/*- * BSD LICENSE * * Copyright (c) Intel Corporation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name of Intel Corporation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "spdk/crc32.h" #include "spdk/likely.h" #include "spdk/util.h" #include "spdk/ftl.h" #include "ftl_band.h" #include "ftl_io.h" #include "ftl_core.h" #include "ftl_reloc.h" #include "ftl_debug.h" /* TODO: define some signature for meta version */ #define FTL_MD_VER 1 struct __attribute__((packed)) ftl_md_hdr { /* Device instance */ struct spdk_uuid uuid; /* Meta version */ uint8_t ver; /* Sequence number */ uint64_t seq; /* CRC32 checksum */ uint32_t checksum; }; /* End metadata layout stored on media (with all three being aligned to block size): */ /* - header */ /* - valid bitmap */ /* - LBA map */ struct __attribute__((packed)) ftl_tail_md { struct ftl_md_hdr hdr; /* Max number of blocks */ uint64_t num_blocks; uint8_t reserved[4059]; }; SPDK_STATIC_ASSERT(sizeof(struct ftl_tail_md) == FTL_BLOCK_SIZE, "Incorrect metadata size"); struct __attribute__((packed)) ftl_head_md { struct ftl_md_hdr hdr; /* Number of defrag cycles */ uint64_t wr_cnt; /* Number of surfaced LBAs */ uint64_t lba_cnt; /* Transfer size */ uint32_t xfer_size; }; size_t ftl_tail_md_hdr_num_blocks(void) { return spdk_divide_round_up(sizeof(struct ftl_tail_md), FTL_BLOCK_SIZE); } size_t ftl_vld_map_num_blocks(const struct spdk_ftl_dev *dev) { return spdk_divide_round_up(ftl_vld_map_size(dev), FTL_BLOCK_SIZE); } size_t ftl_lba_map_num_blocks(const struct spdk_ftl_dev *dev) { return spdk_divide_round_up(ftl_get_num_blocks_in_band(dev) * sizeof(uint64_t), FTL_BLOCK_SIZE); } size_t ftl_head_md_num_blocks(const struct spdk_ftl_dev *dev) { return dev->xfer_size; } size_t ftl_tail_md_num_blocks(const struct spdk_ftl_dev *dev) { return spdk_divide_round_up(ftl_tail_md_hdr_num_blocks() + ftl_vld_map_num_blocks(dev) + ftl_lba_map_num_blocks(dev), dev->xfer_size) * dev->xfer_size; } static uint64_t ftl_band_tail_md_offset(const struct ftl_band *band) { return ftl_band_num_usable_blocks(band) - ftl_tail_md_num_blocks(band->dev); } int ftl_band_full(struct ftl_band *band, size_t offset) { return offset == ftl_band_tail_md_offset(band); } void ftl_band_write_failed(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; band->high_prio = 1; ftl_reloc_add(dev->reloc, band, 0, ftl_get_num_blocks_in_band(dev), 1, true); ftl_band_set_state(band, FTL_BAND_STATE_CLOSED); } static void ftl_band_free_lba_map(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_lba_map *lba_map = &band->lba_map; assert(band->state == FTL_BAND_STATE_CLOSED || band->state == FTL_BAND_STATE_FREE); assert(lba_map->ref_cnt == 0); assert(lba_map->map != NULL); assert(!band->high_prio); /* Verify that band's metadata is consistent with l2p */ if (band->num_zones) { assert(ftl_band_validate_md(band) == true); } spdk_mempool_put(dev->lba_pool, lba_map->dma_buf); lba_map->map = NULL; lba_map->dma_buf = NULL; } static void _ftl_band_set_free(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_band *lband, *prev; /* Remove the band from the closed band list */ LIST_REMOVE(band, list_entry); /* Keep the list sorted by band's write count */ LIST_FOREACH(lband, &dev->free_bands, list_entry) { if (lband->wr_cnt > band->wr_cnt) { LIST_INSERT_BEFORE(lband, band, list_entry); break; } prev = lband; } if (!lband) { if (LIST_EMPTY(&dev->free_bands)) { LIST_INSERT_HEAD(&dev->free_bands, band, list_entry); } else { LIST_INSERT_AFTER(prev, band, list_entry); } } #if defined(DEBUG) prev = NULL; LIST_FOREACH(lband, &dev->free_bands, list_entry) { if (!prev) { continue; } assert(prev->wr_cnt <= lband->wr_cnt); } #endif dev->num_free++; ftl_apply_limits(dev); } static void _ftl_band_set_preparing(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; /* Remove band from free list */ LIST_REMOVE(band, list_entry); band->wr_cnt++; assert(dev->num_free > 0); dev->num_free--; ftl_apply_limits(dev); } static void _ftl_band_set_closed(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; /* Set the state as free_md() checks for that */ band->state = FTL_BAND_STATE_CLOSED; /* Free the lba map if there are no outstanding IOs */ ftl_band_release_lba_map(band); if (spdk_likely(band->num_zones)) { LIST_INSERT_HEAD(&dev->shut_bands, band, list_entry); } else { LIST_REMOVE(band, list_entry); } } static uint32_t ftl_md_calc_crc(const struct ftl_md_hdr *hdr, size_t size) { size_t checkoff = offsetof(struct ftl_md_hdr, checksum); size_t mdoff = checkoff + sizeof(hdr->checksum); uint32_t crc; crc = spdk_crc32c_update(hdr, checkoff, 0); return spdk_crc32c_update((const char *)hdr + mdoff, size - mdoff, crc); } static void ftl_set_md_hdr(struct ftl_band *band, struct ftl_md_hdr *hdr, size_t size) { hdr->seq = band->seq; hdr->ver = FTL_MD_VER; hdr->uuid = band->dev->uuid; hdr->checksum = ftl_md_calc_crc(hdr, size); } static int ftl_pack_head_md(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_head_md *head = band->lba_map.dma_buf; head->wr_cnt = band->wr_cnt; head->lba_cnt = dev->num_lbas; head->xfer_size = dev->xfer_size; ftl_set_md_hdr(band, &head->hdr, sizeof(struct ftl_head_md)); return FTL_MD_SUCCESS; } static int ftl_pack_tail_md(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_lba_map *lba_map = &band->lba_map; struct ftl_tail_md *tail = lba_map->dma_buf; void *vld_offset; vld_offset = (char *)tail + ftl_tail_md_hdr_num_blocks() * FTL_BLOCK_SIZE; /* Clear out the buffer */ memset(tail, 0, ftl_tail_md_hdr_num_blocks() * FTL_BLOCK_SIZE); tail->num_blocks = ftl_get_num_blocks_in_band(dev); pthread_spin_lock(&lba_map->lock); spdk_bit_array_store_mask(lba_map->vld, vld_offset); pthread_spin_unlock(&lba_map->lock); ftl_set_md_hdr(band, &tail->hdr, ftl_tail_md_num_blocks(dev) * FTL_BLOCK_SIZE); return FTL_MD_SUCCESS; } static int ftl_md_hdr_vld(struct spdk_ftl_dev *dev, const struct ftl_md_hdr *hdr, size_t size) { if (spdk_uuid_compare(&dev->uuid, &hdr->uuid) != 0) { return FTL_MD_NO_MD; } if (hdr->ver != FTL_MD_VER) { return FTL_MD_INVALID_VER; } if (ftl_md_calc_crc(hdr, size) != hdr->checksum) { return FTL_MD_INVALID_CRC; } return FTL_MD_SUCCESS; } static int ftl_unpack_tail_md(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; void *vld_offset; struct ftl_lba_map *lba_map = &band->lba_map; struct ftl_tail_md *tail = lba_map->dma_buf; int rc; vld_offset = (char *)tail + ftl_tail_md_hdr_num_blocks() * FTL_BLOCK_SIZE; rc = ftl_md_hdr_vld(dev, &tail->hdr, ftl_tail_md_num_blocks(dev) * FTL_BLOCK_SIZE); if (rc) { return rc; } /* * When restoring from a dirty shutdown it's possible old tail meta wasn't yet cleared - * band had saved head meta, but didn't manage to send erase to all zones. * The already found tail md header is valid, but inconsistent with the head meta. Treat * such a band as open/without valid tail md. */ if (band->seq != tail->hdr.seq) { return FTL_MD_NO_MD; } if (tail->num_blocks != ftl_get_num_blocks_in_band(dev)) { return FTL_MD_INVALID_SIZE; } spdk_bit_array_load_mask(lba_map->vld, vld_offset); return FTL_MD_SUCCESS; } static int ftl_unpack_head_md(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_head_md *head = band->lba_map.dma_buf; int rc; rc = ftl_md_hdr_vld(dev, &head->hdr, sizeof(struct ftl_head_md)); if (rc) { return rc; } band->seq = head->hdr.seq; band->wr_cnt = head->wr_cnt; if (dev->global_md.num_lbas == 0) { dev->global_md.num_lbas = head->lba_cnt; } if (dev->global_md.num_lbas != head->lba_cnt) { return FTL_MD_INVALID_SIZE; } if (dev->xfer_size != head->xfer_size) { return FTL_MD_INVALID_SIZE; } return FTL_MD_SUCCESS; } struct ftl_addr ftl_band_tail_md_addr(struct ftl_band *band) { struct ftl_addr addr = {}; struct ftl_zone *zone; struct spdk_ftl_dev *dev = band->dev; size_t xfer_size = dev->xfer_size; size_t num_req = ftl_band_tail_md_offset(band) / xfer_size; size_t i; if (spdk_unlikely(!band->num_zones)) { return ftl_to_addr(FTL_ADDR_INVALID); } /* Metadata should be aligned to xfer size */ assert(ftl_band_tail_md_offset(band) % xfer_size == 0); zone = CIRCLEQ_FIRST(&band->zones); for (i = 0; i < num_req % band->num_zones; ++i) { zone = ftl_band_next_zone(band, zone); } addr.offset = (num_req / band->num_zones) * xfer_size; addr.offset += zone->info.zone_id; return addr; } struct ftl_addr ftl_band_head_md_addr(struct ftl_band *band) { if (spdk_unlikely(!band->num_zones)) { return ftl_to_addr(FTL_ADDR_INVALID); } return ftl_to_addr(CIRCLEQ_FIRST(&band->zones)->info.zone_id); } void ftl_band_set_state(struct ftl_band *band, enum ftl_band_state state) { switch (state) { case FTL_BAND_STATE_FREE: assert(band->state == FTL_BAND_STATE_CLOSED); _ftl_band_set_free(band); break; case FTL_BAND_STATE_PREP: assert(band->state == FTL_BAND_STATE_FREE); _ftl_band_set_preparing(band); break; case FTL_BAND_STATE_CLOSED: if (band->state != FTL_BAND_STATE_CLOSED) { assert(band->state == FTL_BAND_STATE_CLOSING || band->high_prio); _ftl_band_set_closed(band); } break; default: break; } band->state = state; } void ftl_band_set_addr(struct ftl_band *band, uint64_t lba, struct ftl_addr addr) { struct ftl_lba_map *lba_map = &band->lba_map; uint64_t offset; assert(lba != FTL_LBA_INVALID); offset = ftl_band_block_offset_from_addr(band, addr); pthread_spin_lock(&lba_map->lock); lba_map->num_vld++; lba_map->map[offset] = lba; spdk_bit_array_set(lba_map->vld, offset); pthread_spin_unlock(&lba_map->lock); } size_t ftl_band_age(const struct ftl_band *band) { return (size_t)(band->dev->seq - band->seq); } size_t ftl_band_num_usable_blocks(const struct ftl_band *band) { return band->num_zones * ftl_get_num_blocks_in_zone(band->dev); } size_t ftl_band_user_blocks_left(const struct ftl_band *band, size_t offset) { size_t tail_md_offset = ftl_band_tail_md_offset(band); if (spdk_unlikely(offset <= ftl_head_md_num_blocks(band->dev))) { return ftl_band_user_blocks(band); } if (spdk_unlikely(offset > tail_md_offset)) { return 0; } return tail_md_offset - offset; } size_t ftl_band_user_blocks(const struct ftl_band *band) { return ftl_band_num_usable_blocks(band) - ftl_head_md_num_blocks(band->dev) - ftl_tail_md_num_blocks(band->dev); } struct ftl_band * ftl_band_from_addr(struct spdk_ftl_dev *dev, struct ftl_addr addr) { size_t band_id = ftl_addr_get_band(dev, addr); assert(band_id < ftl_get_num_bands(dev)); return &dev->bands[band_id]; } struct ftl_zone * ftl_band_zone_from_addr(struct ftl_band *band, struct ftl_addr addr) { size_t pu_id = ftl_addr_get_punit(band->dev, addr); assert(pu_id < ftl_get_num_punits(band->dev)); return &band->zone_buf[pu_id]; } uint64_t ftl_band_block_offset_from_addr(struct ftl_band *band, struct ftl_addr addr) { assert(ftl_addr_get_band(band->dev, addr) == band->id); assert(ftl_addr_get_punit(band->dev, addr) < ftl_get_num_punits(band->dev)); return addr.offset % ftl_get_num_blocks_in_band(band->dev); } struct ftl_addr ftl_band_next_xfer_addr(struct ftl_band *band, struct ftl_addr addr, size_t num_blocks) { struct spdk_ftl_dev *dev = band->dev; struct ftl_zone *zone; size_t num_xfers, num_stripes; uint64_t offset; assert(ftl_addr_get_band(dev, addr) == band->id); offset = ftl_addr_get_zone_offset(dev, addr); zone = ftl_band_zone_from_addr(band, addr); num_blocks += (offset % dev->xfer_size); offset -= (offset % dev->xfer_size); #if defined(DEBUG) /* Check that the number of zones has not been changed */ struct ftl_zone *_zone; size_t _num_zones = 0; CIRCLEQ_FOREACH(_zone, &band->zones, circleq) { if (spdk_likely(_zone->info.state != SPDK_BDEV_ZONE_STATE_OFFLINE)) { _num_zones++; } } assert(band->num_zones == _num_zones); #endif assert(band->num_zones != 0); num_stripes = (num_blocks / dev->xfer_size) / band->num_zones; offset += num_stripes * dev->xfer_size; num_blocks -= num_stripes * dev->xfer_size * band->num_zones; if (offset > ftl_get_num_blocks_in_zone(dev)) { return ftl_to_addr(FTL_ADDR_INVALID); } num_xfers = num_blocks / dev->xfer_size; for (size_t i = 0; i < num_xfers; ++i) { /* When the last zone is reached the block part of the address */ /* needs to be increased by xfer_size */ if (ftl_band_zone_is_last(band, zone)) { offset += dev->xfer_size; if (offset > ftl_get_num_blocks_in_zone(dev)) { return ftl_to_addr(FTL_ADDR_INVALID); } } zone = ftl_band_next_operational_zone(band, zone); assert(zone); num_blocks -= dev->xfer_size; } if (num_blocks) { offset += num_blocks; if (offset > ftl_get_num_blocks_in_zone(dev)) { return ftl_to_addr(FTL_ADDR_INVALID); } } addr.offset = zone->info.zone_id + offset; return addr; } static size_t ftl_xfer_offset_from_addr(struct ftl_band *band, struct ftl_addr addr) { struct ftl_zone *zone, *current_zone; unsigned int punit_offset = 0; size_t num_stripes, xfer_size = band->dev->xfer_size; uint64_t offset; assert(ftl_addr_get_band(band->dev, addr) == band->id); offset = ftl_addr_get_zone_offset(band->dev, addr); num_stripes = (offset / xfer_size) * band->num_zones; current_zone = ftl_band_zone_from_addr(band, addr); CIRCLEQ_FOREACH(zone, &band->zones, circleq) { if (current_zone == zone) { break; } punit_offset++; } return xfer_size * (num_stripes + punit_offset) + offset % xfer_size; } struct ftl_addr ftl_band_addr_from_block_offset(struct ftl_band *band, uint64_t block_off) { struct ftl_addr addr = { .offset = 0 }; addr.offset = block_off + band->id * ftl_get_num_blocks_in_band(band->dev); return addr; } struct ftl_addr ftl_band_next_addr(struct ftl_band *band, struct ftl_addr addr, size_t offset) { uint64_t block_off = ftl_band_block_offset_from_addr(band, addr); return ftl_band_addr_from_block_offset(band, block_off + offset); } void ftl_band_acquire_lba_map(struct ftl_band *band) { assert(band->lba_map.map != NULL); band->lba_map.ref_cnt++; } int ftl_band_alloc_lba_map(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; struct ftl_lba_map *lba_map = &band->lba_map; assert(lba_map->ref_cnt == 