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source: trunk/minix/servers/inet/generic/tcp_recv.c@ 9

Last change on this file since 9 was 9, checked in by Mattia Monga, 13 years ago
Minix 3.1.2a
File size: 32.3 KB

Line
1	/*
2	tcp_recv.c
3
4	Copyright 1995 Philip Homburg
5	*/
6
7	#include "inet.h"
8	#include "buf.h"
9	#include "clock.h"
10	#include "event.h"
11	#include "type.h"
12	#include "sr.h"
13
14	#include "io.h"
15	#include "tcp_int.h"
16	#include "tcp.h"
17	#include "assert.h"
18
19	THIS_FILE
20
21	FORWARD void create_RST ARGS(( tcp_conn_t *tcp_conn,
22	ip_hdr_t ip_hdr, tcp_hdr_t tcp_hdr, int data_len ));
23	FORWARD void process_data ARGS(( tcp_conn_t *tcp_conn,
24	tcp_hdr_t tcp_hdr, acc_t tcp_data, int data_len ));
25	FORWARD void process_advanced_data ARGS(( tcp_conn_t *tcp_conn,
26	tcp_hdr_t tcp_hdr, acc_t tcp_data, int data_len ));
27
28	PUBLIC void tcp_frag2conn(tcp_conn, ip_hdr, tcp_hdr, tcp_data, data_len)
29	tcp_conn_t *tcp_conn;
30	ip_hdr_t *ip_hdr;
31	tcp_hdr_t *tcp_hdr;
32	acc_t *tcp_data;
33	size_t data_len;
34	{
35	tcp_fd_t *connuser;
36	int tcp_hdr_flags;
37	int ip_hdr_len, tcp_hdr_len;
38	u32_t seg_ack, seg_seq, rcv_hi, snd_una, snd_nxt;
39	u16_t seg_wnd, mtu;
40	size_t mss;
41	int acceptable_ACK, segm_acceptable, send_rst, close_connection;
42
43	ip_hdr_len= (ip_hdr->ih_vers_ihl & IH_IHL_MASK) << 2;
44	tcp_hdr_len= (tcp_hdr->th_data_off & TH_DO_MASK) >> 2;
45
46	tcp_hdr_flags= tcp_hdr->th_flags & TH_FLAGS_MASK;
47	seg_ack= ntohl(tcp_hdr->th_ack_nr);
48	seg_seq= ntohl(tcp_hdr->th_seq_nr);
49	seg_wnd= ntohs(tcp_hdr->th_window);
50
51	#if 0
52	{ where(); tcp_print_conn(tcp_conn); printf("\n");
53	tcp_print_pack(ip_hdr, tcp_hdr); printf("\n"); }
54	#endif
55
56	switch (tcp_conn->tc_state)
57	{
58	case TCS_CLOSED:
59	/*
60	CLOSED:
61	discard all data.
62	!RST ?
63	ACK ?
64	<SEQ=SEG.ACK><CTL=RST>
65	exit
66	:
67	<SEQ=0><ACK=SEG.SEQ+SEG.LEN><CTL=RST,ACK>
68	exit
69	:
70	discard packet
71	exit
72	*/
73
74	if (!(tcp_hdr_flags & THF_RST))
75	{
76	create_RST(tcp_conn, ip_hdr, tcp_hdr, data_len);
77	tcp_conn_write(tcp_conn, 1);
78	}
79	break;
80	case TCS_LISTEN:
81	/*
82	LISTEN:
83	RST ?
84	discard packet
85	exit
86	ACK ?
87	<SEQ=SEG.ACK><CTL=RST>
88	exit
89	SYN ?
90	BUG: no security check
91	RCV.NXT= SEG.SEQ+1
92	IRS= SEG.SEQ
93	ISS should already be selected
94	<SEQ=ISS><ACK=RCV.NXT><CTL=SYN,ACK>
95	SND.NXT=ISS+1
96	SND.UNA=ISS
97	state= SYN-RECEIVED
98	exit
99	:
100	shouldnot occur
101	discard packet
102	exit
103	*/
104	if (tcp_hdr_flags & THF_RST)
105	break;
106	if (tcp_hdr_flags & THF_ACK)
107	{
108	create_RST (tcp_conn, ip_hdr, tcp_hdr, data_len);
109	tcp_conn_write(tcp_conn, 1);
110	break;
111	}
112	if (tcp_hdr_flags & THF_SYN)
113	{
114	tcp_extract_ipopt(tcp_conn, ip_hdr);
115	tcp_extract_tcpopt(tcp_conn, tcp_hdr, &mss);
116	mtu= mss+IP_TCP_MIN_HDR_SIZE;
117	if (mtu < IP_MIN_MTU)
118	{
119	/* No or unrealistic mss, use default MTU */
120	mtu= IP_DEF_MTU;
121	}
122	if (mtu < tcp_conn->tc_max_mtu)
123	{
124	tcp_conn->tc_max_mtu= mtu;
125	tcp_conn->tc_mtu= mtu;
126	DBLOCK(1, printf(
127	"tcp[%d]: conn[%d]: mtu = %d\n",
128	tcp_conn->tc_port-tcp_port_table,
129	tcp_conn-tcp_conn_table,
130	mtu););
131	}
132
133	tcp_conn->tc_RCV_LO= seg_seq+1;
134	tcp_conn->tc_RCV_NXT= seg_seq+1;
135	tcp_conn->tc_RCV_HI= tcp_conn->tc_RCV_LO+
136	tcp_conn->tc_rcv_wnd;
137	tcp_conn->tc_RCV_UP= seg_seq;
138	tcp_conn->tc_IRS= seg_seq;
139	tcp_conn->tc_SND_UNA= tcp_conn->tc_ISS;
140	tcp_conn->tc_SND_TRM= tcp_conn->tc_ISS;
141	tcp_conn->tc_SND_NXT= tcp_conn->tc_ISS+1;
142	tcp_conn->tc_SND_UP= tcp_conn->tc_ISS-1;
143	tcp_conn->tc_SND_PSH= tcp_conn->tc_ISS-1;
144	tcp_conn->tc_state= TCS_SYN_RECEIVED;
145	tcp_conn->tc_stt= 0;
146	assert (tcp_check_conn(tcp_conn));
147	tcp_conn->tc_locaddr= ip_hdr->ih_dst;
148	tcp_conn->tc_locport= tcp_hdr->th_dstport;
149	tcp_conn->tc_remaddr= ip_hdr->ih_src;
150	tcp_conn->tc_remport= tcp_hdr->th_srcport;
151	tcp_conn_write(tcp_conn, 1);
152
153	DIFBLOCK(0x10, seg_seq == 0,
154	printf("warning got 0 IRS from ");
155	writeIpAddr(tcp_conn->tc_remaddr);
156	printf("\n"));
157
158	/* Start the timer (if necessary) */
159	tcp_set_send_timer(tcp_conn);
160
161	break;
162	}
163	/* do nothing */
164	break;
165	case TCS_SYN_SENT:
166	/*
167	SYN-SENT:
168	ACK ?
169	SEG.ACK <= ISS \|\| SEG.ACK > SND.NXT ?
170	RST ?
171	discard packet
172	exit
173	:
