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Diffstat (limited to 'lib/link_state.c')
| -rw-r--r-- | lib/link_state.c | 2711 |
1 files changed, 2711 insertions, 0 deletions
diff --git a/lib/link_state.c b/lib/link_state.c new file mode 100644 index 0000000..7c770e2 --- /dev/null +++ b/lib/link_state.c @@ -0,0 +1,2711 @@ +/* + * Link State Database - link_state.c + * + * Author: Olivier Dugeon <olivier.dugeon@orange.com> + * + * Copyright (C) 2020 Orange http://www.orange.com + * + * This file is part of Free Range Routing (FRR). + * + * FRR is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; either version 2, or (at your option) any + * later version. + * + * FRR is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; see the file COPYING; if not, write to the Free Software + * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + */ + +#include <zebra.h> + +#include "if.h" +#include "linklist.h" +#include "log.h" +#include "command.h" +#include "termtable.h" +#include "memory.h" +#include "prefix.h" +#include "table.h" +#include "vty.h" +#include "zclient.h" +#include "stream.h" +#include "sbuf.h" +#include "printfrr.h" +#include <lib/json.h> +#include "link_state.h" + +/* Link State Memory allocation */ +DEFINE_MTYPE_STATIC(LIB, LS_DB, "Link State Database"); + +/** + * Link State Node management functions + */ +int ls_node_id_same(struct ls_node_id i1, struct ls_node_id i2) +{ + if (i1.origin != i2.origin) + return 0; + + if (i1.origin == UNKNOWN) + return 1; + + if (i1.origin == ISIS_L1 || i1.origin == ISIS_L2) { + if (memcmp(i1.id.iso.sys_id, i2.id.iso.sys_id, ISO_SYS_ID_LEN) + != 0 + || (i1.id.iso.level != i2.id.iso.level)) + return 0; + } else { + if (!IPV4_ADDR_SAME(&i1.id.ip.addr, &i2.id.ip.addr) + || !IPV4_ADDR_SAME(&i1.id.ip.area_id, &i2.id.ip.area_id)) + return 1; + } + + return 1; +} + +struct ls_node *ls_node_new(struct ls_node_id adv, struct in_addr rid, + struct in6_addr rid6) +{ + struct ls_node *new; + + if (adv.origin == UNKNOWN) + return NULL; + + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_node)); + new->adv = adv; + if (!IPV4_NET0(rid.s_addr)) { + new->router_id = rid; + SET_FLAG(new->flags, LS_NODE_ROUTER_ID); + } else { + if (adv.origin == OSPFv2 || adv.origin == STATIC + || adv.origin == DIRECT) { + new->router_id = adv.id.ip.addr; + SET_FLAG(new->flags, LS_NODE_ROUTER_ID); + } + } + if (!IN6_IS_ADDR_UNSPECIFIED(&rid6)) { + new->router_id6 = rid6; + SET_FLAG(new->flags, LS_NODE_ROUTER_ID6); + } + return new; +} + +void ls_node_del(struct ls_node *node) +{ + if (!node) + return; + + XFREE(MTYPE_LS_DB, node); +} + +int ls_node_same(struct ls_node *n1, struct ls_node *n2) +{ + /* First, check pointer */ + if ((n1 && !n2) || (!n1 && n2)) + return 0; + + if (n1 == n2) + return 1; + + /* Then, verify Flags and Origin */ + if (n1->flags != n2->flags) + return 0; + + if (!ls_node_id_same(n1->adv, n2->adv)) + return 0; + + /* Finally, check each individual parameters that are valid */ + if (CHECK_FLAG(n1->flags, LS_NODE_NAME) + && (strncmp(n1->name, n2->name, MAX_NAME_LENGTH) != 0)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_ROUTER_ID) + && !IPV4_ADDR_SAME(&n1->router_id, &n2->router_id)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_ROUTER_ID6) + && !IPV6_ADDR_SAME(&n1->router_id6, &n2->router_id6)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_FLAG) + && (n1->node_flag != n2->node_flag)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_TYPE) && (n1->type != n2->type)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_AS_NUMBER) + && (n1->as_number != n2->as_number)) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_SR)) { + if (n1->srgb.flag != n2->srgb.flag + || n1->srgb.lower_bound != n2->srgb.lower_bound + || n1->srgb.range_size != n2->srgb.range_size) + return 0; + if ((n1->algo[0] != n2->algo[0]) + || (n1->algo[1] != n2->algo[1])) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_SRLB) + && ((n1->srlb.lower_bound != n2->srlb.lower_bound + || n1->srlb.range_size != n2->srlb.range_size))) + return 0; + if (CHECK_FLAG(n1->flags, LS_NODE_MSD) && (n1->msd != n2->msd)) + return 0; + } + + /* OK, n1 & n2 are equal */ + return 1; +} + +/** + * Link State Attributes management functions + */ +struct ls_attributes *ls_attributes_new(struct ls_node_id adv, + struct in_addr local, + struct in6_addr local6, + uint32_t local_id) +{ + struct ls_attributes *new; + + if (adv.origin == UNKNOWN) + return NULL; + + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_attributes)); + new->adv = adv; + if (!IPV4_NET0(local.s_addr)) { + new->standard.local = local; + SET_FLAG(new->flags, LS_ATTR_LOCAL_ADDR); + } + if (!IN6_IS_ADDR_UNSPECIFIED(&local6)) { + new->standard.local6 = local6; + SET_FLAG(new->flags, LS_ATTR_LOCAL_ADDR6); + } + if (local_id != 0) { + new->standard.local_id = local_id; + SET_FLAG(new->flags, LS_ATTR_LOCAL_ID); + } + + /* Check that almost one identifier is set */ + if (!CHECK_FLAG(new->flags, LS_ATTR_LOCAL_ADDR | LS_ATTR_LOCAL_ADDR6 + | LS_ATTR_LOCAL_ID)) { + XFREE(MTYPE_LS_DB, new); + return NULL; + } + + return new; +} + +void ls_attributes_srlg_del(struct ls_attributes *attr) +{ + if (!attr) + return; + + if (attr->srlgs) + XFREE(MTYPE_LS_DB, attr->srlgs); + + attr->srlgs = NULL; + attr->srlg_len = 0; + UNSET_FLAG(attr->flags, LS_ATTR_SRLG); +} + +void ls_attributes_del(struct ls_attributes *attr) +{ + if (!attr) + return; + + ls_attributes_srlg_del(attr); + + XFREE(MTYPE_LS_DB, attr); +} + +int ls_attributes_same(struct ls_attributes *l1, struct ls_attributes *l2) +{ + /* First, check pointer */ + if ((l1 && !l2) || (!l1 && l2)) + return 0; + + if (l1 == l2) + return 1; + + /* Then, verify Flags and Origin */ + if (l1->flags != l2->flags) + return 0; + + if (!ls_node_id_same(l1->adv, l2->adv)) + return 0; + + /* Finally, check each individual parameters that are valid */ + if (CHECK_FLAG(l1->flags, LS_ATTR_NAME) + && strncmp(l1->name, l2->name, MAX_NAME_LENGTH) != 0) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_METRIC) && (l1->metric != l2->metric)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_TE_METRIC) + && (l1->standard.te_metric != l2->standard.te_metric)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_ADM_GRP) + && (l1->standard.admin_group != l2->standard.admin_group)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_LOCAL_ADDR) + && !IPV4_ADDR_SAME(&l1->standard.local, &l2->standard.local)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_NEIGH_ADDR) + && !IPV4_ADDR_SAME(&l1->standard.remote, &l2->standard.remote)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_LOCAL_ADDR6) + && !IPV6_ADDR_SAME(&l1->standard.local6, &l2->standard.local6)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_NEIGH_ADDR6) + && !IPV6_ADDR_SAME(&l1->standard.remote6, &l2->standard.remote6)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_LOCAL_ID) + && (l1->standard.local_id != l2->standard.local_id)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_NEIGH_ID) + && (l1->standard.remote_id != l2->standard.remote_id)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_MAX_BW) + && (l1->standard.max_bw != l2->standard.max_bw)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_MAX_RSV_BW) + && (l1->standard.max_rsv_bw != l2->standard.max_rsv_bw)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_UNRSV_BW) + && memcmp(&l1->standard.unrsv_bw, &l2->standard.unrsv_bw, 32) != 0) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_REMOTE_AS) + && (l1->standard.remote_as != l2->standard.remote_as)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_REMOTE_ADDR) + && !IPV4_ADDR_SAME(&l1->standard.remote_addr, + &l2->standard.remote_addr)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_REMOTE_ADDR6) + && !IPV6_ADDR_SAME(&l1->standard.remote_addr6, + &l2->standard.remote_addr6)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_DELAY) + && (l1->extended.delay != l2->extended.delay)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_MIN_MAX_DELAY) + && ((l1->extended.min_delay != l2->extended.min_delay) + || (l1->extended.max_delay != l2->extended.max_delay))) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_JITTER) + && (l1->extended.jitter != l2->extended.jitter)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_PACKET_LOSS) + && (l1->extended.pkt_loss != l2->extended.pkt_loss)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_AVA_BW) + && (l1->extended.ava_bw != l2->extended.ava_bw)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_RSV_BW) + && (l1->extended.rsv_bw != l2->extended.rsv_bw)) + return 0; + if (CHECK_FLAG(l1->flags, LS_ATTR_USE_BW) + && (l1->extended.used_bw != l2->extended.used_bw)) + return 0; + for (int i = 0; i < LS_ADJ_MAX; i++) { + if (!CHECK_FLAG(l1->flags, (LS_ATTR_ADJ_SID << i))) + continue; + if ((l1->adj_sid[i].sid != l2->adj_sid[i].sid) + || (l1->adj_sid[i].flags != l2->adj_sid[i].flags) + || (l1->adj_sid[i].weight != l2->adj_sid[i].weight)) + return 0; + if (((l1->adv.origin == ISIS_L1) || (l1->adv.origin == ISIS_L2)) + && (memcmp(&l1->adj_sid[i].neighbor.sysid, + &l2->adj_sid[i].neighbor.sysid, ISO_SYS_ID_LEN) + != 0)) + return 0; + if (((l1->adv.origin == OSPFv2) || (l1->adv.origin == STATIC) + || (l1->adv.origin == DIRECT)) + && (i < ADJ_PRI_IPV6) + && (!IPV4_ADDR_SAME(&l1->adj_sid[i].neighbor.addr, + &l2->adj_sid[i].neighbor.addr))) + return 0; + } + if (CHECK_FLAG(l1->flags, LS_ATTR_SRLG) + && ((l1->srlg_len != l2->srlg_len) + || memcmp(l1->srlgs, l2->srlgs, + l1->srlg_len * sizeof(uint32_t)) + != 0)) + return 0; + + /* OK, l1 & l2 are equal */ + return 1; +} + +/** + * Link State prefix management functions + */ +struct ls_prefix *ls_prefix_new(struct ls_node_id adv, struct