/* * Copyright (c) 2015 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. */ #include #include #include #include /* for API error numbers */ #include /* for L2_INPUT_CLASSIFY_NEXT_xxx */ #include #include #include /** * @file * @brief N-tuple classifier */ vnet_classify_main_t vnet_classify_main; #if VALIDATION_SCAFFOLDING /* Validation scaffolding */ void mv (vnet_classify_table_t * t) { void *oldheap; oldheap = clib_mem_set_heap (t->mheap); clib_mem_validate (); clib_mem_set_heap (oldheap); } void rogue (vnet_classify_table_t * t) { int i, j, k; vnet_classify_entry_t *v, *save_v; u32 active_elements = 0; vnet_classify_bucket_t *b; for (i = 0; i < t->nbuckets; i++) { b = &t->buckets[i]; if (b->offset == 0) continue; save_v = vnet_classify_get_entry (t, b->offset); for (j = 0; j < (1 << b->log2_pages); j++) { for (k = 0; k < t->entries_per_page; k++) { v = vnet_classify_entry_at_index (t, save_v, j * t->entries_per_page + k); if (vnet_classify_entry_is_busy (v)) active_elements++; } } } if (active_elements != t->active_elements) clib_warning ("found %u expected %u elts", active_elements, t->active_elements); } #else void mv (vnet_classify_table_t * t) { } void rogue (vnet_classify_table_t * t) { } #endif void vnet_classify_register_unformat_l2_next_index_fn (unformat_function_t * fn) { vnet_classify_main_t *cm = &vnet_classify_main; vec_add1 (cm->unformat_l2_next_index_fns, fn); } void vnet_classify_register_unformat_ip_next_index_fn (unformat_function_t * fn) { vnet_classify_main_t *cm = &vnet_classify_main; vec_add1 (cm->unformat_ip_next_index_fns, fn); } void vnet_classify_register_unformat_acl_next_index_fn (unformat_function_t * fn) { vnet_classify_main_t *cm = &vnet_classify_main; vec_add1 (cm->unformat_acl_next_index_fns, fn); } void vnet_classify_register_unformat_policer_next_index_fn (unformat_function_t * fn) { vnet_classify_main_t *cm = &vnet_classify_main; vec_add1 (cm->unformat_policer_next_index_fns, fn); } void vnet_classify_register_unformat_opaque_index_fn (unformat_function_t * fn) { vnet_classify_main_t *cm = &vnet_classify_main; vec_add1 (cm->unformat_opaque_index_fns, fn); } vnet_classify_table_t * vnet_classify_new_table (vnet_classify_main_t *cm, const u8 *mask, u32 nbuckets, u32 memory_size, u32 skip_n_vectors, u32 match_n_vectors) { vnet_classify_table_t *t; void *oldheap; nbuckets = 1 << (max_log2 (nbuckets)); pool_get_aligned_zero (cm->tables, t, CLIB_CACHE_LINE_BYTES); vec_validate_aligned (t->mask, match_n_vectors - 1, sizeof (u32x4)); clib_memcpy_fast (t->mask, mask, match_n_vectors * sizeof (u32x4)); t->next_table_index = ~0; t->nbuckets = nbuckets; t->log2_nbuckets = max_log2 (nbuckets); t->match_n_vectors = match_n_vectors; t->skip_n_vectors = skip_n_vectors; t->entries_per_page = 2; t->mheap = clib_mem_create_heap (0, memory_size, 1 /* locked */ , "classify"); vec_validate_aligned (t->buckets, nbuckets - 1, CLIB_CACHE_LINE_BYTES); oldheap = clib_mem_set_heap (t->mheap); clib_spinlock_init (&t->writer_lock); clib_mem_set_heap (oldheap); return (t); } void vnet_classify_delete_table_index (vnet_classify_main_t * cm, u32 table_index, int del_chain) { vnet_classify_table_t *t; /* Tolerate multiple frees, up to a point */ if (pool_is_free_index (cm->tables, table_index)) return; t = pool_elt_at_index (cm->tables, table_index); if (del_chain && t->next_table_index != ~0) /* Recursively delete the entire chain */ vnet_classify_delete_table_index (cm, t->next_table_index, del_chain); vec_free (t->mask); vec_free (t->buckets); clib_mem_destroy_heap (t->mheap); pool_put (cm->tables, t); } static vnet_classify_entry_t * vnet_classify_entry_alloc (vnet_classify_table_t * t, u32 log2_pages) { vnet_classify_entry_t *rv = 0; u32 required_length; void *oldheap; CLIB_SPINLOCK_ASSERT_LOCKED (&t->writer_lock); required_length = (sizeof (vnet_classify_entry_t) + (t->match_n_vectors * sizeof (u32x4))) * t->entries_per_page * (1 << log2_pages); if (log2_pages >= vec_len (t->freelists) || t->freelists[log2_pages] == 0) { oldheap = clib_mem_set_heap (t->mheap); vec_validate (t->freelists, log2_pages); rv = clib_mem_alloc_aligned (required_length, CLIB_CACHE_LINE_BYTES); clib_mem_set_heap (oldheap); goto initialize; } rv = t->freelists[log2_pages]; t->freelists[log2_pages] = rv->next_free; initialize: ASSERT (rv); clib_memset (rv, 0xff, required_length); return rv; } static void vnet_classify_entry_free (vnet_classify_table_t * t, vnet_classify_entry_t * v, u32 log2_pages) { CLIB_SPINLOCK_ASSERT_LOCKED (&t->writer_lock); ASSERT (vec_len (t->freelists) > log2_pages); v->next_free = t->freelists[log2_pages]; t->freelists[log2_pages] = v; } static inline void make_working_copy (vnet_classify_table_t * t, vnet_classify_bucket_t * b) { vnet_classify_entry_t *v; vnet_classify_bucket_t working_bucket __attribute__ ((aligned (8))); void *oldheap; vnet_classify_entry_t *working_copy; u32 thread_index = vlib_get_thread_index (); int working_copy_length, required_length; if (thread_index >= vec_len (t->working_copies)) { oldheap = clib_mem_set_heap (t->mheap); vec_validate (t->working_copies, thread_index); vec_validate (t->working_copy_lengths, thread_index); t->working_copy_lengths[thread_index] = -1; clib_mem_set_heap (oldheap); } /* * working_copies are per-cpu so that near-simultaneous * updates from multiple threads will not result in sporadic, spurious * lookup failures. */ working_copy = t->working_copies[thread_index]; working_copy_length = t->working_copy_lengths[thread_index]; required_length = (sizeof (vnet_classify_entry_t) + (t->match_n_vectors * sizeof (u32x4))) * t->entries_per_page * (1 << b->log2_pages); t->saved_bucket.as_u64 = b->as_u64; oldheap = clib_mem_set_heap (t->mheap); if (required_length > working_copy_length) { if (working_copy) clib_mem_free (working_copy); working_copy = clib_mem_alloc_aligned (required_length, CLIB_CACHE_LINE_BYTES); t->working_copies[thread_index] = working_copy; } clib_mem_set_heap (oldheap); v = vnet_classify_get_entry (t, b->offset); clib_memcpy_fast (working_copy, v, required_length); working_bucket.as_u64 = b->as_u64; working_bucket.offset = vnet_classify_get_offset (t, working_copy); CLIB_MEMORY_BARRIER (); b->as_u64 = working_bucket.as_u64; t->working_copies[thread_index] = working_copy; } static vnet_classify_entry_t * split_and_rehash (vnet_classify_table_t * t, vnet_classify_entry_t * old_values, u32 old_log2_pages, u32 new_log2_pages) { vnet_classify_entry_t *new_values, *v, *new_v; int i, j, length_in_entries; new_values = vnet_classify_entry_alloc (t, new_log2_pages); length_in_entries = (1 << old_log2_pages) * t->entries_per_page; for (i = 0; i < length_in_entries; i++) { u64 new_hash; v = vnet_classify_entry_at_index (t, old_values, i); if (vnet_classify_entry_is_busy (v)) { /* Hack so we can use the packet hash routine */ u8 *key_minus_skip; key_minus_skip = (u8 *) v->key; key_minus_skip -= t->skip_n_vectors * sizeof (u32x4); new_hash = vnet_classify_hash_packet (t, key_minus_skip); new_hash >>= t->log2_nbuckets; new_hash &= (1 << new_log2_pages) - 1; for (j = 0; j < t->entries_per_page; j++) { new_v = vnet_classify_entry_at_index (t, new_values, new_hash + j); if (vnet_classify_entry_is_free (new_v)) { clib_memcpy_fast (new_v, v, sizeof (vnet_classify_entry_t) + (t->match_n_vectors * sizeof (u32x4))); new_v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); goto doublebreak; } } /* Crap. Tell caller to try again */ vnet_classify_entry_free (t, new_values, new_log2_pages); return 0; doublebreak: ; } } return new_values; } static vnet_classify_entry_t * split_and_rehash_linear (vnet_classify_table_t * t, vnet_classify_entry_t * old_values, u32 old_log2_pages, u32 new_log2_pages) { vnet_classify_entry_t *new_values, *v, *new_v; int i, j, new_length_in_entries, old_length_in_entries; new_values = vnet_classify_entry_alloc (t, new_log2_pages); new_length_in_entries = (1 << new_log2_pages) * t->entries_per_page; old_length_in_entries = (1 << old_log2_pages) * t->entries_per_page; j = 0; for (i = 0; i < old_length_in_entries; i++) { v = vnet_classify_entry_at_index (t, old_values, i); if (vnet_classify_entry_is_busy (v)) { for (; j < new_length_in_entries; j++) { new_v = vnet_classify_entry_at_index (t, new_values, j); if (vnet_classify_entry_is_busy (new_v)) { clib_warning ("BUG: linear rehash new entry not free!"); continue; } clib_memcpy_fast (new_v, v, sizeof (vnet_classify_entry_t) + (t->match_n_vectors * sizeof (u32x4))); new_v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); j++; goto doublebreak; } /* * Crap. Tell caller to try again. * This should never happen... */ clib_warning ("BUG: linear rehash failed!"); vnet_classify_entry_free (t, new_values, new_log2_pages); return 0; } doublebreak: ; } return new_values; } static void