/** * libf2fs_zoned.c * * Copyright (c) 2016 Western Digital Corporation. * Written by: Damien Le Moal * * Dual licensed under the GPL or LGPL version 2 licenses. */ #define _LARGEFILE64_SOURCE #include #include #include #include #include #include #include #ifndef ANDROID_WINDOWS_HOST #include #endif #include #include #ifdef HAVE_LINUX_BLKZONED_H void f2fs_get_zoned_model(int i) { struct device_info *dev = c.devices + i; char str[128]; FILE *file; int res; /* Check that this is a zoned block device */ snprintf(str, sizeof(str), "/sys/block/%s/queue/zoned", basename(dev->path)); file = fopen(str, "r"); if (!file) goto not_zoned; memset(str, 0, sizeof(str)); res = fscanf(file, "%s", str); fclose(file); if (res != 1) goto not_zoned; if (strcmp(str, "host-aware") == 0) { dev->zoned_model = F2FS_ZONED_HA; return; } if (strcmp(str, "host-managed") == 0) { dev->zoned_model = F2FS_ZONED_HM; return; } not_zoned: dev->zoned_model = F2FS_ZONED_NONE; } int f2fs_get_zone_blocks(int i) { struct device_info *dev = c.devices + i; uint64_t sectors; char str[128]; FILE *file; int res; /* Get zone size */ dev->zone_blocks = 0; snprintf(str, sizeof(str), "/sys/block/%s/queue/chunk_sectors", basename(dev->path)); file = fopen(str, "r"); if (!file) return -1; memset(str, 0, sizeof(str)); res = fscanf(file, "%s", str); fclose(file); if (res != 1) return -1; sectors = atol(str); if (!sectors) return -1; dev->zone_blocks = sectors >> (F2FS_BLKSIZE_BITS - 9); sectors = (sectors << 9) / c.sector_size; /* * Total number of zones: there may * be a last smaller runt zone. */ dev->nr_zones = dev->total_sectors / sectors; if (dev->total_sectors % sectors) dev->nr_zones++; return 0; } #define F2FS_REPORT_ZONES_BUFSZ 524288 int f2fs_check_zones(int j) { struct device_info *dev = c.devices + j; struct blk_zone_report *rep; struct blk_zone *blkz; unsigned int i, n = 0; u_int64_t total_sectors; u_int64_t sector; int last_is_conv = 1; int ret = -1; rep = malloc(F2FS_REPORT_ZONES_BUFSZ); if (!rep) { ERR_MSG("No memory for report zones\n"); return -ENOMEM; } dev->nr_rnd_zones = 0; sector = 0; total_sectors = (dev->total_sectors * c.sector_size) >> 9; while (sector < total_sectors) { /* Get zone info */ memset(rep, 0, F2FS_REPORT_ZONES_BUFSZ); rep->sector = sector; rep->nr_zones = (F2FS_REPORT_ZONES_BUFSZ - sizeof(struct blk_zone_report)) / sizeof(struct blk_zone); ret = ioctl(dev->fd, BLKREPORTZONE, rep); if (ret != 0) { ret = -errno; ERR_MSG("ioctl BLKREPORTZONE failed\n"); goto out; } if (!rep->nr_zones) break; blkz = (struct blk_zone *)(rep + 1); for (i = 0; i < rep->nr_zones && sector < total_sectors; i++) { if (blk_zone_cond(blkz) == BLK_ZONE_COND_READONLY || blk_zone_cond(blkz) == BLK_ZONE_COND_OFFLINE) last_is_conv = 0; if (blk_zone_conv(blkz) || blk_zone_seq_pref(blkz)) { if (last_is_conv) dev->nr_rnd_zones++; } else { last_is_conv = 0; } if (blk_zone_conv(blkz)) { DBG(2, "Zone %05u: Conventional, cond 0x%x (%s), sector %llu, %llu sectors\n", n, blk_zone_cond(blkz), blk_zone_cond_str(blkz), blk_zone_sector(blkz), blk_zone_length(blkz)); } else { DBG(2, "Zone %05u: type 0x%x (%s), cond 0x%x (%s), need_reset %d, " "non_seq %d, sector %llu, %llu sectors, wp sector %llu\n", n, blk_zone_type(blkz), blk_zone_type_str(blkz), blk_zone_cond(blkz), blk_zone_cond_str(blkz), blk_zone_need_reset(blkz), blk_zone_non_seq(blkz), blk_zone_sector(blkz), blk_zone_length(blkz), blk_zone_wp_sector(blkz)); } sector = blk_zone_sector(blkz) + blk_zone_length(blkz); n++; blkz++; } } if (sector != total_sectors) { ERR_MSG("Invalid zones: last sector reported is %llu, expected %llu\n", (unsigned long long)(sector << 9) / c.sector_size, (unsigned long long)dev->total_sectors); ret = -1; goto out; } if (n != dev->nr_zones) { ERR_MSG("Inconsistent number of zones: expected %u zones, got %u\n", dev->nr_zones, n); ret = -1; goto out; } if (dev->zoned_model == F2FS_ZONED_HM && !dev->nr_rnd_zones) { ERR_MSG("No conventional zone for super block\n"); ret = -1; } out: free(rep); return ret; } int f2fs_reset_zones(int j) { struct device_info *dev = c.devices + j; struct blk_zone_report *rep; struct blk_zone *blkz; struct blk_zone_range range; u_int64_t total_sectors; u_int64_t sector; unsigned int i; int ret = -1; rep = malloc(F2FS_REPORT_ZONES_BUFSZ); if (!rep) { ERR_MSG("No memory for report zones\n"); return -1; } sector = 0; total_sectors = (dev->total_sectors * c.sector_size) >> 9; while (sector < total_sectors) { /* Get zone info */ memset(rep, 0, F2FS_REPORT_ZONES_BUFSZ); rep->sector = sector; rep->nr_zones = (F2FS_REPORT_ZONES_BUFSZ - sizeof(struct blk_zone_report)) / sizeof(struct blk_zone); ret = ioctl(dev->fd, BLKREPORTZONE, rep); if (ret != 0) { ret = -errno; ERR_MSG("ioctl BLKREPORTZONES failed\n"); goto out; } if (!rep->nr_zones) break; blkz = (struct blk_zone *)(rep + 1); for (i = 0; i < rep->nr_zones && sector < total_sectors; i++) { if (blk_zone_seq(blkz) && !blk_zone_empty(blkz)) { /* Non empty sequential zone: reset */ range.sector = blk_zone_sector(blkz); range.nr_sectors = blk_zone_length(blkz); ret = ioctl(dev->fd, BLKRESETZONE, &range); if (ret != 0) { ret = -errno; ERR_MSG("ioctl BLKRESETZONE failed\n"); goto out; } } sector = blk_zone_sector(blkz) + blk_zone_length(blkz); blkz++; } } out: free(rep); if (!ret) MSG(0, "Info: Discarded %"PRIu64" MB\n", (sector << 9) >> 20); return ret; } #else void f2fs_get_zoned_model(int i) { struct device_info *dev = c.devices + i; c.zoned_mode = 0; dev->zoned_model = F2FS_ZONED_NONE; } int f2fs_get_zone_blocks(int i) { struct device_info *dev = c.devices + i; c.zoned_mode = 0; dev->nr_zones = 0; dev->zone_blocks = 0; dev->zoned_model = F2FS_ZONED_NONE; return 0; } int f2fs_check_zones(int i) { ERR_MSG("%d: Zoned block devices are not supported\n", i); return -1; } int f2fs_reset_zones(int i) { ERR_MSG("%d: Zoned block devices are not supported\n", i); return -1; } #endif