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All rights reserved. */ #include <linux/types.h> #include "btrfs-tests.h" #include "../ctree.h" #include "../btrfs_inode.h" #include "../volumes.h" #include "../disk-io.h" #include "../block-group.h" static int free_extent_map_tree(struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; struct rb_node *node; int ret = 0; write_lock(&em_tree->lock); while (!RB_EMPTY_ROOT(&em_tree->root)) { node = rb_first(&em_tree->root); em = rb_entry(node, struct extent_map, rb_node); remove_extent_mapping(inode, em); #ifdef CONFIG_BTRFS_DEBUG if (refcount_read(&em->refs) != 1) { ret = -EINVAL; test_err( "em leak: em (start %llu len %llu disk_bytenr %llu disk_num_bytes %llu offset %llu) refs %d", em->start, em->len, em->disk_bytenr, em->disk_num_bytes, em->offset, refcount_read(&em->refs)); refcount_set(&em->refs, 1); } #endif free_extent_map(em); } write_unlock(&em_tree->lock); return ret; } /* * Test scenario: * * Suppose that no extent map has been loaded into memory yet, there is a file * extent [0, 16K), followed by another file extent [16K, 20K), two dio reads * are entering btrfs_get_extent() concurrently, t1 is reading [8K, 16K), t2 is * reading [0, 8K) * * t1 t2 * btrfs_get_extent() btrfs_get_extent() * -> lookup_extent_mapping() ->lookup_extent_mapping() * -> add_extent_mapping(0, 16K) * -> return em * ->add_extent_mapping(0, 16K) * -> #handle -EEXIST */ static int test_case_1(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; u64 start = 0; u64 len = SZ_8K; int ret; int ret2; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* Add [0, 16K) */ em->start = 0; em->len = SZ_16K; em->disk_bytenr = 0; em->disk_num_bytes = SZ_16K; em->ram_bytes = SZ_16K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [0, 16K)"); goto out; } free_extent_map(em); /* Add [16K, 20K) following [0, 16K) */ em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } em->start = SZ_16K; em->len = SZ_4K; em->disk_bytenr = SZ_32K; /* avoid merging */ em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_4K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [16K, 20K)"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* Add [0, 8K), should return [0, 16K) instead. */ em->start = start; em->len = len; em->disk_bytenr = start; em->disk_num_bytes = len; em->ram_bytes = len; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret) { test_err("case1 [%llu %llu]: ret %d", start, start + len, ret); goto out; } if (!em) { test_err("case1 [%llu %llu]: no extent map returned", start, start + len); ret = -ENOENT; goto out; } if (em->start != 0 || extent_map_end(em) != SZ_16K || em->disk_bytenr != 0 || em->disk_num_bytes != SZ_16K) { test_err( "case1 [%llu %llu]: ret %d return a wrong em (start %llu len %llu disk_bytenr %llu disk_num_bytes %llu", start, start + len, ret, em->start, em->len, em->disk_bytenr, em->disk_num_bytes); ret = -EINVAL; } free_extent_map(em); out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Test scenario: * * Reading the inline ending up with EEXIST, ie. read an inline * extent and discard page cache and read it again. */ static int test_case_2(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; int ret; int ret2; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* Add [0, 1K) */ em->start = 0; em->len = SZ_1K; em->disk_bytenr = EXTENT_MAP_INLINE; em->disk_num_bytes = 0; em->ram_bytes = SZ_1K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [0, 1K)"); goto out; } free_extent_map(em); /* Add [4K, 8K) following [0, 1K) */ em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } em->start = SZ_4K; em->len = SZ_4K; em->disk_bytenr = SZ_4K; em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_4K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [4K, 8K)"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* Add [0, 1K) */ em->start = 0; em->len = SZ_1K; em->disk_bytenr = EXTENT_MAP_INLINE; em->disk_num_bytes = 0; em->ram_bytes = SZ_1K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret) { test_err("case2 [0 1K]: ret %d", ret); goto out; } if (!em) { test_err("case2 [0 1K]: no extent map returned"); ret = -ENOENT; goto out; } if (em->start != 0 || extent_map_end(em) != SZ_1K || em->disk_bytenr != EXTENT_MAP_INLINE) { test_err( "case2 [0 1K]: ret %d return a wrong em (start %llu len %llu disk_bytenr %llu", ret, em->start, em->len, em->disk_bytenr); ret = -EINVAL; } free_extent_map(em); out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } static int __test_case_3(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode, u64 start) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; u64 len = SZ_4K; int ret; int ret2; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* Add [4K, 8K) */ em->start = SZ_4K; em->len = SZ_4K; em->disk_bytenr = SZ_4K; em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_4K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [4K, 8K)"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* Add [0, 16K) */ em->start = 0; em->len = SZ_16K; em->disk_bytenr = 0; em->disk_num_bytes = SZ_16K; em->ram_bytes = SZ_16K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, start, len); write_unlock(&em_tree->lock); if (ret) { test_err("case3 [%llu %llu): ret %d", start, start + len, ret); goto out; } if (!em) { test_err("case3 [%llu %llu): no extent map returned", start, start + len); ret = -ENOENT; goto out; } /* * Since bytes within em are contiguous, em->block_start is identical to * em->start. */ if (start < em->start || start + len > extent_map_end(em) || em->start != extent_map_block_start(em)) { test_err( "case3 [%llu %llu): ret %d em (start %llu len %llu disk_bytenr %llu block_len %llu)", start, start + len, ret, em->start, em->len, em->disk_bytenr, em->disk_num_bytes); ret = -EINVAL; } free_extent_map(em); out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Test scenario: * * Suppose that no extent map has been loaded into memory yet. * There is a file extent [0, 16K), two jobs are running concurrently * against it, t1 is buffered writing to [4K, 8K) and t2 is doing dio * read from [0, 4K) or [8K, 12K) or [12K, 16K). * * t1 goes ahead of t2 and adds em [4K, 8K) into tree. * * t1 t2 * cow_file_range() btrfs_get_extent() * -> lookup_extent_mapping() * -> add_extent_mapping() * -> add_extent_mapping() */ static int test_case_3(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { int ret; ret = __test_case_3(fs_info, inode, 0); if (ret) return ret; ret = __test_case_3(fs_info, inode, SZ_8K); if (ret) return ret; ret = __test_case_3(fs_info, inode, (12 * SZ_1K)); return ret; } static int __test_case_4(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode, u64 start) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; u64 len = SZ_4K; int ret; int ret2; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* Add [0K, 8K) */ em->start = 0; em->len = SZ_8K; em->disk_bytenr = 0; em->disk_num_bytes = SZ_8K; em->ram_bytes = SZ_8K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [0, 8K)"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* Add [8K, 32K) */ em->start = SZ_8K; em->len = 24 * SZ_1K; em->disk_bytenr = SZ_16K; /* avoid merging */ em->disk_num_bytes = 24 * SZ_1K; em->ram_bytes = 24 * SZ_1K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("cannot add extent range [8K, 32K)"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* Add [0K, 32K) */ em->start = 0; em->len = SZ_32K; em->disk_bytenr = 0; em->disk_num_bytes = SZ_32K; em->ram_bytes = SZ_32K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, start, len); write_unlock(&em_tree->lock); if (ret) { test_err("case4 [%llu %llu): ret %d", start, start + len, ret); goto out; } if (!em) { test_err("case4 [%llu %llu): no extent map returned", start, start + len); ret = -ENOENT; goto out; } if (start < em->start || start + len > extent_map_end(em)) { test_err( "case4 [%llu %llu): ret %d, added wrong em (start %llu len %llu disk_bytenr %llu disk_num_bytes %llu)", start, start + len, ret, em->start, em->len, em->disk_bytenr, em->disk_num_bytes); ret = -EINVAL; } free_extent_map(em); out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Test scenario: * * Suppose that no extent map has