genode/repos/os/include/vfs/tar_file_system.h

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/*
* \brief TAR file system
* \author Norman Feske
* \date 2011-02-17
*/
/*
* Copyright (C) 2011-2016 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__VFS__TAR_FILE_SYSTEM_H_
#define _INCLUDE__VFS__TAR_FILE_SYSTEM_H_
#include <rom_session/connection.h>
#include <vfs/file_system.h>
#include <vfs/vfs_handle.h>
namespace Vfs { class Tar_file_system; }
class Vfs::Tar_file_system : public File_system
{
enum { verbose = false };
struct Rom_name
{
enum { ROM_NAME_MAX_LEN = 64 };
char name[ROM_NAME_MAX_LEN];
Rom_name(Xml_node config) {
config.attribute("name").value(name, sizeof(name));
}
} _rom_name;
Genode::Rom_connection _rom;
Genode::Dataspace_capability _tar_ds;
char *_tar_base;
file_size _tar_size;
class Record
{
private:
char _name[100];
char _mode[8];
char _uid[8];
char _gid[8];
char _size[12];
char _mtime[12];
char _checksum[8];
char _type[1];
char _linked_name[100];
/**
* Convert ASCII-encoded octal number to unsigned value
*/
template <typename T>
unsigned long _read(T const &field) const
{
/*
* Copy-out ASCII string to temporary buffer that is
* large enough to host an additional zero.
*/
char buf[sizeof(field) + 1];
strncpy(buf, field, sizeof(buf));
unsigned long value = 0;
Genode::ascii_to_unsigned(buf, value, 8);
return value;
}
public:
/* length of on data block in tar */
enum { BLOCK_LEN = 512 };
/* record type values */
enum { TYPE_FILE = 0, TYPE_HARDLINK = 1,
TYPE_SYMLINK = 2, TYPE_DIR = 5 };
file_size size() const { return _read(_size); }
unsigned uid() const { return _read(_uid); }
unsigned gid() const { return _read(_gid); }
unsigned mode() const { return _read(_mode); }
unsigned type() const { return _read(_type); }
char const *name() const { return _name; }
char const *linked_name() const { return _linked_name; }
void *data() const { return (char *)this + BLOCK_LEN; }
};
class Tar_vfs_handle : public Vfs_handle
{
private:
Record const *_record;
public:
Tar_vfs_handle(File_system &fs, Allocator &alloc, int status_flags, Record const *record)
: Vfs_handle(fs, fs, alloc, status_flags), _record(record)
{ }
Record const *record() const { return _record; }
};
struct Scanner_policy_path_element
{
static bool identifier_char(char c, unsigned /* i */)
{
return (c != '/') && (c != 0);
}
};
typedef Genode::Token<Scanner_policy_path_element> Path_element_token;
struct Node : List<Node>, List<Node>::Element
{
char const *name;
Record const *record;
Node(char const *name, Record const *record) : name(name), record(record) { }
Node *lookup(char const *name)
{
Absolute_path lookup_path(name);
if (verbose)
PDBG("lookup_path = %s", lookup_path.base());
Node *parent_node = this;
Node *child_node;
Path_element_token t(lookup_path.base());
while (t) {
if (t.type() != Path_element_token::IDENT) {
t = t.next();
continue;
}
char path_element[MAX_PATH_LEN];
t.string(path_element, sizeof(path_element));
if (verbose)
PDBG("path_element = %s", path_element);
for (child_node = parent_node->first(); child_node; child_node = child_node->next()) {
if (verbose)
PDBG("comparing with node %s", child_node->name);
if (strcmp(child_node->name, path_element) == 0) {
if (verbose)
PDBG("found matching child node");
parent_node = child_node;
break;
}
}
if (!child_node)
return 0;
t = t.next();
}
return parent_node;
}
Node const *lookup_child(int index) const
{
for (Node const *child_node = first(); child_node; child_node = child_node->next(), index--) {
if (index == 0)
return child_node;
}
return 0;
}
file_size num_dirent()
{
file_size count = 0;
for (Node *child_node = first(); child_node; child_node = child_node->next(), count++) ;
return count;
}
} _root_node;
/*
* Create a Node for a tar record and insert it into the node list
*/
class Add_node_action
{
private:
Node &_root_node;
public:
Add_node_action(Node &root_node) : _root_node(root_node) { }
void operator()(Record const *record)
{
Absolute_path current_path(record->name());
if (verbose)
PDBG("current_path = %s", current_path.base());
char path_element[MAX_PATH_LEN];
Path_element_token t(current_path.base());
Node *parent_node = &_root_node;
Node *child_node;
while(t) {
if (t.type() != Path_element_token::IDENT) {
t = t.next();
continue;
}
Absolute_path remaining_path(t.start());
t.string(path_element, sizeof(path_element));
for (child_node = parent_node->first(); child_node; child_node = child_node->next()) {
if (strcmp(child_node->name, path_element) == 0)
break;
}
if (child_node) {
if (verbose)
PDBG("found node for %s", path_element);
if (remaining_path.has_single_element()) {
/* Found a node for the record to be inserted.
