static
bool
create_sock (void)
{
struct pgm_addrinfo_t* res = NULL;
pgm_error_t* pgm_err = NULL;
sa_family_t sa_family = AF_UNSPEC;
/* parse network parameter into sock address structure */
if (!pgm_getaddrinfo (network, NULL, &res, &pgm_err)) {
fprintf (stderr, "Parsing network parameter: %s\n", pgm_err->message);
goto err_abort;
} else {
char network[1024];
printf ("Network parameter: { %s }\n", pgm_addrinfo_to_string (res, network, sizeof (network)));
}
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
puts ("Create PGM socket.");
if (udp_encap_port) {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP, &pgm_err)) {
fprintf (stderr, "Creating PGM/UDP socket: %s\n", pgm_err->message);
goto err_abort;
}
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
} else {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_PGM, &pgm_err)) {
fprintf (stderr, "Creating PGM/IP socket: %s\n", pgm_err->message);
goto err_abort;
}
}
/* Use RFC 2113 tagging for PGM Router Assist */
const int no_router_assist = 0;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_IP_ROUTER_ALERT, &no_router_assist, sizeof(no_router_assist));
pgm_drop_superuser();
/* set PGM parameters */
const int send_only = 1,
ambient_spm = pgm_secs (30),
heartbeat_spm[] = { pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (1300),
pgm_secs (7),
pgm_secs (16),
pgm_secs (25),
pgm_secs (30) };
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_ONLY, &send_only, sizeof(send_only));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MTU, &max_tpdu, sizeof(max_tpdu));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_SQNS, &sqns, sizeof(sqns));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_MAX_RTE, &max_rte, sizeof(max_rte));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_AMBIENT_SPM, &ambient_spm, sizeof(ambient_spm));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_HEARTBEAT_SPM, &heartbeat_spm, sizeof(heartbeat_spm));
#ifdef I_UNDERSTAND_PGMCC_AND_FEC_ARE_NOT_SUPPORTED
if (use_pgmcc) {
struct pgm_pgmccinfo_t pgmccinfo;
pgmccinfo.ack_bo_ivl = pgm_msecs (50);
pgmccinfo.ack_c = 75;
pgmccinfo.ack_c_p = 500;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_USE_PGMCC, &pgmccinfo, sizeof(pgmccinfo));
}
if (use_fec) {
struct pgm_fecinfo_t fecinfo;
fecinfo.block_size = rs_n;
fecinfo.proactive_packets = proactive_packets;
fecinfo.group_size = rs_k;
fecinfo.ondemand_parity_enabled = use_ondemand_parity;
fecinfo.var_pktlen_enabled = TRUE;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_USE_FEC, &fecinfo, sizeof(fecinfo));
}
#endif
/* create global session identifier */
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
addr.sa_port = port ? port : DEFAULT_DATA_DESTINATION_PORT;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
if (!pgm_gsi_create_from_hostname (&addr.sa_addr.gsi, &pgm_err)) {
fprintf (stderr, "Creating GSI: %s\n", pgm_err->message);
goto err_abort;
}
/* assign socket to specified address */
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
memcpy (&if_req.ir_address, &res->ai_send_addrs[0].gsr_addr, sizeof(struct sockaddr_storage));
if (!pgm_bind3 (sock,
&addr, sizeof(addr),
&if_req, sizeof(if_req), /* tx interface */
&if_req, sizeof(if_req), /* rx interface */
&pgm_err))
{
fprintf (stderr, "Binding PGM socket: %s\n", pgm_err->message);
goto err_abort;
}
/* join IP multicast groups */
for (unsigned i = 0; i < res->ai_recv_addrs_len; i++)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_JOIN_GROUP, &res->ai_recv_addrs[i], sizeof(struct pgm_group_source_req));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_GROUP, &res->ai_send_addrs[0], sizeof(struct pgm_group_source_req));
pgm_freeaddrinfo (res);
/* set IP parameters */
const int nonblocking = 1,
multicast_loop = use_multicast_loop ? 1 : 0,
multicast_hops = 16,
dscp = 0x2e << 2; /* Expedited Forwarding PHB for network elements, no ECN. */
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_LOOP, &multicast_loop, sizeof(multicast_loop));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_HOPS, &multicast_hops, sizeof(multicast_hops));
if (AF_INET6 != sa_family)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TOS, &dscp, sizeof(dscp));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NOBLOCK, &nonblocking, sizeof(nonblocking));
if (!pgm_connect (sock, &pgm_err)) {
fprintf (stderr, "Connecting PGM socket: %s\n", pgm_err->message);
goto err_abort;
}
return TRUE;
err_abort:
if (NULL != sock) {
pgm_close (sock, FALSE);
sock = NULL;
}
if (NULL != res) {
pgm_freeaddrinfo (res);
res = NULL;
}
if (NULL != pgm_err) {
pgm_error_free (pgm_err);
pgm_err = NULL;
}
return FALSE;
}
static
gboolean
on_startup (
G_GNUC_UNUSED gpointer data
)
{
struct pgm_addrinfo_t* res = NULL;
pgm_error_t* pgm_err = NULL;
sa_family_t sa_family = AF_UNSPEC;
g_message ("startup.");
/* parse network parameter into transport address structure */
if (!pgm_getaddrinfo (g_network, NULL, &res, &pgm_err)) {
g_error ("parsing network parameter: %s", pgm_err->message);
