pub trait HostOutputStream {
// Required methods
fn check_write(
&mut self,
self_: Resource<OutputStream>,
) -> Result<u64, StreamError>;
fn write(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>;
fn blocking_write_and_flush(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>;
fn flush(
&mut self,
self_: Resource<OutputStream>,
) -> Result<(), StreamError>;
fn blocking_flush(
&mut self,
self_: Resource<OutputStream>,
) -> Result<(), StreamError>;
fn subscribe(
&mut self,
self_: Resource<OutputStream>,
) -> Result<Resource<Pollable>>;
fn write_zeroes(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>;
fn blocking_write_zeroes_and_flush(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>;
fn splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>;
fn blocking_splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>;
fn drop(&mut self, rep: Resource<OutputStream>) -> Result<()>;
}
Required Methods§
sourcefn check_write(
&mut self,
self_: Resource<OutputStream>,
) -> Result<u64, StreamError>
fn check_write( &mut self, self_: Resource<OutputStream>, ) -> Result<u64, StreamError>
Check readiness for writing. This function never blocks.
Returns the number of bytes permitted for the next call to write
,
or an error. Calling write
with more bytes than this function has
permitted will trap.
When this function returns 0 bytes, the subscribe
pollable will
become ready when this function will report at least 1 byte, or an
error.
sourcefn write(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>
fn write( &mut self, self_: Resource<OutputStream>, contents: Vec<u8>, ) -> Result<(), StreamError>
Perform a write. This function never blocks.
When the destination of a write
is binary data, the bytes from
contents
are written verbatim. When the destination of a write
is
known to the implementation to be text, the bytes of contents
are
transcoded from UTF-8 into the encoding of the destination and then
written.
Precondition: check-write gave permit of Ok(n) and contents has a length of less than or equal to n. Otherwise, this function will trap.
returns Err(closed) without writing if the stream has closed since the last call to check-write provided a permit.
sourcefn blocking_write_and_flush(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>
fn blocking_write_and_flush( &mut self, self_: Resource<OutputStream>, contents: Vec<u8>, ) -> Result<(), StreamError>
Perform a write of up to 4096 bytes, and then flush the stream. Block until all of these operations are complete, or an error occurs.
This is a convenience wrapper around the use of check-write
,
subscribe
, write
, and flush
, and is implemented with the
following pseudo-code:
let pollable = this.subscribe();
while !contents.is_empty() {
// Wait for the stream to become writable
pollable.block();
let Ok(n) = this.check-write(); // eliding error handling
let len = min(n, contents.len());
let (chunk, rest) = contents.split_at(len);
this.write(chunk ); // eliding error handling
contents = rest;
}
this.flush();
// Wait for completion of `flush`
pollable.block();
// Check for any errors that arose during `flush`
let _ = this.check-write(); // eliding error handling
sourcefn flush(&mut self, self_: Resource<OutputStream>) -> Result<(), StreamError>
fn flush(&mut self, self_: Resource<OutputStream>) -> Result<(), StreamError>
Request to flush buffered output. This function never blocks.
This tells the output-stream that the caller intends any buffered
output to be flushed. the output which is expected to be flushed
is all that has been passed to write
prior to this call.
Upon calling this function, the output-stream
will not accept any
writes (check-write
will return ok(0)
) until the flush has
completed. The subscribe
pollable will become ready when the
flush has completed and the stream can accept more writes.
sourcefn blocking_flush(
&mut self,
self_: Resource<OutputStream>,
) -> Result<(), StreamError>
fn blocking_flush( &mut self, self_: Resource<OutputStream>, ) -> Result<(), StreamError>
Request to flush buffered output, and block until flush completes and stream is ready for writing again.
sourcefn subscribe(
&mut self,
self_: Resource<OutputStream>,
) -> Result<Resource<Pollable>>
fn subscribe( &mut self, self_: Resource<OutputStream>, ) -> Result<Resource<Pollable>>
Create a pollable
which will resolve once the output-stream
is ready for more writing, or an error has occurred. When this
pollable is ready, check-write
will return ok(n)
with n>0, or an
error.
If the stream is closed, this pollable is always ready immediately.
The created pollable
is a child resource of the output-stream
.
