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header.rs
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header.rs
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#[cfg(unix)]
use std::os::unix::prelude::*;
#[cfg(windows)]
use std::os::windows::prelude::*;
use std::borrow::Cow;
use std::fmt;
use std::fs;
use std::io;
use std::iter;
use std::iter::{once, repeat};
use std::mem;
use std::path::{Component, Path, PathBuf};
use std::str;
use crate::other;
use crate::EntryType;
/// A deterministic, arbitrary, non-zero timestamp that use used as `mtime`
/// of headers when [`HeaderMode::Deterministic`] is used.
///
/// This value, chosen after careful deliberation, corresponds to _Jul 23, 2006_,
/// which is the date of the first commit for what would become Rust.
#[cfg(any(unix, windows))]
const DETERMINISTIC_TIMESTAMP: u64 = 1153704088;
pub(crate) const GNU_SPARSE_HEADERS_COUNT: usize = 4;
pub(crate) const GNU_EXT_SPARSE_HEADERS_COUNT: usize = 21;
/// Representation of the header of an entry in an archive
#[repr(C)]
#[allow(missing_docs)]
pub struct Header {
bytes: [u8; 512],
}
/// Declares the information that should be included when filling a Header
/// from filesystem metadata.
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
#[non_exhaustive]
pub enum HeaderMode {
/// All supported metadata, including mod/access times and ownership will
/// be included.
Complete,
/// Only metadata that is directly relevant to the identity of a file will
/// be included. In particular, ownership and mod/access times are excluded.
Deterministic,
}
/// Representation of the header of an entry in an archive
#[repr(C)]
#[allow(missing_docs)]
pub struct OldHeader {
pub name: [u8; 100],
pub mode: [u8; 8],
pub uid: [u8; 8],
pub gid: [u8; 8],
pub size: [u8; 12],
pub mtime: [u8; 12],
pub cksum: [u8; 8],
pub linkflag: [u8; 1],
pub linkname: [u8; 100],
pub pad: [u8; 255],
}
/// Representation of the header of an entry in an archive
#[repr(C)]
#[allow(missing_docs)]
pub struct UstarHeader {
pub name: [u8; 100],
pub mode: [u8; 8],
pub uid: [u8; 8],
pub gid: [u8; 8],
pub size: [u8; 12],
pub mtime: [u8; 12],
pub cksum: [u8; 8],
pub typeflag: [u8; 1],
pub linkname: [u8; 100],
// UStar format
pub magic: [u8; 6],
pub version: [u8; 2],
pub uname: [u8; 32],
pub gname: [u8; 32],
pub dev_major: [u8; 8],
pub dev_minor: [u8; 8],
pub prefix: [u8; 155],
pub pad: [u8; 12],
}
/// Representation of the header of an entry in an archive
#[repr(C)]
#[allow(missing_docs)]
pub struct GnuHeader {
pub name: [u8; 100],
pub mode: [u8; 8],
pub uid: [u8; 8],
pub gid: [u8; 8],
pub size: [u8; 12],
pub mtime: [u8; 12],
pub cksum: [u8; 8],
pub typeflag: [u8; 1],
pub linkname: [u8; 100],
// GNU format
pub magic: [u8; 6],
pub version: [u8; 2],
pub uname: [u8; 32],
pub gname: [u8; 32],
pub dev_major: [u8; 8],
pub dev_minor: [u8; 8],
pub atime: [u8; 12],
pub ctime: [u8; 12],
pub offset: [u8; 12],
pub longnames: [u8; 4],
pub unused: [u8; 1],
pub sparse: [GnuSparseHeader; GNU_SPARSE_HEADERS_COUNT],
pub isextended: [u8; 1],
pub realsize: [u8; 12],
pub pad: [u8; 17],
}
/// Description of the header of a spare entry.
///
/// Specifies the offset/number of bytes of a chunk of data in octal.
