1c0dd49bdSEiji Ota /*
216e76cddSagiri * Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
3c0dd49bdSEiji Ota */
416e76cddSagiri
5c0dd49bdSEiji Ota /*
616e76cddSagiri * This file contains code imported from the OFED rds source file send.c
716e76cddSagiri * Oracle elects to have and use the contents of send.c under and governed
816e76cddSagiri * by the OpenIB.org BSD license (see below for full license text). However,
916e76cddSagiri * the following notice accompanied the original version of this file:
10c0dd49bdSEiji Ota */
11c0dd49bdSEiji Ota
12c0dd49bdSEiji Ota /*
13c0dd49bdSEiji Ota * Copyright (c) 2006 Oracle. All rights reserved.
14c0dd49bdSEiji Ota *
15c0dd49bdSEiji Ota * This software is available to you under a choice of one of two
16c0dd49bdSEiji Ota * licenses. You may choose to be licensed under the terms of the GNU
17c0dd49bdSEiji Ota * General Public License (GPL) Version 2, available from the file
18c0dd49bdSEiji Ota * COPYING in the main directory of this source tree, or the
19c0dd49bdSEiji Ota * OpenIB.org BSD license below:
20c0dd49bdSEiji Ota *
21c0dd49bdSEiji Ota * Redistribution and use in source and binary forms, with or
22c0dd49bdSEiji Ota * without modification, are permitted provided that the following
23c0dd49bdSEiji Ota * conditions are met:
24c0dd49bdSEiji Ota *
25c0dd49bdSEiji Ota * - Redistributions of source code must retain the above
26c0dd49bdSEiji Ota * copyright notice, this list of conditions and the following
27c0dd49bdSEiji Ota * disclaimer.
28c0dd49bdSEiji Ota *
29c0dd49bdSEiji Ota * - Redistributions in binary form must reproduce the above
30c0dd49bdSEiji Ota * copyright notice, this list of conditions and the following
31c0dd49bdSEiji Ota * disclaimer in the documentation and/or other materials
32c0dd49bdSEiji Ota * provided with the distribution.
33c0dd49bdSEiji Ota *
34c0dd49bdSEiji Ota * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
35c0dd49bdSEiji Ota * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
36c0dd49bdSEiji Ota * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
37c0dd49bdSEiji Ota * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
38c0dd49bdSEiji Ota * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
39c0dd49bdSEiji Ota * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
40c0dd49bdSEiji Ota * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
41c0dd49bdSEiji Ota * SOFTWARE.
42c0dd49bdSEiji Ota *
43c0dd49bdSEiji Ota */
44c0dd49bdSEiji Ota #include <sys/stropts.h>
45c0dd49bdSEiji Ota #include <sys/systm.h>
46c0dd49bdSEiji Ota
47c0dd49bdSEiji Ota #include <sys/rds.h>
48c0dd49bdSEiji Ota #include <sys/socket.h>
49c0dd49bdSEiji Ota #include <sys/socketvar.h>
50c0dd49bdSEiji Ota
51c0dd49bdSEiji Ota #include <sys/ib/clients/rdsv3/rdsv3.h>
52c0dd49bdSEiji Ota #include <sys/ib/clients/rdsv3/rdma.h>
53c0dd49bdSEiji Ota #include <sys/ib/clients/rdsv3/rdsv3_debug.h>
54c0dd49bdSEiji Ota
55c0dd49bdSEiji Ota /*
56c0dd49bdSEiji Ota * When transmitting messages in rdsv3_send_xmit, we need to emerge from
57c0dd49bdSEiji Ota * time to time and briefly release the CPU. Otherwise the softlock watchdog
58c0dd49bdSEiji Ota * will kick our shin.
59c0dd49bdSEiji Ota * Also, it seems fairer to not let one busy connection stall all the
60c0dd49bdSEiji Ota * others.
61c0dd49bdSEiji Ota *
62c0dd49bdSEiji Ota * send_batch_count is the number of times we'll loop in send_xmit. Setting
63c0dd49bdSEiji Ota * it to 0 will restore the old behavior (where we looped until we had
64c0dd49bdSEiji Ota * drained the queue).
65c0dd49bdSEiji Ota */
66c0dd49bdSEiji Ota static int send_batch_count = 64;
67c0dd49bdSEiji Ota
68c0dd49bdSEiji Ota extern void rdsv3_ib_send_unmap_rdma(void *ic, struct rdsv3_rdma_op *op);
69c0dd49bdSEiji Ota /*
70c0dd49bdSEiji Ota * Reset the send state. Caller must hold c_send_lock when calling here.
71c0dd49bdSEiji Ota */
72c0dd49bdSEiji Ota void
rdsv3_send_reset(struct rdsv3_connection * conn)73c0dd49bdSEiji Ota rdsv3_send_reset(struct rdsv3_connection *conn)
74c0dd49bdSEiji Ota {
75c0dd49bdSEiji Ota struct rdsv3_message *rm, *tmp;
76c0dd49bdSEiji Ota struct rdsv3_rdma_op *ro;
77c0dd49bdSEiji Ota
78c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_reset", "Enter(conn: %p)", conn);
79c0dd49bdSEiji Ota
805d5562f5SEiji Ota ASSERT(MUTEX_HELD(&conn->c_send_lock));
815d5562f5SEiji Ota
82c0dd49bdSEiji Ota if (conn->c_xmit_rm) {
83c0dd49bdSEiji Ota rm = conn->c_xmit_rm;
84c0dd49bdSEiji Ota ro = rm->m_rdma_op;
85c0dd49bdSEiji Ota if (ro && ro->r_mapped) {
86c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_send_reset",
87c0dd49bdSEiji Ota "rm %p mflg 0x%x map %d mihdl %p sgl %p",
88c0dd49bdSEiji Ota rm, rm->m_flags, ro->r_mapped,
89c0dd49bdSEiji Ota ro->r_rdma_sg[0].mihdl,
90c0dd49bdSEiji Ota ro->r_rdma_sg[0].swr.wr_sgl);
91c0dd49bdSEiji Ota rdsv3_ib_send_unmap_rdma(conn->c_transport_data, ro);
92c0dd49bdSEiji Ota }
93c0dd49bdSEiji Ota /*
94c0dd49bdSEiji Ota * Tell the user the RDMA op is no longer mapped by the
95c0dd49bdSEiji Ota * transport. This isn't entirely true (it's flushed out
96c0dd49bdSEiji Ota * independently) but as the connection is down, there's
97c0dd49bdSEiji Ota * no ongoing RDMA to/from that memory
98c0dd49bdSEiji Ota */
99c0dd49bdSEiji Ota rdsv3_message_unmapped(conn->c_xmit_rm);
100c0dd49bdSEiji Ota rdsv3_message_put(conn->c_xmit_rm);
101c0dd49bdSEiji Ota conn->c_xmit_rm = NULL;
102c0dd49bdSEiji Ota }
1035d5562f5SEiji Ota
104c0dd49bdSEiji Ota conn->c_xmit_sg = 0;
105c0dd49bdSEiji Ota conn->c_xmit_hdr_off = 0;
106c0dd49bdSEiji Ota conn->c_xmit_data_off = 0;
107c0dd49bdSEiji Ota conn->c_xmit_rdma_sent = 0;
108c0dd49bdSEiji Ota conn->c_map_queued = 0;
109c0dd49bdSEiji Ota
110c0dd49bdSEiji Ota conn->c_unacked_packets = rdsv3_sysctl_max_unacked_packets;
111c0dd49bdSEiji Ota conn->c_unacked_bytes = rdsv3_sysctl_max_unacked_bytes;
112c0dd49bdSEiji Ota
113c0dd49bdSEiji Ota /* Mark messages as retransmissions, and move them to the send q */
114c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
115c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE_SAFE(rm, tmp, &conn->c_retrans, m_conn_item) {
116c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ACK_REQUIRED, &rm->m_flags);
117c0dd49bdSEiji Ota set_bit(RDSV3_MSG_RETRANSMITTED, &rm->m_flags);
118c0dd49bdSEiji Ota if (rm->m_rdma_op && rm->m_rdma_op->r_mapped) {
119c0dd49bdSEiji Ota RDSV3_DPRINTF4("_send_reset",
120c0dd49bdSEiji Ota "RT rm %p mflg 0x%x sgl %p",
121c0dd49bdSEiji Ota rm, rm->m_flags,
122c0dd49bdSEiji Ota rm->m_rdma_op->r_rdma_sg[0].swr.wr_sgl);
123c0dd49bdSEiji Ota }
124c0dd49bdSEiji Ota }
125c0dd49bdSEiji Ota list_move_tail(&conn->c_send_queue, &conn->c_retrans);
126c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
127c0dd49bdSEiji Ota
128c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_reset", "Return(conn: %p)", conn);
129c0dd49bdSEiji Ota }
130c0dd49bdSEiji Ota
131c0dd49bdSEiji Ota /*
132c0dd49bdSEiji Ota * We're making the concious trade-off here to only send one message
133c0dd49bdSEiji Ota * down the connection at a time.
