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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* This is an implementation of Segment Routing for IS-IS as per RFC 8667
*
* Copyright (C) 2019 Orange http://www.orange.com
*
* Author: Olivier Dugeon <olivier.dugeon@orange.com>
* Contributor: Renato Westphal <renato@opensourcerouting.org> for NetDEF
*/
#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 "srcdest_table.h"
#include "vty.h"
#include "zclient.h"
#include "lib/lib_errors.h"
#include "isisd/isisd.h"
#include "isisd/isis_spf.h"
#include "isisd/isis_spf_private.h"
#include "isisd/isis_adjacency.h"
#include "isisd/isis_route.h"
#include "isisd/isis_mt.h"
#include "isisd/isis_sr.h"
#include "isisd/isis_tlvs.h"
#include "isisd/isis_misc.h"
#include "isisd/isis_zebra.h"
#include "isisd/isis_errors.h"
/* Local variables and functions */
DEFINE_MTYPE_STATIC(ISISD, ISIS_SR_INFO, "ISIS segment routing information");
static void sr_local_block_delete(struct isis_area *area);
static int sr_local_block_init(struct isis_area *area);
static void sr_adj_sid_update(struct sr_adjacency *sra,
struct sr_local_block *srlb);
static void sr_adj_sid_del(struct sr_adjacency *sra);
/* --- RB-Tree Management functions ----------------------------------------- */
/**
* Configured SR Prefix comparison for RB-Tree.
*
* @param a First SR prefix
* @param b Second SR prefix
*
* @return -1 (a < b), 0 (a == b) or +1 (a > b)
*/
static inline int sr_prefix_sid_cfg_compare(const struct sr_prefix_cfg *a,
const struct sr_prefix_cfg *b)
{
int ret;
ret = prefix_cmp(&a->prefix, &b->prefix);
if (ret != 0)
return ret;
ret = a->algorithm - b->algorithm;
if (ret != 0)
return ret;
return 0;
}
DECLARE_RBTREE_UNIQ(srdb_prefix_cfg, struct sr_prefix_cfg, entry,
sr_prefix_sid_cfg_compare);
/**
* Find SRGB associated to a System ID.
*
* @param area IS-IS LSP database
* @param sysid System ID to lookup
*
* @return Pointer to SRGB if found, NULL otherwise
*/
struct isis_sr_block *isis_sr_find_srgb(struct lspdb_head *lspdb,
const uint8_t *sysid)
{
struct isis_lsp *lsp;
lsp = isis_root_system_lsp(lspdb, sysid);
if (!lsp)
return NULL;
if (!lsp->tlvs->router_cap
|| lsp->tlvs->router_cap->srgb.range_size == 0)
return NULL;
return &lsp->tlvs->router_cap->srgb;
}
/**
* Compute input label for the given Prefix-SID.
*
* @param area IS-IS area
* @param psid IS-IS Prefix-SID Sub-TLV
* @param local Indicates whether the Prefix-SID is local or not
*
* @return MPLS label or MPLS_INVALID_LABEL in case of SRGB overflow
*/
mpls_label_t sr_prefix_in_label(struct isis_area *area,
struct isis_prefix_sid *psid, bool local)
{
/*
* No need to assign a label for local Prefix-SIDs unless the no-PHP
* flag is set.
*/
if (local
&& (!CHECK_FLAG(psid->flags, ISIS_PREFIX_SID_NO_PHP)
|| CHECK_FLAG(psid->flags, ISIS_PREFIX_SID_EXPLICIT_NULL)))
return MPLS_INVALID_LABEL;
/* Return SID value as MPLS label if it is an Absolute SID */
if (CHECK_FLAG(psid->flags,
ISIS_PREFIX_SID_VALUE | ISIS_PREFIX_SID_LOCAL))
return psid->value;
/* Check that SID index falls inside the SRGB */
if (psid->value >= (area->srdb.config.srgb_upper_bound
- area->srdb.config.srgb_lower_bound + 1)) {
flog_warn(EC_ISIS_SID_OVERFLOW,
"%s: SID index %u falls outside local SRGB range",
__func__, psid->value);
return MPLS_INVALID_LABEL;
}
/* Return MPLS label as SID index + SRGB_lower_bound as per RFC 8667 */
return (area->srdb.config.srgb_lower_bound + psid->value);
}
/**
* Compute output label for the given Prefix-SID.
*
* @param lspdb IS-IS LSP database
* @param family Prefix-SID address family
* @param psid Prefix-SID Sub-TLV
* @param nh_sysid System ID of the nexthop node
* @param last_hop Indicates whether the nexthop node is the last hop
*
* @return MPLS label or MPLS_INVALID_LABEL in case of error
*/
mpls_label_t sr_prefix_out_label(struct lspdb_head *lspdb, int family,
struct isis_prefix_sid *psid,
const uint8_t *nh_sysid, bool last_hop)
{
struct isis_sr_block *nh_srgb;
if (last_hop) {
if (!CHECK_FLAG(psid->flags, ISIS_PREFIX_SID_NO_PHP))
return MPLS_LABEL_IMPLICIT_NULL;
if (CHECK_FLAG(psid->flags, ISIS_PREFIX_SID_EXPLICIT_NULL)) {
if (family == AF_INET)
return MPLS_LABEL_IPV4_EXPLICIT_NULL;
else
return MPLS_LABEL_IPV6_EXPLICIT_NULL;
}
/* Fallthrough */
}
/* Return SID value as MPLS label if it is an Absolute SID */
if (CHECK_FLAG(psid->flags,
ISIS_PREFIX_SID_VALUE | ISIS_PREFIX_SID_LOCAL)) {
/*
* V/L SIDs have local significance, so only adjacent routers
* can use them (RFC8667 section #2.1.1.1)
*/
if (!last_hop)
return MPLS_INVALID_LABEL;
return psid->value;
}
/* Check that SID index falls inside the SRGB */
nh_srgb = isis_sr_find_srgb(lspdb, nh_sysid);
if (!nh_srgb)
return MPLS_INVALID_LABEL;
/*
* Check if the nexthop can handle SR-MPLS encapsulated IPv4 or
* IPv6 packets.