174	<SEQ=SEG.ACK><CTL=RST>
175	exit
176	SND.UNA <= SEG.ACK && SEG.ACK <= SND.NXT ?
177	ACK is acceptable
178	:
179	ACK is !acceptable
180	:
181	ACK is !acceptable
182	RST ?
183	ACK acceptable ?
184	discard segment
185	state= CLOSED
186	error "connection refused"
187	exit
188	:
189	discard packet
190	exit
191	BUG: no security check
192	SYN ?
193	IRS= SEG.SEQ
194	RCV.NXT= IRS+1
195	ACK ?
196	SND.UNA= SEG.ACK
197	SND.UNA > ISS ?
198	state= ESTABLISHED
199	<SEQ=SND.NXT><ACK= RCV.NXT><CTL=ACK>
200	process ev. URG and text
201	exit
202	:
203	state= SYN-RECEIVED
204	SND.WND= SEG.WND
205	SND.WL1= SEG.SEQ
206	SND.WL2= SEG.ACK
207	<SEQ=ISS><ACK=RCV.NXT><CTL=SYN,ACK>
208	exit
209	:
210	discard segment
211	exit
212	*/
213	if (tcp_hdr_flags & THF_ACK)
214	{
215	if (tcp_LEmod4G(seg_ack, tcp_conn->tc_ISS) \|\|
216	tcp_Gmod4G(seg_ack, tcp_conn->tc_SND_NXT))
217	if (tcp_hdr_flags & THF_RST)
218	break;
219	else
220	{
221	/* HACK: force sending a RST,
222	* normally, RSTs are not send
223	* if the segment is an ACK.
224	*/
225	create_RST (tcp_conn, ip_hdr,
226	tcp_hdr, data_len+1);
227	tcp_conn_write(tcp_conn, 1);
228	break;
229	}
230	acceptable_ACK= (tcp_LEmod4G(tcp_conn->tc_SND_UNA,
231	seg_ack) && tcp_LEmod4G(seg_ack,
232	tcp_conn->tc_SND_NXT));
233	}
234	else
235	acceptable_ACK= FALSE;
236	if (tcp_hdr_flags & THF_RST)
237	{
238	if (acceptable_ACK)
239	{
240	DBLOCK(1, printf(
241	"calling tcp_close_connection\n"));
242
243	tcp_close_connection(tcp_conn,
244	ECONNREFUSED);
245	}
246	break;
247	}
248	if (tcp_hdr_flags & THF_SYN)
249	{
250	tcp_extract_ipopt(tcp_conn, ip_hdr);
251	tcp_extract_tcpopt(tcp_conn, tcp_hdr, &mss);
252	mtu= mss+IP_TCP_MIN_HDR_SIZE;
253	if (mtu < IP_MIN_MTU)
254	{
255	/* No or unrealistic mss, use default MTU */
256	mtu= IP_DEF_MTU;
257	}
258	if (mtu < tcp_conn->tc_max_mtu)
259	{
260	tcp_conn->tc_max_mtu= mtu;
261	tcp_conn->tc_mtu= mtu;
262	DBLOCK(1, printf(
263	"tcp[%d]: conn[%d]: mtu = %d\n",
264	tcp_conn->tc_port-tcp_port_table,
265	tcp_conn-tcp_conn_table,
266	mtu););
267	}
268	tcp_conn->tc_RCV_LO= seg_seq+1;
269	tcp_conn->tc_RCV_NXT= seg_seq+1;
270	tcp_conn->tc_RCV_HI= tcp_conn->tc_RCV_LO +
271	tcp_conn->tc_rcv_wnd;
272	tcp_conn->tc_RCV_UP= seg_seq;
273	tcp_conn->tc_IRS= seg_seq;
274	if (tcp_hdr_flags & THF_ACK)
275	tcp_conn->tc_SND_UNA= seg_ack;
276	if (tcp_Gmod4G(tcp_conn->tc_SND_UNA,
277	tcp_conn->tc_ISS))
278	{
279	tcp_conn->tc_state= TCS_ESTABLISHED;
280	tcp_conn->tc_rt_dead= TCP_DEF_RT_DEAD;
281
282	assert (tcp_check_conn(tcp_conn));
283	assert(tcp_conn->tc_connInprogress);
284
285	tcp_restart_connect(tcp_conn);
286
287	tcp_conn->tc_flags \|= TCF_SEND_ACK;
288	tcp_conn_write(tcp_conn, 1);
289	if (data_len != 0)
290	{
291	tcp_frag2conn(tcp_conn, ip_hdr,
292	tcp_hdr, tcp_data, data_len);
293	/* tcp_data is already freed */
294	return;
295	}
296	break;
297	}
298	tcp_conn->tc_state= TCS_SYN_RECEIVED;
299
300	assert (tcp_check_conn(tcp_conn));
301
302	tcp_conn->tc_SND_TRM= tcp_conn->tc_ISS;
303	tcp_conn_write(tcp_conn, 1);
304	}
305	break;
306
307	case TCS_SYN_RECEIVED:
308	/*
309	SYN-RECEIVED:
310	test if segment is acceptable:
311
312	Segment Receive Test
313	Length Window
314	0 0 SEG.SEQ == RCV.NXT
315	0 >0 RCV.NXT <= SEG.SEQ && SEG.SEQ < RCV.NXT+RCV.WND
316	>0 0 not acceptable
317	>0 >0 (RCV.NXT <= SEG.SEQ && SEG.SEQ < RCV.NXT+RCV.WND)
318	\|\| (RCV.NXT <= SEG.SEQ+SEG.LEN-1 &&
319	SEG.SEQ+SEG.LEN-1 < RCV.NXT+RCV.WND)
320	for urgent data: use RCV.WND+1 for RCV.WND
321
322	Special: Send RST if SEG.SEQ < IRS or SEG.SEQ > RCV.NXT+64K (and
323	the packet is not a RST packet itself).
324	*/
325	rcv_hi= tcp_conn->tc_RCV_HI;
326	if (tcp_hdr_flags & THF_URG)
327	rcv_hi++;
328	send_rst= tcp_Lmod4G(seg_seq, tcp_conn->tc_IRS) \|\|
329	tcp_Gmod4G(seg_seq, tcp_conn->tc_RCV_NXT+0x10000);
330	close_connection= 0;
331
332	if (!data_len)
333	{
334	if (rcv_hi == tcp_conn->tc_RCV_NXT)
335	segm_acceptable= (seg_seq == rcv_hi);
336	else
337	{
338	assert (tcp_Gmod4G(rcv_hi,
339	tcp_conn->tc_RCV_NXT));
340	segm_acceptable= (tcp_LEmod4G(tcp_conn->
341	tc_RCV_NXT, seg_seq) &&
342	tcp_Lmod4G(seg_seq, rcv_hi));
343	}
344	}
345	else
346	{
347	if (tcp_Gmod4G(rcv_hi, tcp_conn->tc_RCV_NXT))
348	{
349	segm_acceptable= (tcp_LEmod4G(tcp_conn->
350	tc_RCV_NXT, seg_seq) &&
351	tcp_Lmod4G(seg_seq, rcv_hi)) \|\|
352	(tcp_LEmod4G(tcp_conn->tc_RCV_NXT,
353	seg_seq+data_len-1) &&
354	tcp_Lmod4G(seg_seq+data_len-1,
355	rcv_hi));
356	}
357	else
358	{
359	segm_acceptable= FALSE;
360	}
361	}
362	/*
363	!segment acceptable ?
