proxmox-backup/src/backup/catalog_shell.rs

1367 lines
42 KiB
Rust

use std::collections::HashMap;
use std::convert::TryFrom;
use std::ffi::{CStr, CString, OsStr, OsString};
use std::future::Future;
use std::io::Write;
use std::mem;
use std::os::unix::ffi::OsStrExt;
use std::os::unix::io::{AsRawFd, FromRawFd};
use std::path::{Path, PathBuf};
use std::pin::Pin;
use anyhow::{bail, format_err, Error};
use nix::dir::Dir;
use nix::fcntl::OFlag;
use nix::sys::stat::Mode;
use pathpatterns::{MatchEntry, MatchList, MatchPattern, MatchType, PatternFlag};
use proxmox::api::api;
use proxmox::api::cli::{self, CliCommand, CliCommandMap, CliHelper, CommandLineInterface};
use proxmox::c_result;
use proxmox::tools::fs::{create_path, CreateOptions};
use pxar::{EntryKind, Metadata};
use crate::backup::catalog::{self, DirEntryAttribute};
// FIXME: Remove looku_self() calls by putting Directory into the dir stack
use crate::pxar::dir_stack::PxarDirStack;
use crate::pxar::Flags;
use crate::pxar::fuse::{Accessor, FileEntry};
use crate::pxar::metadata;
type CatalogReader = crate::backup::CatalogReader<std::fs::File>;
const MAX_SYMLINK_COUNT: usize = 40;
static mut SHELL: Option<usize> = None;
/// This list defines all the shell commands and their properties
/// using the api schema
pub fn catalog_shell_cli() -> CommandLineInterface {
CommandLineInterface::Nested(
CliCommandMap::new()
.insert("pwd", CliCommand::new(&API_METHOD_PWD_COMMAND))
.insert(
"cd",
CliCommand::new(&API_METHOD_CD_COMMAND)
.arg_param(&["path"])
.completion_cb("path", complete_path),
)
.insert(
"ls",
CliCommand::new(&API_METHOD_LS_COMMAND)
.arg_param(&["path"])
.completion_cb("path", complete_path),
)
.insert(
"stat",
CliCommand::new(&API_METHOD_STAT_COMMAND)
.arg_param(&["path"])
.completion_cb("path", complete_path),
)
.insert(
"select",
CliCommand::new(&API_METHOD_SELECT_COMMAND)
.arg_param(&["path"])
.completion_cb("path", complete_path),
)
.insert(
"deselect",
CliCommand::new(&API_METHOD_DESELECT_COMMAND)
.arg_param(&["path"])
.completion_cb("path", complete_path),
)
.insert(
"clear-selected",
CliCommand::new(&API_METHOD_CLEAR_SELECTED_COMMAND),
)
.insert(
"list-selected",
CliCommand::new(&API_METHOD_LIST_SELECTED_COMMAND),
)
.insert(
"restore-selected",
CliCommand::new(&API_METHOD_RESTORE_SELECTED_COMMAND)
.arg_param(&["target"])
.completion_cb("target", crate::tools::complete_file_name),
)
.insert(
"restore",
CliCommand::new(&API_METHOD_RESTORE_COMMAND)
.arg_param(&["target"])
.completion_cb("target", crate::tools::complete_file_name),
)
.insert(
"find",
CliCommand::new(&API_METHOD_FIND_COMMAND).arg_param(&["pattern"]),
)
.insert_help(),
)
}
fn complete_path(complete_me: &str, _map: &HashMap<String, String>) -> Vec<String> {
let shell: &mut Shell = unsafe { std::mem::transmute(SHELL.unwrap()) };
match shell.complete_path(complete_me) {
Ok(list) => list,
Err(err) => {
eprintln!("error during completion: {}", err);
Vec::new()
}
}
}
#[api(input: { properties: {} })]
/// List the current working directory.
async fn pwd_command() -> Result<(), Error> {
Shell::with(move |shell| shell.pwd()).await
}
#[api(
input: {
properties: {
path: {
type: String,
optional: true,
description: "target path."
}
}
}
)]
/// Change the current working directory to the new directory
async fn cd_command(path: Option<String>) -> Result<(), Error> {
let path = path.as_ref().map(Path::new);
Shell::with(move |shell| shell.cd(path)).await
}
#[api(
input: {
properties: {
path: {
type: String,
optional: true,
description: "target path."
}
}
}
)]
/// List the content of working directory or given path.
async fn ls_command(path: Option<String>) -> Result<(), Error> {
let path = path.as_ref().map(Path::new);
Shell::with(move |shell| shell.ls(path)).await
}
#[api(
input: {
properties: {
path: {
type: String,
description: "target path."