*/
if ((family == AF_INET && !IS_SR_IPV4(nh_srgb))
|| (family == AF_INET6 && !IS_SR_IPV6(nh_srgb)))
return MPLS_INVALID_LABEL;
if (psid->value >= nh_srgb->range_size) {
flog_warn(EC_ISIS_SID_OVERFLOW,
"%s: SID index %u falls outside remote SRGB range",
__func__, psid->value);
return MPLS_INVALID_LABEL;
}
/* Return MPLS label as SID index + SRGB_lower_bound as per RFC 8667 */
return (nh_srgb->lower_bound + psid->value);
}
/* --- Functions used for Yang model and CLI to configure Segment Routing --- */
/**
* Check if prefix correspond to a Node SID.
*
* @param ifp Interface
* @param prefix Prefix to be checked
*
* @return True if the interface/address pair corresponds to a Node-SID
*/
static bool sr_prefix_is_node_sid(const struct interface *ifp,
const struct prefix *prefix)
{
return (if_is_loopback(ifp) && is_host_route(prefix));
}
/**
* Update local SRGB configuration. SRGB is reserved though Label Manager.
* This function trigger the update of local Prefix-SID installation.
*
* @param area IS-IS area
* @param lower_bound Lower bound of SRGB
* @param upper_bound Upper bound of SRGB
*
* @return 0 on success, -1 otherwise
*/
int isis_sr_cfg_srgb_update(struct isis_area *area, uint32_t lower_bound,
uint32_t upper_bound)
{
struct isis_sr_db *srdb = &area->srdb;
sr_debug("ISIS-Sr (%s): Update SRGB with new range [%u/%u]",
area->area_tag, lower_bound, upper_bound);
/* Just store new SRGB values if Label Manager is not available.
* SRGB will be configured later when SR start */
if (!isis_zebra_label_manager_ready()) {
srdb->config.srgb_lower_bound = lower_bound;
srdb->config.srgb_upper_bound = upper_bound;
return 0;
}
/* Label Manager is ready, start by releasing the old SRGB. */
if (srdb->srgb_active) {
isis_zebra_release_label_range(srdb->config.srgb_lower_bound,
srdb->config.srgb_upper_bound);
srdb->srgb_active = false;
}
srdb->config.srgb_lower_bound = lower_bound;
srdb->config.srgb_upper_bound = upper_bound;
if (srdb->enabled) {
/* then request new SRGB if SR is enabled. */
if (isis_zebra_request_label_range(
srdb->config.srgb_lower_bound,
srdb->config.srgb_upper_bound
- srdb->config.srgb_lower_bound + 1) < 0) {
srdb->srgb_active = false;
return -1;
} else
srdb->srgb_active = true;
sr_debug(" |- Got new SRGB [%u/%u]",
srdb->config.srgb_lower_bound,
srdb->config.srgb_upper_bound);
lsp_regenerate_schedule(area, area->is_type, 0);
} else if (srdb->config.enabled) {
/* Try to enable SR again using the new SRGB. */
isis_sr_start(area);
}
return 0;
}
/**
* Update Segment Routing Local Block range which is reserved though the
* Label Manager. This function trigger the update of local Adjacency-SID
* installation.
*
* @param area IS-IS area
* @param lower_bound Lower bound of SRLB
* @param upper_bound Upper bound of SRLB
*
* @return 0 on success, -1 otherwise
*/
int isis_sr_cfg_srlb_update(struct isis_area *area, uint32_t lower_bound,
uint32_t upper_bound)
{
struct isis_sr_db *srdb = &area->srdb;
struct listnode *node;
struct sr_adjacency *sra;
sr_debug("ISIS-Sr (%s): Update SRLB with new range [%u/%u]",
area->area_tag, lower_bound, upper_bound);
/* Just store new SRLB values if Label Manager is not available.
* SRLB will be configured later when SR start */
if (!isis_zebra_label_manager_ready()) {
srdb->config.srlb_lower_bound = lower_bound;
srdb->config.srlb_upper_bound = upper_bound;
return 0;
}
/* LM is ready, start by deleting the old SRLB */
sr_local_block_delete(area);
srdb->config.srlb_lower_bound = lower_bound;
srdb->config.srlb_upper_bound = upper_bound;
if (srdb->enabled) {
/* Initialize new SRLB */
if (sr_local_block_init(area) != 0)
return -1;
/* Reinstall local Adjacency-SIDs with new labels. */
for (ALL_LIST_ELEMENTS_RO(area->srdb.adj_sids, node, sra))
sr_adj_sid_update(sra, &srdb->srlb);
/* Update and Flood LSP */
lsp_regenerate_schedule(area, area->is_type, 0);
} else if (srdb->config.enabled) {
/* Try to enable SR again using the new SRLB. */
isis_sr_start(area);
}
return 0;
}
/**
* Add new Prefix-SID configuration to the SRDB.