#[repr(C)]
#[allow(missing_docs)]
pub struct GnuSparseHeader {
pub offset: [u8; 12],
pub numbytes: [u8; 12],
}
/// Representation of the entry found to represent extended GNU sparse files.
///
/// When a `GnuHeader` has the `isextended` flag set to `1` then the contents of
/// the next entry will be one of these headers.
#[repr(C)]
#[allow(missing_docs)]
pub struct GnuExtSparseHeader {
pub sparse: [GnuSparseHeader; GNU_EXT_SPARSE_HEADERS_COUNT],
pub isextended: [u8; 1],
pub padding: [u8; 7],
}
impl Header {
/// Creates a new blank GNU header.
///
/// The GNU style header is the default for this library and allows various
/// extensions such as long path names, long link names, and setting the
/// atime/ctime metadata attributes of files.
pub fn new_gnu() -> Header {
let mut header = Header { bytes: [0; 512] };
unsafe {
let gnu = cast_mut::<_, GnuHeader>(&mut header);
gnu.magic = *b"ustar ";
gnu.version = *b" \0";
}
header.set_mtime(0);
header
}
/// Creates a new blank UStar header.
///
/// The UStar style header is an extension of the original archive header
/// which enables some extra metadata along with storing a longer (but not
/// too long) path name.
///
/// UStar is also the basis used for pax archives.
pub fn new_ustar() -> Header {
let mut header = Header { bytes: [0; 512] };
unsafe {
let gnu = cast_mut::<_, UstarHeader>(&mut header);
gnu.magic = *b"ustar\0";
gnu.version = *b"00";
}
header.set_mtime(0);
header
}
/// Creates a new blank old header.
///
/// This header format is the original archive header format which all other
/// versions are compatible with (e.g. they are a superset). This header
/// format limits the path name limit and isn't able to contain extra
/// metadata like atime/ctime.
pub fn new_old() -> Header {
let mut header = Header { bytes: [0; 512] };
header.set_mtime(0);
header
}
fn is_ustar(&self) -> bool {
let ustar = unsafe { cast::<_, UstarHeader>(self) };
ustar.magic[..] == b"ustar\0"[..] && ustar.version[..] == b"00"[..]
}
fn is_gnu(&self) -> bool {
let ustar = unsafe { cast::<_, UstarHeader>(self) };
ustar.magic[..] == b"ustar "[..] && ustar.version[..] == b" \0"[..]
}
/// View this archive header as a raw "old" archive header.
///
/// This view will always succeed as all archive header formats will fill
/// out at least the fields specified in the old header format.
pub fn as_old(&self) -> &OldHeader {
unsafe { cast(self) }
}
/// Same as `as_old`, but the mutable version.
pub fn as_old_mut(&mut self) -> &mut OldHeader {
unsafe { cast_mut(self) }
}
/// View this archive header as a raw UStar archive header.
///
/// The UStar format is an extension to the tar archive format which enables
/// longer pathnames and a few extra attributes such as the group and user
/// name.
///
/// This cast may not succeed as this function will test whether the
/// magic/version fields of the UStar format have the appropriate values,
/// returning `None` if they aren't correct.
pub fn as_ustar(&self) -> Option<&UstarHeader> {
if self.is_ustar() {
Some(unsafe { cast(self) })
} else {
None
}
}
/// Same as `as_ustar_mut`, but the mutable version.
pub fn as_ustar_mut(&mut self) -> Option<&mut UstarHeader> {
if self.is_ustar() {
Some(unsafe { cast_mut(self) })
} else {
None
}
}
/// View this archive header as a raw GNU archive header.
///
/// The GNU format is an extension to the tar archive format which enables
/// longer pathnames and a few extra attributes such as the group and user
/// name.
