module Bigstring: Bigstring
include Core_kernel.Std.Bigstring
exception IOError of int * exn
The occurred exception (e.g. Unix_error, End_of_file)
val read : ?min_len:int -> Unix.file_descr -> ?pos:int -> ?len:int -> t -> int
read ?min_len fd ?pos ?len bstr
reads at least min_len
(must be
greater than or equal zero) and at most len
(must be greater than
or equal to min_len
) bytes from file descriptor fd
, and writes
them to bigstring bstr
starting at position pos
.Invalid_argument
if the designated ranges are out of bounds.IOError
in the case of input errors, or on EOF if the
minimum length could not be read.
NOTE: even if len
is zero, there may still be errors when reading
from the descriptor!
min_len
: default = 0pos
: default = 0len
: default = length bstr - pos
val really_read : Unix.file_descr -> ?pos:int -> ?len:int -> t -> unit
really_read fd ?pos ?len bstr
reads len
bytes from file descriptor
fd
, and writes them to bigstring bstr
starting at position pos
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on EOF.pos
: default = 0len
: default = length bstr - pos
val really_recv : Unix.file_descr -> ?pos:int -> ?len:int -> t -> unit
really_recv sock ?pos ?len bstr
receives len
bytes from socket
sock
, and writes them to bigstring bstr
starting at position
pos
. If len
is zero, the function returns immediately without
performing the underlying system call.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on EOF.pos
: default = 0len
: default = length bstr - pos
val recvfrom_assume_fd_is_nonblocking : Unix.file_descr -> ?pos:int -> ?len:int -> t -> int * Unix.sockaddr
recvfrom_assume_fd_is_nonblocking sock ?pos ?len bstr
reads up to
len
bytes into bigstring bstr
starting at position pos
from
socket sock
without yielding to other OCaml-threads.Unix_error
in the case of input errors.Invalid_argument
if the designated range is out of bounds.pos
: default = 0len
: default = length bstr - pos
val read_assume_fd_is_nonblocking : Unix.file_descr -> ?pos:int -> ?len:int -> t -> int
read_assume_fd_is_nonblocking fd ?pos ?len bstr
reads up to
len
bytes into bigstring bstr
starting at position pos
from
file descriptor fd
without yielding to other OCaml-threads.Unix_error
in the case of input errors.Invalid_argument
if the designated range is out of bounds.pos
: default = 0len
: default = length bstr - pos
val pread_assume_fd_is_nonblocking : Unix.file_descr -> offset:int -> ?pos:int -> ?len:int -> t -> int
pread_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr
reads up to len
bytes
from file descriptor fd
at offset offset
, and writes them to bigstring bstr
starting at position pos
. The fd must be capable of seeking, and the current file
offset used for a regular read()
is unchanged. Please see 'man pread' for more
information.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on EOF.pos
: default = 0len
: default = length bstr - pos
val input : ?min_len:int -> Pervasives.in_channel -> ?pos:int -> ?len:int -> t -> int
input ?min_len ic ?pos ?len bstr
tries to read len
bytes
(guarantees to read at least min_len
bytes (must be greater than
or equal to zero and smaller or equal to len
), if possible, before
returning) from input channel ic
, and writes them to bigstring
bstr
starting at position pos
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on premature EOF.
NOTE: even if len
is zero, there may still be errors when reading
from the descriptor, which will be done if the internal buffer
is empty!
NOTE: if at least len
characters are available in the input channel
buffer and if len
is not zero, data will only be fetched from the
channel buffer. Otherwise data will be read until at least min_len
characters are available.
