#include "core.h" #include #define NACK_RATE_UNIT 10000 static ssize_t _rbuf_send_flush(ECPConnection *conn, ECPTimerItem *ti) { unsigned char payload[ECP_SIZE_PLD(0)]; ecp_pld_set_type(payload, ECP_MTYPE_RBFLUSH_REQ); return ecp_pld_send(conn, payload, sizeof(payload)); } static void cc_flush(ECPConnection *conn) { ECPRBSend *buf = conn->rbuf.send; ECPRBuffer *rbuf = &buf->rbuf; ecp_seq_t pkt_buf_cnt = rbuf->seq_max - rbuf->seq_start + 1; ecp_win_t pkt_cc_cnt = buf->win_size > buf->in_transit ? buf->win_size - buf->in_transit : 0; int pkt_to_send = pkt_buf_cnt < pkt_cc_cnt ? pkt_buf_cnt : pkt_cc_cnt; int i; if (pkt_to_send) { unsigned int idx = ecp_rbuf_msg_idx(rbuf, buf->seq_cc); unsigned int _idx = idx; for (i=0; imsg[_idx].flags & ECP_RBUF_FLAG_CCWAIT)) break; rbuf->msg[_idx].flags &= ~ECP_RBUF_FLAG_CCWAIT; _idx = ECP_RBUF_IDX_MASK(_idx + 1, rbuf->msg_size); } pkt_to_send = i; _idx = idx; #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&buf->mutex); #endif for (i=0; isock, &conn->node.addr, rbuf->msg[_idx].msg, rbuf->msg[_idx].size); _idx = ECP_RBUF_IDX_MASK(_idx + 1, rbuf->msg_size); } #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&buf->mutex); #endif buf->in_transit += (ecp_win_t)pkt_to_send; buf->cc_wait -= (ecp_win_t)pkt_to_send; buf->seq_cc += (ecp_seq_t)pkt_to_send; } } static ssize_t handle_ack(ECPConnection *conn, ecp_seq_t seq, unsigned char mtype, unsigned char *msg, ssize_t size) { ECPRBSend *buf; ssize_t rsize = sizeof(ecp_seq_t)+sizeof(ecp_ack_t); ecp_seq_t seq_ack = 0; ecp_ack_t ack_map = 0; int i; int do_flush = 0; int rv = ECP_OK; buf = conn->rbuf.send; if (buf == NULL) return ECP_ERR; if (size < 0) return size; if (size < rsize) return ECP_ERR; seq_ack = \ (msg[0] << 24) | \ (msg[1] << 16) | \ (msg[2] << 8) | \ (msg[3]); ack_map = \ (msg[4] << 24) | \ (msg[5] << 16) | \ (msg[6] << 8) | \ (msg[7]); #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&buf->mutex); #endif ECPRBuffer *rbuf = &buf->rbuf; int idx = ecp_rbuf_msg_idx(rbuf, seq_ack); if (idx < 0) rv = idx; if (!rv) { seq_ack++; buf->in_transit -= seq_ack - rbuf->seq_start; if (ack_map != ECP_RBUF_ACK_FULL) { int nack_first = 0; unsigned int msg_start; ecp_seq_t seq_start; ecp_win_t nack_cnt = 0; seq_ack -= ECP_RBUF_ACK_SIZE; #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&buf->mutex); #endif for (i=0; iflags & ECP_RBUF_FLAG_RELIABLE) { unsigned int _idx = ECP_RBUF_IDX_MASK(idx + 1 - ECP_RBUF_ACK_SIZE + i, rbuf->msg_size); ecp_pkt_send(conn->sock, &conn->node.addr, rbuf->msg[_idx].msg, rbuf->msg[_idx].size); if (!nack_first) { nack_first = 1; seq_start = seq_ack + i; msg_start = _idx; } } } } #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&buf->mutex); #endif buf->in_transit += nack_cnt; buf->nack_rate = (buf->nack_rate * 7 + ((ECP_RBUF_ACK_SIZE - nack_cnt) * NACK_RATE_UNIT) / ECP_RBUF_ACK_SIZE) / 8; if (buf->flags & ECP_RBUF_FLAG_RELIABLE) { rbuf->seq_start = seq_start; rbuf->msg_start = msg_start; } else { rbuf->seq_start = seq_ack + ECP_RBUF_ACK_SIZE; rbuf->msg_start = ECP_RBUF_IDX_MASK(idx + 1, rbuf->msg_size); } } else { buf->nack_rate = (buf->nack_rate * 7) / 8; rbuf->seq_start = seq_ack; rbuf->msg_start = ECP_RBUF_IDX_MASK(idx + 1, rbuf->msg_size); } if (buf->flush) { if (ECP_RBUF_SEQ_LT(buf->seq_flush, rbuf->seq_start)) buf->flush = 0; if (buf->flush) { do_flush = 1; } } if (buf->cc_wait) cc_flush(conn); } #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&buf->mutex); #endif if (rv) return rv; if (do_flush) ecp_timer_send(conn, _rbuf_send_flush, ECP_MTYPE_RBACK, 3, 500); return rsize; } int ecp_conn_rbuf_send_create(ECPConnection *conn, ECPRBSend *buf, ECPRBMessage *msg, unsigned int msg_size) { int rv; memset(buf, 0, sizeof(ECPRBRecv)); rv = ecp_rbuf_init(&buf->rbuf, msg, msg_size); if (rv) return rv; conn->rbuf.send = buf; return ECP_OK; } void ecp_conn_rbuf_send_destroy(ECPConnection *conn) { } int ecp_conn_rbuf_send_set_wsize(ECPConnection *conn, ecp_win_t size) { ECPRBSend *buf = conn->rbuf.send; if (buf == NULL) return ECP_ERR; #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&buf->mutex); #endif buf->win_size = size; if (buf->cc_wait) cc_flush(conn); #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&buf->mutex); #endif return ECP_OK; } int ecp_conn_rbuf_send_start(ECPConnection *conn) { ECPRBSend *buf = conn->rbuf.send; if (buf == NULL) return ECP_ERR; return ecp_rbuf_start(&buf->rbuf, conn->seq_out); } int ecp_conn_rbuf_flush(ECPConnection *conn) { ECPRBSend *buf = conn->rbuf.send; unsigned char payload[ECP_SIZE_PLD(0)]; ecp_seq_t seq; if (buf == NULL) return ECP_ERR; // XXX flush seq #ifdef ECP_WITH_PTHREAD pthread_mutex_lock(&buf->mutex); #endif if (buf->flush) { if (ECP_RBUF_SEQ_LT(buf->seq_flush, seq)) buf->seq_flush = seq; } else { buf->flush = 1; buf->seq_flush = seq; } #ifdef ECP_WITH_PTHREAD pthread_mutex_unlock(&buf->mutex); #endif ssize_t _rv = ecp_timer_send(conn, _rbuf_send_flush, ECP_MTYPE_RBACK, 3, 500); if (_rv < 0) return _rv; return ECP_OK; }