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|
use std::fs;
use std::io;
use std::io::prelude::*;
use std::path::Path;
use std::str;
use crate::header::{path2bytes, HeaderMode};
use crate::{other, EntryType, Header};
/// A structure for building archives
///
/// This structure has methods for building up an archive from scratch into any
/// arbitrary writer.
pub struct Builder<W: Write> {
mode: HeaderMode,
follow: bool,
finished: bool,
obj: Option<W>,
}
impl<W: Write> Builder<W> {
/// Create a new archive builder with the underlying object as the
/// destination of all data written. The builder will use
/// `HeaderMode::Complete` by default.
pub fn new(obj: W) -> Builder<W> {
Builder {
mode: HeaderMode::Complete,
follow: true,
finished: false,
obj: Some(obj),
}
}
/// Changes the HeaderMode that will be used when reading fs Metadata for
/// methods that implicitly read metadata for an input Path. Notably, this
/// does _not_ apply to `append(Header)`.
pub fn mode(&mut self, mode: HeaderMode) {
self.mode = mode;
}
/// Follow symlinks, archiving the contents of the file they point to rather
/// than adding a symlink to the archive. Defaults to true.
pub fn follow_symlinks(&mut self, follow: bool) {
self.follow = follow;
}
/// Gets shared reference to the underlying object.
pub fn get_ref(&self) -> &W {
self.obj.as_ref().unwrap()
}
/// Gets mutable reference to the underlying object.
///
/// Note that care must be taken while writing to the underlying
/// object. But, e.g. `get_mut().flush()` is claimed to be safe and
/// useful in the situations when one needs to be ensured that
/// tar entry was flushed to the disk.
pub fn get_mut(&mut self) -> &mut W {
self.obj.as_mut().unwrap()
}
/// Unwrap this archive, returning the underlying object.
///
/// This function will finish writing the archive if the `finish` function
/// hasn't yet been called, returning any I/O error which happens during
/// that operation.
pub fn into_inner(mut self) -> io::Result<W> {
if !self.finished {
self.finish()?;
}
Ok(self.obj.take().unwrap())
}
/// Adds a new entry to this archive.
///
/// This function will append the header specified, followed by contents of
/// the stream specified by `data`. To produce a valid archive the `size`
/// field of `header` must be the same as the length of the stream that's
/// being written. Additionally the checksum for the header should have been
/// set via the `set_cksum` method.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Also note that after all entries have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Errors
///
/// This function will return an error for any intermittent I/O error which
/// occurs when either reading or writing.
///
/// # Examples
///
/// ```
/// use tar::{Builder, Header};
///
/// let mut header = Header::new_gnu();
/// header.set_path("foo").unwrap();
/// header.set_size(4);
/// header.set_cksum();
///
/// let mut data: &[u8] = &[1, 2, 3, 4];
///
/// let mut ar = Builder::new(Vec::new());
/// ar.append(&header, data).unwrap();
/// let data = ar.into_inner().unwrap();
/// ```
pub fn append<R: Read>(&mut self, header: &Header, mut data: R) -> io::Result<()> {
append(self.get_mut(), header, &mut data)
}
/// Adds a new entry to this archive with the specified path.
///
/// This function will set the specified path in the given header, which may
/// require appending a GNU long-name extension entry to the archive first.
/// The checksum for the header will be automatically updated via the
/// `set_cksum` method after setting the path. No other metadata in the
/// header will be modified.
///
/// Then it will append the header, followed by contents of the stream
/// specified by `data`. To produce a valid archive the `size` field of
/// `header` must be the same as the length of the stream that's being
/// written.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Also note that after all entries have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Errors
///
/// This function will return an error for any intermittent I/O error which
/// occurs when either reading or writing.
///
/// # Examples
///
/// ```
/// use tar::{Builder, Header};
///
/// let mut header = Header::new_gnu();
/// header.set_size(4);
/// header.set_cksum();
///
/// let mut data: &[u8] = &[1, 2, 3, 4];
///
/// let mut ar = Builder::new(Vec::new());
/// ar.append_data(&mut header, "really/long/path/to/foo", data).unwrap();
/// let data = ar.into_inner().unwrap();
/// ```
pub fn append_data<P: AsRef<Path>, R: Read>(
&mut self,
header: &mut Header,
path: P,
data: R,
) -> io::Result<()> {
prepare_header_path(self.get_mut(), header, path.as_ref())?;
header.set_cksum();
self.append(&header, data)
}
/// Adds a new link (symbolic or hard) entry to this archive with the specified path and target.
///
/// This function is similar to [`Self::append_data`] which supports long filenames,
/// but also supports long link targets using GNU extensions if necessary.
/// You must set the entry type to either [`EntryType::Link`] or [`EntryType::Symlink`].