}
}
}
)]
/// Read the metadata for a given directory entry.
///
/// This is expensive because the data has to be read from the pxar archive, which means reading
/// over the network.
async fn stat_command(path: String) -> Result<(), Error> {
Shell::with(move |shell| shell.stat(PathBuf::from(path))).await
}
#[api(
input: {
properties: {
path: {
type: String,
description: "target path."
}
}
}
)]
/// Select an entry for restore.
///
/// This will return an error if the entry is already present in the list or
/// if an invalid path was provided.
async fn select_command(path: String) -> Result<(), Error> {
Shell::with(move |shell| shell.select(PathBuf::from(path))).await
}
#[api(
input: {
properties: {
path: {
type: String,
description: "path to entry to remove from list."
}
}
}
)]
/// Deselect an entry for restore.
///
/// This will return an error if the entry was not found in the list of entries
/// selected for restore.
async fn deselect_command(path: String) -> Result<(), Error> {
Shell::with(move |shell| shell.deselect(PathBuf::from(path))).await
}
#[api( input: { properties: { } })]
/// Clear the list of files selected for restore.
async fn clear_selected_command() -> Result<(), Error> {
Shell::with(move |shell| shell.deselect_all()).await
}
#[api(
input: {
properties: {
patterns: {
type: Boolean,
description: "List match patterns instead of the matching files.",
optional: true,
default: false,
}
}
}
)]
/// List entries currently selected for restore.
async fn list_selected_command(patterns: bool) -> Result<(), Error> {
Shell::with(move |shell| shell.list_selected(patterns)).await
}
#[api(
input: {
properties: {
pattern: {
type: String,
description: "Match pattern for matching files in the catalog."
},
select: {
type: bool,
optional: true,
default: false,
description: "Add matching filenames to list for restore."
}
}
}
)]
/// Find entries in the catalog matching the given match pattern.
async fn find_command(pattern: String, select: bool) -> Result<(), Error> {
Shell::with(move |shell| shell.find(pattern, select)).await
}
#[api(
input: {
properties: {
target: {
type: String,
description: "target path for restore on local filesystem."
}
}
}
)]
/// Restore the selected entries to the given target path.
///
/// Target must not exist on the clients filesystem.
async fn restore_selected_command(target: String) -> Result<(), Error> {
Shell::with(move |shell| shell.restore_selected(PathBuf::from(target))).await
}
#[api(
input: {
properties: {
target: {
type: String,
description: "target path for restore on local filesystem."
},
pattern: {
type: String,
optional: true,
description: "match pattern to limit files for restore."
}
}
}
)]
/// Restore the sub-archive given by the current working directory to target.
///
/// By further providing a pattern, the restore can be limited to a narrower
/// subset of this sub-archive.
/// If pattern is not present or empty, the full archive is restored to target.
async fn restore_command(target: String, pattern: Option<String>) -> Result<(), Error> {
Shell::with(move |shell| shell.restore(PathBuf::from(target), pattern)).await
}
/// FIXME: Should we use this to fix `step()`?
///
/// The `Path` type's component iterator does not tell us anything about trailing slashes or
/// trailing `Component::CurDir` entries. Since we only support regular paths we'll roll our own
/// here:
enum PathComponent<'a> {
Root,
CurDir,
ParentDir,
Normal(&'a OsStr),
TrailingSlash,
}
struct PathComponentIter<'a> {
path: &'a [u8],
state: u8, // 0=beginning, 1=ongoing, 2=trailing, 3=finished (fused)
}
impl std::iter::FusedIterator for PathComponentIter<'_> {}
impl<'a> Iterator for PathComponentIter<'a> {
type Item = PathComponent<'a>;
fn next(&mut self) -> Option<Self::Item> {
if self.path.is_empty() {
return None;
}
if self.state == 0 {
self.state = 1;
if self.path[0] == b'/' {
// absolute path
self.path = &self.path[1..];
return Some(PathComponent::Root);
}
}
// skip slashes
let had_slashes = self.path[0] == b'/';
while self.path.get(0).copied() == Some(b'/') {
self.path = &self.path[1..];
}
Some(match self.path {
[] if had_slashes => PathComponent::TrailingSlash,
[] => return None,
[b'.'] | [b'.', b'/', ..] => {
self.path = &self.path[1..];
PathComponent::CurDir
}
[b'.', b'.'] | [b'.', b'.', b'/', ..] => {
self.path = &self.path[2..];
PathComponent::ParentDir
}
_ => {
let end = self
.path
.iter()
.position(|&b| b == b'/')
.unwrap_or(self.path.len());
let (out, rest) = self.path.split_at(end);
self.path = rest;
PathComponent::Normal(OsStr::from_bytes(out))
}
})
}
}
pub struct Shell {
/// Readline instance handling input and callbacks
rl: rustyline::Editor<CliHelper>,
/// Interactive prompt.