prefix p) +{ + struct ls_prefix *new; + + if (adv.origin == UNKNOWN) + return NULL; + + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_attributes)); + new->adv = adv; + new->pref = p; + + return new; +} + +void ls_prefix_del(struct ls_prefix *pref) +{ + if (!pref) + return; + + XFREE(MTYPE_LS_DB, pref); +} + +int ls_prefix_same(struct ls_prefix *p1, struct ls_prefix *p2) +{ + /* First, check pointer */ + if ((p1 && !p2) || (!p1 && p2)) + return 0; + + if (p1 == p2) + return 1; + + /* Then, verify Flags and Origin */ + if (p1->flags != p2->flags) + return 0; + + if (!ls_node_id_same(p1->adv, p2->adv)) + return 0; + + /* Finally, check each individual parameters that are valid */ + if (prefix_same(&p1->pref, &p2->pref) == 0) + return 0; + if (CHECK_FLAG(p1->flags, LS_PREF_IGP_FLAG) + && (p1->igp_flag != p2->igp_flag)) + return 0; + if (CHECK_FLAG(p1->flags, LS_PREF_ROUTE_TAG) + && (p1->route_tag != p2->route_tag)) + return 0; + if (CHECK_FLAG(p1->flags, LS_PREF_EXTENDED_TAG) + && (p1->extended_tag != p2->extended_tag)) + return 0; + if (CHECK_FLAG(p1->flags, LS_PREF_METRIC) && (p1->metric != p2->metric)) + return 0; + if (CHECK_FLAG(p1->flags, LS_PREF_SR)) { + if ((p1->sr.algo != p2->sr.algo) || (p1->sr.sid != p2->sr.sid) + || (p1->sr.sid_flag != p2->sr.sid_flag)) + return 0; + } + + /* OK, p1 & p2 are equal */ + return 1; +} + +/** + * Link State Vertices management functions + */ +uint64_t sysid_to_key(const uint8_t sysid[ISO_SYS_ID_LEN]) +{ + uint64_t key = 0; + +#if BYTE_ORDER == LITTLE_ENDIAN + uint8_t *byte = (uint8_t *)&key; + + for (int i = 0; i < ISO_SYS_ID_LEN; i++) + byte[i] = sysid[ISO_SYS_ID_LEN - i - 1]; + + byte[6] = 0; + byte[7] = 0; +#else + memcpy(&key, sysid, ISO_SYS_ID_LEN); +#endif + + return key; +} + +struct ls_vertex *ls_vertex_add(struct ls_ted *ted, struct ls_node *node) +{ + struct ls_vertex *new; + uint64_t key = 0; + + if ((ted == NULL) || (node == NULL)) + return NULL; + + /* set Key as the IPv4/Ipv6 Router ID or ISO System ID */ + switch (node->adv.origin) { + case OSPFv2: + case STATIC: + case DIRECT: + key = ((uint64_t)ntohl(node->adv.id.ip.addr.s_addr)) + & 0xffffffff; + break; + case ISIS_L1: + case ISIS_L2: + key = sysid_to_key(node->adv.id.iso.sys_id); + break; + default: + key = 0; + break; + } + + /* Check that key is valid */ + if (key == 0) + return NULL; + + /* Create Vertex and add it to the TED */ + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_vertex)); + if (!new) + return NULL; + + new->key = key; + new->node = node; + new->status = NEW; + new->type = VERTEX; + new->incoming_edges = list_new(); + new->incoming_edges->cmp = (int (*)(void *, void *))edge_cmp; + new->outgoing_edges = list_new(); + new->outgoing_edges->cmp = (int (*)(void *, void *))edge_cmp; + new->prefixes = list_new(); + new->prefixes->cmp = (int (*)(void *, void *))subnet_cmp; + vertices_add(&ted->vertices, new); + + return new; +} + +void ls_vertex_del(struct ls_ted *ted, struct ls_vertex *vertex) +{ + struct listnode *node, *nnode; + struct ls_edge *edge; + struct ls_subnet *subnet; + + if (!ted || !vertex) + return; + + /* Remove outgoing Edges and list */ + for (ALL_LIST_ELEMENTS(vertex->outgoing_edges, node, nnode, edge)) + ls_edge_del_all(ted, edge); + list_delete(&vertex->outgoing_edges); + + /* Disconnect incoming Edges and remove list */ + for (ALL_LIST_ELEMENTS(vertex->incoming_edges, node, nnode, edge)) { + ls_disconnect(vertex, edge, false); + if (edge->source == NULL) + ls_edge_del_all(ted, edge); + } + list_delete(&vertex->incoming_edges); + + /* Remove subnet and list */ + for (ALL_LIST_ELEMENTS(vertex->prefixes, node, nnode, subnet)) + ls_subnet_del_all(ted, subnet); + list_delete(&vertex->prefixes); + + /* Then remove Vertex from Link State Data Base and free memory */ + vertices_del(&ted->vertices, vertex); + XFREE(MTYPE_LS_DB, vertex); + vertex = NULL; +} + +void ls_vertex_del_all(struct ls_ted *ted, struct ls_vertex *vertex) +{ + if (!ted || !vertex) + return; + + /* First remove associated Link State Node */ + ls_node_del(vertex->node); + + /* Then, Vertex itself */ + ls_vertex_del(ted, vertex); +} + +struct ls_vertex *ls_vertex_update(struct ls_ted *ted, struct ls_node *node) +{ + struct ls_vertex *old; + + if (node == NULL) + return NULL; + + old = ls_find_vertex_by_id(ted, node->adv); + if (old) { + if (!ls_node_same(old->node, node)) { + ls_node_del(old->node); + old->node = node; + } + old->status = UPDATE; + return old; + } + + return ls_vertex_add(ted, node); +} + +struct ls_vertex *ls_find_vertex_by_key(struct ls_ted *ted, const uint64_t key) +{ + struct ls_vertex vertex = {}; + + if (key == 0) + return NULL; + + vertex.key = key; + return vertices_find(&ted->vertices, &vertex); +} + +struct ls_vertex *ls_find_vertex_by_id(struct ls_ted *ted, + struct ls_node_id nid) +{ + struct ls_vertex vertex = {}; + + vertex.key = 0; + switch (nid.origin) { + case OSPFv2: + case STATIC: + case DIRECT: + vertex.key = + ((uint64_t)ntohl(nid.id.ip.addr.s_addr)) & 0xffffffff; + break; + case ISIS_L1: + case ISIS_L2: + vertex.key = sysid_to_key(nid.id.iso.sys_id); + break; + default: + return NULL; + } + + return vertices_find(&ted->vertices, &vertex); +} + +int ls_vertex_same(struct ls_vertex *v1, struct ls_vertex *v2) +{ + if ((v1 && !v2) || (!v1 && v2)) + return 0; + + if (!v1 && !v2) + return 1; + + if (v1->key != v2->key) + return 0; + + if (v1->node == v2->node) + return 1; + + return ls_node_same(v1->node, v2->node); +} + +void ls_vertex_clean(struct ls_ted *ted, struct ls_vertex *vertex, + struct zclient *zclient) +{ + struct listnode *node, *nnode; + struct ls_edge *edge; + struct ls_subnet *subnet; + struct ls_message msg; + + /* Remove Orphan Edge ... */ + for (ALL_LIST_ELEMENTS(vertex->outgoing_edges, node, nnode, edge)) { + if (edge->status == ORPHAN) { + if (zclient) { + edge->status = DELETE; + ls_edge2msg(&msg, edge); + ls_send_msg(zclient, &msg, NULL); + } + ls_edge_del_all(ted, edge); + } + } + for (ALL_LIST_ELEMENTS(vertex->incoming_edges, node, nnode, edge)) { + if (edge->status == ORPHAN) { + if (zclient) { + edge->status = DELETE; + ls_edge2msg(&msg, edge); + ls_send_msg(zclient, &msg, NULL); + } + ls_edge_del_all(ted, edge); + } + } + + /* ... and Subnet from the Vertex */ + for (ALL_LIST_ELEMENTS(vertex->prefixes, node, nnode, subnet)) { + if (subnet->status == ORPHAN) { + if (zclient) { + subnet->status = DELETE; + ls_subnet2msg(&msg, subnet); + ls_send_msg(zclient, &msg, NULL); + } + ls_subnet_del_all(ted, subnet); + } + } +} + +/** + * Link State Edges management functions + */ + +/** + * This function allows to connect the Edge to the vertices present in the TED. + * A temporary vertex that corresponds to the source of this Edge i.e. the + * advertised router, is created if not found in the Data Base. If a Edge that + * corresponds to the reverse path is found, the Edge is attached to the + * destination vertex as destination and reverse Edge is attached to the source + * vertex as source. + * + * @param ted Link State Data Base + * @param edge Link State Edge to be attached + */ +static void ls_edge_connect_to(struct ls_ted *ted, struct ls_edge *edge) +{ + struct ls_vertex *vertex = NULL; + struct ls_node *node; + struct ls_edge *dst; + const struct in_addr inaddr_any = {.s_addr = INADDR_ANY}; + + /* First, search if there is a Vertex that correspond to the Node ID */ + vertex = ls_find_vertex_by_id(ted, edge->attributes->adv); + if (vertex == NULL) { + /* Create a new temporary Node & Vertex if not found */ + node = ls_node_new(edge->attributes->adv, inaddr_any, + in6addr_any); + vertex = ls_vertex_add(ted, node); + } + /* and attach the edge as source to the vertex */ + listnode_add_sort_nodup(vertex->outgoing_edges, edge); + edge->source = vertex; + + /* Then search if there is a reverse Edge */ + dst = ls_find_edge_by_destination(ted, edge->attributes); + /* attach the destination edge to the vertex */ + if (dst) { + listnode_add_sort_nodup(vertex->incoming_edges, dst); + dst->destination = vertex; + /* and destination vertex to this edge */ + vertex = dst->source; + listnode_add_sort_nodup(vertex->incoming_edges, edge); + edge->destination = vertex; + } +} + +static uint64_t get_edge_key(struct ls_attributes *attr, bool dst) +{ + uint64_t key = 0; + struct ls_standard *std; + + if (!attr) + return key; + + std = &attr->standard; + + if (dst) { + /* Key is the IPv4 remote address */ + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR)) + key = ((uint64_t)ntohl(std->remote.s_addr)) + & 0xffffffff; + /* or the 64 bits LSB of IPv6 remote address */ + else if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR6)) + key = ((uint64_t)ntohl(std->remote6.s6_addr32[2]) << 32 + | (uint64_t)ntohl(std->remote6.s6_addr32[3])); + /* of remote identifier if no IP addresses are defined */ + else if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ID)) + key = (((uint64_t)std->remote_id) & 0xffffffff) + | ((uint64_t)std->local_id << 32); + } else { + /* Key is the IPv4 local address */ + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) + key = ((uint64_t)ntohl(std->local.s_addr)) & 0xffffffff; + /* or the 64 bits LSB of IPv6 local address */ + else if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) + key = ((uint64_t)ntohl(std->local6.s6_addr32[2]) << 32 + | (uint64_t)ntohl(std->local6.s6_addr32[3])); + /* of local identifier if no IP addresses are defined */ + else if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ID)) + key = (((uint64_t)std->local_id) & 0xffffffff) + | ((uint64_t)std->remote_id << 32); + } + + return key; +} + +struct ls_edge *ls_edge_add(struct ls_ted *ted, + struct ls_attributes *attributes) +{ + struct ls_edge *new; + uint64_t key = 