364	RST ?
365	discard packet
366	exit
367	:
368	<SEG=SND.NXT><ACK=RCV.NXT><CTL=ACK>
369	exit
370	*/
371	if (!segm_acceptable)
372	{
373	if (tcp_hdr_flags & THF_RST)
374	; /* do nothing */
375	else if (send_rst)
376	{
377	create_RST(tcp_conn, ip_hdr, tcp_hdr,
378	data_len);
379	tcp_conn_write(tcp_conn, 1);
380	}
381	else
382	{
383	tcp_conn->tc_flags \|= TCF_SEND_ACK;
384	tcp_conn_write(tcp_conn, 1);
385	}
386	break;
387	}
388	/*
389	RST ?
390	initiated by a LISTEN ?
391	state= LISTEN
392	exit
393	:
394	state= CLOSED
395	error "connection refused"
396	exit
397	*/
398
399	if (tcp_hdr_flags & THF_RST)
400	close_connection= 1;
401
402	/*
403	SYN in window ?
404	initiated by a LISTEN ?
405	state= LISTEN
406	exit
407	:
408	state= CLOSED
409	error "connection reset"
410	exit
411	*/
412	if ((tcp_hdr_flags & THF_SYN) && tcp_GEmod4G(seg_seq,
413	tcp_conn->tc_RCV_NXT))
414	{
415	close_connection= 1;
416	}
417
418	if (close_connection)
419	{
420	if (!tcp_conn->tc_orglisten)
421	{
422	tcp_close_connection(tcp_conn, ECONNREFUSED);
423	break;
424	}
425
426	connuser= tcp_conn->tc_fd;
427	assert(connuser);
428	if (connuser->tf_flags & TFF_LISTENQ)
429	{
430	tcp_close_connection (tcp_conn,
431	ECONNREFUSED);
432	}
433	else
434	{
435	tcp_conn->tc_connInprogress= 0;
436	tcp_conn->tc_fd= NULL;
437
438	tcp_close_connection (tcp_conn,
439	ECONNREFUSED);
440
441	/* Pick a new ISS next time */
442	tcp_conn->tc_ISS= 0;
443
444	(void)tcp_su4listen(connuser, tcp_conn,
445	0 /* !do_listenq */);
446	}
447	break;
448	}
449	/*
450	!ACK ?
451	discard packet
452	exit
453	*/
454	if (!(tcp_hdr_flags & THF_ACK))
455	break;
456	/*
457	SND.UNA < SEG.ACK <= SND.NXT ?
458	state= ESTABLISHED
459	:
460	<SEG=SEG.ACK><CTL=RST>
461	exit
462	*/
463	if (tcp_Lmod4G(tcp_conn->tc_SND_UNA, seg_ack) &&
464	tcp_LEmod4G(seg_ack, tcp_conn->tc_SND_NXT))
465	{
466	tcp_conn->tc_state= TCS_ESTABLISHED;
467	tcp_conn->tc_rt_dead= TCP_DEF_RT_DEAD;
468
469	tcp_release_retrans(tcp_conn, seg_ack, seg_wnd);
470
471	assert (tcp_check_conn(tcp_conn));
472	assert(tcp_conn->tc_connInprogress);
473
474	tcp_restart_connect(tcp_conn);
475	tcp_frag2conn(tcp_conn, ip_hdr, tcp_hdr, tcp_data,
476	data_len);
477	/* tcp_data is already freed */
478	return;
479	}
480	else
481	{
482	create_RST (tcp_conn, ip_hdr, tcp_hdr, data_len);
483	tcp_conn_write(tcp_conn, 1);
484	break;
485	}
486	break;
487
488	case TCS_ESTABLISHED:
489	case TCS_CLOSING:
490	/*
491	ESTABLISHED:
492	FIN-WAIT-1:
493	FIN-WAIT-2:
494	CLOSE-WAIT:
495	CLOSING:
496	LAST-ACK:
497	TIME-WAIT:
498	test if segment is acceptable:
499	Segment Receive Test
500	Length Window
501	0 0 SEG.SEQ == RCV.NXT
502	0 >0 RCV.NXT <= SEG.SEQ && SEG.SEQ < RCV.NXT+RCV.WND
503	>0 0 not acceptable
504	>0 >0 (RCV.NXT <= SEG.SEQ && SEG.SEQ < RCV.NXT+RCV.WND)
505	\|\| (RCV.NXT <= SEG.SEQ+SEG.LEN-1 &&
506	SEG.SEQ+SEG.LEN-1 < RCV.NXT+RCV.WND)
507	for urgent data: use RCV.WND+1 for RCV.WND
508	*/
509	rcv_hi= tcp_conn->tc_RCV_HI;
510	if (tcp_hdr_flags & THF_URG)
511	rcv_hi++;
512	if (!data_len)
513	{
514	if (rcv_hi == tcp_conn->tc_RCV_NXT)
515	segm_acceptable= (seg_seq == rcv_hi);
516	else
517	{
518	assert (tcp_Gmod4G(rcv_hi,
519	tcp_conn->tc_RCV_NXT));
520	segm_acceptable= (tcp_LEmod4G(tcp_conn->
521	tc_RCV_NXT, seg_seq) &&
522	tcp_Lmod4G(seg_seq, rcv_hi));
523	}
524	}
525	else
526	{
527	if (tcp_Gmod4G(rcv_hi, tcp_conn->tc_RCV_NXT))
528	{
529	segm_acceptable= (tcp_LEmod4G(tcp_conn->
530	tc_RCV_NXT, seg_seq) &&
531	tcp_Lmod4G(seg_seq, rcv_hi)) \|\|
532	(tcp_LEmod4G(tcp_conn->tc_RCV_NXT,
533	seg_seq+data_len-1) &&
534	tcp_Lmod4G(seg_seq+data_len-1,
535	rcv_hi));
536	}
537	else
538	{
539	segm_acceptable= FALSE;
540	}
541	}
542	/*
543	!segment acceptable ?
544	RST ?
545	discard packet
546	exit
547	:
548	<SEG=SND.NXT><ACK=RCV.NXT><CTL=ACK>
549	exit
550	*/
551	if (!segm_acceptable)
552	{
553	if (!(tcp_hdr_flags & THF_RST))
554	{
555	DBLOCK(0x20,
556	printf("segment is not acceptable\n");
557	printf("\t");
558	tcp_print_pack(ip_hdr, tcp_hdr);
559	printf("\n\t");
560	tcp_print_conn(tcp_conn);
561	printf("\n"));
562	tcp_conn->tc_flags \|= TCF_SEND_ACK;
563	tcp_conn_write(tcp_conn, 1);
564
565	/* Sometimes, a retransmission sets the PSH
566	* flag (Solaris 2.4)
567	*/
568	if (tcp_conn->tc_rcvd_data != NULL &&
569	(tcp_hdr_flags & THF_PSH))
570	{
571	tcp_conn->tc_flags \|= TCF_RCV_PUSH;
572	if (tcp_conn->tc_fd &&
573	(tcp_conn->tc_fd->tf_flags &
574	TFF_READ_IP))
575	{
576	tcp_fd_read(tcp_conn, 1);
577	}
578	if (tcp_conn->tc_fd &&
579	(tcp_conn->tc_fd->tf_flags &
580	TFF_SEL_READ))
581	{
582	tcp_rsel_read(tcp_conn);
583	}
584	}
585	}
586	break;
587	}
588	/*
589	RST ?
590	state == CLOSING \|\| state == LAST-ACK \|\|
591	state == TIME-WAIT ?