goto err_abort;
}
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
if (g_udp_encap_port) {
g_message ("create PGM/UDP socket.");
if (!pgm_socket (&g_sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP, &pgm_err)) {
g_error ("socket: %s", pgm_err->message);
goto err_abort;
}
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT, &g_udp_encap_port, sizeof(g_udp_encap_port));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT, &g_udp_encap_port, sizeof(g_udp_encap_port));
} else {
g_message ("create PGM/IP socket.");
if (!pgm_socket (&g_sock, sa_family, SOCK_SEQPACKET, IPPROTO_PGM, &pgm_err)) {
g_error ("socket: %s", pgm_err->message);
goto err_abort;
}
}
/* Use RFC 2113 tagging for PGM Router Assist */
const int no_router_assist = 0;
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_IP_ROUTER_ALERT, &no_router_assist, sizeof(no_router_assist));
pgm_drop_superuser();
/* set PGM parameters */
const int recv_only = 1,
passive = 0,
peer_expiry = pgm_secs (300),
spmr_expiry = pgm_msecs (250),
nak_bo_ivl = pgm_msecs (50),
nak_rpt_ivl = pgm_secs (2),
nak_rdata_ivl = pgm_secs (2),
nak_data_retries = 50,
nak_ncf_retries = 50;
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_RECV_ONLY, &recv_only, sizeof(recv_only));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_PASSIVE, &passive, sizeof(passive));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_MTU, &g_max_tpdu, sizeof(g_max_tpdu));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_RXW_SQNS, &g_sqns, sizeof(g_sqns));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_PEER_EXPIRY, &peer_expiry, sizeof(peer_expiry));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_SPMR_EXPIRY, &spmr_expiry, sizeof(spmr_expiry));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NAK_BO_IVL, &nak_bo_ivl, sizeof(nak_bo_ivl));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NAK_RPT_IVL, &nak_rpt_ivl, sizeof(nak_rpt_ivl));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NAK_RDATA_IVL, &nak_rdata_ivl, sizeof(nak_rdata_ivl));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NAK_DATA_RETRIES, &nak_data_retries, sizeof(nak_data_retries));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NAK_NCF_RETRIES, &nak_ncf_retries, sizeof(nak_ncf_retries));
/* create global session identifier */
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
addr.sa_port = g_port ? g_port : DEFAULT_DATA_DESTINATION_PORT;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
if (!pgm_gsi_create_from_hostname (&addr.sa_addr.gsi, &pgm_err)) {
g_error ("creating GSI: %s", pgm_err->message);
goto err_abort;
}
/* assign socket to specified address */
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
if_req.ir_interface = res->ai_recv_addrs[0].gsr_interface;
memcpy (&if_req.ir_address, &res->ai_send_addrs[0].gsr_addr, sizeof(struct sockaddr_storage));
if (!pgm_bind3 (g_sock,
&addr, sizeof(addr),
&if_req, sizeof(if_req), /* tx interface */
&if_req, sizeof(if_req), /* rx interface */
&pgm_err))
{
g_error ("binding PGM socket: %s", pgm_err->message);
goto err_abort;
}
/* join IP multicast groups */
for (unsigned i = 0; i < res->ai_recv_addrs_len; i++)
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_JOIN_GROUP, &res->ai_recv_addrs[i], sizeof(struct pgm_group_source_req));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_SEND_GROUP, &res->ai_send_addrs[0], sizeof(struct pgm_group_source_req));
pgm_freeaddrinfo (res);
/* set IP parameters */
const int nonblocking = 1,
multicast_loop = g_multicast_loop ? 1 : 0,
multicast_hops = 16,
dscp = 0x2e << 2; /* Expedited Forwarding PHB for network elements, no ECN. */
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_MULTICAST_LOOP, &multicast_loop, sizeof(multicast_loop));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_MULTICAST_HOPS, &multicast_hops, sizeof(multicast_hops));
if (AF_INET6 != sa_family)
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_TOS, &dscp, sizeof(dscp));
pgm_setsockopt (g_sock, IPPROTO_PGM, PGM_NOBLOCK, &nonblocking, sizeof(nonblocking));
if (!pgm_connect (g_sock, &pgm_err)) {
g_error ("connecting PGM socket: %s", pgm_err->message);
goto err_abort;
}
/* create receiver thread */
GError* glib_err = NULL;
g_thread = g_thread_create_full (receiver_thread,
g_sock,
0,
TRUE,
TRUE,
G_THREAD_PRIORITY_HIGH,
&glib_err);
if (!g_thread) {
g_error ("g_thread_create_full failed errno %i: \"%s\"", glib_err->code, glib_err->message);
g_error_free (glib_err);
goto err_abort;
}
/* period timer to indicate some form of life */
// TODO: Gnome 2.14: replace with g_timeout_add_seconds()
g_timeout_add(10 * 1000, (GSourceFunc)on_mark, NULL);
g_message ("startup complete.");
return FALSE;
err_abort:
if (NULL != g_sock) {
pgm_close (g_sock, FALSE);
g_sock = NULL;
}
if (NULL != res) {
pgm_freeaddrinfo (res);
res = NULL;
}
if (NULL != pgm_err) {
pgm_error_free (pgm_err);
pgm_err = NULL;
}
g_main_loop_quit (g_loop);
return FALSE;
}
// Create, bind and connect PGM socket.