vnet_classify_entry_claim_resource (vnet_classify_entry_t * e) { switch (e->action) { case CLASSIFY_ACTION_SET_IP4_FIB_INDEX: fib_table_lock (e->metadata, FIB_PROTOCOL_IP4, FIB_SOURCE_CLASSIFY); break; case CLASSIFY_ACTION_SET_IP6_FIB_INDEX: fib_table_lock (e->metadata, FIB_PROTOCOL_IP6, FIB_SOURCE_CLASSIFY); break; case CLASSIFY_ACTION_SET_METADATA: case CLASSIFY_ACTION_NONE: break; } } static void vnet_classify_entry_release_resource (vnet_classify_entry_t * e) { switch (e->action) { case CLASSIFY_ACTION_SET_IP4_FIB_INDEX: fib_table_unlock (e->metadata, FIB_PROTOCOL_IP4, FIB_SOURCE_CLASSIFY); break; case CLASSIFY_ACTION_SET_IP6_FIB_INDEX: fib_table_unlock (e->metadata, FIB_PROTOCOL_IP6, FIB_SOURCE_CLASSIFY); break; case CLASSIFY_ACTION_SET_METADATA: case CLASSIFY_ACTION_NONE: break; } } static int vnet_classify_add_del (vnet_classify_table_t *t, vnet_classify_entry_t *add_v, int is_add) { u32 bucket_index; vnet_classify_bucket_t *b, tmp_b; vnet_classify_entry_t *v, *new_v, *save_new_v, *working_copy, *save_v; u32 value_index; int rv = 0; int i; u64 hash, new_hash; u32 limit; u32 old_log2_pages, new_log2_pages; u32 thread_index = vlib_get_thread_index (); u8 *key_minus_skip; int resplit_once = 0; int mark_bucket_linear; ASSERT ((add_v->flags & VNET_CLASSIFY_ENTRY_FREE) == 0); key_minus_skip = (u8 *) add_v->key; key_minus_skip -= t->skip_n_vectors * sizeof (u32x4); hash = vnet_classify_hash_packet (t, key_minus_skip); bucket_index = hash & (t->nbuckets - 1); b = &t->buckets[bucket_index]; hash >>= t->log2_nbuckets; clib_spinlock_lock (&t->writer_lock); /* First elt in the bucket? */ if (b->offset == 0) { if (is_add == 0) { rv = -1; goto unlock; } v = vnet_classify_entry_alloc (t, 0 /* new_log2_pages */ ); clib_memcpy_fast (v, add_v, sizeof (vnet_classify_entry_t) + t->match_n_vectors * sizeof (u32x4)); v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); vnet_classify_entry_claim_resource (v); tmp_b.as_u64 = 0; tmp_b.offset = vnet_classify_get_offset (t, v); b->as_u64 = tmp_b.as_u64; t->active_elements++; goto unlock; } make_working_copy (t, b); save_v = vnet_classify_get_entry (t, t->saved_bucket.offset); value_index = hash & ((1 << t->saved_bucket.log2_pages) - 1); limit = t->entries_per_page; if (PREDICT_FALSE (b->linear_search)) { value_index = 0; limit *= (1 << b->log2_pages); } if (is_add) { /* * For obvious (in hindsight) reasons, see if we're supposed to * replace an existing key, then look for an empty slot. */ for (i = 0; i < limit; i++) { v = vnet_classify_entry_at_index (t, save_v, value_index + i); if (!memcmp (v->key, add_v->key, t->match_n_vectors * sizeof (u32x4))) { clib_memcpy_fast (v, add_v, sizeof (vnet_classify_entry_t) + t->match_n_vectors * sizeof (u32x4)); v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); vnet_classify_entry_claim_resource (v); CLIB_MEMORY_BARRIER (); /* Restore the previous (k,v) pairs */ b->as_u64 = t->saved_bucket.as_u64; goto unlock; } } for (i = 0; i < limit; i++) { v = vnet_classify_entry_at_index (t, save_v, value_index + i); if (vnet_classify_entry_is_free (v)) { clib_memcpy_fast (v, add_v, sizeof (vnet_classify_entry_t) + t->match_n_vectors * sizeof (u32x4)); v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); vnet_classify_entry_claim_resource (v); CLIB_MEMORY_BARRIER (); b->as_u64 = t->saved_bucket.as_u64; t->active_elements++; goto unlock; } } /* no room at the inn... split case... */ } else { for (i = 0; i < limit; i++) { v = vnet_classify_entry_at_index (t, save_v, value_index + i); if (!memcmp (v->key, add_v->key, t->match_n_vectors * sizeof (u32x4))) { vnet_classify_entry_release_resource (v); clib_memset (v, 0xff, sizeof (vnet_classify_entry_t) + t->match_n_vectors * sizeof (u32x4)); v->flags |= VNET_CLASSIFY_ENTRY_FREE; CLIB_MEMORY_BARRIER (); b->as_u64 = t->saved_bucket.as_u64; t->active_elements--; goto unlock; } } rv = -3; b->as_u64 = t->saved_bucket.as_u64; goto unlock; } old_log2_pages = t->saved_bucket.log2_pages; new_log2_pages = old_log2_pages + 1; working_copy = t->working_copies[thread_index]; if (t->saved_bucket.linear_search) goto linear_resplit; mark_bucket_linear = 0; new_v = split_and_rehash (t, working_copy, old_log2_pages, new_log2_pages); if (new_v == 0) { try_resplit: resplit_once = 1; new_log2_pages++; new_v = split_and_rehash (t, working_copy, old_log2_pages, new_log2_pages); if (new_v == 0) { mark_linear: new_log2_pages--; linear_resplit: /* pinned collisions, use linear search */ new_v = split_and_rehash_linear (t, working_copy, old_log2_pages, new_log2_pages); /* A new linear-search bucket? */ if (!t->saved_bucket.linear_search) t->linear_buckets++; mark_bucket_linear = 1; } } /* Try to add the new entry */ save_new_v = new_v; key_minus_skip = (u8 *) add_v->key; key_minus_skip -= t->skip_n_vectors * sizeof (u32x4); new_hash = vnet_classify_hash_packet_inline (t, key_minus_skip); new_hash >>= t->log2_nbuckets; new_hash &= (1 << new_log2_pages) - 1; limit = t->entries_per_page; if (mark_bucket_linear) { limit *= (1 << new_log2_pages); new_hash = 0; } for (i = 0; i < limit; i++) { new_v = vnet_classify_entry_at_index (t, save_new_v, new_hash + i); if (vnet_classify_entry_is_free (new_v)) { clib_memcpy_fast (new_v, add_v, sizeof (vnet_classify_entry_t) + t->match_n_vectors * sizeof (u32x4)); new_v->flags &= ~(VNET_CLASSIFY_ENTRY_FREE); vnet_classify_entry_claim_resource (new_v); goto expand_ok; } } /* Crap. Try again */ vnet_classify_entry_free (t, save_new_v, new_log2_pages); if (resplit_once) goto mark_linear; else goto try_resplit; expand_ok: tmp_b.log2_pages = new_log2_pages; tmp_b.offset = vnet_classify_get_offset (t, save_new_v); tmp_b.linear_search = mark_bucket_linear; CLIB_MEMORY_BARRIER (); b->as_u64 = tmp_b.as_u64; t->active_elements++; v = vnet_classify_get_entry (t, t->saved_bucket.offset); vnet_classify_entry_free (t, v, old_log2_pages); unlock: clib_spinlock_unlock (&t->writer_lock); return rv; } /* *INDENT-OFF* */ typedef CLIB_PACKED(struct { ethernet_header_t eh; ip4_header_t ip; }) classify_data_or_mask_t; /* *INDENT-ON* */ u64 vnet_classify_hash_packet (vnet_classify_table_t * t, u8 * h) { return vnet_classify_hash_packet_inline (t, h); } vnet_classify_entry_t * vnet_classify_find_entry (vnet_classify_table_t * t, u8 * h, u64 hash, f64 now) { return vnet_classify_find_entry_inline (t, h, hash, now); } static u8 * format_classify_entry (u8 * s, va_list * args) { vnet_classify_table_t *t = va_arg (*args, vnet_classify_table_t *); vnet_classify_entry_t *e = va_arg (*args, vnet_classify_entry_t *); s = format (s, "[%u]: next_index %d advance %d opaque %d action %d metadata %d\n", vnet_classify_get_offset (t, e), e->next_index, e->advance, e->opaque_index, e->action, e->metadata); s = format (s, " k: %U\n", format_hex_bytes, e->key, t->match_n_vectors * sizeof (u32x4)); if (vnet_classify_entry_is_busy (e)) s = format (s, " hits %lld, last_heard %.2f\n", e->hits, e->last_heard); else s = format (s, " entry is free\n"); return s; } u8 * format_classify_table (u8 * s, va_list * args) { vnet_classify_table_t *t = va_arg (*args, vnet_classify_table_t *); int verbose = va_arg (*args, int); vnet_classify_bucket_t *b; vnet_classify_entry_t *v, *save_v; int i, j, k; u64 active_elements = 0; for (i = 0; i < t->nbuckets; i++) { b = &t->buckets[i]; if (b->offset == 0) { if (verbose > 1) s = format (s, "[%d]: empty\n", i); continue; } if (verbose) { s = format (s, "[%d]: heap offset %d, elts %d, %s\n", i, b->offset, (1 << b->log2_pages) * t->entries_per_page, b->linear_search ? "LINEAR" : "normal"); } save_v = vnet_classify_get_entry (t, b->offset); for (j = 0; j < (1 << b->log2_pages); j++) { for (k = 0; k < t->entries_per_page; k++) { v = vnet_classify_entry_at_index (t, save_v, j * t->entries_per_page + k); if (vnet_classify_entry_is_free (v)) { if (verbose > 1) s = format (s, " %d: empty\n", j * t->entries_per_page + k); continue; } if (verbose) { s = format (s, " %d: %U\n", j * t->entries_per_page + k, format_classify_entry, t, v); } active_elements++; } } } s = format (s, " %lld active elements\n", active_elements); s = format (s, " %d free lists\n", vec_len (t->freelists)); s = format (s, " %d linear-search buckets\n", t->linear_buckets); return s; } int vnet_classify_add_del_table (vnet_classify_main_t *cm, const u8 *mask, u32 nbuckets, u32 memory_size, u32 skip, u32 match, u32 next_table_index, u32 miss_next_index, u32 *table_index, u8 current_data_flag, i16 current_data_offset, int is_add, int del_chain) { vnet_classify_table_t *t; if (is_add) { if (*table_index == ~0) /* add */ { if (memory_size == 0) return VNET_API_ERROR_INVALID_MEMORY_SIZE; if (nbuckets == 0) return VNET_API_ERROR_INVALID_VALUE; if (match < 1 || match > 5) return VNET_API_ERROR_INVALID_VALUE; t = vnet_classify_new_table (cm, mask, nbuckets, memory_size, skip, match); t->next_table_index = next_table_index; t->miss_next_index = miss_next_index; t->current_data_flag = current_data_flag; t->current_data_offset = current_data_offset; *table_index = t - cm->tables; } else /* update */ { vnet_classify_main_t *cm = &vnet_classify_main; t = pool_elt_at_index (cm->tables, *table_index); t->next_table_index = next_table_index; } return 0; } vnet_classify_delete_table_index (cm, *table_index, del_chain); return 0; } #define foreach_tcp_proto_field \ _(src) \ _(dst) #define foreach_udp_proto_field \ _(src_port) \ _(dst_port) #define foreach_ip4_proto_field \ _(src_address) \ _(dst_address) \ _(tos) \ _(length) \ _(fragment_id) \ _(ttl) \ _(protocol) \ _(checksum) uword unformat_tcp_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u8 *mask = 0; u8 found_something = 0; tcp_header_t *tcp; #define _(a) u8 a=0; foreach_tcp_proto_field; #undef _ while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (0); #define _(a) else if (unformat (input, #a)) a=1; foreach_tcp_proto_field #undef _ else break; } #define _(a) found_something += a; foreach_tcp_proto_field; #undef _ if (found_something == 0) return 0; vec_validate (mask, sizeof (*tcp) - 1); tcp = (tcp_header_t *) mask; #define _(a) if (a) clib_memset (&tcp->a, 0xff, sizeof (tcp->a)); foreach_tcp_proto_field; #undef _ *maskp = mask; return 1; } uword unformat_udp_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u8 *mask = 0; u8 found_something = 0; udp_header_t *udp; #define _(a) u8 a=0; foreach_udp_proto_field; #undef _ while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (0); #define _(a) else if (unformat (input, #a)) a=1; foreach_udp_proto_field #undef _ else break; } #define _(a) found_something += a; foreach_udp_proto_field; #undef _ if (found_something == 0) return 0; vec_validate (mask, sizeof (*udp) - 1); udp = (udp_header_t *) mask; #define _(a) if (a) clib_memset (&udp->a, 0xff, sizeof (udp->a)); foreach_udp_proto_field; #undef _ *maskp = mask; return 1; } typedef struct { u16 src_port, dst_port; } tcpudp_header_t; uword unformat_l4_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u16 src_port = 0, dst_port = 0; tcpudp_header_t *tcpudp; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "tcp %U", unformat_tcp_mask, maskp)) return 1; else if (unformat (input, "udp %U", unformat_udp_mask, maskp)) return 1; else if (unformat (input, "src_port")) src_port = 0xFFFF; else if (unformat (input, "dst_port")) dst_port = 0xFFFF; else break; } if (!src_port && !dst_port) return 0; u8 *mask = 0; vec_validate (mask, sizeof (tcpudp_header_t) - 1); tcpudp = (tcpudp_header_t *) mask; tcpudp->src_port = src_port; tcpudp->dst_port = dst_port; *maskp = mask; return 1; } uword unformat_ip4_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u8 *mask = 0; u8 found_something = 0; ip4_header_t *ip; u32 src_prefix_len = 32; u32 src_prefix_mask = ~0; u32 dst_prefix_len = 32; u32 dst_prefix_mask = ~0; #define _(a) u8 a=0; foreach_ip4_proto_field; #undef _ u8 version = 0; u8 hdr_length = 0; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "version")) version = 1; else if (unformat (input, "hdr_length")) hdr_length = 1; else if (unformat (input, "src/%d", &src_prefix_len)) { src_address = 1; src_prefix_mask &= ~((1 << (32 - src_prefix_len)) - 1); src_prefix_mask = clib_host_to_net_u32 (src_prefix_mask); } else if (unformat (input, "dst/%d", &dst_prefix_len)) { dst_address = 1; dst_prefix_mask &= ~((1 << (32 - dst_prefix_len)) - 1); dst_prefix_mask = clib_host_to_net_u32 (dst_prefix_mask); } else if (unformat (input, "src")) src_address = 1; else if (unformat (input, "dst")) dst_address = 1; else if (unformat (input, "proto")) protocol = 1; #define _(a) else if (unformat (input, #a)) a=1; foreach_ip4_proto_field #undef _ else break; } found_something = version + hdr_length; #define _(a) found_something += a; foreach_ip4_proto_field; #undef _ if (found_something == 0) return 0; vec_validate (mask, sizeof (*ip) - 1); ip = (ip4_header_t *) mask; #define _(a) if (a) clib_memset (&ip->a, 0xff, sizeof (ip->a)); foreach_ip4_proto_field; #undef _ if (src_address) ip->src_address.as_u32 = src_prefix_mask; if (dst_address) ip->dst_address.as_u32 = dst_prefix_mask; ip->ip_version_and_header_length = 0; if (version) ip->ip_version_and_header_length |= 0xF0; if (hdr_length) ip->ip_version_and_header_length |= 0x0F; *maskp = mask; return 1; } #define foreach_ip6_proto_field \ _(src_address) \ _(dst_address) \ _(payload_length) \ _(hop_limit) \ _(protocol) uword unformat_ip6_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u8 *mask = 0; u8 found_something; ip6_header_t *ip; u32 ip_version_traffic_class_and_flow_label; #define _(a) u8 a=0; foreach_ip6_proto_field; #undef _ u8 version = 0; u8 traffic_class = 0; u8 flow_label = 0; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "version")) version = 1; else if (unformat (input, "traffic-class")) traffic_class = 1; else if (unformat (input, "flow-label")) flow_label = 1; else if (unformat (input, "src")) src_address = 1; else if (unformat (input, "dst")) dst_address = 1; else if (unformat (input, "proto")) protocol = 1; #define _(a) else if (unformat (input, #a)) a=1; foreach_ip6_proto_field #undef _ else break; } /* Account for "special" field names */ found_something = version + traffic_class + flow_label + src_address + dst_address + protocol; #define _(a) found_something += a; foreach_ip6_proto_field; #undef _ if (found_something == 0) return 0; vec_validate (mask, sizeof (*ip) - 1); ip = (ip6_header_t *) mask; #define _(a) if (a) clib_memset (&ip->a, 0xff, sizeof (ip->a)); foreach_ip6_proto_field; #undef _ ip_version_traffic_class_and_flow_label = 0; if (version) ip_version_traffic_class_and_flow_label |= 0xF0000000; if (traffic_class) ip_version_traffic_class_and_flow_label |= 0x0FF00000; if (flow_label) ip_version_traffic_class_and_flow_label |= 0x000FFFFF; ip->ip_version_traffic_class_and_flow_label = clib_host_to_net_u32 (ip_version_traffic_class_and_flow_label); *maskp = mask; return 1; } uword unformat_l3_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "ip4 %U", unformat_ip4_mask, maskp)) return 1; else if (unformat (input, "ip6 %U", unformat_ip6_mask, maskp)) return 1; else break; } return 0; } uword unformat_l2_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u8 *mask = 0; u8 src = 0; u8 dst = 0; u8 proto = 0; u8 tag1 = 0; u8 tag2 = 0; u8 ignore_tag1 = 0; u8 ignore_tag2 = 0; u8 cos1 = 0; u8 cos2 = 0; u8 dot1q = 0; u8 dot1ad = 0; int len = 14; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "src")) src = 1; else if (unformat (input, "dst")) dst = 1; else if (unformat (input, "proto")) proto = 1; else if (unformat (input, "tag1")) tag1 = 1; else if (unformat (input, "tag2")) tag2 = 1; else if (unformat (input, "ignore-tag1")) ignore_tag1 = 1; else if (unformat (input, "ignore-tag2")) ignore_tag2 = 1; else if (unformat (input, "cos1")) cos1 = 1; else if (unformat (input, "cos2")) cos2 = 1; else if (unformat (input, "dot1q")) dot1q = 1; else if (unformat (input, "dot1ad")) dot1ad = 1; else break; } if ((src + dst + proto + tag1 + tag2 + dot1q + dot1ad + ignore_tag1 + ignore_tag2 + cos1 + cos2) == 0) return 0; if (tag1 || ignore_tag1 || cos1 || dot1q) len = 18; if (tag2 || ignore_tag2 || cos2 || dot1ad) len = 22; vec_validate (mask, len - 1); if (dst) clib_memset (mask, 0xff, 6); if (src) clib_memset (mask + 6, 0xff, 6); if (tag2 || dot1ad) { /* inner vlan tag */ if (tag2) { mask[19] = 0xff; mask[18] = 0x0f; } if (cos2) mask[18] |= 0xe0; if (proto) mask[21] = mask[20] = 0xff; if (tag1) { mask[15] = 0xff; mask[14] = 0x0f; } if (cos1) mask[14] |= 0xe0; *maskp = mask; return 1; } if (tag1 | dot1q) { if (tag1) { mask[15] = 0xff; mask[14] = 0x0f; } if (cos1) mask[14] |= 0xe0; if (proto) mask[16] = mask[17] = 0xff; *maskp = mask; return 1; } if (cos2) mask[18] |= 0xe0; if (cos1) mask[14] |= 0xe0; if (proto) mask[12] = mask[13] = 0xff; *maskp = mask; return 1; } uword unformat_classify_mask (unformat_input_t * input, va_list * args) { u8 **maskp = va_arg (*args, u8 **); u32 *skipp = va_arg (*args, u32 *); u32 *matchp = va_arg (*args, u32 *); u32 match; u8 *mask = 0; u8 *l2 = 0; u8 *l3 = 0; u8 *l4 = 0; int i; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "hex %U", unformat_hex_string, &mask)) ; else if (unformat (input, "l2 %U", unformat_l2_mask, &l2)) ; else if (unformat (input, "l3 %U", unformat_l3_mask, &l3)) ; else if (unformat (input, "l4 %U", unformat_l4_mask, &l4)) ; else break; } if (l4 && !l3) { vec_free (mask); vec_free (l2); vec_free (l4); return 0; } if (mask || l2 || l3 || l4) { if (l2 || l3 || l4) { /* "With a free Ethernet header in every package" */ if (l2 == 0) vec_validate (l2, 13); mask = l2; if (l3) { vec_append (mask, l3); vec_free (l3); } if (l4) { vec_append (mask, l4); vec_free (l4); } } /* Scan forward looking for the first significant mask octet */ for (i = 0; i < vec_len (mask); i++) if (mask[i]) break; /* compute (skip, match) params */ *skipp = i / sizeof (u32x4); vec_delete (mask, *skipp * sizeof (u32x4), 0); /* Pad mask to an even multiple of the vector size */ while (vec_len (mask) % sizeof (u32x4)) vec_add1 (mask, 0); match = vec_len (mask) / sizeof (u32x4); for (i = match * sizeof (u32x4); i > 0; i -= sizeof (u32x4)) { u64 *tmp = (u64 *) (mask + (i - sizeof (u32x4))); if (*tmp || *(tmp + 1)) break; match--; } if (match == 0) clib_warning ("BUG: match 0"); _vec_len (mask) = match * sizeof (u32x4); *matchp = match; *maskp = mask; return 1; } return 0; } #define foreach_l2_input_next \ _(drop, DROP) \ _(ethernet, ETHERNET_INPUT) \ _(ip4, IP4_INPUT) \ _(ip6, IP6_INPUT) \ _(li, LI) uword unformat_l2_input_next_index (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *miss_next_indexp = va_arg (*args, u32 *); u32 next_index = 0; u32 tmp; int i; /* First try registered unformat fns, allowing override... */ for (i = 0; i < vec_len (cm->unformat_l2_next_index_fns); i++) { if (unformat (input, "%U", cm->unformat_l2_next_index_fns[i], &tmp)) { next_index = tmp; goto out; } } #define _(n,N) \ if (unformat (input, #n)) { next_index = L2_INPUT_CLASSIFY_NEXT_##N; goto out;} foreach_l2_input_next; #undef _ if (unformat (input, "%d", &tmp)) { next_index = tmp; goto out; } return 0; out: *miss_next_indexp = next_index; return 1; } #define foreach_l2_output_next \ _(drop, DROP) uword unformat_l2_output_next_index (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *miss_next_indexp = va_arg (*args, u32 *); u32 next_index = 0; u32 tmp; int i; /* First try registered unformat fns, allowing override... */ for (i = 0; i < vec_len (cm->unformat_l2_next_index_fns); i++) { if (unformat (input, "%U", cm->unformat_l2_next_index_fns[i], &tmp)) { next_index = tmp; goto out; } } #define _(n,N) \ if (unformat (input, #n)) { next_index = L2_OUTPUT_CLASSIFY_NEXT_##N; goto out;} foreach_l2_output_next; #undef _ if (unformat (input, "%d", &tmp)) { next_index = tmp; goto out; } return 0; out: *miss_next_indexp = next_index; return 1; } #define foreach_ip_next \ _(drop, DROP) \ _(rewrite, REWRITE) uword unformat_ip_next_index (unformat_input_t * input, va_list * args) { u32 *miss_next_indexp = va_arg (*args, u32 *); vnet_classify_main_t *cm = &vnet_classify_main; u32 next_index = 0; u32 tmp; int i; /* First try registered unformat fns, allowing override... */ for (i = 0; i < vec_len (cm->unformat_ip_next_index_fns); i++) { if (unformat (input, "%U", cm->unformat_ip_next_index_fns[i], &tmp)) { next_index = tmp; goto out; } } #define _(n,N) \ if (unformat (input, #n)) { next_index = IP_LOOKUP_NEXT_##N; goto out;} foreach_ip_next; #undef _ if (unformat (input, "%d", &tmp)) { next_index = tmp; goto out; } return 0; out: *miss_next_indexp = next_index; return 1; } #define foreach_acl_next \ _(deny, DENY) uword unformat_acl_next_index (unformat_input_t * input, va_list * args) { u32 *next_indexp = va_arg (*args, u32 *); vnet_classify_main_t *cm = &vnet_classify_main; u32 next_index = 0; u32 tmp; int i; /* First try registered unformat fns, allowing override... */ for (i = 0; i < vec_len (cm->unformat_acl_next_index_fns); i++) { if (unformat (input, "%U", cm->unformat_acl_next_index_fns[i], &tmp)) { next_index = tmp; goto out; } } #define _(n,N) \ if (unformat (input, #n)) { next_index = ACL_NEXT_INDEX_##N; goto out;} foreach_acl_next; #undef _ if (unformat (input, "permit")) { next_index = ~0; goto out; } else if (unformat (input, "%d", &tmp)) { next_index = tmp; goto out; } return 0; out: *next_indexp = next_index; return 1; } uword unformat_policer_next_index (unformat_input_t * input, va_list * args) { u32 *next_indexp = va_arg (*args, u32 *); vnet_classify_main_t *cm = &vnet_classify_main; u32 next_index = 0; u32 tmp; int i; /* First try registered unformat fns, allowing override... */ for (i = 0; i < vec_len (cm->unformat_policer_next_index_fns); i++) { if (unformat (input, "%U", cm->unformat_policer_next_index_fns[i], &tmp)) { next_index = tmp; goto out; } } if (unformat (input, "%d", &tmp)) { next_index = tmp; goto out; } return 0; out: *next_indexp = next_index; return 1; } static clib_error_t * classify_table_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { u32 nbuckets = 2; u32 skip = ~0; u32 match = ~0; int is_add = 1; int del_chain = 0; u32 table_index = ~0; u32 next_table_index = ~0; u32 miss_next_index = ~0; u32 memory_size = 2 << 20; u32 tmp; u32 current_data_flag = 0; int current_data_offset = 0; u8 *mask = 0; vnet_classify_main_t *cm = &vnet_classify_main; int rv; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "del")) is_add = 0; else if (unformat (input, "del-chain")) { is_add = 0; del_chain = 1; } else if (unformat (input, "buckets %d", &nbuckets)) ; else if (unformat (input, "skip %d", &skip)) ; else if (unformat (input, "match %d", &match)) ; else if (unformat (input, "table %d", &table_index)) ; else if (unformat (input, "mask %U", unformat_classify_mask, &mask, &skip, &match)) ; else if (unformat (input, "memory-size %uM", &tmp)) memory_size = tmp << 20; else if (unformat (input, "memory-size %uG", &tmp)) memory_size = tmp << 30; else if (unformat (input, "next-table %d", &next_table_index)) ; else if (unformat (input, "miss-next %U", unformat_ip_next_index, &miss_next_index)) ; else if (unformat (input, "l2-input-miss-next %U", unformat_l2_input_next_index, &miss_next_index)) ; else if (unformat (input, "l2-output-miss-next %U", unformat_l2_output_next_index, &miss_next_index)) ; else if (unformat (input, "acl-miss-next %U", unformat_acl_next_index, &miss_next_index)) ; else if (unformat (input, "current-data-flag %d", ¤t_data_flag)) ; else if (unformat (input, "current-data-offset %d", ¤t_data_offset)) ; else break; } if (is_add && mask == 0 && table_index == ~0) return clib_error_return (0, "Mask required"); if (is_add && skip == ~0 && table_index == ~0) return clib_error_return (0, "skip count required"); if (is_add && match == ~0 && table_index == ~0) return clib_error_return (0, "match count required"); if (!is_add && table_index == ~0) return clib_error_return (0, "table index required for delete"); rv = vnet_classify_add_del_table (cm, mask, nbuckets, (u32) memory_size, skip, match, next_table_index, miss_next_index, &table_index, current_data_flag, current_data_offset, is_add, del_chain); switch (rv) { case 0: break; default: return clib_error_return (0, "vnet_classify_add_del_table returned %d", rv); } return 0; } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (classify_table, static) = { .path = "classify table", .short_help = "classify table [miss-next|l2-miss_next|acl-miss-next ]" "\n mask buckets [skip ] [match ]" "\n [current-data-flag ] [current-data-offset ] [table ]" "\n [memory-size [M][G]] [next-table ]" "\n [del] [del-chain]", .function = classify_table_command_fn, }; /* *INDENT-ON* */ static int filter_table_mask_compare (void *a1, void *a2) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *ti1 = a1; u32 *ti2 = a2; u32 n1 = 0, n2 = 0; vnet_classify_table_t *t1, *t2; u8 *m1, *m2; int i; t1 = pool_elt_at_index (cm->tables, *ti1); t2 = pool_elt_at_index (cm->tables, *ti2); m1 = (u8 *) (t1->mask); m2 = (u8 *) (t2->mask); for (i = 0; i < vec_len (t1->mask) * sizeof (u32x4); i++) { n1 += count_set_bits (m1[0]); m1++; } for (i = 0; i < vec_len (t2->mask) * sizeof (u32x4); i++) { n2 += count_set_bits (m2[0]); m2++; } /* Reverse sort: descending number of set bits */ if (n1 < n2) return 1; else if (n1 > n2) return -1; else return 0; } /* * Reorder the chain of tables starting with table_index such * that more more-specific masks come before less-specific masks. * Return the new head of the table chain. */ u32 classify_sort_table_chain (vnet_classify_main_t * cm, u32 table_index) { /* * Form a vector of all classifier tables in this chain. */ u32 *tables = 0; vnet_classify_table_t *t; u32 cti; for (cti = table_index; cti != ~0; cti = t->next_table_index) { vec_add1 (tables, cti); t = pool_elt_at_index (cm->tables, cti); } /* * Sort filter tables from most-specific mask to least-specific mask. */ vec_sort_with_function (tables, filter_table_mask_compare); /* * Relink tables via next_table_index fields. */ int i; for (i = 0; i < vec_len (tables); i++) { t = pool_elt_at_index (cm->tables, tables[i]); if ((i + 1) < vec_len (tables)) t->next_table_index = tables[i + 1]; else t->next_table_index = ~0; } table_index = tables[0]; vec_free (tables); return table_index; } u32 classify_get_trace_chain (void) { u32 table_index; table_index = vlib_global_main.trace_filter.classify_table_index; return table_index; } /* * Seting