134c0dd49bdSEiji Ota * Pro:
135c0dd49bdSEiji Ota * - tx queueing is a simple fifo list
136c0dd49bdSEiji Ota * - reassembly is optional and easily done by transports per conn
137c0dd49bdSEiji Ota * - no per flow rx lookup at all, straight to the socket
138c0dd49bdSEiji Ota * - less per-frag memory and wire overhead
139c0dd49bdSEiji Ota * Con:
140c0dd49bdSEiji Ota * - queued acks can be delayed behind large messages
141c0dd49bdSEiji Ota * Depends:
142c0dd49bdSEiji Ota * - small message latency is higher behind queued large messages
143c0dd49bdSEiji Ota * - large message latency isn't starved by intervening small sends
144c0dd49bdSEiji Ota */
145c0dd49bdSEiji Ota int
rdsv3_send_xmit(struct rdsv3_connection * conn)146c0dd49bdSEiji Ota rdsv3_send_xmit(struct rdsv3_connection *conn)
147c0dd49bdSEiji Ota {
148c0dd49bdSEiji Ota struct rdsv3_message *rm;
149c0dd49bdSEiji Ota unsigned int tmp;
150c0dd49bdSEiji Ota unsigned int send_quota = send_batch_count;
151c0dd49bdSEiji Ota struct rdsv3_scatterlist *sg;
152c0dd49bdSEiji Ota int ret = 0;
153c0dd49bdSEiji Ota int was_empty = 0;
154c0dd49bdSEiji Ota list_t to_be_dropped;
155c0dd49bdSEiji Ota
1565d5562f5SEiji Ota restart:
1575d5562f5SEiji Ota if (!rdsv3_conn_up(conn))
1585d5562f5SEiji Ota goto out;
1595d5562f5SEiji Ota
160c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_xmit", "Enter(conn: %p)", conn);
161c0dd49bdSEiji Ota
162c0dd49bdSEiji Ota list_create(&to_be_dropped, sizeof (struct rdsv3_message),
163c0dd49bdSEiji Ota offsetof(struct rdsv3_message, m_conn_item));
164c0dd49bdSEiji Ota
165c0dd49bdSEiji Ota /*
166c0dd49bdSEiji Ota * sendmsg calls here after having queued its message on the send
167c0dd49bdSEiji Ota * queue. We only have one task feeding the connection at a time. If
168c0dd49bdSEiji Ota * another thread is already feeding the queue then we back off. This
169c0dd49bdSEiji Ota * avoids blocking the caller and trading per-connection data between
170c0dd49bdSEiji Ota * caches per message.
171c0dd49bdSEiji Ota */
172c0dd49bdSEiji Ota if (!mutex_tryenter(&conn->c_send_lock)) {
173c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_xmit",
174c0dd49bdSEiji Ota "Another thread running(conn: %p)", conn);
175c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_sem_contention);
176c0dd49bdSEiji Ota ret = -ENOMEM;
177c0dd49bdSEiji Ota goto out;
178c0dd49bdSEiji Ota }
179*1a5e258fSJosef 'Jeff' Sipek atomic_inc_32(&conn->c_senders);
180c0dd49bdSEiji Ota
181c0dd49bdSEiji Ota if (conn->c_trans->xmit_prepare)
182c0dd49bdSEiji Ota conn->c_trans->xmit_prepare(conn);
183c0dd49bdSEiji Ota
184c0dd49bdSEiji Ota /*
185c0dd49bdSEiji Ota * spin trying to push headers and data down the connection until
1865d5562f5SEiji Ota * the connection doesn't make forward progress.
187c0dd49bdSEiji Ota */
188c0dd49bdSEiji Ota while (--send_quota) {
189c0dd49bdSEiji Ota /*
190c0dd49bdSEiji Ota * See if need to send a congestion map update if we're
191c0dd49bdSEiji Ota * between sending messages. The send_sem protects our sole
192c0dd49bdSEiji Ota * use of c_map_offset and _bytes.
193c0dd49bdSEiji Ota * Note this is used only by transports that define a special
194c0dd49bdSEiji Ota * xmit_cong_map function. For all others, we create allocate
195c0dd49bdSEiji Ota * a cong_map message and treat it just like any other send.
196c0dd49bdSEiji Ota */
197c0dd49bdSEiji Ota if (conn->c_map_bytes) {
198c0dd49bdSEiji Ota ret = conn->c_trans->xmit_cong_map(conn, conn->c_lcong,
199c0dd49bdSEiji Ota conn->c_map_offset);
200c0dd49bdSEiji Ota if (ret <= 0)
201c0dd49bdSEiji Ota break;
202c0dd49bdSEiji Ota
203c0dd49bdSEiji Ota conn->c_map_offset += ret;
204c0dd49bdSEiji Ota conn->c_map_bytes -= ret;
205c0dd49bdSEiji Ota if (conn->c_map_bytes)
206c0dd49bdSEiji Ota continue;
207c0dd49bdSEiji Ota }
208c0dd49bdSEiji Ota
209c0dd49bdSEiji Ota /*
210c0dd49bdSEiji Ota * If we're done sending the current message, clear the
211c0dd49bdSEiji Ota * offset and S/G temporaries.
212c0dd49bdSEiji Ota */
213c0dd49bdSEiji Ota rm = conn->c_xmit_rm;
214c0dd49bdSEiji Ota if (rm != NULL &&
215c0dd49bdSEiji Ota conn->c_xmit_hdr_off == sizeof (struct rdsv3_header) &&
216c0dd49bdSEiji Ota conn->c_xmit_sg == rm->m_nents) {
217c0dd49bdSEiji Ota conn->c_xmit_rm = NULL;
218c0dd49bdSEiji Ota conn->c_xmit_sg = 0;
219c0dd49bdSEiji Ota conn->c_xmit_hdr_off = 0;
220c0dd49bdSEiji Ota conn->c_xmit_data_off = 0;
221c0dd49bdSEiji Ota conn->c_xmit_rdma_sent = 0;
222c0dd49bdSEiji Ota
223c0dd49bdSEiji Ota /* Release the reference to the previous message. */
224c0dd49bdSEiji Ota rdsv3_message_put(rm);
225c0dd49bdSEiji Ota rm = NULL;
226c0dd49bdSEiji Ota }
227c0dd49bdSEiji Ota
228c0dd49bdSEiji Ota /* If we're asked to send a cong map update, do so. */
229c0dd49bdSEiji Ota if (rm == NULL && test_and_clear_bit(0, &conn->c_map_queued)) {
230c0dd49bdSEiji Ota if (conn->c_trans->xmit_cong_map != NULL) {
231c0dd49bdSEiji Ota conn->c_map_offset = 0;
232c0dd49bdSEiji Ota conn->c_map_bytes =
233c0dd49bdSEiji Ota sizeof (struct rdsv3_header) +
234c0dd49bdSEiji Ota RDSV3_CONG_MAP_BYTES;
235c0dd49bdSEiji Ota continue;
236c0dd49bdSEiji Ota }
237c0dd49bdSEiji Ota
238c0dd49bdSEiji Ota rm = rdsv3_cong_update_alloc(conn);
239c0dd49bdSEiji Ota if (IS_ERR(rm)) {
240c0dd49bdSEiji Ota ret = PTR_ERR(rm);
241c0dd49bdSEiji Ota break;
242c0dd49bdSEiji Ota }
243c0dd49bdSEiji Ota
244c0dd49bdSEiji Ota conn->c_xmit_rm = rm;
245c0dd49bdSEiji Ota }
246c0dd49bdSEiji Ota
247c0dd49bdSEiji Ota /*
248c0dd49bdSEiji Ota * Grab the next message from the send queue, if there is one.
249c0dd49bdSEiji Ota *
250c0dd49bdSEiji Ota * c_xmit_rm holds a ref while we're sending this message down
251c0dd49bdSEiji Ota * the connction. We can use this ref while holding the
252c0dd49bdSEiji Ota * send_sem.. rdsv3_send_reset() is serialized with it.
253c0dd49bdSEiji Ota */
254c0dd49bdSEiji Ota if (rm == NULL) {
255c0dd49bdSEiji Ota unsigned int len;
256c0dd49bdSEiji Ota
257c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
258c0dd49bdSEiji Ota
259c0dd49bdSEiji Ota if (!list_is_empty(&conn->c_send_queue)) {
260c0dd49bdSEiji Ota rm = list_remove_head(&conn->c_send_queue);
261c0dd49bdSEiji Ota rdsv3_message_addref(rm);
262c0dd49bdSEiji Ota
263c0dd49bdSEiji Ota /*
264c0dd49bdSEiji Ota * Move the message from the send queue to
265c0dd49bdSEiji Ota * the retransmit
266c0dd49bdSEiji Ota * list right away.
267c0dd49bdSEiji Ota */
268c0dd49bdSEiji Ota list_insert_tail(&conn->c_retrans, rm);
269c0dd49bdSEiji Ota }
270c0dd49bdSEiji Ota
271c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
272c0dd49bdSEiji Ota
273c0dd49bdSEiji Ota if (rm == NULL) {
274c0dd49bdSEiji Ota was_empty = 1;
275c0dd49bdSEiji Ota break;
276c0dd49bdSEiji Ota }
277c0dd49bdSEiji Ota
278c0dd49bdSEiji Ota /*
279c0dd49bdSEiji Ota * Unfortunately, the way Infiniband deals with
280c0dd49bdSEiji Ota * RDMA to a bad MR key is by moving the entire
281c0dd49bdSEiji Ota * queue pair to error state. We cold possibly
282c0dd49bdSEiji Ota * recover from that, but right now we drop the
283c0dd49bdSEiji Ota * connection.
284c0dd49bdSEiji Ota * Therefore, we never retransmit messages with
285c0dd49bdSEiji Ota * RDMA ops.
286c0dd49bdSEiji Ota */
287c0dd49bdSEiji Ota if (rm->m_rdma_op &&
288c0dd49bdSEiji Ota test_bit(RDSV3_MSG_RETRANSMITTED, &rm->m_flags)) {
289c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
290c0dd49bdSEiji Ota if (test_and_clear_bit(RDSV3_MSG_ON_CONN,
291c0dd49bdSEiji Ota &rm->m_flags))
292c0dd49bdSEiji Ota list_remove_node(&rm->m_conn_item);
293c0dd49bdSEiji Ota list_insert_tail(&to_be_dropped, rm);
294c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
295c0dd49bdSEiji Ota rdsv3_message_put(rm);
296c0dd49bdSEiji Ota continue;
297c0dd49bdSEiji Ota }
298c0dd49bdSEiji Ota
299c0dd49bdSEiji Ota /* Require an ACK every once in a while */
300c0dd49bdSEiji Ota len = ntohl(rm->m_inc.i_hdr.h_len);
301c0dd49bdSEiji Ota if (conn->c_unacked_packets == 0 ||
302c0dd49bdSEiji Ota conn->c_unacked_bytes < len) {
303c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ACK_REQUIRED, &rm->m_flags);
304c0dd49bdSEiji Ota
305c0dd49bdSEiji Ota conn->c_unacked_packets =
306c0dd49bdSEiji Ota rdsv3_sysctl_max_unacked_packets;
307c0dd49bdSEiji Ota conn->c_unacked_bytes =
308c0dd49bdSEiji Ota rdsv3_sysctl_max_unacked_bytes;
309c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_ack_required);
310c0dd49bdSEiji Ota } else {
311c0dd49bdSEiji Ota conn->c_unacked_bytes -= len;
312c0dd49bdSEiji Ota conn->c_unacked_packets--;
313c0dd49bdSEiji Ota }
314c0dd49bdSEiji Ota
315c0dd49bdSEiji Ota conn->c_xmit_rm = rm;
316c0dd49bdSEiji Ota }
317c0dd49bdSEiji Ota
318c0dd49bdSEiji Ota /*
319c0dd49bdSEiji Ota * Try and send an rdma message. Let's see if we can
320c0dd49bdSEiji Ota * keep this simple and require that the transport either
321c0dd49bdSEiji Ota * send the whole rdma or none of it.