Implementations may trap if the output-stream
is dropped before
all derived pollable
s created with this function are dropped.
sourcefn write_zeroes(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>
fn write_zeroes( &mut self, self_: Resource<OutputStream>, len: u64, ) -> Result<(), StreamError>
Write zeroes to a stream.
This should be used precisely like write
with the exact same
preconditions (must use check-write first), but instead of
passing a list of bytes, you simply pass the number of zero-bytes
that should be written.
sourcefn blocking_write_zeroes_and_flush(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>
fn blocking_write_zeroes_and_flush( &mut self, self_: Resource<OutputStream>, len: u64, ) -> Result<(), StreamError>
Perform a write of up to 4096 zeroes, and then flush the stream. Block until all of these operations are complete, or an error occurs.
This is a convenience wrapper around the use of check-write
,
subscribe
, write-zeroes
, and flush
, and is implemented with
the following pseudo-code:
let pollable = this.subscribe();
while num_zeroes != 0 {
// Wait for the stream to become writable
pollable.block();
let Ok(n) = this.check-write(); // eliding error handling
let len = min(n, num_zeroes);
this.write-zeroes(len); // eliding error handling
num_zeroes -= len;
}
this.flush();
// Wait for completion of `flush`
pollable.block();
// Check for any errors that arose during `flush`
let _ = this.check-write(); // eliding error handling
sourcefn splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>
fn splice( &mut self, self_: Resource<OutputStream>, src: Resource<InputStream>, len: u64, ) -> Result<u64, StreamError>
Read from one stream and write to another.
The behavior of splice is equivalent to:
- calling
check-write
on theoutput-stream
- calling
read
on theinput-stream
with the smaller of thecheck-write
permitted length and thelen
provided tosplice
- calling
write
on theoutput-stream
with that read data.
Any error reported by the call to check-write
, read
, or
write
ends the splice and reports that error.
This function returns the number of bytes transferred; it may be less
than len
.
sourcefn blocking_splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>
fn blocking_splice( &mut self, self_: Resource<OutputStream>, src: Resource<InputStream>, len: u64, ) -> Result<u64, StreamError>
Read from one stream and write to another, with blocking.
This is similar to splice
, except that it blocks until the
output-stream
is ready for writing, and the input-stream
is ready for reading, before performing the splice
.
fn drop(&mut self, rep: Resource<OutputStream>) -> Result<()>
Implementations on Foreign Types§
source§impl<_T: HostOutputStream + ?Sized> HostOutputStream for &mut _T
impl<_T: HostOutputStream + ?Sized> HostOutputStream for &mut _T
source§fn check_write(
&mut self,
self_: Resource<OutputStream>,
) -> Result<u64, StreamError>
fn check_write( &mut self, self_: Resource<OutputStream>, ) -> Result<u64, StreamError>
Check readiness for writing. This function never blocks.
Returns the number of bytes permitted for the next call to write
,
or an error. Calling write
with more bytes than this function has
permitted will trap.
When this function returns 0 bytes, the subscribe
pollable will
become ready when this function will report at least 1 byte, or an
error.
source§fn write(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>
fn write( &mut self, self_: Resource<OutputStream>, contents: Vec<u8>, ) -> Result<(), StreamError>
Perform a write. This function never blocks.
When the destination of a write
is binary data, the bytes from
contents
are written verbatim. When the destination of a write
is
known to the implementation to be text, the bytes of contents
are
transcoded from UTF-8 into the encoding of the destination and then
written.
Precondition: check-write gave permit of Ok(n) and contents has a length of less than or equal to n. Otherwise, this function will trap.
returns Err(closed) without writing if the stream has closed since the last call to check-write provided a permit.
source§fn blocking_write_and_flush(
&mut self,
self_: Resource<OutputStream>,
contents: Vec<u8>,
) -> Result<(), StreamError>
fn blocking_write_and_flush( &mut self, self_: Resource<OutputStream>, contents: Vec<u8>, ) -> Result<(), StreamError>
Perform a write of up to 4096 bytes, and then flush the stream. Block until all of these operations are complete, or an error occurs.
