/* * COarse-grain LOck-stepping Virtual Machines for Non-stop Service (COLO) * (a.k.a. Fault Tolerance or Continuous Replication) * * Copyright (c) 2016 HUAWEI TECHNOLOGIES CO., LTD. * Copyright (c) 2016 FUJITSU LIMITED * Copyright (c) 2016 Intel Corporation * * Author: Zhang Chen * * This work is licensed under the terms of the GNU GPL, version 2 or * later. See the COPYING file in the top-level directory. */ #include "qemu/osdep.h" #include "qemu/error-report.h" #include "trace.h" #include "qemu-common.h" #include "qapi/qmp/qerror.h" #include "qapi/error.h" #include "net/net.h" #include "net/eth.h" #include "qom/object_interfaces.h" #include "qemu/iov.h" #include "qom/object.h" #include "net/queue.h" #include "chardev/char-fe.h" #include "qemu/sockets.h" #include "qapi-visit.h" #include "net/colo.h" #include "sysemu/iothread.h" #define TYPE_COLO_COMPARE "colo-compare" #define COLO_COMPARE(obj) \ OBJECT_CHECK(CompareState, (obj), TYPE_COLO_COMPARE) #define COMPARE_READ_LEN_MAX NET_BUFSIZE #define MAX_QUEUE_SIZE 1024 #define COLO_COMPARE_FREE_PRIMARY 0x01 #define COLO_COMPARE_FREE_SECONDARY 0x02 /* TODO: Should be configurable */ #define REGULAR_PACKET_CHECK_MS 3000 /* * + CompareState ++ * | | * +---------------+ +---------------+ +---------------+ * | conn list + - > conn + ------- > conn + -- > ...... * +---------------+ +---------------+ +---------------+ * | | | | | | * +---------------+ +---v----+ +---v----+ +---v----+ +---v----+ * |primary | |secondary |primary | |secondary * |packet | |packet + |packet | |packet + * +--------+ +--------+ +--------+ +--------+ * | | | | * +---v----+ +---v----+ +---v----+ +---v----+ * |primary | |secondary |primary | |secondary * |packet | |packet + |packet | |packet + * +--------+ +--------+ +--------+ +--------+ * | | | | * +---v----+ +---v----+ +---v----+ +---v----+ * |primary | |secondary |primary | |secondary * |packet | |packet + |packet | |packet + * +--------+ +--------+ +--------+ +--------+ */ typedef struct CompareState { Object parent; char *pri_indev; char *sec_indev; char *outdev; CharBackend chr_pri_in; CharBackend chr_sec_in; CharBackend chr_out; SocketReadState pri_rs; SocketReadState sec_rs; bool vnet_hdr; /* * Record the connection that through the NIC * Element type: Connection */ GQueue conn_list; /* Record the connection without repetition */ GHashTable *connection_track_table; IOThread *iothread; GMainContext *worker_context; QEMUTimer *packet_check_timer; } CompareState; typedef struct CompareClass { ObjectClass parent_class; } CompareClass; enum { PRIMARY_IN = 0, SECONDARY_IN, }; static int compare_chr_send(CompareState *s, const uint8_t *buf, uint32_t size, uint32_t vnet_hdr_len); static gint seq_sorter(Packet *a, Packet *b, gpointer data) { struct tcphdr *atcp, *btcp; atcp = (struct tcphdr *)(a->transport_header); btcp = (struct tcphdr *)(b->transport_header); return ntohl(atcp->th_seq) - ntohl(btcp->th_seq); } static void fill_pkt_tcp_info(void *data, uint32_t *max_ack) { Packet *pkt = data; struct tcphdr *tcphd; tcphd = (struct tcphdr *)pkt->transport_header; pkt->tcp_seq = ntohl(tcphd->th_seq); pkt->tcp_ack = ntohl(tcphd->th_ack); *max_ack = *max_ack > pkt->tcp_ack ? *max_ack : pkt->tcp_ack; pkt->header_size = pkt->transport_header - (uint8_t *)pkt->data + (tcphd->th_off << 2) - pkt->vnet_hdr_len; pkt->payload_size = pkt->size - pkt->header_size; pkt->seq_end = pkt->tcp_seq + pkt->payload_size; pkt->flags = tcphd->th_flags; } /* * Return 1 on success, if return 0 means the * packet will be dropped */ static int colo_insert_packet(GQueue *queue, Packet *pkt, uint32_t *max_ack) { if (g_queue_get_length(queue) <= MAX_QUEUE_SIZE) { if (pkt->ip->ip_p == IPPROTO_TCP) { fill_pkt_tcp_info(pkt, max_ack); g_queue_insert_sorted(queue, pkt, (GCompareDataFunc)seq_sorter, NULL); } else { g_queue_push_tail(queue, pkt); } return 1; } return 0; } /* * Return 0 on success, if return -1 means the pkt * is unsupported(arp and ipv6) and will be sent later */ static int packet_enqueue(CompareState *s, int mode, Connection **con) { ConnectionKey key; Packet *pkt = NULL; Connection *conn; if (mode == PRIMARY_IN) { pkt = packet_new(s->pri_rs.buf, s->pri_rs.packet_len, s->pri_rs.vnet_hdr_len); } else { pkt = packet_new(s->sec_rs.buf, s->sec_rs.packet_len, s->sec_rs.vnet_hdr_len); } if (parse_packet_early(pkt)) { packet_destroy(pkt, NULL); pkt = NULL; return -1; } fill_connection_key(pkt, &key); conn = connection_get(s->connection_track_table, &key, &s->conn_list); if (!conn->processing) { g_queue_push_tail(&s->conn_list, conn); conn->processing = true; } if (mode == PRIMARY_IN) { if (!colo_insert_packet(&conn->primary_list, pkt, &conn->pack)) { error_report("colo compare primary queue size too big," "drop packet"); } } else { if (!colo_insert_packet(&conn->secondary_list, pkt, &conn->sack)) { error_report("colo compare secondary queue size too big," "drop packet"); } } *con = conn; return 0; } static inline bool after(uint32_t seq1, uint32_t seq2) { return (int32_t)(seq1 - seq2) > 0; } static void colo_release_primary_pkt(CompareState *s, Packet *pkt) { int ret; ret = compare_chr_send(s, pkt->data, pkt->size, pkt->vnet_hdr_len); if (ret < 0) { error_report("colo send primary packet failed"); } trace_colo_compare_main("packet same and release packet"); packet_destroy(pkt, NULL); } /* * The IP packets sent by primary and secondary * will be compared in here * TODO support ip fragment, Out-Of-Order * return: 0 means packet same * > 0 || < 0 means packet different */ static int colo_compare_packet_payload(Packet *ppkt, Packet *spkt, uint16_t poffset, uint16_t soffset, uint16_t len) { if (trace_event_get_state_backends(TRACE_COLO_COMPARE_MISCOMPARE)) { char pri_ip_src[20], pri_ip_dst[20], sec_ip_src[20], sec_ip_dst[20]; strcpy(pri_ip_src, inet_ntoa(ppkt->ip->ip_src)); strcpy(pri_ip_dst, inet_ntoa(ppkt->ip->ip_dst)); strcpy(sec_ip_src, inet_ntoa(spkt->ip->ip_src)); strcpy(sec_ip_dst, inet_ntoa(spkt->ip->ip_dst)); trace_colo_compare_ip_info(ppkt->size, pri_ip_src, pri_ip_dst, spkt->size, sec_ip_src, sec_ip_dst); } return memcmp(ppkt->data + poffset, spkt->data + soffset, len); } /* * return true means that the payload is consist and * need to make the next comparison, false means do * the checkpoint */ static bool colo_mark_tcp_pkt(Packet *ppkt, Packet *spkt, int8_t *mark, uint32_t max_ack) { *mark = 0; if (ppkt->tcp_seq == spkt->tcp_seq && ppkt->seq_end == spkt->seq_end) { if (colo_compare_packet_payload(ppkt, spkt, ppkt->header_size, spkt->header_size, ppkt->payload_size)) { *mark = COLO_COMPARE_FREE_SECONDARY | COLO_COMPARE_FREE_PRIMARY; return true; } } if (ppkt->tcp_seq == spkt->tcp_seq && ppkt->seq_end == spkt->seq_end) { if (colo_compare_packet_payload(ppkt, spkt, ppkt->header_size, spkt->header_size, ppkt->payload_size)) { *mark = COLO_COMPARE_FREE_SECONDARY | COLO_COMPARE_FREE_PRIMARY; return true; } } /* one part of secondary packet payload still need to be compared */ if (!after(ppkt->seq_end, spkt->seq_end)) { if (colo_compare_packet_payload(ppkt, spkt, ppkt->header_size + ppkt->offset, spkt->header_size + spkt->offset, ppkt->payload_size - ppkt->offset)) { if (!after(ppkt->tcp_ack, max_ack)) { *mark = COLO_COMPARE_FREE_PRIMARY; spkt->offset += ppkt->payload_size - ppkt->offset; return true; } else { /* secondary guest hasn't ack the data, don't send * out this packet */ return false; } } } else { /* primary packet is longer than secondary packet, compare * the same part and mark the primary packet offset */ if (colo_compare_packet_payload(ppkt, spkt, ppkt->header_size + ppkt->offset, spkt->header_size + spkt->offset, spkt->payload_size - spkt->offset)) { *mark = COLO_COMPARE_FREE_SECONDARY; ppkt->offset += spkt->payload_size - spkt->offset; return true; } } return false; } static void colo_compare_tcp(CompareState *s, Connection *conn) { Packet *ppkt = NULL, *spkt = NULL; int8_t mark; /* * If ppkt and spkt have the same payload, but ppkt's ACK * is greater than spkt's ACK, in this case we can not * send the ppkt because it will cause the secondary guest * to miss sending some data in the next. Therefore, we * record the maximum ACK in the current queue at both * primary side and secondary side. Only when the ack is * less than the smaller of the two maximum ack, then we * can ensure that the packet's payload is acknowledged by * primary and secondary. */ uint32_t min_ack = conn->pack > conn->sack ? conn->sack : conn->pack; pri: if (g_queue_is_empty(&conn->primary_list)) { return; } ppkt = g_queue_pop_head(&conn->primary_list); sec: if (g_queue_is_empty(&conn->secondary_list)) { g_queue_push_head(&conn->primary_list, ppkt); return; } spkt = g_queue_pop_head(&conn->secondary_list); if (ppkt->tcp_seq == ppkt->seq_end) { colo_release_primary_pkt(s, ppkt); ppkt = NULL; } if (ppkt && conn->compare_seq && !after(ppkt->seq_end, conn->compare_seq)) { trace_colo_compare_main("pri: this packet has compared"); colo_release_primary_pkt(s, ppkt); ppkt = NULL; } if (spkt->tcp_seq == spkt->seq_end) { packet_destroy(spkt, NULL); if (!ppkt) { goto pri; } else { goto sec; } } else { if (conn->compare_seq && !after(spkt->seq_end, conn->compare_seq)) { trace_colo_compare_main("sec: this packet has compared"); packet_destroy(spkt, NULL); if (!ppkt) { goto pri; } else { goto sec; } } if (!ppkt) { g_queue_push_head(&conn->secondary_list, spkt); goto pri; } } if (colo_mark_tcp_pkt(ppkt, spkt, &mark, min_ack)) { trace_colo_compare_tcp_info("pri", ppkt->tcp_seq, ppkt->tcp_ack, ppkt->header_size, ppkt->payload_size, ppkt->offset, ppkt->flags); trace_colo_compare_tcp_info("sec", spkt->tcp_seq, spkt->tcp_ack, spkt->header_size, spkt->payload_size, spkt->offset, spkt->flags); if (mark == COLO_COMPARE_FREE_PRIMARY) { conn->compare_seq = ppkt->seq_end; colo_release_primary_pkt(s, ppkt); g_queue_push_head(&conn->secondary_list, spkt); goto pri; } if (mark == COLO_COMPARE_FREE_SECONDARY) { conn->compare_seq = spkt->seq_end; packet_destroy(spkt, NULL); goto sec; } if (mark == (COLO_COMPARE_FREE_PRIMARY | COLO_COMPARE_FREE_SECONDARY)) { conn->compare_seq = ppkt->seq_end; colo_release_primary_pkt(s, ppkt); packet_destroy(spkt, NULL); goto pri; } } else { g_queue_push_head(&conn->primary_list, ppkt); g_queue_push_head(&conn->secondary_list, spkt); qemu_hexdump((char *)ppkt->data, stderr, "colo-compare ppkt", ppkt->size); qemu_hexdump((char *)spkt->data, stderr, "colo-compare spkt", spkt->size); /* * colo_compare_inconsistent_notify(); * TODO: notice to checkpoint(); */ } } /* * Called from the compare thread on the primary * for compare udp packet */ static int colo_packet_compare_udp(Packet *spkt, Packet *ppkt) { uint16_t network_header_length = ppkt->ip->ip_hl << 2; uint16_t offset = network_header_length + ETH_HLEN + ppkt->vnet_hdr_len; trace_colo_compare_main("compare udp"); /* * Because of ppkt and spkt are both in the same connection, * The ppkt's src ip, dst ip, src port, dst port, ip_proto all are * same with spkt. In addition, IP header's Identification is a random * field, we can handle it in IP fragmentation function later. * COLO just concern the response net packet payload from primary guest * and secondary guest are same or not, So we ignored all IP header include * other field like TOS,TTL,IP Checksum. we only need to compare * the ip payload here. */ if (ppkt->size != spkt->size) { trace_colo_compare_main("UDP: payload size of packets are different"); return -1; } if (colo_compare_packet_payload(ppkt, spkt, offset, offset, ppkt->size - offset)) { trace_colo_compare_udp_miscompare("primary pkt size", ppkt->size); trace_colo_compare_udp_miscompare("Secondary pkt size", spkt->size); if (trace_event_get_state_backends(TRACE_COLO_COMPARE_MISCOMPARE)) { qemu_hexdump((char *)ppkt->data, stderr, "colo-compare pri pkt", ppkt->size); qemu_hexdump((char *)spkt->data, stderr, "colo-compare sec pkt", spkt->size); } return -1; } else { return 0; } } /* * Called from the compare thread on the primary * for compare icmp packet */ static int colo_packet_compare_icmp(Packet *spkt, Packet *ppkt) { uint16_t network_header_length = ppkt->ip->ip_hl << 2; uint16_t offset = network_header_length + ETH_HLEN + ppkt->vnet_hdr_len; trace_colo_compare_main("compare icmp"); /* * Because of ppkt and spkt are both in the same connection, * The ppkt's src ip, dst ip, src port, dst port, ip_proto all are * same with spkt. In addition, IP header's Identification is a random * field, we can handle it in IP fragmentation function later. * COLO just concern the response net packet payload from primary guest * and secondary guest are same or not, So we ignored all IP header include * other field like TOS,TTL,IP Checksum. we only need to compare * the ip payload here. */ if (ppkt->size != spkt->size) { trace_colo_compare_main("ICMP: payload size of packets are different"); return -1; } if (colo_compare_packet_payload(ppkt, spkt, offset, offset, ppkt->size - offset)) { trace_colo_compare_icmp_miscompare("primary pkt size", ppkt->size); trace_colo_compare_icmp_miscompare("Secondary pkt size", spkt->size); if (trace_event_get_state_backends(TRACE_COLO_COMPARE_MISCOMPARE)) { qemu_hexdump((char *)ppkt->data, stderr, "colo-compare pri pkt", ppkt->size); qemu_hexdump((char *)spkt->data, stderr, "colo-compare sec pkt", spkt->size); } return -1; } else { return 0; } } /* * Called from the compare thread on the primary * for compare other packet */ static int colo_packet_compare_other(Packet *spkt, Packet *ppkt) { uint16_t offset = ppkt->vnet_hdr_len; trace_colo_compare_main("compare other"); if (trace_event_get_state_backends(TRACE_COLO_COMPARE_MISCOMPARE)) { char pri_ip_src[20], pri_ip_dst[20], sec_ip_src[20], sec_ip_dst[20]; strcpy(pri_ip_src, inet_ntoa(ppkt->ip->ip_src)); strcpy(pri_ip_dst, inet_ntoa(ppkt->ip->ip_dst)); strcpy(sec_ip_src, inet_ntoa(spkt->ip->ip_src)); strcpy(sec_ip_dst, inet_ntoa(spkt->ip->ip_dst)); trace_colo_compare_ip_info(ppkt->size, pri_ip_src, pri_ip_dst, spkt->size, sec_ip_src, sec_ip_dst); } if (ppkt->size != spkt->size) { trace_colo_compare_main("Other: payload size of packets are different"); return -1; } return colo_compare_packet_payload(ppkt, spkt, offset, offset, ppkt->size - offset); } static int colo_old_packet_check_one(Packet *pkt, int64_t *check_time) { int64_t now = qemu_clock_get_ms(QEMU_CLOCK_HOST); if ((now - pkt->creation_ms) > (*check_time)) { trace_colo_old_packet_check_found(pkt->creation_ms); return 0; } else { return 1; } } static int colo_old_packet_check_one_conn(Connection *conn, void *user_data) { GList *result = NULL; int64_t check_time = REGULAR_PACKET_CHECK_MS; result = g_queue_find_custom(&conn->primary_list, &check_time, (GCompareFunc)colo_old_packet_check_one); if (result) { /* Do checkpoint will flush old packet */ /* * TODO: Notify colo frame to do checkpoint. * colo_compare_inconsistent_notify(); */ return 0; } return 1; } /* * Look for old packets that the secondary hasn't matched, * if we have some then we have to checkpoint to wake * the secondary up. */ static void colo_old_packet_check(void *opaque) { CompareState *s = opaque; /* * If we find one old packet, stop finding job and notify * COLO frame do checkpoint. */ g_queue_find_custom(&s->conn_list, NULL, (GCompareFunc)colo_old_packet_check_one_conn); } static void colo_compare_packet(CompareState *s, Connection *conn, int (*HandlePacket)(Packet *spkt, Packet *ppkt)) { Packet *pkt = NULL; GList *result = NULL; while (!g_queue_is_empty(&conn->primary_list) && !g_queue_is_empty(&conn->secondary_list)) { pkt = g_queue_pop_head(&conn->primary_list); result = g_queue_find_custom(&conn->secondary_list, pkt, (GCompareFunc)HandlePacket); if (result) { colo_release_primary_pkt(s, pkt); g_queue_remove(&conn->secondary_list, result->data); } else { /* * If one packet arrive late, the secondary_list or * primary_list will be empty, so we can't compare it * until next comparison. */ trace_colo_compare_main("packet different"); g_queue_push_head(&conn->primary_list, pkt); /* TODO: colo_notify_checkpoint();*/ break; } } } /* * Called from the compare thread on the primary * for compare packet with secondary list of the * specified connection when a new packet was * queued to it. */ static void colo_compare_connection(void *opaque, void *user_data) { CompareState *s = user_data; Connection *conn = opaque; switch (conn->ip_proto) { case IPPROTO_TCP: colo_compare_tcp(s, conn); break; case IPPROTO_UDP: colo_compare_packet(s, conn, colo_packet_compare_udp); break; case IPPROTO_ICMP: colo_compare_packet(s, conn, colo_packet_compare_icmp); break; default: colo_compare_packet(s, conn, colo_packet_compare_other); break; } } static int compare_chr_send(CompareState *s, const uint8_t *buf, uint32_t size, uint32_t vnet_hdr_len) { int ret = 0; uint32_t len = htonl(size); if (!size) { return 0; } ret = qemu_chr_fe_write_all(&s->chr_out, (uint8_t *)&len, sizeof(len)); if (ret != sizeof(len)) { goto err; } if (s->vnet_hdr) { /* * We send vnet header len make other module(like filter-redirector) * know how to parse net packet correctly. */ len = htonl(vnet_hdr_len); ret = qemu_chr_fe_write_all(&s->chr_out, (uint8_t *)&len, sizeof(len)); if (ret != sizeof(len)) { goto err; } } ret = qemu_chr_fe_write_all(&s->chr_out, (uint8_t *)buf, size); if (ret != size) { goto err; } return 0; err: return ret < 0 ? ret : -EIO; } static int compare_chr_can_read(void *opaque) { return COMPARE_READ_LEN_MAX; } /* * Called from the main thread on the primary for packets * arriving over the socket from the primary. */ static void compare_pri_chr_in(void *opaque, const uint8_t *buf, int size) { CompareState *s = COLO_COMPARE(opaque); int ret; ret = net_fill_rstate(&s->pri_rs, buf, size); if (ret == -1) { qemu_chr_fe_set_handlers(&s->chr_pri_in, NULL, NULL, NULL, NULL, NULL, NULL, true); error_report("colo-compare primary_in error"); } } /* * Called from the main thread on the primary for packets * arriving over the socket from the secondary. */ static void compare_sec_chr_in(void *opaque, const uint8_t *buf, int size) { CompareState *s = COLO_COMPARE(opaque); int ret; ret = net_fill_rstate(&s->sec_rs, buf, size); if (ret == -1) { qemu_chr_fe_set_handlers(&s->chr_sec_in, NULL, NULL, NULL, NULL, NULL, NULL, true); error_report("colo-compare