* This is usually a directory node without
* record. */
child_node->record = record;
}
} else {
if (remaining_path.has_single_element()) {
if (verbose)
PDBG("creating node for %s", path_element);
/*
* TODO: find 'path_element' in 'record->name'
* and use the location in the record as name
* pointer to save some memory
*/
Genode::size_t name_size = strlen(path_element) + 1;
char *name = (char*)env()->heap()->alloc(name_size);
strncpy(name, path_element, name_size);
child_node = new (env()->heap()) Node(name, record);
} else {
if (verbose)
PDBG("creating node without record for %s", path_element);
/* create a directory node without record */
Genode::size_t name_size = strlen(path_element) + 1;
char *name = (char*)env()->heap()->alloc(name_size);
strncpy(name, path_element, name_size);
child_node = new (env()->heap()) Node(name, 0);
}
parent_node->insert(child_node);
}
parent_node = child_node;
t = t.next();
}
}
};
template <typename Tar_record_action>
void _for_each_tar_record_do(Tar_record_action tar_record_action)
{
/* measure size of archive in blocks */
unsigned block_id = 0, block_cnt = _tar_size/Record::BLOCK_LEN;
/* scan metablocks of archive */
while (block_id < block_cnt) {
Record *record = (Record *)(_tar_base + block_id*Record::BLOCK_LEN);
tar_record_action(record);
file_size size = record->size();
/* some datablocks */ /* one metablock */
block_id = block_id + (size / Record::BLOCK_LEN) + 1;
/* round up */
if (size % Record::BLOCK_LEN != 0) block_id++;
/* check for end of tar archive */
if (block_id*Record::BLOCK_LEN >= _tar_size)
break;
/* lookout for empty eof-blocks */
if (*(_tar_base + (block_id*Record::BLOCK_LEN)) == 0x00)
if (*(_tar_base + (block_id*Record::BLOCK_LEN + 1)) == 0x00)
break;
}
}
struct Num_dirent_cache
{
Lock lock;
Node &root_node;
bool valid; /* true after first lookup */
char key[256]; /* key used for lookup */
file_size cached_num_dirent; /* cached value */
Num_dirent_cache(Node &root_node)
: root_node(root_node), valid(false), cached_num_dirent(0) { }
file_size num_dirent(char const *path)
{
Lock::Guard guard(lock);
/* check for cache miss */
if (!valid || strcmp(path, key) != 0) {
Node *node = root_node.lookup(path);
if (!node)
return 0;
strncpy(key, path, sizeof(key));
cached_num_dirent = node->num_dirent();
valid = true;
}
return cached_num_dirent;
}
} _cached_num_dirent;
/**
* Walk hardlinks until we reach a file
*
* XXX: check for hardlink loops
*/
Node const *dereference(char const *path)
{
Node const *node = _root_node.lookup(path);
if (!node) return 0;
Record const *record = node->record;
if (!record || record->type() != Record::TYPE_HARDLINK)
return node;
return dereference(record->linked_name());
}
public:
Tar_file_system(Xml_node config)
:
_rom_name(config), _rom(_rom_name.name),
_tar_ds(_rom.dataspace()),
_tar_base(env()->rm_session()->attach(_tar_ds)),
_tar_size(Dataspace_client(_tar_ds).size()),
_root_node("", 0),
_cached_num_dirent(_root_node)
{
PINF("tar archive '%s' local at %p, size is %llu",
_rom_name.name, _tar_base, _tar_size);
_for_each_tar_record_do(Add_node_action(_root_node));
}
/*********************************
** Directory-service interface **
*********************************/
Dataspace_capability dataspace(char const *path) override
{
Node const *node = dereference(path);
if (!node || !node->record)
return Dataspace_capability();
Record const *record = node->record;
if (record->type() != Record::TYPE_FILE) {
PERR("TAR record \"%s\" has unsupported type %d",
path, record->type());
return Dataspace_capability();
}
try {
Ram_dataspace_capability ds_cap =
env()->ram_session()->alloc(record->size());
void *local_addr = env()->rm_session()->attach(ds_cap);
memcpy(local_addr, record->data(), record->size());
env()->rm_session()->detach(local_addr);
return ds_cap;
}
catch (...) { PDBG("Could not create new dataspace"); }
return Dataspace_capability();
}
void release(char const *, Dataspace_capability ds_cap) override
{
env()->ram_session()->free(static_cap_cast<Genode::Ram_dataspace>(ds_cap));
}
Stat_result stat(char const *path, Stat &out) override
{
if (verbose)
PDBG("path = %s", path);
Node const *node = dereference(path);
if (!node)
return STAT_ERR_NO_ENTRY;
if (!node->record) {
if (verbose)
PDBG("found a virtual directoty node");
memset(&out, 0, sizeof(out));
out.mode = STAT_MODE_DIRECTORY;
return STAT_OK;
}
Record const *record = node->record;
/* convert TAR record modes to stat modes */