322c0dd49bdSEiji Ota */
323c0dd49bdSEiji Ota if (rm->m_rdma_op && !conn->c_xmit_rdma_sent) {
324c0dd49bdSEiji Ota ret = conn->c_trans->xmit_rdma(conn, rm->m_rdma_op);
325c0dd49bdSEiji Ota if (ret)
326c0dd49bdSEiji Ota break;
327c0dd49bdSEiji Ota conn->c_xmit_rdma_sent = 1;
328c0dd49bdSEiji Ota /*
329c0dd49bdSEiji Ota * The transport owns the mapped memory for now.
330c0dd49bdSEiji Ota * You can't unmap it while it's on the send queue
331c0dd49bdSEiji Ota */
332c0dd49bdSEiji Ota set_bit(RDSV3_MSG_MAPPED, &rm->m_flags);
333c0dd49bdSEiji Ota }
334c0dd49bdSEiji Ota
335c0dd49bdSEiji Ota if (conn->c_xmit_hdr_off < sizeof (struct rdsv3_header) ||
336c0dd49bdSEiji Ota conn->c_xmit_sg < rm->m_nents) {
337c0dd49bdSEiji Ota ret = conn->c_trans->xmit(conn, rm,
338c0dd49bdSEiji Ota conn->c_xmit_hdr_off,
339c0dd49bdSEiji Ota conn->c_xmit_sg,
340c0dd49bdSEiji Ota conn->c_xmit_data_off);
341c0dd49bdSEiji Ota if (ret <= 0)
342c0dd49bdSEiji Ota break;
343c0dd49bdSEiji Ota
344c0dd49bdSEiji Ota if (conn->c_xmit_hdr_off <
345c0dd49bdSEiji Ota sizeof (struct rdsv3_header)) {
346c0dd49bdSEiji Ota tmp = min(ret,
347c0dd49bdSEiji Ota sizeof (struct rdsv3_header) -
348c0dd49bdSEiji Ota conn->c_xmit_hdr_off);
349c0dd49bdSEiji Ota conn->c_xmit_hdr_off += tmp;
350c0dd49bdSEiji Ota ret -= tmp;
351c0dd49bdSEiji Ota }
352c0dd49bdSEiji Ota
353c0dd49bdSEiji Ota sg = &rm->m_sg[conn->c_xmit_sg];
354c0dd49bdSEiji Ota while (ret) {
355c0dd49bdSEiji Ota tmp = min(ret, rdsv3_sg_len(sg) -
356c0dd49bdSEiji Ota conn->c_xmit_data_off);
357c0dd49bdSEiji Ota conn->c_xmit_data_off += tmp;
358c0dd49bdSEiji Ota ret -= tmp;
359c0dd49bdSEiji Ota if (conn->c_xmit_data_off == rdsv3_sg_len(sg)) {
360c0dd49bdSEiji Ota conn->c_xmit_data_off = 0;
361c0dd49bdSEiji Ota sg++;
362c0dd49bdSEiji Ota conn->c_xmit_sg++;
363c0dd49bdSEiji Ota ASSERT(!(ret != 0 &&
364c0dd49bdSEiji Ota conn->c_xmit_sg == rm->m_nents));
365c0dd49bdSEiji Ota }
366c0dd49bdSEiji Ota }
367c0dd49bdSEiji Ota }
368c0dd49bdSEiji Ota }
369c0dd49bdSEiji Ota
370c0dd49bdSEiji Ota /* Nuke any messages we decided not to retransmit. */
371c0dd49bdSEiji Ota if (!list_is_empty(&to_be_dropped))
372fe817b60SEiji Ota rdsv3_send_remove_from_sock(&to_be_dropped, RDS_RDMA_DROPPED);
373c0dd49bdSEiji Ota
374c0dd49bdSEiji Ota if (conn->c_trans->xmit_complete)
375c0dd49bdSEiji Ota conn->c_trans->xmit_complete(conn);
376c0dd49bdSEiji Ota
377c0dd49bdSEiji Ota /*
378c0dd49bdSEiji Ota * We might be racing with another sender who queued a message but
379c0dd49bdSEiji Ota * backed off on noticing that we held the c_send_lock. If we check
380c0dd49bdSEiji Ota * for queued messages after dropping the sem then either we'll
381c0dd49bdSEiji Ota * see the queued message or the queuer will get the sem. If we
382c0dd49bdSEiji Ota * notice the queued message then we trigger an immediate retry.
383c0dd49bdSEiji Ota *
384c0dd49bdSEiji Ota * We need to be careful only to do this when we stopped processing
385c0dd49bdSEiji Ota * the send queue because it was empty. It's the only way we
386c0dd49bdSEiji Ota * stop processing the loop when the transport hasn't taken
387c0dd49bdSEiji Ota * responsibility for forward progress.
388c0dd49bdSEiji Ota */
389c0dd49bdSEiji Ota mutex_exit(&conn->c_send_lock);
390c0dd49bdSEiji Ota
391c0dd49bdSEiji Ota if (conn->c_map_bytes || (send_quota == 0 && !was_empty)) {
392c0dd49bdSEiji Ota /*
393c0dd49bdSEiji Ota * We exhausted the send quota, but there's work left to
394c0dd49bdSEiji Ota * do. Return and (re-)schedule the send worker.
395c0dd49bdSEiji Ota */
396c0dd49bdSEiji Ota ret = -EAGAIN;
397c0dd49bdSEiji Ota }
398c0dd49bdSEiji Ota
3995d5562f5SEiji Ota atomic_dec_32(&conn->c_senders);
4005d5562f5SEiji Ota
401c0dd49bdSEiji Ota if (ret == 0 && was_empty) {
402c0dd49bdSEiji Ota /*
403c0dd49bdSEiji Ota * A simple bit test would be way faster than taking the
404c0dd49bdSEiji Ota * spin lock
405c0dd49bdSEiji Ota */
406c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
407c0dd49bdSEiji Ota if (!list_is_empty(&conn->c_send_queue)) {
408c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_sem_queue_raced);
409c0dd49bdSEiji Ota ret = -EAGAIN;
410c0dd49bdSEiji Ota }
411c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
412c0dd49bdSEiji Ota }
413c0dd49bdSEiji Ota
414c0dd49bdSEiji Ota out:
415c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_xmit", "Return(conn: %p, ret: %d)",
416c0dd49bdSEiji Ota conn, ret);
417c0dd49bdSEiji Ota return (ret);
418c0dd49bdSEiji Ota }
419c0dd49bdSEiji Ota
420c0dd49bdSEiji Ota static void
rdsv3_send_sndbuf_remove(struct rdsv3_sock * rs,struct rdsv3_message * rm)421c0dd49bdSEiji Ota rdsv3_send_sndbuf_remove(struct rdsv3_sock *rs, struct rdsv3_message *rm)
422c0dd49bdSEiji Ota {
423c0dd49bdSEiji Ota uint32_t len = ntohl(rm->m_inc.i_hdr.h_len);
424c0dd49bdSEiji Ota
425c0dd49bdSEiji Ota ASSERT(mutex_owned(&rs->rs_lock));
426c0dd49bdSEiji Ota
427c0dd49bdSEiji Ota ASSERT(rs->rs_snd_bytes >= len);
428c0dd49bdSEiji Ota rs->rs_snd_bytes -= len;
429c0dd49bdSEiji Ota
430c0dd49bdSEiji Ota if (rs->rs_snd_bytes == 0)
431c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_queue_empty);
432c0dd49bdSEiji Ota }
433c0dd49bdSEiji Ota
434c0dd49bdSEiji Ota static inline int
rdsv3_send_is_acked(struct rdsv3_message * rm,uint64_t ack,is_acked_func is_acked)435c0dd49bdSEiji Ota rdsv3_send_is_acked(struct rdsv3_message *rm, uint64_t ack,
436c0dd49bdSEiji Ota is_acked_func is_acked)
437c0dd49bdSEiji Ota {
438c0dd49bdSEiji Ota if (is_acked)
439c0dd49bdSEiji Ota return (is_acked(rm, ack));
440c0dd49bdSEiji Ota return (ntohll(rm->m_inc.i_hdr.h_sequence) <= ack);
441c0dd49bdSEiji Ota }
442c0dd49bdSEiji Ota
443c0dd49bdSEiji Ota /*
444c0dd49bdSEiji Ota * Returns true if there are no messages on the send and retransmit queues
445c0dd49bdSEiji Ota * which have a sequence number greater than or equal to the given sequence
446c0dd49bdSEiji Ota * number.