///
/// This cast may not succeed as this function will test whether the
/// magic/version fields of the GNU format have the appropriate values,
/// returning `None` if they aren't correct.
pub fn as_gnu(&self) -> Option<&GnuHeader> {
if self.is_gnu() {
Some(unsafe { cast(self) })
} else {
None
}
}
/// Same as `as_gnu`, but the mutable version.
pub fn as_gnu_mut(&mut self) -> Option<&mut GnuHeader> {
if self.is_gnu() {
Some(unsafe { cast_mut(self) })
} else {
None
}
}
/// Treats the given byte slice as a header.
///
/// Panics if the length of the passed slice is not equal to 512.
pub fn from_byte_slice(bytes: &[u8]) -> &Header {
assert_eq!(bytes.len(), mem::size_of::<Header>());
assert_eq!(mem::align_of_val(bytes), mem::align_of::<Header>());
unsafe { &*(bytes.as_ptr() as *const Header) }
}
/// Returns a view into this header as a byte array.
pub fn as_bytes(&self) -> &[u8; 512] {
&self.bytes
}
/// Returns a view into this header as a byte array.
pub fn as_mut_bytes(&mut self) -> &mut [u8; 512] {
&mut self.bytes
}
/// Blanket sets the metadata in this header from the metadata argument
/// provided.
///
/// This is useful for initializing a `Header` from the OS's metadata from a
/// file. By default, this will use `HeaderMode::Complete` to include all
/// metadata.
pub fn set_metadata(&mut self, meta: &fs::Metadata) {
self.fill_from(meta, HeaderMode::Complete);
}
/// Sets only the metadata relevant to the given HeaderMode in this header
/// from the metadata argument provided.
pub fn set_metadata_in_mode(&mut self, meta: &fs::Metadata, mode: HeaderMode) {
self.fill_from(meta, mode);
}
/// Returns the size of entry's data this header represents.
///
/// This is different from `Header::size` for sparse files, which have
/// some longer `size()` but shorter `entry_size()`. The `entry_size()`
/// listed here should be the number of bytes in the archive this header
/// describes.
///
/// May return an error if the field is corrupted.
pub fn entry_size(&self) -> io::Result<u64> {
num_field_wrapper_from(&self.as_old().size).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting size for {}", err, self.path_lossy()),
)
})
}
/// Returns the file size this header represents.
///
/// May return an error if the field is corrupted.
pub fn size(&self) -> io::Result<u64> {
if self.entry_type().is_gnu_sparse() {
self.as_gnu()
.ok_or_else(|| other("sparse header was not a gnu header"))
.and_then(|h| h.real_size())
} else {
self.entry_size()
}
}
/// Encodes the `size` argument into the size field of this header.
pub fn set_size(&mut self, size: u64) {
num_field_wrapper_into(&mut self.as_old_mut().size, size);
}
/// Returns the raw path name stored in this header.
///
/// This method may fail if the pathname is not valid Unicode and this is
/// called on a Windows platform.
///
/// Note that this function will convert any `\` characters to directory
/// separators.
pub fn path(&self) -> io::Result<Cow<Path>> {
bytes2path(self.path_bytes())
}
/// Returns the pathname stored in this header as a byte array.
///
/// This function is guaranteed to succeed, but you may wish to call the
/// `path` method to convert to a `Path`.
///
/// Note that this function will convert any `\` characters to directory
/// separators.
pub fn path_bytes(&self) -> Cow<[u8]> {
if let Some(ustar) = self.as_ustar() {
ustar.path_bytes()
} else {
let name = truncate(&self.as_old().name);
Cow::Borrowed(name)
}
}
/// Gets the path in a "lossy" way, used for error reporting ONLY.
fn path_lossy(&self) -> String {
String::from_utf8_lossy(&self.path_bytes()).to_string()
}
/// Sets the path name for this header.
///
/// This function will set the pathname listed in this header, encoding it
/// in the appropriate format. May fail if the path is too long or if the
/// path specified is not Unicode and this is a Windows platform. Will
/// strip out any "." path component, which signifies the current directory.