been loaded into memory yet. * There is a file extent [0, 32K), two jobs are running concurrently * against it, t1 is doing dio write to [8K, 32K) and t2 is doing dio * read from [0, 4K) or [4K, 8K). * * t1 goes ahead of t2 and splits em [0, 32K) to em [0K, 8K) and [8K 32K). * * t1 t2 * btrfs_get_blocks_direct() btrfs_get_blocks_direct() * -> btrfs_get_extent() -> btrfs_get_extent() * -> lookup_extent_mapping() * -> add_extent_mapping() -> lookup_extent_mapping() * # load [0, 32K) * -> btrfs_new_extent_direct() * -> btrfs_drop_extent_cache() * # split [0, 32K) * -> add_extent_mapping() * # add [8K, 32K) * -> add_extent_mapping() * # handle -EEXIST when adding * # [0, 32K) */ static int test_case_4(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { int ret; ret = __test_case_4(fs_info, inode, 0); if (ret) return ret; ret = __test_case_4(fs_info, inode, SZ_4K); return ret; } static int add_compressed_extent(struct btrfs_inode *inode, u64 start, u64 len, u64 block_start) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; int ret; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } em->start = start; em->len = len; em->disk_bytenr = block_start; em->disk_num_bytes = SZ_4K; em->ram_bytes = len; em->flags |= EXTENT_FLAG_COMPRESS_ZLIB; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); free_extent_map(em); if (ret < 0) { test_err("cannot add extent map [%llu, %llu)", start, start + len); return ret; } return 0; } struct extent_range { u64 start; u64 len; }; /* The valid states of the tree after every drop, as described below. */ struct extent_range valid_ranges[][7] = { { { .start = 0, .len = SZ_8K }, /* [0, 8K) */ { .start = SZ_4K * 3, .len = SZ_4K * 3}, /* [12k, 24k) */ { .start = SZ_4K * 6, .len = SZ_4K * 3}, /* [24k, 36k) */ { .start = SZ_32K + SZ_4K, .len = SZ_4K}, /* [36k, 40k) */ { .start = SZ_4K * 10, .len = SZ_4K * 6}, /* [40k, 64k) */ }, { { .start = 0, .len = SZ_8K }, /* [0, 8K) */ { .start = SZ_4K * 5, .len = SZ_4K}, /* [20k, 24k) */ { .start = SZ_4K * 6, .len = SZ_4K * 3}, /* [24k, 36k) */ { .start = SZ_32K + SZ_4K, .len = SZ_4K}, /* [36k, 40k) */ { .start = SZ_4K * 10, .len = SZ_4K * 6}, /* [40k, 64k) */ }, { { .start = 0, .len = SZ_8K }, /* [0, 8K) */ { .start = SZ_4K * 5, .len = SZ_4K}, /* [20k, 24k) */ { .start = SZ_4K * 6, .len = SZ_4K}, /* [24k, 28k) */ { .start = SZ_32K, .len = SZ_4K}, /* [32k, 36k) */ { .start = SZ_32K + SZ_4K, .len = SZ_4K}, /* [36k, 40k) */ { .start = SZ_4K * 10, .len = SZ_4K * 6}, /* [40k, 64k) */ }, { { .start = 0, .len = SZ_8K}, /* [0, 8K) */ { .start = SZ_4K * 5, .len = SZ_4K}, /* [20k, 24k) */ { .start = SZ_4K * 6, .len = SZ_4K}, /* [24k, 28k) */ } }; static int validate_range(struct extent_map_tree *em_tree, int index) { struct rb_node *n; int i; for (i = 0, n = rb_first(&em_tree->root); valid_ranges[index][i].len && n; i++, n = rb_next(n)) { struct extent_map *entry = rb_entry(n, struct extent_map, rb_node); if (entry->start != valid_ranges[index][i].start) { test_err("mapping has start %llu expected %llu", entry->start, valid_ranges[index][i].start); return -EINVAL; } if (entry->len != valid_ranges[index][i].len) { test_err("mapping has len %llu expected %llu", entry->len, valid_ranges[index][i].len); return -EINVAL; } } /* * We exited because we don't have any more entries in the extent_map * but we still expect more valid entries. */ if (valid_ranges[index][i].len) { test_err("missing an entry"); return -EINVAL; } /* We exited the loop but still have entries in the extent map. */ if (n) { test_err("we have a left over entry in the extent map we didn't expect"); return -EINVAL; } return 0; } /* * Test scenario: * * Test the various edge cases of btrfs_drop_extent_map_range, create the * following ranges * * [0, 12k)[12k, 24k)[24k, 36k)[36k, 40k)[40k,64k) * * And then we'll drop: * * [8k, 12k) - test the single front split * [12k, 20k) - test the single back split * [28k, 32k) - test the double split * [32k, 64k) - test whole em dropping * * They'll have the EXTENT_FLAG_COMPRESSED flag set to keep the em tree from * merging the em's. */ static int