X-Git-Url: https://gerrit.fd.io/r/gitweb?a=blobdiff_plain;f=src%2Fvnet%2Fip%2Fip4_mtrie.c;h=adc95125ed39c66e8d3bcfed9e87557388a8e049;hb=a3af337e06a79f7d1dacf42a319f241c907122fc;hp=317d8f10d40c4f8cf2a00e2143846088c0510125;hpb=8db1de83ec540e01bb0577b726770bbb2338edcb;p=vpp.git diff --git a/src/vnet/ip/ip4_mtrie.c b/src/vnet/ip/ip4_mtrie.c index 317d8f10d40..adc95125ed3 100644 --- a/src/vnet/ip/ip4_mtrie.c +++ b/src/vnet/ip/ip4_mtrie.c @@ -38,10 +38,17 @@ */ #include -#include +#include +#include + + +/** + * Global pool of IPv4 8bit PLYs + */ +ip4_fib_mtrie_8_ply_t *ip4_ply_pool; always_inline u32 -ip4_fib_mtrie_leaf_is_non_empty (ip4_fib_mtrie_ply_t * p, u8 dst_byte) +ip4_fib_mtrie_leaf_is_non_empty (ip4_fib_mtrie_8_ply_t * p, u8 dst_byte) { /* * It's 'non-empty' if the length of the leaf stored is greater than the @@ -84,61 +91,83 @@ ip4_fib_mtrie_leaf_set_next_ply_index (u32 i) return l; } -static void -ply_init (ip4_fib_mtrie_ply_t * p, - ip4_fib_mtrie_leaf_t init, u32 prefix_len, u32 ply_base_len) -{ - /* - * A leaf is 'empty' if it represents a leaf from the covering PLY - * i.e. if the prefix length of the leaf is less than or equal to - * the prefix length of the PLY - */ - p->n_non_empty_leafs = (prefix_len > ply_base_len ? - ARRAY_LEN (p->leaves) : 0); - memset (p->dst_address_bits_of_leaves, prefix_len, - sizeof (p->dst_address_bits_of_leaves)); - p->dst_address_bits_base = ply_base_len; - - /* Initialize leaves. */ -#ifdef CLIB_HAVE_VEC128 - { - u32x4 *l, init_x4; - #ifndef __ALTIVEC__ - init_x4 = u32x4_splat (init); +#define PLY_X4_SPLAT_INIT(init_x4, init) \ + init_x4 = u32x4_splat (init); #else - { - u32x4_union_t y; - y.as_u32[0] = init; - y.as_u32[1] = init; - y.as_u32[2] = init; - y.as_u32[3] = init; - init_x4 = y.as_u32x4; - } +#define PLY_X4_SPLAT_INIT(init_x4, init) \ +{ \ + u32x4_union_t y; \ + y.as_u32[0] = init; \ + y.as_u32[1] = init; \ + y.as_u32[2] = init; \ + y.as_u32[3] = init; \ + init_x4 = y.as_u32x4; \ +} #endif - for (l = p->leaves_as_u32x4; - l < p->leaves_as_u32x4 + ARRAY_LEN (p->leaves_as_u32x4); l += 4) - { - l[0] = init_x4; - l[1] = init_x4; - l[2] = init_x4; - l[3] = init_x4; - } - } +#ifdef CLIB_HAVE_VEC128 +#define PLY_INIT_LEAVES(p) \ +{ \ + u32x4 *l, init_x4; \ + \ + PLY_X4_SPLAT_INIT(init_x4, init); \ + for (l = p->leaves_as_u32x4; \ + l < p->leaves_as_u32x4 + ARRAY_LEN (p->leaves_as_u32x4); \ + l += 4) \ + { \ + l[0] = init_x4; \ + l[1] = init_x4; \ + l[2] = init_x4; \ + l[3] = init_x4; \ + } \ +} #else - { - u32 *l; - - for (l = p->leaves; l < p->leaves + ARRAY_LEN (p->leaves); l += 4) - { - l[0] = init; - l[1] = init; - l[2] = init; - l[3] = init; - } - } +#define PLY_INIT_LEAVES(p) \ +{ \ + u32 *l; \ + \ + for (l = p->leaves; l < p->leaves + ARRAY_LEN (p->leaves); l += 4) \ + { \ + l[0] = init; \ + l[1] = init; \ + l[2] = init; \ + l[3] = init; \ + } \ +} #endif + +#define PLY_INIT(p, init, prefix_len, ply_base_len) \ +{ \ + /* \ + * A leaf is 'empty' if it represents