/** * Copyright (c) 2018 Cornell University. * * Author: Ted Yin * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is furnished to do * so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include #include #include "salticidae/event.h" #include "salticidae/network.h" #include "salticidae/stream.h" /** Hello Message. */ const uint8_t MSG_OPCODE_HELLO = 0x0; const uint8_t MSG_OPCODE_ACK = 0x1; typedef struct MsgHello { const char *name; const char *text; } MsgHello; /** Defines how to serialize the msg. */ msg_t *msg_hello_serialize(const char *name, const char *text) { datastream_t *serialized = datastream_new(); size_t name_len = strlen(name); datastream_put_i32(serialized, (uint32_t)htole32(name_len)); datastream_put_data(serialized, name, name + name_len); datastream_put_data(serialized, text, text + strlen(text)); msg_t *msg = msg_new(MSG_OPCODE_HELLO, bytearray_new_moved_from_datastream(serialized)); return msg; } /** Defines how to parse the msg. */ MsgHello msg_hello_unserialize(const msg_t *msg) { datastream_t *s = msg_get_payload(msg); MsgHello res; uint32_t len; len = datastream_get_u32(s); len = le32toh(len); char *name = (char *)malloc(len + 1); memmove(name, datastream_get_data_inplace(s, len), len); name[len] = 0; len = datastream_size(s); char *text = (char *)malloc(len + 1); memmove(text, datastream_get_data_inplace(s, len), len); text[len] = 0; res.name = name; res.text = text; datastream_free(s); return res; } msg_t *msg_ack_serialize() { msg_t *msg = msg_new(MSG_OPCODE_ACK, bytearray_new()); return msg; } typedef struct MyNet { msgnetwork_t *net; const char *name; } MyNet; MyNet alice, bob; void on_receive_hello(const msg_t *_msg, const msgnetwork_conn_t *conn, void *userdata) { msgnetwork_t *net = msgnetwork_conn_get_net(conn); const char *name = ((MyNet *)userdata)->name; MsgHello msg = msg_hello_unserialize(_msg); printf("[%s] %s says %s\n", name, msg.name, msg.text); msg_t *ack = msg_ack_serialize(); /* send acknowledgement */ msgnetwork_send_msg(net, ack, conn); msg_free(ack); } void on_receive_ack(const msg_t *msg, const msgnetwork_conn_t *conn, void *userdata) { const char *name = ((MyNet *)userdata)->name; printf("[%s] the peer knows\n", name); } void conn_handler(const msgnetwork_conn_t *conn, bool connected, void *userdata) { msgnetwork_t *net = msgnetwork_conn_get_net(conn); MyNet *n = (MyNet *)userdata; const char *name = n->name; if (connected) { if (msgnetwork_conn_get_mode(conn) == CONN_MODE_ACTIVE) { printf("[%s] Connected, sending hello.", name); /* send the first message through this connection */ msg_t *hello = msg_hello_serialize(name, "Hello there!"); msgnetwork_send_msg(n->net, hello, conn); msg_free(hello); } else printf("[%s] Accepted, waiting for greetings.\n", name); } else { printf("[%s] Disconnected, retrying.\n", name); /* try to reconnect to the same address */ msgnetwork_connect(net, msgnetwork_conn_get_addr(conn)); } } MyNet gen_mynet(const eventcontext_t *ec, const char *name) { MyNet res; const msgnetwork_config_t *netconfig = msgnetwork_config_new(); res.net = msgnetwork_new(ec, netconfig); msgnetwork_config_free(netconfig); res.name = name; return res; }; static eventcontext_t *ec; void on_term_signal(int sig) { eventcontext_stop(ec); } int main() { ec = eventcontext_new(); netaddr_t *alice_addr = netaddr_new_from_sipport("127.0.0.1:12345"); netaddr_t *bob_addr = netaddr_new_from_sipport("127.0.0.1:12346"); /* test two nodes in the same main loop */ alice = gen_mynet(ec, "Alice"); bob = gen_mynet(ec, "Bob"); msgnetwork_reg_handler(alice.net, MSG_OPCODE_HELLO, on_receive_hello, &alice); msgnetwork_reg_handler(alice.net, MSG_OPCODE_ACK, on_receive_ack, &alice); msgnetwork_reg_handler(bob.net, MSG_OPCODE_HELLO, on_receive_hello, &bob); msgnetwork_reg_handler(bob.net, MSG_OPCODE_ACK, on_receive_ack, &bob); msgnetwork_reg_conn_handler(alice.net, conn_handler, &alice); msgnetwork_reg_conn_handler(bob.net, conn_handler, &bob); /* start all threads */ msgnetwork_start(alice.net); msgnetwork_start(bob.net); /* accept incoming connections */ msgnetwork_listen(alice.net, alice_addr); msgnetwork_listen(bob.net, bob_addr); /* try to connect once */ msgnetwork_connect(alice.net, bob_addr); msgnetwork_connect(bob.net, alice_addr); netaddr_free(alice_addr); netaddr_free(bob_addr); /* the main loop can be shutdown by ctrl-c or kill */ sigev_t *ev_sigint = sigev_new(ec, on_term_signal); sigev_t *ev_sigterm = sigev_new(ec, on_term_signal); sigev_add(ev_sigint, SIGINT); sigev_add(ev_sigterm, SIGTERM); /* enter the main loop */ eventcontext_dispatch(ec); sigev_free(ev_sigint); sigev_free(ev_sigterm); msgnetwork_free(alice.net); msgnetwork_free(bob.net); eventcontext_free(ec); return 0; }