test_case_5(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { u64 start, end; int ret; int ret2; test_msg("Running btrfs_drop_extent_map_range tests"); /* [0, 12k) */ ret = add_compressed_extent(inode, 0, SZ_4K * 3, 0); if (ret) { test_err("cannot add extent range [0, 12K)"); goto out; } /* [12k, 24k) */ ret = add_compressed_extent(inode, SZ_4K * 3, SZ_4K * 3, SZ_4K); if (ret) { test_err("cannot add extent range [12k, 24k)"); goto out; } /* [24k, 36k) */ ret = add_compressed_extent(inode, SZ_4K * 6, SZ_4K * 3, SZ_8K); if (ret) { test_err("cannot add extent range [12k, 24k)"); goto out; } /* [36k, 40k) */ ret = add_compressed_extent(inode, SZ_32K + SZ_4K, SZ_4K, SZ_4K * 3); if (ret) { test_err("cannot add extent range [12k, 24k)"); goto out; } /* [40k, 64k) */ ret = add_compressed_extent(inode, SZ_4K * 10, SZ_4K * 6, SZ_16K); if (ret) { test_err("cannot add extent range [12k, 24k)"); goto out; } /* Drop [8k, 12k) */ start = SZ_8K; end = (3 * SZ_4K) - 1; btrfs_drop_extent_map_range(inode, start, end, false); ret = validate_range(&inode->extent_tree, 0); if (ret) goto out; /* Drop [12k, 20k) */ start = SZ_4K * 3; end = SZ_16K + SZ_4K - 1; btrfs_drop_extent_map_range(inode, start, end, false); ret = validate_range(&inode->extent_tree, 1); if (ret) goto out; /* Drop [28k, 32k) */ start = SZ_32K - SZ_4K; end = SZ_32K - 1; btrfs_drop_extent_map_range(inode, start, end, false); ret = validate_range(&inode->extent_tree, 2); if (ret) goto out; /* Drop [32k, 64k) */ start = SZ_32K; end = SZ_64K - 1; btrfs_drop_extent_map_range(inode, start, end, false); ret = validate_range(&inode->extent_tree, 3); if (ret) goto out; out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Test the btrfs_add_extent_mapping helper which will attempt to create an em * for areas between two existing ems. Validate it doesn't do this when there * are two unmerged em's side by side. */ static int test_case_6(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em = NULL; int ret; int ret2; ret = add_compressed_extent(inode, 0, SZ_4K, 0); if (ret) goto out; ret = add_compressed_extent(inode, SZ_4K, SZ_4K, 0); if (ret) goto out; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } em->start = SZ_4K; em->len = SZ_4K; em->disk_bytenr = SZ_16K; em->disk_num_bytes = SZ_16K; em->ram_bytes = SZ_16K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, 0, SZ_8K); write_unlock(&em_tree->lock); if (ret != 0) { test_err("got an error when adding our em: %d", ret); goto out; } ret = -EINVAL; if (em->start != 0) { test_err("unexpected em->start at %llu, wanted 0", em->start); goto out; } if (em->len != SZ_4K) { test_err("unexpected em->len %llu, expected 4K", em->len); goto out; } ret = 0; out: free_extent_map(em); ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Regression test for btrfs_drop_extent_map_range. Calling with skip_pinned == * true would mess up the start/end calculations and subsequent splits would be * incorrect. */ static int test_case_7(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; int ret; int ret2; test_msg("Running btrfs_drop_extent_cache with pinned"); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* [0, 16K), pinned */ em->start = 0; em->len = SZ_16K; em->disk_bytenr = 0; em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_16K; em->flags |= (EXTENT_FLAG_PINNED | EXTENT_FLAG_COMPRESS_ZLIB); write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("couldn't add extent map"); goto out; } free_extent_map(em); em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* [32K, 48K), not pinned */ em->start = SZ_32K; em->len = SZ_16K; em->disk_bytenr = SZ_32K; em->disk_num_bytes = SZ_16K; em->ram_bytes = SZ_16K; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); if (ret < 0) { test_err("couldn't add extent map"); goto out; } free_extent_map(em); /* * Drop [0, 36K) This should skip the [0, 4K) extent and then split the * [32K, 48K) extent. */ btrfs_drop_extent_map_range(inode, 0, (36 * SZ_1K) - 1, true); /* Make sure our extent maps look sane. */ ret = -EINVAL; em = lookup_extent_mapping(em_tree, 0, SZ_16K); if (!em) { test_err("didn't find an