#include #ifdef ECP_WITH_HTABLE #include #endif #include #include "vconn.h" #ifdef ECP_WITH_HTABLE static void *key_perma_table; static void *key_next_table; #ifdef ECP_WITH_PTHREAD static pthread_mutex_t key_perma_mutex; static pthread_mutex_t key_next_mutex; #endif #endif static ECPConnHandler handler_vc; static ECPConnHandler handler_vl; #ifdef ECP_WITH_HTABLE static int key_is_null(unsigned char *key) { int i; for (i=0; itype != ECP_CTYPE_VCONN) return; if (ecp_conn_is_outb(conn)) return; #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_next_mutex); pthread_mutex_lock(&conn->mutex); #endif for (i=0; ikey_next[i])) ecp_ht_remove(key_next_table, conn_v->key_next[i]); } #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&conn->mutex); pthread_mutex_unlock(&key_next_mutex); #endif } #endif /* ECP_WITH_HTABLE */ static ssize_t _vconn_send_open(ECPConnection *conn, ECPTimerItem *ti) { ECPBuffer packet; ECPBuffer payload; unsigned char pkt_buf[ECP_SIZE_PKT_BUF(0, ECP_MTYPE_KGET_REQ, conn)]; unsigned char pld_buf[ECP_SIZE_PLD_BUF(0, ECP_MTYPE_KGET_REQ, conn)]; packet.buffer = pkt_buf; packet.size = ECP_SIZE_PKT_BUF(0, ECP_MTYPE_KGET_REQ, conn); payload.buffer = pld_buf; payload.size = ECP_SIZE_PLD_BUF(0, ECP_MTYPE_KGET_REQ, conn); ecp_pld_set_type(payload.buffer, payload.size, ECP_MTYPE_KGET_REQ); return _ecp_pld_send(conn, &packet, ECP_ECDH_IDX_PERMA, ECP_ECDH_IDX_INV, NULL, &payload, ECP_SIZE_PLD(0, ECP_MTYPE_KGET_REQ), 0, ti); } static ssize_t vconn_send_open(ECPConnection *conn) { ECPTimerItem ti; ECPVConnOut *conn_v = (ECPVConnOut *)conn; ECPConnection *conn_next; ssize_t rv; if (conn->type != ECP_CTYPE_VCONN) return ECP_ERR; if (ecp_conn_is_inb(conn)) return ECP_ERR; conn_next = conn_v->next; if (conn_next == NULL) return ECP_ERR; rv = ecp_timer_send(conn_next, _vconn_send_open, ECP_MTYPE_KGET_REP, 3, 1000); if (rv < 0) return rv; return rv; } static ssize_t vconn_handle_kget(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { return _ecp_conn_handle_kget(conn, seq, mtype, msg, size, b, vconn_send_open); } static ssize_t vconn_handle_open(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { ssize_t rv; int _rv; if (conn->type != ECP_CTYPE_VCONN) return ECP_ERR; if (mtype & ECP_MTYPE_FLAG_REP) { if (ecp_conn_is_inb(conn)) return ECP_ERR; if (size < 0) { ecp_conn_msg_handler_t handler; while (conn && (conn->type == ECP_CTYPE_VCONN)) { ECPVConnOut *conn_v = (ECPVConnOut *)conn; conn = conn_v->next; } if (conn) handler = ecp_conn_get_msg_handler(conn, ECP_MTYPE_OPEN); return handler ? handler(conn, seq, mtype, msg, size, b) : size; } rv = ecp_conn_handle_open(conn, seq, mtype, msg, size, b); } else { #ifdef ECP_WITH_HTABLE ECPVConnIn *conn_v = (ECPVConnIn *)conn; unsigned char ctype; int is_new, do_ins; if (ecp_conn_is_outb(conn)) return ECP_ERR; if (size < 0) return size; if (size < 1+2*ECP_ECDH_SIZE_KEY) return ECP_ERR; ctype = msg[0]; msg++; is_new = ecp_conn_is_new(conn); do_ins = 0; if (is_new) { conn_v->key_next_curr = 0; memset(conn_v->key_next, 0, sizeof(conn_v->key_next)); memset(conn_v->key_out, 0, sizeof(conn_v->key_out)); memcpy(conn_v->key_next[conn_v->key_next_curr], msg, ECP_ECDH_SIZE_KEY); memcpy(conn_v->key_out, msg+ECP_ECDH_SIZE_KEY, ECP_ECDH_SIZE_KEY); do_ins = 1; _rv = ecp_conn_insert(conn); if (_rv) return rv; } #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_next_mutex); pthread_mutex_lock(&conn->mutex); #endif _rv = ECP_OK; if (!is_new && memcmp(conn_v->key_next[conn_v->key_next_curr], msg, ECP_ECDH_SIZE_KEY)) { conn_v->key_next_curr = (conn_v->key_next_curr + 1) % ECP_MAX_NODE_KEY; if (!key_is_null(conn_v->key_next[conn_v->key_next_curr])) ecp_ht_remove(key_next_table, conn_v->key_next[conn_v->key_next_curr]); memcpy(conn_v->key_next[conn_v->key_next_curr], msg, ECP_ECDH_SIZE_KEY); do_ins = 1; } if (do_ins) _rv = ecp_ht_insert(key_next_table, conn_v->key_next[conn_v->key_next_curr], conn); if (!_rv && !ecp_conn_is_open(conn)) ecp_conn_set_open(conn); #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&conn->mutex); pthread_mutex_unlock(&key_next_mutex); #endif if (_rv) { ecp_conn_close(conn); return _rv; } rv = 1+2*ECP_ECDH_SIZE_KEY; #else /* ECP_WITH_HTABLE */ ecp_conn_close(conn); rv = ECP_ERR_NOT_IMPLEMENTED; #endif /* ECP_WITH_HTABLE */ } return rv; } #ifdef ECP_WITH_HTABLE static ssize_t vconn_handle_relay(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { ECPBuffer payload; ECPConnection *conn_out = NULL; ECPVConnIn *conn_v = (ECPVConnIn *)conn; ssize_t rv; if (conn->type != ECP_CTYPE_VCONN) return ECP_ERR; if (ecp_conn_is_outb(conn)) return ECP_ERR; if (b == NULL) return ECP_ERR; if (size < 0) return size; if (size < ECP_MIN_PKT) return ECP_ERR_MIN_PKT; #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_perma_mutex); #endif conn_out = ecp_ht_search(key_perma_table, conn_v->key_out); if (conn_out) { ecp_conn_refcount_inc(conn_out); } #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&key_perma_mutex); #endif if (conn_out == NULL) return ECP_ERR; payload.buffer = msg - ECP_SIZE_PLD_HDR - 1; payload.size = b->payload->size - (payload.buffer - b->payload->buffer); ecp_pld_set_type(payload.buffer, payload.size, ECP_MTYPE_EXEC); rv = ecp_pld_send(conn_out, b->packet, &payload, ECP_SIZE_PLD_HDR+1+size, ECP_SEND_FLAG_REPLY); ecp_conn_refcount_dec(conn_out); if (rv < 0) return rv; return size; } static int vlink_insert(ECPConnection *conn) { int rv; #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_perma_mutex); #endif rv = ecp_ht_insert(key_perma_table, ecp_cr_dh_pub_get_buf(&conn->node.public), conn); #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&key_perma_mutex); #endif return rv; } static void vlink_remove(ECPConnection *conn) { #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_perma_mutex); #endif ecp_ht_remove(key_perma_table, ecp_cr_dh_pub_get_buf(&conn->node.public)); #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&key_perma_mutex); #endif } #endif /* ECP_WITH_HTABLE */ static ssize_t _vlink_send_open(ECPConnection *conn, ECPTimerItem *ti) { ECPSocket *sock = conn->sock; ECPBuffer packet; ECPBuffer payload; unsigned char pkt_buf[ECP_SIZE_PKT_BUF(ECP_ECDH_SIZE_KEY+1, ECP_MTYPE_OPEN_REQ, conn)]; unsigned char pld_buf[ECP_SIZE_PLD_BUF(ECP_ECDH_SIZE_KEY+1, ECP_MTYPE_OPEN_REQ, conn)]; unsigned char *buf; packet.buffer = pkt_buf; packet.size = ECP_SIZE_PKT_BUF(ECP_ECDH_SIZE_KEY+1, ECP_MTYPE_OPEN_REQ, conn); payload.buffer = pld_buf; payload.size = ECP_SIZE_PLD_BUF(ECP_ECDH_SIZE_KEY+1, ECP_MTYPE_OPEN_REQ, conn); // XXX server should verify perma_key ecp_pld_set_type(payload.buffer, payload.size, ECP_MTYPE_OPEN_REQ); buf = ecp_pld_get_buf(payload.buffer, payload.size); buf[0] = conn->type; memcpy(buf+1, ecp_cr_dh_pub_get_buf(&sock->key_perma.public), ECP_ECDH_SIZE_KEY); return ecp_pld_send_wtimer(conn, &packet, &payload, ECP_SIZE_PLD(ECP_ECDH_SIZE_KEY+1, ECP_MTYPE_OPEN_REQ), 0, ti); } static ssize_t vlink_send_open(ECPConnection *conn) { return ecp_timer_send(conn, _vlink_send_open, ECP_MTYPE_OPEN_REP, 3, 500); } static ssize_t vlink_handle_kget(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { return _ecp_conn_handle_kget(conn, seq, mtype, msg, size, b, vlink_send_open); } static ssize_t vlink_handle_open(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { ssize_t rv; int _rv; int is_open; if (conn->type != ECP_CTYPE_VLINK) return ECP_ERR; if (size < 0) return size; if (ecp_conn_is_new(conn) && (size >= 1+ECP_ECDH_SIZE_KEY)) { // XXX we should verify perma_key ecp_cr_dh_pub_from_buf(&conn->node.public, msg+1); } rv = _ecp_conn_handle_open(conn, seq, mtype, msg, size, b, &is_open); if (rv < 0) return rv; if (mtype & ECP_MTYPE_FLAG_REP) { #ifdef ECP_WITH_HTABLE if (!is_open) { _rv = vlink_insert(conn); if (_rv) return _rv; } #endif /* ECP_WITH_HTABLE */ } else { if (size < rv+ECP_ECDH_SIZE_KEY) return ECP_ERR; #ifdef ECP_WITH_HTABLE msg += rv; if (!is_open) { _rv = vlink_insert(conn); if (_rv) { ecp_conn_close(conn); return _rv; } } rv = rv+ECP_ECDH_SIZE_KEY; #else /* ECP_WITH_HTABLE */ ecp_conn_close(conn); rv = ECP_ERR_NOT_IMPLEMENTED; #endif /* ECP_WITH_HTABLE */ } return rv; } #ifdef ECP_WITH_HTABLE static ssize_t vlink_handle_relay(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { ECPBuffer payload; ssize_t rv; if (conn->type != ECP_CTYPE_VLINK) return ECP_ERR; if (b == NULL) return ECP_ERR; if (size < 0) return size; if (size < ECP_MIN_PKT) return ECP_ERR_MIN_PKT; #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&key_next_mutex); #endif conn = ecp_ht_search(key_next_table, msg+ECP_SIZE_PROTO+1); if (conn) { ecp_conn_refcount_inc(conn); } #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&key_next_mutex); #endif if (conn == NULL) return ECP_ERR; payload.buffer = msg - ECP_SIZE_PLD_HDR - 1; payload.size = b->payload->size - (payload.buffer - b->payload->buffer); ecp_pld_set_type(payload.buffer, payload.size, ECP_MTYPE_EXEC); rv = ecp_pld_send(conn, b->packet, &payload, ECP_SIZE_PLD_HDR+1+size, ECP_SEND_FLAG_REPLY); ecp_conn_refcount_dec(conn); if (rv < 0) return rv; return size; } #endif /* ECP_WITH_HTABLE */ #ifdef ECP_MEM_TINY /* Memory limited version */ static ssize_t vconn_handle_exec(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { if (size < 0) return size; if (b == NULL) return ECP_ERR; if (b->packet->buffer == NULL) return ECP_ERR; memcpy(b->packet->buffer, msg, size); return ecp_pkt_handle(conn->sock, NULL, conn, b, size); } #else static ssize_t vconn_handle_exec(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size, ECP2Buffer *b) { if (size < 0) return size; if (b == NULL) return ECP_ERR; ECP2Buffer b2; ECPBuffer packet; ECPBuffer payload; unsigned char pld_buf[ECP_MAX_PLD]; b2.packet = &packet; b2.payload = &payload; packet.buffer = msg; packet.size = b->payload->size - (msg - b->payload->buffer); payload.buffer = pld_buf; payload.size = ECP_MAX_PLD; return ecp_pkt_handle(conn->sock, NULL, conn, &b2, size); } #endif static ssize_t vconn_set_msg(ECPConnection *conn, ECPBuffer *payload, unsigned char mtype) { if (ecp_conn_is_outb(conn) && (conn->type == ECP_CTYPE_VCONN) && ((mtype == ECP_MTYPE_OPEN_REQ) || (mtype == ECP_MTYPE_KGET_REQ))) { ECPVConnOut *conn_v = (ECPVConnOut *)conn; ECPConnection *conn_next = conn_v->next; unsigned char *buf = NULL; int rv; if (payload->size < ECP_SIZE_PLD_HDR + 3 + 2 * ECP_ECDH_SIZE_KEY) return ECP_ERR; if (conn_next == NULL) return ECP_ERR; ecp_pld_set_type(payload->buffer, payload->size, ECP_MTYPE_OPEN_REQ); buf = ecp_pld_get_buf(payload->buffer, payload->size); buf[0] = ECP_CTYPE_VCONN; rv = ecp_conn_dhkey_get_curr(conn_next, NULL, buf+1); if (rv) return rv; memcpy(buf+1+ECP_ECDH_SIZE_KEY, ecp_cr_dh_pub_get_buf(&conn_next->node.public), ECP_ECDH_SIZE_KEY); buf[1+2*ECP_ECDH_SIZE_KEY] = ECP_MTYPE_RELAY; return ECP_SIZE_PLD_HDR + 3 + 2 * ECP_ECDH_SIZE_KEY; } else { if (payload->size < ECP_SIZE_PLD_HDR + 1) return ECP_ERR; ecp_pld_set_type(payload->buffer, payload->size, ECP_MTYPE_RELAY); return ECP_SIZE_PLD_HDR + 1; } } #ifdef ECP_MEM_TINY /* Memory limited version */ ssize_t ecp_pack(ECPContext *ctx, ECPConnection *parent, ECPBuffer *packet, ECPPktMeta *pkt_meta, ECPBuffer *payload, size_t pld_size, ECPNetAddr *addr) { if ((packet == NULL) || (packet->buffer == NULL)) return ECP_ERR; if ((payload == NULL) || (payload->buffer == NULL)) return ECP_ERR; if (parent) { unsigned char mtype; ssize_t rv, hdr_size; int _rv; _rv = ecp_pld_get_type(payload->buffer, payload->size, &mtype); if (_rv) return _rv; hdr_size = vconn_set_msg(parent, packet, mtype); if (hdr_size < 0) return hdr_size; rv = _ecp_pack(ctx, packet->buffer+hdr_size, packet->size-hdr_size, pkt_meta, payload->buffer, pld_size); if (rv < 0) return rv; if (payload->size < rv+hdr_size) return ECP_ERR; memcpy(payload->buffer, packet->buffer, rv+hdr_size); return ecp_pack_conn(parent, packet, ECP_ECDH_IDX_INV, ECP_ECDH_IDX_INV, NULL, payload, rv+hdr_size, addr); } else { return _ecp_pack(ctx, packet->buffer, packet->size, pkt_meta, payload->buffer, pld_size); } } #else ssize_t ecp_pack(ECPContext *ctx, ECPConnection *parent, ECPBuffer *packet, ECPPktMeta *pkt_meta, ECPBuffer *payload, size_t pld_size, ECPNetAddr *addr) { if ((packet == NULL) || (packet->buffer == NULL)) return ECP_ERR; if ((payload == NULL) || (payload->buffer == NULL)) return ECP_ERR; if (parent) { ECPBuffer _payload; unsigned char pld_buf[ECP_MAX_PLD]; unsigned char mtype; ssize_t rv, hdr_size; int _rv; _payload.buffer = pld_buf; _payload.size = ECP_MAX_PLD; _rv = ecp_pld_get_type(payload->buffer, payload->size, &mtype); if (_rv) return _rv; hdr_size = vconn_set_msg(parent, &_payload, mtype); if (hdr_size < 0) return hdr_size; rv = _ecp_pack(ctx, _payload.buffer+hdr_size, _payload.size-hdr_size, pkt_meta, payload->buffer, pld_size); if (rv < 0) return rv; return ecp_pack_conn(parent, packet, ECP_ECDH_IDX_INV, ECP_ECDH_IDX_INV, NULL, &_payload, rv+hdr_size, addr); } else { return _ecp_pack(ctx, packet->buffer, packet->size, pkt_meta, payload->buffer, pld_size); } } #endif #ifdef ECP_MEM_TINY /* Memory limited version */ ssize_t ecp_pack_conn(ECPConnection *conn, ECPBuffer *packet, unsigned char s_idx, unsigned char c_idx, ECPSeqItem *si, ECPBuffer *payload, size_t pld_size, ECPNetAddr *addr) { if ((packet == NULL) || (packet->buffer == NULL)) return ECP_ERR; if ((payload == NULL) || (payload->buffer == NULL)) return ECP_ERR; if (conn->parent) { unsigned char mtype; ssize_t rv, hdr_size; int _rv; _rv = ecp_pld_get_type(payload->buffer, payload->size, &mtype); if (_rv) return _rv; hdr_size = vconn_set_msg(conn->parent, packet, mtype); if (hdr_size < 0) return hdr_size; rv = _ecp_pack_conn(conn, packet->buffer+hdr_size, packet->size-hdr_size, s_idx, c_idx, si, payload->buffer, pld_size, NULL); if (rv < 0) return rv; if (payload->size < rv+hdr_size) return ECP_ERR; memcpy(payload->buffer, packet->buffer, rv+hdr_size); return ecp_pack_conn(conn->parent, packet, ECP_ECDH_IDX_INV, ECP_ECDH_IDX_INV, NULL, payload, rv+hdr_size, addr); } else { return _ecp_pack_conn(conn, packet->buffer, packet->size, s_idx, c_idx, si, payload->buffer, pld_size, addr); } } #else ssize_t ecp_pack_conn(ECPConnection *conn, ECPBuffer *packet, unsigned char s_idx, unsigned char c_idx, ECPSeqItem *si, ECPBuffer *payload, size_t pld_size, ECPNetAddr *addr) { if ((packet == NULL) || (packet->buffer == NULL)) return ECP_ERR; if ((payload == NULL) || (payload->buffer == NULL)) return ECP_ERR; if (conn->parent) { ECPBuffer _payload; unsigned char pld_buf[ECP_MAX_PLD]; unsigned char mtype; ssize_t rv, hdr_size; int _rv; _payload.buffer = pld_buf; _payload.size = ECP_MAX_PLD; _rv = ecp_pld_get_type(payload->buffer, payload->size, &mtype); if (_rv) return _rv; hdr_size = vconn_set_msg(conn->parent, &_payload, mtype); if (hdr_size < 0) return hdr_size; rv = _ecp_pack_conn(conn, _payload.buffer+hdr_size, _payload.size-hdr_size, s_idx, c_idx, si, payload->buffer, pld_size, NULL); if (rv < 0) return rv; return ecp_pack_conn(conn->parent, packet, ECP_ECDH_IDX_INV, ECP_ECDH_IDX_INV, NULL, &_payload, rv+hdr_size, addr); } else { return _ecp_pack_conn(conn, packet->buffer, packet->size, s_idx, c_idx, si, payload->buffer, pld_size, addr); } } #endif int ecp_vconn_ctx_init(ECPContext *ctx) { int rv; rv = ecp_conn_handler_init(&handler_vc); if (rv) return rv; handler_vc.msg[ECP_MTYPE_OPEN] = vconn_handle_open; handler_vc.msg[ECP_MTYPE_KGET] = vconn_handle_kget; handler_vc.msg[ECP_MTYPE_EXEC] = vconn_handle_exec; #ifdef ECP_WITH_HTABLE handler_vc.msg[ECP_MTYPE_RELAY] = vconn_handle_relay; handler_vc.conn_close = vconn_remove; #endif /* ECP_WITH_HTABLE */ ctx->handler[ECP_CTYPE_VCONN] = &handler_vc; rv = ecp_conn_handler_init(&handler_vl); if (rv) return rv; handler_vl.msg[ECP_MTYPE_OPEN] = vlink_handle_open; handler_vl.msg[ECP_MTYPE_KGET] = vlink_handle_kget; handler_vl.msg[ECP_MTYPE_EXEC] = vconn_handle_exec; #ifdef ECP_WITH_HTABLE handler_vl.msg[ECP_MTYPE_RELAY] = vlink_handle_relay; handler_vl.conn_close = vlink_remove; #endif /* ECP_WITH_HTABLE */ ctx->handler[ECP_CTYPE_VLINK] = &handler_vl; #ifdef ECP_WITH_HTABLE key_perma_table = ecp_ht_create(ctx); if (key_perma_table == NULL) { return ECP_ERR; } key_next_table = ecp_ht_create(ctx); if (key_next_table == NULL) { ecp_ht_destroy(key_perma_table); return ECP_ERR; } #ifdef ECP_WITH_PTHREAD rv = pthread_mutex_init(&key_perma_mutex, NULL); if (rv) { ecp_ht_destroy(key_next_table); ecp_ht_destroy(key_perma_table); return ECP_ERR; } rv = pthread_mutex_init(&key_next_mutex, NULL); if (rv) { pthread_mutex_destroy(&key_perma_mutex); ecp_ht_destroy(key_next_table); ecp_ht_destroy(key_perma_table); return ECP_ERR; } #endif /* ECP_WITH_PTHREAD */ #endif /* ECP_WITH_HTABLE */ return ECP_OK; } int ecp_vconn_create_parent(ECPConnection *conn, ECPNode *conn_node, ECPVConnOut vconn[], ECPNode vconn_node[], int size) { ECPSocket *sock = conn->sock; int i, j, rv; conn->parent = (ECPConnection *)&vconn[size-1]; conn->pcount = size; for (i=0; i