592	state= CLOSED
593	exit
594	:
595	state= CLOSED
596	error "connection reset"
597	exit
598	*/
599	if (tcp_hdr_flags & THF_RST)
600	{
601	if ((tcp_conn->tc_flags &
602	(TCF_FIN_SENT\|TCF_FIN_RECV)) ==
603	(TCF_FIN_SENT\|TCF_FIN_RECV) &&
604	tcp_conn->tc_send_data == NULL)
605	{
606	/* Clean shutdown, but the other side
607	* doesn't want to ACK our FIN.
608	*/
609	tcp_close_connection (tcp_conn, 0);
610	}
611	else
612	tcp_close_connection(tcp_conn, ECONNRESET);
613	break;
614	}
615	/*
616	SYN in window ?
617	state= CLOSED
618	error "connection reset"
619	exit
620	*/
621	if ((tcp_hdr_flags & THF_SYN) && tcp_GEmod4G(seg_seq,
622	tcp_conn->tc_RCV_NXT))
623	{
624	tcp_close_connection(tcp_conn, ECONNRESET);
625	break;
626	}
627	/*
628	!ACK ?
629	discard packet
630	exit
631	*/
632	if (!(tcp_hdr_flags & THF_ACK))
633	break;
634
635	/*
636	SND.UNA < SEG.ACK <= SND.NXT ?
637	SND.UNA= SEG.ACK
638	reply "send ok"
639	SND.WL1 < SEG.SEQ \|\| (SND.WL1 == SEG.SEQ &&
640	SND.WL2 <= SEG.ACK ?
641	SND.WND= SEG.WND
642	SND.Wl1= SEG.SEQ
643	SND.WL2= SEG.ACK
644	SEG.ACK <= SND.UNA ?
645	ignore ACK
646	SEG.ACK > SND.NXT ?
647	<SEQ=SND.NXT><ACK=RCV.NXT><CTL=ACK>
648	discard packet
649	exit
650	*/
651
652	/* Always reset the send timer after a valid ack is
653	* received. The assumption is that either the ack really
654	* acknowledges some data (normal case), contains a zero
655	* window, or the remote host has another reason not
656	* to accept any data. In all cases, the remote host is
657	* alive, so the connection should stay alive too.
658	* Do not reset stt if the state is CLOSING, i.e. if
659	* the user closed the connection and we still have
660	* some data to deliver. We don't want a zero window
661	* to keep us from closing the connection.
662	*/
663	if (tcp_conn->tc_state != TCS_CLOSING)
664	tcp_conn->tc_stt= 0;
665
666	snd_una= tcp_conn->tc_SND_UNA;
667	snd_nxt= tcp_conn->tc_SND_NXT;
668	if (seg_ack == snd_una)
669	{
670
671	if (tcp_Gmod4G(snd_nxt, snd_una))
672	{
673	/* Duplicate ACK */
674	if (++tcp_conn->tc_snd_dack ==
675	TCP_DACK_RETRANS)
676	{
677	tcp_fast_retrans(tcp_conn);
678	}
679	}
680
681	/* This ACK doesn't acknowledge any new data, this
682	* is a likely situation if we are only receiving
683	* data. We only update the window if we are
684	* actually sending or if we currently have a
685	* zero window.
686	*/
687	if (tcp_conn->tc_snd_cwnd == snd_una &&
688	seg_wnd != 0)
689	{
690	DBLOCK(2, printf("zero window opened\n"));
691	/* The other side opened up its receive
692	* window. */
693	mss= tcp_conn->tc_mtu-IP_TCP_MIN_HDR_SIZE;
694	if (seg_wnd > 2*mss)
695	seg_wnd= 2*mss;
696	tcp_conn->tc_snd_cwnd= snd_una+seg_wnd;
697	tcp_conn_write(tcp_conn, 1);
698	}
699	if (seg_wnd == 0)
700	{
701	tcp_conn->tc_snd_cwnd= tcp_conn->tc_SND_TRM=
702	snd_una;
703	}
704	}
705	else if (tcp_Lmod4G(snd_una, seg_ack) &&
706	tcp_LEmod4G(seg_ack, snd_nxt))
707	{
708	tcp_release_retrans(tcp_conn, seg_ack, seg_wnd);
709	if (tcp_conn->tc_state == TCS_CLOSED)
710	break;
711	}
712	else if (tcp_Gmod4G(seg_ack,
713	snd_nxt))
714	{
715	tcp_conn->tc_flags \|= TCF_SEND_ACK;
716	tcp_conn_write(tcp_conn, 1);
717	DBLOCK(1, printf(
718	"got an ack of something I haven't send\n");
719	printf( "seg_ack= %lu, SND_NXT= %lu\n",
720	seg_ack, snd_nxt));
721	break;
722	}
723
724	/*
725	process data...
726	*/
727	tcp_extract_ipopt(tcp_conn, ip_hdr);
728	tcp_extract_tcpopt(tcp_conn, tcp_hdr, &mss);
729
730	if (data_len)
731	{
732	if (tcp_LEmod4G(seg_seq, tcp_conn->tc_RCV_NXT))
733	{
734	process_data (tcp_conn, tcp_hdr,
735	tcp_data, data_len);
736	}
737	else
738	{
739	process_advanced_data (tcp_conn,
740	tcp_hdr, tcp_data, data_len);
741	}
742	tcp_conn->tc_flags \|= TCF_SEND_ACK;
743	tcp_conn_write(tcp_conn, 1);
744
745	/* Don't process a FIN if we got new data */
746	break;
747	}
748	/*
749	FIN ?
750	reply pending receives
751	advace RCV.NXT over the FIN
752	<SEQ=SND.NXT><ACK=RCV.NXT><CTL=ACK>
753
754	state == ESTABLISHED ?
755	state= CLOSE-WAIT
756	state == FIN-WAIT-1 ?
757	state= CLOSING
758	state == FIN-WAIT-2 ?
759	state= TIME-WAIT
760	state == TIME-WAIT ?
