.. | ||
acceptor.h | ||
acceptor_udp.h | ||
asio.h | ||
close.h | ||
dns.h | ||
hostport.h | ||
ipaddr.h | ||
ipport.h | ||
listener.h | ||
listener_udp.h | ||
net.h | ||
open.h | ||
read.h | ||
README.md | ||
scope_timeout.h | ||
sock_opts.h | ||
socket.h | ||
wait.h | ||
write.h |
Network Interface
open()
The open() call combines DNS resolution, TCP connecting and SSL handshaking. A dedicated options structure is provided to tweak the specifics of the process.
close()
Like the open() sequence, the close() sequence composes a complex of multiple operations to close_notify the SSL session with cryptographic soundness and then disconnect the TCP session. A dedicated options structure is provided to tweak details.
Conveyance
Four strategies are available to work with the socket. We have it all
covered. The read()
and write()
suites contain functions postfixed
by their behavior:
_all()
A call to read_all()
or write_all()
will yield the calling ircd::ctx
until the supplied buffers are filled or transmitted, respectively.
It is strongly advised to set a timeout in the options structure when making calls of this type.
An ircd::ctx
is required to make this call, it does not work on the main
stack.
_few()
A call to *_few()
also yields the ircd::ctx
, but the yield only lasts until
some data is sent or received. Once some activity takes place, as much as
possible is accomplished; there will not be any more yielding.
It is strongly advised to set a timeout in the options structure when making calls of this type.
An ircd::ctx
is required to make this call, it does not work on the main
stack.
_any()
A call to *_any()
has true non-blocking behavior. It does not require an
ircd::ctx
. This call tries to conduct as much IO as possible without
blocking. Internally it may be a loop of the _one()
strategy that works
through as much of the buffers until error.
_one()
A call to *_one()
also has true non-blocking behavior and does not require
an ircd::ctx
. This call makes one syscall which may not fill or transmit
all of the user buffers even if the kernel has more capacity to do so. To
maximize the amount of data read or written to kernelland use the _any()
strategy.