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alistair23-linux/tools/testing/radix-tree/main.c
Matthew Wilcox eff3860bbf radix tree: Don't return retry entries from lookup 
Commit 66ee620f06 ("idr: Permit any valid kernel pointer to be stored")
changed the radix tree lookup so that it stops when reaching the bottom
of the tree.  However, the condition was added in the wrong place,
making it possible to return retry entries to the caller.  Reorder the
tests to check for the retry entry before checking whether we're at the
bottom of the tree.  The retry entry should never be found in the tree
root, so it's safe to defer the check until the end of the loop.

Add a regression test to the test-suite to be sure this doesn't come
back.

Fixes: 66ee620f06 ("idr: Permit any valid kernel pointer to be stored")
Reported-by: Greg Kurz <groug@kaod.org>
Signed-off-by: Matthew Wilcox <willy@infradead.org>
2018-12-06 08:26:16 -05:00

330 lines
7.4 KiB
C
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// SPDX-License-Identifier: GPL-2.0
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <time.h>
#include <assert.h>
#include <limits.h>
#include <linux/slab.h>
#include <linux/radix-tree.h>
#include "test.h"
#include "regression.h"
void __gang_check(unsigned long middle, long down, long up, int chunk, int hop)
{
long idx;
RADIX_TREE(tree, GFP_KERNEL);
middle = 1 << 30;
for (idx = -down; idx < up; idx++)
item_insert(&tree, middle + idx);
item_check_absent(&tree, middle - down - 1);
for (idx = -down; idx < up; idx++)
item_check_present(&tree, middle + idx);
item_check_absent(&tree, middle + up);
if (chunk > 0) {
item_gang_check_present(&tree, middle - down, up + down,
chunk, hop);
item_full_scan(&tree, middle - down, down + up, chunk);
}
item_kill_tree(&tree);
}
void gang_check(void)
{
__gang_check(1UL << 30, 128, 128, 35, 2);
__gang_check(1UL << 31, 128, 128, 32, 32);
__gang_check(1UL << 31, 128, 128, 32, 100);
__gang_check(1UL << 31, 128, 128, 17, 7);
__gang_check(0xffff0000UL, 0, 65536, 17, 7);
__gang_check(0xfffffffeUL, 1, 1, 17, 7);
}
void __big_gang_check(void)
{
unsigned long start;
int wrapped = 0;
start = 0;
do {
unsigned long old_start;
// printf("0x%08lx\n", start);
__gang_check(start, rand() % 113 + 1, rand() % 71,
rand() % 157, rand() % 91 + 1);
old_start = start;
start += rand() % 1000000;
start %= 1ULL << 33;
if (start < old_start)
wrapped = 1;
} while (!wrapped);
}
void big_gang_check(bool long_run)
{
int i;
for (i = 0; i < (long_run ? 1000 : 3); i++) {
__big_gang_check();
printv(2, "%d ", i);
fflush(stdout);
}
}
void add_and_check(void)
{
RADIX_TREE(tree, GFP_KERNEL);
item_insert(&tree, 44);
item_check_present(&tree, 44);
item_check_absent(&tree, 43);
item_kill_tree(&tree);
}
void dynamic_height_check(void)
{
int i;
RADIX_TREE(tree, GFP_KERNEL);
tree_verify_min_height(&tree, 0);
item_insert(&tree, 42);
tree_verify_min_height(&tree, 42);
item_insert(&tree, 1000000);
tree_verify_min_height(&tree, 1000000);
assert(item_delete(&tree, 1000000));
tree_verify_min_height(&tree, 42);
assert(item_delete(&tree, 42));
tree_verify_min_height(&tree, 0);
for (i = 0; i < 1000; i++) {
item_insert(&tree, i);
tree_verify_min_height(&tree, i);
}
i--;
for (;;) {
assert(item_delete(&tree, i));
if (i == 0) {
tree_verify_min_height(&tree, 0);
break;
}
i--;
tree_verify_min_height(&tree, i);
}
item_kill_tree(&tree);
}
void check_copied_tags(struct radix_tree_root *tree, unsigned long start, unsigned long end, unsigned long *idx, int count, int fromtag, int totag)
{
int i;
for (i = 0; i < count; i++) {
/* if (i % 1000 == 0)
putchar('.'); */
if (idx[i] < start || idx[i] > end) {
if (item_tag_get(tree, idx[i], totag)) {
printv(2, "%lu-%lu: %lu, tags %d-%d\n", start,
end, idx[i], item_tag_get(tree, idx[i],
fromtag),
item_tag_get(tree, idx[i], totag));
}
assert(!item_tag_get(tree, idx[i], totag));
continue;
}
if (item_tag_get(tree, idx[i], fromtag) ^
item_tag_get(tree, idx[i], totag)) {
printv(2, "%lu-%lu: %lu, tags %d-%d\n", start, end,
idx[i], item_tag_get(tree, idx[i], fromtag),