///
/// Note: This function does not support names over 100 bytes, or paths
/// over 255 bytes, even for formats that support longer names. Instead,
/// use `Builder` methods to insert a long-name extension at the same time
/// as the file content.
pub fn set_path<P: AsRef<Path>>(&mut self, p: P) -> io::Result<()> {
self._set_path(p.as_ref())
}
fn _set_path(&mut self, path: &Path) -> io::Result<()> {
if let Some(ustar) = self.as_ustar_mut() {
return ustar.set_path(path);
}
copy_path_into(&mut self.as_old_mut().name, path, false).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when setting path for {}", err, self.path_lossy()),
)
})
}
/// Returns the link name stored in this header, if any is found.
///
/// This method may fail if the pathname is not valid Unicode and this is
/// called on a Windows platform. `Ok(None)` being returned, however,
/// indicates that the link name was not present.
///
/// Note that this function will convert any `\` characters to directory
/// separators.
pub fn link_name(&self) -> io::Result<Option<Cow<Path>>> {
match self.link_name_bytes() {
Some(bytes) => bytes2path(bytes).map(Some),
None => Ok(None),
}
}
/// Returns the link name stored in this header as a byte array, if any.
///
/// This function is guaranteed to succeed, but you may wish to call the
/// `link_name` method to convert to a `Path`.
///
/// Note that this function will convert any `\` characters to directory
/// separators.
pub fn link_name_bytes(&self) -> Option<Cow<[u8]>> {
let old = self.as_old();
if old.linkname[0] != 0 {
Some(Cow::Borrowed(truncate(&old.linkname)))
} else {
None
}
}
/// Sets the link name for this header.
///
/// This function will set the linkname listed in this header, encoding it
/// in the appropriate format. May fail if the link name is too long or if
/// the path specified is not Unicode and this is a Windows platform. Will
/// strip out any "." path component, which signifies the current directory.
///
/// To use GNU long link names, prefer instead [`crate::Builder::append_link`].
pub fn set_link_name<P: AsRef<Path>>(&mut self, p: P) -> io::Result<()> {
self._set_link_name(p.as_ref())
}
fn _set_link_name(&mut self, path: &Path) -> io::Result<()> {
copy_path_into(&mut self.as_old_mut().linkname, path, true).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when setting link name for {}", err, self.path_lossy()),
)
})
}
/// Sets the link name for this header without any transformation.
///
/// This function is like [`Self::set_link_name`] but accepts an arbitrary byte array.
/// Hence it will not perform any canonicalization, such as replacing duplicate `//` with `/`.
pub fn set_link_name_literal<P: AsRef<[u8]>>(&mut self, p: P) -> io::Result<()> {
self._set_link_name_literal(p.as_ref())
}
fn _set_link_name_literal(&mut self, bytes: &[u8]) -> io::Result<()> {
copy_into(&mut self.as_old_mut().linkname, bytes)
}
/// Returns the mode bits for this file
///
/// May return an error if the field is corrupted.
pub fn mode(&self) -> io::Result<u32> {
octal_from(&self.as_old().mode)
.map(|u| u as u32)
.map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting mode for {}", err, self.path_lossy()),
)
})
}
/// Encodes the `mode` provided into this header.
pub fn set_mode(&mut self, mode: u32) {
octal_into(&mut self.as_old_mut().mode, mode);
}
/// Returns the value of the owner's user ID field
///
/// May return an error if the field is corrupted.
pub fn uid(&self) -> io::Result<u64> {
num_field_wrapper_from(&self.as_old().uid)
.map(|u| u as u64)
.map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting uid for {}", err, self.path_lossy()),
)
})
}
/// Encodes the `uid` provided into this header.
pub fn set_uid(&mut self, uid: u64) {
num_field_wrapper_into(&mut self.as_old_mut().uid, uid);
}
/// Returns the value of the group's user ID field
pub fn gid(&self) -> io::Result<u64> {
num_field_wrapper_from(&self.as_old().gid)
.map(|u| u as u64)
.map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting gid for {}", err, self.path_lossy()),
)
})
}
/// Encodes the `gid` provided into this header.
pub fn set_gid(&mut self, gid: u64) {
num_field_wrapper_into(&mut self.as_old_mut().gid, gid);
}
/// Returns the last modification time in Unix time format
pub fn mtime(&self) -> io::Result<u64> {
num_field_wrapper_from(&self.as_old().mtime).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting mtime for {}", err, self.path_lossy()),
)
})
}
/// Encodes the `mtime` provided into this header.
