module Linux_ext:sig
..end
module Sysinfo:sig
..end
val sendfile : (?pos:int ->
?len:int -> fd:Core_unix.File_descr.t -> Core_unix.File_descr.t -> int)
Core_kernel.Std.Or_error.t
sendfile ?pos ?len ~fd sock
sends mmap-able data from file
descriptor fd
to socket sock
using offset pos
and length len
.Unix_error
on Unix-errors.
NOTE: if the returned value is unequal to what was requested (=
the initial size of the data by default), the system call may have
been interrupted by a signal, the source file may have been truncated
during operation, or a timeout occurred on the socket during sending.
It is currently impossible to find out which of the events above
happened. Calling Linux_ext.sendfile
several times on the same descriptor
that only partially accepted data due to a timeout will eventually
lead to the unix error EAGAIN
.
type
tcp_bool_option =
| |
TCP_CORK |
val gettcpopt_bool : (Core_unix.File_descr.t -> tcp_bool_option -> bool)
Core_kernel.Std.Or_error.t
gettcpopt_bool sock opt
opt
for socket sock
.val settcpopt_bool : (Core_unix.File_descr.t -> tcp_bool_option -> bool -> unit)
Core_kernel.Std.Or_error.t
settcpopt_bool sock opt v
sets the current value of the boolean
TCP socket option opt
for socket sock
to value v
.val send_nonblocking_no_sigpipe : (Core_unix.File_descr.t -> ?pos:int -> ?len:int -> string -> int option)
Core_kernel.Std.Or_error.t
send_nonblocking_no_sigpipe sock ?pos ?len buf
tries to do a
nonblocking send on socket sock
given buffer buf
, offset pos
and length len
. Prevents SIGPIPE
, i.e. raise a Unix-error
in that case immediately.Invalid_argument
if the designated buffer range is invalid.Unix_error
on Unix-errors.Some bytes_written
or None
if the operation would have blocked.val send_no_sigpipe : (Core_unix.File_descr.t -> ?pos:int -> ?len:int -> string -> int)
Core_kernel.Std.Or_error.t
send_no_sigpipe sock ?pos ?len buf
tries to do a
blocking send on socket sock
given buffer buf
, offset pos
and length len
. Prevents SIGPIPE
, i.e. raise a Unix-error in
that case immediately.Invalid_argument
if the designated buffer range is invalid.Unix_error
on Unix-errors.val sendmsg_nonblocking_no_sigpipe : (Core_unix.File_descr.t ->
?count:int -> string Core_unix.IOVec.t array -> int option)
Core_kernel.Std.Or_error.t
sendmsg_nonblocking_no_sigpipe sock ?count iovecs
tries to do
a nonblocking send on socket sock
using count
I/O-vectors
iovecs
. Prevents SIGPIPE
, i.e. raises a Unix-error in that
case immediately.Invalid_argument
if the designated ranges are invalid.Unix_error
on Unix-errors.Some bytes_written
or None
if the
operation would have blocked.module Clock:sig
..end
module Timerfd:sig
..end
val pr_set_pdeathsig : (Signal.t -> unit) Core_kernel.Std.Or_error.t
pr_set_pdeathsig s
sets the signal s
to be sent to the executing
process when its parent dies. NOTE: the parent may have died
before or while executing this system call. To make sure that you
do not miss this event, you should call getppid
to get
the parent process id after this system call. If the parent has
died, the returned parent PID will be 1, i.e. the init process will
have adopted the child. You should then either send the signal to
yourself using Unix.kill, or execute an appropriate handler.val pr_get_pdeathsig : (unit -> Signal.t) Core_kernel.Std.Or_error.t
pr_get_pdeathsig ()
get the signal that will be sent to the
currently executing process when its parent dies.val pr_set_name_first16 : (string -> unit) Core_kernel.Std.Or_error.t
pr_set_name_first16 name
sets the name of the executing thread to name
. Only
the first 16 bytes in name
will be used, the rest is ignored.val pr_get_name : (unit -> string) Core_kernel.Std.Or_error.t
pr_get_name ()
gets the name of the executing thread. The name is
at most 16 bytes long.val file_descr_realpath : (Core_unix.File_descr.t -> string) Core_kernel.Std.Or_error.t
file_descr_realpath fd
Unix_error
on errors.fd
.val out_channel_realpath : (Pervasives.out_channel -> string) Core_kernel.Std.Or_error.t
out_channel_realpath oc
Unix_error
on errors.oc
.val in_channel_realpath : (Pervasives.in_channel -> string) Core_kernel.Std.Or_error.t
in_channel_realpath ic
Unix_error
on errors.ic
.val sched_setaffinity : (?pid:Core_kernel.Std.Pid.t -> cpuset:int list -> unit -> unit)
Core_kernel.Std.Or_error.t
val sched_setaffinity_this_thread : (cpuset:int list -> unit) Core_kernel.Std.Or_error.t
val cores : (unit -> int) Core_kernel.Std.Or_error.t
cores ()
val get_terminal_size : (unit -> int * int) Core_kernel.Std.Or_error.t
get_terminal_size ()
(rows, cols)
, the number of rows and
columns of the terminal.val gettid : (unit -> int) Core_kernel.Std.Or_error.t
module Priority:sig
..end
val setpriority : (Priority.t -> unit) Core_kernel.Std.Or_error.t
val getpriority : (unit -> Priority.t) Core_kernel.Std.Or_error.t
val get_ipv4_address_for_interface : (string -> string) Core_kernel.Std.Or_error.t
val bind_to_interface : (Core_unix.File_descr.t -> [ `Any | `Interface_name of string ] -> unit)
Core_kernel.Std.Or_error.t
module Epoll:sig