447c0dd49bdSEiji Ota */
448c0dd49bdSEiji Ota int
rdsv3_send_acked_before(struct rdsv3_connection * conn,uint64_t seq)449c0dd49bdSEiji Ota rdsv3_send_acked_before(struct rdsv3_connection *conn, uint64_t seq)
450c0dd49bdSEiji Ota {
451c0dd49bdSEiji Ota struct rdsv3_message *rm;
452c0dd49bdSEiji Ota int ret = 1;
453c0dd49bdSEiji Ota
454c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_acked_before", "Enter(conn: %p)", conn);
455c0dd49bdSEiji Ota
456c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
457c0dd49bdSEiji Ota
458c0dd49bdSEiji Ota /* XXX - original code spits out warning */
459c0dd49bdSEiji Ota rm = list_head(&conn->c_retrans);
460c0dd49bdSEiji Ota if (ntohll(rm->m_inc.i_hdr.h_sequence) < seq)
461c0dd49bdSEiji Ota ret = 0;
462c0dd49bdSEiji Ota
463c0dd49bdSEiji Ota /* XXX - original code spits out warning */
464c0dd49bdSEiji Ota rm = list_head(&conn->c_send_queue);
465c0dd49bdSEiji Ota if (ntohll(rm->m_inc.i_hdr.h_sequence) < seq)
466c0dd49bdSEiji Ota ret = 0;
467c0dd49bdSEiji Ota
468c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
469c0dd49bdSEiji Ota
470c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_acked_before", "Return(conn: %p)", conn);
471c0dd49bdSEiji Ota
472c0dd49bdSEiji Ota return (ret);
473c0dd49bdSEiji Ota }
474c0dd49bdSEiji Ota
475c0dd49bdSEiji Ota /*
476c0dd49bdSEiji Ota * This is pretty similar to what happens below in the ACK
477c0dd49bdSEiji Ota * handling code - except that we call here as soon as we get
478c0dd49bdSEiji Ota * the IB send completion on the RDMA op and the accompanying
479c0dd49bdSEiji Ota * message.
480c0dd49bdSEiji Ota */
481c0dd49bdSEiji Ota void
rdsv3_rdma_send_complete(struct rdsv3_message * rm,int status)482c0dd49bdSEiji Ota rdsv3_rdma_send_complete(struct rdsv3_message *rm, int status)
483c0dd49bdSEiji Ota {
484c0dd49bdSEiji Ota struct rdsv3_sock *rs = NULL;
485c0dd49bdSEiji Ota struct rdsv3_rdma_op *ro;
486c0dd49bdSEiji Ota struct rdsv3_notifier *notifier;
487c0dd49bdSEiji Ota
488c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_rdma_send_complete", "Enter(rm: %p)", rm);
489c0dd49bdSEiji Ota
490c0dd49bdSEiji Ota mutex_enter(&rm->m_rs_lock);
491c0dd49bdSEiji Ota
492c0dd49bdSEiji Ota ro = rm->m_rdma_op;
493c0dd49bdSEiji Ota if (test_bit(RDSV3_MSG_ON_SOCK, &rm->m_flags) &&
494cadbfdc3SEiji Ota ro && ro->r_notify && ro->r_notifier) {
495cadbfdc3SEiji Ota notifier = ro->r_notifier;
496c0dd49bdSEiji Ota rs = rm->m_rs;
497c0dd49bdSEiji Ota rdsv3_sk_sock_hold(rdsv3_rs_to_sk(rs));
498c0dd49bdSEiji Ota
499c0dd49bdSEiji Ota notifier->n_status = status;
500c0dd49bdSEiji Ota mutex_enter(&rs->rs_lock);
501c0dd49bdSEiji Ota list_insert_tail(&rs->rs_notify_queue, notifier);
502c0dd49bdSEiji Ota mutex_exit(&rs->rs_lock);
503cadbfdc3SEiji Ota ro->r_notifier = NULL;
504c0dd49bdSEiji Ota }
505c0dd49bdSEiji Ota
506c0dd49bdSEiji Ota mutex_exit(&rm->m_rs_lock);
507c0dd49bdSEiji Ota
508c0dd49bdSEiji Ota if (rs) {
5093f756f37Sagiri struct rsock *sk = rdsv3_rs_to_sk(rs);
5103f756f37Sagiri int error;
5113f756f37Sagiri
512c0dd49bdSEiji Ota rdsv3_wake_sk_sleep(rs);
5133f756f37Sagiri
5143f756f37Sagiri /* wake up anyone waiting in poll */
5153f756f37Sagiri sk->sk_upcalls->su_recv(sk->sk_upper_handle, NULL,
5163f756f37Sagiri 0, 0, &error, NULL);
5173f756f37Sagiri if (error != 0) {
5183f756f37Sagiri RDSV3_DPRINTF2("rdsv3_recv_incoming",
5193f756f37Sagiri "su_recv returned: %d", error);
5203f756f37Sagiri }
5213f756f37Sagiri
522c0dd49bdSEiji Ota rdsv3_sk_sock_put(rdsv3_rs_to_sk(rs));
523c0dd49bdSEiji Ota }
524c0dd49bdSEiji Ota
525c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_rdma_send_complete", "Return(rm: %p)", rm);
526c0dd49bdSEiji Ota }
527c0dd49bdSEiji Ota
528c0dd49bdSEiji Ota /*
529c0dd49bdSEiji Ota * This is the same as rdsv3_rdma_send_complete except we
530c0dd49bdSEiji Ota * don't do any locking - we have all the ingredients (message,
531c0dd49bdSEiji Ota * socket, socket lock) and can just move the notifier.
532c0dd49bdSEiji Ota */
533c0dd49bdSEiji Ota static inline void
__rdsv3_rdma_send_complete(struct rdsv3_sock * rs,struct rdsv3_message * rm,int status)534c0dd49bdSEiji Ota __rdsv3_rdma_send_complete(struct rdsv3_sock *rs, struct rdsv3_message *rm,
535c0dd49bdSEiji Ota int status)
536c0dd49bdSEiji Ota {
537c0dd49bdSEiji Ota struct rdsv3_rdma_op *ro;
538c0dd49bdSEiji Ota void *ic;
539c0dd49bdSEiji Ota
540c0dd49bdSEiji Ota RDSV3_DPRINTF4("__rdsv3_rdma_send_complete",
541c0dd49bdSEiji Ota "Enter(rs: %p, rm: %p)", rs, rm);
542c0dd49bdSEiji Ota
543c0dd49bdSEiji Ota ro = rm->m_rdma_op;
544c0dd49bdSEiji Ota if (ro && ro->r_notify && ro->r_notifier) {
545c0dd49bdSEiji Ota ro->r_notifier->n_status = status;
546c0dd49bdSEiji Ota list_insert_tail(&rs->rs_notify_queue, ro->r_notifier);
547c0dd49bdSEiji Ota ro->r_notifier = NULL;
548c0dd49bdSEiji Ota }
549c0dd49bdSEiji Ota
550c0dd49bdSEiji Ota /* No need to wake the app - caller does this */
551c0dd49bdSEiji Ota }
552c0dd49bdSEiji Ota
553c0dd49bdSEiji Ota /*
554c0dd49bdSEiji Ota * This is called from the IB send completion when we detect
555c0dd49bdSEiji Ota * a RDMA operation that failed with remote access error.
556c0dd49bdSEiji Ota * So speed is not an issue here.
557c0dd49bdSEiji Ota */
558c0dd49bdSEiji Ota struct rdsv3_message *
rdsv3_send_get_message(struct rdsv3_connection * conn,struct rdsv3_rdma_op * op)559c0dd49bdSEiji Ota rdsv3_send_get_message(struct rdsv3_connection *conn,
560c0dd49bdSEiji Ota struct rdsv3_rdma_op *op)
561c0dd49bdSEiji Ota {
562c0dd49bdSEiji Ota struct rdsv3_message *rm, *tmp, *found = NULL;
563c0dd49bdSEiji Ota
564c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_get_message", "Enter(conn: %p)", conn);
565c0dd49bdSEiji Ota
566c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
567c0dd49bdSEiji Ota
568c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE_SAFE(rm, tmp, &conn->c_retrans, m_conn_item) {
569c0dd49bdSEiji Ota if (rm->m_rdma_op == op) {
570*1a5e258fSJosef 'Jeff' Sipek atomic_inc_32(&rm->m_refcount);
571c0dd49bdSEiji Ota found = rm;
572c0dd49bdSEiji Ota goto out;
573c0dd49bdSEiji Ota }
574c0dd49bdSEiji Ota }
575c0dd49bdSEiji Ota
576c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE_SAFE(rm, tmp, &conn->c_send_queue,
577c0dd49bdSEiji Ota m_conn_item) {
578c0dd49bdSEiji Ota if (rm->m_rdma_op == op) {
579*1a5e258fSJosef 'Jeff' Sipek atomic_inc_32(&rm->m_refcount);
580c0dd49bdSEiji Ota found = rm;
581c0dd49bdSEiji Ota break;
582c0dd49bdSEiji Ota }
583c0dd49bdSEiji Ota }
584c0dd49bdSEiji Ota
585c0dd49bdSEiji Ota out:
586c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
587c0dd49bdSEiji Ota
588c0dd49bdSEiji Ota return (found);
589c0dd49bdSEiji Ota }
590c0dd49bdSEiji Ota
591c0dd49bdSEiji Ota /*
592c0dd49bdSEiji Ota * This removes messages from the socket's list if they're on it. The list
593c0dd49bdSEiji Ota * argument must be private to the caller, we must be able to modify it
594c0dd49bdSEiji Ota * without locks. The messages must have a reference held for their
595c0dd49bdSEiji Ota * position on the list. This function will drop that reference after
596c0dd49bdSEiji Ota * removing the messages from the 'messages' list regardless of if it found
597c0dd49bdSEiji Ota * the messages on the socket list or not.
598c0dd49bdSEiji Ota */
599c0dd49bdSEiji Ota void
rdsv3_send_remove_from_sock(struct list * messages,int status)600c0dd49bdSEiji Ota rdsv3_send_remove_from_sock(struct list *messages, int status)
601c0dd49bdSEiji Ota {
602c0dd49bdSEiji Ota struct rdsv3_sock *rs = NULL;
603c0dd49bdSEiji Ota struct rdsv3_message *rm;
604c0dd49bdSEiji Ota
605c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_remove_from_sock", "Enter");
606c0dd49bdSEiji Ota
607c0dd49bdSEiji Ota while (!list_is_empty(messages)) {
608cadbfdc3SEiji Ota int was_on_sock = 0;
609c0dd49bdSEiji Ota rm = list_remove_head(messages);
610c0dd49bdSEiji Ota
611c0dd49bdSEiji Ota /*
612c0dd49bdSEiji Ota * If we see this flag cleared then we're *sure* that someone
613c0dd49bdSEiji Ota * else beat us to removing it from the sock. If we race
614c0dd49bdSEiji Ota * with their flag update we'll get the lock and then really
615c0dd49bdSEiji Ota * see that the flag has been cleared.