761	restart the TIME-WAIT timer
762	exit
763	*/
764	if ((tcp_hdr_flags & THF_FIN) && tcp_LEmod4G(seg_seq,
765	tcp_conn->tc_RCV_NXT))
766	{
767	if (!(tcp_conn->tc_flags & TCF_FIN_RECV) &&
768	tcp_Lmod4G(tcp_conn->tc_RCV_NXT,
769	tcp_conn->tc_RCV_HI))
770	{
771	tcp_conn->tc_RCV_NXT++;
772	tcp_conn->tc_flags \|= TCF_FIN_RECV;
773	}
774	tcp_conn->tc_flags \|= TCF_SEND_ACK;
775	tcp_conn_write(tcp_conn, 1);
776	if (tcp_conn->tc_fd &&
777	(tcp_conn->tc_fd->tf_flags & TFF_READ_IP))
778	{
779	tcp_fd_read(tcp_conn, 1);
780	}
781	if (tcp_conn->tc_fd &&
782	(tcp_conn->tc_fd->tf_flags & TFF_SEL_READ))
783	{
784	tcp_rsel_read(tcp_conn);
785	}
786	}
787	break;
788	default:
789	printf("tcp_frag2conn: unknown state ");
790	tcp_print_state(tcp_conn);
791	break;
792	}
793	if (tcp_data != NULL)
794	bf_afree(tcp_data);
795	}
796
797
798	PRIVATE void
799	process_data(tcp_conn, tcp_hdr, tcp_data, data_len)
800	tcp_conn_t *tcp_conn;
801	tcp_hdr_t *tcp_hdr;
802	acc_t *tcp_data;
803	int data_len;
804	{
805	u32_t lo_seq, hi_seq, urg_seq, seq_nr, adv_seq, nxt;
806	u32_t urgptr;
807	int tcp_hdr_flags;
808	unsigned int offset;
809	acc_t tmp_data, rcvd_data, *adv_data;
810	int len_diff;
811
812	assert(tcp_conn->tc_busy);
813
814	/* Note, tcp_data will be freed by the caller. */
815	assert (!(tcp_hdr->th_flags & THF_SYN));
816
817	seq_nr= ntohl(tcp_hdr->th_seq_nr);
818	urgptr= ntohs(tcp_hdr->th_urgptr);
819
820	tcp_data->acc_linkC++;
821
822	lo_seq= seq_nr;
823	tcp_hdr_flags= tcp_hdr->th_flags & TH_FLAGS_MASK;
824
825	if (tcp_Lmod4G(lo_seq, tcp_conn->tc_RCV_NXT))
826	{
827	DBLOCK(0x10,
828	printf("segment is a retransmission\n"));
829	offset= tcp_conn->tc_RCV_NXT-lo_seq;
830	tcp_data= bf_delhead(tcp_data, offset);
831	lo_seq += offset;
832	data_len -= offset;
833	if (tcp_hdr_flags & THF_URG)
834	{
835	printf("process_data: updating urgent pointer\n");
836	if (urgptr >= offset)
837	urgptr -= offset;
838	else
839	tcp_hdr_flags &= ~THF_URG;
840	}
841	}
842	assert (lo_seq == tcp_conn->tc_RCV_NXT);
843
844	if (tcp_hdr_flags & THF_URG)
845	{
846	if (!(tcp_conn->tc_flags & TCF_BSD_URG))
847	{
848	/* Update urgent pointer to point past the urgent
849	* data
850	*/
851	urgptr++;
852	}
853	if (urgptr == 0)
854	tcp_hdr_flags &= ~THF_URG;
855	}
856
857	if (tcp_hdr_flags & THF_URG)
858	{
859	if (urgptr > data_len)
860	urgptr= data_len;
861	urg_seq= lo_seq+urgptr;
862
863	if (tcp_GEmod4G(urg_seq, tcp_conn->tc_RCV_HI))
864	urg_seq= tcp_conn->tc_RCV_HI;
865	if (tcp_conn->tc_flags & TCF_BSD_URG)
866	{
867	if (tcp_Gmod4G(tcp_conn->tc_RCV_NXT,
868	tcp_conn->tc_RCV_LO))
869	{
870	DBLOCK(1, printf(
871	"ignoring urgent data\n"));
872
873	bf_afree(tcp_data);
874	/* Should set advertised window to
875	* zero */
876
877	/* Flush */
878	tcp_conn->tc_flags \|= TCF_RCV_PUSH;
879	if (tcp_conn->tc_fd &&
880	(tcp_conn->tc_fd->tf_flags &
881	TFF_READ_IP))
882	{
883	tcp_fd_read(tcp_conn, 1);
884	}
885	if (tcp_conn->tc_fd &&
886	(tcp_conn->tc_fd->tf_flags &
887	TFF_SEL_READ))
888	{
889	tcp_rsel_read(tcp_conn);
890	}
891	return;
892	}
893	}
894	if (tcp_Gmod4G(urg_seq, tcp_conn->tc_RCV_UP))
895	tcp_conn->tc_RCV_UP= urg_seq;
896	#if 0
897	if (urgptr < data_len)
898	{
899	data_len= urgptr;
900	tmp_data= bf_cut(tcp_data, 0, data_len);
901	bf_afree(tcp_data);
902	tcp_data= tmp_data;
903	tcp_hdr_flags &= ~THF_FIN;
904	}
905	#endif
906	tcp_conn->tc_flags \|= TCF_RCV_PUSH;
907	}
908	else
909	{
910	/* Normal data. */
911	}
912
913	if (tcp_hdr_flags & THF_PSH)
914	{
915	tcp_conn->tc_flags \|= TCF_RCV_PUSH;
916	}
917
918	hi_seq= lo_seq+data_len;
919	if (tcp_Gmod4G(hi_seq, tcp_conn->tc_RCV_HI))
920	{
921	data_len= tcp_conn->tc_RCV_HI-lo_seq;
922	tmp_data= bf_cut(tcp_data, 0, data_len);
923	bf_afree(tcp_data);
924	tcp_data= tmp_data;
925	hi_seq= lo_seq+data_len;
926	tcp_hdr_flags &= ~THF_FIN;
927	}
928	assert (tcp_LEmod4G (hi_seq, tcp_conn->tc_RCV_HI));
929
930	rcvd_data= tcp_conn->tc_rcvd_data;
931	tcp_conn->tc_rcvd_data= 0;
932	tmp_data= bf_append(rcvd_data, tcp_data);
933	tcp_conn->tc_rcvd_data= tmp_data;
934	tcp_conn->tc_RCV_NXT= hi_seq;
935
936	if ((tcp_hdr_flags & THF_FIN) &&
937	tcp_Lmod4G(tcp_conn->tc_RCV_NXT, tcp_conn->tc_RCV_HI) &&
938	!(tcp_conn->tc_flags & TCF_FIN_RECV))
939	{
940	tcp_conn->tc_RCV_NXT++;
941	tcp_conn->tc_flags \|= TCF_FIN_RECV;
942	}
943
944	if (tcp_conn->tc_fd && (tcp_conn->tc_fd->tf_flags & TFF_READ_IP))
945	tcp_fd_read(tcp_conn, 1);
946	if (tcp_conn->tc_fd && (tcp_conn->tc_fd->tf_flags & TFF_SEL_READ))
947	tcp_rsel_read(tcp_conn);
948
949	DIFBLOCK(2, (tcp_conn->tc_RCV_NXT == tcp_conn->tc_RCV_HI),
950	printf("conn[[%d] full receive buffer\n",
951	tcp_conn-tcp_conn_table));
952
953	if (tcp_conn->tc_adv_data == NULL)
954	return;
955	if (tcp_hdr_flags & THF_FIN)
956	{
957	printf("conn[%d]: advanced data after FIN\n",
958	tcp_conn-tcp_conn_table);
959	tcp_data= tcp_conn->tc_adv_data;
960	tcp_conn->tc_adv_data= NULL;
961	bf_afree(tcp_data);
962	return;
963	}
964
965	lo_seq= tcp_conn->tc_adv_seq;
966	if (tcp_Gmod4G(lo_seq, tcp_conn->tc_RCV_NXT))
967	return; /* Not yet */
968