prompt: String,
/// Calalog reader instance to navigate
catalog: CatalogReader,
/// List of selected paths for restore
selected: HashMap<OsString, MatchEntry>,
/// pxar accessor instance for the current pxar archive
accessor: Accessor,
/// The current position in the archive.
position: Vec<PathStackEntry>,
}
#[derive(Clone)]
struct PathStackEntry {
/// This is always available. We mainly navigate through the catalog.
catalog: catalog::DirEntry,
/// Whenever we need something from the actual archive we fill this out. This is cached along
/// the entire path.
pxar: Option<FileEntry>,
}
impl PathStackEntry {
fn new(dir_entry: catalog::DirEntry) -> Self {
Self {
pxar: None,
catalog: dir_entry,
}
}
}
impl Shell {
/// Create a new shell for the given catalog and pxar archive.
pub async fn new(
mut catalog: CatalogReader,
archive_name: &str,
archive: Accessor,
) -> Result<Self, Error> {
let cli_helper = CliHelper::new(catalog_shell_cli());
let mut rl = rustyline::Editor::<CliHelper>::new();
rl.set_helper(Some(cli_helper));
let catalog_root = catalog.root()?;
let archive_root = catalog
.lookup(&catalog_root, archive_name.as_bytes())?
.ok_or_else(|| format_err!("archive not found in catalog"))?;
let position = vec![PathStackEntry::new(archive_root)];
let mut this = Self {
rl,
prompt: String::new(),
catalog,
selected: HashMap::new(),
accessor: archive,
position,
};
this.update_prompt();
Ok(this)
}
async fn with<'a, Fut, R, F>(call: F) -> Result<R, Error>
where
F: FnOnce(&'a mut Shell) -> Fut,
Fut: Future<Output = Result<R, Error>>,
F: 'a,
Fut: 'a,
R: 'static,
{
let shell: &mut Shell = unsafe { std::mem::transmute(SHELL.unwrap()) };
let result = call(&mut *shell).await;
result
}
pub async fn shell(mut self) -> Result<(), Error> {
let this = &mut self;
unsafe {
SHELL = Some(this as *mut Shell as usize);
}
while let Ok(line) = this.rl.readline(&this.prompt) {
let helper = this.rl.helper().unwrap();
let args = match cli::shellword_split(&line) {
Ok(args) => args,
Err(err) => {
println!("Error: {}", err);
continue;
}
};
let _ =
cli::handle_command_future(helper.cmd_def(), "", args, cli::CliEnvironment::new())
.await;
this.rl.add_history_entry(line);
this.update_prompt();
}
Ok(())
}
fn update_prompt(&mut self) {
self.prompt = "pxar:".to_string();
if self.position.len() <= 1 {
self.prompt.push('/');
} else {
for p in self.position.iter().skip(1) {
if !p.catalog.name.starts_with(b"/") {
self.prompt.push('/');
}
match std::str::from_utf8(&p.catalog.name) {
Ok(entry) => self.prompt.push_str(entry),
Err(_) => self.prompt.push_str("<non-utf8-dir>"),
}
}
}
self.prompt.push_str(" > ");
}
async fn pwd(&mut self) -> Result<(), Error> {
let stack = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
None,
&mut Some(0),
)
.await?;
let path = Self::format_path_stack(&stack);
println!("{:?}", path);
Ok(())
}
fn new_path_stack(&self) -> Vec<PathStackEntry> {
self.position[..1].to_vec()
}
async fn resolve_symlink(
stack: &mut Vec<PathStackEntry>,
catalog: &mut CatalogReader,
accessor: &Accessor,
follow_symlinks: &mut Option<usize>,
) -> Result<(), Error> {
if let Some(ref mut symlink_count) = follow_symlinks {
*symlink_count += 1;
if *symlink_count > MAX_SYMLINK_COUNT {
bail!("too many levels of symbolic links");
}
let file = Self::walk_pxar_archive(accessor, &mut stack[..]).await?;
let path = match file.entry().kind() {
EntryKind::Symlink(symlink) => Path::new(symlink.as_os_str()),
_ => bail!("symlink in the catalog was not a symlink in the archive"),
};
let new_stack =
Self::lookup(&stack, &mut *catalog, accessor, Some(path), follow_symlinks).await?;
*stack = new_stack;
Ok(())
} else {
bail!("target is a symlink");
}
}
/// Walk a path and add it to the path stack.
