static void print_packet(struct utcp *utcp, const char *dir, const void *pkt, size_t len) {
struct hdr hdr;
if(len < sizeof hdr) {
- debug("%p %s: short packet (%zu bytes)\n", utcp, dir, len);
+ debug("%p %s: short packet (%lu bytes)\n", utcp, dir, (unsigned long)len);
return;
}
memcpy(&hdr, pkt, sizeof hdr);
- fprintf (stderr, "%p %s: len=%zu, src=%u dst=%u seq=%u ack=%u wnd=%u ctl=", utcp, dir, len, hdr.src, hdr.dst, hdr.seq, hdr.ack, hdr.wnd);
+ debug("%p %s: len=%lu, src=%u dst=%u seq=%u ack=%u wnd=%u ctl=", utcp, dir, (unsigned long)len, hdr.src, hdr.dst, hdr.seq, hdr.ack, hdr.wnd);
if(hdr.ctl & SYN)
debug("SYN");
if(hdr.ctl & RST)
if(len > sizeof hdr) {
uint32_t datalen = len - sizeof hdr;
- uint8_t *str = malloc((datalen << 1) + 7);
- if(!str) {
- debug("out of memory");
- return;
- }
- memcpy(str, " data=", 6);
- uint8_t *strptr = str + 6;
- const uint8_t *data = pkt;
- const uint8_t *dataend = data + datalen;
-
- while(data != dataend) {
- *strptr = (*data >> 4) > 9? (*data >> 4) + 55 : (*data >> 4) + 48;
- ++strptr;
- *strptr = (*data & 0xf) > 9? (*data & 0xf) + 55 : (*data & 0xf) + 48;
- ++strptr;
- ++data;
+ const uint8_t *data = (uint8_t *)pkt + sizeof hdr;
+ char str[datalen * 2 + 1];
+ char *p = str;
+
+ for(uint32_t i = 0; i < datalen; i++) {
+ *p++ = "0123456789ABCDEF"[data[i] >> 4];
+ *p++ = "0123456789ABCDEF"[data[i] & 15];
}
- *strptr = 0;
+ *p = 0;
- debug(str);
- free(str);
+ debug(" data=%s", str);
}
debug("\n");
}
}
+static bool is_reliable(struct utcp_connection *c) {
+ return c->flags & UTCP_RELIABLE;
+}
+
static inline void list_connections(struct utcp *utcp) {
debug("%p has %d connections:\n", utcp, utcp->nconnections);
for(int i = 0; i < utcp->nconnections; i++)
// Store data into the buffer
static ssize_t buffer_put_at(struct buffer *buf, size_t offset, const void *data, size_t len) {
- if(buf->maxsize <= buf->used)
- return 0;
-
- debug("buffer_put_at %zu %zu %zu\n", buf->used, offset, len);
+ debug("buffer_put_at %lu %lu %lu\n", (unsigned long)buf->used, (unsigned long)offset, (unsigned long)len);
size_t required = offset + len;
if(required > buf->maxsize) {
if(offset >= buf->maxsize)
return 0;
- abort();
len = buf->maxsize - offset;
required = buf->maxsize;
}
} else {
do {
newsize *= 2;
- } while(newsize < buf->used + len);
+ } while(newsize < required);
}
if(newsize > buf->maxsize)
newsize = buf->maxsize;
debug("timeout cleared\n");
}
-struct utcp_connection *utcp_connect(struct utcp *utcp, uint16_t dst, utcp_recv_t recv, void *priv) {
+struct utcp_connection *utcp_connect_ex(struct utcp *utcp, uint16_t dst, utcp_recv_t recv, void *priv, uint32_t flags) {
struct utcp_connection *c = allocate_connection(utcp, 0, dst);
if(!c)
return NULL;
+ assert((flags & ~0xf) == 0);
+
+ c->flags = flags;
c->recv = recv;
c->priv = priv;
- struct hdr hdr;
-
- hdr.src = c->src;
- hdr.dst = c->dst;
- hdr.seq = c->snd.iss;
- hdr.ack = 0;
- hdr.wnd = c->rcv.wnd;
- hdr.ctl = SYN;
- hdr.aux = 0;
+ struct {
+ struct hdr hdr;
+ uint8_t init[4];
+ } pkt;
+
+ pkt.hdr.src = c->src;
+ pkt.hdr.dst = c->dst;
+ pkt.hdr.seq = c->snd.iss;
+ pkt.hdr.ack = 0;
+ pkt.hdr.wnd = c->rcv.wnd;
+ pkt.hdr.ctl = SYN;
+ pkt.hdr.aux = 0x0101;
+ pkt.init[0] = 1;
+ pkt.init[1] = 0;
+ pkt.init[2] = 0;
+ pkt.init[3] = flags & 0x7;
set_state(c, SYN_SENT);
- print_packet(utcp, "send", &hdr, sizeof hdr);
- utcp->send(utcp, &hdr, sizeof hdr);
+ print_packet(utcp, "send", &pkt, sizeof pkt);
+ utcp->send(utcp, &pkt, sizeof pkt);
gettimeofday(&c->conn_timeout, NULL);
c->conn_timeout.tv_sec += utcp->timeout;
return c;
}
+struct utcp_connection *utcp_connect(struct utcp *utcp, uint16_t dst, utcp_recv_t recv, void *priv) {
+ return utcp_connect_ex(utcp, dst, recv, priv, UTCP_TCP);
+}
+
void utcp_accept(struct utcp_connection *c, utcp_recv_t recv, void *priv) {
if(c->reapable || c->state != SYN_RECEIVED) {
debug("Error: accept() called on invalid connection %p in state %s\n", c, strstate[c->state]);
return -1;
}
- // Add data to send buffer
+ // Exit early if we have nothing to send.
if(!len)
return 0;
return -1;
}
+ // Add data to send buffer.