a leaf from the covering PLY \ + * i.e. if the prefix length of the leaf is less than or equal to \ + * the prefix length of the PLY \ + */ \ + p->n_non_empty_leafs = (prefix_len > ply_base_len ? \ + ARRAY_LEN (p->leaves) : 0); \ + memset (p->dst_address_bits_of_leaves, prefix_len, \ + sizeof (p->dst_address_bits_of_leaves)); \ + p->dst_address_bits_base = ply_base_len; \ + \ + /* Initialize leaves. */ \ + PLY_INIT_LEAVES(p); \ +} + +static void +ply_8_init (ip4_fib_mtrie_8_ply_t * p, + ip4_fib_mtrie_leaf_t init, uword prefix_len, u32 ply_base_len) +{ + PLY_INIT (p, init, prefix_len, ply_base_len); +} + +static void +ply_16_init (ip4_fib_mtrie_16_ply_t * p, + ip4_fib_mtrie_leaf_t init, uword prefix_len) +{ + memset (p->dst_address_bits_of_leaves, prefix_len, + sizeof (p->dst_address_bits_of_leaves)); + PLY_INIT_LEAVES (p); } static ip4_fib_mtrie_leaf_t @@ -146,49 +175,43 @@ ply_create (ip4_fib_mtrie_t * m, ip4_fib_mtrie_leaf_t init_leaf, u32 leaf_prefix_len, u32 ply_base_len) { - ip4_fib_mtrie_ply_t *p; + ip4_fib_mtrie_8_ply_t *p; /* Get cache aligned ply. */ - pool_get_aligned (m->ply_pool, p, sizeof (p[0])); + pool_get_aligned (ip4_ply_pool, p, CLIB_CACHE_LINE_BYTES); - ply_init (p, init_leaf, leaf_prefix_len, ply_base_len); - return ip4_fib_mtrie_leaf_set_next_ply_index (p - m->ply_pool); + ply_8_init (p, init_leaf, leaf_prefix_len, ply_base_len); + return ip4_fib_mtrie_leaf_set_next_ply_index (p - ip4_ply_pool); } -always_inline ip4_fib_mtrie_ply_t * +always_inline ip4_fib_mtrie_8_ply_t * get_next_ply_for_leaf (ip4_fib_mtrie_t * m, ip4_fib_mtrie_leaf_t l) { uword n = ip4_fib_mtrie_leaf_get_next_ply_index (l); - /* It better not be the root ply. */ - ASSERT (n != 0); - return pool_elt_at_index (m->ply_pool, n); + + return pool_elt_at_index (ip4_ply_pool, n); } -static void -ply_free (ip4_fib_mtrie_t * m, ip4_fib_mtrie_ply_t * p) +void +ip4_mtrie_free (ip4_fib_mtrie_t * m) { - uword i, is_root; - - is_root = p - m->ply_pool == 0; - - for (i = 0; i < ARRAY_LEN (p->leaves); i++) + /* the root ply is embedded so the is nothing to do, + * the assumption being that the IP4 FIB table has emptied the trie + * before deletion. + */ +#if CLIB_DEBUG > 0 + int i; + for (i = 0; i < ARRAY_LEN (m->root_ply.leaves); i++) { - ip4_fib_mtrie_leaf_t l = p->leaves[i]; - if (ip4_fib_mtrie_leaf_is_next_ply (l)) - ply_free (m, get_next_ply_for_leaf (m, l)); + ASSERT (!ip4_fib_mtrie_leaf_is_next_ply (m->root_ply.leaves[i])); } - - if (is_root) - ply_init (p, IP4_FIB_MTRIE_LEAF_EMPTY, /* prefix_len */ 0, 0); - else - pool_put (m->ply_pool, p); +#endif } void -ip4_fib_free (ip4_fib_mtrie_t * m) +ip4_mtrie_init (ip4_fib_mtrie_t * m) { - ip4_fib_mtrie_ply_t *root_ply = pool_elt_at_index (m->ply_pool, 0); - ply_free (m, root_ply); + ply_16_init (&m->root_ply, IP4_FIB_MTRIE_LEAF_EMPTY, 0); } typedef struct @@ -202,7 +225,7 @@ typedef struct static void set_ply_with_more_specific_leaf (ip4_fib_mtrie_t * m, - ip4_fib_mtrie_ply_t * ply, + ip4_fib_mtrie_8_ply_t * ply, ip4_fib_mtrie_leaf_t new_leaf, uword new_leaf_dst_address_bits) { @@ -218,7 +241,8 @@ set_ply_with_more_specific_leaf (ip4_fib_mtrie_t * m, /* Recurse into sub plies. */ if (!ip4_fib_mtrie_leaf_is_terminal (old_leaf)) { - ip4_fib_mtrie_ply_t *sub_ply = get_next_ply_for_leaf (m, old_leaf); + ip4_fib_mtrie_8_ply_t *sub_ply = + get_next_ply_for_leaf (m, old_leaf); set_ply_with_more_specific_leaf (m, sub_ply, new_leaf, new_leaf_dst_address_bits); } @@ -237,16 +261,20 @@ set_ply_with_more_specific_leaf (ip4_fib_mtrie_t * m, static void set_leaf (ip4_fib_mtrie_t * m, - ip4_fib_mtrie_set_unset_leaf_args_t * a, + const ip4_fib_mtrie_set_unset_leaf_args_t * a, u32 old_ply_index, u32 dst_address_byte_index) { ip4_fib_mtrie_leaf_t old_leaf, new_leaf; i32 n_dst_bits_next_plies; u8 dst_byte; + ip4_fib_mtrie_8_ply_t *old_ply; + + old_ply = pool_elt_at_index (ip4_ply_pool, old_ply_index); ASSERT (a->dst_address_length >= 0 && a->dst_address_length <= 32); ASSERT (dst_address_byte_index < ARRAY_LEN (a->dst_address.as_u8)); + /* how many bits of the destination address are in the next PLY */ n_dst_bits_next_plies = a->dst_address_length - BITS (u8) * (dst_address_byte_index + 1); @@ -255,30 +283,36 @@ set_leaf (ip4_fib_mtrie_t * m, /* Number of bits next plies <= 0 => insert leaves this ply. */ if (n_dst_bits_next_plies <= 0) { + /* The mask length of the address to insert maps to this ply */ uword i, n_dst_bits_this_ply, old_leaf_is_terminal; + /* The number of bits, and hence slots/buckets, we will fill */ n_dst_bits_this_ply = clib_min (8, -n_dst_bits_next_plies); ASSERT ((a->dst_address.as_u8[dst_address_byte_index] & pow2_mask (n_dst_bits_this_ply)) == 0); + /* Starting at the value of the byte at this section of the v4 address + * fill the buckets/slots of the ply */ for (i = dst_byte; i < dst_byte + (1 << n_dst_bits_this_ply); i++) { - ip4_fib_mtrie_ply_t *old_ply, *new_ply; - - old_ply = pool_elt_at_index (m->ply_pool, old_ply_index); + ip4_fib_mtrie_8_ply_t *new_ply; old_leaf = old_ply->leaves[i]; old_leaf_is_terminal = ip4_fib_mtrie_leaf_is_terminal (old_leaf); - /* Is leaf to be inserted more specific? */ if (a->dst_address_length >= old_ply->dst_address_bits_of_leaves[i]) { + /* The new leaf is more or equally specific than the one currently + * occupying the slot */ new_leaf = ip4_fib_mtrie_leaf_set_adj_index (a->adj_index); if (old_leaf_is_terminal) { + /* The current leaf is terminal, we can replace it with + * the new one */ old_ply->n_non_empty_leafs -= ip4_fib_mtrie_leaf_is_non_empty (old_ply, i); + old_ply->dst_address_bits_of_leaves[i] = a->dst_address_length; __sync_val_compare_and_swap (&old_ply->leaves[i], old_leaf, @@ -292,32 +326,42 @@ set_leaf (ip4_fib_mtrie_t * m, } else { - /* Existing leaf points to another ply. We need to place new_leaf into all - more specific slots. */ + /* Existing leaf points to another ply. We need to place + * new_leaf into all more specific