/** Node-type for loopback connections. * * @author Steffen Vogel * @copyright 2014-2020, Institute for Automation of Complex Power Systems, EONERC * @license GNU General Public License (version 3) * * VILLASnode * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . *********************************************************************************/ #include #include #include #include #include #include #include using namespace villas; using namespace villas::utils; static struct plugin p; int loopback_init(struct vnode *n) { struct loopback *l = (struct loopback *) n->_vd; l->mode = QueueSignalledMode::AUTO; l->queuelen = DEFAULT_QUEUE_LENGTH; return 0; } int loopback_parse(struct vnode *n, json_t *json) { struct loopback *l = (struct loopback *) n->_vd; const char *mode_str = nullptr; json_error_t err; int ret; ret = json_unpack_ex(json, &err, 0, "{ s?: i, s?: s }", "queuelen", &l->queuelen, "mode", &mode_str ); if (ret) throw ConfigError(json, err, "node-config-node-loopback"); if (mode_str) { if (!strcmp(mode_str, "auto")) l->mode = QueueSignalledMode::AUTO; #ifdef HAVE_EVENTFD else if (!strcmp(mode_str, "eventfd")) l->mode = QueueSignalledMode::EVENTFD; #endif else if (!strcmp(mode_str, "pthread")) l->mode = QueueSignalledMode::PTHREAD; else if (!strcmp(mode_str, "polling")) l->mode = QueueSignalledMode::POLLING; #ifdef __APPLE__ else if (!strcmp(mode_str, "pipe")) l->mode = QueueSignalledMode::PIPE; #endif /* __APPLE__ */ else throw ConfigError(json, "node-config-node-loopback-mode", "Unknown mode '{}'", mode_str); } return 0; } int loopback_prepare(struct vnode *n) { struct loopback *l = (struct loopback *) n->_vd; return queue_signalled_init(&l->queue, l->queuelen, memory_default, l->mode); } int loopback_destroy(struct vnode *n) { struct loopback *l= (struct loopback *) n->_vd; return queue_signalled_destroy(&l->queue); } int loopback_read(struct vnode *n, struct sample *smps[], unsigned cnt, unsigned *release) { int avail; struct loopback *l = (struct loopback *) n->_vd; struct sample *cpys[cnt]; avail = queue_signalled_pull_many(&l->queue, (void **) cpys, cnt); for (int i = 0; i < avail; i++) { sample_copy(smps[i], cpys[i]); sample_decref(cpys[i]); } return avail; } int loopback_write(struct vnode *n, struct sample *smps[], unsigned cnt, unsigned *release) { struct loopback *l = (struct loopback *) n->_vd; sample_incref_many(smps, cnt); return queue_signalled_push_many(&l->queue, (void **) smps, cnt); } char * loopback_print(struct vnode *n) { struct loopback *l = (struct loopback *) n->_vd; char *buf = nullptr; strcatf(&buf, "queuelen=%d", l->queuelen); return buf; } int loopback_poll_fds(struct vnode *n, int fds[]) { struct loopback *l = (struct loopback *) n->_vd; fds[0] = queue_signalled_fd(&l->queue); return 1; } __attribute__((constructor(110))) static void register_plugin() { p.name = "loopback"; p.description = "Loopback to connect multiple paths"; p.type = PluginType::NODE; p.node.instances.state = State::DESTROYED; p.node.vectorize = 0; p.node.flags = 0; p.node.size = sizeof(struct loopback); p.node.parse = loopback_parse; p.node.print = loopback_print; p.node.prepare = loopback_prepare; p.node.init = loopback_init; p.node.destroy = loopback_destroy; p.node.read = loopback_read; p.node.write = loopback_write; p.node.poll_fds = loopback_poll_fds; int ret = vlist_init(&p.node.instances); if (!ret) vlist_init_and_push(&plugins, &p); } __attribute__((destructor(110))) static void deregister_plugin() { vlist_remove_all(&plugins, &p); }