///
/// Note that this time is typically a number of seconds passed since
/// January 1, 1970.
pub fn set_mtime(&mut self, mtime: u64) {
num_field_wrapper_into(&mut self.as_old_mut().mtime, mtime);
}
/// Return the user name of the owner of this file.
///
/// A return value of `Ok(Some(..))` indicates that the user name was
/// present and was valid utf-8, `Ok(None)` indicates that the user name is
/// not present in this archive format, and `Err` indicates that the user
/// name was present but was not valid utf-8.
pub fn username(&self) -> Result<Option<&str>, str::Utf8Error> {
match self.username_bytes() {
Some(bytes) => str::from_utf8(bytes).map(Some),
None => Ok(None),
}
}
/// Returns the user name of the owner of this file, if present.
///
/// A return value of `None` indicates that the user name is not present in
/// this header format.
pub fn username_bytes(&self) -> Option<&[u8]> {
if let Some(ustar) = self.as_ustar() {
Some(ustar.username_bytes())
} else if let Some(gnu) = self.as_gnu() {
Some(gnu.username_bytes())
} else {
None
}
}
/// Sets the username inside this header.
///
/// This function will return an error if this header format cannot encode a
/// user name or the name is too long.
pub fn set_username(&mut self, name: &str) -> io::Result<()> {
if let Some(ustar) = self.as_ustar_mut() {
return ustar.set_username(name);
}
if let Some(gnu) = self.as_gnu_mut() {
gnu.set_username(name)
} else {
Err(other("not a ustar or gnu archive, cannot set username"))
}
}
/// Return the group name of the owner of this file.
///
/// A return value of `Ok(Some(..))` indicates that the group name was
/// present and was valid utf-8, `Ok(None)` indicates that the group name is
/// not present in this archive format, and `Err` indicates that the group
/// name was present but was not valid utf-8.
pub fn groupname(&self) -> Result<Option<&str>, str::Utf8Error> {
match self.groupname_bytes() {
Some(bytes) => str::from_utf8(bytes).map(Some),
None => Ok(None),
}
}
/// Returns the group name of the owner of this file, if present.
///
/// A return value of `None` indicates that the group name is not present in
/// this header format.
pub fn groupname_bytes(&self) -> Option<&[u8]> {
if let Some(ustar) = self.as_ustar() {
Some(ustar.groupname_bytes())
} else if let Some(gnu) = self.as_gnu() {
Some(gnu.groupname_bytes())
} else {
None
}
}
/// Sets the group name inside this header.
///
/// This function will return an error if this header format cannot encode a
/// group name or the name is too long.
pub fn set_groupname(&mut self, name: &str) -> io::Result<()> {
if let Some(ustar) = self.as_ustar_mut() {
return ustar.set_groupname(name);
}
if let Some(gnu) = self.as_gnu_mut() {
gnu.set_groupname(name)
} else {
Err(other("not a ustar or gnu archive, cannot set groupname"))
}
}
/// Returns the device major number, if present.
///
/// This field may not be present in all archives, and it may not be
/// correctly formed in all archives. `Ok(Some(..))` means it was present
/// and correctly decoded, `Ok(None)` indicates that this header format does
/// not include the device major number, and `Err` indicates that it was
/// present and failed to decode.
pub fn device_major(&self) -> io::Result<Option<u32>> {
if let Some(ustar) = self.as_ustar() {
ustar.device_major().map(Some)
} else if let Some(gnu) = self.as_gnu() {
gnu.device_major().map(Some)
} else {
Ok(None)
}
}
/// Encodes the value `major` into the dev_major field of this header.