slots. */ new_ply = get_next_ply_for_leaf (m, old_leaf); set_ply_with_more_specific_leaf (m, new_ply, new_leaf, a->dst_address_length); } } - else if (!old_leaf_is_terminal) { + /* The current leaf is less specific and not termial (i.e. a ply), + * recurse on down the trie */ new_ply = get_next_ply_for_leaf (m, old_leaf); - set_leaf (m, a, new_ply - m->ply_pool, + set_leaf (m, a, new_ply - ip4_ply_pool, dst_address_byte_index + 1); } + /* + * else + * the route we are adding is less specific than the leaf currently + * occupying this slot. leave it there + */ } } else { - ip4_fib_mtrie_ply_t *old_ply, *new_ply; + /* The address to insert requires us to move down at a lower level of + * the trie - recurse on down */ + ip4_fib_mtrie_8_ply_t *new_ply; u8 ply_base_len; ply_base_len = 8 * (dst_address_byte_index + 1); - old_ply = pool_elt_at_index (m->ply_pool, old_ply_index); + old_leaf = old_ply->leaves[dst_byte]; + if (ip4_fib_mtrie_leaf_is_terminal (old_leaf)) { + /* There is a leaf occupying the slot. Replace it with a new ply */ old_ply->n_non_empty_leafs -= ip4_fib_mtrie_leaf_is_non_empty (old_ply, dst_byte); @@ -328,28 +372,143 @@ set_leaf (ip4_fib_mtrie_t * m, new_ply = get_next_ply_for_leaf (m, new_leaf); /* Refetch since ply_create may move pool. */ - old_ply = pool_elt_at_index (m->ply_pool, old_ply_index); + old_ply = pool_elt_at_index (ip4_ply_pool, old_ply_index); __sync_val_compare_and_swap (&old_ply->leaves[dst_byte], old_leaf, new_leaf); ASSERT (old_ply->leaves[dst_byte] == new_leaf); old_ply->dst_address_bits_of_leaves[dst_byte] = ply_base_len; - /* Account for the ply we just created. */ - old_ply->n_non_empty_leafs += 1; + old_ply->n_non_empty_leafs += + ip4_fib_mtrie_leaf_is_non_empty (old_ply, dst_byte); ASSERT (old_ply->n_non_empty_leafs >= 0); } else new_ply = get_next_ply_for_leaf (m, old_leaf); - set_leaf (m, a, new_ply - m->ply_pool, dst_address_byte_index + 1); + set_leaf (m, a, new_ply - ip4_ply_pool, dst_address_byte_index + 1); + } +} + +static void +set_root_leaf (ip4_fib_mtrie_t * m, + const ip4_fib_mtrie_set_unset_leaf_args_t * a) +{ + ip4_fib_mtrie_leaf_t old_leaf, new_leaf; + ip4_fib_mtrie_16_ply_t *old_ply; + i32 n_dst_bits_next_plies; + u16 dst_byte; + + old_ply = &m->root_ply; + + ASSERT (a->dst_address_length >= 0 && a->dst_address_length <= 32); + + /* how many bits of the destination address are in the next PLY */ + n_dst_bits_next_plies = a->dst_address_length - BITS (u16); + + dst_byte = a->dst_address.as_u16[0]; + + /* Number of bits next plies <= 0 => insert leaves this ply. */ + if (n_dst_bits_next_plies <= 0) + { + /* The mask length of the address to insert maps to this ply */ + uword i, n_dst_bits_this_ply, old_leaf_is_terminal; + + /* The number of bits, and hence slots/buckets, we will fill */ + n_dst_bits_this_ply = 16 - a->dst_address_length; + ASSERT ((clib_host_to_net_u16 (a->dst_address.as_u16[0]) & + pow2_mask (n_dst_bits_this_ply)) == 0); + + /* Starting at the