/// The `set_cksum` method will be invoked after setting the path. No other metadata in the
/// header will be modified.
///
/// If you are intending to use GNU extensions, you must use this method over calling
/// [`Header::set_link_name`] because that function will fail on long links.
///
/// Similar constraints around the position of the archive and completion
/// apply as with [`Self::append_data`].
///
/// # Errors
///
/// This function will return an error for any intermittent I/O error which
/// occurs when either reading or writing.
///
/// # Examples
///
/// ```
/// use tar::{Builder, Header, EntryType};
///
/// let mut ar = Builder::new(Vec::new());
/// let mut header = Header::new_gnu();
/// header.set_username("foo");
/// header.set_entry_type(EntryType::Symlink);
/// header.set_size(0);
/// ar.append_link(&mut header, "really/long/path/to/foo", "other/really/long/target").unwrap();
/// let data = ar.into_inner().unwrap();
/// ```
pub fn append_link<P: AsRef<Path>, T: AsRef<Path>>(
&mut self,
header: &mut Header,
path: P,
target: T,
) -> io::Result<()> {
self._append_link(header, path.as_ref(), target.as_ref())
}
fn _append_link(&mut self, header: &mut Header, path: &Path, target: &Path) -> io::Result<()> {
prepare_header_path(self.get_mut(), header, path)?;
prepare_header_link(self.get_mut(), header, target)?;
header.set_cksum();
self.append(&header, std::io::empty())
}
/// Adds a file on the local filesystem to this archive.
///
/// This function will open the file specified by `path` and insert the file
/// into the archive with the appropriate metadata set, returning any I/O
/// error which occurs while writing. The path name for the file inside of
/// this archive will be the same as `path`, and it is required that the
/// path is a relative path.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Also note that after all files have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Examples
///
/// ```no_run
/// use tar::Builder;
///
/// let mut ar = Builder::new(Vec::new());
///
/// ar.append_path("foo/bar.txt").unwrap();
/// ```
pub fn append_path<P: AsRef<Path>>(&mut self, path: P) -> io::Result<()> {
let mode = self.mode.clone();
let follow = self.follow;
append_path_with_name(self.get_mut(), path.as_ref(), None, mode, follow)
}
/// Adds a file on the local filesystem to this archive under another name.
///
/// This function will open the file specified by `path` and insert the file
/// into the archive as `name` with appropriate metadata set, returning any
/// I/O error which occurs while writing. The path name for the file inside
/// of this archive will be `name` is required to be a relative path.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Note if the `path` is a directory. This will just add an entry to the archive,
/// rather than contents of the directory.
///
/// Also note that after all files have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Examples
///
/// ```no_run
/// use tar::Builder;
///
/// let mut ar = Builder::new(Vec::new());
///
/// // Insert the local file "foo/bar.txt" in the archive but with the name
/// // "bar/foo.txt".
/// ar.append_path_with_name("foo/bar.txt", "bar/foo.txt").unwrap();
/// ```
pub fn append_path_with_name<P: AsRef<Path>, N: AsRef<Path>>(
&mut self,
path: P,
name: N,
) -> io::Result<()> {
let mode = self.mode.clone();
let follow = self.follow;
append_path_with_name(
self.get_mut(),
path.as_ref(),
Some(name.as_ref()),
mode,
follow,
)
}
/// Adds a file to this archive with the given path as the name of the file
/// in the archive.
///
/// This will use the metadata of `file` to populate a `Header`, and it will
/// then append the file to the archive with the name `path`.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Also note that after all files have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Examples
///
/// ```no_run
/// use std::fs::File;
/// use tar::Builder;
///
/// let mut ar = Builder::new(Vec::new());
///
/// // Open the file at one location, but insert it into the archive with a
/// // different name.
/// let mut f = File::open("foo/bar/baz.txt").unwrap();
/// ar.append_file("bar/baz.txt", &mut f).unwrap();
/// ```
pub fn append_file<P: AsRef<Path>>(&mut self, path: P, file: &mut fs::File) -> io::Result<()> {
let mode = self.mode.clone();
append_file(self.get_mut(), path.as_ref(), file, mode)
}
/// Adds a directory to this archive with the given path as the name of the
/// directory in the archive.
///
/// This will use `stat` to populate a `Header`, and it will then append the
/// directory to the archive with the name `path`.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Note this will not add the contents of the directory to the archive.
/// See `append_dir_all` for recusively adding the contents of the directory.
///
/// Also note that after all files have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Examples
///
/// ```
/// use std::fs;
/// use tar::Builder;
///
/// let mut ar = Builder::new(Vec::new());
///
/// // Use the directory at one location, but insert it into the archive
/// // with a different name.