///
/// If the symlink count is used, symlinks will be followed, until we hit the cap and error
/// out.
async fn step(
stack: &mut Vec<PathStackEntry>,
catalog: &mut CatalogReader,
accessor: &Accessor,
component: std::path::Component<'_>,
follow_symlinks: &mut Option<usize>,
) -> Result<(), Error> {
use std::path::Component;
match component {
Component::Prefix(_) => bail!("invalid path component (prefix)"),
Component::RootDir => stack.truncate(1),
Component::CurDir => {
if stack.last().unwrap().catalog.is_symlink() {
Self::resolve_symlink(stack, catalog, accessor, follow_symlinks).await?;
}
}
Component::ParentDir => drop(stack.pop()),
Component::Normal(entry) => {
if stack.last().unwrap().catalog.is_symlink() {
Self::resolve_symlink(stack, catalog, accessor, follow_symlinks).await?;
}
match catalog.lookup(&stack.last().unwrap().catalog, entry.as_bytes())? {
Some(dir) => stack.push(PathStackEntry::new(dir)),
None => bail!("no such file or directory: {:?}", entry),
}
}
}
Ok(())
}
fn step_nofollow(
stack: &mut Vec<PathStackEntry>,
catalog: &mut CatalogReader,
component: std::path::Component<'_>,
) -> Result<(), Error> {
use std::path::Component;
match component {
Component::Prefix(_) => bail!("invalid path component (prefix)"),
Component::RootDir => stack.truncate(1),
Component::CurDir => {
if stack.last().unwrap().catalog.is_symlink() {
bail!("target is a symlink");
}
}
Component::ParentDir => drop(stack.pop()),
Component::Normal(entry) => {
if stack.last().unwrap().catalog.is_symlink() {
bail!("target is a symlink");
} else {
match catalog.lookup(&stack.last().unwrap().catalog, entry.as_bytes())? {
Some(dir) => stack.push(PathStackEntry::new(dir)),
None => bail!("no such file or directory: {:?}", entry),
}
}
}
}
Ok(())
}
/// The pxar accessor is required to resolve symbolic links
async fn walk_catalog(
stack: &mut Vec<PathStackEntry>,
catalog: &mut CatalogReader,
accessor: &Accessor,
path: &Path,
follow_symlinks: &mut Option<usize>,
) -> Result<(), Error> {
for c in path.components() {
Self::step(stack, catalog, accessor, c, follow_symlinks).await?;
}
Ok(())
}
/// Non-async version cannot follow symlinks.
fn walk_catalog_nofollow(
stack: &mut Vec<PathStackEntry>,
catalog: &mut CatalogReader,
path: &Path,
) -> Result<(), Error> {
for c in path.components() {
Self::step_nofollow(stack, catalog, c)?;
}
Ok(())
}
/// This assumes that there are no more symlinks in the path stack.
async fn walk_pxar_archive(
accessor: &Accessor,
mut stack: &mut [PathStackEntry],
) -> Result<FileEntry, Error> {
if stack[0].pxar.is_none() {
stack[0].pxar = Some(accessor.open_root().await?.lookup_self().await?);
}
// Now walk the directory stack:
let mut at = 1;
while at < stack.len() {
if stack[at].pxar.is_some() {
at += 1;
continue;
}
let parent = stack[at - 1].pxar.as_ref().unwrap();
let dir = parent.enter_directory().await?;
let name = Path::new(OsStr::from_bytes(&stack[at].catalog.name));
stack[at].pxar = Some(
dir.lookup(name)
.await?