int zmq::pgm_socket_t::init (bool udp_encapsulation_, const char *network_)
{
// Can not open transport before destroying old one.
zmq_assert (sock == NULL);
zmq_assert (options.rate > 0);
// Zero counter used in msgrecv.
nbytes_rec = 0;
nbytes_processed = 0;
pgm_msgv_processed = 0;
uint16_t port_number;
struct pgm_addrinfo_t *res = NULL;
sa_family_t sa_family;
pgm_error_t *pgm_error = NULL;
if (init_address(network_, &res, &port_number) < 0) {
goto err_abort;
}
zmq_assert (res != NULL);
// Pick up detected IP family.
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
// Create IP/PGM or UDP/PGM socket.
if (udp_encapsulation_) {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP,
&pgm_error)) {
// Invalid parameters don't set pgm_error_t.
zmq_assert (pgm_error != NULL);
if (pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET && (
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT &&
pgm_error->code != PGM_ERROR_NOPROTOOPT &&
pgm_error->code != PGM_ERROR_FAILED))
// User, host, or network configuration or transient error.
goto err_abort;
// Fatal OpenPGM internal error.
zmq_assert (false);
}
// All options are of data type int
const int encapsulation_port = port_number;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT,
&encapsulation_port, sizeof (encapsulation_port)))
goto err_abort;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT,
&encapsulation_port, sizeof (encapsulation_port)))
goto err_abort;
}
else {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_PGM,
&pgm_error)) {
// Invalid parameters don't set pgm_error_t.
zmq_assert (pgm_error != NULL);
if (pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET && (
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT &&
pgm_error->code != PGM_ERROR_NOPROTOOPT &&
pgm_error->code != PGM_ERROR_FAILED))
// User, host, or network configuration or transient error.
goto err_abort;
// Fatal OpenPGM internal error.
zmq_assert (false);
}
}
{
const int rcvbuf = (int) options.rcvbuf;
if (rcvbuf) {
if (!pgm_setsockopt (sock, SOL_SOCKET, SO_RCVBUF, &rcvbuf,
sizeof (rcvbuf)))
goto err_abort;
}
const int sndbuf = (int) options.sndbuf;
if (sndbuf) {
if (!pgm_setsockopt (sock, SOL_SOCKET, SO_SNDBUF, &sndbuf,
sizeof (sndbuf)))
goto err_abort;
}
const int max_tpdu = (int) pgm_max_tpdu;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MTU, &max_tpdu,
sizeof (max_tpdu)))
goto err_abort;
}
if (receiver) {
const int recv_only = 1,
rxw_max_tpdu = (int) pgm_max_tpdu,
rxw_sqns = compute_sqns (rxw_max_tpdu),
peer_expiry = pgm_secs (300),
spmr_expiry = pgm_msecs (25),
nak_bo_ivl = pgm_msecs (50),
nak_rpt_ivl = pgm_msecs (200),
nak_rdata_ivl = pgm_msecs (200),
nak_data_retries = 50,
nak_ncf_retries = 50;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_RECV_ONLY, &recv_only,
sizeof (recv_only)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_RXW_SQNS, &rxw_sqns,
sizeof (rxw_sqns)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_PEER_EXPIRY, &peer_expiry,
sizeof (peer_expiry)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SPMR_EXPIRY, &spmr_expiry,
sizeof (spmr_expiry)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_BO_IVL, &nak_bo_ivl,
sizeof (nak_bo_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RPT_IVL, &nak_rpt_ivl,
sizeof (nak_rpt_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RDATA_IVL,
&nak_rdata_ivl, sizeof (nak_rdata_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_DATA_RETRIES,
&nak_data_retries, sizeof (nak_data_retries)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_NCF_RETRIES,
&nak_ncf_retries, sizeof (nak_ncf_retries)))
goto err_abort;
}
else {
const int send_only = 1,
max_rte = (int) ((options.rate * 1000) / 8),
txw_max_tpdu = (int) pgm_max_tpdu,
txw_sqns = compute_sqns (txw_max_tpdu),
ambient_spm = pgm_secs (30),
heartbeat_spm[] = { pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (1300),
pgm_secs (7),
pgm_secs (16),
pgm_secs (25),
pgm_secs (30) };
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_ONLY,
&send_only, sizeof (send_only)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_ODATA_MAX_RTE,
&max_rte, sizeof (max_rte)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_SQNS,
&txw_sqns, sizeof (txw_sqns)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_AMBIENT_SPM,
&ambient_spm, sizeof (ambient_spm)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_HEARTBEAT_SPM,
&heartbeat_spm, sizeof (heartbeat_spm)))
goto err_abort;
}
// PGM transport GSI.