///
/// This function will return an error if this header format cannot encode a
/// major device number.
pub fn set_device_major(&mut self, major: u32) -> io::Result<()> {
if let Some(ustar) = self.as_ustar_mut() {
ustar.set_device_major(major);
Ok(())
} else if let Some(gnu) = self.as_gnu_mut() {
gnu.set_device_major(major);
Ok(())
} else {
Err(other("not a ustar or gnu archive, cannot set dev_major"))
}
}
/// Returns the device minor number, if present.
///
/// This field may not be present in all archives, and it may not be
/// correctly formed in all archives. `Ok(Some(..))` means it was present
/// and correctly decoded, `Ok(None)` indicates that this header format does
/// not include the device minor number, and `Err` indicates that it was
/// present and failed to decode.
pub fn device_minor(&self) -> io::Result<Option<u32>> {
if let Some(ustar) = self.as_ustar() {
ustar.device_minor().map(Some)
} else if let Some(gnu) = self.as_gnu() {
gnu.device_minor().map(Some)
} else {
Ok(None)
}
}
/// Encodes the value `minor` into the dev_minor field of this header.
///
/// This function will return an error if this header format cannot encode a
/// minor device number.
pub fn set_device_minor(&mut self, minor: u32) -> io::Result<()> {
if let Some(ustar) = self.as_ustar_mut() {
ustar.set_device_minor(minor);
Ok(())
} else if let Some(gnu) = self.as_gnu_mut() {
gnu.set_device_minor(minor);
Ok(())
} else {
Err(other("not a ustar or gnu archive, cannot set dev_minor"))
}
}
/// Returns the type of file described by this header.
pub fn entry_type(&self) -> EntryType {
EntryType::new(self.as_old().linkflag[0])
}
/// Sets the type of file that will be described by this header.
pub fn set_entry_type(&mut self, ty: EntryType) {
self.as_old_mut().linkflag = [ty.as_byte()];
}
/// Returns the checksum field of this header.
///
/// May return an error if the field is corrupted.
pub fn cksum(&self) -> io::Result<u32> {
octal_from(&self.as_old().cksum)
.map(|u| u as u32)
.map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when getting cksum for {}", err, self.path_lossy()),
)
})
}
/// Sets the checksum field of this header based on the current fields in
/// this header.
pub fn set_cksum(&mut self) {
let cksum = self.calculate_cksum();
octal_into(&mut self.as_old_mut().cksum, cksum);
}
fn calculate_cksum(&self) -> u32 {
let old = self.as_old();
let start = old as *const _ as usize;
let cksum_start = old.cksum.as_ptr() as *const _ as usize;
let offset = cksum_start - start;
let len = old.cksum.len();
self.bytes[0..offset]
.iter()
.chain(iter::repeat(&b' ').take(len))
.chain(&self.bytes[offset + len..])
.fold(0, |a, b| a + (*b as u32))
}
fn fill_from(&mut self, meta: &fs::Metadata, mode: HeaderMode) {
self.fill_platform_from(meta, mode);
// Set size of directories to zero
self.set_size(if meta.is_dir() || meta.file_type().is_symlink() {
0
} else {
meta.len()
});
if let Some(ustar) = self.as_ustar_mut() {
ustar.set_device_major(0);
ustar.set_device_minor(0);
}
if let Some(gnu) = self.as_gnu_mut() {
gnu.set_device_major(0);
gnu.set_device_minor(0);
}
}
#[cfg(target_arch = "wasm32")]
#[allow(unused_variables)]
fn fill_platform_from(&mut self, meta: &fs::Metadata, mode: HeaderMode) {
unimplemented!();
}
#[cfg(unix)]
fn fill_platform_from(&mut self, meta: &fs::Metadata, mode: HeaderMode) {
match mode {
HeaderMode::Complete => {
self.set_mtime(meta.mtime() as u64);
self.set_uid(meta.uid() as u64);
self.set_gid(meta.gid() as u64);
self.set_mode(meta.mode() as u32);
}
HeaderMode::Deterministic => {
// We could in theory set the mtime to zero here, but not all tools seem to behave
// well when ingesting files with a 0 timestamp.