.ok_or_else(|| format_err!("no such entry in pxar file: {:?}", name))?,
);
at += 1;
}
Ok(stack.last().unwrap().pxar.clone().unwrap())
}
fn complete_path(&mut self, input: &str) -> Result<Vec<String>, Error> {
let mut tmp_stack;
let (parent, base, part) = match input.rfind('/') {
Some(ind) => {
let (base, part) = input.split_at(ind + 1);
let path = PathBuf::from(base);
if path.is_absolute() {
tmp_stack = self.new_path_stack();
} else {
tmp_stack = self.position.clone();
}
Self::walk_catalog_nofollow(&mut tmp_stack, &mut self.catalog, &path)?;
(&tmp_stack.last().unwrap().catalog, base, part)
}
None => (&self.position.last().unwrap().catalog, "", input),
};
let entries = self.catalog.read_dir(parent)?;
let mut out = Vec::new();
for entry in entries {
let mut name = base.to_string();
if entry.name.starts_with(part.as_bytes()) {
name.push_str(std::str::from_utf8(&entry.name)?);
if entry.is_directory() {
name.push('/');
}
out.push(name);
}
}
Ok(out)
}
// Break async recursion here: lookup -> walk_catalog -> step -> lookup
fn lookup<'future, 's, 'c, 'a, 'p, 'y>(
stack: &'s [PathStackEntry],
catalog: &'c mut CatalogReader,
accessor: &'a Accessor,
path: Option<&'p Path>,
follow_symlinks: &'y mut Option<usize>,
) -> Pin<Box<dyn Future<Output = Result<Vec<PathStackEntry>, Error>> + Send + 'future>>
where
's: 'future,
'c: 'future,
'a: 'future,
'p: 'future,
'y: 'future,
{
Box::pin(async move {
Ok(match path {
None => stack.to_vec(),
Some(path) => {
let mut stack = if path.is_absolute() {
stack[..1].to_vec()
} else {
stack.to_vec()
};
Self::walk_catalog(&mut stack, catalog, accessor, path, follow_symlinks)
.await?;
stack
}
})
})
}
async fn ls(&mut self, path: Option<&Path>) -> Result<(), Error> {
let stack = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
path,
&mut Some(0),
)
.await?;
let last = stack.last().unwrap();
if last.catalog.is_directory() {
let items = self.catalog.read_dir(&stack.last().unwrap().catalog)?;
let mut out = std::io::stdout();
// FIXME: columnize
for item in items {
out.write_all(&item.name)?;
out.write_all(b"\n")?;
}
} else {
let mut out = std::io::stdout();
out.write_all(&last.catalog.name)?;
out.write_all(b"\n")?;
}
Ok(())
}
async fn stat(&mut self, path: PathBuf) -> Result<(), Error> {
let mut stack = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
Some(&path),
&mut Some(0),
)
.await?;
let file = Self::walk_pxar_archive(&self.accessor, &mut stack).await?;
std::io::stdout()
.write_all(crate::pxar::format_multi_line_entry(file.entry()).as_bytes())?;
Ok(())
}
async fn cd(&mut self, path: Option<&Path>) -> Result<(), Error> {
match path {
Some(path) => {
let new_position = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
Some(path),
&mut None,
)
.await?;
if !new_position.last().unwrap().catalog.is_directory() {
bail!("not a directory");
}
self.position = new_position;
}
None => self.position.truncate(1),
}
self.update_prompt();
Ok(())
}
/// This stack must have been canonicalized already!
fn format_path_stack(stack: &[PathStackEntry]) -> OsString {
if stack.len() <= 1 {
return OsString::from("/");
}
let mut out = OsString::new();
for c in stack.iter().skip(1) {
out.push("/");
out.push(OsStr::from_bytes(&c.catalog.name));
}
out
}
async fn select(&mut self, path: PathBuf) -> Result<(), Error> {
let stack = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
Some(&path),
&mut Some(0),
)
.await?;
let path = Self::format_path_stack(&stack);
let entry = MatchEntry::include(MatchPattern::Literal(path.as_bytes().to_vec()));
if self.selected.insert(path.clone(), entry).is_some() {
println!("path already selected: {:?}", path);
} else {
println!("added path: {:?}", path);
}
Ok(())
}
async fn deselect(&mut self, path: PathBuf) -> Result<(), Error> {
let stack = Self::lookup(
&self.position,
&mut self.catalog,
&self.accessor,
Some(&path),
&mut Some(0),
)
.await?;
let path = Self::format_path_stack(&stack);
if self.selected.remove(&path).is_some() {