*
* @param area IS-IS area
* @param prefix Prefix to be added
*
* @return Newly added Prefix-SID configuration structure
*/
struct sr_prefix_cfg *isis_sr_cfg_prefix_add(struct isis_area *area,
const struct prefix *prefix,
uint8_t algorithm)
{
struct sr_prefix_cfg *pcfg;
struct interface *ifp;
sr_debug("ISIS-Sr (%s): Add local prefix %pFX", area->area_tag, prefix);
pcfg = XCALLOC(MTYPE_ISIS_SR_INFO, sizeof(*pcfg));
pcfg->prefix = *prefix;
pcfg->area = area;
pcfg->algorithm = algorithm;
/* Pull defaults from the YANG module. */
pcfg->sid_type = yang_get_default_enum(
"%s/prefix-sid-map/prefix-sid/sid-value-type", ISIS_SR);
pcfg->last_hop_behavior = yang_get_default_enum(
"%s/prefix-sid-map/prefix-sid/last-hop-behavior", ISIS_SR);
/* Mark as node Sid if the prefix is host and configured in loopback */
ifp = if_lookup_prefix(prefix, VRF_DEFAULT);
if (ifp && sr_prefix_is_node_sid(ifp, prefix))
pcfg->node_sid = true;
/* Save prefix-sid configuration. */
srdb_prefix_cfg_add(&area->srdb.config.prefix_sids, pcfg);
return pcfg;
}
/**
* Removal of locally configured Prefix-SID.
*
* @param pcfg Configured Prefix-SID
*/
void isis_sr_cfg_prefix_del(struct sr_prefix_cfg *pcfg)
{
struct isis_area *area = pcfg->area;
sr_debug("ISIS-Sr (%s): Delete local Prefix-SID %pFX %s %u",
area->area_tag, &pcfg->prefix,
pcfg->sid_type == SR_SID_VALUE_TYPE_INDEX ? "index" : "label",
pcfg->sid);
srdb_prefix_cfg_del(&area->srdb.config.prefix_sids, pcfg);
XFREE(MTYPE_ISIS_SR_INFO, pcfg);
}
/**
* Lookup for Prefix-SID in the local configuration.
*
* @param area IS-IS area
* @param prefix Prefix to lookup
*
* @return Configured Prefix-SID structure if found, NULL otherwise
*/
struct sr_prefix_cfg *isis_sr_cfg_prefix_find(struct isis_area *area,
union prefixconstptr prefix,
uint8_t algorithm)
{
struct sr_prefix_cfg pcfg = {};
prefix_copy(&pcfg.prefix, prefix.p);
pcfg.algorithm = algorithm;
return srdb_prefix_cfg_find(&area->srdb.config.prefix_sids, &pcfg);
}
/**
* Fill in Prefix-SID Sub-TLV according to the corresponding configuration.
*
* @param pcfg Prefix-SID configuration
* @param external False if prefix is locally configured, true otherwise
* @param psid Prefix-SID sub-TLV to be updated
*/
void isis_sr_prefix_cfg2subtlv(const struct sr_prefix_cfg *pcfg, bool external,
struct isis_prefix_sid *psid)
{
/* Set SID algorithm. */
psid->algorithm = pcfg->algorithm;
/* Set SID flags. */
psid->flags = 0;
switch (pcfg->last_hop_behavior) {
case SR_LAST_HOP_BEHAVIOR_EXP_NULL:
SET_FLAG(psid->flags, ISIS_PREFIX_SID_NO_PHP);
SET_FLAG(psid->flags, ISIS_PREFIX_SID_EXPLICIT_NULL);
break;
case SR_LAST_HOP_BEHAVIOR_NO_PHP:
SET_FLAG(psid->flags, ISIS_PREFIX_SID_NO_PHP);
UNSET_FLAG(psid->flags, ISIS_PREFIX_SID_EXPLICIT_NULL);
break;
case SR_LAST_HOP_BEHAVIOR_PHP:
UNSET_FLAG(psid->flags, ISIS_PREFIX_SID_NO_PHP);
UNSET_FLAG(psid->flags, ISIS_PREFIX_SID_EXPLICIT_NULL);
break;
}
if (external)
SET_FLAG(psid->flags, ISIS_PREFIX_SID_READVERTISED);
if (pcfg->node_sid && !pcfg->n_flag_clear)
SET_FLAG(psid->flags, ISIS_PREFIX_SID_NODE);
/* Set SID value. */
psid->value = pcfg->sid;
if (pcfg->sid_type == SR_SID_VALUE_TYPE_ABSOLUTE) {
SET_FLAG(psid->flags, ISIS_PREFIX_SID_VALUE);
SET_FLAG(psid->flags, ISIS_PREFIX_SID_LOCAL);
}
}
/**
* Delete all backup Adj-SIDs.
*
* @param area IS-IS area
* @param level IS-IS level
*/
void isis_area_delete_backup_adj_sids(struct isis_area *area, int level)
{
struct sr_adjacency *sra;
struct listnode *node, *nnode;
for (ALL_LIST_ELEMENTS(area->srdb.adj_sids, node, nnode, sra))
if (sra->type == ISIS_SR_LAN_BACKUP
&& (sra->adj->level & level))
sr_adj_sid_del(sra);
}
/* --- Segment Routing Local Block management functions --------------------- */
/**
* Initialize Segment Routing Local Block from SRDB configuration and reserve
* block of bits to manage label allocation.
