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filter-rewriter: handle checkpoint and failover event
[mirror_qemu.git] / net / colo.c
1 /*
2 * COarse-grain LOck-stepping Virtual Machines for Non-stop Service (COLO)
3 * (a.k.a. Fault Tolerance or Continuous Replication)
4 *
5 * Copyright (c) 2016 HUAWEI TECHNOLOGIES CO., LTD.
6 * Copyright (c) 2016 FUJITSU LIMITED
7 * Copyright (c) 2016 Intel Corporation
8 *
9 * Author: Zhang Chen <zhangchen.fnst@cn.fujitsu.com>
10 *
11 * This work is licensed under the terms of the GNU GPL, version 2 or
12 * later. See the COPYING file in the top-level directory.
13 */
14
15 #include "qemu/osdep.h"
16 #include "trace.h"
17 #include "colo.h"
18
19 uint32_t connection_key_hash(const void *opaque)
20 {
21 const ConnectionKey *key = opaque;
22 uint32_t a, b, c;
23
24 /* Jenkins hash */
25 a = b = c = JHASH_INITVAL + sizeof(*key);
26 a += key->src.s_addr;
27 b += key->dst.s_addr;
28 c += (key->src_port | key->dst_port << 16);
29 __jhash_mix(a, b, c);
30
31 a += key->ip_proto;
32 __jhash_final(a, b, c);
33
34 return c;
35 }
36
37 int connection_key_equal(const void *key1, const void *key2)
38 {
39 return memcmp(key1, key2, sizeof(ConnectionKey)) == 0;
40 }
41
42 int parse_packet_early(Packet *pkt)
43 {
44 int network_length;
45 static const uint8_t vlan[] = {0x81, 0x00};
46 uint8_t *data = pkt->data + pkt->vnet_hdr_len;
47 uint16_t l3_proto;
48 ssize_t l2hdr_len = eth_get_l2_hdr_length(data);
49
50 if (pkt->size < ETH_HLEN + pkt->vnet_hdr_len) {
51 trace_colo_proxy_main("pkt->size < ETH_HLEN");
52 return 1;
53 }
54
55 /*
56 * TODO: support vlan.
57 */
58 if (!memcmp(&data[12], vlan, sizeof(vlan))) {
59 trace_colo_proxy_main("COLO-proxy don't support vlan");
60 return 1;
61 }
62
63 pkt->network_header = data + l2hdr_len;
64
65 const struct iovec l2vec = {
66 .iov_base = (void *) data,
67 .iov_len = l2hdr_len
68 };
69 l3_proto = eth_get_l3_proto(&l2vec, 1, l2hdr_len);
70
71 if (l3_proto != ETH_P_IP) {
72 return 1;
73 }
74
75 network_length = pkt->ip->ip_hl * 4;
76 if (pkt->size < l2hdr_len + network_length + pkt->vnet_hdr_len) {
77 trace_colo_proxy_main("pkt->size < network_header + network_length");
78 return 1;
79 }
80 pkt->transport_header = pkt->network_header + network_length;
81
82 return 0;
83 }
84
85 void extract_ip_and_port(uint32_t tmp_ports, ConnectionKey *key, Packet *pkt)
86 {
87 key->src = pkt->ip->ip_src;
88 key->dst = pkt->ip->ip_dst;
89 key->src_port = ntohs(tmp_ports >> 16);
90 key->dst_port = ntohs(tmp_ports & 0xffff);
91 }
92
93 void fill_connection_key(Packet *pkt, ConnectionKey *key)
94 {
95 uint32_t tmp_ports;
96
97 memset(key, 0, sizeof(*key));
98 key->ip_proto = pkt->ip->ip_p;
99
100 switch (key->ip_proto) {
101 case IPPROTO_TCP:
102 case IPPROTO_UDP:
103 case IPPROTO_DCCP:
104 case IPPROTO_ESP:
105 case IPPROTO_SCTP:
106 case IPPROTO_UDPLITE:
107 tmp_ports = *(uint32_t *)(pkt->transport_header);
108 extract_ip_and_port(tmp_ports, key, pkt);
109 break;
110 case IPPROTO_AH:
111 tmp_ports = *(uint32_t *)(pkt->transport_header + 4);