min_len
: default = 0pos
: default = 0len
: default = length bstr - pos
val really_input : Pervasives.in_channel -> ?pos:int -> ?len:int -> t -> unit
really_input ic ?pos ?len bstr
reads exactly len
bytes from
input channel ic
, and writes them to bigstring bstr
starting at
position pos
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on premature EOF.pos
: default = 0len
: default = length bstr - pos
val really_write : Unix.file_descr -> ?pos:int -> ?len:int -> t -> unit
really_write fd ?pos ?len bstr
writes len
bytes in bigstring
bstr
starting at position pos
to file descriptor fd
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of output errors.pos
: default = 0len
: default = length bstr - pos
val really_send_no_sigpipe : (Unix.file_descr -> ?pos:int -> ?len:int -> t -> unit)
Core_kernel.Std.Or_error.t
really_send_no_sigpipe sock ?pos ?len bstr
sends len
bytes in
bigstring bstr
starting at position pos
to socket sock
without
blocking and ignoring SIGPIPE
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of output errors.val send_nonblocking_no_sigpipe : (Unix.file_descr -> ?pos:int -> ?len:int -> t -> int option)
Core_kernel.Std.Or_error.t
send_nonblocking_no_sigpipe sock ?pos ?len bstr
tries to send
len
bytes in bigstring bstr
starting at position pos
to socket
sock
.Invalid_argument
if the designated range is out of bounds.Unix_error
in the case of output errors.Some bytes_written
, or None
if the operation
would have blocked.val sendto_nonblocking_no_sigpipe : (Unix.file_descr -> ?pos:int -> ?len:int -> t -> Unix.sockaddr -> int option)
Core_kernel.Std.Or_error.t
sendto_nonblocking_no_sigpipe sock ?pos ?len bstr sockaddr
tries
to send len
bytes in bigstring bstr
starting at position pos
to socket sock
using address addr
.Invalid_argument
if the designated range is out of bounds.Unix_error
in the case of output errors.Some bytes_written
,
or None
if the operation would have blocked.val write : Unix.file_descr -> ?pos:int -> ?len:int -> t -> int
write fd ?pos ?len bstr
writes len
bytes in bigstring bstr
starting at position pos
to file
descriptor fd
.Unix_error
in the case of output errors.Invalid_argument
if the designated range is out of bounds.pos
: default = 0len
: default = length bstr - pos
val pwrite_assume_fd_is_nonblocking : Unix.file_descr -> offset:int -> ?pos:int -> ?len:int -> t -> int
pwrite_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr
writes up to len
bytes
of bigstring bstr
starting at position pos
to file descriptor fd
at position
offset
. The fd must be capable of seeking, and the current file offset used for
non-positional read()
/write()
calls is unchanged.Invalid_argument
if the designated range is out of bounds.IOError
in the case of input errors, or on EOF.pos
: default = 0len
: default = length bstr - pos
val write_assume_fd_is_nonblocking : Unix.file_descr -> ?pos:int -> ?len:int -> t -> int
write_assume_fd_is_nonblocking fd ?pos ?len bstr
writes len
bytes in bigstring bstr
starting at position pos
to file
descriptor fd
without yielding to other OCaml-threads.Unix_error
in the case of output errors.Invalid_argument
if the designated range is out of bounds.pos
: default = 0len
: default = length bstr - pos
val writev : Unix.file_descr -> ?count:int -> t Core_unix.IOVec.t array -> int
writev fd ?count iovecs
writes count
iovecs
of
bigstrings to file descriptor fd
.Unix_error
in the case of output errors.Invalid_argument
if count is out of range.count
: default = Array.length iovecs
val writev_assume_fd_is_nonblocking : Unix.file_descr -> ?count:int -> t Core_unix.IOVec.t array -> int
writev_assume_fd_is_nonblocking fd ?count iovecs
writes count
iovecs
of bigstrings to file descriptor fd
without yielding to
other OCaml-threads.Unix_error
in the case of output errors.Invalid_argument
if the designated range is out of bounds.count
: default = Array.length iovecs
val recvmmsg_assume_fd_is_nonblocking : (Unix.file_descr ->
?count:int ->
?srcs:Unix.sockaddr array ->
t Core_unix.IOVec.t array -> lens:int array -> int)
Core_kernel.Std.Or_error.t
recvmmsg_assume_fd_is_nonblocking fd iovecs ~count ~lens
receives up to count
messages into iovecs
from file descriptor fd
without yielding to other OCaml
threads. If ~count
is supplied, it must be that 0 <= count <= Array.length
iovecs
. If ~srcs
is supplied, save the source addresses for corresponding recieved
messages there. If supplied, Array.length srcs
must be >= count
. Save the
lengths of the received messages in lens
. It is required that Array.length lens >=
count
.
If an IOVec isn't long enough for its corresponding message, excess bytes may be
discarded, depending on the type of socket the message is received from. While the
recvmmsg
system call itself does return details of such truncation, etc., those
details are not (yet) passed through this interface.
Raises
Unix_error
in the case of output errors.Invalid_argument
if the designated range is out of bounds.val sendmsg_nonblocking_no_sigpipe : (Unix.file_descr -> ?count:int -> t Core_unix.IOVec.t array -> int option)
Core_kernel.Std.Or_error.t
sendmsg_nonblocking_no_sigpipe sock ?count iovecs
sends
count
iovecs
of bigstrings to socket sock
.Unix_error
in the case of output errors.Invalid_argument
if count
is out of range.Some
bytes_written
, or None
if the operation would have blocked.