item_tag_get(tree, idx[i], totag));
}
assert(!(item_tag_get(tree, idx[i], fromtag) ^
item_tag_get(tree, idx[i], totag)));
}
}
#define ITEMS 50000
void copy_tag_check(void)
{
RADIX_TREE(tree, GFP_KERNEL);
unsigned long idx[ITEMS];
unsigned long start, end, count = 0, tagged, cur, tmp;
int i;
// printf("generating radix tree indices...\n");
start = rand();
end = rand();
if (start > end && (rand() % 10)) {
cur = start;
start = end;
end = cur;
}
/* Specifically create items around the start and the end of the range
* with high probability to check for off by one errors */
cur = rand();
if (cur & 1) {
item_insert(&tree, start);
if (cur & 2) {
if (start <= end)
count++;
item_tag_set(&tree, start, 0);
}
}
if (cur & 4) {
item_insert(&tree, start-1);
if (cur & 8)
item_tag_set(&tree, start-1, 0);
}
if (cur & 16) {
item_insert(&tree, end);
if (cur & 32) {
if (start <= end)
count++;
item_tag_set(&tree, end, 0);
}
}
if (cur & 64) {
item_insert(&tree, end+1);
if (cur & 128)
item_tag_set(&tree, end+1, 0);
}
for (i = 0; i < ITEMS; i++) {
do {
idx[i] = rand();
} while (item_lookup(&tree, idx[i]));
item_insert(&tree, idx[i]);
if (rand() & 1) {
item_tag_set(&tree, idx[i], 0);
if (idx[i] >= start && idx[i] <= end)
count++;
}
/* if (i % 1000 == 0)
putchar('.'); */
}
// printf("\ncopying tags...\n");
tagged = tag_tagged_items(&tree, start, end, ITEMS, XA_MARK_0, XA_MARK_1);
// printf("checking copied tags\n");
assert(tagged == count);
check_copied_tags(&tree, start, end, idx, ITEMS, 0, 1);
/* Copy tags in several rounds */
// printf("\ncopying tags...\n");
tmp = rand() % (count / 10 + 2);
tagged = tag_tagged_items(&tree, start, end, tmp, XA_MARK_0, XA_MARK_2);
assert(tagged == count);
// printf("%lu %lu %lu\n", tagged, tmp, count);
// printf("checking copied tags\n");
check_copied_tags(&tree, start, end, idx, ITEMS, 0, 2);
verify_tag_consistency(&tree, 0);
verify_tag_consistency(&tree, 1);
verify_tag_consistency(&tree, 2);
// printf("\n");
item_kill_tree(&tree);
}
static void single_thread_tests(bool long_run)
{
int i;
printv(1, "starting single_thread_tests: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
multiorder_checks();
rcu_barrier();
printv(2, "after multiorder_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
tag_check();
rcu_barrier();
printv(2, "after tag_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
gang_check();
rcu_barrier();
printv(2, "after gang_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
add_and_check();
rcu_barrier();
printv(2, "after add_and_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
dynamic_height_check();
rcu_barrier();
printv(2, "after dynamic_height_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
idr_checks();
ida_tests();
rcu_barrier();
printv(2, "after idr_checks: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
big_gang_check(long_run);
rcu_barrier();
printv(2, "after big_gang_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
for (i = 0; i < (long_run ? 2000 : 3); i++) {
copy_tag_check();
printv(2, "%d ", i);
fflush(stdout);
}
rcu_barrier();
printv(2, "after copy_tag_check: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
}
int main(int argc, char **argv)
{
bool long_run = false;
int opt;
unsigned int seed = time(NULL);
while ((opt = getopt(argc, argv, "ls:v")) != -1) {
if (opt == 'l')
long_run = true;
else if (opt == 's')
seed = strtoul(optarg, NULL, 0);
else if (opt == 'v')
test_verbose++;
}
printf("random seed %u\n", seed);
srand(seed);
printf("running tests\n");
rcu_register_thread();
radix_tree_init();
xarray_tests();
regression1_test();
regression2_test();
regression3_test();
regression4_test();
iteration_test(0, 10 + 90 * long_run);
iteration_test(7, 10 + 90 * long_run);
single_thread_tests(long_run);
/* Free any remaining preallocated nodes */
radix_tree_cpu_dead(0);
benchmark();
rcu_barrier();
printv(2, "after rcu_barrier: %d allocated, preempt %d\n",
nr_allocated, preempt_count);
rcu_unregister_thread();
printf("tests completed\n");
exit(0);
}
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