/* * sr_steering.c: ipv6 segment routing steering into SR policy * * Copyright (c) 2016 Cisco and/or its affiliates. Licensed under the Apache * License, Version 2.0 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. */ /** * @file * @brief Packet steering into SR-MPLS Policies * * This file is in charge of handling the FIB appropiatly to steer packets * through SR Policies as defined in 'sr_mpls_policy.c'. Notice that here * we are only doing steering. SR policy application is done in * sr_policy_rewrite.c * * Supports: * - Steering of IPv6 traffic Destination Address based through BSID * - Steering of IPv4 traffic Destination Address based through BSID * - Steering of IPv4 and IPv6 traffic through N,C (SR CP) */ #include #include #include #include #include #include #include #include #define SRMPLS_TE_OFFSET 50 /** * @brief function to sort the colors in descending order */ int sort_color_descent (const u32 * x, u32 * y) { return *y - *x; } /********************* Internal (NH, C) labels *******************************/ /** * @brief find the corresponding label for (endpoint, color) and lock it * endpoint might be NULL or ANY * NULL = 0, ANY=~0 */ u32 find_or_create_internal_label (ip46_address_t endpoint, u32 color) { mpls_sr_main_t *sm = &sr_mpls_main; uword *color_table, *result_label; if (!sm->sr_policies_c2e2eclabel_hash.hash) mhash_init (&sm->sr_policies_c2e2eclabel_hash, sizeof (mhash_t), sizeof (u32)); color_table = mhash_get (&sm->sr_policies_c2e2eclabel_hash, &color); if (!color_table) { mhash_t color_t; clib_memset (&color_t, 0, sizeof (mhash_t)); mhash_init (&color_t, sizeof (u32), sizeof (ip46_address_t)); mhash_set_mem (&sm->sr_policies_c2e2eclabel_hash, &color, (uword *) & color_t, NULL); color_table = mhash_get (&sm->sr_policies_c2e2eclabel_hash, &color); } result_label = mhash_get ((mhash_t *) color_table, &endpoint); if (result_label) return (u32) * result_label; /* Create and set a new internal label */ u32 *new_internal_label = 0; pool_get (sm->ec_labels, new_internal_label); *new_internal_label = 0; mhash_set ((mhash_t *) color_table, &endpoint, (new_internal_label - sm->ec_labels) + SRMPLS_TE_OFFSET, NULL); return (new_internal_label - sm->ec_labels) + SRMPLS_TE_OFFSET; } always_inline void internal_label_lock_co (ip46_address_t endpoint, u32 color, char co_bits) { ip46_address_t zero, any; ip46_address_reset (&zero); any.as_u64[0] = any.as_u64[1] = (u64) ~ 0; switch (co_bits) { case SR_TE_CO_BITS_10: internal_label_lock (endpoint, color); internal_label_lock (zero, color); internal_label_lock (any, color); break; case SR_TE_CO_BITS_01: internal_label_lock (endpoint, color); internal_label_lock (zero, color); break; case SR_TE_CO_BITS_00: case SR_TE_CO_BITS_11: internal_label_lock (endpoint, color); break; } } /** * @brief lock the label for (NH, C) * endpoint might be NULL or ANY * NULL = 0, ANY=~0 */ void internal_label_lock (ip46_address_t endpoint, u32 color) { mpls_sr_main_t *sm = &sr_mpls_main; uword *color_table, *result_label; if (!sm->sr_policies_c2e2eclabel_hash.hash) return; color_table = mhash_get (&sm->sr_policies_c2e2eclabel_hash, &color); if (!color_table) return; result_label = mhash_get ((mhash_t *) color_table, &endpoint); if (!result_label) return; /* Lock it */ u32 *label_lock = pool_elt_at_index (sm->ec_labels, *result_label - SRMPLS_TE_OFFSET); (*label_lock)++; } always_inline void internal_label_unlock_co (ip46_address_t endpoint, u32 color, char co_bits) { ip46_address_t zero, any; ip46_address_reset (&zero); any.as_u64[0] = any.as_u64[1] = (u64) ~ 0; switch (co_bits) { case SR_TE_CO_BITS_10: internal_label_unlock (endpoint, color); internal_label_unlock (zero, color); internal_label_unlock (any, color); break; case SR_TE_CO_BITS_01: internal_label_unlock (endpoint, color); internal_label_unlock (zero, color); break; case SR_TE_CO_BITS_00: case SR_TE_CO_BITS_11: internal_label_unlock (endpoint, color); break; } } /** * @brief Release lock on label for (endpoint, color) * endpoint might be NULL or ANY * NULL = 0, ANY=~0 */ void internal_label_unlock (ip46_address_t endpoint, u32 color) { mpls_sr_main_t *sm = &sr_mpls_main; uword *color_table, *result_label; if (!sm->sr_policies_c2e2eclabel_hash.hash) return; color_table = mhash_get (&sm->sr_policies_c2e2eclabel_hash, &color); if (!color_table) return; result_label = mhash_get ((mhash_t *) color_table, &endpoint); if (!result_label) return; u32 *label_lock = pool_elt_at_index (sm->ec_labels, *result_label - SRMPLS_TE_OFFSET); (*label_lock)--; if (*label_lock == 0) { pool_put (sm->ec_labels, label_lock); mhash_unset ((mhash_t *) color_table, &endpoint, NULL); if (mhash_elts ((mhash_t *) color_table) == 0) { mhash_free ((mhash_t *) color_table); mhash_unset (&sm->sr_policies_c2e2eclabel_hash, &color, NULL); if (mhash_elts (&sm->sr_policies_c2e2eclabel_hash) == 0) { mhash_free (&sm->sr_policies_c2e2eclabel_hash); sm->sr_policies_c2e2eclabel_hash.hash = NULL; fib_table_unlock (sm->fib_table_EC, FIB_PROTOCOL_MPLS, FIB_SOURCE_SR); sm->fib_table_EC = (u32) ~ 0; } } } } /********************* steering computation *********************************/ /** * @brief function to update the FIB */ void compute_sr_te_automated_steering_fib_entry (mpls_sr_steering_policy_t * steer_pl) { mpls_sr_main_t *sm = &sr_mpls_main; fib_prefix_t pfx = { 0 }; u32 *internal_labels = 0; ip46_address_t zero, any; ip46_address_reset (&zero); any.as_u64[0] = any.as_u64[1] = (u64) ~ 0; u32 *color_i = NULL; vec_foreach (color_i, steer_pl->color) { switch (steer_pl->co_bits) { case SR_TE_CO_BITS_10: vec_add1 (internal_labels, find_or_create_internal_label (steer_pl->next_hop, *color_i)); vec_add1 (internal_labels, find_or_create_internal_label (zero, *color_i)); vec_add1 (internal_labels, find_or_create_internal_label (any, *color_i)); break; case SR_TE_CO_BITS_01: vec_add1 (internal_labels, find_or_create_internal_label (steer_pl->next_hop, *color_i)); vec_add1 (internal_labels, find_or_create_internal_label (zero, *color_i)); break; case SR_TE_CO_BITS_00: case SR_TE_CO_BITS_11: vec_add1 (internal_labels, find_or_create_internal_label (steer_pl->next_hop, *color_i)); break; } } /* Does hidden FIB already exist? */ if (sm->fib_table_EC == (u32) ~ 0) { sm->fib_table_EC = fib_table_create_and_lock (FIB_PROTOCOL_MPLS, FIB_SOURCE_SR, "SR-MPLS Traffic Engineering (NextHop,Color)"); fib_table_flush (sm->fib_table_EC, FIB_PROTOCOL_MPLS, FIB_SOURCE_SPECIAL); } /* Add the corresponding FIB entries */ fib_route_path_t path = { .frp_proto = DPO_PROTO_MPLS, .frp_eos = MPLS_EOS, .frp_sw_if_index = ~0, .frp_fib_index = sm->fib_table_EC, .frp_weight = 1, .frp_flags = FIB_ROUTE_PATH_FLAG_NONE, .frp_label_stack = 0 }; fib_route_path_t *paths = NULL; if (steer_pl->classify.traffic_type == SR_STEER_IPV6) { pfx.fp_proto = FIB_PROTOCOL_IP6; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip6 = steer_pl->classify.prefix.ip6; } else if (steer_pl->classify.traffic_type == SR_STEER_IPV4) { pfx.fp_proto = FIB_PROTOCOL_IP4; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip4 = steer_pl->classify.prefix.ip4; } if (steer_pl->vpn_label != (u32) ~ 0) { fib_mpls_label_t fml = { .fml_value = steer_pl->vpn_label, }; vec_add1 (path.frp_label_stack, fml); path.frp_eos = MPLS_NON_EOS; } u32 label_i; vec_foreach_index (label_i, internal_labels) { path.frp_local_label = internal_labels[label_i]; path.frp_preference = label_i; vec_add1 (paths, path); } /* Finally we must add to FIB IGP to N */ clib_memcpy (&path.frp_addr, &steer_pl->next_hop, sizeof (steer_pl->next_hop)); path.frp_preference = vec_len (internal_labels); path.frp_label_stack = NULL; if (steer_pl->nh_type == SR_STEER_IPV6) { path.frp_proto = DPO_PROTO_IP6; path.frp_fib_index = fib_table_find (FIB_PROTOCOL_IP6, (steer_pl->classify.fib_table != (u32) ~ 0 ? steer_pl->classify.fib_table : 0)); } else if (steer_pl->nh_type == SR_STEER_IPV4) { path.frp_proto = DPO_PROTO_IP4; path.frp_fib_index = fib_table_find (FIB_PROTOCOL_IP4, (steer_pl->classify.fib_table != (u32) ~ 0 ? steer_pl->classify.fib_table : 0)); } vec_add1 (paths, path); if (steer_pl->classify.traffic_type == SR_STEER_IPV6) fib_table_entry_update (fib_table_find (FIB_PROTOCOL_IP6, (steer_pl->classify.fib_table != (u32) ~ 0 ? steer_pl->classify.fib_table : 0)), &pfx, FIB_SOURCE_SR, FIB_ENTRY_FLAG_LOOSE_URPF_EXEMPT, paths); else if (steer_pl->classify.traffic_type == SR_STEER_IPV4) fib_table_entry_update (fib_table_find (FIB_PROTOCOL_IP4, (steer_pl->classify.fib_table != (u32) ~ 0 ? steer_pl->classify.fib_table : 0)), &pfx, FIB_SOURCE_SR, FIB_ENTRY_FLAG_LOOSE_URPF_EXEMPT, paths); vec_free (paths); paths = NULL; } /** * @brief Steer traffic L3 traffic through a given SR-MPLS policy * * @param is_del * @param bsid is the bindingSID of the SR Policy (alt to sr_policy_index) * @param sr_policy is the index of the SR Policy (alt to bsid) * @param table_id is the VRF where to install the FIB entry for the BSID * @param prefix is the IPv4/v6 address for L3 traffic type * @param mask_width is the mask for L3 traffic type * @param traffic_type describes the type of traffic * @param next_hop SR TE Next-Hop * @param nh_type is the AF of Next-Hop * @param color SR TE color * @param co_bits SR TE color-only bits * * @return 0 if correct, else error */ int sr_mpls_steering_policy_add (mpls_label_t bsid, u32 table_id, ip46_address_t * prefix, u32 mask_width, u8 traffic_type, ip46_address_t * next_hop, u8 nh_type, u32 color, char co_bits, mpls_label_t vpn_label) { mpls_sr_main_t *sm = &sr_mpls_main; sr_mpls_steering_key_t key; mpls_sr_steering_policy_t *steer_pl; fib_prefix_t pfx = { 0 }; mpls_sr_policy_t *sr_policy = 0; uword *p = 0; clib_memset (&key, 0, sizeof (sr_mpls_steering_key_t)); if (traffic_type != SR_STEER_IPV4 && traffic_type != SR_STEER_IPV6) return -1; /* Compute