[−][src]Struct tokio::fs::OpenOptions
Options and flags which can be used to configure how a file is opened.
This builder exposes the ability to configure how a File
is opened and
what operations are permitted on the open file. The File::open
and
File::create
methods are aliases for commonly used options using this
builder.
Generally speaking, when using OpenOptions
, you'll first call new
,
then chain calls to methods to set each option, then call open
, passing
the path of the file you're trying to open. This will give you a
io::Result
with a File
inside that you can further operate
on.
This is a specialized version of std::fs::OpenOptions
for usage from
the Tokio runtime.
From<std::fs::OpenOptions>
is implemented for more advanced configuration
than the methods provided here.
Examples
Opening a file to read:
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .read(true) .open("foo.txt") .await?; Ok(()) }
Opening a file for both reading and writing, as well as creating it if it doesn't exist:
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .read(true) .write(true) .create(true) .open("foo.txt") .await?; Ok(()) }
Implementations
impl OpenOptions
[src]
pub fn new() -> OpenOptions
[src]
Creates a blank new set of options ready for configuration.
All options are initially set to false
.
This is an async version of std::fs::OpenOptions::new
Examples
use tokio::fs::OpenOptions; let mut options = OpenOptions::new(); let future = options.read(true).open("foo.txt");
pub fn read(&mut self, read: bool) -> &mut OpenOptions
[src]
Sets the option for read access.
This option, when true, will indicate that the file should be
read
-able if opened.
This is an async version of std::fs::OpenOptions::read
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .read(true) .open("foo.txt") .await?; Ok(()) }
pub fn write(&mut self, write: bool) -> &mut OpenOptions
[src]
Sets the option for write access.
This option, when true, will indicate that the file should be
write
-able if opened.
This is an async version of std::fs::OpenOptions::write
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .write(true) .open("foo.txt") .await?; Ok(()) }
pub fn append(&mut self, append: bool) -> &mut OpenOptions
[src]
Sets the option for the append mode.
This option, when true, means that writes will append to a file instead
of overwriting previous contents. Note that setting
.write(true).append(true)
has the same effect as setting only
.append(true)
.
For most filesystems, the operating system guarantees that all writes are atomic: no writes get mangled because another process writes at the same time.
One maybe obvious note when using append-mode: make sure that all data
that belongs together is written to the file in one operation. This
can be done by concatenating strings before passing them to write()
,
or using a buffered writer (with a buffer of adequate size),
and calling flush()
when the message is complete.
If a file is opened with both read and append access, beware that after
opening, and after every write, the position for reading may be set at the
end of the file. So, before writing, save the current position (using
seek
(
SeekFrom
::
Current
(0))
), and restore it before the next read.
This is an async version of std::fs::OpenOptions::append
Note
This function doesn't create the file if it doesn't exist. Use the create
method to do so.
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .append(true) .open("foo.txt") .await?; Ok(()) }
pub fn truncate(&mut self, truncate: bool) -> &mut OpenOptions
[src]
Sets the option for truncating a previous file.
If a file is successfully opened with this option set it will truncate the file to 0 length if it already exists.
The file must be opened with write access for truncate to work.
This is an async version of std::fs::OpenOptions::truncate
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .write(true) .truncate(true) .open("foo.txt") .await?; Ok(()) }
pub fn create(&mut self, create: bool) -> &mut OpenOptions
[src]
Sets the option for creating a new file.
This option indicates whether a new file will be created if the file does not yet already exist.
In order for the file to be created, write
or append
access must
be used.
This is an async version of std::fs::OpenOptions::create
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .write(true) .create(true) .open("foo.txt") .await?; Ok(()) }
pub fn create_new(&mut self, create_new: bool) -> &mut OpenOptions
[src]
Sets the option to always create a new file.
This option indicates whether a new file will be created. No file is allowed to exist at the target location, also no (dangling) symlink.
This option is useful because it is atomic. Otherwise between checking whether a file exists and creating a new one, the file may have been created by another process (a TOCTOU race condition / attack).