println!("removed path from selection: {:?}", path);
} else {
println!("path not selected: {:?}", path);
}
Ok(())
}
async fn deselect_all(&mut self) -> Result<(), Error> {
self.selected.clear();
println!("cleared selection");
Ok(())
}
async fn list_selected(&mut self, patterns: bool) -> Result<(), Error> {
if patterns {
self.list_selected_patterns().await
} else {
self.list_matching_files().await
}
}
async fn list_selected_patterns(&self) -> Result<(), Error> {
for entry in self.selected.keys() {
println!("{:?}", entry);
}
Ok(())
}
fn build_match_list(&self) -> Vec<MatchEntry> {
let mut list = Vec::with_capacity(self.selected.len());
for entry in self.selected.values() {
list.push(entry.clone());
}
list
}
async fn list_matching_files(&mut self) -> Result<(), Error> {
let matches = self.build_match_list();
self.catalog.find(
&self.position[0].catalog,
&mut Vec::new(),
&matches,
&mut |path: &[u8]| -> Result<(), Error> {
let mut out = std::io::stdout();
out.write_all(path)?;
out.write_all(b"\n")?;
Ok(())
},
)?;
Ok(())
}
async fn find(&mut self, pattern: String, select: bool) -> Result<(), Error> {
let pattern_os = OsString::from(pattern.clone());
let pattern_entry =
MatchEntry::parse_pattern(pattern, PatternFlag::PATH_NAME, MatchType::Include)?;
let mut found_some = false;
self.catalog.find(
&self.position[0].catalog,
&mut Vec::new(),
&[&pattern_entry],
&mut |path: &[u8]| -> Result<(), Error> {
found_some = true;
let mut out = std::io::stdout();
out.write_all(path)?;
out.write_all(b"\n")?;
Ok(())
},
)?;
if found_some && select {
self.selected.insert(pattern_os, pattern_entry);
}
Ok(())
}
async fn restore_selected(&mut self, destination: PathBuf) -> Result<(), Error> {
if self.selected.is_empty() {
bail!("no entries selected");
}
let match_list = self.build_match_list();
self.restore_with_match_list(destination, &match_list).await
}
async fn restore(
&mut self,
destination: PathBuf,
pattern: Option<String>,
) -> Result<(), Error> {
let tmp;
let match_list: &[MatchEntry] = match pattern {
None => &[],
Some(pattern) => {
tmp = [MatchEntry::parse_pattern(
pattern,
PatternFlag::PATH_NAME,
MatchType::Include,
)?];
&tmp
}
};
self.restore_with_match_list(destination, match_list).await
}
async fn restore_with_match_list(
&mut self,
destination: PathBuf,
match_list: &[MatchEntry],
) -> Result<(), Error> {
create_path(
&destination,
None,
Some(CreateOptions::new().perm(Mode::from_bits_truncate(0o700))),
)
.map_err(|err| format_err!("error creating directory {:?}: {}", destination, err))?;
let rootdir = Dir::open(
&destination,
OFlag::O_DIRECTORY | OFlag::O_CLOEXEC,
Mode::empty(),
)
.map_err(|err| {
format_err!("unable to open target directory {:?}: {}", destination, err,)
})?;
let mut dir_stack = self.new_path_stack();
Self::walk_pxar_archive(&self.accessor, &mut dir_stack).await?;
let root_meta = dir_stack
.last()
.unwrap()
.pxar
.as_ref()
.unwrap()
.entry()
.metadata()
.clone();
let pxar_dir_stack = PxarDirStack::new(rootdir, root_meta);
let mut extractor = ExtractorState::new(
Flags::DEFAULT,
&mut self.catalog,
dir_stack,
pxar_dir_stack,
&match_list,
&self.accessor,
)?;
extractor.extract().await
}
}
enum LoopState {
Break,
Continue,
}
struct ExtractorState<'a> {
path: Vec<u8>,
path_len: usize,
path_len_stack: Vec<usize>,
dir_stack: Vec<PathStackEntry>,
matches: bool,
matches_stack: Vec<bool>,
read_dir: <Vec<catalog::DirEntry> as IntoIterator>::IntoIter,
read_dir_stack: Vec<<Vec<catalog::DirEntry> as IntoIterator>::IntoIter>,
pxar_dir_stack: PxarDirStack,
catalog: &'a mut CatalogReader,
feature_flags: Flags,
match_list: &'a [MatchEntry],
accessor: &'a Accessor,
}
impl<'a> ExtractorState<'a> {
pub fn new(
feature_flags: Flags,
catalog: &'a mut CatalogReader,
dir_stack: Vec<PathStackEntry>,
pxar_dir_stack: PxarDirStack,
match_list: &'a [MatchEntry],
accessor: &'a Accessor,
) -> Result<Self, Error> {
let read_dir = catalog
.read_dir(&dir_stack.last().unwrap().catalog)?
