[v2,3/8] maple_tree: make mas_validate_gaps() to check metadata
Commit Message
Make mas_validate_gaps() check whether the offset in the metadata points
to the largest gap. By the way, simplify this function.
Add the verification that gaps beyond the node limit are zero.
Signed-off-by: Peng Zhang <zhangpeng.00@bytedance.com>
---
lib/maple_tree.c | 78 ++++++++++++++++++++++++++----------------------
1 file changed, 42 insertions(+), 36 deletions(-)
Comments
* Peng Zhang <zhangpeng.00@bytedance.com> [230710 23:55]:
> Make mas_validate_gaps() check whether the offset in the metadata points
> to the largest gap. By the way, simplify this function.
>
> Add the verification that gaps beyond the node limit are zero.
>
> Signed-off-by: Peng Zhang <zhangpeng.00@bytedance.com>
Reviewed-by: Liam R. Howlett <Liam.Howlett@oracle.com>
> ---
> lib/maple_tree.c | 78 ++++++++++++++++++++++++++----------------------
> 1 file changed, 42 insertions(+), 36 deletions(-)
>
> diff --git a/lib/maple_tree.c b/lib/maple_tree.c
> index 6a8982146338..a5776fab1875 100644
> --- a/lib/maple_tree.c
> +++ b/lib/maple_tree.c
> @@ -6983,15 +6983,16 @@ EXPORT_SYMBOL_GPL(mt_dump);
> static void mas_validate_gaps(struct ma_state *mas)
> {
> struct maple_enode *mte = mas->node;
> - struct maple_node *p_mn;
> + struct maple_node *p_mn, *node = mte_to_node(mte);
> + enum maple_type mt = mte_node_type(mas->node);
> unsigned long gap = 0, max_gap = 0;
> unsigned long p_end, p_start = mas->min;
> - unsigned char p_slot;
> + unsigned char p_slot, offset;
> unsigned long *gaps = NULL;
> - unsigned long *pivots = ma_pivots(mte_to_node(mte), mte_node_type(mte));
> - int i;
> + unsigned long *pivots = ma_pivots(node, mt);
> + unsigned int i;
>
> - if (ma_is_dense(mte_node_type(mte))) {
> + if (ma_is_dense(mt)) {
> for (i = 0; i < mt_slot_count(mte); i++) {
> if (mas_get_slot(mas, i)) {
> if (gap > max_gap)
> @@ -7004,52 +7005,59 @@ static void mas_validate_gaps(struct ma_state *mas)
> goto counted;
> }
>
> - gaps = ma_gaps(mte_to_node(mte), mte_node_type(mte));
> + gaps = ma_gaps(node, mt);
> for (i = 0; i < mt_slot_count(mte); i++) {
> - p_end = mas_logical_pivot(mas, pivots, i, mte_node_type(mte));
> + p_end = mas_logical_pivot(mas, pivots, i, mt);
>
> if (!gaps) {
> - if (mas_get_slot(mas, i)) {
> - gap = 0;
> - goto not_empty;
> - }
> -
> - gap += p_end - p_start + 1;
> + if (!mas_get_slot(mas, i))
> + gap = p_end - p_start + 1;
> } else {
> void *entry = mas_get_slot(mas, i);
>
> gap = gaps[i];
> - if (!entry) {
> - if (gap != p_end - p_start + 1) {
> - pr_err("%p[%u] -> %p %lu != %lu - %lu + 1\n",
> - mas_mn(mas), i,
> - mas_get_slot(mas, i), gap,
> - p_end, p_start);
> - mt_dump(mas->tree, mt_dump_hex);
> -
> - MT_BUG_ON(mas->tree,
> - gap != p_end - p_start + 1);
> - }
> - } else {
> - if (gap > p_end - p_start + 1) {
> - pr_err("%p[%u] %lu >= %lu - %lu + 1 (%lu)\n",
> - mas_mn(mas), i, gap, p_end, p_start,
> - p_end - p_start + 1);
> - MT_BUG_ON(mas->tree,
> - gap > p_end - p_start + 1);
> - }
> + MT_BUG_ON(mas->tree, !entry);
> +
> + if (gap > p_end - p_start + 1) {
> + pr_err("%p[%u] %lu >= %lu - %lu + 1 (%lu)\n",
> + mas_mn(mas), i, gap, p_end, p_start,
> + p_end - p_start + 1);
> + MT_BUG_ON(mas->tree, gap > p_end - p_start + 1);
> }
> }
>
> if (gap > max_gap)
> max_gap = gap;
> -not_empty:
> +
> p_start = p_end + 1;
> if (p_end >= mas->max)
> break;
> }
>
> counted:
> + if (mt == maple_arange_64) {
> + offset = ma_meta_gap(node, mt);
> + if (offset > i) {
> + pr_err("gap offset %p[%u] is invalid\n", node, offset);
> + MT_BUG_ON(mas->tree, 1);
> + }
> +
> + if (gaps[offset] != max_gap) {
> + pr_err("gap %p[%u] is not the largest gap %lu\n",
> + node, offset, max_gap);
> + MT_BUG_ON(mas->tree, 1);
> + }
> +
> + MT_BUG_ON(mas->tree, !gaps);