*
* @param area IS-IS area
*/
static int sr_local_block_init(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
struct sr_local_block *srlb = &srdb->srlb;
/* Check if SRLB is not already configured */
if (srlb->active)
return 0;
/*
* Request SRLB to the label manager. If the allocation fails, return
* an error to disable SR until a new SRLB is successfully allocated.
*/
if (isis_zebra_request_label_range(
srdb->config.srlb_lower_bound,
srdb->config.srlb_upper_bound
- srdb->config.srlb_lower_bound + 1)) {
srlb->active = false;
return -1;
}
sr_debug("ISIS-Sr (%s): Got new SRLB [%u/%u]", area->area_tag,
srdb->config.srlb_lower_bound, srdb->config.srlb_upper_bound);
/* Initialize the SRLB */
srlb->start = srdb->config.srlb_lower_bound;
srlb->end = srdb->config.srlb_upper_bound;
srlb->current = 0;
/* Compute the needed Used Mark number and allocate them */
srlb->max_block = (srlb->end - srlb->start + 1) / SRLB_BLOCK_SIZE;
if (((srlb->end - srlb->start + 1) % SRLB_BLOCK_SIZE) != 0)
srlb->max_block++;
srlb->used_mark = XCALLOC(MTYPE_ISIS_SR_INFO,
srlb->max_block * SRLB_BLOCK_SIZE);
srlb->active = true;
return 0;
}
/**
* Remove Segment Routing Local Block.
*
* @param area IS-IS area
*/
static void sr_local_block_delete(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
struct sr_local_block *srlb = &srdb->srlb;
/* Check if SRLB is not already delete */
if (!srlb->active)
return;
sr_debug("ISIS-Sr (%s): Remove SRLB [%u/%u]", area->area_tag,
srlb->start, srlb->end);
/* First release the label block */
isis_zebra_release_label_range(srdb->config.srlb_lower_bound,
srdb->config.srlb_upper_bound);
/* Then reset SRLB structure */
if (srlb->used_mark != NULL)
XFREE(MTYPE_ISIS_SR_INFO, srlb->used_mark);
srlb->active = false;
}
/**
* Request a label from the Segment Routing Local Block.
*
* @param srlb Segment Routing Local Block
*
* @return First available label on success or MPLS_INVALID_LABEL if the
* block of labels is full
*/
static mpls_label_t sr_local_block_request_label(struct sr_local_block *srlb)
{
mpls_label_t label;
uint32_t index;
uint32_t pos;
uint32_t size = srlb->end - srlb->start + 1;
/* Check if we ran out of available labels */
if (srlb->current >= size)
return MPLS_INVALID_LABEL;
/* Get first available label and mark it used */
label = srlb->current + srlb->start;
index = srlb->current / SRLB_BLOCK_SIZE;
pos = 1ULL << (srlb->current % SRLB_BLOCK_SIZE);
srlb->used_mark[index] |= pos;
/* Jump to the next free position */
srlb->current++;
pos = srlb->current % SRLB_BLOCK_SIZE;
while (srlb->current < size) {
if (pos == 0)
index++;
if (!((1ULL << pos) & srlb->used_mark[index]))
break;
else {
srlb->current++;
pos = srlb->current % SRLB_BLOCK_SIZE;
}
}
if (srlb->current == size)
zlog_warn(
"SR: Warning, SRLB is depleted and next label request will fail");
return label;
}
/**
* Release label in the Segment Routing Local Block.
*
* @param srlb Segment Routing Local Block
* @param label Label to be release
*
* @return 0 on success or -1 if label falls outside SRLB
*/
static int sr_local_block_release_label(struct sr_local_block *srlb,
mpls_label_t label)
{
uint32_t index;
uint32_t pos;
/* Check that label falls inside the SRLB */
if ((label < srlb->start) || (label > srlb->end)) {
flog_warn(EC_ISIS_SID_OVERFLOW,
"%s: Returning label %u is outside SRLB [%u/%u]",
__func__, label, srlb->start, srlb->end);
return -1;
}
index = (label - srlb->start) / SRLB_BLOCK_SIZE;
pos = 1ULL << ((label - srlb->start) % SRLB_BLOCK_SIZE);
srlb->used_mark[index] &= ~pos;
/* Reset current to the first available position */
for (index = 0; index < srlb->max_block; index++) {
if (srlb->used_mark[index] != 0xFFFFFFFFFFFFFFFF) {
for (pos = 0; pos < SRLB_BLOCK_SIZE; pos++)
if (!((1ULL << pos) & srlb->used_mark[index])) {
srlb->current =
index * SRLB_BLOCK_SIZE + pos;
break;
}
break;
}
}
return 0;
}
/* --- Segment Routing Adjacency-SID management functions ------------------- */
/**
* Add new local Adjacency-SID.