This system call will not cause signal SIGPIPE
if an attempt is
made to write to a socket that was closed by the other side.val output : ?min_len:int -> Pervasives.out_channel -> ?pos:int -> ?len:int -> t -> int
output ?min_len oc ?pos ?len bstr
tries to output
len
bytes (guarantees to write at least min_len
bytes (must be
equal to or greater than zero), if possible, before returning) from
bigstring bstr
starting at position pos
to output channel oc
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of output errors. The IOError
-argument
counting the number of successful bytes includes those that have
been transferred to the channel buffer before the error.
NOTE: you may need to flush oc
to make sure that the data is
actually sent.
NOTE: if len
characters fit into the channel buffer completely,
they will be buffered. Otherwise writes will be attempted until at
least min_len
characters have been sent.
min_len
: default = 0pos
: default = 0len
: default = length bstr - pos
val really_output : Pervasives.out_channel -> ?pos:int -> ?len:int -> t -> unit
really_output oc ?pos ?len bstr
outputs exactly len
bytes from bigstring bstr
starting at position pos
to output
channel oc
.Invalid_argument
if the designated range is out of bounds.IOError
in the case of output errors. The IOError
-argument
counting the number of successful bytes includes those that have
been transferred to the channel buffer before the error.pos
: default = 0len
: default = length bstr - pos
val unsafe_read_assume_fd_is_nonblocking : Unix.file_descr -> pos:int -> len:int -> t -> int
unsafe_read_assume_fd_is_nonblocking fd ~pos ~len bstr
similar to Bigstring.read_assume_fd_is_nonblocking
, but does
not perform any bounds checks. Will crash on bounds errors!val unsafe_write : Unix.file_descr -> pos:int -> len:int -> t -> int
unsafe_write fd ~pos ~len bstr
similar to
Bigstring.write
, but does not perform any bounds checks.
Will crash on bounds errors!val unsafe_write_assume_fd_is_nonblocking : Unix.file_descr -> pos:int -> len:int -> t -> int
unsafe_write_assume_fd_is_nonblocking fd ~pos ~len bstr
similar to Bigstring.write_assume_fd_is_nonblocking
, but does
not perform any bounds checks. Will crash on bounds errors!val unsafe_read : min_len:int -> Unix.file_descr -> pos:int -> len:int -> t -> int
unsafe_read ~min_len fd ~pos ~len bstr
similar to
Bigstring.read
, but does not perform any bounds checks.
Will crash on bounds errors!val unsafe_really_recv : Unix.file_descr -> pos:int -> len:int -> t -> unit
unsafe_really_recv sock ~pos ~len bstr
similar to
Bigstring.really_recv
, but does not perform any
bounds checks. Will crash on bounds errors!val unsafe_really_write : Unix.file_descr -> pos:int -> len:int -> t -> unit
unsafe_really_write fd ~pos ~len bstr
similar to
Bigstring.write
, but does not perform any bounds checks.
Will crash on bounds errors!val unsafe_really_send_no_sigpipe : (Unix.file_descr -> pos:int -> len:int -> t -> unit)
Core_kernel.Std.Or_error.t
unsafe_really_send_no_sigpipe sock ~pos ~len bstr
similar to Bigstring.send
, but does not perform any
bounds checks. Will crash on bounds errors!val unsafe_send_nonblocking_no_sigpipe : (Unix.file_descr -> pos:int -> len:int -> t -> int option)
Core_kernel.Std.Or_error.t
unsafe_send_nonblocking_no_sigpipe sock ~pos ~len bstr
similar to
Bigstring.send_nonblocking_no_sigpipe
, but does not perform any
bounds checks. Will crash on bounds errors!val unsafe_writev : Unix.file_descr -> t Core_unix.IOVec.t array -> int -> int
unsafe_writev fd iovecs count
similar to
Bigstring.writev
, but does not perform any bounds checks.
Will crash on bounds errors!val unsafe_sendmsg_nonblocking_no_sigpipe : (Unix.file_descr -> t Core_unix.IOVec.t array -> int -> int option)
Core_kernel.Std.Or_error.t
unsafe_sendmsg_nonblocking_no_sigpipe fd iovecs count
similar to Bigstring.sendmsg_nonblocking_no_sigpipe
, but
does not perform any bounds checks. Will crash on bounds errors!val unsafe_input : min_len:int -> Pervasives.in_channel -> pos:int -> len:int -> t -> int
unsafe_input ~min_len ic ~pos ~len bstr
similar to
Bigstring.input
, but does not perform any bounds checks.
Will crash on bounds errors!val unsafe_output : min_len:int -> Pervasives.out_channel -> pos:int -> len:int -> t -> int
unsafe_output ~min_len oc ~pos ~len bstr
similar to
Bigstring.output
, but does not perform any bounds checks.
Will crash on bounds errors!