value of the byte at this section of the v4 address + * fill the buckets/slots of the ply */ + for (i = 0; i < (1 << n_dst_bits_this_ply); i++) + { + ip4_fib_mtrie_8_ply_t *new_ply; + u16 slot; + + slot = clib_net_to_host_u16 (dst_byte); + slot += i; + slot = clib_host_to_net_u16 (slot); + + old_leaf = old_ply->leaves[slot]; + old_leaf_is_terminal = ip4_fib_mtrie_leaf_is_terminal (old_leaf); + + if (a->dst_address_length >= + old_ply->dst_address_bits_of_leaves[slot]) + { + /* The new leaf is more or equally specific than the one currently + * occupying the slot */ + new_leaf = ip4_fib_mtrie_leaf_set_adj_index (a->adj_index); + + if (old_leaf_is_terminal) + { + /* The current leaf is terminal, we can replace it with + * the new one */ + old_ply->dst_address_bits_of_leaves[slot] = + a->dst_address_length; + __sync_val_compare_and_swap (&old_ply->leaves[slot], + old_leaf, new_leaf); + ASSERT (old_ply->leaves[slot] == new_leaf); + } + else + { + /* Existing leaf points to another ply. We need to place + * new_leaf into all more specific slots. */ + new_ply = get_next_ply_for_leaf (m, old_leaf); + set_ply_with_more_specific_leaf (m, new_ply, new_leaf, + a->dst_address_length); + } + } + else if (!old_leaf_is_terminal) + { + /* The current leaf is less specific and not termial (i.e. a ply), + * recurse on down the trie */ + new_ply = get_next_ply_for_leaf (m, old_leaf); + set_leaf (m, a, new_ply - ip4_ply_pool, 2); + } + /* + * else + * the route we are adding is less specific than the leaf currently + * occupying this slot. leave it there + */ + } + } + else + { + /* The address to insert requires us to move down at a lower level of + * the trie - recurse on down */ + ip4_fib_mtrie_8_ply_t *new_ply; + u8 ply_base_len; + + ply_base_len = 16; + + old_leaf = old_ply->leaves[dst_byte]; + + if (ip4_fib_mtrie_leaf_is_terminal (old_leaf)) + { + /* There is a leaf occupying the slot. Replace it with a new ply */ + new_leaf = ply_create (m, old_leaf, + clib_max (old_ply->dst_address_bits_of_leaves + [dst_byte], ply_base_len), + ply_base_len); + new_ply = get_next_ply_for_leaf (m, new_leaf); + + __sync_val_compare_and_swap (&old_ply->leaves[dst_byte], old_leaf, + new_leaf); + ASSERT (old_ply->leaves[dst_byte] == new_leaf); + old_ply->dst_address_bits_of_leaves[dst_byte] = ply_base_len; + } + else + new_ply = get_next_ply_for_leaf (m, old_leaf); + + set_leaf (m, a, new_ply - ip4_ply_pool, 2); } } static uword unset_leaf (ip4_fib_mtrie_t * m, - ip4_fib_mtrie_set_unset_leaf_args_t * a, - ip4_fib_mtrie_ply_t * old_ply, u32 dst_address_byte_index) + const ip4_fib_mtrie_set_unset_leaf_args_t * a, + ip4_fib_mtrie_8_ply_t * old_ply, u32 dst_address_byte_index) { ip4_fib_mtrie_leaf_t old_leaf, del_leaf; i32 n_dst_bits_next_plies; @@ -397,7 +556,7 @@ unset_leaf (ip4_fib_mtrie_t * m, ASSERT (old_ply->n_non_empty_leafs >= 0); if (old_ply->n_non_empty_leafs == 0 && dst_address_byte_index > 0) { - pool_put (m->ply_pool, old_ply); + pool_put (ip4_ply_pool, old_ply); /* Old ply was deleted. */ return 1; } @@ -419,106 +578,120 @@ unset_leaf (ip4_fib_mtrie_t * m, return 0; } -void -ip4_mtrie_init (ip4_fib_mtrie_t * m) +static void +unset_root_leaf (ip4_fib_mtrie_t * m, + const ip4_fib_mtrie_set_unset_leaf_args_t * a) { - ip4_fib_mtrie_leaf_t root; - memset (m, 0, sizeof (m[0])); - root = ply_create (m, IP4_FIB_MTRIE_LEAF_EMPTY, 0, 0); - ASSERT (ip4_fib_mtrie_leaf_get_next_ply_index (root) == 0); -} + ip4_fib_mtrie_leaf_t old_leaf, del_leaf; + i32 n_dst_bits_next_plies; + i32 i, n_dst_bits_this_ply, old_leaf_is_terminal; + u16 dst_byte; + ip4_fib_mtrie_16_ply_t *old_ply; -void -ip4_fib_mtrie_add_del_route (ip4_fib_t * fib, - ip4_address_t dst_address, - u32 dst_address_length, - u32 adj_index, u32 is_del) -{ - ip4_fib_mtrie_t *m = &fib->mtrie; - ip4_fib_mtrie_ply_t *root_ply; - ip4_fib_mtrie_set_unset_leaf_args_t a; - ip4_main_t *im = &ip4_main; + ASSERT (a->dst_address_length >= 0 && a->dst_address_length <= 32); - ASSERT (m->ply_pool != 0); + old_ply = &m->root_ply; + n_dst_bits_next_plies = a->dst_address_length - BITS (u16); - root_ply = pool_elt_at_index (m->ply_pool, 0); + dst_byte = a->dst_address.as_u16[0]; - /* Honor dst_address_length. Fib masks are in network byte order */ - dst_address.as_u32 &= im->fib_masks[dst_address_length]; - a.dst_address = dst_address; - a.dst_address_length = dst_address_length; - a.adj_index = adj_index; + n_dst_bits_this_ply = (n_dst_bits_next_plies <= 0 ? + (16 - a->dst_address_length) : 0); - if (!is_del) - { - set_leaf (m, &a, /* ply_index */ 0, /* dst_address_byte_index */ 0); - } - else + del_leaf = ip4_fib_mtrie_leaf_set_adj_index (a->adj_index); + + /* Starting at the value of the byte at this section of the v4 address + * fill the buckets/slots of the ply */ + for (i = 0; i < (1 << n_dst_bits_this_ply); i++) { - ip4_main_t *im = &ip4_main; + u16 slot; + + slot = clib_net_to_host_u16 (dst_byte); + slot += i; + slot = clib_host_to_net_u16 (slot); - if (dst_address_length) + old_leaf = old_ply->leaves[slot]; + old_leaf_is_terminal = ip4_fib_mtrie_leaf_is_terminal (old_leaf); + + if (old_leaf == del_leaf + || (!old_leaf_is_terminal + && unset_leaf (m, a, get_next_ply_for_leaf (m, old_leaf), 2))) { - word i; + old_ply->leaves[slot] = + ip4_fib_mtrie_leaf_set_adj_index (a->cover_adj_index); + old_ply->dst_address_bits_of_leaves[slot] = a->cover_address_length; + } + } +} - /* If the ply was not deleted, then we need to fill the - * bucket just reset will the leaf from the less specfic - * cover. - * Find next less specific route and insert into mtrie. */ - for (i = dst_address_length - 1; i >= 0; i--) - { - uword *p; - index_t lbi; - ip4_address_t key; +void +ip4_fib_mtrie_route_add (ip4_fib_mtrie_t * m, + const ip4_address_t * dst_address, + u32 dst_address_length, u32 adj_index) +{ + ip4_fib_mtrie_set_unset_leaf_args_t a; + ip4_main_t *im = &ip4_main; - if (!fib->fib_entry_by_dst_address[i]) - continue; + /* Honor