/// ar.append_dir("bardir", ".").unwrap();
/// ```
pub fn append_dir<P, Q>(&mut self, path: P, src_path: Q) -> io::Result<()>
where
P: AsRef<Path>,
Q: AsRef<Path>,
{
let mode = self.mode.clone();
append_dir(self.get_mut(), path.as_ref(), src_path.as_ref(), mode)
}
/// Adds a directory and all of its contents (recursively) to this archive
/// with the given path as the name of the directory in the archive.
///
/// Note that this will not attempt to seek the archive to a valid position,
/// so if the archive is in the middle of a read or some other similar
/// operation then this may corrupt the archive.
///
/// Also note that after all files have been written to an archive the
/// `finish` function needs to be called to finish writing the archive.
///
/// # Examples
///
/// ```
/// use std::fs;
/// use tar::Builder;
///
/// let mut ar = Builder::new(Vec::new());
///
/// // Use the directory at one location, but insert it into the archive
/// // with a different name.
/// ar.append_dir_all("bardir", ".").unwrap();
/// ```
pub fn append_dir_all<P, Q>(&mut self, path: P, src_path: Q) -> io::Result<()>
where
P: AsRef<Path>,
Q: AsRef<Path>,
{
let mode = self.mode.clone();
let follow = self.follow;
append_dir_all(
self.get_mut(),
path.as_ref(),
src_path.as_ref(),
mode,
follow,
)
}
/// Finish writing this archive, emitting the termination sections.
///
/// This function should only be called when the archive has been written
/// entirely and if an I/O error happens the underlying object still needs
/// to be acquired.
///
/// In most situations the `into_inner` method should be preferred.
pub fn finish(&mut self) -> io::Result<()> {
if self.finished {
return Ok(());
}
self.finished = true;
self.get_mut().write_all(&[0; 1024])
}
}
fn append(mut dst: &mut dyn Write, header: &Header, mut data: &mut dyn Read) -> io::Result<()> {
dst.write_all(header.as_bytes())?;
let len = io::copy(&mut data, &mut dst)?;
// Pad with zeros if necessary.
let buf = [0; 512];
let remaining = 512 - (len % 512);
if remaining < 512 {
dst.write_all(&buf[..remaining as usize])?;
}
Ok(())
}
fn append_path_with_name(
dst: &mut dyn Write,
path: &Path,
name: Option<&Path>,
mode: HeaderMode,
follow: bool,
) -> io::Result<()> {
let stat = if follow {
fs::metadata(path).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting metadata for {}", err, path.display()),
)
})?
} else {
fs::symlink_metadata(path).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting metadata for {}", err, path.display()),
)
})?
};
let ar_name = name.unwrap_or(path);
if stat.is_file() {
append_fs(dst, ar_name, &stat, &mut fs::File::open(path)?, mode, None)
} else if stat.is_dir() {
append_fs(dst, ar_name, &stat, &mut io::empty(), mode, None)
} else if stat.file_type().is_symlink() {
let link_name = fs::read_link(path)?;
append_fs(
dst,
ar_name,
&stat,
&mut io::empty(),
mode,
Some(&link_name),
)
} else {
#[cfg(unix)]
{
append_special(dst, path, &stat, mode)
}
#[cfg(not(unix))]
{
Err(other(&format!("{} has unknown file type", path.display())))
}
}
}
#[cfg(unix)]
fn append_special(
dst: &mut dyn Write,
path: &Path,
stat: &fs::Metadata,
mode: HeaderMode,
) -> io::Result<()> {
use ::std::os::unix::fs::{FileTypeExt, MetadataExt};
let file_type = stat.file_type();
let entry_type;
if file_type.is_socket() {
// sockets can't be archived
return Err(other(&format!(
"{}: socket can not be archived",
path.display()
)));
} else if file_type.is_fifo() {
entry_type = EntryType::Fifo;
} else if file_type.is_char_device() {
entry_type = EntryType::Char;
} else if file_type.is_block_device() {
entry_type = EntryType::Block;
} else {
return Err(other(&format!("{} has unknown file type", path.display())));
}
let mut header = Header::new_gnu();
header.set_metadata_in_mode(stat, mode);
prepare_header_path(dst, &mut header, path)?;
header.set_entry_type(entry_type);
let dev_id = stat.rdev();
let dev_major = ((dev_id >> 32) & 0xffff_f000) | ((dev_id >> 8) & 0x0000_0fff);
let dev_minor = ((dev_id >> 12) & 0xffff_ff00) | ((dev_id) & 0x0000_00ff);
header.set_device_major(dev_major as u32)?;
header.set_device_minor(dev_minor as u32)?;
header.set_cksum();
dst.write_all(header.as_bytes())?;
Ok(())
}
fn append_file(
dst: &mut dyn Write,
path: &Path,
file: &mut fs::File,
mode: HeaderMode,
) -> io::Result<()> {
let stat = file.metadata()?;
append_fs(dst, path, &stat, file, mode, None)
}
fn append_dir(
dst: &mut dyn Write,
path: &Path,
src_path: &Path,
mode: HeaderMode,
) -> io::Result<()> {
let stat = fs::metadata(src_path)?;
append_fs(dst, path, &stat, &mut io::empty(), mode, None)
}
fn prepare_header(size: u64, entry_type: u8) -> Header {
let mut header = Header::new_gnu();
let name = b"././@LongLink";
header.as_gnu_mut().unwrap().name[..name.len()].clone_from_slice(&name[..]);
header.set_mode(0o644);
header.set_uid(0);
header.set_gid(0);
header.set_mtime(0);
// + 1 to be compliant with GNU tar
header.set_size(size + 1);
header.set_entry_type(EntryType::new(entry_type));
header.set_cksum();
header
}
fn prepare_header_path(dst: &mut dyn Write, header: &mut Header, path: &Path) -> io::Result<()> {
// Try to encode the path directly in the header, but if it ends up not
// working (probably because it's too long) then try to use the GNU-specific
// long name extension by emitting an entry which indicates that it's the
// filename.
