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bpf: Implement bpf iterator for hash maps
The bpf iterators for hash, percpu hash, lru hash and lru percpu hash are implemented. During link time, bpf_iter_reg->check_target() will check map type and ensure the program access key/value region is within the map defined key/value size limit. For percpu hash and lru hash maps, the bpf program will receive values for all cpus. The map element bpf iterator infrastructure will prepare value properly before passing the value pointer to the bpf program. This patch set supports readonly map keys and read/write map values. It does not support deleting map elements, e.g., from hash tables. If there is a user case for this, the following mechanism can be used to support map deletion for hashtab, etc. - permit a new bpf program return value, e.g., 2, to let bpf iterator know the map element should be removed. - since bucket lock is taken, the map element will be queued. - once bucket lock is released after all elements under this bucket are traversed, all to-be-deleted map elements can be deleted. Signed-off-by: Yonghong Song <yhs@fb.com> Signed-off-by: Alexei Starovoitov <ast@kernel.org> Link: https://lore.kernel.org/bpf/20200723184114.590470-1-yhs@fb.com
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@ -1612,6 +1612,196 @@ htab_lru_map_lookup_and_delete_batch(struct bpf_map *map,
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true, false);
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}
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struct bpf_iter_seq_hash_map_info {
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struct bpf_map *map;
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struct bpf_htab *htab;
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void *percpu_value_buf; // non-zero means percpu hash
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unsigned long flags;
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u32 bucket_id;
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u32 skip_elems;
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};
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static struct htab_elem *
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bpf_hash_map_seq_find_next(struct bpf_iter_seq_hash_map_info *info,
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struct htab_elem *prev_elem)
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{
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const struct bpf_htab *htab = info->htab;
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unsigned long flags = info->flags;
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u32 skip_elems = info->skip_elems;
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u32 bucket_id = info->bucket_id;
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struct hlist_nulls_head *head;
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struct hlist_nulls_node *n;
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struct htab_elem *elem;
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struct bucket *b;
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u32 i, count;
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if (bucket_id >= htab->n_buckets)
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return NULL;
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/* try to find next elem in the same bucket */
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if (prev_elem) {
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/* no update/deletion on this bucket, prev_elem should be still valid
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* and we won't skip elements.
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*/
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n = rcu_dereference_raw(hlist_nulls_next_rcu(&prev_elem->hash_node));
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elem = hlist_nulls_entry_safe(n, struct htab_elem, hash_node);
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if (elem)
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return elem;
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/* not found, unlock and go to the next bucket */
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b = &htab->buckets[bucket_id++];
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htab_unlock_bucket(htab, b, flags);
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skip_elems = 0;
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}
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for (i = bucket_id; i < htab->n_buckets; i++) {
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b = &htab->buckets[i];
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flags = htab_lock_bucket(htab, b);
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count = 0;
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head = &b->head;
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hlist_nulls_for_each_entry_rcu(elem, n, head, hash_node) {
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if (count >= skip_elems) {
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info->flags = flags;
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info->bucket_id = i;
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info->skip_elems = count;
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return elem;
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}
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count++;
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}
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htab_unlock_bucket(htab, b, flags);
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skip_elems = 0;
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}
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info->bucket_id = i;
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info->skip_elems = 0;
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return NULL;
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}
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static void *bpf_hash_map_seq_start(struct seq_file *seq, loff_t *pos)
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{
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struct bpf_iter_seq_hash_map_info *info = seq->private;
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struct htab_elem *elem;
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elem = bpf_hash_map_seq_find_next(info, NULL);
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if (!elem)
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return NULL;
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if (*pos == 0)
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++*pos;
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return elem;
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}
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static void *bpf_hash_map_seq_next(struct seq_file *seq, void *v, loff_t *pos)
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{
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struct bpf_iter_seq_hash_map_info *info = seq->private;
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++*pos;
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++info->skip_elems;
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return bpf_hash_map_seq_find_next(info, v);
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}
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static int __bpf_hash_map_seq_show(struct seq_file *seq, struct htab_elem *elem)
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{
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struct bpf_iter_seq_hash_map_info *info = seq->private;
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u32 roundup_key_size, roundup_value_size;
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struct bpf_iter__bpf_map_elem ctx = {};
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struct bpf_map *map = info->map;
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struct bpf_iter_meta meta;
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int ret = 0, off = 0, cpu;
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struct bpf_prog *prog;
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void __percpu *pptr;
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meta.seq = seq;
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prog = bpf_iter_get_info(&meta, elem == NULL);
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if (prog) {
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ctx.meta = &meta;
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ctx.map = info->map;
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if (elem) {
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roundup_key_size = round_up(map->key_size, 8);
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ctx.key = elem->key;
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if (!info->percpu_value_buf) {
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ctx.value = elem->key + roundup_key_size;
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} else {
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roundup_value_size = round_up(map->value_size, 8);
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pptr = htab_elem_get_ptr(elem, map->key_size);
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for_each_possible_cpu(cpu) {
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bpf_long_memcpy(info->percpu_value_buf + off,
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per_cpu_ptr(pptr, cpu),
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roundup_value_size);