em at 0 as expected"); goto out; } if (em->start != 0) { test_err("em->start is %llu, expected 0", em->start); goto out; } if (em->len != SZ_16K) { test_err("em->len is %llu, expected 16K", em->len); goto out; } free_extent_map(em); read_lock(&em_tree->lock); em = lookup_extent_mapping(em_tree, SZ_16K, SZ_16K); read_unlock(&em_tree->lock); if (em) { test_err("found an em when we weren't expecting one"); goto out; } read_lock(&em_tree->lock); em = lookup_extent_mapping(em_tree, SZ_32K, SZ_16K); read_unlock(&em_tree->lock); if (!em) { test_err("didn't find an em at 32K as expected"); goto out; } if (em->start != (36 * SZ_1K)) { test_err("em->start is %llu, expected 36K", em->start); goto out; } if (em->len != (12 * SZ_1K)) { test_err("em->len is %llu, expected 12K", em->len); goto out; } if (extent_map_block_start(em) != SZ_32K + SZ_4K) { test_err("em->block_start is %llu, expected 36K", extent_map_block_start(em)); goto out; } free_extent_map(em); read_lock(&em_tree->lock); em = lookup_extent_mapping(em_tree, 48 * SZ_1K, (u64)-1); read_unlock(&em_tree->lock); if (em) { test_err("found an unexpected em above 48K"); goto out; } ret = 0; out: free_extent_map(em); /* Unpin our extent to prevent warning when removing it below. */ ret2 = unpin_extent_cache(inode, 0, SZ_16K, 0); if (ret == 0) ret = ret2; ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } /* * Test a regression for compressed extent map adjustment when we attempt to * add an extent map that is partially overlapped by another existing extent * map. The resulting extent map offset was left unchanged despite having * incremented its start offset. */ static int test_case_8(struct btrfs_fs_info *fs_info, struct btrfs_inode *inode) { struct extent_map_tree *em_tree = &inode->extent_tree; struct extent_map *em; int ret; int ret2; em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); return -ENOMEM; } /* Compressed extent for the file range [120K, 128K). */ em->start = SZ_1K * 120; em->len = SZ_8K; em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_8K; em->flags |= EXTENT_FLAG_COMPRESS_ZLIB; write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, em->start, em->len); write_unlock(&em_tree->lock); free_extent_map(em); if (ret < 0) { test_err("couldn't add extent map for range [120K, 128K)"); goto out; } em = alloc_extent_map(); if (!em) { test_std_err(TEST_ALLOC_EXTENT_MAP); ret = -ENOMEM; goto out; } /* * Compressed extent for the file range [108K, 144K), which overlaps * with the [120K, 128K) we previously inserted. */ em->start = SZ_1K * 108; em->len = SZ_1K * 36; em->disk_num_bytes = SZ_4K; em->ram_bytes = SZ_1K * 36; em->flags |= EXTENT_FLAG_COMPRESS_ZLIB; /* * Try to add the extent map but with a search range of [140K, 144K), * this should succeed and adjust the extent map to the range * [128K, 144K), with a length of 16K and an offset of 20K. * * This simulates a scenario where in the subvolume tree of an inode we * have a compressed file extent item for the range [108K, 144K) and we * have an overlapping compressed extent map for the range [120K, 128K), * which was created by an encoded write, but its ordered extent was not * yet completed, so the subvolume tree doesn't have yet the file extent * item for that range - we only have the extent map in the inode's * extent map tree. */ write_lock(&em_tree->lock); ret = btrfs_add_extent_mapping(inode, &em, SZ_1K * 140, SZ_4K); write_unlock(&em_tree->lock); free_extent_map(em); if (ret < 0) { test_err("couldn't add extent map for range [108K, 144K)"); goto out; } if (em->start != SZ_128K) { test_err("unexpected extent map start %llu (should be 128K)", em->start); ret = -EINVAL; goto out; } if (em->len != SZ_16K) { test_err("unexpected extent map length %llu (should be 16K)", em->len); ret = -EINVAL; goto out; } if (em->offset != SZ_1K * 20) { test_err("unexpected extent map offset %llu (should be 20K)", em->offset); ret = -EINVAL; goto out; } out: ret2 = free_extent_map_tree(inode); if (ret == 0) ret = ret2; return ret; } struct rmap_test_vector { u64 raid_type; u64 physical_start; u64 data_stripe_size; u64 