secondary_in error"); } } /* * Check old packet regularly so it can watch for any packets * that the secondary hasn't produced equivalents of. */ static void check_old_packet_regular(void *opaque) { CompareState *s = opaque; /* if have old packet we will notify checkpoint */ colo_old_packet_check(s); timer_mod(s->packet_check_timer, qemu_clock_get_ms(QEMU_CLOCK_VIRTUAL) + REGULAR_PACKET_CHECK_MS); } static void colo_compare_timer_init(CompareState *s) { AioContext *ctx = iothread_get_aio_context(s->iothread); s->packet_check_timer = aio_timer_new(ctx, QEMU_CLOCK_VIRTUAL, SCALE_MS, check_old_packet_regular, s); timer_mod(s->packet_check_timer, qemu_clock_get_ms(QEMU_CLOCK_VIRTUAL) + REGULAR_PACKET_CHECK_MS); } static void colo_compare_timer_del(CompareState *s) { if (s->packet_check_timer) { timer_del(s->packet_check_timer); timer_free(s->packet_check_timer); s->packet_check_timer = NULL; } } static void colo_compare_iothread(CompareState *s) { object_ref(OBJECT(s->iothread)); s->worker_context = iothread_get_g_main_context(s->iothread); qemu_chr_fe_set_handlers(&s->chr_pri_in, compare_chr_can_read, compare_pri_chr_in, NULL, NULL, s, s->worker_context, true); qemu_chr_fe_set_handlers(&s->chr_sec_in, compare_chr_can_read, compare_sec_chr_in, NULL, NULL, s, s->worker_context, true); colo_compare_timer_init(s); } static char *compare_get_pri_indev(Object *obj, Error **errp) { CompareState *s = COLO_COMPARE(obj); return g_strdup(s->pri_indev); } static void compare_set_pri_indev(Object *obj, const char *value, Error **errp) { CompareState *s = COLO_COMPARE(obj); g_free(s->pri_indev); s->pri_indev = g_strdup(value); } static char *compare_get_sec_indev(Object *obj, Error **errp) { CompareState *s = COLO_COMPARE(obj); return g_strdup(s->sec_indev); } static void compare_set_sec_indev(Object *obj, const char *value, Error **errp) { CompareState *s = COLO_COMPARE(obj); g_free(s->sec_indev); s->sec_indev = g_strdup(value); } static char *compare_get_outdev(Object *obj, Error **errp) { CompareState *s = COLO_COMPARE(obj); return g_strdup(s->outdev); } static void compare_set_outdev(Object *obj, const char *value, Error **errp) { CompareState *s = COLO_COMPARE(obj); g_free(s->outdev); s->outdev = g_strdup(value); } static bool compare_get_vnet_hdr(Object *obj, Error **errp) { CompareState *s = COLO_COMPARE(obj); return s->vnet_hdr; } static void compare_set_vnet_hdr(Object *obj, bool value, Error **errp) { CompareState *s = COLO_COMPARE(obj); s->vnet_hdr = value; } static void compare_pri_rs_finalize(SocketReadState *pri_rs) { CompareState *s = container_of(pri_rs, CompareState, pri_rs); Connection *conn = NULL; if (packet_enqueue(s, PRIMARY_IN, &conn)) { trace_colo_compare_main("primary: unsupported packet in"); compare_chr_send(s, pri_rs->buf, pri_rs->packet_len, pri_rs->vnet_hdr_len); } else { /* compare packet in the specified connection */ colo_compare_connection(conn, s); } } static void compare_sec_rs_finalize(SocketReadState *sec_rs) { CompareState *s = container_of(sec_rs, CompareState, sec_rs); Connection *conn = NULL; if (packet_enqueue(s, SECONDARY_IN, &conn)) { trace_colo_compare_main("secondary: unsupported packet in"); } else { /* compare packet in the specified connection */ colo_compare_connection(conn, s); } } /* * Return 0 is success. * Return 1 is failed. */ static int find_and_check_chardev(Chardev **chr, char *chr_name, Error **errp) { *chr = qemu_chr_find(chr_name); if (*chr == NULL) { error_setg(errp, "Device '%s' not found", chr_name); return 1; } if (!qemu_chr_has_feature(*chr, QEMU_CHAR_FEATURE_RECONNECTABLE)) { error_setg(errp, "chardev \"%s\" is not reconnectable", chr_name); return 1; } return 0; } /* * Called from the main thread on the primary * to setup colo-compare. */ static void colo_compare_complete(UserCreatable *uc, Error **errp) { CompareState *s = COLO_COMPARE(uc); Chardev *chr; if (!s->pri_indev || !s->sec_indev || !s->outdev || !s->iothread) { error_setg(errp, "colo compare needs 'primary_in' ," "'secondary_in','outdev','iothread' property set"); return; } else if (!strcmp(s->pri_indev, s->outdev) || !strcmp(s->sec_indev, s->outdev) || !strcmp(s->pri_indev, s->sec_indev)) { error_setg(errp, "'indev' and 'outdev' could not be same " "for compare module"); return; } if (find_and_check_chardev(&chr, s->pri_indev, errp) || !qemu_chr_fe_init(&s->chr_pri_in, chr, errp)) { return; } if (find_and_check_chardev(&chr, s->sec_indev, errp) || !qemu_chr_fe_init(&s->chr_sec_in, chr, errp)) { return; } if (find_and_check_chardev(&chr, s->outdev, errp) || !qemu_chr_fe_init(&s->chr_out, chr, errp)) { return; } net_socket_rs_init(&s->pri_rs, compare_pri_rs_finalize, s->vnet_hdr); net_socket_rs_init(&s->sec_rs, compare_sec_rs_finalize, s->vnet_hdr); g_queue_init(&s->conn_list); s->connection_track_table = g_hash_table_new_full(connection_key_hash, connection_key_equal, g_free, connection_destroy); colo_compare_iothread(s); return; } static void colo_flush_packets(void *opaque, void *user_data) { CompareState *s = user_data; Connection *conn = opaque; Packet *pkt = NULL; while (!g_queue_is_empty(&conn->primary_list)) { pkt = g_queue_pop_head(&conn->primary_list); compare_chr_send(s, pkt->data, pkt->size, pkt->vnet_hdr_len); packet_destroy(pkt, NULL); } while (!g_queue_is_empty(&conn->secondary_list)) { pkt = g_queue_pop_head(&conn->secondary_list); packet_destroy(pkt, NULL); } } static void colo_compare_class_init(ObjectClass *oc, void *data) { UserCreatableClass *ucc = USER_CREATABLE_CLASS(oc); ucc->complete = colo_compare_complete; } static void colo_compare_init(Object *obj) { CompareState *s = COLO_COMPARE(obj); object_property_add_str(obj, "primary_in", compare_get_pri_indev, compare_set_pri_indev, NULL); object_property_add_str(obj, "secondary_in", compare_get_sec_indev, compare_set_sec_indev, NULL); object_property_add_str(obj, "outdev", compare_get_outdev, compare_set_outdev, NULL); object_property_add_link(obj, "iothread", TYPE_IOTHREAD, (Object **)&s->iothread, object_property_allow_set_link, OBJ_PROP_LINK_UNREF_ON_RELEASE, NULL); s->vnet_hdr = false; object_property_add_bool(obj, "vnet_hdr_support", compare_get_vnet_hdr, compare_set_vnet_hdr, NULL); } static void colo_compare_finalize(Object *obj) { CompareState *s = COLO_COMPARE(obj); qemu_chr_fe_deinit(&s->chr_pri_in, false); qemu_chr_fe_deinit(&s->chr_sec_in, false); qemu_chr_fe_deinit(&s->chr_out, false); if (s->iothread) { colo_compare_timer_del(s); } /* Release all unhandled packets after compare thead exited */ g_queue_foreach(&s->conn_list, colo_flush_packets, s); g_queue_clear(&s->conn_list); if (s->connection_track_table) { g_hash_table_destroy(s->connection_track_table); } if (s->iothread) { object_unref(OBJECT(s->iothread)); } g_free(s->pri_indev); g_free(s->sec_indev); g_free(s->outdev); } static const TypeInfo colo_compare_info = { .name = TYPE_COLO_COMPARE, .parent = TYPE_OBJECT, .instance_size = sizeof(CompareState), .instance_init = colo_compare_init, .instance_finalize = colo_compare_finalize, .class_size = sizeof(CompareClass), .class_init = colo_compare_class_init, .interfaces = (InterfaceInfo[]) { { TYPE_USER_CREATABLE }, { } } }; static void register_types(void) { type_register_static(&colo_compare_info); } type_init(register_types);