the steer policy key */ key.prefix.as_u64[0] = prefix->as_u64[0]; key.prefix.as_u64[1] = prefix->as_u64[1]; key.mask_width = mask_width; key.fib_table = (table_id != (u32) ~ 0 ? table_id : 0); key.traffic_type = traffic_type; /* * Search for steering policy. If already exists we are adding a new * color. */ if (!sm->sr_steer_policies_hash.hash) mhash_init (&sm->sr_steer_policies_hash, sizeof (uword), sizeof (sr_mpls_steering_key_t)); p = mhash_get (&sm->sr_steer_policies_hash, &key); if (p) { steer_pl = pool_elt_at_index (sm->steer_policies, p[0]); if (steer_pl->bsid != (u32) ~ 0) return -1; //Means we are rewritting the steering. Not allowed. /* Means we are adding a color. Check that NH match. */ if (ip46_address_cmp (&steer_pl->next_hop, next_hop)) return -2; if (vec_search (steer_pl->color, color) != ~0) return -3; if (steer_pl->co_bits != co_bits) return -4; /* CO colors should be the same */ if (steer_pl->vpn_label != vpn_label) return -5; /* VPN label should be the same */ /* Remove the steering and ReDo it */ vec_add1 (steer_pl->color, color); vec_sort_with_function (steer_pl->color, sort_color_descent); compute_sr_te_automated_steering_fib_entry (steer_pl); internal_label_lock_co (steer_pl->next_hop, color, steer_pl->co_bits); return 0; } /* Create a new steering policy */ pool_get (sm->steer_policies, steer_pl); clib_memset (steer_pl, 0, sizeof (*steer_pl)); clib_memcpy (&steer_pl->classify.prefix, prefix, sizeof (ip46_address_t)); clib_memcpy (&steer_pl->next_hop, next_hop, sizeof (ip46_address_t)); steer_pl->nh_type = nh_type; steer_pl->co_bits = co_bits; steer_pl->classify.mask_width = mask_width; steer_pl->classify.fib_table = (table_id != (u32) ~ 0 ? table_id : 0); steer_pl->classify.traffic_type = traffic_type; steer_pl->color = NULL; steer_pl->vpn_label = vpn_label; /* Create and store key */ mhash_set (&sm->sr_steer_policies_hash, &key, steer_pl - sm->steer_policies, NULL); /* Local steering */ if (bsid != (u32) ~ 0) { if (!sm->sr_policies_index_hash) sm->sr_policies_index_hash = hash_create (0, sizeof (mpls_label_t)); steer_pl->bsid = bsid; p = hash_get (sm->sr_policies_index_hash, bsid); if (!p) return -1; sr_policy = pool_elt_at_index (sm->sr_policies, p[0]); fib_route_path_t path = { .frp_proto = DPO_PROTO_MPLS, .frp_local_label = sr_policy->bsid, .frp_eos = MPLS_EOS, .frp_sw_if_index = ~0, .frp_fib_index = 0, .frp_weight = 1, .frp_flags = FIB_ROUTE_PATH_FLAG_NONE, .frp_label_stack = 0 }; fib_route_path_t *paths = NULL; if (steer_pl->vpn_label != (u32) ~ 0) { fib_mpls_label_t fml = { .fml_value = steer_pl->vpn_label, }; vec_add1 (path.frp_label_stack, fml); } /* FIB API calls - Recursive route through the BindingSID */ if (traffic_type == SR_STEER_IPV6) { pfx.fp_proto = FIB_PROTOCOL_IP6; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip6 = steer_pl->classify.prefix.ip6; path.frp_fib_index = 0; path.frp_preference = 0; vec_add1 (paths, path); fib_table_entry_path_add2 (fib_table_find (FIB_PROTOCOL_IP6, (table_id != (u32) ~ 0 ? table_id : 0)), &pfx, FIB_SOURCE_SR, FIB_ENTRY_FLAG_LOOSE_URPF_EXEMPT, paths); vec_free (paths); } else if (traffic_type == SR_STEER_IPV4) { pfx.fp_proto = FIB_PROTOCOL_IP4; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip4 = steer_pl->classify.prefix.ip4; path.frp_fib_index = 0; path.frp_preference = 0; vec_add1 (paths, path); fib_table_entry_path_add2 (fib_table_find (FIB_PROTOCOL_IP4, (table_id != (u32) ~ 0 ? table_id : 0)), &pfx, FIB_SOURCE_SR, FIB_ENTRY_FLAG_LOOSE_URPF_EXEMPT, paths); vec_free (paths); } } /* Automated steering */ else { steer_pl->bsid = (u32) ~ 0; vec_add1 (steer_pl->color, color); compute_sr_te_automated_steering_fib_entry (steer_pl); internal_label_lock_co (steer_pl->next_hop, color, steer_pl->co_bits); } return 0; } /** * @brief Delete steering rule for an SR-MPLS policy * * @param is_del * @param bsid is the bindingSID of the SR Policy (alt to sr_policy_index) * @param sr_policy is the index of the SR Policy (alt to bsid) * @param table_id is the VRF where to install the FIB entry for the BSID * @param prefix is the IPv4/v6 address for L3 traffic type * @param mask_width is the mask for L3 traffic type * @param traffic_type describes the type of traffic * @param next_hop SR TE Next-HOP * @param nh_type is the AF of Next-Hop * @param color SR TE color * * @return 0 if correct, else error */ int sr_mpls_steering_policy_del (ip46_address_t * prefix, u32 mask_width, u8 traffic_type, u32 table_id, u32 color) { mpls_sr_main_t *sm = &sr_mpls_main; sr_mpls_steering_key_t key; mpls_sr_steering_policy_t *steer_pl; fib_prefix_t pfx = { 0 }; uword *p = 0; clib_memset (&key, 0, sizeof (sr_mpls_steering_key_t)); /* Compute the steer policy key */ if (traffic_type != SR_STEER_IPV4 && traffic_type != SR_STEER_IPV6) return -1; key.prefix.as_u64[0] = prefix->as_u64[0]; key.prefix.as_u64[1] = prefix->as_u64[1]; key.mask_width = mask_width; key.fib_table = (table_id != (u32) ~ 0 ? table_id : 0); key.traffic_type = traffic_type; if (!sm->sr_steer_policies_hash.hash) mhash_init (&sm->sr_steer_policies_hash, sizeof (uword), sizeof (sr_mpls_steering_key_t)); /* Search for the item */ p = mhash_get (&sm->sr_steer_policies_hash, &key); if (!p) return -1; /* Retrieve Steer Policy function */ steer_pl = pool_elt_at_index (sm->steer_policies, p[0]); if (steer_pl->bsid == (u32) ~ 0) { /* Remove the color from the color vector */ vec_del1 (steer_pl->color, vec_search (steer_pl->color, color)); if (vec_len (steer_pl->color)) { /* Reorder Colors */ vec_sort_with_function (steer_pl->color, sort_color_descent); compute_sr_te_automated_steering_fib_entry (steer_pl); /* Remove all the locks for this ones... */ internal_label_unlock_co (steer_pl->next_hop, color, steer_pl->co_bits); return 0; } else { vec_free (steer_pl->color); /* Remove FIB entry */ if (steer_pl->classify.traffic_type == SR_STEER_IPV6) { pfx.fp_proto = FIB_PROTOCOL_IP6; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip6 = steer_pl->classify.prefix.ip6; fib_table_entry_delete (fib_table_find (FIB_PROTOCOL_IP6, steer_pl->classify.fib_table), &pfx, FIB_SOURCE_SR); } else if (steer_pl->classify.traffic_type == SR_STEER_IPV4) { pfx.fp_proto = FIB_PROTOCOL_IP4; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip4 = steer_pl->classify.prefix.ip4; fib_table_entry_delete (fib_table_find (FIB_PROTOCOL_IP4, steer_pl->classify.fib_table), &pfx, FIB_SOURCE_SR); } /* Remove all the locks for this ones... */ internal_label_unlock_co (steer_pl->next_hop, color, steer_pl->co_bits); } } else //Remove by BSID { if (steer_pl->classify.traffic_type == SR_STEER_IPV6) { pfx.fp_proto = FIB_PROTOCOL_IP6; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip6 = steer_pl->classify.prefix.ip6; fib_table_entry_delete (fib_table_find (FIB_PROTOCOL_IP6, steer_pl->classify.fib_table), &pfx, FIB_SOURCE_SR); } else if (steer_pl->classify.traffic_type == SR_STEER_IPV4) { pfx.fp_proto = FIB_PROTOCOL_IP4; pfx.fp_len = steer_pl->classify.mask_width; pfx.fp_addr.ip4 = steer_pl->classify.prefix.ip4; fib_table_entry_delete (fib_table_find (FIB_PROTOCOL_IP4, steer_pl->classify.fib_table), &pfx, FIB_SOURCE_SR); } } /* Delete SR steering policy entry */ pool_put (sm->steer_policies, steer_pl); mhash_unset (&sm->sr_steer_policies_hash, &key, NULL); if (mhash_elts (&sm->sr_steer_policies_hash) == 0) { mhash_free (&sm->sr_steer_policies_hash); sm->sr_steer_policies_hash.hash = NULL; } return 0; } static clib_error_t * sr_mpls_steer_policy_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { int is_del = 0; ip46_address_t prefix, nh; u32 dst_mask_width = 0; u8 traffic_type = 0; u8 nh_type = 0; u32 fib_table = (u32) ~ 0, color = (u32) ~ 0; u32 co_bits = 0; mpls_label_t bsid, vpn_label = (u32) ~ 0; u8 sr_policy_set = 0; clib_memset (&prefix, 0, sizeof (ip46_address_t)); clib_memset (&nh, 0, sizeof (ip46_address_t)); int rv; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "del")) is_del = 1; else if (!traffic_type && unformat (input, "l3 %U/%d", unformat_ip6_address, &prefix.ip6, &dst_mask_width)) traffic_type = SR_STEER_IPV6; else if (!traffic_type && unformat (input, "l3 %U/%d", unformat_ip4_address, &prefix.ip4, &dst_mask_width)) traffic_type = SR_STEER_IPV4; else if (!sr_policy_set && unformat (input, "via sr policy bsid %U", unformat_mpls_unicast_label, &bsid)) sr_policy_set = 1; else if (!sr_policy_set && unformat (input, "via next-hop %U color %d co %d", unformat_ip4_address, &nh.ip4, &color, &co_bits)) { sr_policy_set = 1; nh_type = SR_STEER_IPV4; } else if (!sr_policy_set && unformat (input, "via next-hop %U color %d co %d", unformat_ip6_address, &nh.ip6, &color, &co_bits)) { sr_policy_set = 1; nh_type = SR_STEER_IPV6; } else if (fib_table == (u32) ~ 0 && unformat (input, "fib-table %d", &fib_table)); else if (unformat (input, "vpn-label %U", unformat_mpls_unicast_label, &vpn_label)); else break; } if (!traffic_type) return clib_error_return (0, "No L3 traffic specified"); if (!sr_policy_set) return clib_error_return (0, "No SR policy specified"); /* Make sure that the prefixes are clean */ if (traffic_type == SR_STEER_IPV4) { u32 mask = (dst_mask_width ? (0xFFFFFFFFu >> (32 - dst_mask_width)) : 0); prefix.ip4.as_u32 &= mask; } else if (traffic_type == SR_STEER_IPV6) { ip6_address_t mask; ip6_address_mask_from_width (&mask, dst_mask_width); ip6_address_mask (&prefix.ip6, &mask); } if (nh_type) bsid = (u32) ~ 0; if (is_del) rv = sr_mpls_steering_policy_del (&prefix, dst_mask_width, traffic_type, fib_table, color); else rv = sr_mpls_steering_policy_add (bsid, fib_table, &prefix, dst_mask_width, traffic_type, &nh, nh_type, color, co_bits, vpn_label); switch (rv) { case 0: break; case 1: return 0; case -1: return clib_error_return (0, "Incorrect API usage."); case -2: return clib_error_return (0, "The Next-Hop does not match."); case -3: return clib_error_return (0, "The color already exists."); case -4: return clib_error_return (0, "The co-bits do not match."); case -5: return clib_error_return (0, "The VPN-labels do not match."); default: return clib_error_return (0, "BUG: sr steer policy returns %d", rv); } return 0; } VLIB_CLI_COMMAND(sr_mpls_steer_policy_command, static)= { .path = "sr mpls steer", .short_help = "sr mpls steer (del) l3 " "via [sr policy bsid || next-hop color co <0|1|2|3> ](fib-table )(vpn-label 500)", .long_help = "\tSteer L3 traffic through an existing SR policy.\n" "\tExamples:\n" "\t\tsr steer l3 2001::/64 via sr_policy bsid 29999\n" "\t\tsr steer del l3 2001::/64 via sr_policy bsid 29999\n" "\t\tsr steer l3 2001::/64 via next-hop 1.1.1.1 color 1234 co 0\n" "\t\tsr steer l3 2001::/64 via next-hop 2001::1 color 1234 co 2 vpn-label 500\n", .function = sr_mpls_steer_policy_command_fn, }; static clib_error_t * show_sr_mpls_steering_policies_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { mpls_sr_main_t *sm = &sr_mpls_main; mpls_sr_steering_policy_t **steer_policies = 0; mpls_sr_steering_policy_t *steer_pl; int i; vlib_cli_output (vm, "SR MPLS steering policies:"); pool_foreach (steer_pl, sm->steer_policies) { vec_add1(steer_policies, steer_pl); } for (i = 0; i < vec_len (steer_policies); i++) { vlib_cli_output (vm, "=========================="); steer_pl = steer_policies[i]; if (steer_pl->classify.traffic_type == SR_STEER_IPV4) { vlib_cli_output (vm, "Prefix: %U/%d via:", format_ip4_address, &steer_pl->classify.prefix.ip4, steer_pl->classify.mask_width); } else if (steer_pl->classify.traffic_type == SR_STEER_IPV6) { vlib_cli_output (vm, "Prefix: %U/%d via:", format_ip6_address, &steer_pl->classify.prefix.ip6, steer_pl->classify.mask_width); } if (steer_pl->bsid != (u32) ~ 0) { vlib_cli_output (vm, "· BSID %U", format_mpls_unicast_label, steer_pl->bsid); } else { if (steer_pl->nh_type == SR_STEER_IPV4) { vlib_cli_output (vm, "· Next-hop %U", format_ip4_address, &steer_pl->next_hop.ip4); } else if (steer_pl->nh_type == SR_STEER_IPV6) { vlib_cli_output (vm, "· Next-hop %U", format_ip6_address, &steer_pl->next_hop.ip6); } u32 *color_i = 0; u8 *s = NULL; s = format (s, "[ "); vec_foreach (color_i, steer_pl->color) { s = format (s, "%d, ", *color_i); } s = format (s, "\b\b ]"); vlib_cli_output (vm, "· Color %s", s); switch (steer_pl->co_bits) { case SR_TE_CO_BITS_00: vlib_cli_output (vm, "· CO-bits: 00"); break; case SR_TE_CO_BITS_01: vlib_cli_output (vm, "· CO-bits: 01"); break; case SR_TE_CO_BITS_10: vlib_cli_output (vm, "· CO-bits: 10"); break; case SR_TE_CO_BITS_11: vlib_cli_output (vm, "· CO-bits: 11"); break; } } } return 0; } VLIB_CLI_COMMAND(show_sr_mpls_steering_policies_command, static)= { .path = "show sr mpls steering policies", .short_help = "show sr mpls steering policies", .function = show_sr_mpls_steering_policies_command_fn, }; clib_error_t * sr_mpls_steering_init (vlib_main_t * vm) { mpls_sr_main_t *sm = &sr_mpls_main; /* Init memory for function keys */ sm->sr_steer_policies_hash.hash = NULL; sm->fib_table_EC = (u32) ~ 0; sm->ec_labels = 0; return 0; } VLIB_INIT_FUNCTION(sr_mpls_steering_init); /* * fd.io coding-style-patch-verification: ON * * Local Variables: eval: (c-set-style "gnu") End: */