112 extract_ip_and_port(tmp_ports, key, pkt);
113 break;
114 default:
115 break;
116 }
117 }
118
119 void reverse_connection_key(ConnectionKey *key)
120 {
121 struct in_addr tmp_ip;
122 uint16_t tmp_port;
123
124 tmp_ip = key->src;
125 key->src = key->dst;
126 key->dst = tmp_ip;
127
128 tmp_port = key->src_port;
129 key->src_port = key->dst_port;
130 key->dst_port = tmp_port;
131 }
132
133 Connection *connection_new(ConnectionKey *key)
134 {
135 Connection *conn = g_slice_new(Connection);
136
137 conn->ip_proto = key->ip_proto;
138 conn->processing = false;
139 conn->offset = 0;
140 conn->tcp_state = TCPS_CLOSED;
141 conn->pack = 0;
142 conn->sack = 0;
143 g_queue_init(&conn->primary_list);
144 g_queue_init(&conn->secondary_list);
145
146 return conn;
147 }
148
149 void connection_destroy(void *opaque)
150 {
151 Connection *conn = opaque;
152
153 g_queue_foreach(&conn->primary_list, packet_destroy, NULL);
154 g_queue_clear(&conn->primary_list);
155 g_queue_foreach(&conn->secondary_list, packet_destroy, NULL);
156 g_queue_clear(&conn->secondary_list);
157 g_slice_free(Connection, conn);
158 }
159
160 Packet *packet_new(const void *data, int size, int vnet_hdr_len)
161 {
162 Packet *pkt = g_slice_new(Packet);
163
164 pkt->data = g_memdup(data, size);
165 pkt->size = size;
166 pkt->creation_ms = qemu_clock_get_ms(QEMU_CLOCK_HOST);
167 pkt->vnet_hdr_len = vnet_hdr_len;
168 pkt->tcp_seq = 0;
169 pkt->tcp_ack = 0;
170 pkt->seq_end = 0;
171 pkt->header_size = 0;
172 pkt->payload_size = 0;
173 pkt->offset = 0;
174 pkt->flags = 0;
175
176 return pkt;
177 }
178
179 void packet_destroy(void *opaque, void *user_data)
180 {
181 Packet *pkt = opaque;
182
183 g_free(pkt->data);
184 g_slice_free(Packet, pkt);
185 }
186
187 /*
188 * Clear hashtable, stop this hash growing really huge
189 */
190 void connection_hashtable_reset(GHashTable *connection_track_table)
191 {
192 g_hash_table_remove_all(connection_track_table);
193 }
194
195 /* if not found, create a new connection and add to hash table */
196 Connection *connection_get(GHashTable *connection_track_table,
197 ConnectionKey *key,
198 GQueue *conn_list)
199 {
200 Connection *conn = g_hash_table_lookup(connection_track_table, key);
201
202 if (conn == NULL) {
203 ConnectionKey *new_key = g_memdup(key, sizeof(*key));
204
205 conn = connection_new(key);
206
207 if (g_hash_table_size(connection_track_table) > HASHTABLE_MAX_SIZE) {
208 trace_colo_proxy_main("colo proxy connection hashtable full,"
209 " clear it");
210 connection_hashtable_reset(connection_track_table);
211 /*
212 * clear the conn_list
213 */
214 while (!g_queue_is_empty(conn_list)) {
215 connection_destroy(g_queue_pop_head(conn_list));
216 }
217 }
218
219 g_hash_table_insert(connection_track_table, new_key, conn);
220 }
221
222 return conn;
223 }
224
225 bool connection_has_tracked(GHashTable *connection_track_table,
226 ConnectionKey *key)
227 {
228 Connection *conn = g_hash_table_lookup(connection_track_table, key);
229
230 return conn ? true : false;
231 }
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