the Trace chain to ~0 is a request to delete and clear it. */ void classify_set_trace_chain (vnet_classify_main_t * cm, u32 table_index) { if (table_index == ~0) { u32 old_table_index; old_table_index = vlib_global_main.trace_filter.classify_table_index; vnet_classify_delete_table_index (cm, old_table_index, 1); } vlib_global_main.trace_filter.classify_table_index = table_index; } u32 classify_get_pcap_chain (vnet_classify_main_t * cm, u32 sw_if_index) { u32 table_index = ~0; if (sw_if_index != ~0 && (sw_if_index < vec_len (cm->classify_table_index_by_sw_if_index))) table_index = cm->classify_table_index_by_sw_if_index[sw_if_index]; return table_index; } void classify_set_pcap_chain (vnet_classify_main_t * cm, u32 sw_if_index, u32 table_index) { vnet_main_t *vnm = vnet_get_main (); if (sw_if_index != ~0 && table_index != ~0) vec_validate_init_empty (cm->classify_table_index_by_sw_if_index, sw_if_index, ~0); if (table_index == ~0) { u32 old_table_index = ~0; if (sw_if_index < vec_len (cm->classify_table_index_by_sw_if_index)) old_table_index = cm->classify_table_index_by_sw_if_index[sw_if_index]; vnet_classify_delete_table_index (cm, old_table_index, 1); } /* * Put the table index where device drivers can find them. * This table index will be either a valid table or a ~0 to clear it. */ if (vec_len (cm->classify_table_index_by_sw_if_index) > sw_if_index) cm->classify_table_index_by_sw_if_index[sw_if_index] = table_index; if (sw_if_index > 0) { vnet_hw_interface_t *hi; hi = vnet_get_sup_hw_interface (vnm, sw_if_index); hi->trace_classify_table_index = table_index; } } /* * Search for a mask-compatible Classify table within the given table chain. */ u32 classify_lookup_chain (u32 table_index, u8 * mask, u32 n_skip, u32 n_match) { vnet_classify_main_t *cm = &vnet_classify_main; vnet_classify_table_t *t; u32 cti; if (table_index == ~0) return ~0; for (cti = table_index; cti != ~0; cti = t->next_table_index) { t = pool_elt_at_index (cm->tables, cti); /* Classifier geometry mismatch, can't use this table. */ if (t->match_n_vectors != n_match || t->skip_n_vectors != n_skip) continue; /* Masks aren't congruent, can't use this table. */ if (vec_len (t->mask) * sizeof (u32x4) != vec_len (mask)) continue; /* Masks aren't bit-for-bit identical, can't use this table. */ if (memcmp (t->mask, mask, vec_len (mask))) continue; /* Winner... */ return cti; } return ~0; } static clib_error_t * classify_filter_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { u32 nbuckets = 8; vnet_main_t *vnm = vnet_get_main (); uword memory_size = (uword) (128 << 10); u32 skip = ~0; u32 match = ~0; u8 *match_vector; int is_add = 1; u32 table_index = ~0; u32 next_table_index = ~0; u32 miss_next_index = ~0; u32 current_data_flag = 0; int current_data_offset = 0; u32 sw_if_index = ~0; int pkt_trace = 0; int pcap = 0; u8 *mask = 0; vnet_classify_main_t *cm = &vnet_classify_main; int rv = 0; clib_error_t *err = 0; unformat_input_t _line_input, *line_input = &_line_input; /* Get a line of input. */ if (!unformat_user (input, unformat_line_input, line_input)) return 0; while (unformat_check_input (line_input) != UNFORMAT_END_OF_INPUT) { if (unformat (line_input, "del")) is_add = 0; else if (unformat (line_input, "pcap %=", &pcap, 1)) sw_if_index = 0; else if (unformat (line_input, "trace")) pkt_trace = 1; else if (unformat (line_input, "%U", unformat_vnet_sw_interface, vnm, &sw_if_index)) { if (sw_if_index == 0) return clib_error_return (0, "Local interface not supported..."); } else if (unformat (line_input, "buckets %d", &nbuckets)) ; else if (unformat (line_input, "mask %U", unformat_classify_mask, &mask, &skip, &match)) ; else if (unformat (line_input, "memory-size %U", unformat_memory_size, &memory_size)) ; else break; } if (is_add && mask == 0) err = clib_error_return (0, "Mask required"); else if (is_add && skip == ~0) err = clib_error_return (0, "skip count required"); else if (is_add && match == ~0) err = clib_error_return (0, "match count required"); else if (sw_if_index == ~0 && pkt_trace == 0 && pcap == 0) err = clib_error_return (0, "Must specify trace, pcap or interface..."); else if (pkt_trace && pcap) err = clib_error_return (0, "Packet trace and pcap are mutually exclusive..."); else if (pkt_trace && sw_if_index != ~0) err = clib_error_return (0, "Packet trace filter is per-system"); if (err) { unformat_free (line_input); return err; } if (!is_add) { /* * Delete an existing PCAP or trace classify table. */ if (pkt_trace) classify_set_trace_chain (cm, ~0); else classify_set_pcap_chain (cm, sw_if_index, ~0); vec_free (mask); unformat_free (line_input); return 0; } /* * Find an existing compatible table or else make a new one. */ if (pkt_trace) table_index = classify_get_trace_chain (); else table_index = classify_get_pcap_chain (cm, sw_if_index); if (table_index != ~0) { /* * look for a compatible table in the existing chain * - if a compatible table is found, table_index is updated with it * - if not, table_index is updated to ~0 (aka nil) and because of that * we are going to create one (see below). We save the original head * in next_table_index so we can chain it with the newly created * table */ next_table_index = table_index; table_index = classify_lookup_chain (table_index, mask, skip, match); } /* * When no table is found, make one. */ if (table_index == ~0) { u32 new_head_index; /* * Matching table wasn't found, so create a new one at the * head of the next_table_index chain. */ rv = vnet_classify_add_del_table (cm, mask, nbuckets, memory_size, skip, match, next_table_index, miss_next_index, &table_index, current_data_flag, current_data_offset, 1, 0); if (rv != 0) { vec_free (mask); unformat_free (line_input); return clib_error_return (0, "vnet_classify_add_del_table returned %d", rv); } /* * Reorder tables such that masks are most-specify to least-specific. */ new_head_index = classify_sort_table_chain (cm, table_index); /* * Put first classifier table in chain in a place where * other data structures expect to find and use it. */ if (pkt_trace) classify_set_trace_chain (cm, new_head_index); else classify_set_pcap_chain (cm, sw_if_index, new_head_index); } vec_free (mask); /* * Now try to parse a and add a filter-match session. */ if (unformat (line_input, "match %U", unformat_classify_match, cm, &match_vector, table_index) == 0) return 0; /* * We use hit or miss to determine whether to trace or pcap pkts * so the session setup is very limited */ rv = vnet_classify_add_del_session (cm, table_index, match_vector, 0 /* hit_next_index */ , 0 /* opaque_index */ , 0 /* advance */ , 0 /* action */ , 0 /* metadata */ , 1 /* is_add */ ); vec_free (match_vector); return 0; } /** Enable / disable packet trace filter */ int vlib_enable_disable_pkt_trace_filter (int enable) { if (enable) { vlib_global_main.trace_filter.trace_filter_enable = 1; } else { vlib_global_main.trace_filter.trace_filter_enable = 0; } return 0; } /*? * Construct an arbitrary set of packet classifier tables for use with * "pcap rx | tx trace," and with the vpp packet tracer * * Packets which match a rule in the classifier table chain * will be traced. The tables are automatically ordered so that * matches in the most specific table are tried first. * * It's reasonably likely that folks will configure a single * table with one or two matches. As a result, we configure * 8 hash buckets and 128K of match rule space. One can override * the defaults by specifiying "buckets " and "memory-size " * as desired. * * To build up complex filter chains, repeatedly issue the * classify filter debug CLI command. Each command must specify the desired * mask and match values. If a classifier table with a suitable mask * already exists, the CLI command adds a match rule to the existing table. * If not, the CLI command add a new table and the indicated mask rule * * Here is a terse description of the "mask " syntax: * * l2 src dst proto tag1 tag2 ignore-tag1 ignore-tag2 cos1 cos2 dot1q dot1ad * * l3 ip4 ip6 * * version hdr_length src[/width] dst[/width] * tos length fragment_id ttl protocol checksum * * version traffic-class flow-label src dst proto * payload_length hop_limit protocol * * l4 tcp udp src_port dst_port * * src dst # ports * * src_port dst_port * * To construct matches, add the values to match after the indicated keywords: * in the match syntax. For example: * mask l3 ip4 src -> match l3 ip4 src 192.168.1.11 * * @cliexpar * Configuring the classify filter * * Configure a simple classify filter, and configure pcap rx trace to use it: * * classify filter rx mask l3 ip4 src match l3 ip4 src 192.168.1.11"