> + for (i++ ; i < mt_slot_count(mte); i++) {
> + if (gaps[i] != 0) {
> + pr_err("gap %p[%u] beyond node limit != 0\n",
> + node, i);
> + MT_BUG_ON(mas->tree, 1);
> + }
> + }
> + }
> +
> if (mte_is_root(mte))
> return;
>
> @@ -7059,10 +7067,8 @@ static void mas_validate_gaps(struct ma_state *mas)
> if (ma_gaps(p_mn, mas_parent_type(mas, mte))[p_slot] != max_gap) {
> pr_err("gap %p[%u] != %lu\n", p_mn, p_slot, max_gap);
> mt_dump(mas->tree, mt_dump_hex);
> + MT_BUG_ON(mas->tree, 1);
> }
> -
> - MT_BUG_ON(mas->tree,
> - ma_gaps(p_mn, mas_parent_type(mas, mte))[p_slot] != max_gap);
> }
>
> static void mas_validate_parent_slot(struct ma_state *mas)
> --
> 2.20.1
>
@@ -6983,15 +6983,16 @@ EXPORT_SYMBOL_GPL(mt_dump);
static void mas_validate_gaps(struct ma_state *mas)
{
struct maple_enode *mte = mas->node;
- struct maple_node *p_mn;
+ struct maple_node *p_mn, *node = mte_to_node(mte);
+ enum maple_type mt = mte_node_type(mas->node);
unsigned long gap = 0, max_gap = 0;
unsigned long p_end, p_start = mas->min;
- unsigned char p_slot;
+ unsigned char p_slot, offset;
unsigned long *gaps = NULL;
- unsigned long *pivots = ma_pivots(mte_to_node(mte), mte_node_type(mte));
- int i;
+ unsigned long *pivots = ma_pivots(node, mt);
+ unsigned int i;
- if (ma_is_dense(mte_node_type(mte))) {
+ if (ma_is_dense(mt)) {
for (i = 0; i < mt_slot_count(mte); i++) {
if (mas_get_slot(mas, i)) {
if (gap > max_gap)
@@ -7004,52 +7005,59 @@ static void mas_validate_gaps(struct ma_state *mas)
goto counted;
}
- gaps = ma_gaps(mte_to_node(mte), mte_node_type(mte));
+ gaps = ma_gaps(node, mt);
for (i = 0; i < mt_slot_count(mte); i++) {
- p_end = mas_logical_pivot(mas, pivots, i, mte_node_type(mte));
+ p_end = mas_logical_pivot(mas, pivots, i, mt);
if (!gaps) {
- if (mas_get_slot(mas, i)) {
- gap = 0;
- goto not_empty;
- }
-
- gap += p_end - p_start + 1;
+ if (!mas_get_slot(mas, i))
+ gap = p_end - p_start + 1;
} else {
void *entry = mas_get_slot(mas, i);
gap = gaps[i];
- if (!entry) {
- if (gap != p_end - p_start + 1) {
- pr_err("%p[%u] -> %p %lu != %lu - %lu + 1\n",
- mas_mn(mas), i,
- mas_get_slot(mas, i), gap,
- p_end, p_start);
- mt_dump(mas->tree, mt_dump_hex);
-
- MT_BUG_ON(mas->tree,
- gap != p_end - p_start + 1);
- }
- } else {
- if (gap > p_end - p_start + 1) {
- pr_err("%p[%u] %lu >= %lu - %lu + 1 (%lu)\n",
- mas_mn(mas), i, gap, p_end, p_start,
- p_end - p_start + 1);
- MT_BUG_ON(mas->tree,
- gap > p_end - p_start + 1);
- }
+ MT_BUG_ON(mas->tree, !entry);
+
+ if (gap > p_end - p_start + 1) {
+ pr_err("%p[%u] %lu >= %lu - %lu + 1 (%lu)\n",
+ mas_mn(mas), i, gap, p_end, p_start,
+ p_end - p_start + 1);
+ MT_BUG_ON(mas->tree, gap > p_end - p_start + 1);
}
}
if (gap > max_gap)
max_gap = gap;
-not_empty:
+
p_start = p_end + 1;
if (p_end >= mas->max)
break;
}
counted:
+ if (mt == maple_arange_64) {
+ offset = ma_meta_gap(node, mt);
+ if (offset > i) {
+ pr_err("gap offset %p[%u] is invalid\n", node, offset);
+ MT_BUG_ON(mas->tree, 1);
+ }
+
+ if (gaps[offset] != max_gap) {
+ pr_err("gap %p[%u] is not the largest gap %lu\n",
+ node, offset, max_gap);
+ MT_BUG_ON(mas->tree, 1);
+ }
+
+ MT_BUG_ON(mas->tree, !gaps);
+ for (i++ ; i < mt_slot_count(mte); i++) {
+ if (gaps[i] != 0) {
+ pr_err("gap %p[%u] beyond node limit != 0\n",
+ node, i);
+ MT_BUG_ON(mas->tree, 1);
+ }
+ }
+ }
+
if (mte_is_root(mte))
return;
@@ -7059,10 +7067,8 @@ static void mas_validate_gaps(struct ma_state *mas)
if (ma_gaps(p_mn, mas_parent_type(mas, mte))[p_slot] != max_gap) {
pr_err("gap %p[%u] != %lu\n", p_mn, p_slot, max_gap);
mt_dump(mas->tree, mt_dump_hex);
+ MT_BUG_ON(mas->tree, 1);
}
-
- MT_BUG_ON(mas->tree,
- ma_gaps(p_mn, mas_parent_type(mas, mte))[p_slot] != max_gap);
}
static void mas_validate_parent_slot(struct ma_state *mas)