if let Err(e) = header.set_path(path) {
let data = path2bytes(&path)?;
let max = header.as_old().name.len();
// Since `e` isn't specific enough to let us know the path is indeed too
// long, verify it first before using the extension.
if data.len() < max {
return Err(e);
}
let header2 = prepare_header(data.len() as u64, b'L');
// null-terminated string
let mut data2 = data.chain(io::repeat(0).take(1));
append(dst, &header2, &mut data2)?;
// Truncate the path to store in the header we're about to emit to
// ensure we've got something at least mentioned. Note that we use
// `str`-encoding to be compatible with Windows, but in general the
// entry in the header itself shouldn't matter too much since extraction
// doesn't look at it.
let truncated = match str::from_utf8(&data[..max]) {
Ok(s) => s,
Err(e) => str::from_utf8(&data[..e.valid_up_to()]).unwrap(),
};
header.set_path(truncated)?;
}
Ok(())
}
fn prepare_header_link(
dst: &mut dyn Write,
header: &mut Header,
link_name: &Path,
) -> io::Result<()> {
// Same as previous function but for linkname
if let Err(e) = header.set_link_name(&link_name) {
let data = path2bytes(&link_name)?;
if data.len() < header.as_old().linkname.len() {
return Err(e);
}
let header2 = prepare_header(data.len() as u64, b'K');
let mut data2 = data.chain(io::repeat(0).take(1));
append(dst, &header2, &mut data2)?;
}
Ok(())
}
fn append_fs(
dst: &mut dyn Write,
path: &Path,
meta: &fs::Metadata,
read: &mut dyn Read,
mode: HeaderMode,
link_name: Option<&Path>,
) -> io::Result<()> {
let mut header = Header::new_gnu();
prepare_header_path(dst, &mut header, path)?;
header.set_metadata_in_mode(meta, mode);
if let Some(link_name) = link_name {
prepare_header_link(dst, &mut header, link_name)?;
}
header.set_cksum();
append(dst, &header, read)
}
fn append_dir_all(
dst: &mut dyn Write,
path: &Path,
src_path: &Path,
mode: HeaderMode,
follow: bool,
) -> io::Result<()> {
let mut stack = vec![(src_path.to_path_buf(), true, false)];
while let Some((src, is_dir, is_symlink)) = stack.pop() {
let dest = path.join(src.strip_prefix(&src_path).unwrap());
// In case of a symlink pointing to a directory, is_dir is false, but src.is_dir() will return true
if is_dir || (is_symlink && follow && src.is_dir()) {
for entry in fs::read_dir(&src)? {
let entry = entry?;
let file_type = entry.file_type()?;
stack.push((entry.path(), file_type.is_dir(), file_type.is_symlink()));
}
if dest != Path::new("") {
append_dir(dst, &dest, &src, mode)?;
}
} else if !follow && is_symlink {
let stat = fs::symlink_metadata(&src)?;
let link_name = fs::read_link(&src)?;
append_fs(dst, &dest, &stat, &mut io::empty(), mode, Some(&link_name))?;
} else {
#[cfg(unix)]
{
let stat = fs::metadata(&src)?;
if !stat.is_file() {
append_special(dst, &dest, &stat, mode)?;
continue;
}
}
append_file(dst, &dest, &mut fs::File::open(src)?, mode)?;
}
}
Ok(())
}
impl<W: Write> Drop for Builder<W> {
fn drop(&mut self) {
let _ = self.finish();
}
}
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