* pcap rx trace on max 100 filter * * Configure another fairly simple filter * * classify filter mask l3 ip4 src dst match l3 ip4 src 192.168.1.10 dst 192.168.2.10" * * * Configure a filter for use with the vpp packet tracer: * classify filter trace mask l3 ip4 src dst match l3 ip4 src 192.168.1.10 dst 192.168.2.10" * trace add dpdk-input 100 filter * * Clear classifier filters * * classify filter [trace | rx | tx | ] del * * To display the top-level classifier tables for each use case: * show classify filter * * To inspect the classifier tables, use * * show classify table [verbose] * The verbose form displays all of the match rules, with hit-counters * @cliexend ?*/ /* *INDENT-OFF* */ VLIB_CLI_COMMAND (classify_filter, static) = { .path = "classify filter", .short_help = "classify filter | pcap mask match \n" " | trace mask match [del]\n" " [buckets ] [memory-size ]", .function = classify_filter_command_fn, }; /* *INDENT-ON* */ static clib_error_t * show_classify_filter_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { vnet_classify_main_t *cm = &vnet_classify_main; vnet_main_t *vnm = vnet_get_main (); u8 *name = 0; u8 *s = 0; u32 table_index; int verbose = 0; int i, j, limit; (void) unformat (input, "verbose %=", &verbose, 1); vlib_cli_output (vm, "%-30s%s", "Filter Used By", " Table(s)"); vlib_cli_output (vm, "%-30s%s", "--------------", " --------"); limit = vec_len (cm->classify_table_index_by_sw_if_index); for (i = -1; i < limit; i++) { switch (i) { case -1: table_index = vlib_global_main.trace_filter.classify_table_index; name = format (0, "packet tracer:"); break; case 0: table_index = cm->classify_table_index_by_sw_if_index[i]; name = format (0, "pcap rx/tx/drop:"); break; default: table_index = cm->classify_table_index_by_sw_if_index[i]; name = format (0, "%U:", format_vnet_sw_if_index_name, vnm, i); break; } if (verbose) { vnet_classify_table_t *t; j = table_index; do { if (j == ~0) s = format (s, " none"); else { s = format (s, " %u", j); t = pool_elt_at_index (cm->tables, j); j = t->next_table_index; } } while (j != ~0); vlib_cli_output (vm, "%-30v table(s)%v", name, s); vec_reset_length (s); } else { if (table_index != ~0) s = format (s, " %u", table_index); else s = format (s, " none"); vlib_cli_output (vm, "%-30v first table%v", name, s); vec_reset_length (s); } vec_reset_length (name); } vec_free (s); vec_free (name); return 0; } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (show_classify_filter, static) = { .path = "show classify filter", .short_help = "show classify filter [verbose [nn]]", .function = show_classify_filter_command_fn, }; /* *INDENT-ON* */ u8 * format_vnet_classify_table (u8 *s, va_list *args) { vnet_classify_main_t *cm = va_arg (*args, vnet_classify_main_t *); int verbose = va_arg (*args, int); u32 index = va_arg (*args, u32); vnet_classify_table_t *t; if (index == ~0) { s = format (s, "\n%10s%10s%10s%10s", "TableIdx", "Sessions", "NextTbl", "NextNode", verbose ? "Details" : ""); return s; } t = pool_elt_at_index (cm->tables, index); s = format (s, "%10u%10d%10d%10d", index, t->active_elements, t->next_table_index, t->miss_next_index); s = format (s, "\n Heap: %U", format_clib_mem_heap, t->mheap, 0 /*verbose */ ); s = format (s, "\n nbuckets %d, skip %d match %d flag %d offset %d", t->nbuckets, t->skip_n_vectors, t->match_n_vectors, t->current_data_flag, t->current_data_offset); s = format (s, "\n mask %U", format_hex_bytes, t->mask, t->match_n_vectors * sizeof (u32x4)); s = format (s, "\n linear-search buckets %d\n", t->linear_buckets); if (verbose == 0) return s; s = format (s, "\n%U", format_classify_table, t, verbose); return s; } static clib_error_t * show_classify_tables_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { vnet_classify_main_t *cm = &vnet_classify_main; vnet_classify_table_t *t; u32 match_index = ~0; u32 *indices = 0; int verbose = 0; int i; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "index %d", &match_index)) ; else if (unformat (input, "verbose %d", &verbose)) ; else if (unformat (input, "verbose")) verbose = 1; else break; } /* *INDENT-OFF* */ pool_foreach (t, cm->tables) { if (match_index == ~0 || (match_index == t - cm->tables)) vec_add1 (indices, t - cm->tables); } /* *INDENT-ON* */ if (vec_len (indices)) { for (i = 0; i < vec_len (indices); i++) { vlib_cli_output (vm, "%U", format_vnet_classify_table, cm, verbose, ~0 /* hdr */); vlib_cli_output (vm, "%U", format_vnet_classify_table, cm, verbose, indices[i]); } } else vlib_cli_output (vm, "No classifier tables configured"); vec_free (indices); return 0; } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (show_classify_table_command, static) = { .path = "show classify tables", .short_help = "show classify tables [index ]", .function = show_classify_tables_command_fn, }; /* *INDENT-ON* */ uword unformat_l4_match (unformat_input_t * input, va_list * args) { u8 **matchp = va_arg (*args, u8 **); u8 *proto_header = 0; int src_port = 0; int dst_port = 0; tcpudp_header_t h; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "src_port %d", &src_port)) ; else if (unformat (input, "dst_port %d", &dst_port)) ; else break; } h.src_port = clib_host_to_net_u16 (src_port); h.dst_port = clib_host_to_net_u16 (dst_port); vec_validate (proto_header, sizeof (h) - 1); memcpy (proto_header, &h, sizeof (h)); *matchp = proto_header; return 1; } uword unformat_ip4_match (unformat_input_t * input, va_list * args) { u8 **matchp = va_arg (*args, u8 **); u8 *match = 0; ip4_header_t *ip; int version = 0; u32 version_val; int hdr_length = 0; u32 hdr_length_val; int src = 0, dst = 0; ip4_address_t src_val, dst_val; int proto = 0; u32 proto_val; int tos = 0; u32 tos_val; int length = 0; u32 length_val; int fragment_id = 0; u32 fragment_id_val; int ttl = 0; int ttl_val; int checksum = 0; u32 checksum_val; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "version %d", &version_val)) version = 1; else if (unformat (input, "hdr_length %d", &hdr_length_val)) hdr_length = 1; else if (unformat (input, "src %U", unformat_ip4_address, &src_val)) src = 1; else if (unformat (input, "dst %U", unformat_ip4_address, &dst_val)) dst = 1; else if (unformat (input, "proto %d", &proto_val)) proto = 1; else if (unformat (input, "tos %d", &tos_val)) tos = 1; else if (unformat (input, "length %d", &length_val)) length = 1; else if (unformat (input, "fragment_id %d", &fragment_id_val)) fragment_id = 1; else if (unformat (input, "ttl %d", &ttl_val)) ttl = 1; else if (unformat (input, "checksum %d", &checksum_val)) checksum = 1; else break; } if (version + hdr_length + src + dst + proto + tos + length + fragment_id + ttl + checksum == 0) return 0; /* * Aligned because we use the real comparison functions */ vec_validate_aligned (match, sizeof (*ip) - 1, sizeof (u32x4)); ip = (ip4_header_t *) match; /* These are realistically matched in practice */ if (src) ip->src_address.as_u32 = src_val.as_u32; if (dst) ip->dst_address.as_u32 = dst_val.as_u32; if (proto) ip->protocol = proto_val; /* These are not, but they're included for completeness */ if (version) ip->ip_version_and_header_length |= (version_val & 0xF) << 4; if (hdr_length) ip->ip_version_and_header_length |= (hdr_length_val & 0xF); if (tos) ip->tos = tos_val; if (length) ip->length = clib_host_to_net_u16 (length_val); if (ttl) ip->ttl = ttl_val; if (checksum) ip->checksum = clib_host_to_net_u16 (checksum_val); *matchp = match; return 1; } uword unformat_ip6_match (unformat_input_t * input, va_list * args) { u8 **matchp = va_arg (*args, u8 **); u8 *match = 0; ip6_header_t *ip; int version = 0; u32 version_val; u8 traffic_class = 0; u32 traffic_class_val; u8 flow_label = 0; u8 flow_label_val; int src = 0, dst = 0; ip6_address_t src_val, dst_val; int proto = 0; u32 proto_val; int payload_length = 0; u32 payload_length_val; int hop_limit = 0; int hop_limit_val; u32 ip_version_traffic_class_and_flow_label; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "version %d", &version_val)) version = 1; else if (unformat (input, "traffic_class %d", &traffic_class_val)) traffic_class = 1; else if (unformat (input, "flow_label %d", &flow_label_val)) flow_label = 1; else if (unformat (input, "src %U", unformat_ip6_address, &src_val)) src = 1; else if (unformat (input, "dst %U", unformat_ip6_address, &dst_val)) dst = 1; else if (unformat (input, "proto %d", &proto_val)) proto = 1; else if (unformat (input, "payload_length %d", &payload_length_val)) payload_length = 1; else if (unformat (input, "hop_limit %d", &hop_limit_val)) hop_limit = 1; else break; } if (version + traffic_class + flow_label + src + dst + proto + payload_length + hop_limit == 0) return 0; /* * Aligned because we use the real comparison functions */ vec_validate_aligned (match, sizeof (*ip) - 1, sizeof (u32x4)); ip = (ip6_header_t *) match; if (src) clib_memcpy_fast (&ip->src_address, &src_val, sizeof (ip->src_address)); if (dst) clib_memcpy_fast (&ip->dst_address, &dst_val, sizeof (ip->dst_address)); if (proto) ip->protocol = proto_val; ip_version_traffic_class_and_flow_label = 0; if (version) ip_version_traffic_class_and_flow_label |= (version_val & 0xF) << 28; if (traffic_class) ip_version_traffic_class_and_flow_label |= (traffic_class_val & 0xFF) << 20; if (flow_label) ip_version_traffic_class_and_flow_label |= (flow_label_val & 0xFFFFF); ip->ip_version_traffic_class_and_flow_label = clib_host_to_net_u32 (ip_version_traffic_class_and_flow_label); if (payload_length) ip->payload_length = clib_host_to_net_u16 (payload_length_val); if (hop_limit) ip->hop_limit = hop_limit_val; *matchp = match; return 1; } uword unformat_l3_match (unformat_input_t * input, va_list * args) { u8 **matchp = va_arg (*args, u8 **); while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "ip4 %U", unformat_ip4_match, matchp)) return 1; else if (unformat (input, "ip6 %U", unformat_ip6_match, matchp)) return 1; /* $$$$ add mpls */ else break; } return 0; } uword unformat_vlan_tag (unformat_input_t * input, va_list * args) { u8 *tagp = va_arg (*args, u8 *); u32 tag; if (unformat (input, "%d", &tag)) { tagp[0] = (tag >> 8) & 0x0F; tagp[1] = tag & 0xFF; return 1; } return 0; } uword unformat_l2_match (unformat_input_t * input, va_list * args) { u8 **matchp = va_arg (*args, u8 **); u8 *match = 0; u8 src = 0; u8 src_val[6]; u8 dst = 0; u8 dst_val[6]; u8 proto = 0; u16 proto_val; u8 tag1 = 0; u8 tag1_val[2]; u8 tag2 = 0; u8 tag2_val[2]; int len = 14; u8 ignore_tag1 = 0; u8 ignore_tag2 = 0; u8 cos1 = 0; u8 cos2 = 0; u32 cos1_val = 0; u32 cos2_val = 0; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "src %U", unformat_ethernet_address, &src_val)) src = 1; else if (unformat (input, "dst %U", unformat_ethernet_address, &dst_val)) dst = 1; else if (unformat (input, "proto %U", unformat_ethernet_type_host_byte_order, &proto_val)) proto = 1; else if (unformat (input, "tag1 %U", unformat_vlan_tag, tag1_val)) tag1 = 1; else if (unformat (input, "tag2 %U", unformat_vlan_tag, tag2_val)) tag2 = 1; else if (unformat (input, "ignore-tag1")) ignore_tag1 = 1; else if (unformat (input, "ignore-tag2")) ignore_tag2 = 1; else if (unformat (input, "cos1 %d", &cos1_val)) cos1 = 1; else if (unformat (input, "cos2 %d", &cos2_val)) cos2 = 1; else break; } if ((src + dst + proto + tag1 + tag2 + ignore_tag1 + ignore_tag2 + cos1 + cos2) == 0) return 0; if (tag1 || ignore_tag1 || cos1) len = 18; if (tag2 || ignore_tag2 || cos2) len = 22; vec_validate_aligned (match, len - 1, sizeof (u32x4)); if (dst) clib_memcpy_fast (match, dst_val, 6); if (src) clib_memcpy_fast (match + 6, src_val, 6); if (tag2) { /* inner vlan tag */ match[19] = tag2_val[1]; match[18] = tag2_val[0]; if (cos2) match[18] |= (cos2_val & 0x7) << 5; if (proto) { match[21] = proto_val & 0xff; match[20] = proto_val >> 8; } if (tag1) { match[15] = tag1_val[1]; match[14] = tag1_val[0]; } if (cos1) match[14] |= (cos1_val & 0x7) << 5; *matchp = match; return 1; } if (tag1) { match[15] = tag1_val[1]; match[14] = tag1_val[0]; if (proto) { match[17] = proto_val & 0xff; match[16] = proto_val >> 8; } if (cos1) match[14] |= (cos1_val & 0x7) << 5; *matchp = match; return 1; } if (cos2) match[18] |= (cos2_val & 0x7) << 5; if (cos1) match[14] |= (cos1_val & 0x7) << 5; if (proto) { match[13] = proto_val & 0xff; match[12] = proto_val >> 8; } *matchp = match; return 1; } uword unformat_classify_match (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = va_arg (*args, vnet_classify_main_t *); u8 **matchp = va_arg (*args, u8 **); u32 table_index = va_arg (*args, u32); vnet_classify_table_t *t; u8 *match = 0; u8 *l2 = 0; u8 *l3 = 0; u8 *l4 = 0; if (pool_is_free_index (cm->tables, table_index)) return 0; t = pool_elt_at_index (cm->tables, table_index); while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "hex %U", unformat_hex_string, &match)) ; else if (unformat (input, "l2 %U", unformat_l2_match, &l2)) ; else if (unformat (input, "l3 %U", unformat_l3_match, &l3)) ; else if (unformat (input, "l4 %U", unformat_l4_match, &l4)) ; else break; } if (l4 && !l3) { vec_free (match); vec_free (l2); vec_free (l4); return 0; } if (match || l2 || l3 || l4) { if (l2 || l3 || l4) { /* "Win a free Ethernet header in every packet" */ if (l2 == 0) vec_validate_aligned (l2, 13, sizeof (u32x4)); match = l2; if (l3) { vec_append_aligned (match, l3, sizeof (u32x4)); vec_free (l3); } if (l4) { vec_append_aligned (match, l4, sizeof (u32x4)); vec_free (l4); } } /* Make sure the vector is big enough even if key is all 0's */ vec_validate_aligned (match, ((t->match_n_vectors + t->skip_n_vectors) * sizeof (u32x4)) - 1, sizeof (u32x4)); /* Set size, include skipped vectors */ _vec_len (match) = (t->match_n_vectors + t->skip_n_vectors) * sizeof (u32x4); *matchp = match; return 1; } return 0; } int vnet_classify_add_del_session (vnet_classify_main_t *cm, u32 table_index, const u8 *match, u32 hit_next_index, u32 opaque_index, i32 advance, u8 action, u16 metadata, int is_add) { vnet_classify_table_t *t; vnet_classify_entry_5_t _max_e __attribute__ ((aligned (16))); vnet_classify_entry_t *e; int i, rv; if (pool_is_free_index (cm->tables, table_index)) return VNET_API_ERROR_NO_SUCH_TABLE; t = pool_elt_at_index (cm->tables, table_index); e = (vnet_classify_entry_t *) & _max_e; e->next_index = hit_next_index; e->opaque_index = opaque_index; e->advance = advance; e->hits = 0; e->last_heard = 0; e->flags = 0; e->action = action; if (e->action == CLASSIFY_ACTION_SET_IP4_FIB_INDEX) e->metadata = fib_table_find_or_create_and_lock (FIB_PROTOCOL_IP4, metadata, FIB_SOURCE_CLASSIFY); else if (e->action == CLASSIFY_ACTION_SET_IP6_FIB_INDEX) e->metadata = fib_table_find_or_create_and_lock (FIB_PROTOCOL_IP6, metadata, FIB_SOURCE_CLASSIFY); else if (e->action == CLASSIFY_ACTION_SET_METADATA) e->metadata = metadata; else e->metadata = 0; /* Copy key data, honoring skip_n_vectors */ clib_memcpy_fast (&e->key, match + t->skip_n_vectors * sizeof (u32x4), t->match_n_vectors * sizeof (u32x4)); /* Clear don't-care bits; likely when dynamically creating sessions */ for (i = 0; i < t->match_n_vectors; i++) e->key[i] &= t->mask[i]; rv = vnet_classify_add_del (t, e, is_add); vnet_classify_entry_release_resource (e); if (rv) return VNET_API_ERROR_NO_SUCH_ENTRY; return 0; } static clib_error_t * classify_session_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { vnet_classify_main_t *cm = &vnet_classify_main; int is_add = 1; u32 table_index = ~0; u32 hit_next_index = ~0; u64 opaque_index = ~0; u8 *match = 0; i32 advance = 0; u32 action = 0; u32 metadata = 0; int i, rv; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "del")) is_add = 0; else if (unformat (input, "hit-next %U", unformat_ip_next_index, &hit_next_index)) ; else if (unformat (input, "l2-input-hit-next %U", unformat_l2_input_next_index, &hit_next_index)) ; else if (unformat (input, "l2-output-hit-next %U", unformat_l2_output_next_index, &hit_next_index)) ; else if (unformat (input, "acl-hit-next %U", unformat_acl_next_index, &hit_next_index)) ; else if (unformat (input, "policer-hit-next %U", unformat_policer_next_index, &hit_next_index)) ; else if (unformat (input, "opaque-index %lld", &opaque_index)) ; else if (unformat (input, "match %U", unformat_classify_match, cm, &match, table_index)) ; else if (unformat (input, "advance %d", &advance)) ; else if (unformat (input, "table-index %d", &table_index)) ; else if (unformat (input, "action set-ip4-fib-id %d", &metadata)) action = 1; else if (unformat (input, "action set-ip6-fib-id %d", &metadata)) action = 2; else if (unformat (input, "action set-sr-policy-index %d", &metadata)) action = 3; else { /* Try registered opaque-index unformat fns */ for (i = 0; i < vec_len (cm->unformat_opaque_index_fns); i++) { if (unformat (input, "%U", cm->unformat_opaque_index_fns[i], &opaque_index)) goto found_opaque; } break; } found_opaque: ; } if (table_index == ~0) return clib_error_return (0, "Table index required"); if (is_add && match == 0) return clib_error_return (0, "Match value required"); rv = vnet_classify_add_del_session (cm, table_index, match, hit_next_index, opaque_index, advance, action, metadata, is_add); switch (rv) { case 0: break; default: return clib_error_return (0, "vnet_classify_add_del_session returned %d", rv); } return 0; } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (classify_session_command, static) = { .path = "classify session", .short_help = "classify session [hit-next|l2-input-hit-next|l2-output-hit-next|" "acl-hit-next |policer-hit-next ]" "\n table-index match [hex] [l2] [l3 ip4] [opaque-index ]" "\n [action set-ip4-fib-id|set-ip6-fib-id|set-sr-policy-index ] [del]", .function = classify_session_command_fn, }; /* *INDENT-ON* */ static uword unformat_opaque_sw_if_index (unformat_input_t * input, va_list * args) { u64 *opaquep = va_arg (*args, u64 *); u32 sw_if_index; if (unformat (input, "opaque-sw_if_index %U", unformat_vnet_sw_interface, vnet_get_main (), &sw_if_index)) { *opaquep = sw_if_index; return 1; } return 0; } static uword unformat_ip_next_node (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *next_indexp = va_arg (*args, u32 *); u32 node_index; u32 next_index = ~0; if (unformat (input, "ip6-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, ip6_classify_node.index, node_index); } else if (unformat (input, "ip4-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, ip4_classify_node.index, node_index); } else return 0; *next_indexp = next_index; return 1; } static uword unformat_acl_next_node (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *next_indexp = va_arg (*args, u32 *); u32 node_index; u32 next_index; if (unformat (input, "ip6-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, ip6_inacl_node.index, node_index); } else if (unformat (input, "ip4-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, ip4_inacl_node.index, node_index); } else return 0; *next_indexp = next_index; return 1; } static uword unformat_l2_input_next_node (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *next_indexp = va_arg (*args, u32 *); u32 node_index; u32 next_index; if (unformat (input, "input-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, l2_input_classify_node.index, node_index); *next_indexp = next_index; return 1; } return 0; } static uword unformat_l2_output_next_node (unformat_input_t * input, va_list * args) { vnet_classify_main_t *cm = &vnet_classify_main; u32 *next_indexp = va_arg (*args, u32 *); u32 node_index; u32 next_index; if (unformat (input, "output-node %U", unformat_vlib_node, cm->vlib_main, &node_index)) { next_index = vlib_node_add_next (cm->vlib_main, l2_output_classify_node.index, node_index); *next_indexp = next_index; return 1; } return 0; } static clib_error_t * vnet_classify_init (vlib_main_t * vm) { vnet_classify_main_t *cm = &vnet_classify_main; cm->vlib_main = vm; cm->vnet_main = vnet_get_main (); vnet_classify_register_unformat_opaque_index_fn (unformat_opaque_sw_if_index); vnet_classify_register_unformat_ip_next_index_fn (unformat_ip_next_node); vnet_classify_register_unformat_l2_next_index_fn (unformat_l2_input_next_node); vnet_classify_register_unformat_l2_next_index_fn (unformat_l2_output_next_node); vnet_classify_register_unformat_acl_next_index_fn (unformat_acl_next_node); vlib_global_main.trace_filter.classify_table_index = ~0; return 0; } VLIB_INIT_FUNCTION (vnet_classify_init); int vnet_is_packet_traced (vlib_buffer_t * b, u32 classify_table_index, int func) { return vnet_is_packet_traced_inline (b, classify_table_index, func); } #define TEST_CODE 0 #if TEST_CODE > 0 typedef struct { ip4_address_t addr; int in_table; } test_entry_t; typedef struct { test_entry_t *entries; /* test parameters */ u32 buckets; u32 sessions; u32 iterations; u32 memory_size; ip4_address_t src; vnet_classify_table_t *table; u32 table_index; int verbose; /* Random seed */ u32 seed; /* Test data */ classify_data_or_mask_t *mask; classify_data_or_mask_t *data; /* convenience */ vnet_classify_main_t *classify_main; vlib_main_t *vlib_main; } test_classify_main_t; static test_classify_main_t test_classify_main; static clib_error_t * test_classify_churn (test_classify_main_t * tm) { classify_data_or_mask_t *mask, *data; vlib_main_t *vm = tm->vlib_main; test_entry_t *ep; u8 *mp = 0, *dp = 0; u32 tmp; int i, rv; vec_validate_aligned (mp, 3 * sizeof (u32x4), sizeof (u32x4)); vec_validate_aligned (dp, 3 * sizeof (u32x4), sizeof (u32x4)); mask = (classify_data_or_mask_t *) mp; data = (classify_data_or_mask_t *) dp; /* Mask on src address */ clib_memset (&mask->ip.src_address, 0xff, 4); tmp = clib_host_to_net_u32 (tm->src.as_u32); for (i = 0; i < tm->sessions; i++) { vec_add2 (tm->entries, ep, 1); ep->addr.as_u32 = clib_host_to_net_u32 (tmp); ep->in_table = 0; tmp++; } tm->table = vnet_classify_new_table (tm->classify_main, (u8 *) mask, tm->buckets, tm->memory_size, 0 /* skip */ , 3 /* vectors to match */ ); tm->table->miss_next_index = IP_LOOKUP_NEXT_DROP; tm->table_index = tm->table - tm->classify_main->tables; vlib_cli_output (vm, "Created table %d, buckets %d", tm->table_index, tm->buckets); vlib_cli_output (vm, "Initialize: add %d (approx. half of %d sessions)...", tm->sessions / 2, tm->sessions); for (i = 0; i < tm->sessions / 2; i++) { ep = vec_elt_at_index (tm->entries, i); data->ip.src_address.as_u32 = ep->addr.as_u32; ep->in_table = 1; rv = vnet_classify_add_del_session (tm->classify_main, tm->table_index, (u8 *) data, IP_LOOKUP_NEXT_DROP, i /* opaque_index */ , 0 /* advance */ , 0 /* action */ , 0 /* metadata */ , 1 /* is_add */ ); if (rv != 0) clib_warning ("add: returned %d", rv); if (tm->verbose) vlib_cli_output (vm, "add: %U", format_ip4_address, &ep->addr.as_u32); } vlib_cli_output (vm, "Execute %d random add/delete operations", tm->iterations); for (i = 0; i < tm->iterations; i++) { int index, is_add; /* Pick a random entry */ index = random_u32 (&tm->seed) % tm->sessions; ep = vec_elt_at_index (tm->entries, index); data->ip.src_address.as_u32 = ep->addr.as_u32; /* If it's in the table, remove it. Else, add it */ is_add = !ep->in_table; if (tm->verbose) vlib_cli_output (vm, "%s: %U", is_add ? "add" : "del", format_ip4_address, &ep->addr.as_u32); rv = vnet_classify_add_del_session (tm->classify_main, tm->table_index, (u8 *) data, IP_LOOKUP_NEXT_DROP, i /* opaque_index */ , 0 /* advance */ , 0 /* action */ , 0 /* metadata */ , is_add); if (rv != 0) vlib_cli_output (vm, "%s[%d]: %U returned %d", is_add ? "add" : "del", index, format_ip4_address, &ep->addr.as_u32, rv); else ep->in_table = is_add; } vlib_cli_output (vm, "Remove remaining %d entries from the table", tm->table->active_elements); for (i = 0; i < tm->sessions; i++) { u8 *key_minus_skip; u64 hash; vnet_classify_entry_t *e; ep = tm->entries + i; if (ep->in_table == 0) continue; data->ip.src_address.as_u32 = ep->addr.as_u32; hash = vnet_classify_hash_packet (tm->table, (u8 *) data); e = vnet_classify_find_entry (tm->table, (u8 *) data, hash, 0 /* time_now */ ); if (e == 0) { clib_warning ("Couldn't find %U index %d which should be present", format_ip4_address, ep->addr, i); continue; } key_minus_skip = (u8 *) e->key; key_minus_skip -= tm->table->skip_n_vectors * sizeof (u32x4); rv = vnet_classify_add_del_session (tm->classify_main, tm->table_index, key_minus_skip, IP_LOOKUP_NEXT_DROP, i /* opaque_index */ , 0 /* advance */ , 0, 0, 0 /* is_add */ ); if (rv != 0) clib_warning ("del: returned %d", rv); if (tm->verbose) vlib_cli_output (vm, "del: %U", format_ip4_address, &ep->addr.as_u32); } vlib_cli_output (vm, "%d entries remain, MUST be zero", tm->table->active_elements); vlib_cli_output (vm, "Table after cleanup: \n%U\n", format_classify_table, tm->table, 0 /* verbose */ ); vec_free (mp); vec_free (dp); vnet_classify_delete_table_index (tm->classify_main, tm->table_index, 1 /* del_chain */ ); tm->table = 0; tm->table_index = ~0; vec_free (tm->entries); return 0; } static clib_error_t * test_classify_command_fn (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { test_classify_main_t *tm = &test_classify_main; vnet_classify_main_t *cm = &vnet_classify_main; u32 tmp; int which = 0; clib_error_t *error = 0; tm->buckets = 1024; tm->sessions = 8192; tm->iterations = 8192; tm->memory_size = 64 << 20; tm->src.as_u32 = clib_net_to_host_u32 (0x0100000A); tm->table = 0; tm->seed = 0xDEADDABE; tm->classify_main = cm; tm->vlib_main = vm; tm->verbose = 0; /* Default starting address 1.0.0.10 */ while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { if (unformat (input, "sessions %d", &tmp)) tm->sessions = tmp; else if (unformat (input, "src %U", unformat_ip4_address, &tm->src.as_u32)) ; else if (unformat (input, "buckets %d", &tm->buckets)) ; else if (unformat (input, "memory-size %uM", &tmp)) tm->memory_size = tmp << 20; else if (unformat (input, "memory-size %uG", &tmp)) tm->memory_size = tmp << 30; else if (unformat (input, "seed %d", &tm->seed)) ; else if (unformat (input, "verbose")) tm->verbose = 1; else if (unformat (input, "iterations %d", &tm->iterations)) ; else if (unformat (input, "churn-test")) which = 0; else break; } switch (which) { case 0: error = test_classify_churn (tm); break; default: error = clib_error_return (0, "No such test"); break; } return error; } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (test_classify_command, static) = { .path = "test classify", .short_help = "test classify [src ] [sessions ] [buckets ] [seed ]\n" " [memory-size [M|G]]\n" " [churn-test]", .function = test_classify_command_fn, }; /* *INDENT-ON* */ #endif /* TEST_CODE */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */