Use binary decision approach to calculate SIT/NAT/SSA segments it has some benefits when the partition size >= 512G. (bsearch) psize main_segments main_seaments ... 512G 261509 261510 1 T 523141 523143 2 T 1046405 1046409 4 T 2092783 2092791 ... It also clarify that SIT/NAT/SSA are used for main segment area only. Signed-off-by: Gao Xiang <gaoxiang25@xxxxxxxxxx> --- Change log from v1: - use align_down instead of align_up in get_best_main_zones mkfs/f2fs_format.c | 112 ++++++++++++++++++++++++++++++++++++++--------------- 1 file changed, 80 insertions(+), 32 deletions(-) diff --git a/mkfs/f2fs_format.c b/mkfs/f2fs_format.c index a130001..9ca2257 100644 --- a/mkfs/f2fs_format.c +++ b/mkfs/f2fs_format.c @@ -145,20 +145,80 @@ static void verify_cur_segs(void) c.cur_seg[i] = next_zone(i - 1); } +static u_int32_t get_best_main_zones(void) +{ + u_int32_t total_zones = get_sb(segment_count) / (c.segs_per_zone); + u_int32_t left = 1, right = total_zones - 1; + u_int32_t candicate = 0; + + while (left <= right) { + u_int32_t blocks_for_nat; + u_int32_t sit_segments, nat_segments, ssa_segments; + u_int32_t meta_segments, meta_zones; + u_int32_t max_sit_bitmap_size, max_nat_bitmap_size; + + u_int32_t main_zones = (left + right) / 2; + u_int32_t main_segments = c.segs_per_zone * main_zones; + + sit_segments = SEG_ALIGN(SIZE_ALIGN(main_segments, + SIT_ENTRY_PER_BLOCK) /* blocks_for_sit */); + + blocks_for_nat = SIZE_ALIGN(main_segments * c.blks_per_seg, + NAT_ENTRY_PER_BLOCK); + + max_sit_bitmap_size = min((u_int32_t)MAX_SIT_BITMAP_SIZE, + sit_segments * c.blks_per_seg / 8); + + /* + * it's weird because for 1TB storage, payload is still not + * used and max_nat_bitmap_blks is only 21472, which means + * the total number of nodes is 21472 * 409 = 8782048 + */ + if (max_sit_bitmap_size > MAX_SIT_BITMAP_SIZE_IN_CKPT) + max_nat_bitmap_size = CHECKSUM_OFFSET - + sizeof(struct f2fs_checkpoint) + 1; + else + max_nat_bitmap_size = + CHECKSUM_OFFSET - sizeof(struct f2fs_checkpoint) + 1 + - max_sit_bitmap_size; + + nat_segments = min(SEG_ALIGN(blocks_for_nat), + (max_nat_bitmap_size * 8) / c.blks_per_seg); + + /* each main segment has a ssa block */ + ssa_segments = SEG_ALIGN(main_segments); + + meta_segments = (get_sb(segment_count_ckpt) + + sit_segments * 2 + nat_segments * 2 + + ssa_segments); + + meta_zones = ZONE_ALIGN(meta_segments * c.blks_per_seg); + + if (meta_zones + main_zones == total_zones) + return main_zones; + + if (meta_zones + main_zones < total_zones) { + left = main_zones + 1; + candicate = main_zones; + } else + right = main_zones - 1; + } + + return candicate; +} + static int f2fs_prepare_super_block(void) { u_int32_t blk_size_bytes; u_int32_t log_sectorsize, log_sectors_per_block; u_int32_t log_blocksize, log_blks_per_seg; u_int32_t segment_size_bytes, zone_size_bytes; - u_int32_t sit_segments; - u_int32_t blocks_for_sit, blocks_for_nat, blocks_for_ssa; - u_int32_t total_valid_blks_available; + u_int32_t blocks_for_sit, blocks_for_nat; u_int64_t zone_align_start_offset, diff; u_int64_t total_meta_zones, total_meta_segments; u_int32_t sit_bitmap_size, max_sit_bitmap_size; u_int32_t max_nat_bitmap_size, max_nat_segments; - u_int32_t total_zones; + u_int32_t main_zones, main_segments; u_int32_t next_ino; enum quota_type