969	tcp_data= tcp_conn->tc_adv_data;
970	tcp_conn->tc_adv_data= NULL;
971
972	data_len= bf_bufsize(tcp_data);
973	if (tcp_Lmod4G(lo_seq, tcp_conn->tc_RCV_NXT))
974	{
975	offset= tcp_conn->tc_RCV_NXT-lo_seq;
976	if (offset >= data_len)
977	{
978	bf_afree(tcp_data);
979	return;
980	}
981	tcp_data= bf_delhead(tcp_data, offset);
982	lo_seq += offset;
983	data_len -= offset;
984	}
985	assert (lo_seq == tcp_conn->tc_RCV_NXT);
986
987	hi_seq= lo_seq+data_len;
988	assert (tcp_LEmod4G (hi_seq, tcp_conn->tc_RCV_HI));
989
990	rcvd_data= tcp_conn->tc_rcvd_data;
991	tcp_conn->tc_rcvd_data= 0;
992	tmp_data= bf_append(rcvd_data, tcp_data);
993	tcp_conn->tc_rcvd_data= tmp_data;
994	tcp_conn->tc_RCV_NXT= hi_seq;
995
996	assert (tcp_conn->tc_RCV_LO + bf_bufsize(tcp_conn->tc_rcvd_data) ==
997	tcp_conn->tc_RCV_NXT \|\|
998	(tcp_print_conn(tcp_conn), printf("\n"), 0));
999
1000	if (tcp_conn->tc_fd && (tcp_conn->tc_fd->tf_flags & TFF_READ_IP))
1001	tcp_fd_read(tcp_conn, 1);
1002	if (tcp_conn->tc_fd && (tcp_conn->tc_fd->tf_flags & TFF_SEL_READ))
1003	tcp_rsel_read(tcp_conn);
1004
1005	adv_data= tcp_conn->tc_adv_data;
1006	if (adv_data != NULL)
1007	{
1008	/* Try to use advanced data. */
1009	adv_seq= tcp_conn->tc_adv_seq;
1010	nxt= tcp_conn->tc_RCV_NXT;
1011
1012	if (tcp_Gmod4G(adv_seq, nxt))
1013	return; /* not yet */
1014
1015	tcp_conn->tc_adv_data= NULL;
1016	data_len= bf_bufsize(adv_data);
1017
1018	if (tcp_Lmod4G(adv_seq, nxt))
1019	{
1020	if (tcp_LEmod4G(adv_seq+data_len, nxt))
1021	{
1022	/* Data is not needed anymore. */
1023	bf_afree(adv_data);
1024	return;
1025	}
1026
1027	len_diff= nxt-adv_seq;
1028	adv_data= bf_delhead(adv_data, len_diff);
1029	data_len -= len_diff;
1030	}
1031
1032	DBLOCK(1, printf("using advanced data\n"));
1033
1034	/* Append data to the input buffer */
1035	if (tcp_conn->tc_rcvd_data == NULL)
1036	{
1037	tcp_conn->tc_rcvd_data= adv_data;
1038	}
1039	else
1040	{
1041	tcp_conn->tc_rcvd_data=
1042	bf_append(tcp_conn->tc_rcvd_data, adv_data);
1043	}
1044	tcp_conn->tc_SND_NXT += data_len;
1045	assert(tcp_check_conn(tcp_conn));
1046
1047	if (tcp_conn->tc_fd &&
1048	(tcp_conn->tc_fd->tf_flags & TFF_READ_IP))
1049	{
1050	tcp_fd_read(tcp_conn, 1);
1051	}
1052	if (tcp_conn->tc_fd &&
1053	(tcp_conn->tc_fd->tf_flags & TFF_SEL_READ))
1054	{
1055	tcp_rsel_read(tcp_conn);
1056	}
1057	}
1058	}
1059
1060	PRIVATE void process_advanced_data(tcp_conn, tcp_hdr, tcp_data, data_len)
1061	tcp_conn_t *tcp_conn;
1062	tcp_hdr_t *tcp_hdr;
1063	acc_t *tcp_data;
1064	int data_len;
1065	{
1066	u32_t seq, adv_seq;
1067	acc_t *adv_data;
1068
1069	assert(tcp_conn->tc_busy);
1070
1071	/* Note, tcp_data will be freed by the caller. */
1072
1073	/* Always send an ACK, this allows the sender to do a fast
1074	* retransmit.
1075	*/
1076	tcp_conn->tc_flags \|= TCF_SEND_ACK;
1077	tcp_conn_write(tcp_conn, 1);
1078
1079	if (tcp_hdr->th_flags & THF_URG)
1080	return; /* Urgent data is to complicated */
1081
1082	if (tcp_hdr->th_flags & THF_PSH)
1083	tcp_conn->tc_flags \|= TCF_RCV_PUSH;
1084	seq= ntohl(tcp_hdr->th_seq_nr);
1085
1086	/* Make sure that the packet doesn't fall outside of the window
1087	* we offered.
1088	*/
1089	if (tcp_Gmod4G(seq+data_len, tcp_conn->tc_RCV_HI))
1090	return;
1091
1092	adv_data= tcp_conn->tc_adv_data;
1093	adv_seq= tcp_conn->tc_adv_seq;
1094	tcp_conn->tc_adv_data= NULL;
1095
1096	tcp_data->acc_linkC++;
1097	if (adv_data == NULL)
1098	{
1099	adv_seq= seq;
1100	adv_data= tcp_data;
1101	}
1102	else if (seq + data_len == adv_seq)
1103	{
1104	/* New data fits right before exiting data. */
1105	adv_data= bf_append(tcp_data, adv_data);
1106	adv_seq= seq;
1107	}
1108	else if (adv_seq + bf_bufsize(adv_data) == seq)
1109	{
1110	/* New data fits right after exiting data. */
1111	adv_data= bf_append(adv_data, tcp_data);
1112	}
1113	else
1114	{
1115	/* New data doesn't fit. */
1116	bf_afree(tcp_data);
1117	}
1118	tcp_conn->tc_adv_data= adv_data;
1119	tcp_conn->tc_adv_seq= adv_seq;
1120	}
1121
1122	PRIVATE void create_RST(tcp_conn, ip_hdr, tcp_hdr, data_len)
1123	tcp_conn_t *tcp_conn;
1124	ip_hdr_t *ip_hdr;
1125	tcp_hdr_t *tcp_hdr;
1126	int data_len;
1127	{
1128	acc_t tmp_ipopt, tmp_tcpopt, *tcp_pack;
1129	acc_t *RST_acc;
1130	ip_hdr_t *RST_ip_hdr;
1131	tcp_hdr_t *RST_tcp_hdr;
1132	size_t pack_size, ip_hdr_len, mss;
1133
1134	DBLOCK(0x10, printf("in create_RST, bad pack is:\n");
1135	tcp_print_pack(ip_hdr, tcp_hdr); tcp_print_state(tcp_conn);
1136	printf("\n"));
1137
1138	assert(tcp_conn->tc_busy);
1139
1140	/* Only send RST packets in reponse to actual data (or SYN, FIN)
1141	* this solves a problem during connection shutdown. The problem
1142	* is the follow senario: a senders closes the connection instead
1143	* of doing a shutdown and waiting for the receiver to shutdown.
1144	* The receiver is slow in processing the last data. After the
1145	* sender has completely closed the connection, the receiver
1146	* sends a window update which triggers the sender to send a
1147	* RST. The receiver closes the connection in reponse to the RST.