..end
val bin_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Type_class.t
val bin_read_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Read_ml.reader
val bin_read_tcp_bool_option_ : tcp_bool_option Core_kernel.Std.Bin_prot.Unsafe_read_c.reader
val bin_read_tcp_bool_option__ : (int -> tcp_bool_option)
Core_kernel.Std.Bin_prot.Unsafe_read_c.reader
val bin_reader_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Type_class.reader
val bin_size_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Size.sizer
val bin_write_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Write_ml.writer
val bin_write_tcp_bool_option_ : tcp_bool_option Core_kernel.Std.Bin_prot.Unsafe_write_c.writer
val bin_writer_tcp_bool_option : tcp_bool_option Core_kernel.Std.Bin_prot.Type_class.writer
val tcp_bool_option_of_sexp : Sexplib.Sexp.t -> tcp_bool_option
val sexp_of_tcp_bool_option : tcp_bool_option -> Sexplib.Sexp.t
gettcpopt_bool sock opt
settcpopt_bool sock opt v
sets the current value of the boolean
TCP socket option opt
for socket sock
to value v
.send_nonblocking_no_sigpipe sock ?pos ?len buf
tries to do a
nonblocking send on socket sock
given buffer buf
, offset pos
and length len
. Prevents SIGPIPE
, i.e. raise a Unix-error
in that case immediately.send_no_sigpipe sock ?pos ?len buf
tries to do a
blocking send on socket sock
given buffer buf
, offset pos
and length len
. Prevents SIGPIPE
, i.e. raise a Unix-error in
that case immediately.sendmsg_nonblocking_no_sigpipe sock ?count iovecs
tries to do
a nonblocking send on socket sock
using count
I/O-vectors
iovecs
. Prevents SIGPIPE
, i.e. raises a Unix-error in that
case immediately.get_process_clock
the clock measuring the CPU-time of a process.get_thread_clock
the clock measuring the CPU-time of the current thread.TFD_NONBLOCK
TFD_CLOEXEC
create ?flags clock
creates a new timer file descriptor. With Linux 2.6.26 or
earlier flags
must be empty.set t when
sets t
to fire once, at the time specified by when
.set_repeating ?initial t interval
sets t
to fire every interval
starting at
when
.`After interval
clear t
causes t
to not fire any more.get t
returns the current state of the timer t
.pr_set_pdeathsig s
sets the signal s
to be sent to the executing
process when its parent dies. NOTE: the parent may have died
before or while executing this system call. To make sure that you
do not miss this event, you should call getppid
to get
the parent process id after this system call. If the parent has
died, the returned parent PID will be 1, i.e. the init process will
have adopted the child. You should then either send the signal to
yourself using Unix.kill, or execute an appropriate handler.pr_get_pdeathsig ()
get the signal that will be sent to the
currently executing process when its parent dies.pr_set_name_first16 name
sets the name of the executing thread to name
. Only
the first 16 bytes in name
will be used, the rest is ignored.pr_get_name ()
gets the name of the executing thread. The name is
at most 16 bytes long.file_descr_realpath fd
out_channel_realpath oc
in_channel_realpath ic
cores ()
get_terminal_size ()
See the man pages for a full description of the epoll facility.
An Epoll.Flags.t
is an immutable set of flags for which one can register
interest for a file descriptor. It is implemented as a bitmask, and so all
operations (+, -, etc.) are constant time with no allocation.
sexp_of_t
produces a human-readable list of bits, e.g. "(in out)".
An Epoll.t
maintains a map from File_descr.t
to Flags.t
, where the domain is
the set of file descriptors that one is interested in, and the flags associated with
each file descriptor specify the types of events one is interested in being notified
about for that file descriptor. Our implementation maintains a user-level table
equivalent to the kernel epoll set, so that sexp_of_t
produces useful
human-readable information, and so that we can present our standard table
interface.
An Epoll.t
also has a buffer that is used to store the set of ready fds returned
by calling wait
.
create ~num_file_descrs
creates a new epoll set able to watch file descriptors in
[0, num_file_descrs). Additionally, the set allocates space for reading the ready
events when wait
returns, allowing for up to max_ready_events
to be returned in
a single call to wait
.
map operations
wait t ~timeout
blocks until at least one file descriptor in t
is ready for one
of the events it is being watched for, or timeout
passes. wait
side effects t
by storing the ready set in it. One can subsequently access the ready set by
calling iter_ready
or fold_ready
.
The timeout
has a granularity of one millisecond. wait
rounds up the timeout
to the next millisecond. E.g. a timeout
of one microsecond will be rounded up
to one millisecond.
Note that this method should not be considered thread safe. There is mutable state
in t that will be changed by invocations to wait that cannot be prevented by mutexes
around wait
.
iter_ready
and fold_ready
iterate over the ready set computed by the last
call to wait
.