Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Wilcox | 1608 | 92.10% | 16 | 72.73% |
Ross Zwisler | 68 | 3.89% | 2 | 9.09% |
Rehas Sachdeva | 63 | 3.61% | 1 | 4.55% |
Konstantin Khlebnikov | 6 | 0.34% | 2 | 9.09% |
Greg Kroah-Hartman | 1 | 0.06% | 1 | 4.55% |
Total | 1746 | 22 |
// 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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