num_data_stripes; u64 num_stripes; /* Assume we won't have more than 5 physical stripes */ u64 data_stripe_phys_start[5]; bool expected_mapped_addr; /* Physical to logical addresses */ u64 mapped_logical[5]; }; static int test_rmap_block(struct btrfs_fs_info *fs_info, struct rmap_test_vector *test) { struct btrfs_chunk_map *map; u64 *logical = NULL; int i, out_ndaddrs, out_stripe_len; int ret; map = btrfs_alloc_chunk_map(test->num_stripes, GFP_KERNEL); if (!map) { test_std_err(TEST_ALLOC_CHUNK_MAP); return -ENOMEM; } /* Start at 4GiB logical address */ map->start = SZ_4G; map->chunk_len = test->data_stripe_size * test->num_data_stripes; map->stripe_size = test->data_stripe_size; map->num_stripes = test->num_stripes; map->type = test->raid_type; for (i = 0; i < map->num_stripes; i++) { struct btrfs_device *dev = btrfs_alloc_dummy_device(fs_info); if (IS_ERR(dev)) { test_err("cannot allocate device"); ret = PTR_ERR(dev); goto out; } map->stripes[i].dev = dev; map->stripes[i].physical = test->data_stripe_phys_start[i]; } ret = btrfs_add_chunk_map(fs_info, map); if (ret) { test_err("error adding chunk map to mapping tree"); goto out_free; } ret = btrfs_rmap_block(fs_info, map->start, btrfs_sb_offset(1), &logical, &out_ndaddrs, &out_stripe_len); if (ret || (out_ndaddrs == 0 && test->expected_mapped_addr)) { test_err("didn't rmap anything but expected %d", test->expected_mapped_addr); goto out; } if (out_stripe_len != BTRFS_STRIPE_LEN) { test_err("calculated stripe length doesn't match"); goto out; } if (out_ndaddrs != test->expected_mapped_addr) { for (i = 0; i < out_ndaddrs; i++) test_msg("mapped %llu", logical[i]); test_err("unexpected number of mapped addresses: %d", out_ndaddrs); goto out; } for (i = 0; i < out_ndaddrs; i++) { if (logical[i] != test->mapped_logical[i]) { test_err("unexpected logical address mapped"); goto out; } } ret = 0; out: btrfs_remove_chunk_map(fs_info, map); out_free: kfree(logical); return ret; } int btrfs_test_extent_map(void) { struct btrfs_fs_info *fs_info = NULL; struct inode *inode; struct btrfs_root *root = NULL; int ret = 0, i; struct rmap_test_vector rmap_tests[] = { { /* * Test a chunk with 2 data stripes one of which * intersects the physical address of the super block * is correctly recognised. */ .raid_type = BTRFS_BLOCK_GROUP_RAID1, .physical_start = SZ_64M - SZ_4M, .data_stripe_size = SZ_256M, .num_data_stripes = 2, .num_stripes = 2, .data_stripe_phys_start = {SZ_64M - SZ_4M, SZ_64M - SZ_4M + SZ_256M}, .expected_mapped_addr = true, .mapped_logical= {SZ_4G + SZ_4M} }, { /* * Test that out-of-range physical addresses are * ignored */ /* SINGLE chunk type */ .raid_type = 0, .physical_start = SZ_4G, .data_stripe_size = SZ_256M, .num_data_stripes = 1, .num_stripes = 1, .data_stripe_phys_start = {SZ_256M}, .expected_mapped_addr = false, .mapped_logical = {0} } }; test_msg("running extent_map tests"); /* * Note: the fs_info is not set up completely, we only need * fs_info::fsid for the tracepoint. */ fs_info = btrfs_alloc_dummy_fs_info(PAGE_SIZE, PAGE_SIZE); if (!fs_info) { test_std_err(TEST_ALLOC_FS_INFO); return -ENOMEM; } inode = btrfs_new_test_inode(); if (!inode) { test_std_err(TEST_ALLOC_INODE); ret = -ENOMEM; goto out; } root = btrfs_alloc_dummy_root(fs_info); if (IS_ERR(root)) { test_std_err(TEST_ALLOC_ROOT); ret = PTR_ERR(root); root = NULL; goto out; } BTRFS_I(inode)->root = root; ret = test_case_1(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_2(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_3(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_4(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_5(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_6(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_7(fs_info, BTRFS_I(inode)); if (ret) goto out; ret = test_case_8(fs_info, BTRFS_I(inode)); if (ret) goto out; test_msg("running rmap tests"); for (i = 0; i < ARRAY_SIZE(rmap_tests); i++) { ret = test_rmap_block(fs_info, &rmap_tests[i]); if (ret) goto out; } out: iput(inode); btrfs_free_dummy_root(root); btrfs_free_dummy_fs_info(fs_info); return ret; } |