This is a convenience wrapper around the use of check-write
,
subscribe
, write
, and flush
, and is implemented with the
following pseudo-code:
let pollable = this.subscribe();
while !contents.is_empty() {
// Wait for the stream to become writable
pollable.block();
let Ok(n) = this.check-write(); // eliding error handling
let len = min(n, contents.len());
let (chunk, rest) = contents.split_at(len);
this.write(chunk ); // eliding error handling
contents = rest;
}
this.flush();
// Wait for completion of `flush`
pollable.block();
// Check for any errors that arose during `flush`
let _ = this.check-write(); // eliding error handling
source§fn flush(&mut self, self_: Resource<OutputStream>) -> Result<(), StreamError>
fn flush(&mut self, self_: Resource<OutputStream>) -> Result<(), StreamError>
Request to flush buffered output. This function never blocks.
This tells the output-stream that the caller intends any buffered
output to be flushed. the output which is expected to be flushed
is all that has been passed to write
prior to this call.
Upon calling this function, the output-stream
will not accept any
writes (check-write
will return ok(0)
) until the flush has
completed. The subscribe
pollable will become ready when the
flush has completed and the stream can accept more writes.
source§fn blocking_flush(
&mut self,
self_: Resource<OutputStream>,
) -> Result<(), StreamError>
fn blocking_flush( &mut self, self_: Resource<OutputStream>, ) -> Result<(), StreamError>
Request to flush buffered output, and block until flush completes and stream is ready for writing again.
source§fn subscribe(
&mut self,
self_: Resource<OutputStream>,
) -> Result<Resource<Pollable>>
fn subscribe( &mut self, self_: Resource<OutputStream>, ) -> Result<Resource<Pollable>>
Create a pollable
which will resolve once the output-stream
is ready for more writing, or an error has occurred. When this
pollable is ready, check-write
will return ok(n)
with n>0, or an
error.
If the stream is closed, this pollable is always ready immediately.
The created pollable
is a child resource of the output-stream
.
Implementations may trap if the output-stream
is dropped before
all derived pollable
s created with this function are dropped.
source§fn write_zeroes(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>
fn write_zeroes( &mut self, self_: Resource<OutputStream>, len: u64, ) -> Result<(), StreamError>
Write zeroes to a stream.
This should be used precisely like write
with the exact same
preconditions (must use check-write first), but instead of
passing a list of bytes, you simply pass the number of zero-bytes
that should be written.
source§fn blocking_write_zeroes_and_flush(
&mut self,
self_: Resource<OutputStream>,
len: u64,
) -> Result<(), StreamError>
fn blocking_write_zeroes_and_flush( &mut self, self_: Resource<OutputStream>, len: u64, ) -> Result<(), StreamError>
Perform a write of up to 4096 zeroes, and then flush the stream. Block until all of these operations are complete, or an error occurs.
This is a convenience wrapper around the use of check-write
,
subscribe
, write-zeroes
, and flush
, and is implemented with
the following pseudo-code:
let pollable = this.subscribe();
while num_zeroes != 0 {
// Wait for the stream to become writable
pollable.block();
let Ok(n) = this.check-write(); // eliding error handling
let len = min(n, num_zeroes);
this.write-zeroes(len); // eliding error handling
num_zeroes -= len;
}
this.flush();
// Wait for completion of `flush`
pollable.block();
// Check for any errors that arose during `flush`
let _ = this.check-write(); // eliding error handling
source§fn splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>
fn splice( &mut self, self_: Resource<OutputStream>, src: Resource<InputStream>, len: u64, ) -> Result<u64, StreamError>
Read from one stream and write to another.
The behavior of splice is equivalent to:
- calling
check-write
on theoutput-stream
- calling
read
on theinput-stream
with the smaller of thecheck-write
permitted length and thelen
provided tosplice
- calling
write
on theoutput-stream
with that read data.
Any error reported by the call to check-write
, read
, or
write
ends the splice and reports that error.
This function returns the number of bytes transferred; it may be less
than len
.
source§fn blocking_splice(
&mut self,
self_: Resource<OutputStream>,
src: Resource<InputStream>,
len: u64,
) -> Result<u64, StreamError>
fn blocking_splice( &mut self, self_: Resource<OutputStream>, src: Resource<InputStream>, len: u64, ) -> Result<u64, StreamError>
Read from one stream and write to another, with blocking.
This is similar to splice
, except that it blocks until the
output-stream
is ready for writing, and the input-stream
is ready for reading, before performing the splice
.