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off += roundup_value_size;
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}
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ctx.value = info->percpu_value_buf;
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}
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}
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ret = bpf_iter_run_prog(prog, &ctx);
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}
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return ret;
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}
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static int bpf_hash_map_seq_show(struct seq_file *seq, void *v)
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{
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return __bpf_hash_map_seq_show(seq, v);
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}
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static void bpf_hash_map_seq_stop(struct seq_file *seq, void *v)
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{
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struct bpf_iter_seq_hash_map_info *info = seq->private;
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if (!v)
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(void)__bpf_hash_map_seq_show(seq, NULL);
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else
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htab_unlock_bucket(info->htab,
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&info->htab->buckets[info->bucket_id],
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info->flags);
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}
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static int bpf_iter_init_hash_map(void *priv_data,
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struct bpf_iter_aux_info *aux)
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{
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struct bpf_iter_seq_hash_map_info *seq_info = priv_data;
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struct bpf_map *map = aux->map;
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void *value_buf;
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u32 buf_size;
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if (map->map_type == BPF_MAP_TYPE_PERCPU_HASH ||
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map->map_type == BPF_MAP_TYPE_LRU_PERCPU_HASH) {
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buf_size = round_up(map->value_size, 8) * num_possible_cpus();
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value_buf = kmalloc(buf_size, GFP_USER | __GFP_NOWARN);
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if (!value_buf)
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return -ENOMEM;
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seq_info->percpu_value_buf = value_buf;
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}
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seq_info->map = map;
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seq_info->htab = container_of(map, struct bpf_htab, map);
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return 0;
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}
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static void bpf_iter_fini_hash_map(void *priv_data)
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{
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struct bpf_iter_seq_hash_map_info *seq_info = priv_data;
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kfree(seq_info->percpu_value_buf);
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}
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static const struct seq_operations bpf_hash_map_seq_ops = {
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.start = bpf_hash_map_seq_start,
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.next = bpf_hash_map_seq_next,
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.stop = bpf_hash_map_seq_stop,
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.show = bpf_hash_map_seq_show,
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};
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static const struct bpf_iter_seq_info iter_seq_info = {
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.seq_ops = &bpf_hash_map_seq_ops,
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.init_seq_private = bpf_iter_init_hash_map,
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.fini_seq_private = bpf_iter_fini_hash_map,
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.seq_priv_size = sizeof(struct bpf_iter_seq_hash_map_info),
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};
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static int htab_map_btf_id;
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const struct bpf_map_ops htab_map_ops = {
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.map_alloc_check = htab_map_alloc_check,
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@ -1626,6 +1816,7 @@ const struct bpf_map_ops htab_map_ops = {
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BATCH_OPS(htab),
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.map_btf_name = "bpf_htab",
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.map_btf_id = &htab_map_btf_id,
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.iter_seq_info = &iter_seq_info,
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};
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static int htab_lru_map_btf_id;
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@ -1643,6 +1834,7 @@ const struct bpf_map_ops htab_lru_map_ops = {
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BATCH_OPS(htab_lru),
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.map_btf_name = "bpf_htab",
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.map_btf_id = &htab_lru_map_btf_id,
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.iter_seq_info = &iter_seq_info,
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};
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/* Called from eBPF program */
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@ -1760,6 +1952,7 @@ const struct bpf_map_ops htab_percpu_map_ops = {
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BATCH_OPS(htab_percpu),
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.map_btf_name = "bpf_htab",
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.map_btf_id = &htab_percpu_map_btf_id,
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.iter_seq_info = &iter_seq_info,
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};
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static int htab_lru_percpu_map_btf_id;
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@ -1775,6 +1968,7 @@ const struct bpf_map_ops htab_lru_percpu_map_ops = {
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BATCH_OPS(htab_lru_percpu),
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.map_btf_name = "bpf_htab",
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.map_btf_id = &htab_lru_percpu_map_btf_id,
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.iter_seq_info = &iter_seq_info,
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};
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static int fd_htab_map_alloc_check(union bpf_attr *attr)
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@ -101,7 +101,29 @@ static struct bpf_iter_reg bpf_map_reg_info = {
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static int bpf_iter_check_map(struct bpf_prog *prog,
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struct bpf_iter_aux_info *aux)
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{
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return -EINVAL;
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u32 key_acc_size, value_acc_size, key_size, value_size;
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struct bpf_map *map = aux->map;
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bool is_percpu = false;
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if (map->map_type == BPF_MAP_TYPE_PERCPU_HASH ||
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map->map_type == BPF_MAP_TYPE_LRU_PERCPU_HASH)
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is_percpu = true;
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else if (map->map_type != BPF_MAP_TYPE_HASH &&
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map->map_type != BPF_MAP_TYPE_LRU_HASH)
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return -EINVAL;
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key_acc_size = prog->aux->max_rdonly_access;
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value_acc_size = prog->aux->max_rdwr_access;
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key_size = map->key_size;
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if (!is_percpu)
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value_size = map->value_size;
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else
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value_size = round_up(map->value_size, 8) * num_possible_cpus();
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if (key_acc_size > key_size || value_acc_size > value_size)
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return -EACCES;
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return 0;
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}
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DEFINE_BPF_ITER_FUNC(bpf_map_elem, struct bpf_iter_meta *meta,
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