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
addr.sa_port = port_number;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
// Create random GSI.
uint32_t buf [2];
buf [0] = generate_random ();
buf [1] = generate_random ();
if (!pgm_gsi_create_from_data (&addr.sa_addr.gsi, (uint8_t*) buf, 8))
goto err_abort;
// Bind a transport to the specified network devices.
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
if_req.ir_interface = res->ai_recv_addrs[0].gsr_interface;
if_req.ir_scope_id = 0;
if (AF_INET6 == sa_family) {
struct sockaddr_in6 sa6;
memcpy (&sa6, &res->ai_recv_addrs[0].gsr_group, sizeof (sa6));
if_req.ir_scope_id = sa6.sin6_scope_id;
}
if (!pgm_bind3 (sock, &addr, sizeof (addr), &if_req, sizeof (if_req),
&if_req, sizeof (if_req), &pgm_error)) {
// Invalid parameters don't set pgm_error_t.
zmq_assert (pgm_error != NULL);
if ((pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET ||
pgm_error->domain == PGM_ERROR_DOMAIN_IF) && (
pgm_error->code != PGM_ERROR_INVAL &&
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT))
// User, host, or network configuration or transient error.
goto err_abort;
// Fatal OpenPGM internal error.
zmq_assert (false);
}
// Join IP multicast groups.
for (unsigned i = 0; i < res->ai_recv_addrs_len; i++) {
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_JOIN_GROUP,
&res->ai_recv_addrs [i], sizeof (struct group_req)))
goto err_abort;
}
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_GROUP,
&res->ai_send_addrs [0], sizeof (struct group_req)))
goto err_abort;
pgm_freeaddrinfo (res);
res = NULL;
// Set IP level parameters.
{
// Multicast loopback disabled by default
const int multicast_loop = 0;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_LOOP,
&multicast_loop, sizeof (multicast_loop)))
goto err_abort;
const int multicast_hops = options.multicast_hops;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_HOPS,
&multicast_hops, sizeof (multicast_hops)))
goto err_abort;
// Expedited Forwarding PHB for network elements, no ECN.
// Ignore return value due to varied runtime support.
const int dscp = 0x2e << 2;
if (AF_INET6 != sa_family)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TOS,
&dscp, sizeof (dscp));
const int nonblocking = 1;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NOBLOCK,
&nonblocking, sizeof (nonblocking)))
goto err_abort;
}
// Connect PGM transport to start state machine.
if (!pgm_connect (sock, &pgm_error)) {
// Invalid parameters don't set pgm_error_t.
zmq_assert (pgm_error != NULL);
goto err_abort;
}
// For receiver transport preallocate pgm_msgv array.
if (receiver) {
zmq_assert (in_batch_size > 0);
size_t max_tsdu_size = get_max_tsdu_size ();
pgm_msgv_len = (int) in_batch_size / max_tsdu_size;
if ((int) in_batch_size % max_tsdu_size)
pgm_msgv_len++;
zmq_assert (pgm_msgv_len);
pgm_msgv = (pgm_msgv_t*) malloc (sizeof (pgm_msgv_t) * pgm_msgv_len);
alloc_assert (pgm_msgv);
}
return 0;
err_abort:
if (sock != NULL) {
pgm_close (sock, FALSE);
sock = NULL;
}
if (res != NULL) {
pgm_freeaddrinfo (res);
res = NULL;
}
if (pgm_error != NULL) {
pgm_error_free (pgm_error);
pgm_error = NULL;
}
errno = EINVAL;
return -1;
}
pgm_sock_t* PgmConnector::createPgmSocket (const SockAddr& sockaddr)
{
struct pgm_addrinfo_t* res = NULL;
pgm_sock_t* sock;
pgm_error_t* pgm_err = NULL;
sa_family_t sa_family = AF_UNSPEC;
string localaddr;
ErrorCode ec;
if (!SocketHelper::getLocalIP(localaddr, &ec))
{
LOG(error, "getLocalIP " << ec);
return NULL;
}
string pgm_addr = localaddr + ";" + sockaddr.getAddr();
int udp_encap_port = sockaddr.getPort();
/* parse network parameter into PGM socket address structure */
if (!pgm_getaddrinfo (pgm_addr.data(), NULL, &res, &pgm_err)) {
fprintf (stderr, "Parsing network parameter: %s\n", pgm_err->message);
FREE_SOCK_VARS();
return NULL;
}
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP, &pgm_err)) {
fprintf (stderr, "Creating PGM/UDP socket: %s\n", pgm_err->message);
FREE_SOCK_VARS();
return NULL;
}
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
/* Use RFC 2113 tagging for PGM Router Assist */
const int no_router_assist = 0;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_IP_ROUTER_ALERT, &no_router_assist, sizeof(no_router_assist));
/*Android shell程序需要root才可以访问网络*/
#if !defined( __ANDROID_API__ )
pgm_drop_superuser();
#endif
int max_tpdu = 1500;
int max_rte = 400*1000; /* very conservative rate, 2.5mb/s */