616c0dd49bdSEiji Ota *
617c0dd49bdSEiji Ota * The message spinlock makes sure nobody clears rm->m_rs
618c0dd49bdSEiji Ota * while we're messing with it. It does not prevent the
619c0dd49bdSEiji Ota * message from being removed from the socket, though.
620c0dd49bdSEiji Ota */
621c0dd49bdSEiji Ota mutex_enter(&rm->m_rs_lock);
622c0dd49bdSEiji Ota if (!test_bit(RDSV3_MSG_ON_SOCK, &rm->m_flags))
623c0dd49bdSEiji Ota goto unlock_and_drop;
624c0dd49bdSEiji Ota
625c0dd49bdSEiji Ota if (rs != rm->m_rs) {
626c0dd49bdSEiji Ota if (rs) {
627c0dd49bdSEiji Ota rdsv3_wake_sk_sleep(rs);
628c0dd49bdSEiji Ota rdsv3_sk_sock_put(rdsv3_rs_to_sk(rs));
629c0dd49bdSEiji Ota }
630c0dd49bdSEiji Ota rs = rm->m_rs;
631c0dd49bdSEiji Ota rdsv3_sk_sock_hold(rdsv3_rs_to_sk(rs));
632c0dd49bdSEiji Ota }
633c0dd49bdSEiji Ota
634c0dd49bdSEiji Ota mutex_enter(&rs->rs_lock);
635c0dd49bdSEiji Ota if (test_and_clear_bit(RDSV3_MSG_ON_SOCK, &rm->m_flags)) {
636c0dd49bdSEiji Ota struct rdsv3_rdma_op *ro = rm->m_rdma_op;
637c0dd49bdSEiji Ota struct rdsv3_notifier *notifier;
638c0dd49bdSEiji Ota
639c0dd49bdSEiji Ota list_remove_node(&rm->m_sock_item);
640c0dd49bdSEiji Ota rdsv3_send_sndbuf_remove(rs, rm);
641cadbfdc3SEiji Ota if (ro && ro->r_notifier &&
642c0dd49bdSEiji Ota (status || ro->r_notify)) {
643cadbfdc3SEiji Ota notifier = ro->r_notifier;
644c0dd49bdSEiji Ota list_insert_tail(&rs->rs_notify_queue,
645c0dd49bdSEiji Ota notifier);
646c0dd49bdSEiji Ota if (!notifier->n_status)
647c0dd49bdSEiji Ota notifier->n_status = status;
648c0dd49bdSEiji Ota rm->m_rdma_op->r_notifier = NULL;
649c0dd49bdSEiji Ota }
650cadbfdc3SEiji Ota was_on_sock = 1;
651c0dd49bdSEiji Ota rm->m_rs = NULL;
652c0dd49bdSEiji Ota }
653c0dd49bdSEiji Ota mutex_exit(&rs->rs_lock);
654c0dd49bdSEiji Ota
655c0dd49bdSEiji Ota unlock_and_drop:
656c0dd49bdSEiji Ota mutex_exit(&rm->m_rs_lock);
657c0dd49bdSEiji Ota rdsv3_message_put(rm);
658cadbfdc3SEiji Ota if (was_on_sock)
659cadbfdc3SEiji Ota rdsv3_message_put(rm);
660c0dd49bdSEiji Ota }
661c0dd49bdSEiji Ota
662c0dd49bdSEiji Ota if (rs) {
663c0dd49bdSEiji Ota rdsv3_wake_sk_sleep(rs);
664c0dd49bdSEiji Ota rdsv3_sk_sock_put(rdsv3_rs_to_sk(rs));
665c0dd49bdSEiji Ota }
666c0dd49bdSEiji Ota
667c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_remove_from_sock", "Return");
668c0dd49bdSEiji Ota }
669c0dd49bdSEiji Ota
670c0dd49bdSEiji Ota /*
671c0dd49bdSEiji Ota * Transports call here when they've determined that the receiver queued
672c0dd49bdSEiji Ota * messages up to, and including, the given sequence number. Messages are
673c0dd49bdSEiji Ota * moved to the retrans queue when rdsv3_send_xmit picks them off the send
674c0dd49bdSEiji Ota * queue. This means that in the TCP case, the message may not have been
675c0dd49bdSEiji Ota * assigned the m_ack_seq yet - but that's fine as long as tcp_is_acked
676c0dd49bdSEiji Ota * checks the RDSV3_MSG_HAS_ACK_SEQ bit.
677c0dd49bdSEiji Ota *
678c0dd49bdSEiji Ota * XXX It's not clear to me how this is safely serialized with socket
679c0dd49bdSEiji Ota * destruction. Maybe it should bail if it sees SOCK_DEAD.
680c0dd49bdSEiji Ota */
681c0dd49bdSEiji Ota void
rdsv3_send_drop_acked(struct rdsv3_connection * conn,uint64_t ack,is_acked_func is_acked)682c0dd49bdSEiji Ota rdsv3_send_drop_acked(struct rdsv3_connection *conn, uint64_t ack,
683c0dd49bdSEiji Ota is_acked_func is_acked)
684c0dd49bdSEiji Ota {
685c0dd49bdSEiji Ota struct rdsv3_message *rm, *tmp;
686c0dd49bdSEiji Ota list_t list;
687c0dd49bdSEiji Ota
688c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_drop_acked", "Enter(conn: %p)", conn);
689c0dd49bdSEiji Ota
690c0dd49bdSEiji Ota list_create(&list, sizeof (struct rdsv3_message),
691c0dd49bdSEiji Ota offsetof(struct rdsv3_message, m_conn_item));
692c0dd49bdSEiji Ota
693c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
694c0dd49bdSEiji Ota
695c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE_SAFE(rm, tmp, &conn->c_retrans, m_conn_item) {
696c0dd49bdSEiji Ota if (!rdsv3_send_is_acked(rm, ack, is_acked))
697c0dd49bdSEiji Ota break;
698c0dd49bdSEiji Ota
699c0dd49bdSEiji Ota list_remove_node(&rm->m_conn_item);
700c0dd49bdSEiji Ota list_insert_tail(&list, rm);
701c0dd49bdSEiji Ota clear_bit(RDSV3_MSG_ON_CONN, &rm->m_flags);
702c0dd49bdSEiji Ota }
703c0dd49bdSEiji Ota
704c0dd49bdSEiji Ota #if 0
705c0dd49bdSEiji Ota XXX
706c0dd49bdSEiji Ota /* order flag updates with spin locks */
707c0dd49bdSEiji Ota if (!list_is_empty(&list))
708c0dd49bdSEiji Ota smp_mb__after_clear_bit();
709c0dd49bdSEiji Ota #endif
710c0dd49bdSEiji Ota
711c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
712c0dd49bdSEiji Ota
713c0dd49bdSEiji Ota /* now remove the messages from the sock list as needed */
714fe817b60SEiji Ota rdsv3_send_remove_from_sock(&list, RDS_RDMA_SUCCESS);
715c0dd49bdSEiji Ota
716c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_drop_acked", "Return(conn: %p)", conn);
717c0dd49bdSEiji Ota }
718c0dd49bdSEiji Ota
719c0dd49bdSEiji Ota void
rdsv3_send_drop_to(struct rdsv3_sock * rs,struct sockaddr_in * dest)720c0dd49bdSEiji Ota rdsv3_send_drop_to(struct rdsv3_sock *rs, struct sockaddr_in *dest)
721c0dd49bdSEiji Ota {
722c0dd49bdSEiji Ota struct rdsv3_message *rm, *tmp;
723c0dd49bdSEiji Ota struct rdsv3_connection *conn;
724c0dd49bdSEiji Ota list_t list;
725c0dd49bdSEiji Ota int wake = 0;
726c0dd49bdSEiji Ota
727c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_drop_to", "Enter(rs: %p)", rs);
728c0dd49bdSEiji Ota
729c0dd49bdSEiji Ota list_create(&list, sizeof (struct rdsv3_message),
730c0dd49bdSEiji Ota offsetof(struct rdsv3_message, m_sock_item));
731c0dd49bdSEiji Ota
732c0dd49bdSEiji Ota /* get all the messages we're dropping under the rs lock */
733c0dd49bdSEiji Ota mutex_enter(&rs->rs_lock);
734c0dd49bdSEiji Ota
735c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE_SAFE(rm, tmp, &rs->rs_send_queue,
736c0dd49bdSEiji Ota m_sock_item) {
737c0dd49bdSEiji Ota if (dest && (dest->sin_addr.s_addr != rm->m_daddr ||
738c0dd49bdSEiji Ota dest->sin_port != rm->m_inc.i_hdr.h_dport))
739c0dd49bdSEiji Ota continue;
740c0dd49bdSEiji Ota wake = 1;
741c0dd49bdSEiji Ota list_remove(&rs->rs_send_queue, rm);
742c0dd49bdSEiji Ota list_insert_tail(&list, rm);
743c0dd49bdSEiji Ota rdsv3_send_sndbuf_remove(rs, rm);
744c0dd49bdSEiji Ota clear_bit(RDSV3_MSG_ON_SOCK, &rm->m_flags);
745c0dd49bdSEiji Ota }
746c0dd49bdSEiji Ota
747c0dd49bdSEiji Ota mutex_exit(&rs->rs_lock);
748c0dd49bdSEiji Ota
749c0dd49bdSEiji Ota conn = NULL;
750c0dd49bdSEiji Ota
751c0dd49bdSEiji Ota /* now remove the messages from the conn list as needed */
752c0dd49bdSEiji Ota RDSV3_FOR_EACH_LIST_NODE(rm, &list, m_sock_item) {
753c0dd49bdSEiji Ota /*
754c0dd49bdSEiji Ota * We do this here rather than in the loop above, so that
755c0dd49bdSEiji Ota * we don't have to nest m_rs_lock under rs->rs_lock
756c0dd49bdSEiji Ota */
757c0dd49bdSEiji Ota mutex_enter(&rm->m_rs_lock);
758c0dd49bdSEiji Ota /* If this is a RDMA operation, notify the app. */
759fe817b60SEiji Ota __rdsv3_rdma_send_complete(rs, rm, RDS_RDMA_CANCELED);
760c0dd49bdSEiji Ota rm->m_rs = NULL;
761c0dd49bdSEiji Ota mutex_exit(&rm->m_rs_lock);
762c0dd49bdSEiji Ota
763c0dd49bdSEiji Ota /*
764c0dd49bdSEiji Ota * If we see this flag cleared then we're *sure* that someone
765c0dd49bdSEiji Ota * else beat us to removing it from the conn. If we race
766c0dd49bdSEiji Ota * with their flag update we'll get the lock and then really
767c0dd49bdSEiji Ota * see that the flag has been cleared.