+
len = buffer_put(&c->sndbuf, data, len);
if(len <= 0) {
errno = EWOULDBLOCK;
c->snd.last += len;
ack(c, false);
- if(!timerisset(&c->rtrx_timeout))
+ if(!is_reliable(c)) {
+ c->snd.una = c->snd.nxt = c->snd.last;
+ buffer_get(&c->sndbuf, NULL, c->sndbuf.used);
+ }
+ if(is_reliable(c) && !timerisset(&c->rtrx_timeout))
start_retransmit_timer(c);
return len;
}
* - the SACK entry is completely before ^, in that case delete it.
*/
static void sack_consume(struct utcp_connection *c, size_t len) {
- debug("sack_consume %zu\n", len);
- if(len > c->rcvbuf.used)
- abort();
+ debug("sack_consume %lu\n", (unsigned long)len);
+ if(len > c->rcvbuf.used) {
+ debug("All SACK entries consumed");
+ c->sacks[0].len = 0;
+ return;
+ }
buffer_get(&c->rcvbuf, NULL, len);
static void handle_in_order(struct utcp_connection *c, const void *data, size_t len) {
// Check if we can process out-of-order data now.
if(c->sacks[0].len && len >= c->sacks[0].offset) { // TODO: handle overlap with second SACK
- debug("incoming packet len %zu connected with SACK at %u\n", len, c->sacks[0].offset);
+ debug("incoming packet len %lu connected with SACK at %u\n", (unsigned long)len, c->sacks[0].offset);
buffer_put_at(&c->rcvbuf, 0, data, len); // TODO: handle return value
len = max(len, c->sacks[0].offset + c->sacks[0].len);
data = c->rcvbuf.data;
static void handle_incoming_data(struct utcp_connection *c, uint32_t seq, const void *data, size_t len) {
+ if(!is_reliable(c)) {
+ c->recv(c, data, len);
+ c->rcv.nxt = seq + len;
+ return;
+ }
+
uint32_t offset = seqdiff(seq, c->rcv.nxt);
if(offset + len > c->rcvbuf.maxsize)
abort();
goto reset;
}
+ // Parse auxilliary information
+ if(hdr.aux) {
+ if(hdr.aux != 0x0101 || len < 4 || ((uint8_t *)data)[0] != 1) {
+ len = 1;
+ goto reset;
+ }
+ c->flags = ((uint8_t *)data)[3] & 0x7;
+ data += 4;
+ len -= 4;
+ } else {
+ c->flags = UTCP_TCP;
+ }
+
// Return SYN+ACK, go to SYN_RECEIVED state
c->snd.wnd = hdr.wnd;
c->rcv.irs = hdr.seq;
// cut already accepted front overlapping
if(rcv_offset < 0) {
- acceptable = rcv_offset + len >= 0;
+ acceptable = len > -rcv_offset;
if(acceptable) {
data -= rcv_offset;
len += rcv_offset;
+ hdr.seq -= rcv_offset;
}
+ } else {
+ acceptable = seqdiff(hdr.seq, c->rcv.nxt) >= 0 && seqdiff(hdr.seq, c->rcv.nxt) + len <= c->rcvbuf.maxsize;
}
-
- acceptable = seqdiff(hdr.seq, c->rcv.nxt) >= 0 && seqdiff(hdr.seq, c->rcv.nxt) + len <= c->rcvbuf.maxsize;
}
if(!acceptable) {
- debug("Packet not acceptable, %u <= %u + %zu < %u\n", c->rcv.nxt, hdr.seq, len, c->rcv.nxt + c->rcvbuf.maxsize);
+ debug("Packet not acceptable, %u <= %u + %lu < %u\n", c->rcv.nxt, hdr.seq, (unsigned long)len, c->rcv.nxt + c->rcvbuf.maxsize);
// Ignore unacceptable RST packets.
if(hdr.ctl & RST)
return 0;
- // Otherwise, send an ACK back in the hope things improve.
- ack(c, true);
- return 0;
+ // Otherwise, continue processing.
+ len = 0;
}
c->snd.wnd = hdr.wnd; // TODO: move below
break;
}
} else {
- if(!len) {
+ if(!len && is_reliable(c)) {
c->dupack++;
if(c->dupack == 3) {
debug("Triplicate ACK\n");
timerclear(&c->conn_timeout); // It will be set anew in utcp_timeout() if c->snd.una != c->snd.nxt.
if(c->snd.una == c->snd.last)
stop_retransmit_timer(c);
- else
+ else if(is_reliable(c))
start_retransmit_timer(c);
}
projects / utcp / blobdiff