int sqns = 100;
/* set PGM parameters */
const int send_only = 1,
ambient_spm = pgm_secs (30),
heartbeat_spm[] = { pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (100),
pgm_msecs (1300),
pgm_secs (7),
pgm_secs (16),
pgm_secs (25),
pgm_secs (30) };
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_ONLY, &send_only, sizeof(send_only));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MTU, &max_tpdu, sizeof(max_tpdu));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_SQNS, &sqns, sizeof(sqns));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_MAX_RTE, &max_rte, sizeof(max_rte));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_AMBIENT_SPM, &ambient_spm, sizeof(ambient_spm));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_HEARTBEAT_SPM, &heartbeat_spm, sizeof(heartbeat_spm));
/* create global session identifier */
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
const int dest_port = 0;
addr.sa_port = dest_port ? dest_port : DEFAULT_DATA_DESTINATION_PORT;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
if (!pgm_gsi_create_from_hostname (&addr.sa_addr.gsi, &pgm_err)) {
fprintf (stderr, "Creating GSI: %s\n", pgm_err->message);
FREE_SOCK_VARS();
return NULL;
}
/* assign socket to specified address */
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
if_req.ir_interface = res->ai_recv_addrs[0].gsr_interface;
if_req.ir_scope_id = 0;
if (AF_INET6 == sa_family) {
struct sockaddr_in6 sa6;
memcpy (&sa6, &res->ai_recv_addrs[0].gsr_group, sizeof(sa6));
if_req.ir_scope_id = sa6.sin6_scope_id;
}
if (!pgm_bind3 (sock,
&addr, sizeof(addr),
&if_req, sizeof(if_req), /* tx interface */
&if_req, sizeof(if_req), /* rx interface */
&pgm_err))
{
fprintf (stderr, "Binding PGM socket: %s\n", pgm_err->message);
FREE_SOCK_VARS();
return NULL;
}
/* join IP multicast groups */
unsigned i;
for (i = 0; i < res->ai_recv_addrs_len; i++)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_JOIN_GROUP, &res->ai_recv_addrs[i], sizeof(struct group_req));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_GROUP, &res->ai_send_addrs[0], sizeof(struct group_req));
pgm_freeaddrinfo (res);
/* set IP parameters */
const int blocking = 1,
multicast_loop = 1,
multicast_hops = 16,
dscp = 0x2e << 2; /* Expedited Forwarding PHB for network elements, no ECN. */
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_LOOP, &multicast_loop, sizeof(multicast_loop));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_HOPS, &multicast_hops, sizeof(multicast_hops));
if (AF_INET6 != sa_family)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TOS, &dscp, sizeof(dscp));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NOBLOCK, &blocking, sizeof(blocking));
if (!pgm_connect (sock, &pgm_err)) {
fprintf (stderr, "Connecting PGM socket: %s\n", pgm_err->message);
FREE_SOCK_VARS();
return NULL;
}
pthread_t tid;
pthread_create(&tid, NULL, nakRoutine, sock);
return sock;
}
static
bool
on_startup (void)
{
struct pgm_addrinfo_t* res = NULL;
pgm_error_t* pgm_err = NULL;
sa_family_t sa_family = AF_UNSPEC;
/* parse network parameter into PGM socket address structure */
if (!pgm_getaddrinfo (network, NULL, &res, &pgm_err)) {
fprintf (stderr, "Parsing network parameter: %s\n", pgm_err->message);
goto err_abort;
}
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
puts ("Create PGM socket.");
if (udp_encap_port) {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP, &pgm_err)) {
fprintf (stderr, "Creating PGM/UDP socket: %s\n", pgm_err->message);
goto err_abort;
}
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT, &udp_encap_port, sizeof(udp_encap_port));
} else {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_PGM, &pgm_err)) {
fprintf (stderr, "Creating PGM/IP socket: %s\n", pgm_err->message);
goto err_abort;
}
}
/* Use RFC 2113 tagging for PGM Router Assist */
const int no_router_assist = 0;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_IP_ROUTER_ALERT, &no_router_assist, sizeof(no_router_assist));
pgm_drop_superuser();
/* set PGM parameters */
const int recv_only = 1,
passive = 0,
peer_expiry = pgm_secs (300),
spmr_expiry = pgm_msecs (250),
nak_bo_ivl = pgm_msecs (50),
nak_rpt_ivl = pgm_secs (2),
nak_rdata_ivl = pgm_secs (2),
nak_data_retries = 50,