*
* @param adj IS-IS Adjacency
* @param family Inet Family (IPv4 or IPv6)
* @param backup True to initialize backup Adjacency SID
* @param nexthops List of backup nexthops (for backup Adj-SIDs only)
*/
void sr_adj_sid_add_single(struct isis_adjacency *adj, int family, bool backup,
struct list *nexthops)
{
struct isis_circuit *circuit = adj->circuit;
struct isis_area *area = circuit->area;
struct sr_adjacency *sra;
struct isis_adj_sid *adj_sid;
struct isis_lan_adj_sid *ladj_sid;
union g_addr nexthop = {};
uint8_t flags;
mpls_label_t input_label;
sr_debug("ISIS-Sr (%s): Add %s Adjacency SID", area->area_tag,
backup ? "Backup" : "Primary");
/* Determine nexthop IP address */
switch (family) {
case AF_INET:
if (!circuit->ip_router || !adj->ipv4_address_count)
return;
nexthop.ipv4 = adj->ipv4_addresses[0];
break;
case AF_INET6:
if (!circuit->ipv6_router || !adj->ll_ipv6_count)
return;
nexthop.ipv6 = adj->ll_ipv6_addrs[0];
break;
default:
flog_err(EC_LIB_DEVELOPMENT,
"%s: unexpected address-family: %u", __func__, family);
exit(1);
}
/* Prepare Segment Routing Adjacency as per RFC8667 section #2.2 */
flags = EXT_SUBTLV_LINK_ADJ_SID_VFLG | EXT_SUBTLV_LINK_ADJ_SID_LFLG;
if (family == AF_INET6)
SET_FLAG(flags, EXT_SUBTLV_LINK_ADJ_SID_FFLG);
if (backup)
SET_FLAG(flags, EXT_SUBTLV_LINK_ADJ_SID_BFLG);
/* Get a label from the SRLB for this Adjacency */
input_label = sr_local_block_request_label(&area->srdb.srlb);
if (input_label == MPLS_INVALID_LABEL)
return;
if (circuit->ext == NULL)
circuit->ext = isis_alloc_ext_subtlvs();
sra = XCALLOC(MTYPE_ISIS_SR_INFO, sizeof(*sra));
sra->type = backup ? ISIS_SR_LAN_BACKUP : ISIS_SR_ADJ_NORMAL;
sra->input_label = input_label;
sra->nexthop.family = family;
sra->nexthop.address = nexthop;
if (backup && nexthops) {
struct isis_vertex_adj *vadj;
struct listnode *node;
sra->backup_nexthops = list_new();
for (ALL_LIST_ELEMENTS_RO(nexthops, node, vadj)) {
struct isis_adjacency *adj = vadj->sadj->adj;
struct mpls_label_stack *label_stack;
label_stack = vadj->label_stack;
adjinfo2nexthop(family, sra->backup_nexthops, adj, NULL,
label_stack);
}
}
switch (circuit->circ_type) {
/* LAN Adjacency-SID for Broadcast interface section #2.2.2 */
case CIRCUIT_T_BROADCAST:
ladj_sid = XCALLOC(MTYPE_ISIS_SUBTLV, sizeof(*ladj_sid));
ladj_sid->family = family;
ladj_sid->flags = flags;
ladj_sid->weight = 0;
memcpy(ladj_sid->neighbor_id, adj->sysid,
sizeof(ladj_sid->neighbor_id));
ladj_sid->sid = input_label;
isis_tlvs_add_lan_adj_sid(circuit->ext, ladj_sid);
sra->u.ladj_sid = ladj_sid;
break;
/* Adjacency-SID for Point to Point interface section #2.2.1 */
case CIRCUIT_T_P2P:
adj_sid = XCALLOC(MTYPE_ISIS_SUBTLV, sizeof(*adj_sid));
adj_sid->family = family;
adj_sid->flags = flags;
adj_sid->weight = 0;
adj_sid->sid = input_label;
isis_tlvs_add_adj_sid(circuit->ext, adj_sid);
sra->u.adj_sid = adj_sid;
break;
default:
flog_err(EC_LIB_DEVELOPMENT, "%s: unexpected circuit type: %u",
__func__, circuit->circ_type);
exit(1);
}
/* Add Adjacency-SID in SRDB */
sra->adj = adj;
listnode_add(area->srdb.adj_sids, sra);
listnode_add(adj->adj_sids, sra);
isis_zebra_send_adjacency_sid(ZEBRA_MPLS_LABELS_ADD, sra);
}
/**
* Add Primary and Backup local Adjacency SID.
*
* @param adj IS-IS Adjacency
* @param family Inet Family (IPv4 or IPv6)
*/
static void sr_adj_sid_add(struct isis_adjacency *adj, int family)
{
sr_adj_sid_add_single(adj, family, false, NULL);
}
static void sr_adj_sid_update(struct sr_adjacency *sra,
struct sr_local_block *srlb)
{
struct isis_circuit *circuit = sra->adj->circuit;
/* First remove the old MPLS Label */
isis_zebra_send_adjacency_sid(ZEBRA_MPLS_LABELS_DELETE, sra);
/* Got new label in the new SRLB */
sra->input_label = sr_local_block_request_label(srlb);
if (sra->input_label == MPLS_INVALID_LABEL)
return;
switch (circuit->circ_type) {
case CIRCUIT_T_BROADCAST:
sra->u.ladj_sid->sid = sra->input_label;
break;
case CIRCUIT_T_P2P:
sra->u.adj_sid->sid = sra->input_label;
break;
default:
flog_warn(EC_LIB_DEVELOPMENT, "%s: unexpected circuit type: %u",
__func__, circuit->circ_type);
break;
}
/* Finally configure the new MPLS Label */
isis_zebra_send_adjacency_sid(ZEBRA_MPLS_LABELS_ADD, sra);
}
/**
* Delete local Adj-SID.