unsigned mode = record->mode();
switch (record->type()) {
case Record::TYPE_FILE: mode |= STAT_MODE_FILE; break;
case Record::TYPE_SYMLINK: mode |= STAT_MODE_SYMLINK; break;
case Record::TYPE_DIR: mode |= STAT_MODE_DIRECTORY; break;
default:
if (verbose)
PDBG("unhandled record type %d", record->type());
}
memset(&out, 0, sizeof(out));
out.mode = mode;
out.size = record->size();
out.uid = record->uid();
out.gid = record->gid();
out.inode = (Genode::addr_t)node;
out.device = (Genode::addr_t)this;
return STAT_OK;
}
Dirent_result dirent(char const *path, file_offset index, Dirent &out) override
{
Node const *node = dereference(path);
if (!node)
return DIRENT_ERR_INVALID_PATH;
node = node->lookup_child(index);
if (!node) {
out.type = DIRENT_TYPE_END;
return DIRENT_OK;
}
out.fileno = (Genode::addr_t)node;
Record const *record = node->record;
while (record && (record->type() == Record::TYPE_HARDLINK)) {
Node const *target = dereference(record->linked_name());
record = target ? target->record : 0;
}
if (record) {
switch (record->type()) {
case Record::TYPE_FILE:
out.type = DIRENT_TYPE_FILE; break;
case Record::TYPE_SYMLINK:
out.type = DIRENT_TYPE_SYMLINK; break;
case Record::TYPE_DIR:
out.type = DIRENT_TYPE_DIRECTORY; break;
default:
PERR("unhandled record type %d for %s", record->type(), node->name);
}
} else {
/* If no record exists, assume it is a directory */
out.type = DIRENT_TYPE_DIRECTORY;
}
strncpy(out.name, node->name, sizeof(out.name));
return DIRENT_OK;
}
Unlink_result unlink(char const *) override { return UNLINK_ERR_NO_PERM; }
Readlink_result readlink(char const *path, char *buf, file_size buf_size,
file_size &out_len) override
{
Node const *node = dereference(path);
Record const *record = node ? node->record : 0;
if (!record || (record->type() != Record::TYPE_SYMLINK))
return READLINK_ERR_NO_ENTRY;
file_size const count = min(buf_size, 100ULL);
memcpy(buf, record->linked_name(), count);
out_len = count;
return READLINK_OK;
}
Rename_result rename(char const *from, char const *to) override
{
if (_root_node.lookup(from) || _root_node.lookup(to))
return RENAME_ERR_NO_PERM;
return RENAME_ERR_NO_ENTRY;
}
Mkdir_result mkdir(char const *, unsigned) override
{
return MKDIR_ERR_NO_PERM;
}
Symlink_result symlink(char const *, char const *) override
{
return SYMLINK_ERR_NO_ENTRY;
}
file_size num_dirent(char const *path) override
{
return _cached_num_dirent.num_dirent(path);
}
bool is_directory(char const *path) override
{
Node const *node = dereference(path);
if (!node)
return false;
Record const *record = node->record;
return record ? (record->type() == Record::TYPE_DIR) : true;
}
char const *leaf_path(char const *path) override
{
/*
* Check if path exists within the file system. If this is the
* case, return the whole path, which is relative to the root
* of this file system.
*/
Node *node = _root_node.lookup(path);
return node ? path : 0;
}
Open_result open(char const *path, unsigned, Vfs_handle **out_handle, Genode::Allocator& alloc) override
{
Node const *node = dereference(path);
if (!node || !node->record || node->record->type() != Record::TYPE_FILE)
return OPEN_ERR_UNACCESSIBLE;
*out_handle = new (alloc) Tar_vfs_handle(*this, alloc, 0, node->record);
return OPEN_OK;
}
void close(Vfs_handle *vfs_handle) override
{
Tar_vfs_handle *tar_handle =
static_cast<Tar_vfs_handle *>(vfs_handle);
if (tar_handle)
destroy(vfs_handle->alloc(), tar_handle);
}
/***************************
** File_system interface **
***************************/
static char const *name() { return "tar"; }
/********************************
** File I/O service interface **
********************************/
Write_result write(Vfs_handle *, char const *, file_size,
file_size &) override
{
PDBG("called\n");
return WRITE_ERR_INVALID;
}
Read_result read(Vfs_handle *vfs_handle, char *dst, file_size count,
file_size &out_count) override
{
Tar_vfs_handle const *handle = static_cast<Tar_vfs_handle *>(vfs_handle);
file_size const record_size = handle->record()->size();
file_size const record_bytes_left = record_size >= handle->seek()
? record_size - handle->seek() : 0;
count = min(record_bytes_left, count);
char const *data = (char *)handle->record()->data() + handle->seek();
memcpy(dst, data, count);
out_count = count;
return READ_OK;
}
Ftruncate_result ftruncate(Vfs_handle *handle, file_size) override
{
PDBG("called\n");
return FTRUNCATE_ERR_NO_PERM;
}
};
#endif /* _INCLUDE__VFS__TAR_FILE_SYSTEM_H_ */