else if (metadata.isSymbolicLink())
kprintf("l");
else if (metadata.isBlockDevice())
kprintf("b");
else if (metadata.isCharacterDevice())
kprintf("c");
else if (metadata.isSocket())
kprintf("s");
else if (metadata.isFIFO())
kprintf("f");
else if (metadata.isRegularFile())
kprintf("-");
else
kprintf("?");
kprintf("%c%c%c%c%c%c%c%c",
metadata.mode & 00400 ? 'r' : '-',
metadata.mode & 00200 ? 'w' : '-',
metadata.mode & 00100 ? 'x' : '-',
metadata.mode & 00040 ? 'r' : '-',
metadata.mode & 00020 ? 'w' : '-',
metadata.mode & 00010 ? 'x' : '-',
metadata.mode & 00004 ? 'r' : '-',
metadata.mode & 00002 ? 'w' : '-'
);
if (metadata.isSticky())
kprintf("t");
else
kprintf("%c", metadata.mode & 00001 ? 'x' : '-');
if (metadata.isCharacterDevice() || metadata.isBlockDevice()) {
char buf[16];
ksprintf(buf, "%u, %u", metadata.majorDevice, metadata.minorDevice);
kprintf("%12s ", buf);
} else {
kprintf("%12lld ", metadata.size);
}
kprintf("\033[30;1m");
time_t mtime = metadata.mtime;
auto tm = *klocaltime(&mtime);
kprintf("%04u-%02u-%02u %02u:%02u:%02u ",
tm.tm_year + 1900,
tm.tm_mon + 1,
tm.tm_mday,
tm.tm_hour,
tm.tm_min,
tm.tm_sec);
kprintf("\033[0m");
kprintf("%s%s%s",
nameColorBegin,
entry.name.characters(),
nameColorEnd);
if (metadata.isDirectory()) {
kprintf("/");
} else if (metadata.isSymbolicLink()) {
auto symlinkContents = directoryInode.fileSystem()->readEntireInode(metadata.inode);
kprintf(" -> %s", String((const char*)symlinkContents.pointer(), symlinkContents.size()).characters());
}
kprintf("\n");
return true;
});
}
void VirtualFileSystem::listDirectoryRecursively(const String& path)
{
auto directory = resolvePath(path);
if (!directory.isValid())
return;
kprintf("%s\n", path.characters());
enumerateDirectoryInode(directory, [&] (const FileSystem::DirectoryEntry& entry) {
auto metadata = entry.inode.metadata();
if (metadata.isDirectory()) {
if (entry.name != "." && entry.name != "..") {
char buf[4096];
ksprintf(buf, "%s/%s", path.characters(), entry.name.characters());
listDirectoryRecursively(buf);
}
} else {
kprintf("%s/%s\n", path.characters(), entry.name.characters());
}
});
}
bool VirtualFileSystem::touch(const String& path)
{
auto inode = resolvePath(path);
if (!inode.isValid())
return false;
return inode.fileSystem()->setModificationTime(inode, ktime(nullptr));
}
OwnPtr<FileHandle> VirtualFileSystem::open(const String& path)
{
auto inode = resolvePath(path);
if (!inode.isValid())
return nullptr;
auto vnode = getOrCreateNode(inode);
if (!vnode)
return nullptr;
return make<FileHandle>(move(vnode));
}
OwnPtr<FileHandle> VirtualFileSystem::create(const String& path)
{
// FIXME: Do the real thing, not just this fake thing!
(void) path;
m_rootNode->fileSystem()->createInode(m_rootNode->fileSystem()->rootInode(), "empty", 0100644, 0);
return nullptr;
}
OwnPtr<FileHandle> VirtualFileSystem::mkdir(const String& path)
{
// FIXME: Do the real thing, not just this fake thing!
(void) path;
m_rootNode->fileSystem()->makeDirectory(m_rootNode->fileSystem()->rootInode(), "mydir", 0400755);
return nullptr;
}
InodeIdentifier VirtualFileSystem::resolveSymbolicLink(const String& basePath, InodeIdentifier symlinkInode)
{
auto symlinkContents = symlinkInode.readEntireFile();
if (!symlinkContents)
return { };
char buf[4096];
ksprintf(buf, "/%s/%s", basePath.characters(), String((const char*)symlinkContents.pointer(), symlinkContents.size()).characters());
return resolvePath(buf);
}
InodeIdentifier VirtualFileSystem::resolvePath(const String& path)
{
auto parts = path.split('/');
InodeIdentifier inode = m_rootNode->inode;
for (unsigned i = 0; i < parts.size(); ++i) {
auto& part = parts[i];
auto metadata = inode.metadata();
if (!metadata.isValid()) {
#ifdef VFS_DEBUG
kprintf("invalid metadata\n");
#endif
return InodeIdentifier();
}
if (!metadata.isDirectory()) {
#ifdef VFS_DEBUG
kprintf("not directory\n");
#endif
return InodeIdentifier();
}
inode = inode.fileSystem()->childOfDirectoryInodeWithName(inode, part);
if (!inode.isValid()) {
#ifdef VFS_DEBUG
kprintf("bad child\n");
#endif
return InodeIdentifier();
}
#ifdef VFS_DEBUG
kprintf("<%s> %02u:%08u\n", part.characters(), inode.fileSystemID(), inode.index());
#endif
if (auto mount = findMountForHost(inode)) {
#ifdef VFS_DEBUG
kprintf(" -- is host\n");
#endif
inode = mount->guest();
}
if (inode.isRootInode() && !isRoot(inode) && part == "..") {
#ifdef VFS_DEBUG
kprintf(" -- is guest\n");
#endif
auto mount = findMountForGuest(inode);
inode = mount->host();
inode = inode.fileSystem()->childOfDirectoryInodeWithName(inode, "..");
}
metadata = inode.metadata();
if (metadata.isSymbolicLink()) {
char buf[4096] = "";
char* p = buf;
for (unsigned j = 0; j < i; ++j) {
p += ksprintf(p, "/%s", parts[j].characters());
}
inode = resolveSymbolicLink(buf, inode);
if (!inode.isValid()) {
kprintf("Symbolic link resolution failed :(\n");
return { };
}
}
}
return inode;
}
void VirtualFileSystem::Node::retain()
{
++retainCount;
}
void VirtualFileSystem::Node::release()
{
ASSERT(retainCount);
if (--retainCount == 0) {
vfs->freeNode(this);
}
}
VirtualFileSystem::Mount::Mount(InodeIdentifier host, RetainPtr<FileSystem>&& guestFileSystem)
: m_host(host)
, m_guest(guestFileSystem->rootInode())
, m_fileSystem(move(guestFileSystem))
{
}
void VirtualFileSystem::registerCharacterDevice(unsigned major, unsigned minor, CharacterDevice& device)
{
m_characterDevices.set(encodedDevice(major, minor), &device);
}