0); assert(lba_map->map == NULL); lba_map->dma_buf = spdk_mempool_get(dev->lba_pool); if (!lba_map->dma_buf) { return -1; } memset(lba_map->dma_buf, 0, ftl_lba_map_pool_elem_size(band->dev)); lba_map->map = (uint64_t *)((char *)lba_map->dma_buf + FTL_BLOCK_SIZE * (ftl_tail_md_hdr_num_blocks() + ftl_vld_map_num_blocks(dev))); lba_map->segments = (char *)lba_map->dma_buf + ftl_tail_md_num_blocks(dev) * FTL_BLOCK_SIZE; ftl_band_acquire_lba_map(band); return 0; } void ftl_band_release_lba_map(struct ftl_band *band) { struct ftl_lba_map *lba_map = &band->lba_map; assert(lba_map->map != NULL); assert(lba_map->ref_cnt > 0); lba_map->ref_cnt--; if (lba_map->ref_cnt == 0) { ftl_band_free_lba_map(band); } } static void ftl_read_md_cb(struct ftl_io *io, void *arg, int status) { struct ftl_md_io *md_io = (struct ftl_md_io *)io; if (!status) { status = md_io->pack_fn(md_io->io.band); } else { status = FTL_MD_IO_FAILURE; } md_io->cb_fn(io, md_io->cb_ctx, status); } static struct ftl_md_io * ftl_io_init_md_read(struct spdk_ftl_dev *dev, struct ftl_addr addr, struct ftl_band *band, size_t num_blocks, void *buf, ftl_io_fn fn, ftl_md_pack_fn pack_fn, ftl_io_fn cb_fn, void *cb_ctx) { struct ftl_md_io *io; struct ftl_io_init_opts opts = { .dev = dev, .io = NULL, .band = band, .size = sizeof(*io), .flags = FTL_IO_MD | FTL_IO_PHYSICAL_MODE, .type = FTL_IO_READ, .num_blocks = num_blocks, .cb_fn = fn, .iovs = { { .iov_base = buf, .iov_len = num_blocks * FTL_BLOCK_SIZE, } }, .iovcnt = 1, }; io = (struct ftl_md_io *)ftl_io_init_internal(&opts); if (!io) { return NULL; } io->io.addr = addr; io->pack_fn = pack_fn; io->cb_fn = cb_fn; io->cb_ctx = cb_ctx; return io; } static struct ftl_io * ftl_io_init_md_write(struct spdk_ftl_dev *dev, struct ftl_band *band, void *data, size_t num_blocks, ftl_io_fn cb) { struct ftl_io_init_opts opts = { .dev = dev, .io = NULL, .band = band, .size = sizeof(struct ftl_io), .flags = FTL_IO_MD | FTL_IO_PHYSICAL_MODE, .type = FTL_IO_WRITE, .num_blocks = num_blocks, .cb_fn = cb, .iovs = { { .iov_base = data, .iov_len = num_blocks * FTL_BLOCK_SIZE, } }, .iovcnt = 1, .md = NULL, }; return ftl_io_init_internal(&opts); } static int ftl_band_write_md(struct ftl_band *band, size_t num_blocks, ftl_md_pack_fn md_fn, ftl_io_fn cb) { struct spdk_ftl_dev *dev = band->dev; struct ftl_io *io; io = ftl_io_init_md_write(dev, band, band->lba_map.dma_buf, num_blocks, cb); if (!io) { return -ENOMEM; } md_fn(band); ftl_io_write(io); return 0; } void ftl_band_md_clear(struct ftl_band *band) { band->seq = 0; band->wr_cnt = 0; band->lba_map.num_vld = 0; band->lba_map.map = NULL; } int ftl_band_write_head_md(struct ftl_band *band, ftl_io_fn cb) { return ftl_band_write_md(band, ftl_head_md_num_blocks(band->dev), ftl_pack_head_md, cb); } int ftl_band_write_tail_md(struct ftl_band *band, ftl_io_fn cb) { return ftl_band_write_md(band, ftl_tail_md_num_blocks(band->dev), ftl_pack_tail_md, cb); } static struct ftl_addr ftl_band_lba_map_addr(struct ftl_band *band, size_t offset) { return ftl_band_next_xfer_addr(band, band->tail_md_addr, ftl_tail_md_hdr_num_blocks() + ftl_vld_map_num_blocks(band->dev) + offset); } static int ftl_band_read_md(struct ftl_band *band, size_t num_blocks, struct ftl_addr start_addr, void *buf, ftl_io_fn fn, ftl_md_pack_fn pack_fn, ftl_io_fn cb_fn, void *cb_ctx) { struct spdk_ftl_dev *dev = band->dev; struct ftl_md_io *io; if (spdk_unlikely(!band->num_zones)) { return -ENOENT; } io = ftl_io_init_md_read(dev, start_addr, band, num_blocks, buf, fn, pack_fn, cb_fn, cb_ctx); if (!io) { return -ENOMEM; } ftl_io_read((struct ftl_io *)io); return 0; } int ftl_band_read_tail_md(struct ftl_band *band, struct ftl_addr addr, ftl_io_fn cb_fn, void *cb_ctx) { return ftl_band_read_md(band, ftl_tail_md_num_blocks(band->dev), addr, band->lba_map.dma_buf, ftl_read_md_cb, ftl_unpack_tail_md, cb_fn, cb_ctx); } static size_t ftl_lba_map_request_segment_done(struct ftl_lba_map_request *request, size_t offset, size_t num_segments) { size_t i, num_done = 0; for (i = offset; i < offset + num_segments; ++i) { if (spdk_bit_array_get(request->segments, i)) { spdk_bit_array_clear(request->segments, offset); num_done++; } } assert(request->num_pending >= num_done); request->num_pending -= num_done; return num_done; } static void ftl_lba_map_set_segment_state(struct ftl_lba_map *lba_map, size_t offset, size_t num_segments, enum ftl_lba_map_seg_state state) { size_t i; for (i = offset; i < offset + num_segments; ++i) { lba_map->segments[i] = state; } } static void ftl_lba_map_request_free(struct spdk_ftl_dev *dev, struct ftl_lba_map_request *request) { spdk_bit_array_clear_mask(request->segments); spdk_mempool_put(dev->lba_request_pool, request); } static void ftl_process_lba_map_requests(struct spdk_ftl_dev *dev, struct ftl_lba_map *lba_map, size_t offset, size_t num_segments, int status) { struct ftl_lba_map_request *request, *trequest; size_t num_done; LIST_FOREACH_SAFE(request, &lba_map->request_list, list_entry, trequest) { num_done = ftl_lba_map_request_segment_done(request, offset, num_segments); if (request->num_pending == 0 || (status && num_done)) { request->cb(NULL, request->cb_ctx, status); LIST_REMOVE(request, list_entry); ftl_lba_map_request_free(dev, request); } } } static size_t ftl_lba_map_offset_from_addr(struct ftl_band *band, struct ftl_addr addr) { size_t offset; struct ftl_addr start_addr = ftl_band_lba_map_addr(band, 0); offset = ftl_xfer_offset_from_addr(band, addr) - ftl_xfer_offset_from_addr(band, start_addr); assert(offset < ftl_lba_map_num_blocks(band->dev)); return offset; } static void ftl_read_lba_map_cb(struct ftl_io *io, void *arg, int status) { struct ftl_lba_map *lba_map = &io->band->lba_map; uint64_t block_off; block_off = ftl_lba_map_offset_from_addr(io->band, io->addr); assert(block_off + io->num_blocks <= ftl_lba_map_num_blocks(io->dev)); if (!status) { ftl_lba_map_set_segment_state(lba_map, block_off, io->num_blocks, FTL_LBA_MAP_SEG_CACHED); } ftl_process_lba_map_requests(io->dev, lba_map, block_off, io->num_blocks, status); } static struct ftl_lba_map_request * ftl_lba_map_alloc_request(struct ftl_band *band, size_t offset, size_t num_segments, ftl_io_fn cb, void *cb_ctx) { struct ftl_lba_map_request *request; struct spdk_ftl_dev *dev = band->dev; size_t i; request = spdk_mempool_get(dev->lba_request_pool); if (!request) { return NULL; } request->cb = cb; request->cb_ctx = cb_ctx; request->num_pending = num_segments; for (i = offset; i < offset + num_segments; ++i) { spdk_bit_array_set(request->segments, i); } return request; } static size_t ftl_lba_map_num_clear_segments(struct ftl_lba_map *lba_map, size_t offset, size_t num_segments) { size_t i, cnt = 0; for (i = offset; i < offset + num_segments; ++i) { if (lba_map->segments[i] != FTL_LBA_MAP_SEG_CLEAR) { break; } cnt++; } return cnt; } int ftl_band_read_lba_map(struct ftl_band *band, size_t offset, size_t lba_cnt, ftl_io_fn cb_fn, void *cb_ctx) { size_t num_blocks, block_off, num_read, num_segments; struct ftl_lba_map *lba_map = &band->lba_map; struct ftl_lba_map_request *request; int rc = 0; block_off = offset / FTL_NUM_LBA_IN_BLOCK; num_segments = spdk_divide_round_up(offset + lba_cnt, FTL_NUM_LBA_IN_BLOCK); num_blocks = num_segments - block_off; assert(block_off + num_blocks <= ftl_lba_map_num_blocks(band->dev)); request = ftl_lba_map_alloc_request(band, block_off, num_blocks, cb_fn, cb_ctx); if (!request) { return -ENOMEM; } while (num_blocks) { if (lba_map->segments[block_off] != FTL_LBA_MAP_SEG_CLEAR) { if (lba_map->segments[block_off] == FTL_LBA_MAP_SEG_CACHED) { ftl_lba_map_request_segment_done(request, block_off, 1); } num_blocks--; block_off++; continue; } num_read = ftl_lba_map_num_clear_segments(lba_map, block_off, num_blocks); ftl_lba_map_set_segment_state(lba_map, block_off, num_read, FTL_LBA_MAP_SEG_PENDING); rc = ftl_band_read_md(band, num_read, ftl_band_lba_map_addr(band, block_off), (char *)band->lba_map.map + block_off * FTL_BLOCK_SIZE, ftl_read_lba_map_cb, NULL, cb_fn, cb_ctx); if (rc) { ftl_lba_map_request_free(band->dev, request); return rc; } assert(num_blocks >= num_read); num_blocks -= num_read; block_off += num_read; } if (request->num_pending) { LIST_INSERT_HEAD(&lba_map->request_list, request, list_entry); } else { cb_fn(NULL, cb_ctx, 0); ftl_lba_map_request_free(band->dev, request); } return rc; } int ftl_band_read_head_md(struct ftl_band *band, ftl_io_fn cb_fn, void *cb_ctx) { return ftl_band_read_md(band, ftl_head_md_num_blocks(band->dev), ftl_band_head_md_addr(band), band->lba_map.dma_buf, ftl_read_md_cb, ftl_unpack_head_md, cb_fn, cb_ctx); } void ftl_band_remove_zone(struct ftl_band *band, struct ftl_zone *zone) { CIRCLEQ_REMOVE(&band->zones, zone, circleq); band->num_zones--; } int ftl_band_write_prep(struct ftl_band *band) { struct spdk_ftl_dev *dev = band->dev; if (ftl_band_alloc_lba_map(band)) { return -1; } band->seq = ++dev->seq; return 0; } struct ftl_zone * ftl_band_next_operational_zone(struct ftl_band *band, struct ftl_zone *zone) { struct ftl_zone *result = NULL; struct ftl_zone *entry; if (spdk_unlikely(!band->num_zones)) { return NULL; } /* Erasing band may fail after it was assigned to wptr. */ /* In such a case zone is no longer in band->zones queue. */ if (spdk_likely(zone->info.state != SPDK_BDEV_ZONE_STATE_OFFLINE)) { result = ftl_band_next_zone(band, zone); } else { CIRCLEQ_FOREACH_REVERSE(entry, &band->zones, circleq) { if (entry->info.zone_id > zone->info.zone_id) { result = entry; } else { if (!result) { result = CIRCLEQ_FIRST(&band->zones); } break; } } } return result; } void ftl_band_clear_lba_map(struct ftl_band *band) { struct ftl_lba_map *lba_map = &band->lba_map; size_t num_segments; spdk_bit_array_clear_mask(lba_map->vld); memset(lba_map->map, 0, ftl_lba_map_num_blocks(band->dev) * FTL_BLOCK_SIZE); /* For open band all lba map segments are already cached */ assert(band->state == FTL_BAND_STATE_PREP); num_segments = spdk_divide_round_up(ftl_get_num_blocks_in_band(band->dev), FTL_NUM_LBA_IN_BLOCK); ftl_lba_map_set_segment_state(&band->lba_map, 0, num_segments, FTL_LBA_MAP_SEG_CACHED); lba_map->num_vld = 0; } size_t ftl_lba_map_pool_elem_size(struct spdk_ftl_dev *dev) { /* Map pool element holds the whole tail md + segments map */ return ftl_tail_md_num_blocks(dev) * FTL_BLOCK_SIZE + spdk_divide_round_up(ftl_get_num_blocks_in_band(dev), FTL_NUM_LBA_IN_BLOCK); }