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/*
Copyright (c) 2009-2012 250bpm s.r.o.
Copyright (c) 2007-2009 iMatix Corporation
Copyright (c) 2012 Lucina & Associates
Copyright (c) 2010-2011 Miru Limited
Copyright (c) 2007-2011 Other contributors as noted in the AUTHORS file
This file is part of Crossroads I/O project.
Crossroads I/O is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
Crossroads is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "platform.hpp"
#if defined XS_HAVE_OPENPGM
#ifdef XS_HAVE_WINDOWS
#include "windows.hpp"
#endif
#include <stdlib.h>
#include "pgm_sender.hpp"
#include "session_base.hpp"
#include "err.hpp"
#include "wire.hpp"
#include "stdint.hpp"
xs::pgm_sender_t::pgm_sender_t (io_thread_t *parent_,
const options_t &options_) :
io_object_t (parent_),
encoder (0),
pgm_socket (false, options_),
options (options_),
out_buffer (NULL),
out_buffer_size (0),
write_size (0),
rx_timer (NULL),
tx_timer (NULL)
{
}
int xs::pgm_sender_t::init (bool udp_encapsulation_, const char *network_)
{
int rc = pgm_socket.init (udp_encapsulation_, network_);
if (rc != 0)
return rc;
out_buffer_size = pgm_socket.get_max_tsdu_size ();
out_buffer = (unsigned char*) malloc (out_buffer_size);
alloc_assert (out_buffer);
encode_buffer = out_buffer;
encode_buffer_size = out_buffer_size;
header_size = 0;
// If not using a legacy protocol, fill in our datagram header and reserve
// space for it in the datagram.
if (!options.legacy_protocol) {
sp_get_header (out_buffer, options.sp_service, options.sp_pattern,
options.sp_version, options.sp_role);
encode_buffer += SP_HEADER_LENGTH;
encode_buffer_size -= SP_HEADER_LENGTH;
header_size += SP_HEADER_LENGTH;
}
// Reserve space in the datagram for the offset of the first message.
offset_p = encode_buffer;
encode_buffer += sizeof (uint16_t);
encode_buffer_size -= sizeof (uint16_t);
header_size += sizeof (uint16_t);
return rc;
}
void xs::pgm_sender_t::plug (io_thread_t *io_thread_,
session_base_t *session_)
{
// Alocate 2 fds for PGM socket.
fd_t downlink_socket_fd = retired_fd;
fd_t uplink_socket_fd = retired_fd;
fd_t rdata_notify_fd = retired_fd;
fd_t pending_notify_fd = retired_fd;
encoder.set_session (session_);
// Fill fds from PGM transport and add them to the I/O thread.
pgm_socket.get_sender_fds (&downlink_socket_fd, &uplink_socket_fd,
&rdata_notify_fd, &pending_notify_fd);
handle = add_fd (downlink_socket_fd);
uplink_handle = add_fd (uplink_socket_fd);
rdata_notify_handle = add_fd (rdata_notify_fd);
pending_notify_handle = add_fd (pending_notify_fd);
// Set POLLIN. We wont never want to stop polling for uplink = we never
// want to stop porocess NAKs.
set_pollin (uplink_handle);
set_pollin (rdata_notify_handle);
set_pollin (pending_notify_handle);
// Set POLLOUT for downlink_socket_handle.
set_pollout (handle);
}
void xs::pgm_sender_t::unplug ()
{
if (rx_timer) {
rm_timer (rx_timer);
rx_timer = NULL;
}
if (tx_timer) {
rm_timer (tx_timer);
tx_timer = NULL;
}
rm_fd (handle);
rm_fd (uplink_handle);
rm_fd (rdata_notify_handle);
rm_fd (pending_notify_handle);
encoder.set_session (NULL);
}
void xs::pgm_sender_t::terminate ()
{
unplug ();
delete this;
}
void xs::pgm_sender_t::activate_out ()
{
set_pollout (handle);
out_event (retired_fd);
}
void xs::pgm_sender_t::activate_in ()
{
xs_assert (false);
}
xs::pgm_sender_t::~pgm_sender_t ()
{
if (out_buffer) {
free (out_buffer);
out_buffer = NULL;
}
}
void xs::pgm_sender_t::in_event (fd_t fd_)
{
if (rx_timer) {
rm_timer (rx_timer);
rx_timer = NULL;
}
// In-event on sender side means NAK or SPMR receiving from some peer.
pgm_socket.process_upstream ();
if (errno == ENOMEM || errno == EBUSY) {
const long timeout = pgm_socket.get_rx_timeout ();
xs_assert (!rx_timer);
rx_timer = add_timer (timeout);
}
}
void xs::pgm_sender_t::out_event (fd_t fd_)
{
// POLLOUT event from send socket. If write buffer is empty (which means
// that the last write succeeded), try to read new data from the encoder.
if (write_size == 0) {
// Pass our own buffer to the get_data () function to prevent it from
// returning its own buffer.
int offset = -1;
size_t data_size = encode_buffer_size;
encoder.get_data (&encode_buffer, &data_size, &offset);
// If there are no data to write stop polling for output.
if (!data_size) {
reset_pollout (handle);
return;
}
// Put offset information in the buffer.
write_size = header_size + data_size;
put_uint16 (offset_p, offset == -1 ? 0xffff : (uint16_t) offset);
}
if (tx_timer) {
rm_timer (tx_timer);
tx_timer = NULL;
}
// Send the data.
size_t nbytes = pgm_socket.send (out_buffer, write_size);
// We can write either all data or 0 which means rate limit reached.
if (nbytes == write_size) {
write_size = 0;
} else {
xs_assert (nbytes == 0);
if (errno == ENOMEM) {
const long timeout = pgm_socket.get_tx_timeout ();
xs_assert (!tx_timer);
tx_timer = add_timer (timeout);
} else
xs_assert (errno == EBUSY);
}
}
void xs::pgm_sender_t::timer_event (handle_t handle_)
{
// Timer cancels on return by io_thread.
if (handle_ == rx_timer) {
rx_timer = NULL;
in_event (retired_fd);
} else if (handle_ == tx_timer) {
tx_timer = NULL;
out_event (retired_fd);
} else
xs_assert (false);
}
#endif
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