*
* @param sra Segment Routing Adjacency
*/
static void sr_adj_sid_del(struct sr_adjacency *sra)
{
struct isis_circuit *circuit = sra->adj->circuit;
struct isis_area *area = circuit->area;
sr_debug("ISIS-Sr (%s): Delete Adjacency SID", area->area_tag);
isis_zebra_send_adjacency_sid(ZEBRA_MPLS_LABELS_DELETE, sra);
/* Release dynamic label and remove subTLVs */
switch (circuit->circ_type) {
case CIRCUIT_T_BROADCAST:
sr_local_block_release_label(&area->srdb.srlb,
sra->u.ladj_sid->sid);
isis_tlvs_del_lan_adj_sid(circuit->ext, sra->u.ladj_sid);
break;
case CIRCUIT_T_P2P:
sr_local_block_release_label(&area->srdb.srlb,
sra->u.adj_sid->sid);
isis_tlvs_del_adj_sid(circuit->ext, sra->u.adj_sid);
break;
default:
flog_err(EC_LIB_DEVELOPMENT, "%s: unexpected circuit type: %u",
__func__, circuit->circ_type);
exit(1);
}
if (sra->type == ISIS_SR_LAN_BACKUP && sra->backup_nexthops) {
sra->backup_nexthops->del =
(void (*)(void *))isis_nexthop_delete;
list_delete(&sra->backup_nexthops);
}
/* Remove Adjacency-SID from the SRDB */
listnode_delete(area->srdb.adj_sids, sra);
listnode_delete(sra->adj->adj_sids, sra);
XFREE(MTYPE_ISIS_SR_INFO, sra);
}
/**
* Lookup Segment Routing Adj-SID by family and type.
*
* @param adj IS-IS Adjacency
* @param family Inet Family (IPv4 or IPv6)
* @param type Adjacency SID type
*/
struct sr_adjacency *isis_sr_adj_sid_find(struct isis_adjacency *adj,
int family, enum sr_adj_type type)
{
struct sr_adjacency *sra;
struct listnode *node;
for (ALL_LIST_ELEMENTS_RO(adj->adj_sids, node, sra))
if (sra->nexthop.family == family && sra->type == type)
return sra;
return NULL;
}
/**
* Remove all Adjacency-SIDs associated to an adjacency that is going down.
*
* @param adj IS-IS Adjacency
*
* @return 0
*/
static int sr_adj_state_change(struct isis_adjacency *adj)
{
struct sr_adjacency *sra;
struct listnode *node, *nnode;
if (!adj->circuit->area->srdb.enabled)
return 0;
if (adj->adj_state == ISIS_ADJ_UP)
return 0;
for (ALL_LIST_ELEMENTS(adj->adj_sids, node, nnode, sra))
sr_adj_sid_del(sra);
return 0;
}
/**
* When IS-IS Adjacency got one or more IPv4/IPv6 addresses, add new IPv4 or
* IPv6 address to corresponding Adjacency-SID accordingly.
*
* @param adj IS-IS Adjacency
* @param family Inet Family (IPv4 or IPv6)
* @param global Indicate if it concerns the Local or Global IPv6 addresses
*
* @return 0
*/
static int sr_adj_ip_enabled(struct isis_adjacency *adj, int family,
bool global)
{
if (!adj->circuit->area->srdb.enabled || global)
return 0;
sr_adj_sid_add(adj, family);
return 0;
}
/**
* When IS-IS Adjacency doesn't have any IPv4 or IPv6 addresses anymore,
* delete the corresponding Adjacency-SID(s) accordingly.
*
* @param adj IS-IS Adjacency
* @param family Inet Family (IPv4 or IPv6)
* @param global Indicate if it concerns the Local or Global IPv6 addresses
*
* @return 0
*/
static int sr_adj_ip_disabled(struct isis_adjacency *adj, int family,
bool global)
{
struct sr_adjacency *sra;
struct listnode *node, *nnode;
if (!adj->circuit->area->srdb.enabled || global)
return 0;
for (ALL_LIST_ELEMENTS(adj->adj_sids, node, nnode, sra))
if (sra->nexthop.family == family)
sr_adj_sid_del(sra);
return 0;
}
/**
* Update the Node-SID flag of the configured Prefix-SID mappings in response
* to an address addition or removal event.
*
* @param ifp Interface
*
* @return 0
*/
int sr_if_addr_update(struct interface *ifp)
{
struct sr_prefix_cfg *pcfgs[SR_ALGORITHM_COUNT] = {NULL};
struct isis_circuit *circuit;
struct isis_area *area;
struct connected *connected;
struct listnode *node;
bool need_lsp_regenerate = false;
/* Get corresponding circuit */
circuit = circuit_scan_by_ifp(ifp);
if (!circuit)
return 0;
area = circuit->area;
if (!area)
return 0;
FOR_ALL_INTERFACES_ADDRESSES (ifp, connected, node) {
for (int i = 0; i < SR_ALGORITHM_COUNT; i++) {
pcfgs[i] = isis_sr_cfg_prefix_find(
area, connected->address, i);
if (!pcfgs[i])
continue;
if (sr_prefix_is_node_sid(ifp, &pcfgs[i]->prefix)) {
pcfgs[i]->node_sid = true;
need_lsp_regenerate = true;
}
}
}
if (need_lsp_regenerate)
lsp_regenerate_schedule(area, area->is_type, 0);
return 0;
}
/**
* Show LFIB operation in human readable format.