.into_iter();
Ok(Self {
path: Vec::new(),
path_len: 0,
path_len_stack: Vec::new(),
dir_stack,
matches: match_list.is_empty(),
matches_stack: Vec::new(),
read_dir,
read_dir_stack: Vec::new(),
pxar_dir_stack,
catalog,
feature_flags,
match_list,
accessor,
})
}
pub async fn extract(&mut self) -> Result<(), Error> {
loop {
let entry = match self.read_dir.next() {
Some(entry) => entry,
None => match self.handle_end_of_directory()? {
LoopState::Break => break, // done with root directory
LoopState::Continue => continue,
},
};
self.path.truncate(self.path_len);
if !entry.name.starts_with(b"/") {
self.path.reserve(entry.name.len() + 1);
self.path.push(b'/');
}
self.path.extend(&entry.name);
self.handle_entry(entry).await?;
}
Ok(())
}
fn handle_end_of_directory(&mut self) -> Result<LoopState, Error> {
// go up a directory:
self.read_dir = match self.read_dir_stack.pop() {
Some(r) => r,
None => return Ok(LoopState::Break), // out of root directory
};
self.matches = self
.matches_stack
.pop()
.ok_or_else(|| format_err!("internal iterator error (matches_stack)"))?;
self.dir_stack
.pop()
.ok_or_else(|| format_err!("internal iterator error (dir_stack)"))?;
let dir = self
.pxar_dir_stack
.pop()?
.ok_or_else(|| format_err!("internal iterator error (pxar_dir_stack)"))?;
self.path_len = self
.path_len_stack
.pop()
.ok_or_else(|| format_err!("internal iterator error (path_len_stack)"))?;
self.path.push(0);
let dirname = CStr::from_bytes_with_nul(&self.path[(self.path_len + 1)..])?;
if let Some(fd) = dir.try_as_raw_fd() {
// the directory was created, so apply the metadata:
metadata::apply(self.feature_flags, dir.metadata(), fd, dirname)?;
}
Ok(LoopState::Continue)
}
async fn handle_new_directory(
&mut self,
entry: catalog::DirEntry,
match_result: Option<MatchType>,
) -> Result<(), Error> {
// enter a new directory:
self.read_dir_stack.push(mem::replace(
&mut self.read_dir,
self.catalog.read_dir(&entry)?.into_iter(),
));
self.matches_stack.push(self.matches);
self.dir_stack.push(PathStackEntry::new(entry));
self.path_len_stack.push(self.path_len);
self.path_len = self.path.len();
Shell::walk_pxar_archive(&self.accessor, &mut self.dir_stack).await?;
let dir_pxar = self.dir_stack.last().unwrap().pxar.as_ref().unwrap();
let dir_meta = dir_pxar.entry().metadata().clone();
self.pxar_dir_stack
.push(dir_pxar.file_name().to_os_string(), dir_meta)?;
if self.matches && match_result != Some(MatchType::Exclude) {
todo!("create this directory");
}
Ok(())
}
pub async fn handle_entry(&mut self, entry: catalog::DirEntry) -> Result<(), Error> {
let match_result = self.match_list.matches(&self.path, entry.get_file_mode());
let did_match = match match_result {
Some(MatchType::Include) => true,
Some(MatchType::Exclude) => false,
None => self.matches,
};
match (did_match, &entry.attr) {
(_, DirEntryAttribute::Directory { .. }) => {
self.handle_new_directory(entry, match_result).await?;
}
(true, DirEntryAttribute::File { .. }) => {
self.dir_stack.push(PathStackEntry::new(entry));
let file = Shell::walk_pxar_archive(&self.accessor, &mut self.dir_stack).await?;
self.extract_file(file).await?;
self.dir_stack.pop();
}
(true, DirEntryAttribute::Symlink)
| (true, DirEntryAttribute::BlockDevice)
| (true, DirEntryAttribute::CharDevice)
| (true, DirEntryAttribute::Fifo)
| (true, DirEntryAttribute::Socket)
| (true, DirEntryAttribute::Hardlink) => {
let attr = entry.attr.clone();
self.dir_stack.push(PathStackEntry::new(entry));
let file = Shell::walk_pxar_archive(&self.accessor, &mut self.dir_stack).await?;
self.extract_special(file, attr).await?;
self.dir_stack.pop();
}
(false, _) => (), // skip
}
Ok(())
}
fn path(&self) -> &OsStr {
OsStr::from_bytes(&self.path)
}
async fn extract_file(&mut self, entry: FileEntry) -> Result<(), Error> {
match entry.kind() {
pxar::EntryKind::File { size, .. } => {
let mut contents = entry.contents().await?;
let parent = self.pxar_dir_stack.last_dir_fd(true)?;
let mut file = tokio::fs::File::from_std(unsafe {
std::fs::File::from_raw_fd(nix::fcntl::openat(
parent,
entry.file_name(),
OFlag::O_CREAT | OFlag::O_WRONLY | OFlag::O_CLOEXEC,
Mode::from_bits(0o600).unwrap(),
)?)