768c0dd49bdSEiji Ota */
769c0dd49bdSEiji Ota if (!test_bit(RDSV3_MSG_ON_CONN, &rm->m_flags))
770c0dd49bdSEiji Ota continue;
771c0dd49bdSEiji Ota
772c0dd49bdSEiji Ota if (conn != rm->m_inc.i_conn) {
773c0dd49bdSEiji Ota if (conn)
774c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
775c0dd49bdSEiji Ota conn = rm->m_inc.i_conn;
776c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
777c0dd49bdSEiji Ota }
778c0dd49bdSEiji Ota
779c0dd49bdSEiji Ota if (test_and_clear_bit(RDSV3_MSG_ON_CONN, &rm->m_flags)) {
780c0dd49bdSEiji Ota list_remove_node(&rm->m_conn_item);
781c0dd49bdSEiji Ota rdsv3_message_put(rm);
782c0dd49bdSEiji Ota }
783c0dd49bdSEiji Ota }
784c0dd49bdSEiji Ota
785c0dd49bdSEiji Ota if (conn)
786c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
787c0dd49bdSEiji Ota
788c0dd49bdSEiji Ota if (wake)
789c0dd49bdSEiji Ota rdsv3_wake_sk_sleep(rs);
790c0dd49bdSEiji Ota
791c0dd49bdSEiji Ota while (!list_is_empty(&list)) {
792c0dd49bdSEiji Ota rm = list_remove_head(&list);
793c0dd49bdSEiji Ota
794c0dd49bdSEiji Ota rdsv3_message_wait(rm);
795c0dd49bdSEiji Ota rdsv3_message_put(rm);
796c0dd49bdSEiji Ota }
797c0dd49bdSEiji Ota
798c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_drop_to", "Return(rs: %p)", rs);
799c0dd49bdSEiji Ota }
800c0dd49bdSEiji Ota
801c0dd49bdSEiji Ota /*
802c0dd49bdSEiji Ota * we only want this to fire once so we use the callers 'queued'. It's
803c0dd49bdSEiji Ota * possible that another thread can race with us and remove the
804c0dd49bdSEiji Ota * message from the flow with RDSV3_CANCEL_SENT_TO.
805c0dd49bdSEiji Ota */
806c0dd49bdSEiji Ota static int
rdsv3_send_queue_rm(struct rdsv3_sock * rs,struct rdsv3_connection * conn,struct rdsv3_message * rm,uint16_be_t sport,uint16_be_t dport,int * queued)807c0dd49bdSEiji Ota rdsv3_send_queue_rm(struct rdsv3_sock *rs, struct rdsv3_connection *conn,
808c0dd49bdSEiji Ota struct rdsv3_message *rm, uint16_be_t sport,
809c0dd49bdSEiji Ota uint16_be_t dport, int *queued)
810c0dd49bdSEiji Ota {
811c0dd49bdSEiji Ota uint32_t len;
812c0dd49bdSEiji Ota
813c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_queue_rm", "Enter(rs: %p, rm: %p)", rs, rm);
814c0dd49bdSEiji Ota
815c0dd49bdSEiji Ota if (*queued)
816c0dd49bdSEiji Ota goto out;
817c0dd49bdSEiji Ota
818c0dd49bdSEiji Ota len = ntohl(rm->m_inc.i_hdr.h_len);
819c0dd49bdSEiji Ota
820c0dd49bdSEiji Ota /*
821c0dd49bdSEiji Ota * this is the only place which holds both the socket's rs_lock
822c0dd49bdSEiji Ota * and the connection's c_lock
823c0dd49bdSEiji Ota */
824c0dd49bdSEiji Ota mutex_enter(&rs->rs_lock);
825c0dd49bdSEiji Ota
826c0dd49bdSEiji Ota /*
827c0dd49bdSEiji Ota * If there is a little space in sndbuf, we don't queue anything,
828c0dd49bdSEiji Ota * and userspace gets -EAGAIN. But poll() indicates there's send
829c0dd49bdSEiji Ota * room. This can lead to bad behavior (spinning) if snd_bytes isn't
830c0dd49bdSEiji Ota * freed up by incoming acks. So we check the *old* value of
831c0dd49bdSEiji Ota * rs_snd_bytes here to allow the last msg to exceed the buffer,
832c0dd49bdSEiji Ota * and poll() now knows no more data can be sent.
833c0dd49bdSEiji Ota */
834c0dd49bdSEiji Ota if (rs->rs_snd_bytes < rdsv3_sk_sndbuf(rs)) {
835c0dd49bdSEiji Ota rs->rs_snd_bytes += len;
836c0dd49bdSEiji Ota
837c0dd49bdSEiji Ota /*
838c0dd49bdSEiji Ota * let recv side know we are close to send space exhaustion.
839c0dd49bdSEiji Ota * This is probably not the optimal way to do it, as this
840c0dd49bdSEiji Ota * means we set the flag on *all* messages as soon as our
841c0dd49bdSEiji Ota * throughput hits a certain threshold.
842c0dd49bdSEiji Ota */
843c0dd49bdSEiji Ota if (rs->rs_snd_bytes >= rdsv3_sk_sndbuf(rs) / 2)
844c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ACK_REQUIRED, &rm->m_flags);
845c0dd49bdSEiji Ota
846c0dd49bdSEiji Ota list_insert_tail(&rs->rs_send_queue, rm);
847c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ON_SOCK, &rm->m_flags);
848c0dd49bdSEiji Ota
849c0dd49bdSEiji Ota rdsv3_message_addref(rm);
850c0dd49bdSEiji Ota rm->m_rs = rs;
851c0dd49bdSEiji Ota
852c0dd49bdSEiji Ota /*
853c0dd49bdSEiji Ota * The code ordering is a little weird, but we're
854c0dd49bdSEiji Ota * trying to minimize the time we hold c_lock
855c0dd49bdSEiji Ota */
856c0dd49bdSEiji Ota rdsv3_message_populate_header(&rm->m_inc.i_hdr, sport,
857c0dd49bdSEiji Ota dport, 0);
858c0dd49bdSEiji Ota rm->m_inc.i_conn = conn;
859c0dd49bdSEiji Ota rdsv3_message_addref(rm); /* XXX - called twice */
860c0dd49bdSEiji Ota
861c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
862c0dd49bdSEiji Ota rm->m_inc.i_hdr.h_sequence = htonll(conn->c_next_tx_seq++);
863c0dd49bdSEiji Ota list_insert_tail(&conn->c_send_queue, rm);
864c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ON_CONN, &rm->m_flags);
865c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
866c0dd49bdSEiji Ota
867c0dd49bdSEiji Ota RDSV3_DPRINTF5("rdsv3_send_queue_rm",
868c0dd49bdSEiji Ota "queued msg %p len %d, rs %p bytes %d seq %llu",
869c0dd49bdSEiji Ota rm, len, rs, rs->rs_snd_bytes,
870c0dd49bdSEiji Ota (unsigned long long)ntohll(
871c0dd49bdSEiji Ota rm->m_inc.i_hdr.h_sequence));
872c0dd49bdSEiji Ota
873c0dd49bdSEiji Ota *queued = 1;
874c0dd49bdSEiji Ota }
875c0dd49bdSEiji Ota
876c0dd49bdSEiji Ota mutex_exit(&rs->rs_lock);
877c0dd49bdSEiji Ota
878c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_queue_rm", "Return(rs: %p)", rs);
879c0dd49bdSEiji Ota out:
880c0dd49bdSEiji Ota return (*queued);
881c0dd49bdSEiji Ota }
882c0dd49bdSEiji Ota
883c0dd49bdSEiji Ota static int
rdsv3_cmsg_send(struct rdsv3_sock * rs,struct rdsv3_message * rm,struct msghdr * msg,int * allocated_mr)884c0dd49bdSEiji Ota rdsv3_cmsg_send(struct rdsv3_sock *rs, struct rdsv3_message *rm,
885c0dd49bdSEiji Ota struct msghdr *msg, int *allocated_mr)
886c0dd49bdSEiji Ota {
887c0dd49bdSEiji Ota struct cmsghdr *cmsg;
888c0dd49bdSEiji Ota int ret = 0;
889c0dd49bdSEiji Ota
890c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_cmsg_send", "Enter(rs: %p)", rs);
891c0dd49bdSEiji Ota
892c0dd49bdSEiji Ota for (cmsg = CMSG_FIRSTHDR(msg); cmsg; cmsg = CMSG_NXTHDR(msg, cmsg)) {
893c0dd49bdSEiji Ota
894c0dd49bdSEiji Ota if (cmsg->cmsg_level != SOL_RDS)
895c0dd49bdSEiji Ota continue;
896c0dd49bdSEiji Ota
897c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_cmsg_send", "cmsg(%p, %p) type %d",
898c0dd49bdSEiji Ota cmsg, rm, cmsg->cmsg_type);
899c0dd49bdSEiji Ota /*
900c0dd49bdSEiji Ota * As a side effect, RDMA_DEST and RDMA_MAP will set
901c0dd49bdSEiji Ota * rm->m_rdma_cookie and rm->m_rdma_mr.