// For example, rust-lang/cargo#9512 shows that lldb doesn't ingest files with a
// zero timestamp correctly.
self.set_mtime(DETERMINISTIC_TIMESTAMP);
self.set_uid(0);
self.set_gid(0);
// Use a default umask value, but propagate the (user) execute bit.
let fs_mode = if meta.is_dir() || (0o100 & meta.mode() == 0o100) {
0o755
} else {
0o644
};
self.set_mode(fs_mode);
}
}
// Note that if we are a GNU header we *could* set atime/ctime, except
// the `tar` utility doesn't do that by default and it causes problems
// with 7-zip [1].
//
// It's always possible to fill them out manually, so we just don't fill
// it out automatically here.
//
// [1]: https://github.com/alexcrichton/tar-rs/issues/70
// TODO: need to bind more file types
self.set_entry_type(entry_type(meta.mode()));
fn entry_type(mode: u32) -> EntryType {
match mode as libc::mode_t & libc::S_IFMT {
libc::S_IFREG => EntryType::file(),
libc::S_IFLNK => EntryType::symlink(),
libc::S_IFCHR => EntryType::character_special(),
libc::S_IFBLK => EntryType::block_special(),
libc::S_IFDIR => EntryType::dir(),
libc::S_IFIFO => EntryType::fifo(),
_ => EntryType::new(b' '),
}
}
}
#[cfg(windows)]
fn fill_platform_from(&mut self, meta: &fs::Metadata, mode: HeaderMode) {
// There's no concept of a file mode on Windows, so do a best approximation here.
match mode {
HeaderMode::Complete => {
self.set_uid(0);
self.set_gid(0);
// The dates listed in tarballs are always seconds relative to
// January 1, 1970. On Windows, however, the timestamps are returned as
// dates relative to January 1, 1601 (in 100ns intervals), so we need to
// add in some offset for those dates.
let mtime = (meta.last_write_time() / (1_000_000_000 / 100)) - 11644473600;
self.set_mtime(mtime);
let fs_mode = {
const FILE_ATTRIBUTE_READONLY: u32 = 0x00000001;
let readonly = meta.file_attributes() & FILE_ATTRIBUTE_READONLY;
match (meta.is_dir(), readonly != 0) {
(true, false) => 0o755,
(true, true) => 0o555,
(false, false) => 0o644,
(false, true) => 0o444,
}
};
self.set_mode(fs_mode);
}
HeaderMode::Deterministic => {
self.set_uid(0);
self.set_gid(0);
self.set_mtime(DETERMINISTIC_TIMESTAMP); // see above in unix
let fs_mode = if meta.is_dir() { 0o755 } else { 0o644 };
self.set_mode(fs_mode);
}
}
let ft = meta.file_type();
self.set_entry_type(if ft.is_dir() {
EntryType::dir()
} else if ft.is_file() {
EntryType::file()
} else if ft.is_symlink() {
EntryType::symlink()
} else {
EntryType::new(b' ')
});
}
fn debug_fields(&self, b: &mut fmt::DebugStruct) {
if let Ok(entry_size) = self.entry_size() {
b.field("entry_size", &entry_size);
}
if let Ok(size) = self.size() {
b.field("size", &size);
}
if let Ok(path) = self.path() {
b.field("path", &path);
}
if let Ok(link_name) = self.link_name() {
b.field("link_name", &link_name);
}
if let Ok(mode) = self.mode() {
b.field("mode", &DebugAsOctal(mode));
}
if let Ok(uid) = self.uid() {
b.field("uid", &uid);
}
if let Ok(gid) = self.gid() {
b.field("gid", &gid);
}
if let Ok(mtime) = self.mtime() {
b.field("mtime", &mtime);
}
if let Ok(username) = self.username() {
b.field("username", &username);