});
let extracted = tokio::io::copy(&mut contents, &mut file).await?;
if *size != extracted {
bail!("extracted {} bytes of a file of {} bytes", extracted, size);
}
metadata::apply_with_path(
Flags::DEFAULT,
entry.metadata(),
file.as_raw_fd(),
entry.file_name(),
)?;
Ok(())
}
_ => {
bail!(
"catalog file {:?} not a regular file in the archive",
self.path()
);
}
}
}
async fn extract_special(
&mut self,
entry: FileEntry,
catalog_attr: DirEntryAttribute,
) -> Result<(), Error> {
match (catalog_attr, entry.kind()) {
(DirEntryAttribute::Symlink, pxar::EntryKind::Symlink(symlink)) => {
self.extract_symlink(entry.file_name(), symlink.as_os_str(), entry.metadata())
}
(DirEntryAttribute::Symlink, _) => {
bail!(
"catalog symlink {:?} not a symlink in the archive",
self.path()
);
}
(DirEntryAttribute::Hardlink, pxar::EntryKind::Hardlink(hardlink)) => {
self.extract_hardlink(entry.file_name(), hardlink.as_os_str(), entry.metadata())
}
(DirEntryAttribute::Hardlink, _) => {
bail!(
"catalog hardlink {:?} not a hardlink in the archive",
self.path()
);
}
(ref attr, pxar::EntryKind::Device(device)) => {
self.extract_device(attr.clone(), entry.file_name(), device, entry.metadata())
}
(DirEntryAttribute::Fifo, pxar::EntryKind::Fifo) => {
self.extract_node(entry.file_name(), 0, entry.metadata())
}
(DirEntryAttribute::Fifo, _) => {
bail!("catalog fifo {:?} not a fifo in the archive", self.path());
}
(DirEntryAttribute::Socket, pxar::EntryKind::Socket) => {
self.extract_node(entry.file_name(), 0, entry.metadata())
}
(DirEntryAttribute::Socket, _) => {
bail!(
"catalog socket {:?} not a socket in the archive",
self.path()
);
}
attr => bail!("unhandled file type {:?} for {:?}", attr, self.path()),
}
}
fn extract_symlink(
&mut self,
file_name: &OsStr,
target: &OsStr,
metadata: &Metadata,
) -> Result<(), Error> {
let parent = self.pxar_dir_stack.last_dir_fd(true)?;
nix::unistd::symlinkat(target, Some(parent), file_name)?;
metadata::apply_at(
self.feature_flags,
metadata,
parent,
&CString::new(file_name.as_bytes())?,
)?;
Ok(())
}
fn extract_hardlink(
&mut self,
file_name: &OsStr,
target: &OsStr,
_metadata: &Metadata,
) -> Result<(), Error> {
crate::pxar::tools::assert_relative_path(target)?;
let parent = self.pxar_dir_stack.last_dir_fd(true)?;
let root = self.pxar_dir_stack.root_dir_fd()?;
nix::unistd::linkat(
Some(root),
target,
Some(parent),
file_name,
nix::unistd::LinkatFlags::NoSymlinkFollow,
)?;
Ok(())
}
fn extract_device(
&mut self,
attr: DirEntryAttribute,
file_name: &OsStr,
device: &pxar::format::Device,
metadata: &Metadata,
) -> Result<(), Error> {
match attr {
DirEntryAttribute::BlockDevice => {
if !metadata.stat.is_blockdev() {
bail!(
"catalog block device {:?} is not a block device in the archive",
self.path(),
);
}
}
DirEntryAttribute::CharDevice => {
if !metadata.stat.is_chardev() {
bail!(
"catalog character device {:?} is not a character device in the archive",
self.path(),
);
}
}
_ => {
bail!(
"unexpected file type for {:?} in the catalog, \
which is a device special file in the archive",
self.path(),
);
}
}
self.extract_node(file_name, device.to_dev_t(), metadata)
}
fn extract_node(
&mut self,
file_name: &OsStr,
device: libc::dev_t,
metadata: &Metadata,
) -> Result<(), Error> {
let mode = metadata.stat.mode;
let mode = u32::try_from(mode).map_err(|_| {
format_err!(
"device node's mode contains illegal bits: 0x{:x} (0o{:o})",
mode,
mode,
)
})?;
let parent = self.pxar_dir_stack.last_dir_fd(true)?;
let file_name = CString::new(file_name.as_bytes())?;
unsafe { c_result!(libc::mknodat(parent, file_name.as_ptr(), mode, device)) }
.map_err(|err| format_err!("failed to create device node: {}", err))?;
metadata::apply_at(self.feature_flags, metadata, parent, &file_name)
}
}