*
* @param buf Buffer to store string output. Must be pre-allocate
* @param size Size of the buffer
* @param label_in Input Label
* @param label_out Output Label
*
* @return String containing LFIB operation in human readable format
*/
char *sr_op2str(char *buf, size_t size, mpls_label_t label_in,
mpls_label_t label_out)
{
if (size < 24)
return NULL;
if (label_in == MPLS_INVALID_LABEL) {
snprintf(buf, size, "no-op.");
return buf;
}
switch (label_out) {
case MPLS_LABEL_IMPLICIT_NULL:
snprintf(buf, size, "Pop(%u)", label_in);
break;
case MPLS_LABEL_IPV4_EXPLICIT_NULL:
case MPLS_LABEL_IPV6_EXPLICIT_NULL:
snprintf(buf, size, "Swap(%u, null)", label_in);
break;
case MPLS_INVALID_LABEL:
snprintf(buf, size, "no-op.");
break;
default:
snprintf(buf, size, "Swap(%u, %u)", label_in, label_out);
break;
}
return buf;
}
/**
* Show Segment Routing Node.
*
* @param vty VTY output
* @param area IS-IS area
* @param level IS-IS level
*/
static void show_node(struct vty *vty, struct isis_area *area, int level,
uint8_t algo)
{
struct isis_lsp *lsp;
struct ttable *tt;
char buf[128];
vty_out(vty, " IS-IS %s SR-Nodes:\n\n", circuit_t2string(level));
/* Prepare table. */
tt = ttable_new(&ttable_styles[TTSTYLE_BLANK]);
ttable_add_row(tt, "System ID|SRGB|SRLB|Algorithm|MSD");
tt->style.cell.rpad = 2;
tt->style.corner = '+';
ttable_restyle(tt);
ttable_rowseps(tt, 0, BOTTOM, true, '-');
frr_each (lspdb, &area->lspdb[level - 1], lsp) {
struct isis_router_cap *cap;
if (!lsp->tlvs)
continue;
cap = lsp->tlvs->router_cap;
if (!cap)
continue;
if (cap->algo[algo] == SR_ALGORITHM_UNSET)
continue;
if (cap->algo[algo] == SR_ALGORITHM_SPF)
snprintf(buf, sizeof(buf), "SPF");
else if (cap->algo[algo] == SR_ALGORITHM_STRICT_SPF)
snprintf(buf, sizeof(buf), "S-SPF");
#ifndef FABRICD
else
snprintf(buf, sizeof(buf), "Flex-Algo %d", algo);
#endif /* ifndef FABRICD */
ttable_add_row(tt, "%pSY|%u - %u|%u - %u|%s|%u",
lsp->hdr.lsp_id, cap->srgb.lower_bound,
cap->srgb.lower_bound + cap->srgb.range_size - 1,
cap->srlb.lower_bound,
cap->srlb.lower_bound + cap->srlb.range_size - 1,
buf, cap->msd);
}
/* Dump the generated table. */
if (tt->nrows > 1) {
char *table;
table = ttable_dump(tt, "\n");
vty_out(vty, "%s\n", table);
XFREE(MTYPE_TMP, table);
}
ttable_del(tt);
}
DEFUN(show_sr_node, show_sr_node_cmd,
"show " PROTO_NAME
" segment-routing node"
#ifndef FABRICD
" [algorithm (128-255)]"
#endif /* ifndef FABRICD */
,
SHOW_STR PROTO_HELP
"Segment-Routing\n"
"Segment-Routing node\n"
#ifndef FABRICD
"Show Flex-algo nodes\n"
"Algorithm number\n"
#endif /* ifndef FABRICD */
)
{
struct listnode *node, *inode;
struct isis_area *area;
uint8_t algorithm = SR_ALGORITHM_SPF;
struct isis *isis;
#ifndef FABRICD
int idx = 0;
if (argv_find(argv, argc, "algorithm", &idx))
algorithm = (uint8_t)strtoul(argv[idx + 1]->arg, NULL, 10);
#endif /* ifndef FABRICD */
for (ALL_LIST_ELEMENTS_RO(im->isis, inode, isis)) {
for (ALL_LIST_ELEMENTS_RO(isis->area_list, node, area)) {
vty_out(vty, "Area %s:\n",
area->area_tag ? area->area_tag : "null");
if (!area->srdb.enabled) {
vty_out(vty, " Segment Routing is disabled\n");
continue;
}
for (int level = ISIS_LEVEL1; level <= ISIS_LEVELS;
level++)
show_node(vty, area, level, algorithm);
}
}
return CMD_SUCCESS;
}
/* --- IS-IS Segment Routing Management function ---------------------------- */
/**
* Thread function to re-attempt connection to the Label Manager and thus be
* able to start Segment Routing.
*
* @param start Thread structure that contains area as argument
*
* @return 1 on success
*/
static void sr_start_label_manager(struct event *start)
{
struct isis_area *area;
area = EVENT_ARG(start);
/* re-attempt to start SR & Label Manager connection */
isis_sr_start(area);
}
/**
* Enable SR on the given IS-IS area.
*
* @param area IS-IS area
*
* @return 0 on success, -1 otherwise
*/
int isis_sr_start(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
struct isis_adjacency *adj;
struct listnode *node;
/* First start Label Manager if not ready */
if (!isis_zebra_label_manager_ready())
if (isis_zebra_label_manager_connect() < 0) {
/* Re-attempt to connect to Label Manager in 1 sec. */
event_add_timer(master, sr_start_label_manager, area, 1,
&srdb->t_start_lm);
return -1;
}
/* Label Manager is ready, initialize the SRLB */
if (sr_local_block_init(area) < 0)
return -1;
/*
* Request SGRB to the label manager if not already active. If the
* allocation fails, return an error to disable SR until a new SRGB
* is successfully allocated.