dst_address_length. Fib masks are in network byte order */ + a.dst_address.as_u32 = (dst_address->as_u32 & + im->fib_masks[dst_address_length]); + a.dst_address_length = dst_address_length; + a.adj_index = adj_index; - key.as_u32 = dst_address.as_u32 & im->fib_masks[i]; - p = hash_get (fib->fib_entry_by_dst_address[i], key.as_u32); - if (p) - { - lbi = fib_entry_contribute_ip_forwarding (p[0])->dpoi_index; - if (INDEX_INVALID == lbi) - continue; + set_root_leaf (m, &a); +} - a.cover_adj_index = lbi; - a.cover_address_length = i; +void +ip4_fib_mtrie_route_del (ip4_fib_mtrie_t * m, + const ip4_address_t * dst_address, + u32 dst_address_length, + u32 adj_index, + u32 cover_address_length, u32 cover_adj_index) +{ + ip4_fib_mtrie_set_unset_leaf_args_t a; + ip4_main_t *im = &ip4_main; - break; - } - } - } - else - { - a.cover_adj_index = 0; - a.cover_address_length = 0; - } + /* Honor dst_address_length. Fib masks are in network byte order */ + a.dst_address.as_u32 = (dst_address->as_u32 & + im->fib_masks[dst_address_length]); + a.dst_address_length = dst_address_length; + a.adj_index = adj_index; + a.cover_adj_index = cover_adj_index; + a.cover_address_length = cover_address_length; - /* the top level ply is never removed, so we can ignore the return code */ - unset_leaf (m, &a, root_ply, 0); - } + /* the top level ply is never removed */ + unset_root_leaf (m, &a); } /* Returns number of bytes of memory used by mtrie. */ static uword -mtrie_memory_usage (ip4_fib_mtrie_t * m, ip4_fib_mtrie_ply_t * p) +mtrie_ply_memory_usage (ip4_fib_mtrie_t * m, ip4_fib_mtrie_8_ply_t * p) { uword bytes, i; - if (!p) - { - if (pool_is_free_index (m->ply_pool, 0)) - return 0; - p = pool_elt_at_index (m->ply_pool, 0); - } - bytes = sizeof (p[0]); for (i = 0; i < ARRAY_LEN (p->leaves); i++) { ip4_fib_mtrie_leaf_t l = p->leaves[i]; if (ip4_fib_mtrie_leaf_is_next_ply (l)) - bytes += mtrie_memory_usage (m, get_next_ply_for_leaf (m, l)); + bytes += mtrie_ply_memory_usage (m, get_next_ply_for_leaf (m, l)); + } + + return bytes; +} + +/* Returns number of bytes of memory used by mtrie. */ +static uword +mtrie_memory_usage (ip4_fib_mtrie_t * m) +{ + uword bytes, i; + + bytes = sizeof (*m); + for (i = 0; i < ARRAY_LEN (m->root_ply.leaves); i++) + { + ip4_fib_mtrie_leaf_t l = m->root_ply.leaves[i]; + if (ip4_fib_mtrie_leaf_is_next_ply (l)) + bytes += mtrie_ply_memory_usage (m, get_next_ply_for_leaf (m, l)); } return bytes; @@ -536,47 +709,49 @@ format_ip4_fib_mtrie_leaf (u8 * s, va_list * va) return s; } +#define FORMAT_PLY(s, _p, _i, _base_address, _ply_max_len, _indent) \ +({ \ + u32 a, ia_length; \ + ip4_address_t ia; \ + ip4_fib_mtrie_leaf_t _l = p->leaves[(_i)]; \ + \ + a = (_base_address) + ((_i) << (32 - (_ply_max_len))); \ + ia.as_u32 = clib_host_to_net_u32 (a); \ + ia_length = (_p)->dst_address_bits_of_leaves[(_i)]; \ + s = format (s, "\n%U%20U %U", \ + format_white_space, (_indent) + 2, \ + format_ip4_address_and_length, &ia, ia_length, \ + format_ip4_fib_mtrie_leaf, _l); \ + \ + if (ip4_fib_mtrie_leaf_is_next_ply (_l)) \ + s = format (s, "\n%U%U", \ + format_white_space, (_indent) + 2, \ + format_ip4_fib_mtrie_ply, m, a, \ + ip4_fib_mtrie_leaf_get_next_ply_index (_l)); \ + s; \ +}) + static u8 * format_ip4_fib_mtrie_ply (u8 * s, va_list * va) { ip4_fib_mtrie_t *m = va_arg (*va, ip4_fib_mtrie_t *); u32 base_address = va_arg (*va, u32); u32 ply_index = va_arg (*va, u32); - u32 dst_address_byte_index = va_arg (*va, u32); - ip4_fib_mtrie_ply_t *p; - uword i, indent; + ip4_fib_mtrie_8_ply_t *p; + uword indent; + int i; - p = pool_elt_at_index (m->ply_pool, ply_index); + p = pool_elt_at_index (ip4_ply_pool, ply_index); indent = format_get_indent (s); - s = - format (s, "ply index %d, %d non-empty leaves", ply_index, - p->n_non_empty_leafs); + s = format (s, "ply index %d, %d non-empty leaves", ply_index, + p->n_non_empty_leafs); + for (i = 0; i < ARRAY_LEN (p->leaves); i++) { - ip4_fib_mtrie_leaf_t l = p->leaves[i]; - if (ip4_fib_mtrie_leaf_is_non_empty (p, i)) { - u32 a, ia_length; - ip4_address_t ia; - - a = base_address + (i << (24 - 8 * dst_address_byte_index)); - ia.as_u32 = clib_host_to_net_u32 (a); - if (ip4_fib_mtrie_leaf_is_terminal (l)) - ia_length = p->dst_address_bits_of_leaves[i]; - else - ia_length = 8 * (1 + dst_address_byte_index); - s = format (s, "\n%U%20U %U", - format_white_space, indent + 2, - format_ip4_address_and_length, &ia, ia_length, - format_ip4_fib_mtrie_leaf, l); - - if (ip4_fib_mtrie_leaf_is_next_ply (l)) - s = format (s, "\n%U%U", - format_white_space, indent + 2, - format_ip4_fib_mtrie_ply, m, a, - ip4_fib_mtrie_leaf_get_next_ply_index (l), - dst_address_byte_index + 1); + FORMAT_PLY (s, p, i, base_address, + p->dst_address_bits_base + 8, indent); } } @@ -587,22 +762,44 @@ u8 * format_ip4_fib_mtrie (u8 * s, va_list * va) { ip4_fib_mtrie_t *m = va_arg (*va, ip4_fib_mtrie_t *); + ip4_fib_mtrie_16_ply_t *p; + u32 base_address = 0; + int i; - s = format (s, "%d plies, memory usage %U", - pool_elts (m->ply_pool), - format_memory_size, mtrie_memory_usage (m, 0)); + s = format (s, "%d plies, memory usage %U\n", + pool_elts (ip4_ply_pool), + format_memory_size, mtrie_memory_usage (m)); + s = format (s, "root-ply"); + p = &m->root_ply; - if (pool_elts (m->ply_pool) > 0) + for (i = 0; i < ARRAY_LEN (p->leaves); i++) { - ip4_address_t base_address; - base_address.as_u32 = 0; - s = - format (s, "\n %U", format_ip4_fib_mtrie_ply, m, base_address, 0, 0); + u16 slot; + + slot = clib_host_to_net_u16 (i); + + if (p->dst_address_bits_of_leaves[slot] > 0) + { + FORMAT_PLY (s, p, slot, base_address, 16, 2); + } } return s; } +static clib_error_t * +ip4_mtrie_module_init (vlib_main_t * vm) +{ + /* Burn one ply so index 0 is taken */ + CLIB_UNUSED (ip4_fib_mtrie_8_ply_t * p); + + pool_get (ip4_ply_pool, p); + + return (NULL); +} + +VLIB_INIT_FUNCTION (ip4_mtrie_module_init); + /* * fd.io coding-style-patch-verification: ON *