/* * ping.c -- Buffered pinging using cyclic arrays. * * This file is donated to the Tox Project. * Copyright 2013 plutooo */ #include #include #include "DHT.h" #include "net_crypto.h" #include "packets.h" #include "network.h" #include "util.h" #define PING_NUM_MAX 256 #define PING_TIMEOUT 5 // 5s typedef struct { IP_Port ipp; uint64_t id; uint64_t timestamp; } pinged_t; static pinged_t pings[PING_NUM_MAX]; static size_t num_pings; static size_t pos_pings; static clientid_t *self_id = (clientid_t *) &self_public_key; extern uint8_t self_secret_key[crypto_box_SECRETKEYBYTES]; // DHT.c void init_ping() { num_pings = 0; pos_pings = 0; } static bool is_timeout(uint64_t time) { return (time + PING_TIMEOUT) < now(); } static void remove_timeouts() // O(n) { size_t i, id; size_t new_pos = pos_pings; size_t new_num = num_pings; // Loop through buffer, oldest first for (i = 0; i < num_pings; i++) { id = (pos_pings + i) % PING_NUM_MAX; if (is_timeout(pings[id].timestamp)) { new_pos++; new_num--; } // Break here because list is sorted. else { break; } } num_pings = new_num; pos_pings = new_pos % PING_NUM_MAX; } uint64_t add_ping(IP_Port ipp) // O(n) { size_t p; remove_timeouts(); // Remove oldest ping if full buffer if (num_pings == PING_NUM_MAX) { num_pings--; pos_pings = (pos_pings + 1) % PING_NUM_MAX; } // Insert new ping at end of list p = (pos_pings + num_pings) % PING_NUM_MAX; pings[p].ipp = ipp; pings[p].timestamp = now(); pings[p].id = random_64b(); num_pings++; return pings[p].id; } bool is_pinging(IP_Port ipp, uint64_t ping_id) // O(n) TODO: replace this with something else. { if (ipp.ip.i == 0 && ping_id == 0) return false; size_t i, id; remove_timeouts(); for (i = 0; i < num_pings; i++) { id = (pos_pings + i) % PING_NUM_MAX; // ping_id = 0 means match any id if ((ipp_eq(pings[id].ipp, ipp) || ipp.ip.i == 0) && (pings[id].id == ping_id || ping_id == 0)) { return true; } } return false; } int send_ping_request(IP_Port ipp, clientid_t *client_id) { pingreq_t pk; int rc; uint64_t ping_id; if (is_pinging(ipp, 0) || id_eq(client_id, self_id)) return 1; // Generate random ping_id ping_id = add_ping(ipp); pk.magic = PACKET_PING_REQ; id_cpy(&pk.client_id, self_id); // Our pubkey random_nonce((uint8_t *) &pk.nonce); // Generate random nonce // Encrypt ping_id using recipient privkey rc = encrypt_data((uint8_t *) client_id, self_secret_key, (uint8_t *) &pk.nonce, (uint8_t *) &ping_id, sizeof(ping_id), (uint8_t *) &pk.ping_id); if (rc != sizeof(ping_id) + ENCRYPTION_PADDING) return 1; return sendpacket(temp_net->sock, ipp, (uint8_t *) &pk, sizeof(pk)); } int send_ping_response(IP_Port ipp, clientid_t *client_id, uint64_t ping_id) { pingres_t pk; int rc; if (id_eq(client_id, self_id)) return 1; pk.magic = PACKET_PING_RES; id_cpy(&pk.client_id, self_id); // Our pubkey random_nonce((uint8_t *) &pk.nonce); // Generate random nonce // Encrypt ping_id using recipient privkey rc = encrypt_data((uint8_t *) client_id, self_secret_key, (uint8_t *) &pk.nonce, (uint8_t *) &ping_id, sizeof(ping_id), (uint8_t *) &pk.ping_id); if (rc != sizeof(ping_id) + ENCRYPTION_PADDING) return 1; return sendpacket(temp_net->sock, ipp, (uint8_t *) &pk, sizeof(pk)); } int handle_ping_request(void * object, IP_Port source, uint8_t *packet, uint32_t length) { pingreq_t *p = (pingreq_t *) packet; int rc; uint64_t ping_id; if (length != sizeof(pingreq_t) || id_eq(&p->client_id, self_id)) return 1; // Decrypt ping_id rc = decrypt_data((uint8_t *) &p->client_id, self_secret_key, (uint8_t *) &p->nonce, (uint8_t *) &p->ping_id, sizeof(ping_id) + ENCRYPTION_PADDING, (uint8_t *) &ping_id); if (rc != sizeof(ping_id)) return 1; // Send response send_ping_response(source, &p->client_id, ping_id); add_toping((uint8_t *) &p->client_id, source); return 0; } int handle_ping_response(void * object, IP_Port source, uint8_t *packet, uint32_t length) { pingres_t *p = (pingres_t *) packet; int rc; uint64_t ping_id; if (length != sizeof(pingres_t) || id_eq(&p->client_id, self_id)) return 1; // Decrypt ping_id rc = decrypt_data((uint8_t *) &p->client_id, self_secret_key, (uint8_t *) &p->nonce, (uint8_t *) &p->ping_id, sizeof(ping_id) + ENCRYPTION_PADDING, (uint8_t *) &ping_id); if (rc != sizeof(ping_id)) return 1; // Make sure ping_id is correct if (!is_pinging(source, ping_id)) return 1; // Associate source ip with client_id addto_lists(source, (uint8_t *) &p->client_id); return 0; }