*/
if (!srdb->srgb_active) {
if (isis_zebra_request_label_range(
srdb->config.srgb_lower_bound,
srdb->config.srgb_upper_bound
- srdb->config.srgb_lower_bound + 1)
< 0) {
srdb->srgb_active = false;
return -1;
} else
srdb->srgb_active = true;
}
sr_debug("ISIS-Sr: Starting Segment Routing for area %s",
area->area_tag);
/* Create Adjacency-SIDs from existing IS-IS Adjacencies. */
for (ALL_LIST_ELEMENTS_RO(area->adjacency_list, node, adj)) {
if (adj->ipv4_address_count > 0)
sr_adj_sid_add(adj, AF_INET);
if (adj->ll_ipv6_count > 0)
sr_adj_sid_add(adj, AF_INET6);
}
area->srdb.enabled = true;
/* Regenerate LSPs to advertise Segment Routing capabilities. */
lsp_regenerate_schedule(area, area->is_type, 0);
return 0;
}
/**
* Disable SR on the given IS-IS area.
*
* @param area IS-IS area
*/
void isis_sr_stop(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
struct sr_adjacency *sra;
struct listnode *node, *nnode;
sr_debug("ISIS-Sr: Stopping Segment Routing for area %s",
area->area_tag);
/* Disable any re-attempt to connect to Label Manager */
EVENT_OFF(srdb->t_start_lm);
/* Uninstall all local Adjacency-SIDs. */
for (ALL_LIST_ELEMENTS(area->srdb.adj_sids, node, nnode, sra))
sr_adj_sid_del(sra);
/* Release SRGB if active. */
if (srdb->srgb_active) {
isis_zebra_release_label_range(srdb->config.srgb_lower_bound,
srdb->config.srgb_upper_bound);
srdb->srgb_active = false;
}
/* Delete SRLB */
sr_local_block_delete(area);
area->srdb.enabled = false;
/* Regenerate LSPs to advertise that the Node is no more SR enable. */
lsp_regenerate_schedule(area, area->is_type, 0);
}
/**
* IS-IS Segment Routing initialization for given area.
*
* @param area IS-IS area
*/
void isis_sr_area_init(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
sr_debug("ISIS-Sr (%s): Initialize Segment Routing SRDB",
area->area_tag);
/* Initialize Segment Routing Data Base */
memset(srdb, 0, sizeof(*srdb));
srdb->adj_sids = list_new();
/* Pull defaults from the YANG module. */
#ifndef FABRICD
srdb->config.enabled = yang_get_default_bool("%s/enabled", ISIS_SR);
srdb->config.srgb_lower_bound = yang_get_default_uint32(
"%s/label-blocks/srgb/lower-bound", ISIS_SR);
srdb->config.srgb_upper_bound = yang_get_default_uint32(
"%s/label-blocks/srgb/upper-bound", ISIS_SR);
srdb->config.srlb_lower_bound = yang_get_default_uint32(
"%s/label-blocks/srlb/lower-bound", ISIS_SR);
srdb->config.srlb_upper_bound = yang_get_default_uint32(
"%s/label-blocks/srlb/upper-bound", ISIS_SR);
#else
srdb->config.enabled = false;
srdb->config.srgb_lower_bound = SRGB_LOWER_BOUND;
srdb->config.srgb_upper_bound = SRGB_UPPER_BOUND;
srdb->config.srlb_lower_bound = SRLB_LOWER_BOUND;
srdb->config.srlb_upper_bound = SRLB_UPPER_BOUND;
#endif
srdb->config.msd = 0;
srdb_prefix_cfg_init(&srdb->config.prefix_sids);
}
/**
* Terminate IS-IS Segment Routing for the given area.
*
* @param area IS-IS area
*/
void isis_sr_area_term(struct isis_area *area)
{
struct isis_sr_db *srdb = &area->srdb;
/* Stop Segment Routing */
if (area->srdb.enabled)
isis_sr_stop(area);
/* Free Adjacency SID list */
list_delete(&srdb->adj_sids);
/* Clear Prefix-SID configuration. */
while (srdb_prefix_cfg_count(&srdb->config.prefix_sids) > 0) {
struct sr_prefix_cfg *pcfg;
pcfg = srdb_prefix_cfg_first(&srdb->config.prefix_sids);
isis_sr_cfg_prefix_del(pcfg);
}
}
/**
* IS-IS Segment Routing global initialization.
*/
void isis_sr_init(void)
{
install_element(VIEW_NODE, &show_sr_node_cmd);
/* Register hooks. */
hook_register(isis_adj_state_change_hook, sr_adj_state_change);
hook_register(isis_adj_ip_enabled_hook, sr_adj_ip_enabled);
hook_register(isis_adj_ip_disabled_hook, sr_adj_ip_disabled);
}
/**
* IS-IS Segment Routing global terminate.
*/
void isis_sr_term(void)
{
/* Unregister hooks. */
hook_unregister(isis_adj_state_change_hook, sr_adj_state_change);
hook_unregister(isis_adj_ip_enabled_hook, sr_adj_ip_enabled);
hook_unregister(isis_adj_ip_disabled_hook, sr_adj_ip_disabled);
}
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