1148	*/
1149	if ((tcp_hdr->th_flags & (THF_FIN\|THF_SYN)) == 0 &&
1150	data_len == 0)
1151	{
1152	#if DEBUG
1153	{ printf("tcp_recv`create_RST: no data, no RST\n"); }
1154	#endif
1155	return;
1156	}
1157
1158	tmp_ipopt= tcp_conn->tc_remipopt;
1159	if (tmp_ipopt)
1160	tmp_ipopt->acc_linkC++;
1161	tmp_tcpopt= tcp_conn->tc_tcpopt;
1162	if (tmp_tcpopt)
1163	tmp_tcpopt->acc_linkC++;
1164
1165	tcp_extract_ipopt (tcp_conn, ip_hdr);
1166	tcp_extract_tcpopt (tcp_conn, tcp_hdr, &mss);
1167
1168	RST_acc= tcp_make_header (tcp_conn, &RST_ip_hdr, &RST_tcp_hdr,
1169	(acc_t *)0);
1170
1171	if (tcp_conn->tc_remipopt)
1172	bf_afree(tcp_conn->tc_remipopt);
1173	tcp_conn->tc_remipopt= tmp_ipopt;
1174	if (tcp_conn->tc_tcpopt)
1175	bf_afree(tcp_conn->tc_tcpopt);
1176	tcp_conn->tc_tcpopt= tmp_tcpopt;
1177
1178	RST_ip_hdr->ih_src= ip_hdr->ih_dst;
1179	RST_ip_hdr->ih_dst= ip_hdr->ih_src;
1180
1181	RST_tcp_hdr->th_srcport= tcp_hdr->th_dstport;
1182	RST_tcp_hdr->th_dstport= tcp_hdr->th_srcport;
1183	if (tcp_hdr->th_flags & THF_ACK)
1184	{
1185	RST_tcp_hdr->th_seq_nr= tcp_hdr->th_ack_nr;
1186	RST_tcp_hdr->th_flags= THF_RST;
1187	}
1188	else
1189	{
1190	RST_tcp_hdr->th_seq_nr= 0;
1191	RST_tcp_hdr->th_ack_nr=
1192	htonl(
1193	ntohl(tcp_hdr->th_seq_nr)+
1194	data_len +
1195	(tcp_hdr->th_flags & THF_SYN ? 1 : 0) +
1196	(tcp_hdr->th_flags & THF_FIN ? 1 : 0));
1197	RST_tcp_hdr->th_flags= THF_RST\|THF_ACK;
1198	}
1199
1200	pack_size= bf_bufsize(RST_acc);
1201	RST_ip_hdr->ih_length= htons(pack_size);
1202	RST_tcp_hdr->th_window= htons(tcp_conn->tc_rcv_wnd);
1203	RST_tcp_hdr->th_chksum= 0;
1204
1205	RST_acc->acc_linkC++;
1206	ip_hdr_len= (ip_hdr->ih_vers_ihl & IH_IHL_MASK) << 2;
1207	tcp_pack= bf_delhead(RST_acc, ip_hdr_len);
1208	RST_tcp_hdr->th_chksum= ~tcp_pack_oneCsum (RST_ip_hdr, tcp_pack);
1209	bf_afree(tcp_pack);
1210
1211	DBLOCK(2, tcp_print_pack(ip_hdr, tcp_hdr); printf("\n");
1212	tcp_print_pack(RST_ip_hdr, RST_tcp_hdr); printf("\n"));
1213
1214	if (tcp_conn->tc_frag2send)
1215	bf_afree(tcp_conn->tc_frag2send);
1216	tcp_conn->tc_frag2send= RST_acc;
1217	tcp_conn_write(tcp_conn, 1);
1218	}
1219
1220	PUBLIC void
1221	tcp_fd_read(tcp_conn, enq)
1222	tcp_conn_t *tcp_conn;
1223	int enq; /* Enqueue writes. */
1224	{
1225	tcp_fd_t *tcp_fd;
1226	size_t data_size, read_size;
1227	acc_t *data;
1228	int fin_recv, urg, push, result;
1229	i32_t old_window, new_window;
1230	u16_t mss;
1231
1232	assert(tcp_conn->tc_busy);
1233
1234	tcp_fd= tcp_conn->tc_fd;
1235
1236	assert (tcp_fd->tf_flags & TFF_READ_IP);
1237	if (tcp_conn->tc_state == TCS_CLOSED)
1238	{
1239	if (tcp_fd->tf_read_offset)
1240	tcp_reply_read (tcp_fd, tcp_fd->tf_read_offset);
1241	else
1242	tcp_reply_read (tcp_fd, tcp_conn->tc_error);
1243	return;
1244	}
1245
1246	urg= tcp_Gmod4G(tcp_conn->tc_RCV_UP, tcp_conn->tc_RCV_LO);
1247	push= (tcp_conn->tc_flags & TCF_RCV_PUSH);
1248	fin_recv= (tcp_conn->tc_flags & TCF_FIN_RECV);
1249
1250	data_size= tcp_conn->tc_RCV_NXT-tcp_conn->tc_RCV_LO;
1251	if (fin_recv)
1252	data_size--;
1253	if (urg)
1254	{
1255	#if DEBUG
1256	printf("tcp_fd_read: RCV_UP = 0x%x, RCV_LO = 0x%x\n",
1257	tcp_conn->tc_RCV_UP, tcp_conn->tc_RCV_LO);
1258	#endif
1259	read_size= tcp_conn->tc_RCV_UP-tcp_conn->tc_RCV_LO;
1260	}
1261	else
1262	read_size= data_size;
1263
1264	if (read_size >= tcp_fd->tf_read_count)
1265	read_size= tcp_fd->tf_read_count;
1266	else if (!push && !fin_recv && !urg &&
1267	data_size < TCP_MIN_RCV_WND_SIZE)
1268	{
1269	/* Defer the copy out until later. */
1270	return;
1271	}
1272	else if (data_size == 0 && !fin_recv)
1273	{
1274	/* No data, and no end of file. */
1275	return;
1276	}
1277
1278	if (read_size)
1279	{
1280	if (urg && !(tcp_fd->tf_flags & TFF_RECV_URG))
1281	{
1282	if (tcp_fd->tf_read_offset)
1283	{
1284	tcp_reply_read (tcp_fd,
1285	tcp_fd->tf_read_offset);
1286	}
1287	else
1288	{
1289	tcp_reply_read (tcp_fd, EURG);
1290	}
1291	return;
1292	}
1293	else if (!urg && (tcp_fd->tf_flags & TFF_RECV_URG))
1294	{
1295	if (tcp_fd->tf_read_offset)
1296	{
1297	tcp_reply_read (tcp_fd,
1298	tcp_fd->tf_read_offset);
1299	}
1300	else
1301	{
1302	tcp_reply_read(tcp_fd, ENOURG);
1303	}
1304	return;
1305	}
1306
1307	if (read_size == data_size)
1308	{
1309	data= tcp_conn->tc_rcvd_data;
1310	data->acc_linkC++;
1311	}
1312	else
1313	{
1314	data= bf_cut(tcp_conn->tc_rcvd_data, 0, read_size);
1315	}
1316	result= (*tcp_fd->tf_put_userdata) (tcp_fd->tf_srfd,
1317	tcp_fd->tf_read_offset, data, FALSE);
1318	if (result<0)