nak_ncf_retries = 50;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_RECV_ONLY, &recv_only, sizeof(recv_only));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_PASSIVE, &passive, sizeof(passive));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MTU, &max_tpdu, sizeof(max_tpdu));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_RXW_SQNS, &sqns, sizeof(sqns));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_PEER_EXPIRY, &peer_expiry, sizeof(peer_expiry));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SPMR_EXPIRY, &spmr_expiry, sizeof(spmr_expiry));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_BO_IVL, &nak_bo_ivl, sizeof(nak_bo_ivl));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RPT_IVL, &nak_rpt_ivl, sizeof(nak_rpt_ivl));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RDATA_IVL, &nak_rdata_ivl, sizeof(nak_rdata_ivl));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_DATA_RETRIES, &nak_data_retries, sizeof(nak_data_retries));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_NCF_RETRIES, &nak_ncf_retries, sizeof(nak_ncf_retries));
if (use_fec) {
struct pgm_fecinfo_t fecinfo;
fecinfo.block_size = rs_n;
fecinfo.proactive_packets = 0;
fecinfo.group_size = rs_k;
fecinfo.ondemand_parity_enabled = TRUE;
fecinfo.var_pktlen_enabled = TRUE;
pgm_setsockopt (sock, IPPROTO_PGM, PGM_USE_FEC, &fecinfo, sizeof(fecinfo));
}
/* create global session identifier */
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
addr.sa_port = port ? port : DEFAULT_DATA_DESTINATION_PORT;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
if (!pgm_gsi_create_from_hostname (&addr.sa_addr.gsi, &pgm_err)) {
fprintf (stderr, "Creating GSI: %s\n", pgm_err->message);
goto err_abort;
}
/* assign socket to specified address */
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
if_req.ir_interface = res->ai_recv_addrs[0].gsr_interface;
if_req.ir_scope_id = 0;
if (AF_INET6 == sa_family) {
struct sockaddr_in6 sa6;
memcpy (&sa6, &res->ai_recv_addrs[0].gsr_group, sizeof(sa6));
if_req.ir_scope_id = sa6.sin6_scope_id;
}
if (!pgm_bind3 (sock,
&addr, sizeof(addr),
&if_req, sizeof(if_req), /* tx interface */
&if_req, sizeof(if_req), /* rx interface */
&pgm_err))
{
fprintf (stderr, "Binding PGM socket: %s\n", pgm_err->message);
goto err_abort;
}
/* join IP multicast groups */
for (unsigned i = 0; i < res->ai_recv_addrs_len; i++)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_JOIN_GROUP, &res->ai_recv_addrs[i], sizeof(struct group_req));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_GROUP, &res->ai_send_addrs[0], sizeof(struct group_req));
pgm_freeaddrinfo (res);
/* set IP parameters */
const int nonblocking = 1,
multicast_loop = use_multicast_loop ? 1 : 0,
multicast_hops = 16,
dscp = 0x2e << 2; /* Expedited Forwarding PHB for network elements, no ECN. */
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_LOOP, &multicast_loop, sizeof(multicast_loop));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_HOPS, &multicast_hops, sizeof(multicast_hops));
if (AF_INET6 != sa_family)
pgm_setsockopt (sock, IPPROTO_PGM, PGM_TOS, &dscp, sizeof(dscp));
pgm_setsockopt (sock, IPPROTO_PGM, PGM_NOBLOCK, &nonblocking, sizeof(nonblocking));
if (!pgm_connect (sock, &pgm_err)) {
fprintf (stderr, "Connecting PGM socket: %s\n", pgm_err->message);
goto err_abort;
}
/* wrap bound socket in asynchronous queue */
if (0 != async_create (&async, sock)) {
fprintf (stderr, "Creating asynchronous queue failed: %s\n", strerror(errno));
goto err_abort;
}
puts ("Startup complete.");
return TRUE;
err_abort:
if (NULL != sock) {
pgm_close (sock, FALSE);
sock = NULL;
}
if (NULL != res) {
pgm_freeaddrinfo (res);
res = NULL;
}
if (NULL != pgm_err) {
pgm_error_free (pgm_err);
pgm_err = NULL;
}
return FALSE;
}
// Create, bind and connect PGM socket.
// network_ of the form <interface & multicast group decls>:<IP port>
// e.g. eth0;239.192.0.1:7500
// link-local;224.250.0.1,224.250.0.2;224.250.0.3:8000
// ;[fe80::1%en0]:7500
int zmq::pgm_socket_t::init (bool udp_encapsulation_, const char *network_)
{
// Can not open transport before destroying old one.
zmq_assert (sock == NULL);
// Parse port number, start from end for IPv6
const char *port_delim = strrchr (network_, ':');
if (!port_delim) {
errno = EINVAL;
return -1;
}
uint16_t port_number = atoi (port_delim + 1);
char network [256];
if (port_delim - network_ >= (int) sizeof (network) - 1) {
errno = EINVAL;
return -1;
}
memset (network, '\0', sizeof (network));
memcpy (network, network_, port_delim - network_);
// Validate socket options
// Data rate is in [B/s]. options.rate is in [kb/s].