902c0dd49bdSEiji Ota */
903c0dd49bdSEiji Ota switch (cmsg->cmsg_type) {
904fe817b60SEiji Ota case RDS_CMSG_RDMA_ARGS:
905c0dd49bdSEiji Ota ret = rdsv3_cmsg_rdma_args(rs, rm, cmsg);
906c0dd49bdSEiji Ota break;
907c0dd49bdSEiji Ota
908fe817b60SEiji Ota case RDS_CMSG_RDMA_DEST:
909c0dd49bdSEiji Ota ret = rdsv3_cmsg_rdma_dest(rs, rm, cmsg);
910c0dd49bdSEiji Ota break;
911c0dd49bdSEiji Ota
912fe817b60SEiji Ota case RDS_CMSG_RDMA_MAP:
913c0dd49bdSEiji Ota ret = rdsv3_cmsg_rdma_map(rs, rm, cmsg);
914c0dd49bdSEiji Ota if (ret)
915c0dd49bdSEiji Ota *allocated_mr = 1;
916c0dd49bdSEiji Ota break;
917c0dd49bdSEiji Ota
918c0dd49bdSEiji Ota default:
919c0dd49bdSEiji Ota return (-EINVAL);
920c0dd49bdSEiji Ota }
921c0dd49bdSEiji Ota
922c0dd49bdSEiji Ota if (ret)
923c0dd49bdSEiji Ota break;
924c0dd49bdSEiji Ota }
925c0dd49bdSEiji Ota
926c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_cmsg_send", "Return(rs: %p)", rs);
927c0dd49bdSEiji Ota
928c0dd49bdSEiji Ota return (ret);
929c0dd49bdSEiji Ota }
930c0dd49bdSEiji Ota
9313f756f37Sagiri extern unsigned long rdsv3_max_bcopy_size;
9323f756f37Sagiri
933c0dd49bdSEiji Ota int
rdsv3_sendmsg(struct rdsv3_sock * rs,uio_t * uio,struct nmsghdr * msg,size_t payload_len)934c0dd49bdSEiji Ota rdsv3_sendmsg(struct rdsv3_sock *rs, uio_t *uio, struct nmsghdr *msg,
935c0dd49bdSEiji Ota size_t payload_len)
936c0dd49bdSEiji Ota {
937c0dd49bdSEiji Ota struct rsock *sk = rdsv3_rs_to_sk(rs);
938c0dd49bdSEiji Ota struct sockaddr_in *usin = (struct sockaddr_in *)msg->msg_name;
939c0dd49bdSEiji Ota uint32_be_t daddr;
940c0dd49bdSEiji Ota uint16_be_t dport;
941c0dd49bdSEiji Ota struct rdsv3_message *rm = NULL;
942c0dd49bdSEiji Ota struct rdsv3_connection *conn;
943c0dd49bdSEiji Ota int ret = 0;
944c0dd49bdSEiji Ota int queued = 0, allocated_mr = 0;
945c0dd49bdSEiji Ota int nonblock = msg->msg_flags & MSG_DONTWAIT;
946cadbfdc3SEiji Ota long timeo = rdsv3_sndtimeo(sk, nonblock);
947c0dd49bdSEiji Ota
948c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_sendmsg", "Enter(rs: %p)", rs);
949c0dd49bdSEiji Ota
950c0dd49bdSEiji Ota if (msg->msg_namelen) {
951c0dd49bdSEiji Ota /* XXX fail non-unicast destination IPs? */
952c0dd49bdSEiji Ota if (msg->msg_namelen < sizeof (*usin) ||
953c0dd49bdSEiji Ota usin->sin_family != AF_INET_OFFLOAD) {
954c0dd49bdSEiji Ota ret = -EINVAL;
955c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg", "returning: %d", -ret);
956c0dd49bdSEiji Ota goto out;
957c0dd49bdSEiji Ota }
958c0dd49bdSEiji Ota daddr = usin->sin_addr.s_addr;
959c0dd49bdSEiji Ota dport = usin->sin_port;
960c0dd49bdSEiji Ota } else {
961c0dd49bdSEiji Ota /* We only care about consistency with ->connect() */
962c0dd49bdSEiji Ota mutex_enter(&sk->sk_lock);
963c0dd49bdSEiji Ota daddr = rs->rs_conn_addr;
964c0dd49bdSEiji Ota dport = rs->rs_conn_port;
965c0dd49bdSEiji Ota mutex_exit(&sk->sk_lock);
966c0dd49bdSEiji Ota }
967c0dd49bdSEiji Ota
968c0dd49bdSEiji Ota /* racing with another thread binding seems ok here */
969c0dd49bdSEiji Ota if (daddr == 0 || rs->rs_bound_addr == 0) {
970c0dd49bdSEiji Ota ret = -ENOTCONN; /* XXX not a great errno */
971c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg", "returning: %d", -ret);
972c0dd49bdSEiji Ota goto out;
973c0dd49bdSEiji Ota }
974c0dd49bdSEiji Ota
9753f756f37Sagiri if (payload_len > rdsv3_max_bcopy_size) {
9763f756f37Sagiri RDSV3_DPRINTF2("rdsv3_sendmsg", "Message too large: %d",
9773f756f37Sagiri payload_len);
9783f756f37Sagiri ret = -EMSGSIZE;
9793f756f37Sagiri goto out;
9803f756f37Sagiri }
9813f756f37Sagiri
982c0dd49bdSEiji Ota rm = rdsv3_message_copy_from_user(uio, payload_len);
983c0dd49bdSEiji Ota if (IS_ERR(rm)) {
984c0dd49bdSEiji Ota ret = PTR_ERR(rm);
985c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
986c0dd49bdSEiji Ota "rdsv3_message_copy_from_user failed %d", -ret);
987c0dd49bdSEiji Ota rm = NULL;
988c0dd49bdSEiji Ota goto out;
989c0dd49bdSEiji Ota }
990c0dd49bdSEiji Ota
991c0dd49bdSEiji Ota rm->m_daddr = daddr;
992c0dd49bdSEiji Ota
993cadbfdc3SEiji Ota /* Parse any control messages the user may have included. */
994cadbfdc3SEiji Ota ret = rdsv3_cmsg_send(rs, rm, msg, &allocated_mr);
995cadbfdc3SEiji Ota if (ret) {
996cadbfdc3SEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
997cadbfdc3SEiji Ota "rdsv3_cmsg_send(rs: %p rm: %p msg: %p) returned: %d",
998cadbfdc3SEiji Ota rs, rm, msg, ret);
999cadbfdc3SEiji Ota goto out;
1000cadbfdc3SEiji Ota }
1001cadbfdc3SEiji Ota
1002c0dd49bdSEiji Ota /*
1003c0dd49bdSEiji Ota * rdsv3_conn_create has a spinlock that runs with IRQ off.
1004c0dd49bdSEiji Ota * Caching the conn in the socket helps a lot.
1005c0dd49bdSEiji Ota */
1006c0dd49bdSEiji Ota mutex_enter(&rs->rs_conn_lock);
1007c0dd49bdSEiji Ota if (rs->rs_conn && rs->rs_conn->c_faddr == daddr) {
1008c0dd49bdSEiji Ota conn = rs->rs_conn;
1009c0dd49bdSEiji Ota } else {
1010c0dd49bdSEiji Ota conn = rdsv3_conn_create_outgoing(rs->rs_bound_addr,
1011c0dd49bdSEiji Ota daddr, rs->rs_transport, KM_NOSLEEP);
1012c0dd49bdSEiji Ota if (IS_ERR(conn)) {
1013c0dd49bdSEiji Ota mutex_exit(&rs->rs_conn_lock);
1014c0dd49bdSEiji Ota ret = PTR_ERR(conn);
1015c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
1016c0dd49bdSEiji Ota "rdsv3_conn_create_outgoing failed %d",
1017c0dd49bdSEiji Ota -ret);
1018c0dd49bdSEiji Ota goto out;
1019c0dd49bdSEiji Ota }
1020c0dd49bdSEiji Ota rs->rs_conn = conn;
1021c0dd49bdSEiji Ota }
1022c0dd49bdSEiji Ota mutex_exit(&rs->rs_conn_lock);
1023c0dd49bdSEiji Ota
1024c0dd49bdSEiji Ota if ((rm->m_rdma_cookie || rm->m_rdma_op) &&
1025c0dd49bdSEiji Ota conn->c_trans->xmit_rdma == NULL) {
10266e18d381Sagiri RDSV3_DPRINTF2("rdsv3_sendmsg", "rdma_op %p conn xmit_rdma %p",
1027c0dd49bdSEiji Ota rm->m_rdma_op, conn->c_trans->xmit_rdma);
1028c0dd49bdSEiji Ota ret = -EOPNOTSUPP;
1029c0dd49bdSEiji Ota goto out;
1030c0dd49bdSEiji Ota }
1031c0dd49bdSEiji Ota
1032c0dd49bdSEiji Ota /*
1033c0dd49bdSEiji Ota * If the connection is down, trigger a connect. We may
1034c0dd49bdSEiji Ota * have scheduled a delayed reconnect however - in this case
1035c0dd49bdSEiji Ota * we should not interfere.