0; + + if (attributes == NULL) + return NULL; + + key = get_edge_key(attributes, false); + if (key == 0) + return NULL; + + /* Create Edge and add it to the TED */ + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_edge)); + + new->attributes = attributes; + new->key = key; + new->status = NEW; + new->type = EDGE; + edges_add(&ted->edges, new); + + /* Finally, connect Edge to Vertices */ + ls_edge_connect_to(ted, new); + + return new; +} + +struct ls_edge *ls_find_edge_by_key(struct ls_ted *ted, const uint64_t key) +{ + struct ls_edge edge = {}; + + if (key == 0) + return NULL; + + edge.key = key; + return edges_find(&ted->edges, &edge); +} + +struct ls_edge *ls_find_edge_by_source(struct ls_ted *ted, + struct ls_attributes *attributes) +{ + struct ls_edge edge = {}; + + if (attributes == NULL) + return NULL; + + edge.key = get_edge_key(attributes, false); + if (edge.key == 0) + return NULL; + + return edges_find(&ted->edges, &edge); +} + +struct ls_edge *ls_find_edge_by_destination(struct ls_ted *ted, + struct ls_attributes *attributes) +{ + struct ls_edge edge = {}; + + if (attributes == NULL) + return NULL; + + edge.key = get_edge_key(attributes, true); + if (edge.key == 0) + return NULL; + + return edges_find(&ted->edges, &edge); +} + +struct ls_edge *ls_edge_update(struct ls_ted *ted, + struct ls_attributes *attributes) +{ + struct ls_edge *old; + + if (attributes == NULL) + return NULL; + + /* First, search for an existing Edge */ + old = ls_find_edge_by_source(ted, attributes); + if (old) { + /* Check if attributes are similar */ + if (!ls_attributes_same(old->attributes, attributes)) { + ls_attributes_del(old->attributes); + old->attributes = attributes; + } + old->status = UPDATE; + return old; + } + + /* If not found, add new Edge from the attributes */ + return ls_edge_add(ted, attributes); +} + +int ls_edge_same(struct ls_edge *e1, struct ls_edge *e2) +{ + if ((e1 && !e2) || (!e1 && e2)) + return 0; + + if (!e1 && !e2) + return 1; + + if (e1->key != e2->key) + return 0; + + if (e1->attributes == e2->attributes) + return 1; + + return ls_attributes_same(e1->attributes, e2->attributes); +} + +void ls_edge_del(struct ls_ted *ted, struct ls_edge *edge) +{ + if (!ted || !edge) + return; + + /* Fist disconnect Edge from Vertices */ + ls_disconnect_edge(edge); + /* Then remove it from the Data Base */ + edges_del(&ted->edges, edge); + XFREE(MTYPE_LS_DB, edge); +} + +void ls_edge_del_all(struct ls_ted *ted, struct ls_edge *edge) +{ + if (!ted || !edge) + return; + + /* Remove associated Link State Attributes */ + ls_attributes_del(edge->attributes); + /* Then Edge itself */ + ls_edge_del(ted, edge); +} + +/** + * Link State Subnet Management functions. + */ +struct ls_subnet *ls_subnet_add(struct ls_ted *ted, + struct ls_prefix *ls_pref) +{ + struct ls_subnet *new; + struct ls_vertex *vertex; + struct ls_node *node; + const struct in_addr inaddr_any = {.s_addr = INADDR_ANY}; + + if (ls_pref == NULL) + return NULL; + + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_subnet)); + new->ls_pref = ls_pref; + new->key = ls_pref->pref; + new->status = NEW; + new->type = SUBNET; + + /* Find Vertex */ + vertex = ls_find_vertex_by_id(ted, ls_pref->adv); + if (vertex == NULL) { + /* Create a new temporary Node & Vertex if not found */ + node = ls_node_new(ls_pref->adv, inaddr_any, in6addr_any); + vertex = ls_vertex_add(ted, node); + } + /* And attach the subnet to the corresponding Vertex */ + new->vertex = vertex; + listnode_add_sort_nodup(vertex->prefixes, new); + + subnets_add(&ted->subnets, new); + + return new; +} + +struct ls_subnet *ls_subnet_update(struct ls_ted *ted, struct ls_prefix *pref) +{ + struct ls_subnet *old; + + if (pref == NULL) + return NULL; + + old = ls_find_subnet(ted, pref->pref); + if (old) { + if (!ls_prefix_same(old->ls_pref, pref)) { + ls_prefix_del(old->ls_pref); + old->ls_pref = pref; + } + old->status = UPDATE; + return old; + } + + return ls_subnet_add(ted, pref); +} + +int ls_subnet_same(struct ls_subnet *s1, struct ls_subnet *s2) +{ + if ((s1 && !s2) || (!s1 && s2)) + return 0; + + if (!s1 && !s2) + return 1; + + if (!prefix_same(&s1->key, &s2->key)) + return 0; + + if (s1->ls_pref == s2->ls_pref) + return 1; + + return ls_prefix_same(s1->ls_pref, s2->ls_pref); +} + +void ls_subnet_del(struct ls_ted *ted, struct ls_subnet *subnet) +{ + if (!ted || !subnet) + return; + + /* First, disconnect Subnet from associated Vertex */ + listnode_delete(subnet->vertex->prefixes, subnet); + /* Then delete Subnet */ + subnets_del(&ted->subnets, subnet); + XFREE(MTYPE_LS_DB, subnet); +} + +void ls_subnet_del_all(struct ls_ted *ted, struct ls_subnet *subnet) +{ + if (!ted || !subnet) + return; + + /* First, remove associated Link State Subnet */ + ls_prefix_del(subnet->ls_pref); + /* Then, delete Subnet itself */ + ls_subnet_del(ted, subnet); +} + +struct ls_subnet *ls_find_subnet(struct ls_ted *ted, const struct prefix prefix) +{ + struct ls_subnet subnet = {}; + + subnet.key = prefix; + return subnets_find(&ted->subnets, &subnet); +} + +/** + * Link State TED management functions + */ +struct ls_ted *ls_ted_new(const uint32_t key, const char *name, + uint32_t as_number) +{ + struct ls_ted *new; + + new = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_ted)); + + /* Set basic information for this ted */ + new->key = key; + new->as_number = as_number; + strlcpy(new->name, name, MAX_NAME_LENGTH); + + /* Initialize the various RB tree */ + vertices_init(&new->vertices); + edges_init(&new->edges); + subnets_init(&new->subnets); + + return new; +} + +void ls_ted_del(struct ls_ted *ted) +{ + if (ted == NULL) + return; + + /* Check that TED is empty */ + if (vertices_count(&ted->vertices) || edges_count(&ted->edges) + || subnets_count(&ted->subnets)) + return; + + /* Release RB Tree */ + vertices_fini(&ted->vertices); + edges_fini(&ted->edges); + subnets_fini(&ted->subnets); + + XFREE(MTYPE_LS_DB, ted); +} + +void ls_ted_del_all(struct ls_ted **ted) +{ + struct ls_vertex *vertex; + struct ls_edge *edge; + struct ls_subnet *subnet; + + if (*ted == NULL) + return; + + /* First remove Vertices, Edges and Subnets and associated Link State */ + frr_each_safe (vertices, &(*ted)->vertices, vertex) + ls_vertex_del_all(*ted, vertex); + frr_each_safe (edges, &(*ted)->edges, edge) + ls_edge_del_all(*ted, edge); + frr_each_safe (subnets, &(*ted)->subnets, subnet) + ls_subnet_del_all(*ted, subnet); + + /* then remove TED itself */ + ls_ted_del(*ted); + *ted = NULL; +} + +void ls_ted_clean(struct ls_ted *ted) +{ + struct ls_vertex *vertex; + struct ls_edge *edge; + struct ls_subnet *subnet; + + if (ted == NULL) + return; + + /* First, start with Vertices */ + frr_each_safe (vertices, &ted->vertices, vertex) + if (vertex->status == ORPHAN) + ls_vertex_del_all(ted, vertex); + + /* Then Edges */ + frr_each_safe (edges, &ted->edges, edge) + if (edge->status == ORPHAN) + ls_edge_del_all(ted, edge); + + /* and Subnets */ + frr_each_safe (subnets, &ted->subnets, subnet) + if (subnet->status == ORPHAN) + ls_subnet_del_all(ted, subnet); + +} + +void ls_connect(struct ls_vertex *vertex, struct ls_edge *edge, bool source) +{ + if (vertex == NULL || edge == NULL) + return; + + if (source) { + listnode_add_sort_nodup(vertex->outgoing_edges, edge); + edge->source = vertex; + } else { + listnode_add_sort_nodup(vertex->incoming_edges, edge); + edge->destination = vertex; + } +} + +void ls_disconnect(struct ls_vertex *vertex, struct ls_edge *edge, bool source) +{ + + if (vertex == NULL || edge == NULL) + return; + + if (source) { + listnode_delete(vertex->outgoing_edges, edge); + edge->source = NULL; + } else { + listnode_delete(vertex->incoming_edges, edge); + edge->destination = NULL; + } +} + +void ls_connect_vertices(struct ls_vertex *src, struct ls_vertex *dst, + struct ls_edge *edge) +{ + if (edge == NULL) + return; + + edge->source = src; + edge->destination = dst; + + if (src != NULL) + listnode_add_sort_nodup(src->outgoing_edges, edge); + + if (dst != NULL) + listnode_add_sort_nodup(dst->incoming_edges, edge); +} + +void ls_disconnect_edge(struct ls_edge *edge) +{ + if (edge == NULL) + return; + + ls_disconnect(edge->source, edge, true); + ls_disconnect(edge->destination, edge, false); + + /* Mark this Edge as ORPHAN for future cleanup */ + edge->status = ORPHAN; +} + +/** + * Link State Message management functions + */ + +int ls_register(struct zclient *zclient, bool server) +{ + int rc; + + if (server) + rc = zclient_register_opaque(zclient, LINK_STATE_SYNC); + else + rc = zclient_register_opaque(zclient, LINK_STATE_UPDATE); + + return rc; +} + +int ls_unregister(struct zclient *zclient, bool server) +{ + int rc; + + if (server) + rc = zclient_unregister_opaque(zclient, LINK_STATE_SYNC); + else + rc = zclient_unregister_opaque(zclient, LINK_STATE_UPDATE); + + return rc; +} + +int ls_request_sync(struct zclient *zclient) +{ + struct stream *s; + uint16_t flags = 0; + + /* Check buffer size */ + if (STREAM_SIZE(zclient->obuf) + < (ZEBRA_HEADER_SIZE + 3 * sizeof(uint32_t))) + return -1; + + s = zclient->obuf; + stream_reset(s); + + zclient_create_header(s, ZEBRA_OPAQUE_MESSAGE, VRF_DEFAULT); + + /* Set type and flags */ + stream_putl(s, LINK_STATE_SYNC); + stream_putw(s, flags); + /* Send destination client info */ + stream_putc(s, zclient->redist_default); + stream_putw(s, zclient->instance); + stream_putl(s, zclient->session_id); + + /* Put length into the header at the start of the stream. */ + stream_putw_at(s, 0, stream_get_endp(s)); + + return zclient_send_message(zclient); +} + +static struct ls_node *ls_parse_node(struct stream *s) +{ + struct ls_node *node; + size_t len; + + node = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_node)); + + STREAM_GET(&node->adv, s, sizeof(struct ls_node_id)); + STREAM_GETW(s, node->flags); + if (CHECK_FLAG(node->flags, LS_NODE_NAME)) { + STREAM_GETC(s, len); + STREAM_GET(node->name, s, len); + } + if (CHECK_FLAG(node->flags, LS_NODE_ROUTER_ID)) + node->router_id.s_addr = stream_get_ipv4(s); + if (CHECK_FLAG(node->flags, LS_NODE_ROUTER_ID6)) + STREAM_GET(&node->router_id6, s, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(node->flags, LS_NODE_FLAG)) + STREAM_GETC(s, node->node_flag); + if (CHECK_FLAG(node->flags, LS_NODE_TYPE)) + STREAM_GETC(s, node->type); + if (CHECK_FLAG(node->flags, LS_NODE_AS_NUMBER)) + STREAM_GETL(s, node->as_number); + if (CHECK_FLAG(node->flags, LS_NODE_SR)) { + STREAM_GETL(s, node->srgb.lower_bound); + STREAM_GETL(s, node->srgb.range_size); + STREAM_GETC(s, node->srgb.flag); + STREAM_GET(node->algo, s, 2); + } + if (CHECK_FLAG(node->flags, LS_NODE_SRLB)) { + STREAM_GETL(s, node->srlb.lower_bound); + STREAM_GETL(s, node->srlb.range_size); + } + if (CHECK_FLAG(node->flags, LS_NODE_MSD)) + STREAM_GETC(s, node->msd); + + return node; + +stream_failure: + zlog_err("LS(%s): Could not parse Link State Node. Abort!", __func__); + XFREE(MTYPE_LS_DB, node); + return NULL; +} + +static struct ls_attributes *ls_parse_attributes(struct stream *s) +{ + struct ls_attributes *attr; + size_t len; + + attr = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_attributes)); + attr->srlgs = NULL; + + STREAM_GET(&attr->adv, s, sizeof(struct ls_node_id)); + STREAM_GETL(s, attr->flags); + if (CHECK_FLAG(attr->flags, LS_ATTR_NAME)) { + STREAM_GETC(s, len); + STREAM_GET(attr->name, s, len); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_METRIC)) + STREAM_GETL(s, attr->metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_TE_METRIC)) + STREAM_GETL(s, attr->standard.te_metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADM_GRP)) + STREAM_GETL(s, attr->standard.admin_group); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) + attr->standard.local.s_addr = stream_get_ipv4(s); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR)) + attr->standard.remote.s_addr = stream_get_ipv4(s); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) + STREAM_GET(&attr->standard.local6, s, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR6)) + STREAM_GET(&attr->standard.remote6, s, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ID)) + STREAM_GETL(s, attr->standard.local_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ID)) + STREAM_GETL(s, attr->standard.remote_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_BW)) + STREAM_GETF(s, attr->standard.max_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_RSV_BW)) + STREAM_GETF(s, attr->standard.max_rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_UNRSV_BW)) + for (len = 0; len < MAX_CLASS_TYPE; len++) + STREAM_GETF(s, attr->standard.unrsv_bw[len]); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_AS)) + STREAM_GETL(s, attr->standard.remote_as); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR)) + attr->standard.remote_addr.s_addr = stream_get_ipv4(s); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR6)) + STREAM_GET(&attr->standard.remote_addr6, s, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_DELAY)) + STREAM_GETL(s, attr->extended.delay); + if (CHECK_FLAG(attr->flags, LS_ATTR_MIN_MAX_DELAY)) { + STREAM_GETL(s, attr->extended.min_delay); + STREAM_GETL(s, attr->extended.max_delay); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_JITTER)) + STREAM_GETL(s, attr->extended.jitter); + if (CHECK_FLAG(attr->flags, LS_ATTR_PACKET_LOSS)) + STREAM_GETL(s, attr->extended.pkt_loss); + if (CHECK_FLAG(attr->flags, LS_ATTR_AVA_BW)) + STREAM_GETF(s, attr->extended.ava_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_RSV_BW)) + STREAM_GETF(s, attr->extended.rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_USE_BW)) + STREAM_GETF(s, attr->extended.used_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID)) { + STREAM_GETL(s, attr->adj_sid[ADJ_PRI_IPV4].sid); + STREAM_GETC(s, attr->adj_sid[ADJ_PRI_IPV4].flags); + STREAM_GETC(s, attr->adj_sid[ADJ_PRI_IPV4].weight); + attr->adj_sid[ADJ_PRI_IPV4].neighbor.addr.s_addr = + stream_get_ipv4(s); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID)) { + STREAM_GETL(s, attr->adj_sid[ADJ_BCK_IPV4].sid); + STREAM_GETC(s, attr->adj_sid[ADJ_BCK_IPV4].flags); + STREAM_GETC(s, attr->adj_sid[ADJ_BCK_IPV4].weight); + attr->adj_sid[ADJ_BCK_IPV4].neighbor.addr.s_addr = + stream_get_ipv4(s); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID6)) { + STREAM_GETL(s, attr->adj_sid[ADJ_PRI_IPV6].sid); + STREAM_GETC(s, attr->adj_sid[ADJ_PRI_IPV6].flags); + STREAM_GETC(s, attr->adj_sid[ADJ_PRI_IPV6].weight); + STREAM_GET(attr->adj_sid[ADJ_PRI_IPV6].neighbor.sysid, s, + ISO_SYS_ID_LEN); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID6)) { + STREAM_GETL(s, attr->adj_sid[ADJ_BCK_IPV6].sid); + STREAM_GETC(s, attr->adj_sid[ADJ_BCK_IPV6].flags); + STREAM_GETC(s, attr->adj_sid[ADJ_BCK_IPV6].weight); + STREAM_GET(attr->adj_sid[ADJ_BCK_IPV6].neighbor.sysid, s, + ISO_SYS_ID_LEN); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_SRLG)) { + STREAM_GETC(s, len); + attr->srlgs = XCALLOC(MTYPE_LS_DB, len*sizeof(uint32_t)); + attr->srlg_len = len; + for (len = 0; len < attr->srlg_len; len++) + STREAM_GETL(s, attr->srlgs[len]); + } + + return attr; + +stream_failure: + zlog_err("LS(%s): Could not parse Link State Attributes. Abort!", + __func__); + /* Clean memory allocation */ + if (attr->srlgs != NULL) + XFREE(MTYPE_LS_DB, attr->srlgs); + XFREE(MTYPE_LS_DB, attr); + return NULL; + +} + +static struct ls_prefix *ls_parse_prefix(struct stream *s) +{ + struct ls_prefix *ls_pref; + size_t len; + + ls_pref = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_prefix)); + + STREAM_GET(&ls_pref->adv, s, sizeof(struct ls_node_id)); + STREAM_GETW(s, ls_pref->flags); + STREAM_GETC(s, ls_pref->pref.family); + STREAM_GETW(s, ls_pref->pref.prefixlen); + len = prefix_blen(&ls_pref->pref); + STREAM_GET(&ls_pref->pref.u.prefix, s, len); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_IGP_FLAG)) + STREAM_GETC(s, ls_pref->igp_flag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_ROUTE_TAG)) + STREAM_GETL(s, ls_pref->route_tag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_EXTENDED_TAG)) + STREAM_GETQ(s, ls_pref->extended_tag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_METRIC)) + STREAM_GETL(s, ls_pref->metric); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_SR)) { + STREAM_GETL(s, ls_pref->sr.sid); + STREAM_GETC(s, ls_pref->sr.sid_flag); + STREAM_GETC(s, ls_pref->sr.algo); + } + + return ls_pref; + +stream_failure: + zlog_err("LS(%s): Could not parse Link State Prefix. Abort!", __func__); + XFREE(MTYPE_LS_DB, ls_pref); + return NULL; +} + +struct ls_message *ls_parse_msg(struct stream *s) +{ + struct ls_message *msg; + + msg = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_message)); + + /* Read LS Message header */ + STREAM_GETC(s, msg->event); + STREAM_GETC(s, msg->type); + + /* Read Message Payload */ + switch (msg->type) { + case LS_MSG_TYPE_NODE: + msg->data.node = ls_parse_node(s); + break; + case LS_MSG_TYPE_ATTRIBUTES: + STREAM_GET(&msg->remote_id, s, sizeof(struct ls_node_id)); + msg->data.attr = ls_parse_attributes(s); + break; + case LS_MSG_TYPE_PREFIX: + msg->data.prefix = ls_parse_prefix(s); + break; + default: + zlog_err("Unsupported Payload"); + goto stream_failure; + } + + if (msg->data.node == NULL || msg->data.attr == NULL + || msg->data.prefix == NULL) + goto stream_failure; + + return msg; + +stream_failure: + zlog_err("LS(%s): Could not parse LS message. Abort!", __func__); + XFREE(MTYPE_LS_DB, msg); + return NULL; +} + +static int ls_format_node(struct stream *s, struct ls_node *node) +{ + size_t len; + + /* Push Advertise node information first */ + stream_put(s, &node->adv, sizeof(struct ls_node_id)); + + /* Push Flags & Origin then Node information if there are present */ + stream_putw(s, node->flags); + if (CHECK_FLAG(node->flags, LS_NODE_NAME)) { + len = strlen(node->name); + stream_putc(s, len + 1); + stream_put(s, node->name, len); + stream_putc(s, '\0'); + } + if (CHECK_FLAG(node->flags, LS_NODE_ROUTER_ID)) + stream_put_ipv4(s, node->router_id.s_addr); + if (CHECK_FLAG(node->flags, LS_NODE_ROUTER_ID6)) + stream_put(s, &node->router_id6, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(node->flags, LS_NODE_FLAG)) + stream_putc(s, node->node_flag); + if (CHECK_FLAG(node->flags, LS_NODE_TYPE)) + stream_putc(s, node->type); + if (CHECK_FLAG(node->flags, LS_NODE_AS_NUMBER)) + stream_putl(s, node->as_number); + if (CHECK_FLAG(node->flags, LS_NODE_SR)) { + stream_putl(s, node->srgb.lower_bound); + stream_putl(s, node->srgb.range_size); + stream_putc(s, node->srgb.flag); + stream_put(s, node->algo, 2); + } + if (CHECK_FLAG(node->flags, LS_NODE_SRLB)) { + stream_putl(s, node->srlb.lower_bound); + stream_putl(s, node->srlb.range_size); + } + if (CHECK_FLAG(node->flags, LS_NODE_MSD)) + stream_putc(s, node->msd); + + return 0; +} + +static int ls_format_attributes(struct stream *s, struct ls_attributes *attr) +{ + size_t len; + + /* Push Advertise node information first */ + stream_put(s, &attr->adv, sizeof(struct ls_node_id)); + + /* Push Flags & Origin then LS attributes if there are present */ + stream_putl(s, attr->flags); + if (CHECK_FLAG(attr->flags, LS_ATTR_NAME)) { + len = strlen(attr->name); + stream_putc(s, len + 