if (options.rate <= 0) {
errno = EINVAL;
return -1;
}
// Recovery interval [s].
if (options.recovery_ivl <= 0) {
errno = EINVAL;
return -1;
}
// Zero counter used in msgrecv.
nbytes_rec = 0;
nbytes_processed = 0;
pgm_msgv_processed = 0;
bool rc;
pgm_error_t *pgm_error = NULL;
struct pgm_addrinfo_t hints, *res = NULL;
sa_family_t sa_family;
memset (&hints, 0, sizeof (hints));
hints.ai_family = AF_UNSPEC;
if (!pgm_getaddrinfo (network, NULL, &res, &pgm_error)) {
// Invalid parameters don't set pgm_error_t
zmq_assert (pgm_error != NULL);
if (pgm_error->domain == PGM_ERROR_DOMAIN_IF && (
// NB: cannot catch EAI_BADFLAGS
pgm_error->code != PGM_ERROR_SERVICE &&
pgm_error->code != PGM_ERROR_SOCKTNOSUPPORT))
// User, host, or network configuration or transient error
goto err_abort;
// Fatal OpenPGM internal error
zmq_assert (false);
}
zmq_assert (res != NULL);
// Pick up detected IP family
sa_family = res->ai_send_addrs[0].gsr_group.ss_family;
// Create IP/PGM or UDP/PGM socket
if (udp_encapsulation_) {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_UDP, &pgm_error)) {
// Invalid parameters don't set pgm_error_t
zmq_assert (pgm_error != NULL);
if (pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET && (
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT &&
pgm_error->code != PGM_ERROR_NOPROTOOPT &&
pgm_error->code != PGM_ERROR_FAILED))
// User, host, or network configuration or transient error
goto err_abort;
// Fatal OpenPGM internal error
zmq_assert (false);
}
// All options are of data type int
const int encapsulation_port = port_number;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_UCAST_PORT, &encapsulation_port, sizeof (encapsulation_port)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_UDP_ENCAP_MCAST_PORT, &encapsulation_port, sizeof (encapsulation_port)))
goto err_abort;
} else {
if (!pgm_socket (&sock, sa_family, SOCK_SEQPACKET, IPPROTO_PGM, &pgm_error)) {
// Invalid parameters don't set pgm_error_t
zmq_assert (pgm_error != NULL);
if (pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET && (
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT &&
pgm_error->code != PGM_ERROR_NOPROTOOPT &&
pgm_error->code != PGM_ERROR_FAILED))
// User, host, or network configuration or transient error
goto err_abort;
// Fatal OpenPGM internal error
zmq_assert (false);
}
}
{
const int rcvbuf = (int) options.rcvbuf,
sndbuf = (int) options.sndbuf,
max_tpdu = (int) pgm_max_tpdu;
if (rcvbuf) {
if (!pgm_setsockopt (sock, SOL_SOCKET, SO_RCVBUF, &rcvbuf, sizeof (rcvbuf)))
goto err_abort;
}
if (sndbuf) {
if (!pgm_setsockopt (sock, SOL_SOCKET, SO_SNDBUF, &sndbuf, sizeof (sndbuf)))
goto err_abort;
}
// Set maximum transport protocol data unit size (TPDU).
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MTU, &max_tpdu, sizeof (max_tpdu)))
goto err_abort;
}
if (receiver) {
const int recv_only = 1,
rxw_max_rte = options.rate * 1000 / 8,
rxw_secs = options.recovery_ivl,
peer_expiry = 5 * pgm_msecs (8192),
spmr_expiry = pgm_msecs (25),
nak_bo_ivl = pgm_msecs (50),
nak_rpt_ivl = pgm_msecs (200),
nak_rdata_ivl = pgm_msecs (200),
nak_data_retries = 5,
nak_ncf_retries = 2;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_RECV_ONLY, &recv_only, sizeof (recv_only)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_RXW_MAX_RTE, &rxw_max_rte, sizeof (rxw_max_rte)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_RXW_SECS, &rxw_secs, sizeof (rxw_secs)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_PEER_EXPIRY, &peer_expiry, sizeof (peer_expiry)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SPMR_EXPIRY, &spmr_expiry, sizeof (spmr_expiry)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_BO_IVL, &nak_bo_ivl, sizeof (nak_bo_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RPT_IVL, &nak_rpt_ivl, sizeof (nak_rpt_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_RDATA_IVL, &nak_rdata_ivl, sizeof (nak_rdata_ivl)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_DATA_RETRIES, &nak_data_retries, sizeof (nak_data_retries)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NAK_NCF_RETRIES, &nak_ncf_retries, sizeof (nak_ncf_retries)))
goto err_abort;
} else {
const int send_only = 1,
txw_max_rte = options.rate * 1000 / 8,
txw_secs = options.recovery_ivl,
ambient_spm = pgm_msecs (8192),
heartbeat_spm[] = { pgm_msecs (4),
pgm_msecs (4),
pgm_msecs (8),
pgm_msecs (16),
pgm_msecs (32),
pgm_msecs (64),
pgm_msecs (128),
pgm_msecs (256),
pgm_msecs (512),
pgm_msecs (1024),
pgm_msecs (2048),
pgm_msecs (4096),
pgm_msecs (8192) };
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_ONLY, &send_only, sizeof (send_only)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_MAX_RTE, &txw_max_rte, sizeof (txw_max_rte)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_TXW_SECS, &txw_secs, sizeof (txw_secs)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_AMBIENT_SPM, &ambient_spm, sizeof (ambient_spm)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_HEARTBEAT_SPM, &heartbeat_spm, sizeof (heartbeat_spm)))
goto err_abort;
}
// PGM transport GSI.