}
if let Ok(groupname) = self.groupname() {
b.field("groupname", &groupname);
}
if let Ok(device_major) = self.device_major() {
b.field("device_major", &device_major);
}
if let Ok(device_minor) = self.device_minor() {
b.field("device_minor", &device_minor);
}
if let Ok(cksum) = self.cksum() {
b.field("cksum", &cksum);
b.field("cksum_valid", &(cksum == self.calculate_cksum()));
}
}
}
struct DebugAsOctal<T>(T);
impl<T: fmt::Octal> fmt::Debug for DebugAsOctal<T> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Octal::fmt(&self.0, f)
}
}
unsafe fn cast<T, U>(a: &T) -> &U {
assert_eq!(mem::size_of_val(a), mem::size_of::<U>());
assert_eq!(mem::align_of_val(a), mem::align_of::<U>());
&*(a as *const T as *const U)
}
unsafe fn cast_mut<T, U>(a: &mut T) -> &mut U {
assert_eq!(mem::size_of_val(a), mem::size_of::<U>());
assert_eq!(mem::align_of_val(a), mem::align_of::<U>());
&mut *(a as *mut T as *mut U)
}
impl Clone for Header {
fn clone(&self) -> Header {
Header { bytes: self.bytes }
}
}
impl fmt::Debug for Header {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if let Some(me) = self.as_ustar() {
me.fmt(f)
} else if let Some(me) = self.as_gnu() {
me.fmt(f)
} else {
self.as_old().fmt(f)
}
}
}
impl OldHeader {
/// Views this as a normal `Header`
pub fn as_header(&self) -> &Header {
unsafe { cast(self) }
}
/// Views this as a normal `Header`
pub fn as_header_mut(&mut self) -> &mut Header {
unsafe { cast_mut(self) }
}
}
impl fmt::Debug for OldHeader {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut f = f.debug_struct("OldHeader");
self.as_header().debug_fields(&mut f);
f.finish()
}
}
impl UstarHeader {
/// See `Header::path_bytes`
pub fn path_bytes(&self) -> Cow<[u8]> {
if self.prefix[0] == 0 && !self.name.contains(&b'\\') {
Cow::Borrowed(truncate(&self.name))
} else {
let mut bytes = Vec::new();
let prefix = truncate(&self.prefix);
if !prefix.is_empty() {
bytes.extend_from_slice(prefix);
bytes.push(b'/');
}
bytes.extend_from_slice(truncate(&self.name));
Cow::Owned(bytes)
}
}
/// Gets the path in a "lossy" way, used for error reporting ONLY.
fn path_lossy(&self) -> String {
String::from_utf8_lossy(&self.path_bytes()).to_string()
}
/// See `Header::set_path`
pub fn set_path<P: AsRef<Path>>(&mut self, p: P) -> io::Result<()> {
self._set_path(p.as_ref())
}
fn _set_path(&mut self, path: &Path) -> io::Result<()> {
// This can probably be optimized quite a bit more, but for now just do
// something that's relatively easy and readable.
//
// First up, if the path fits within `self.name` then we just shove it
// in there. If not then we try to split it between some existing path
// components where it can fit in name/prefix. To do that we peel off
// enough until the path fits in `prefix`, then we try to put both
// halves into their destination.
let bytes = path2bytes(path)?;
let (maxnamelen, maxprefixlen) = (self.name.len(), self.prefix.len());
if bytes.len() <= maxnamelen {
copy_path_into(&mut self.name, path, false).map_err(|err| {
io::Error::new(
err.kind(),
format!("{} when setting path for {}", err, self.path_lossy()),
)
})?;
} else {