1319	{
1320	if (tcp_fd->tf_read_offset)
1321	tcp_reply_read(tcp_fd, tcp_fd->
1322	tf_read_offset);
1323	else
1324	tcp_reply_read(tcp_fd, result);
1325	return;
1326	}
1327	tcp_fd->tf_read_offset += read_size;
1328	tcp_fd->tf_read_count -= read_size;
1329
1330	if (data_size == read_size)
1331	{
1332	bf_afree(tcp_conn->tc_rcvd_data);
1333	tcp_conn->tc_rcvd_data= 0;
1334	}
1335	else
1336	{
1337	tcp_conn->tc_rcvd_data=
1338	bf_delhead(tcp_conn->tc_rcvd_data,
1339	read_size);
1340	}
1341	tcp_conn->tc_RCV_LO += read_size;
1342	data_size -= read_size;
1343	}
1344
1345	/* Update IRS and often RCV_UP every 0.5GB */
1346	if (tcp_conn->tc_RCV_LO - tcp_conn->tc_IRS > 0x40000000)
1347	{
1348	tcp_conn->tc_IRS += 0x20000000;
1349	DBLOCK(1, printf("tcp_fd_read: updating IRS to 0x%lx\n",
1350	(unsigned long)tcp_conn->tc_IRS););
1351	if (tcp_Lmod4G(tcp_conn->tc_RCV_UP, tcp_conn->tc_IRS))
1352	{
1353	tcp_conn->tc_RCV_UP= tcp_conn->tc_IRS;
1354	DBLOCK(1, printf(
1355	"tcp_fd_read: updating RCV_UP to 0x%lx\n",
1356	(unsigned long)tcp_conn->tc_RCV_UP););
1357	}
1358	DBLOCK(1, printf("tcp_fd_read: RCP_LO = 0x%lx\n",
1359	(unsigned long)tcp_conn->tc_RCV_LO););
1360	}
1361
1362	mss= tcp_conn->tc_mtu-IP_TCP_MIN_HDR_SIZE;
1363	if (tcp_conn->tc_RCV_HI-tcp_conn->tc_RCV_LO <=
1364	tcp_conn->tc_rcv_wnd-mss)
1365	{
1366	old_window= tcp_conn->tc_RCV_HI-tcp_conn->tc_RCV_NXT;
1367	tcp_conn->tc_RCV_HI= tcp_conn->tc_RCV_LO +
1368	tcp_conn->tc_rcv_wnd;
1369	new_window= tcp_conn->tc_RCV_HI-tcp_conn->tc_RCV_NXT;
1370	assert(old_window >=0 && new_window >= old_window);
1371	if (old_window < mss && new_window >= mss)
1372	{
1373	tcp_conn->tc_flags \|= TCF_SEND_ACK;
1374	DBLOCK(2, printf("opening window\n"));
1375	tcp_conn_write(tcp_conn, 1);
1376	}
1377	}
1378	if (tcp_conn->tc_rcvd_data == NULL &&
1379	tcp_conn->tc_adv_data == NULL)
1380	{
1381	/* Out of data, clear PUSH flag and reply to a read. */
1382	tcp_conn->tc_flags &= ~TCF_RCV_PUSH;
1383	}
1384	if (fin_recv \|\| urg \|\| tcp_fd->tf_read_offset \|\|
1385	!tcp_fd->tf_read_count)
1386	{
1387	tcp_reply_read (tcp_fd, tcp_fd->tf_read_offset);
1388	return;
1389	}
1390	}
1391
1392	PUBLIC unsigned
1393	tcp_sel_read(tcp_conn)
1394	tcp_conn_t *tcp_conn;
1395	{
1396	tcp_fd_t *tcp_fd;
1397	size_t data_size;
1398	int fin_recv, urg, push;
1399
1400	tcp_fd= tcp_conn->tc_fd;
1401
1402	if (tcp_conn->tc_state == TCS_CLOSED)
1403	return 1;
1404
1405	fin_recv= (tcp_conn->tc_flags & TCF_FIN_RECV);
1406	if (fin_recv)
1407	return 1;
1408
1409	data_size= tcp_conn->tc_RCV_NXT-tcp_conn->tc_RCV_LO;
1410	if (data_size == 0)
1411	{
1412	/* No data, and no end of file. */
1413	return 0;
1414	}
1415
1416	urg= tcp_Gmod4G(tcp_conn->tc_RCV_UP, tcp_conn->tc_RCV_LO);
1417	push= (tcp_conn->tc_flags & TCF_RCV_PUSH);
1418
1419	if (!push && !urg && data_size < TCP_MIN_RCV_WND_SIZE)
1420	{
1421	/* Defer until later. */
1422	return 0;
1423	}
1424
1425	return 1;
1426	}
1427
1428	PUBLIC void
1429	tcp_rsel_read(tcp_conn)
1430	tcp_conn_t *tcp_conn;
1431	{
1432	tcp_fd_t *tcp_fd;
1433
1434	if (tcp_sel_read(tcp_conn) == 0)
1435	return;
1436
1437	tcp_fd= tcp_conn->tc_fd;
1438	tcp_fd->tf_flags &= ~TFF_SEL_READ;
1439	if (tcp_fd->tf_select_res)
1440	tcp_fd->tf_select_res(tcp_fd->tf_srfd, SR_SELECT_READ);
1441	else
1442	printf("tcp_rsel_read: no select_res\n");
1443	}
1444
1445	PUBLIC void tcp_bytesavailable(tcp_fd, bytesp)
1446	tcp_fd_t *tcp_fd;
1447	int *bytesp;
1448	{
1449	tcp_conn_t *tcp_conn;
1450	size_t data_size, read_size;
1451	acc_t *data;
1452	int fin_recv, urg, push, result;
1453	i32_t old_window, new_window;
1454	u16_t mss;
1455
1456	bytesp= 0; / The default is that nothing is available */
1457
1458	if (!(tcp_fd->tf_flags & TFF_CONNECTED))
1459	return;
1460	tcp_conn= tcp_fd->tf_conn;
1461
1462	if (tcp_conn->tc_state == TCS_CLOSED)
1463	return;
1464
1465	urg= tcp_Gmod4G(tcp_conn->tc_RCV_UP, tcp_conn->tc_RCV_LO);
1466	push= (tcp_conn->tc_flags & TCF_RCV_PUSH);
1467	fin_recv= (tcp_conn->tc_flags & TCF_FIN_RECV);
1468
1469	data_size= tcp_conn->tc_RCV_NXT-tcp_conn->tc_RCV_LO;
1470	if (fin_recv)
1471	data_size--;
1472	if (urg)
1473	data_size= tcp_conn->tc_RCV_UP-tcp_conn->tc_RCV_LO;
1474
1475	if (urg && !(tcp_fd->tf_flags & TFF_RECV_URG))
1476	return;
1477	else if (!urg && (tcp_fd->tf_flags & TFF_RECV_URG))
1478	return;
1479
1480	*bytesp= data_size;
1481	}
1482
1483	/*
1484	* $PchId: tcp_recv.c,v 1.30 2005/06/28 14:21:35 philip Exp $
1485	*/

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