If .create_new(true)
is set, .create()
and .truncate()
are
ignored.
The file must be opened with write or append access in order to create a new file.
This is an async version of std::fs::OpenOptions::create_new
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new() .write(true) .create_new(true) .open("foo.txt") .await?; Ok(()) }
pub async fn open(&self, path: impl AsRef<Path>) -> Result<File>
[src]
Opens a file at path
with the options specified by self
.
This is an async version of std::fs::OpenOptions::open
Errors
This function will return an error under a number of different
circumstances. Some of these error conditions are listed here, together
with their ErrorKind
. The mapping to ErrorKind
s is not part of
the compatibility contract of the function, especially the Other
kind
might change to more specific kinds in the future.
NotFound
: The specified file does not exist and neithercreate
orcreate_new
is set.NotFound
: One of the directory components of the file path does not exist.PermissionDenied
: The user lacks permission to get the specified access rights for the file.PermissionDenied
: The user lacks permission to open one of the directory components of the specified path.AlreadyExists
:create_new
was specified and the file already exists.InvalidInput
: Invalid combinations of open options (truncate without write access, no access mode set, etc.).Other
: One of the directory components of the specified file path was not, in fact, a directory.Other
: Filesystem-level errors: full disk, write permission requested on a read-only file system, exceeded disk quota, too many open files, too long filename, too many symbolic links in the specified path (Unix-like systems only), etc.
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let file = OpenOptions::new().open("foo.txt").await?; Ok(()) }
impl OpenOptions
[src]
pub fn mode(&mut self, mode: u32) -> &mut OpenOptions
[src]
Sets the mode bits that a new file will be created with.
If a new file is created as part of an OpenOptions::open
call then this
specified mode
will be used as the permission bits for the new file.
If no mode
is set, the default of 0o666
will be used.
The operating system masks out bits with the system's umask
, to produce
the final permissions.
Examples
use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let mut options = OpenOptions::new(); options.mode(0o644); // Give read/write for owner and read for others. let file = options.open("foo.txt").await?; Ok(()) }
pub fn custom_flags(&mut self, flags: i32) -> &mut OpenOptions
[src]
Pass custom flags to the flags
argument of open
.
The bits that define the access mode are masked out with O_ACCMODE
, to
ensure they do not interfere with the access mode set by Rusts options.
Custom flags can only set flags, not remove flags set by Rusts options. This options overwrites any previously set custom flags.
Examples
use libc; use tokio::fs::OpenOptions; use std::io; #[tokio::main] async fn main() -> io::Result<()> { let mut options = OpenOptions::new(); options.write(true); if cfg!(unix) { options.custom_flags(libc::O_NOFOLLOW); } let file = options.open("foo.txt").await?; Ok(()) }
Trait Implementations
impl Clone for OpenOptions
[src]
fn clone(&self) -> OpenOptions
[src]
pub fn clone_from(&mut self, source: &Self)
1.0.0[src]
impl Debug for OpenOptions
[src]
impl Default for OpenOptions
[src]
impl From<OpenOptions> for OpenOptions
[src]
fn from(options: OpenOptions) -> OpenOptions
[src]
Auto Trait Implementations
impl RefUnwindSafe for OpenOptions
[src]
impl Send for OpenOptions
[src]
impl Sync for OpenOptions
[src]
impl Unpin for OpenOptions
[src]
impl UnwindSafe for OpenOptions
[src]
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
[src]
T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
[src]
T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
[src]
T: ?Sized,
pub fn borrow_mut(&mut self) -> &mut Tⓘ
[src]
impl<T> From<T> for T
[src]
impl<T, U> Into<U> for T where
U: From<T>,
[src]
U: From<T>,
impl<T> ToOwned for T where
T: Clone,
[src]
T: Clone,
type Owned = T
The resulting type after obtaining ownership.
pub fn to_owned(&self) -> T
[src]
pub fn clone_into(&self, target: &mut T)
[src]
impl<T, U> TryFrom<U> for T where
U: Into<T>,
[src]
U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
pub fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
[src]
impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
[src]
U: TryFrom<T>,