1036c0dd49bdSEiji Ota */
1037c0dd49bdSEiji Ota if (rdsv3_conn_state(conn) == RDSV3_CONN_DOWN &&
1038c0dd49bdSEiji Ota !test_and_set_bit(RDSV3_RECONNECT_PENDING, &conn->c_flags))
1039c0dd49bdSEiji Ota rdsv3_queue_delayed_work(rdsv3_wq, &conn->c_conn_w, 0);
1040c0dd49bdSEiji Ota
1041c0dd49bdSEiji Ota ret = rdsv3_cong_wait(conn->c_fcong, dport, nonblock, rs);
1042c0dd49bdSEiji Ota if (ret) {
10435d5562f5SEiji Ota mutex_enter(&rs->rs_congested_lock);
1044cadbfdc3SEiji Ota rs->rs_seen_congestion = 1;
10455d5562f5SEiji Ota cv_signal(&rs->rs_congested_cv);
10465d5562f5SEiji Ota mutex_exit(&rs->rs_congested_lock);
1047cadbfdc3SEiji Ota
1048c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
1049c0dd49bdSEiji Ota "rdsv3_cong_wait (dport: %d) returned: %d", dport, ret);
1050c0dd49bdSEiji Ota goto out;
1051c0dd49bdSEiji Ota }
1052c0dd49bdSEiji Ota
1053c0dd49bdSEiji Ota (void) rdsv3_send_queue_rm(rs, conn, rm, rs->rs_bound_port, dport,
1054c0dd49bdSEiji Ota &queued);
1055c0dd49bdSEiji Ota if (!queued) {
1056c0dd49bdSEiji Ota /* rdsv3_stats_inc(s_send_queue_full); */
1057c0dd49bdSEiji Ota /* XXX make sure this is reasonable */
1058c0dd49bdSEiji Ota if (payload_len > rdsv3_sk_sndbuf(rs)) {
1059c0dd49bdSEiji Ota ret = -EMSGSIZE;
1060c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
1061c0dd49bdSEiji Ota "msgsize(%d) too big, returning: %d",
1062c0dd49bdSEiji Ota payload_len, -ret);
1063c0dd49bdSEiji Ota goto out;
1064c0dd49bdSEiji Ota }
1065c0dd49bdSEiji Ota if (nonblock) {
1066c0dd49bdSEiji Ota ret = -EAGAIN;
1067c0dd49bdSEiji Ota RDSV3_DPRINTF3("rdsv3_sendmsg",
1068c0dd49bdSEiji Ota "send queue full (%d), returning: %d",
1069c0dd49bdSEiji Ota payload_len, -ret);
1070c0dd49bdSEiji Ota goto out;
1071c0dd49bdSEiji Ota }
1072c0dd49bdSEiji Ota
10736e18d381Sagiri #if 0
10746e18d381Sagiri ret = rdsv3_wait_sig(sk->sk_sleep,
10756e18d381Sagiri (rdsv3_send_queue_rm(rs, conn, rm, rs->rs_bound_port,
10766e18d381Sagiri dport, &queued)));
10776e18d381Sagiri if (ret == 0) {
10786e18d381Sagiri /* signal/timeout pending */
10796e18d381Sagiri RDSV3_DPRINTF2("rdsv3_sendmsg",
10806e18d381Sagiri "woke due to signal: %d", ret);
10816e18d381Sagiri ret = -ERESTART;
10826e18d381Sagiri goto out;
10836e18d381Sagiri }
10846e18d381Sagiri #else
1085c0dd49bdSEiji Ota mutex_enter(&sk->sk_sleep->waitq_mutex);
10866e18d381Sagiri sk->sk_sleep->waitq_waiters++;
1087c0dd49bdSEiji Ota while (!rdsv3_send_queue_rm(rs, conn, rm, rs->rs_bound_port,
1088c0dd49bdSEiji Ota dport, &queued)) {
1089c0dd49bdSEiji Ota ret = cv_wait_sig(&sk->sk_sleep->waitq_cv,
1090c0dd49bdSEiji Ota &sk->sk_sleep->waitq_mutex);
1091c0dd49bdSEiji Ota if (ret == 0) {
1092c0dd49bdSEiji Ota /* signal/timeout pending */
1093c0dd49bdSEiji Ota RDSV3_DPRINTF2("rdsv3_sendmsg",
10946e18d381Sagiri "woke due to signal: %d", ret);
10955e12ddadSEiji Ota ret = -EINTR;
10966e18d381Sagiri sk->sk_sleep->waitq_waiters--;
1097c0dd49bdSEiji Ota mutex_exit(&sk->sk_sleep->waitq_mutex);
1098c0dd49bdSEiji Ota goto out;
1099c0dd49bdSEiji Ota }
1100c0dd49bdSEiji Ota }
11016e18d381Sagiri sk->sk_sleep->waitq_waiters--;
1102c0dd49bdSEiji Ota mutex_exit(&sk->sk_sleep->waitq_mutex);
11036e18d381Sagiri #endif
1104c0dd49bdSEiji Ota
1105c0dd49bdSEiji Ota RDSV3_DPRINTF5("rdsv3_sendmsg", "sendmsg woke queued %d",
1106c0dd49bdSEiji Ota queued);
1107c0dd49bdSEiji Ota
1108c0dd49bdSEiji Ota ASSERT(queued);
1109c0dd49bdSEiji Ota ret = 0;
1110c0dd49bdSEiji Ota }
1111c0dd49bdSEiji Ota
1112c0dd49bdSEiji Ota /*
1113c0dd49bdSEiji Ota * By now we've committed to the send. We reuse rdsv3_send_worker()
1114c0dd49bdSEiji Ota * to retry sends in the rds thread if the transport asks us to.
1115c0dd49bdSEiji Ota */
1116c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_queued);
1117c0dd49bdSEiji Ota
1118c0dd49bdSEiji Ota if (!test_bit(RDSV3_LL_SEND_FULL, &conn->c_flags))
11193f756f37Sagiri (void) rdsv3_send_worker(&conn->c_send_w.work);
1120c0dd49bdSEiji Ota
1121c0dd49bdSEiji Ota rdsv3_message_put(rm);
1122c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_sendmsg", "Return(rs: %p, len: %d)",
1123c0dd49bdSEiji Ota rs, payload_len);
1124c0dd49bdSEiji Ota return (payload_len);
1125c0dd49bdSEiji Ota
1126c0dd49bdSEiji Ota out:
1127c0dd49bdSEiji Ota /*
1128c0dd49bdSEiji Ota * If the user included a RDMA_MAP cmsg, we allocated a MR on the fly.
1129c0dd49bdSEiji Ota * If the sendmsg goes through, we keep the MR. If it fails with EAGAIN
1130c0dd49bdSEiji Ota * or in any other way, we need to destroy the MR again
1131c0dd49bdSEiji Ota */
1132c0dd49bdSEiji Ota if (allocated_mr)
1133c0dd49bdSEiji Ota rdsv3_rdma_unuse(rs, rdsv3_rdma_cookie_key(rm->m_rdma_cookie),
1134c0dd49bdSEiji Ota 1);
1135c0dd49bdSEiji Ota
1136c0dd49bdSEiji Ota if (rm)
1137c0dd49bdSEiji Ota rdsv3_message_put(rm);
1138c0dd49bdSEiji Ota return (ret);
1139c0dd49bdSEiji Ota }
1140c0dd49bdSEiji Ota
1141c0dd49bdSEiji Ota /*
1142c0dd49bdSEiji Ota * Reply to a ping packet.
1143c0dd49bdSEiji Ota */
1144c0dd49bdSEiji Ota int
rdsv3_send_pong(struct rdsv3_connection * conn,uint16_be_t dport)1145c0dd49bdSEiji Ota rdsv3_send_pong(struct rdsv3_connection *conn, uint16_be_t dport)
1146c0dd49bdSEiji Ota {
1147c0dd49bdSEiji Ota struct rdsv3_message *rm;
1148c0dd49bdSEiji Ota int ret = 0;
1149c0dd49bdSEiji Ota
1150c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_pong", "Enter(conn: %p)", conn);
1151c0dd49bdSEiji Ota
1152c0dd49bdSEiji Ota rm = rdsv3_message_alloc(0, KM_NOSLEEP);
11535d5562f5SEiji Ota if (!rm) {
1154c0dd49bdSEiji Ota ret = -ENOMEM;
1155c0dd49bdSEiji Ota goto out;
1156c0dd49bdSEiji Ota }
1157c0dd49bdSEiji Ota
1158c0dd49bdSEiji Ota rm->m_daddr = conn->c_faddr;
1159c0dd49bdSEiji Ota
1160c0dd49bdSEiji Ota /*
1161c0dd49bdSEiji Ota * If the connection is down, trigger a connect. We may
1162c0dd49bdSEiji Ota * have scheduled a delayed reconnect however - in this case
1163c0dd49bdSEiji Ota * we should not interfere.
1164c0dd49bdSEiji Ota */
1165c0dd49bdSEiji Ota if (rdsv3_conn_state(conn) == RDSV3_CONN_DOWN &&
1166c0dd49bdSEiji Ota !test_and_set_bit(RDSV3_RECONNECT_PENDING, &conn->c_flags))
1167c0dd49bdSEiji Ota rdsv3_queue_delayed_work(rdsv3_wq, &conn->c_conn_w, 0);
1168c0dd49bdSEiji Ota
1169c0dd49bdSEiji Ota ret = rdsv3_cong_wait(conn->c_fcong, dport, 1, NULL);
1170c0dd49bdSEiji Ota if (ret)
1171c0dd49bdSEiji Ota goto out;
1172c0dd49bdSEiji Ota
1173c0dd49bdSEiji Ota mutex_enter(&conn->c_lock);
1174c0dd49bdSEiji Ota list_insert_tail(&conn->c_send_queue, rm);
1175c0dd49bdSEiji Ota set_bit(RDSV3_MSG_ON_CONN, &rm->m_flags);
1176c0dd49bdSEiji Ota rdsv3_message_addref(rm);
1177c0dd49bdSEiji Ota rm->m_inc.i_conn = conn;
1178c0dd49bdSEiji Ota
1179c0dd49bdSEiji Ota rdsv3_message_populate_header(&rm->m_inc.i_hdr, 0, dport,
1180c0dd49bdSEiji Ota conn->c_next_tx_seq);
1181c0dd49bdSEiji Ota conn->c_next_tx_seq++;
1182c0dd49bdSEiji Ota mutex_exit(&conn->c_lock);
1183c0dd49bdSEiji Ota
1184c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_queued);
1185c0dd49bdSEiji Ota rdsv3_stats_inc(s_send_pong);
1186c0dd49bdSEiji Ota
11875d5562f5SEiji Ota if (!test_bit(RDSV3_LL_SEND_FULL, &conn->c_flags))
11885d5562f5SEiji Ota (void) rdsv3_send_xmit(conn);
11895d5562f5SEiji Ota
1190c0dd49bdSEiji Ota rdsv3_message_put(rm);
1191c0dd49bdSEiji Ota
1192c0dd49bdSEiji Ota RDSV3_DPRINTF4("rdsv3_send_pong", "Return(conn: %p)", conn);
1193c0dd49bdSEiji Ota return (0);
1194c0dd49bdSEiji Ota
1195c0dd49bdSEiji Ota out:
1196c0dd49bdSEiji Ota if (rm)
1197c0dd49bdSEiji Ota rdsv3_message_put(rm);
1198c0dd49bdSEiji Ota return (ret);
1199c0dd49bdSEiji Ota }
1200