qtype; int i; @@ -256,22 +316,18 @@ static int f2fs_prepare_super_block(void) set_sb(sit_blkaddr, get_sb(segment0_blkaddr) + get_sb(segment_count_ckpt) * c.blks_per_seg); - blocks_for_sit = SIZE_ALIGN(get_sb(segment_count), SIT_ENTRY_PER_BLOCK); + /* try to do binary decision to get main_zones */ + main_zones = get_best_main_zones(); + main_segments = c.segs_per_zone * main_zones; - sit_segments = SEG_ALIGN(blocks_for_sit); - - set_sb(segment_count_sit, sit_segments * 2); + blocks_for_sit = SIZE_ALIGN(main_segments, SIT_ENTRY_PER_BLOCK); + set_sb(segment_count_sit, SEG_ALIGN(blocks_for_sit) * 2); set_sb(nat_blkaddr, get_sb(sit_blkaddr) + get_sb(segment_count_sit) * c.blks_per_seg); - total_valid_blks_available = (get_sb(segment_count) - - (get_sb(segment_count_ckpt) + - get_sb(segment_count_sit))) * c.blks_per_seg; - - blocks_for_nat = SIZE_ALIGN(total_valid_blks_available, + blocks_for_nat = SIZE_ALIGN(main_segments * c.blks_per_seg, NAT_ENTRY_PER_BLOCK); - set_sb(segment_count_nat, SEG_ALIGN(blocks_for_nat)); /* * The number of node segments should not be exceeded a "Threshold". @@ -312,16 +368,8 @@ static int f2fs_prepare_super_block(void) set_sb(ssa_blkaddr, get_sb(nat_blkaddr) + get_sb(segment_count_nat) * c.blks_per_seg); - total_valid_blks_available = (get_sb(segment_count) - - (get_sb(segment_count_ckpt) + - get_sb(segment_count_sit) + - get_sb(segment_count_nat))) * - c.blks_per_seg; - blocks_for_ssa = total_valid_blks_available / - c.blks_per_seg + 1; - - set_sb(segment_count_ssa, SEG_ALIGN(blocks_for_ssa)); + set_sb(segment_count_ssa, SEG_ALIGN(main_segments)); total_meta_segments = get_sb(segment_count_ckpt) + get_sb(segment_count_sit) + @@ -354,10 +402,7 @@ static int f2fs_prepare_super_block(void) } } - total_zones = get_sb(segment_count) / (c.segs_per_zone) - - total_meta_zones; - - set_sb(section_count, total_zones * c.secs_per_zone); + set_sb(section_count, main_zones * c.secs_per_zone); set_sb(segment_count_main, get_sb(section_count) * c.segs_per_sec); @@ -373,6 +418,9 @@ static int f2fs_prepare_super_block(void) return -1; } + ASSERT((total_meta_zones + main_zones) * c.segs_per_zone + == get_sb(segment_count)); + c.reserved_segments = (2 * (100 / c.overprovision + 1) + 6) * c.segs_per_sec; @@ -404,15 +452,15 @@ static int f2fs_prepare_super_block(void) qtype, next_ino - 1); } - if (total_zones <= 6) { + if (main_zones <= 6) { MSG(1, "\tError: %d zones: Need more zones " - "by shrinking zone size\n", total_zones); + "by shrinking zone size\n", main_zones); return -1; } if (c.heap) { c.cur_seg[CURSEG_HOT_NODE] = - last_section(last_zone(total_zones)); + last_section(last_zone(main_zones)); c.cur_seg[CURSEG_WARM_NODE] = prev_zone(CURSEG_HOT_NODE); c.cur_seg[CURSEG_COLD_NODE] = prev_zone(CURSEG_WARM_NODE); c.cur_seg[CURSEG_HOT_DATA] = prev_zone(CURSEG_COLD_NODE); @@ -424,10 +472,10 @@ static int f2fs_prepare_super_block(void) c.cur_seg[CURSEG_COLD_NODE] = next_zone(CURSEG_WARM_NODE); c.cur_seg[CURSEG_HOT_DATA] = next_zone(CURSEG_COLD_NODE); c.cur_seg[CURSEG_COLD_DATA] = - max(last_zone((total_zones >> 2)), + max(last_zone((main_zones >> 2)), next_zone(CURSEG_COLD_NODE)); c.cur_seg[CURSEG_WARM_DATA] = - max(last_zone((total_zones >> 1)), + max(last_zone((main_zones >> 1)), next_zone(CURSEG_COLD_DATA)); } -- 2.1.4