struct pgm_sockaddr_t addr;
memset (&addr, 0, sizeof(addr));
addr.sa_port = port_number;
addr.sa_addr.sport = DEFAULT_DATA_SOURCE_PORT;
if (options.identity.size () > 0) {
// Create gsi from identity.
if (!pgm_gsi_create_from_data (&addr.sa_addr.gsi, options.identity.data (), options.identity.size ()))
goto err_abort;
} else {
// Generate random gsi.
std::string gsi_base = uuid_t ().to_string ();
if (!pgm_gsi_create_from_string (&addr.sa_addr.gsi, gsi_base.c_str (), -1))
goto err_abort;
}
// Bind a transport to the specified network devices.
struct pgm_interface_req_t if_req;
memset (&if_req, 0, sizeof(if_req));
if_req.ir_interface = res->ai_recv_addrs[0].gsr_interface;
if_req.ir_scope_id = 0;
if (AF_INET6 == sa_family) {
struct sockaddr_in6 sa6;
memcpy (&sa6, &res->ai_recv_addrs[0].gsr_group, sizeof (sa6));
if_req.ir_scope_id = sa6.sin6_scope_id;
}
if (!pgm_bind3 (sock, &addr, sizeof (addr), &if_req, sizeof (if_req), &if_req, sizeof (if_req), &pgm_error)) {
// Invalid parameters don't set pgm_error_t
zmq_assert (pgm_error != NULL);
if ((pgm_error->domain == PGM_ERROR_DOMAIN_SOCKET ||
pgm_error->domain == PGM_ERROR_DOMAIN_IF) && (
pgm_error->code != PGM_ERROR_INVAL &&
pgm_error->code != PGM_ERROR_BADF &&
pgm_error->code != PGM_ERROR_FAULT))
// User, host, or network configuration or transient error
goto err_abort;
// Fatal OpenPGM internal error
zmq_assert (false);
}
// Join IP multicast groups
for (unsigned i = 0; i < res->ai_recv_addrs_len; i++)
{
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_JOIN_GROUP, &res->ai_recv_addrs[i], sizeof (struct group_req)))
goto err_abort;
}
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_SEND_GROUP, &res->ai_send_addrs[0], sizeof (struct group_req)))
goto err_abort;
pgm_freeaddrinfo (res);
res = NULL;
// Set IP level parameters
{
const int nonblocking = 1,
multicast_loop = options.use_multicast_loop ? 1 : 0,
multicast_hops = 16,
dscp = 0x2e << 2; /* Expedited Forwarding PHB for network elements, no ECN. */
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_LOOP, &multicast_loop, sizeof (multicast_loop)) ||
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_MULTICAST_HOPS, &multicast_hops, sizeof (multicast_hops)))
goto err_abort;
if (AF_INET6 != sa_family &&
!pgm_setsockopt (sock, IPPROTO_PGM, PGM_TOS, &dscp, sizeof (dscp)))
goto err_abort;
if (!pgm_setsockopt (sock, IPPROTO_PGM, PGM_NOBLOCK, &nonblocking, sizeof (nonblocking)))
goto err_abort;
}
// Connect PGM transport to start state machine.
if (!pgm_connect (sock, &pgm_error)) {
// Invalid parameters don't set pgm_error_t
zmq_assert (pgm_error != NULL);
goto err_abort;
}
// For receiver transport preallocate pgm_msgv array.
if (receiver) {
zmq_assert (in_batch_size > 0);
size_t max_tsdu_size = get_max_tsdu_size ();
pgm_msgv_len = (int) in_batch_size / max_tsdu_size;
if ((int) in_batch_size % max_tsdu_size)
pgm_msgv_len++;
zmq_assert (pgm_msgv_len);
pgm_msgv = (pgm_msgv_t*) malloc (sizeof (pgm_msgv_t) * pgm_msgv_len);
}
return 0;
err_abort:
if (sock != NULL) {
pgm_close (sock, FALSE);
sock = NULL;
}
if (res != NULL) {
pgm_freeaddrinfo (res);
res = NULL;
}
if (pgm_error != NULL) {
pgm_error_free (pgm_error);
pgm_error = NULL;
}
errno = EINVAL;
return -1;
}
