forked from Minki/linux
9b460d3699
The walk code was using a 'ro_spine' to hold it's locked btree nodes. But this data structure is designed for the rolling lock scheme, and as such automatically unlocks blocks that are two steps up the call chain. This is not suitable for the simple recursive walk algorithm, which retraces its steps. This code is only used by the persistent array code, which in turn is only used by dm-cache. In order to trigger it you need to have a mapping tree that is more than 2 levels deep; which equates to 8-16 million cache blocks. For instance a 4T ssd with a very small block size of 32k only just triggers this bug. The fix just places the locked blocks on the stack, and stops using the ro_spine altogether. Signed-off-by: Joe Thornber <ejt@redhat.com> Signed-off-by: Mike Snitzer <snitzer@redhat.com> Cc: stable@vger.kernel.org
252 lines
5.1 KiB
C
252 lines
5.1 KiB
C
/*
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* Copyright (C) 2011 Red Hat, Inc.
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*
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* This file is released under the GPL.
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*/
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#include "dm-btree-internal.h"
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#include "dm-transaction-manager.h"
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#include <linux/device-mapper.h>
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#define DM_MSG_PREFIX "btree spine"
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/*----------------------------------------------------------------*/
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#define BTREE_CSUM_XOR 121107
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static int node_check(struct dm_block_validator *v,
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struct dm_block *b,
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size_t block_size);
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static void node_prepare_for_write(struct dm_block_validator *v,
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struct dm_block *b,
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size_t block_size)
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{
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struct btree_node *n = dm_block_data(b);
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struct node_header *h = &n->header;
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h->blocknr = cpu_to_le64(dm_block_location(b));
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h->csum = cpu_to_le32(dm_bm_checksum(&h->flags,
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block_size - sizeof(__le32),
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BTREE_CSUM_XOR));
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BUG_ON(node_check(v, b, 4096));
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}
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static int node_check(struct dm_block_validator *v,
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struct dm_block *b,
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size_t block_size)
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{
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struct btree_node *n = dm_block_data(b);
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struct node_header *h = &n->header;
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size_t value_size;
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__le32 csum_disk;
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uint32_t flags;
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if (dm_block_location(b) != le64_to_cpu(h->blocknr)) {
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DMERR_LIMIT("node_check failed: blocknr %llu != wanted %llu",
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le64_to_cpu(h->blocknr), dm_block_location(b));
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return -ENOTBLK;
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}
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csum_disk = cpu_to_le32(dm_bm_checksum(&h->flags,
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block_size - sizeof(__le32),
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BTREE_CSUM_XOR));
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if (csum_disk != h->csum) {
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DMERR_LIMIT("node_check failed: csum %u != wanted %u",
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le32_to_cpu(csum_disk), le32_to_cpu(h->csum));
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return -EILSEQ;
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}
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value_size = le32_to_cpu(h->value_size);
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if (sizeof(struct node_header) +
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(sizeof(__le64) + value_size) * le32_to_cpu(h->max_entries) > block_size) {
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DMERR_LIMIT("node_check failed: max_entries too large");
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return -EILSEQ;
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}
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if (le32_to_cpu(h->nr_entries) > le32_to_cpu(h->max_entries)) {
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DMERR_LIMIT("node_check failed: too many entries");
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return -EILSEQ;
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}
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/*
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* The node must be either INTERNAL or LEAF.
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*/
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flags = le32_to_cpu(h->flags);
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if (!(flags & INTERNAL_NODE) && !(flags & LEAF_NODE)) {
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DMERR_LIMIT("node_check failed: node is neither INTERNAL or LEAF");
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return -EILSEQ;
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}
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return 0;
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}
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struct dm_block_validator btree_node_validator = {
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.name = "btree_node",
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.prepare_for_write = node_prepare_for_write,
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.check = node_check
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};
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/*----------------------------------------------------------------*/
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int bn_read_lock(struct dm_btree_info *info, dm_block_t b,
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struct dm_block **result)
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{
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return dm_tm_read_lock(info->tm, b, &btree_node_validator, result);
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}
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static int bn_shadow(struct dm_btree_info *info, dm_block_t orig,
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struct dm_btree_value_type *vt,
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struct dm_block **result)
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{
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int r, inc;
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r = dm_tm_shadow_block(info->tm, orig, &btree_node_validator,
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result, &inc);
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if (!r && inc)
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inc_children(info->tm, dm_block_data(*result), vt);
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return r;
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}
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int new_block(struct dm_btree_info *info, struct dm_block **result)
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{
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return dm_tm_new_block(info->tm, &btree_node_validator, result);
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}
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int unlock_block(struct dm_btree_info *info, struct dm_block *b)
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{
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return dm_tm_unlock(info->tm, b);
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}
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/*----------------------------------------------------------------*/
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void init_ro_spine(struct ro_spine *s, struct dm_btree_info *info)
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{
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s->info = info;
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s->count = 0;
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s->nodes[0] = NULL;
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s->nodes[1] = NULL;
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}
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int exit_ro_spine(struct ro_spine *s)
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{
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int r = 0, i;
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for (i = 0; i < s->count; i++) {
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int r2 = unlock_block(s->info, s->nodes[i]);
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if (r2 < 0)
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r = r2;
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}
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return r;
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}
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int ro_step(struct ro_spine *s, dm_block_t new_child)
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{
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int r;
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if (s->count == 2) {
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r = unlock_block(s->info, s->nodes[0]);
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if (r < 0)
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return r;
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s->nodes[0] = s->nodes[1];
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s->count--;
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}
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r = bn_read_lock(s->info, new_child, s->nodes + s->count);
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if (!r)
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s->count++;
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return r;
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}
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void ro_pop(struct ro_spine *s)
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{
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BUG_ON(!s->count);
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--s->count;
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unlock_block(s->info, s->nodes[s->count]);
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}
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struct btree_node *ro_node(struct ro_spine *s)
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{
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struct dm_block *block;
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BUG_ON(!s->count);
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block = s->nodes[s->count - 1];
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return dm_block_data(block);
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}
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/*----------------------------------------------------------------*/
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void init_shadow_spine(struct shadow_spine *s, struct dm_btree_info *info)
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{
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s->info = info;
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s->count = 0;
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}
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int exit_shadow_spine(struct shadow_spine *s)
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{
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int r = 0, i;
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for (i = 0; i < s->count; i++) {
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int r2 = unlock_block(s->info, s->nodes[i]);
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if (r2 < 0)
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r = r2;
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}
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return r;
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}
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int shadow_step(struct shadow_spine *s, dm_block_t b,
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struct dm_btree_value_type *vt)
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{
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int r;
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if (s->count == 2) {
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r = unlock_block(s->info, s->nodes[0]);
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if (r < 0)
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return r;
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s->nodes[0] = s->nodes[1];
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s->count--;
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}
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r = bn_shadow(s->info, b, vt, s->nodes + s->count);
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if (!r) {
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if (!s->count)
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s->root = dm_block_location(s->nodes[0]);
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s->count++;
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}
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return r;
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}
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struct dm_block *shadow_current(struct shadow_spine *s)
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{
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BUG_ON(!s->count);
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return s->nodes[s->count - 1];
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}
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struct dm_block *shadow_parent(struct shadow_spine *s)
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{
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BUG_ON(s->count != 2);
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return s->count == 2 ? s->nodes[0] : NULL;
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}
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int shadow_has_parent(struct shadow_spine *s)
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{
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return s->count >= 2;
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}
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int shadow_root(struct shadow_spine *s)
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{
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return s->root;
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}
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