1); + stream_put(s, attr->name, len); + stream_putc(s, '\0'); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_METRIC)) + stream_putl(s, attr->metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_TE_METRIC)) + stream_putl(s, attr->standard.te_metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADM_GRP)) + stream_putl(s, attr->standard.admin_group); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) + stream_put_ipv4(s, attr->standard.local.s_addr); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR)) + stream_put_ipv4(s, attr->standard.remote.s_addr); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) + stream_put(s, &attr->standard.local6, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR6)) + stream_put(s, &attr->standard.remote6, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ID)) + stream_putl(s, attr->standard.local_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ID)) + stream_putl(s, attr->standard.remote_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_BW)) + stream_putf(s, attr->standard.max_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_RSV_BW)) + stream_putf(s, attr->standard.max_rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_UNRSV_BW)) + for (len = 0; len < MAX_CLASS_TYPE; len++) + stream_putf(s, attr->standard.unrsv_bw[len]); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_AS)) + stream_putl(s, attr->standard.remote_as); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR)) + stream_put_ipv4(s, attr->standard.remote_addr.s_addr); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR6)) + stream_put(s, &attr->standard.remote_addr6, IPV6_MAX_BYTELEN); + if (CHECK_FLAG(attr->flags, LS_ATTR_DELAY)) + stream_putl(s, attr->extended.delay); + if (CHECK_FLAG(attr->flags, LS_ATTR_MIN_MAX_DELAY)) { + stream_putl(s, attr->extended.min_delay); + stream_putl(s, attr->extended.max_delay); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_JITTER)) + stream_putl(s, attr->extended.jitter); + if (CHECK_FLAG(attr->flags, LS_ATTR_PACKET_LOSS)) + stream_putl(s, attr->extended.pkt_loss); + if (CHECK_FLAG(attr->flags, LS_ATTR_AVA_BW)) + stream_putf(s, attr->extended.ava_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_RSV_BW)) + stream_putf(s, attr->extended.rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_USE_BW)) + stream_putf(s, attr->extended.used_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID)) { + stream_putl(s, attr->adj_sid[ADJ_PRI_IPV4].sid); + stream_putc(s, attr->adj_sid[ADJ_PRI_IPV4].flags); + stream_putc(s, attr->adj_sid[ADJ_PRI_IPV4].weight); + stream_put_ipv4( + s, attr->adj_sid[ADJ_PRI_IPV4].neighbor.addr.s_addr); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID)) { + stream_putl(s, attr->adj_sid[ADJ_BCK_IPV4].sid); + stream_putc(s, attr->adj_sid[ADJ_BCK_IPV4].flags); + stream_putc(s, attr->adj_sid[ADJ_BCK_IPV4].weight); + stream_put_ipv4( + s, attr->adj_sid[ADJ_BCK_IPV4].neighbor.addr.s_addr); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID6)) { + stream_putl(s, attr->adj_sid[ADJ_PRI_IPV6].sid); + stream_putc(s, attr->adj_sid[ADJ_PRI_IPV6].flags); + stream_putc(s, attr->adj_sid[ADJ_PRI_IPV6].weight); + stream_put(s, attr->adj_sid[ADJ_PRI_IPV6].neighbor.sysid, + ISO_SYS_ID_LEN); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID6)) { + stream_putl(s, attr->adj_sid[ADJ_BCK_IPV6].sid); + stream_putc(s, attr->adj_sid[ADJ_BCK_IPV6].flags); + stream_putc(s, attr->adj_sid[ADJ_BCK_IPV6].weight); + stream_put(s, attr->adj_sid[ADJ_BCK_IPV6].neighbor.sysid, + ISO_SYS_ID_LEN); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_SRLG)) { + stream_putc(s, attr->srlg_len); + for (len = 0; len < attr->srlg_len; len++) + stream_putl(s, attr->srlgs[len]); + } + + return 0; +} + +static int ls_format_prefix(struct stream *s, struct ls_prefix *ls_pref) +{ + size_t len; + + /* Push Advertise node information first */ + stream_put(s, &ls_pref->adv, sizeof(struct ls_node_id)); + + /* Push Flags, Origin & Prefix then information if there are present */ + stream_putw(s, ls_pref->flags); + stream_putc(s, ls_pref->pref.family); + stream_putw(s, ls_pref->pref.prefixlen); + len = prefix_blen(&ls_pref->pref); + stream_put(s, &ls_pref->pref.u.prefix, len); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_IGP_FLAG)) + stream_putc(s, ls_pref->igp_flag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_ROUTE_TAG)) + stream_putl(s, ls_pref->route_tag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_EXTENDED_TAG)) + stream_putq(s, ls_pref->extended_tag); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_METRIC)) + stream_putl(s, ls_pref->metric); + if (CHECK_FLAG(ls_pref->flags, LS_PREF_SR)) { + stream_putl(s, ls_pref->sr.sid); + stream_putc(s, ls_pref->sr.sid_flag); + stream_putc(s, ls_pref->sr.algo); + } + + return 0; +} + +static int ls_format_msg(struct stream *s, struct ls_message *msg) +{ + + /* Prepare Link State header */ + stream_putc(s, msg->event); + stream_putc(s, msg->type); + + /* Add Message Payload */ + switch (msg->type) { + case LS_MSG_TYPE_NODE: + return ls_format_node(s, msg->data.node); + case LS_MSG_TYPE_ATTRIBUTES: + /* Add remote node first */ + stream_put(s, &msg->remote_id, sizeof(struct ls_node_id)); + return ls_format_attributes(s, msg->data.attr); + case LS_MSG_TYPE_PREFIX: + return ls_format_prefix(s, msg->data.prefix); + default: + zlog_warn("Unsupported Payload"); + break; + } + + return -1; +} + +int ls_send_msg(struct zclient *zclient, struct ls_message *msg, + struct zapi_opaque_reg_info *dst) +{ + struct stream *s; + uint16_t flags = 0; + + /* Check if we have a valid message */ + if (msg->event == LS_MSG_EVENT_UNDEF) + return -1; + + /* Check buffer size */ + if (STREAM_SIZE(zclient->obuf) < + (ZEBRA_HEADER_SIZE + sizeof(uint32_t) + sizeof(msg))) + return -1; + + s = zclient->obuf; + stream_reset(s); + + zclient_create_header(s, ZEBRA_OPAQUE_MESSAGE, VRF_DEFAULT); + + /* Set sub-type, flags and destination for unicast message */ + stream_putl(s, LINK_STATE_UPDATE); + if (dst != NULL) { + SET_FLAG(flags, ZAPI_OPAQUE_FLAG_UNICAST); + stream_putw(s, flags); + /* Send destination client info */ + stream_putc(s, dst->proto); + stream_putw(s, dst->instance); + stream_putl(s, dst->session_id); + } else { + stream_putw(s, flags); + } + + /* Format Link State message */ + if (ls_format_msg(s, msg) < 0) { + stream_reset(s); + return -1; + } + + /* Put length into the header at the start of the stream. */ + stream_putw_at(s, 0, stream_get_endp(s)); + + return zclient_send_message(zclient); +} +struct ls_message *ls_vertex2msg(struct ls_message *msg, + struct ls_vertex *vertex) +{ + /* Allocate space if needed */ + if (msg == NULL) + msg = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_message)); + else + memset(msg, 0, sizeof(*msg)); + + msg->type = LS_MSG_TYPE_NODE; + switch (vertex->status) { + case NEW: + msg->event = LS_MSG_EVENT_ADD; + break; + case UPDATE: + msg->event = LS_MSG_EVENT_UPDATE; + break; + case DELETE: + msg->event = LS_MSG_EVENT_DELETE; + break; + case SYNC: + msg->event = LS_MSG_EVENT_SYNC; + break; + default: + msg->event = LS_MSG_EVENT_UNDEF; + break; + } + msg->data.node = vertex->node; + msg->remote_id.origin = UNKNOWN; + + return msg; +} + +struct ls_message *ls_edge2msg(struct ls_message *msg, struct ls_edge *edge) +{ + /* Allocate space if needed */ + if (msg == NULL) + msg = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_message)); + else + memset(msg, 0, sizeof(*msg)); + + msg->type = LS_MSG_TYPE_ATTRIBUTES; + switch (edge->status) { + case NEW: + msg->event = LS_MSG_EVENT_ADD; + break; + case UPDATE: + msg->event = LS_MSG_EVENT_UPDATE; + break; + case DELETE: + msg->event = LS_MSG_EVENT_DELETE; + break; + case SYNC: + msg->event = LS_MSG_EVENT_SYNC; + break; + default: + msg->event = LS_MSG_EVENT_UNDEF; + break; + } + msg->data.attr = edge->attributes; + if (edge->destination != NULL) + msg->remote_id = edge->destination->node->adv; + else + msg->remote_id.origin = UNKNOWN; + + return msg; +} + +struct ls_message *ls_subnet2msg(struct ls_message *msg, + struct ls_subnet *subnet) +{ + /* Allocate space if needed */ + if (msg == NULL) + msg = XCALLOC(MTYPE_LS_DB, sizeof(struct ls_message)); + else + memset(msg, 0, sizeof(*msg)); + + msg->type = LS_MSG_TYPE_PREFIX; + switch (subnet->status) { + case NEW: + msg->event = LS_MSG_EVENT_ADD; + break; + case UPDATE: + msg->event = LS_MSG_EVENT_UPDATE; + break; + case DELETE: + msg->event = LS_MSG_EVENT_DELETE; + break; + case SYNC: + msg->event = LS_MSG_EVENT_SYNC; + break; + default: + msg->event = LS_MSG_EVENT_UNDEF; + break; + } + msg->data.prefix = subnet->ls_pref; + msg->remote_id.origin = UNKNOWN; + + return msg; +} + +struct ls_vertex *ls_msg2vertex(struct ls_ted *ted, struct ls_message *msg, + bool delete) +{ + struct ls_node *node = (struct ls_node *)msg->data.node; + struct ls_vertex *vertex = NULL; + + switch (msg->event) { + case LS_MSG_EVENT_SYNC: + vertex = ls_vertex_add(ted, node); + if (vertex) + vertex->status = SYNC; + break; + case LS_MSG_EVENT_ADD: + vertex = ls_vertex_add(ted, node); + if (vertex) + vertex->status = NEW; + break; + case LS_MSG_EVENT_UPDATE: + vertex = ls_vertex_update(ted, node); + if (vertex) + vertex->status = UPDATE; + break; + case LS_MSG_EVENT_DELETE: + vertex = ls_find_vertex_by_id(ted, node->adv); + if (vertex) { + if (delete) + ls_vertex_del_all(ted, vertex); + else + vertex->status = DELETE; + } + break; + default: + vertex = NULL; + break; + } + + return vertex; +} + +struct ls_edge *ls_msg2edge(struct ls_ted *ted, struct ls_message *msg, + bool delete) +{ + struct ls_attributes *attr = (struct ls_attributes *)msg->data.attr; + struct ls_edge *edge = NULL; + + switch (msg->event) { + case LS_MSG_EVENT_SYNC: + edge = ls_edge_add(ted, attr); + if (edge) + edge->status = SYNC; + break; + case LS_MSG_EVENT_ADD: + edge = ls_edge_add(ted, attr); + if (edge) + edge->status = NEW; + break; + case LS_MSG_EVENT_UPDATE: + edge = ls_edge_update(ted, attr); + if (edge) + edge->status = UPDATE; + break; + case LS_MSG_EVENT_DELETE: + edge = ls_find_edge_by_source(ted, attr); + if (edge) { + if (delete) { + ls_edge_del_all(ted, edge); + edge = NULL; + } else + edge->status = DELETE; + } + break; + default: + edge = NULL; + break; + } + + return edge; +} + +struct ls_subnet *ls_msg2subnet(struct ls_ted *ted, struct ls_message *msg, + bool delete) +{ + struct ls_prefix *pref = (struct ls_prefix *)msg->data.prefix; + struct ls_subnet *subnet = NULL; + + switch (msg->event) { + case LS_MSG_EVENT_SYNC: + subnet = ls_subnet_add(ted, pref); + if (subnet) + subnet->status = SYNC; + break; + case LS_MSG_EVENT_ADD: + subnet = ls_subnet_add(ted, pref); + if (subnet) + subnet->status = NEW; + break; + case LS_MSG_EVENT_UPDATE: + subnet = ls_subnet_update(ted, pref); + if (subnet) + subnet->status = UPDATE; + break; + case LS_MSG_EVENT_DELETE: + subnet = ls_find_subnet(ted, pref->pref); + if (subnet) { + if (delete) + ls_subnet_del_all(ted, subnet); + else + subnet->status = DELETE; + } + break; + default: + subnet = NULL; + break; + } + + return subnet; +} + +struct ls_element *ls_msg2ted(struct ls_ted *ted, struct ls_message *msg, + bool delete) +{ + struct ls_element *lse = NULL; + + switch (msg->type) { + case LS_MSG_TYPE_NODE: + lse = (struct ls_element *)ls_msg2vertex(ted, msg, delete); + break; + case LS_MSG_TYPE_ATTRIBUTES: + lse = (struct ls_element *)ls_msg2edge(ted, msg, delete); + break; + case LS_MSG_TYPE_PREFIX: + lse = (struct ls_element *)ls_msg2subnet(ted, msg, delete); + break; + default: + lse = NULL; + break; + } + + return lse; +} + +struct ls_element *ls_stream2ted(struct ls_ted *ted, struct stream *s, + bool delete) +{ + struct ls_message *msg; + struct ls_element *lse = NULL; + + msg = ls_parse_msg(s); + if (msg) { + lse = ls_msg2ted(ted, msg, delete); + ls_delete_msg(msg); + } + + return lse; +} + +void ls_delete_msg(struct ls_message *msg) +{ + if (msg == NULL) + return; + + if (msg->event == LS_MSG_EVENT_DELETE) { + switch (msg->type) { + case LS_MSG_TYPE_NODE: + ls_node_del(msg->data.node); + break; + case LS_MSG_TYPE_ATTRIBUTES: + ls_attributes_del(msg->data.attr); + break; + case LS_MSG_TYPE_PREFIX: + ls_prefix_del(msg->data.prefix); + break; + } + } + + XFREE(MTYPE_LS_DB, msg); +} + +int ls_sync_ted(struct ls_ted *ted, struct zclient *zclient, + struct zapi_opaque_reg_info *dst) +{ + struct ls_vertex *vertex; + struct ls_edge *edge; + struct ls_subnet *subnet; + struct ls_message msg; + + /* Loop TED, start sending Node, then Attributes and finally Prefix */ + frr_each(vertices, &ted->vertices, vertex) { + ls_vertex2msg(&msg, vertex); + ls_send_msg(zclient, &msg, dst); + } + frr_each(edges, &ted->edges, edge) { + ls_edge2msg(&msg, edge); + ls_send_msg(zclient, &msg, dst); + } + frr_each(subnets, &ted->subnets, subnet) { + ls_subnet2msg(&msg, subnet); + ls_send_msg(zclient, &msg, dst); + } + return 0; +} + +/** + * Link State Show functions + */ +static const char *const origin2txt[] = { + "Unknown", + "ISIS_L1", + "ISIS_L2", + "OSPFv2", + "Direct", + "Static" +}; + +static const char *const type2txt[] = { + "Unknown", + "Standard", + "ABR", + "ASBR", + "Remote ASBR", + "Pseudo" +}; + +static const char *const status2txt[] = { + "Unknown", + "New", + "Update", + "Delete", + "Sync", + "Orphan" +}; + +static const char *ls_node_id_to_text(struct ls_node_id lnid, char *str, + size_t size) +{ + if (lnid.origin == ISIS_L1 || lnid.origin == ISIS_L2) { + uint8_t *id; + + id = lnid.id.iso.sys_id; + snprintfrr(str, size, "%02x%02x.%02x%02x.%02x%02x", id[0], + id[1], id[2], id[3], id[4], id[5]); + } else + snprintfrr(str, size, "%pI4", &lnid.id.ip.addr); + + return str; +} + +static void ls_show_vertex_vty(struct ls_vertex *vertex, struct vty *vty, + bool verbose) +{ + struct listnode *node; + struct ls_node *lsn; + struct ls_edge *edge; + struct ls_attributes *attr; + struct ls_subnet *subnet; + struct sbuf sbuf; + uint32_t upper; + + /* Sanity Check */ + if (!vertex) + return; + + lsn = vertex->node; + + sbuf_init(&sbuf, NULL, 0); + + sbuf_push(&sbuf, 2, "Vertex (%" PRIu64 "): %s", vertex->key, lsn->name); + sbuf_push(&sbuf, 0, "\tRouter Id: %pI4", &lsn->router_id); + sbuf_push(&sbuf, 0, "\tOrigin: %s", origin2txt[lsn->adv.origin]); + sbuf_push(&sbuf, 0, "\tStatus: %s\n", status2txt[vertex->status]); + if (!verbose) { + sbuf_push( + &sbuf, 0, + "\t%d Outgoing Edges, %d Incoming Edges, %d Subnets\n", + listcount(vertex->outgoing_edges), + listcount(vertex->incoming_edges), + listcount(vertex->prefixes)); + goto end; + } + + if (CHECK_FLAG(lsn->flags, LS_NODE_TYPE)) + sbuf_push(&sbuf, 4, "Type: %s\n", type2txt[lsn->type]); + if (CHECK_FLAG(lsn->flags, LS_NODE_AS_NUMBER)) + sbuf_push(&sbuf, 4, "AS number: %u\n", lsn->as_number); + if (CHECK_FLAG(lsn->flags, LS_NODE_SR)) { + sbuf_push(&sbuf, 4, "Segment Routing Capabilities:\n"); + upper = lsn->srgb.lower_bound + lsn->srgb.range_size - 1; + sbuf_push(&sbuf, 8, "SRGB: [%d/%d]", lsn->srgb.lower_bound, + upper); + if (CHECK_FLAG(lsn->flags, LS_NODE_SRLB)) { + upper = lsn->srlb.lower_bound + lsn->srlb.range_size + - 1; + sbuf_push(&sbuf, 0, "\tSRLB: [%d/%d]", + lsn->srlb.lower_bound, upper); + } + sbuf_push(&sbuf, 0, "\tAlgo: "); + for (int i = 0; i < 2; i++) { + if (lsn->algo[i] == 255) + continue; + + sbuf_push(&sbuf, 0, + lsn->algo[i] == 0 ? "SPF " : "S-SPF "); + } + if (CHECK_FLAG(lsn->flags, LS_NODE_MSD)) + sbuf_push(&sbuf, 0, "\tMSD: %d", lsn->msd); + sbuf_push(&sbuf, 0, "\n"); + } + + sbuf_push(&sbuf, 4, "Outgoing Edges: %d\n", + listcount(vertex->outgoing_edges)); + for (ALL_LIST_ELEMENTS_RO(vertex->outgoing_edges, node, edge)) { + if (edge->destination) { + lsn = edge->destination->node; + sbuf_push(&sbuf, 6, "To:\t%s(%pI4)", lsn->name, + &lsn->router_id); + } else { + sbuf_push(&sbuf, 6, "To:\t- (0.0.0.0)"); + } + attr = edge->attributes; + if ((CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR))) + sbuf_push(&sbuf, 0, "\tLocal: %pI4\tRemote: %pI4\n", + &attr->standard.local, + &attr->standard.remote); + else if ((CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6))) + sbuf_push(&sbuf, 0, "\tLocal: %pI6\tRemote: %pI6\n", + &attr->standard.local6, + &attr->standard.remote6); + } + + sbuf_push(&sbuf, 4, "Incoming Edges: %d\n", + listcount(vertex->incoming_edges)); + for (ALL_LIST_ELEMENTS_RO(vertex->incoming_edges, node, edge)) { + if (edge->source) { + lsn = edge->source->node; + sbuf_push(&sbuf, 6, "From:\t%s(%pI4)", lsn->name, + &lsn->router_id); + } else { + sbuf_push(&sbuf, 6, "From:\t- (0.0.0.0)"); + } + attr = edge->attributes; + if ((CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR))) + sbuf_push(&sbuf, 0, "\tLocal: %pI4\tRemote: %pI4\n", + &attr->standard.local, + &attr->standard.remote); + else if ((CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6))) + sbuf_push(&sbuf, 0, "\tLocal: %pI6\tRemote: %pI6\n", + &attr->standard.local6, + &attr->standard.remote6); + } + + sbuf_push(&sbuf, 4, "Subnets: %d\n", listcount(vertex->prefixes)); + for (ALL_LIST_ELEMENTS_RO(vertex->prefixes, node, subnet)) + sbuf_push(&sbuf, 6, "Prefix:\t%pFX\n", &subnet->key); + +end: + vty_out(vty, "%s\n", sbuf_buf(&sbuf)); + sbuf_free(&sbuf); +} + +static void ls_show_vertex_json(struct ls_vertex *vertex, + struct json_object *json) +{ + struct ls_node *lsn; + json_object *jsr, *jalgo, *jobj; + char buf[INET6_BUFSIZ]; + + /* Sanity Check */ + if (!vertex) + return; + + lsn = vertex->node; + + json_object_int_add(json, "vertex-id", vertex->key); + json_object_string_add(json, "status", status2txt[vertex->status]); + json_object_string_add(json, "origin", origin2txt[lsn->adv.origin]); + if (CHECK_FLAG(lsn->flags, LS_NODE_NAME)) + json_object_string_add(json, "name", lsn->name); + if (CHECK_FLAG(lsn->flags, LS_NODE_ROUTER_ID)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI4", &lsn->router_id); + json_object_string_add(json, "router-id", buf); + } + if (CHECK_FLAG(lsn->flags, LS_NODE_ROUTER_ID6)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI6", &lsn->router_id6); + json_object_string_add(json, "router-id-v6", buf); + } + if (CHECK_FLAG(lsn->flags, LS_NODE_TYPE)) + json_object_string_add(json, "vertex-type", + type2txt[lsn->type]); + if (CHECK_FLAG(lsn->flags, LS_NODE_AS_NUMBER)) + json_object_int_add(json, "asn", lsn->as_number); + if (CHECK_FLAG(lsn->flags, LS_NODE_SR)) { + jsr = json_object_new_object(); + json_object_object_add(json, "segment-routing", jsr); + json_object_int_add(jsr, "srgb-size", lsn->srgb.range_size); + json_object_int_add(jsr, "srgb-lower", lsn->srgb.lower_bound); + jalgo = json_object_new_array(); + json_object_object_add(jsr, "algorithms", jalgo); + for (int i = 0; i < 2; i++) { + if (lsn->algo[i] == 255) + continue; + jobj = json_object_new_object(); + + snprintfrr(buf, 2, "%u", i); + json_object_string_add( + jobj, buf, lsn->algo[i] == 0 ? "SPF" : "S-SPF"); + json_object_array_add(jalgo, jobj); + } + if (CHECK_FLAG(lsn->flags, LS_NODE_SRLB)) { + json_object_int_add(jsr, "srlb-size", + lsn->srlb.range_size); + json_object_int_add(jsr, "srlb-lower", + lsn->srlb.lower_bound); + } + if (CHECK_FLAG(lsn->flags, LS_NODE_MSD)) + json_object_int_add(jsr, "msd", lsn->msd); + } +} + +void ls_show_vertex(struct ls_vertex *vertex, struct vty *vty, + struct json_object *json, bool verbose) +{ + if (json) + ls_show_vertex_json(vertex, json); + else if (vty) + ls_show_vertex_vty(vertex, vty, verbose); +} + +void ls_show_vertices(struct ls_ted *ted, struct vty *vty, + struct json_object *json, bool verbose) +{ + struct ls_vertex *vertex; + json_object *jnodes, *jnode; + + if (json) { + jnodes = json_object_new_array(); + json_object_object_add(json, "vertices", jnodes); + frr_each (vertices, &ted->vertices, vertex) { + jnode = json_object_new_object(); + ls_show_vertex(vertex, NULL, jnode, verbose); + json_object_array_add(jnodes, jnode); + } + } else if (vty) { + frr_each (vertices, &ted->vertices, vertex) + ls_show_vertex(vertex, vty, NULL, verbose); + } +} + +static void ls_show_edge_vty(struct ls_edge *edge, struct vty *vty, + bool verbose) +{ + struct ls_attributes *attr; + struct sbuf sbuf; + char buf[INET6_BUFSIZ]; + + attr = edge->attributes; + sbuf_init(&sbuf, NULL, 0); + + sbuf_push(&sbuf, 2, "Edge (%" PRIu64 "): ", edge->key); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) + sbuf_push(&sbuf, 0, "%pI4", &attr->standard.local); + else if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) + sbuf_push(&sbuf, 0, "%pI6", &attr->standard.local6); + else + sbuf_push(&sbuf, 0, "%u/%u", attr->standard.local_id, + attr->standard.remote_id); + ls_node_id_to_text(attr->adv, buf, INET6_BUFSIZ); + sbuf_push(&sbuf, 0, "\tAdv. Vertex: %s", buf); + sbuf_push(&sbuf, 0, "\tMetric: %u", attr->metric); + sbuf_push(&sbuf, 0, "\tStatus: %s\n", status2txt[edge->status]); + + if (!verbose) + goto end; + + sbuf_push(&sbuf, 4, "Origin: %s\n", origin2txt[attr->adv.origin]); + if (CHECK_FLAG(attr->flags, LS_ATTR_NAME)) + sbuf_push(&sbuf, 4, "Name: %s\n", attr->name); + if (CHECK_FLAG(attr->flags, LS_ATTR_TE_METRIC)) + sbuf_push(&sbuf, 4, "TE Metric: %u\n", + attr->standard.te_metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADM_GRP)) + sbuf_push(&sbuf, 4, "Admin Group: 0x%x\n", + attr->standard.admin_group); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) + sbuf_push(&sbuf, 4, "Local IPv4 address: %pI4\n", + &attr->standard.local); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR)) + sbuf_push(&sbuf, 4, "Remote IPv4 address: %pI4\n", + &attr->standard.remote); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) + sbuf_push(&sbuf, 4, "Local IPv6 address: %pI6\n", + &attr->standard.local6); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR6)) + sbuf_push(&sbuf, 4, "Remote IPv6 address: %pI6\n", + &attr->standard.remote6); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ID)) + sbuf_push(&sbuf, 4, "Local Identifier: %u\n", + attr->standard.local_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ID)) + sbuf_push(&sbuf, 4, "Remote Identifier: %u\n", + attr->standard.remote_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_BW)) + sbuf_push(&sbuf, 4, "Maximum Bandwidth: %g (Bytes/s)\n", + attr->standard.max_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_RSV_BW)) + sbuf_push(&sbuf, 4, + "Maximum Reservable Bandwidth: %g (Bytes/s)\n", + attr->standard.max_rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_UNRSV_BW)) { + sbuf_push(&sbuf, 4, "Unreserved Bandwidth per Class Type\n"); + for (int i = 0; i < MAX_CLASS_TYPE; i += 2) + sbuf_push(&sbuf, 8, + "[%d]: %g (Bytes/sec)\t[%d]: %g (Bytes/s)\n", + i, attr->standard.unrsv_bw[i], i + 1, + attr->standard.unrsv_bw[i + 1]); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_AS)) + sbuf_push(&sbuf, 4, "Remote AS: %u\n", + attr->standard.remote_as); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR)) + sbuf_push(&sbuf, 4, "Remote ASBR IPv4 address: %pI4\n", + &attr->standard.remote_addr); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR6)) + sbuf_push(&sbuf, 4, "Remote ASBR IPv6 address: %pI6\n", + &attr->standard.remote_addr6); + if (CHECK_FLAG(attr->flags, LS_ATTR_DELAY)) + sbuf_push(&sbuf, 4, "Average Link Delay: %d (micro-sec)\n", + attr->extended.delay); + if (CHECK_FLAG(attr->flags, LS_ATTR_MIN_MAX_DELAY)) + sbuf_push(&sbuf, 4, "Min/Max Link Delay: %d/%d (micro-sec)\n", + attr->extended.min_delay, attr->extended.max_delay); + if (CHECK_FLAG(attr->flags, LS_ATTR_JITTER)) + sbuf_push(&sbuf, 4, "Delay Variation: %d (micro-sec)\n", + attr->extended.jitter); + if (CHECK_FLAG(attr->flags, LS_ATTR_PACKET_LOSS)) + sbuf_push(&sbuf, 4, "Link Loss: %g (%%)\n", + (float)(attr->extended.pkt_loss * LOSS_PRECISION)); + if (CHECK_FLAG(attr->flags, LS_ATTR_AVA_BW)) + sbuf_push(&sbuf, 4, "Available Bandwidth: %g (Bytes/s)\n", + attr->extended.ava_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_RSV_BW)) + sbuf_push(&sbuf, 4, "Residual Bandwidth: %g (Bytes/s)\n", + attr->extended.rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_USE_BW)) + sbuf_push(&sbuf, 4, "Utilized Bandwidth: %g (Bytes/s)\n", + attr->extended.used_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID)) { + sbuf_push(&sbuf, 4, "IPv4 Adjacency-SID: %u", + attr->adj_sid[ADJ_PRI_IPV4].sid); + sbuf_push(&sbuf, 0, "\tFlags: 0x%x\tWeight: 0x%x\n", + attr->adj_sid[ADJ_PRI_IPV4].flags, + attr->adj_sid[ADJ_PRI_IPV4].weight); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID)) { + sbuf_push(&sbuf, 4, "IPv4 Bck. Adjacency-SID: %u", + attr->adj_sid[ADJ_BCK_IPV4].sid); + sbuf_push(&sbuf, 0, "\tFlags: 0x%x\tWeight: 0x%x\n", + attr->adj_sid[ADJ_BCK_IPV4].flags, + attr->adj_sid[ADJ_BCK_IPV4].weight); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID6)) { + sbuf_push(&sbuf, 4, "IPv6 Adjacency-SID: %u", + attr->adj_sid[ADJ_PRI_IPV6].sid); + sbuf_push(&sbuf, 0, "\tFlags: 0x%x\tWeight: 0x%x\n", + attr->adj_sid[ADJ_PRI_IPV6].flags, + attr->adj_sid[ADJ_PRI_IPV6].weight); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID6)) { + sbuf_push(&sbuf, 4, "IPv6 Bck. Adjacency-SID: %u", + attr->adj_sid[ADJ_BCK_IPV6].sid); + sbuf_push(&sbuf, 0, "\tFlags: 0x%x\tWeight: 0x%x\n", + attr->adj_sid[ADJ_BCK_IPV6].flags, + attr->adj_sid[ADJ_BCK_IPV6].weight); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_SRLG)) { + sbuf_push(&sbuf, 4, "SRLGs: %d", attr->srlg_len); + for (int i = 1; i < attr->srlg_len; i++) { + if (i % 8) + sbuf_push(&sbuf, 8, "\n%u", attr->srlgs[i]); + else + sbuf_push(&sbuf, 8, ", %u", attr->srlgs[i]); + } + sbuf_push(&sbuf, 0, "\n"); + } + +end: + vty_out(vty, "%s\n", sbuf_buf(&sbuf)); + sbuf_free(&sbuf); +} + +static void ls_show_edge_json(struct ls_edge *edge, struct json_object *json) +{ + struct ls_attributes *attr; + struct json_object *jte, *jbw, *jobj, *jsr = NULL, *jsrlg; + char buf[INET6_BUFSIZ]; + + attr = edge->attributes; + + json_object_int_add(json, "edge-id", edge->key); + json_object_string_add(json, "status", status2txt[edge->status]); + json_object_string_add(json, "origin", origin2txt[attr->adv.origin]); + ls_node_id_to_text(attr->adv, buf, INET6_BUFSIZ); + json_object_string_add(json, "advertised-router", buf); + if (edge->source) + json_object_int_add(json, "local-vertex-id", edge->source->key); + if (edge->destination) + json_object_int_add(json, "remote-vertex-id", + edge->destination->key); + json_object_int_add(json, "metric", attr->metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_NAME)) + json_object_string_add(json, "name", attr->name); + jte = json_object_new_object(); + json_object_object_add(json, "edge-attributes", jte); + if (CHECK_FLAG(attr->flags, LS_ATTR_TE_METRIC)) + json_object_int_add(jte, "te-metric", attr->standard.te_metric); + if (CHECK_FLAG(attr->flags, LS_ATTR_ADM_GRP)) + json_object_int_add(jte, "admin-group", + attr->standard.admin_group); + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI4", &attr->standard.local); + json_object_string_add(jte, "local-address", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI4", &attr->standard.remote); + json_object_string_add(jte, "remote-address", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ADDR6)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI6", &attr->standard.local6); + json_object_string_add(jte, "local-address-v6", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ADDR6)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI6", &attr->standard.remote6); + json_object_string_add(jte, "remote-address-v6", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_LOCAL_ID)) + json_object_int_add(jte, "local-identifier", + attr->standard.local_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_NEIGH_ID)) + json_object_int_add(jte, "remote-identifier", + attr->standard.remote_id); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_BW)) + json_object_double_add(jte, "max-link-bandwidth", + attr->standard.max_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_MAX_RSV_BW)) + json_object_double_add(jte, "max-resv-link-bandwidth", + attr->standard.max_rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_UNRSV_BW)) { + jbw = json_object_new_array(); + json_object_object_add(jte, "unreserved-bandwidth", jbw); + for (int i = 0; i < MAX_CLASS_TYPE; i++) { + jobj = json_object_new_object(); + snprintfrr(buf, 13, "class-type-%u", i); + json_object_double_add(jobj, buf, + attr->standard.unrsv_bw[i]); + json_object_array_add(jbw, jobj); + } + } + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_AS)) + json_object_int_add(jte, "remote-asn", + attr->standard.remote_as); + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI4", + &attr->standard.remote_addr); + json_object_string_add(jte, "remote-as-address", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_REMOTE_ADDR6)) { + snprintfrr(buf, INET6_BUFSIZ, "%pI6", + &attr->standard.remote_addr6); + json_object_string_add(jte, "remote-as-address-v6", buf); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_DELAY)) + json_object_int_add(jte, "delay", attr->extended.delay); + if (CHECK_FLAG(attr->flags, LS_ATTR_MIN_MAX_DELAY)) { + json_object_int_add(jte, "min-delay", attr->extended.min_delay); + json_object_int_add(jte, "max-delay", attr->extended.max_delay); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_JITTER)) + json_object_int_add(jte, "jitter", attr->extended.jitter); + if (CHECK_FLAG(attr->flags, LS_ATTR_PACKET_LOSS)) + json_object_double_add( + jte, "loss", attr->extended.pkt_loss * LOSS_PRECISION); + if (CHECK_FLAG(attr->flags, LS_ATTR_AVA_BW)) + json_object_double_add(jte, "available-bandwidth", + attr->extended.ava_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_RSV_BW)) + json_object_double_add(jte, "residual-bandwidth", + attr->extended.rsv_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_USE_BW)) + json_object_double_add(jte, "utilized-bandwidth", + attr->extended.used_bw); + if (CHECK_FLAG(attr->flags, LS_ATTR_SRLG)) { + jsrlg = json_object_new_array(); + json_object_object_add(jte, "srlgs", jsrlg); + for (int i = 1; i < attr->srlg_len; i++) { + jobj = json_object_new_object(); + json_object_int_add(jobj, "srlg", attr->srlgs[i]); + json_object_array_add(jsrlg, jobj); + } + } + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID)) { + jsr = json_object_new_array(); + json_object_object_add(json, "segment-routing", jsr); + jobj = json_object_new_object(); + json_object_int_add(jobj, "adj-sid", + attr->adj_sid[ADJ_PRI_IPV4].sid); + snprintfrr(buf, 6, "0x%x", attr->adj_sid[ADJ_PRI_IPV4].flags); + json_object_string_add(jobj, "flags", buf); + json_object_int_add(jobj, "weight", + attr->adj_sid[ADJ_PRI_IPV4].weight); + json_object_array_add(jsr, jobj); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID)) { + if (!jsr) { + jsr = json_object_new_array(); + json_object_object_add(json, "segment-routing", jsr); + } + jobj = json_object_new_object(); + json_object_int_add(jobj, "adj-sid", + attr->adj_sid[ADJ_BCK_IPV4].sid); + snprintfrr(buf, 6, "0x%x", attr->adj_sid[ADJ_BCK_IPV4].flags); + json_object_string_add(jobj, "flags", buf); + json_object_int_add(jobj, "weight", + attr->adj_sid[ADJ_BCK_IPV4].weight); + json_object_array_add(jsr, jobj); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_ADJ_SID6)) { + jsr = json_object_new_array(); + json_object_object_add(json, "segment-routing", jsr); + jobj = json_object_new_object(); + json_object_int_add(jobj, "adj-sid", + attr->adj_sid[ADJ_PRI_IPV6].sid); + snprintfrr(buf, 6, "0x%x", attr->adj_sid[ADJ_PRI_IPV6].flags); + json_object_string_add(jobj, "flags", buf); + json_object_int_add(jobj, "weight", + attr->adj_sid[ADJ_PRI_IPV6].weight); + json_object_array_add(jsr, jobj); + } + if (CHECK_FLAG(attr->flags, LS_ATTR_BCK_ADJ_SID6)) { + if (!jsr) { + jsr = json_object_new_array(); + json_object_object_add(json, "segment-routing", jsr); + } + jobj = json_object_new_object(); + json_object_int_add(jobj, "adj-sid", + attr->adj_sid[ADJ_BCK_IPV6].sid); + snprintfrr(buf, 6, "0x%x", attr->adj_sid[ADJ_BCK_IPV6].flags); + json_object_string_add(jobj, "flags", buf); + json_object_int_add(jobj, "weight", + attr->adj_sid[ADJ_BCK_IPV6].weight); + json_object_array_add(jsr, jobj); + } +} + +void ls_show_edge(struct ls_edge *edge, struct vty *vty, + struct json_object *json, bool verbose) +{ + /* Sanity Check */ + if (!edge) + return; + + if (json) + ls_show_edge_json(edge, json); + else if (vty) + ls_show_edge_vty(edge, vty, verbose); +} + +void ls_show_edges(struct ls_ted *ted, struct vty *vty, + struct json_object *json, bool verbose) +{ + struct ls_edge *edge; + json_object *jedges, *jedge; + + if (json) { + jedges = json_object_new_array(); + json_object_object_add(json, "edges", jedges); + frr_each (edges, &ted->edges, edge) { + jedge = json_object_new_object(); + ls_show_edge(edge, NULL, jedge, verbose); + json_object_array_add(jedges, jedge); + } + } else if (vty) { + frr_each (edges, &ted->edges, edge) + ls_show_edge(edge, vty, NULL, verbose); + } +} + +static void ls_show_subnet_vty(struct ls_subnet *subnet, struct vty *vty, + bool verbose) +{ + struct ls_prefix *pref; + struct sbuf sbuf; + char buf[INET6_BUFSIZ]; + + pref = subnet->ls_pref; + sbuf_init(&sbuf, NULL, 0); + + sbuf_push(&sbuf, 2, "Subnet: %pFX", &subnet->key); + ls_node_id_to_text(pref->adv, buf, INET6_BUFSIZ); + sbuf_push(&sbuf, 0, "\tAdv. Vertex: %s", buf); + sbuf_push(&sbuf, 0, "\tMetric: %d", pref->metric); + sbuf_push(&sbuf, 0, "\tStatus: %s\n", status2txt[subnet->status]); + + if (!verbose) + goto end; + + sbuf_push(&sbuf, 4, "Origin: %s\n", origin2txt[pref->adv.origin]); + if (CHECK_FLAG(pref->flags, LS_PREF_IGP_FLAG)) + sbuf_push(&sbuf, 4, "Flags: %d\n", pref->igp_flag); + + if (CHECK_FLAG(pref->flags, LS_PREF_ROUTE_TAG)) + sbuf_push(&sbuf, 4, "Tag: %d\n", pref->route_tag); + + if (CHECK_FLAG(pref->flags, LS_PREF_EXTENDED_TAG)) + sbuf_push(&sbuf, 4, "Extended Tag: %" PRIu64 "\n", + pref->extended_tag); + + if (CHECK_FLAG(pref->flags, LS_PREF_SR)) + sbuf_push(&sbuf, 4, "SID: %d\tAlgorithm: %d\tFlags: 0x%x\n", + pref->sr.sid, pref->sr.algo, pref->sr.sid_flag); + +end: + vty_out(vty, "%s\n", sbuf_buf(&sbuf)); + sbuf_free(&sbuf); +} + +static void ls_show_subnet_json(struct ls_subnet *subnet, + struct json_object *json) +{ + struct ls_prefix *pref; + json_object *jsr; + char buf[INET6_BUFSIZ]; + + pref = subnet->ls_pref; + + snprintfrr(buf, INET6_BUFSIZ, "%pFX", &subnet->key); + json_object_string_add(json, "subnet-id", buf); + json_object_string_add(json, "status", status2txt[subnet->status]); + json_object_string_add(json, "origin", origin2txt[pref->adv.origin]); + ls_node_id_to_text(pref->adv, buf, INET6_BUFSIZ); + json_object_string_add(json, "advertised-router", buf); + if (subnet->vertex) + json_object_int_add(json, "vertex-id", subnet->vertex->key); + json_object_int_add(json, "metric", pref->metric); + if (CHECK_FLAG(pref->flags, LS_PREF_IGP_FLAG)) { + snprintfrr(buf, INET6_BUFSIZ, "0x%x", pref->igp_flag); + json_object_string_add(json, "flags", buf); + } + if (CHECK_FLAG(pref->flags, LS_PREF_ROUTE_TAG)) + json_object_int_add(json, "tag", pref->route_tag); + if (CHECK_FLAG(pref->flags, LS_PREF_EXTENDED_TAG)) + json_object_int_add(json, "extended-tag", pref->extended_tag); + if (CHECK_FLAG(pref->flags, LS_PREF_SR)) { + jsr = json_object_new_object(); + json_object_object_add(json, "segment-routing", jsr); + json_object_int_add(jsr, "pref-sid", pref->sr.sid); + json_object_int_add(jsr, "algo", pref->sr.algo); + snprintfrr(buf, INET6_BUFSIZ, "0x%x", pref->sr.sid_flag); + json_object_string_add(jsr, "flags", buf); + } +} + +void ls_show_subnet(struct ls_subnet *subnet, struct vty *vty, + struct json_object *json, bool verbose) +{ + /* Sanity Check */ + if (!subnet) + return; + + if (json) + ls_show_subnet_json(subnet, json); + else if (vty) + ls_show_subnet_vty(subnet, vty, verbose); +} + +void ls_show_subnets(struct ls_ted *ted, struct vty *vty, + struct json_object *json, bool verbose) +{ + struct ls_subnet *subnet; + json_object *jsubs, *jsub; + + if (json) { + jsubs = json_object_new_array(); + json_object_object_add(json, "subnets", jsubs); + frr_each (subnets, &ted->subnets, subnet) { + jsub = json_object_new_object(); + ls_show_subnet(subnet, NULL, jsub, verbose); + json_object_array_add(jsubs, jsub); + } + } else if (vty) { + frr_each (subnets, &ted->subnets, subnet) + ls_show_subnet(subnet, vty, NULL, verbose); + } +} + +void ls_show_ted(struct ls_ted *ted, struct vty *vty, struct json_object *json, + bool verbose) +{ + json_object *jted; + + if (json) { + jted = json_object_new_object(); + json_object_object_add(json, "ted", jted); + json_object_string_add(jted, "name", ted->name); + json_object_int_add(jted, "key", ted->key); + json_object_int_add(jted, "verticesCount", + vertices_count(&ted->vertices)); + json_object_int_add(jted, "edgesCount", + edges_count(&ted->edges)); + json_object_int_add(jted, "subnetsCount", + subnets_count(&ted->subnets)); + ls_show_vertices(ted, NULL, jted, verbose); + ls_show_edges(ted, NULL, jted, verbose); + ls_show_subnets(ted, NULL, jted, verbose); + return; + } + + if (vty) { + vty_out(vty, + "\n\tTraffic Engineering Database: %s (key: %d)\n\n", + ted->name, ted->key); + ls_show_vertices(ted, vty, NULL, verbose); + ls_show_edges(ted, vty, NULL, verbose); + ls_show_subnets(ted, vty, NULL, verbose); + vty_out(vty, + "\n\tTotal: %zu Vertices, %zu Edges, %zu Subnets\n\n", + vertices_count(&ted->vertices), + edges_count(&ted->edges), subnets_count(&ted->subnets)); + } +} + +void ls_dump_ted(struct ls_ted *ted) +{ + struct ls_vertex *vertex; + struct ls_edge *edge; + struct ls_subnet *subnet; + const struct in_addr inaddr_any = {.s_addr = INADDR_ANY}; + + zlog_debug("(%s) Ted init", __func__); + + /* Loop TED, start printing Node, then Attributes and finally Prefix */ + frr_each (vertices, &ted->vertices, vertex) { + zlog_debug(" Ted node (%s %pI4 %s)", + vertex->node->name[0] ? vertex->node->name + : "no name node", + &vertex->node->router_id, + origin2txt[vertex->node->adv.origin]); + struct listnode *lst_node; + struct ls_edge *vertex_edge; + + for (ALL_LIST_ELEMENTS_RO(vertex->incoming_edges, lst_node, + vertex_edge)) { + zlog_debug( + " inc edge key:%" PRIu64 " attr key:%pI4 loc:(%pI4) rmt:(%pI4)", + vertex_edge->key, + &vertex_edge->attributes->adv.id.ip.addr, + &vertex_edge->attributes->standard.local, + &vertex_edge->attributes->standard.remote); + } + for (ALL_LIST_ELEMENTS_RO(vertex->outgoing_edges, lst_node, + vertex_edge)) { + zlog_debug( + " out edge key:%" PRIu64 " attr key:%pI4 loc:(%pI4) rmt:(%pI4)", + vertex_edge->key, + &vertex_edge->attributes->adv.id.ip.addr, + &vertex_edge->attributes->standard.local, + &vertex_edge->attributes->standard.remote); + } + } + frr_each (edges, &ted->edges, edge) { + zlog_debug(" Ted edge key:%" PRIu64 "src:%pI4 dst:%pI4", edge->key, + edge->source ? &edge->source->node->router_id + : &inaddr_any, + edge->destination + ? &edge->destination->node->router_id + : &inaddr_any); + } + frr_each (subnets, &ted->subnets, subnet) { + zlog_debug(" Ted subnet key:%pFX vertex:%pI4", + &subnet->ls_pref->pref, + &subnet->vertex->node->adv.id.ip.addr); + } + zlog_debug("(%s) Ted end", __func__); +} |