/*- * 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/stdinc.h" #include "spdk/ftl.h" #include "spdk/likely.h" #include "spdk/util.h" #include "ftl_io.h" #include "ftl_core.h" #include "ftl_band.h" #include "ftl_debug.h" void ftl_io_inc_req(struct ftl_io *io) { struct ftl_band *band = io->band; if (!(io->flags & FTL_IO_CACHE) && io->type != FTL_IO_READ && io->type != FTL_IO_ERASE) { ftl_band_acquire_lba_map(band); } __atomic_fetch_add(&io->dev->num_inflight, 1, __ATOMIC_SEQ_CST); ++io->req_cnt; } void ftl_io_dec_req(struct ftl_io *io) { struct ftl_band *band = io->band; unsigned long num_inflight __attribute__((unused)); if (!(io->flags & FTL_IO_CACHE) && io->type != FTL_IO_READ && io->type != FTL_IO_ERASE) { ftl_band_release_lba_map(band); } num_inflight = __atomic_fetch_sub(&io->dev->num_inflight, 1, __ATOMIC_SEQ_CST); assert(num_inflight > 0); assert(io->req_cnt > 0); --io->req_cnt; } struct iovec * ftl_io_iovec(struct ftl_io *io) { return &io->iov[0]; } uint64_t ftl_io_get_lba(const struct ftl_io *io, size_t offset) { assert(offset < io->num_blocks); if (io->flags & FTL_IO_VECTOR_LBA) { return io->lba.vector[offset]; } else { return io->lba.single + offset; } } uint64_t ftl_io_current_lba(const struct ftl_io *io) { return ftl_io_get_lba(io, io->pos); } void ftl_io_advance(struct ftl_io *io, size_t num_blocks) { struct iovec *iov = ftl_io_iovec(io); size_t iov_blocks, block_left = num_blocks; io->pos += num_blocks; if (io->iov_cnt != 0) { while (block_left > 0) { assert(io->iov_pos < io->iov_cnt); iov_blocks = iov[io->iov_pos].iov_len / FTL_BLOCK_SIZE; if (io->iov_off + block_left < iov_blocks) { io->iov_off += block_left; break; } assert(iov_blocks > io->iov_off); block_left -= (iov_blocks - io->iov_off); io->iov_off = 0; io->iov_pos++; } } if (io->parent) { ftl_io_advance(io->parent, num_blocks); } } size_t ftl_iovec_num_blocks(struct iovec *iov, size_t iov_cnt) { size_t num_blocks = 0, i = 0; for (; i < iov_cnt; ++i) { num_blocks += iov[i].iov_len / FTL_BLOCK_SIZE; } return num_blocks; } void * ftl_io_iovec_addr(struct ftl_io *io) { assert(io->iov_pos < io->iov_cnt); assert(io->iov_off * FTL_BLOCK_SIZE < ftl_io_iovec(io)[io->iov_pos].iov_len); return (char *)ftl_io_iovec(io)[io->iov_pos].iov_base + io->iov_off * FTL_BLOCK_SIZE; } size_t ftl_io_iovec_len_left(struct ftl_io *io) { struct iovec *iov = ftl_io_iovec(io); return iov[io->iov_pos].iov_len / FTL_BLOCK_SIZE - io->iov_off; } static void ftl_io_init_iovec(struct ftl_io *io, const struct iovec *iov, size_t iov_cnt, size_t iov_off, size_t num_blocks) { size_t offset = 0, num_left; io->iov_pos = 0; io->iov_cnt = 0; io->num_blocks = num_blocks; while (offset < num_blocks) { assert(io->iov_cnt < FTL_IO_MAX_IOVEC && io->iov_cnt < iov_cnt); num_left = spdk_min(iov[io->iov_cnt].iov_len / FTL_BLOCK_SIZE - iov_off, num_blocks); io->iov[io->iov_cnt].iov_base = (char *)iov[io->iov_cnt].iov_base + iov_off * FTL_BLOCK_SIZE; io->iov[io->iov_cnt].iov_len = num_left * FTL_BLOCK_SIZE; offset += num_left; io->iov_cnt++; iov_off = 0; } } void ftl_io_shrink_iovec(struct ftl_io *io, size_t num_blocks) { size_t iov_off = 0, block_off = 0; assert(io->num_blocks >= num_blocks); assert(io->pos == 0 && io->iov_pos == 0 && io->iov_off == 0); for (; iov_off < io->iov_cnt; ++iov_off) { size_t num_iov = io->iov[iov_off].iov_len / FTL_BLOCK_SIZE; size_t num_left = num_blocks - block_off; if (num_iov >= num_left) { io->iov[iov_off].iov_len = num_left * FTL_BLOCK_SIZE; io->iov_cnt = iov_off + 1; io->num_blocks = num_blocks; break; } block_off += num_iov; } } static void ftl_io_init(struct ftl_io *io, struct spdk_ftl_dev *dev, ftl_io_fn fn, void *ctx, int flags, int type) { io->flags |= flags | FTL_IO_INITIALIZED; io->type = type; io->dev = dev; io->lba.single = FTL_LBA_INVALID; io->addr.offset = FTL_ADDR_INVALID; io->cb_fn = fn; io->cb_ctx = ctx; io->trace = ftl_trace_alloc_id(dev); } struct ftl_io * ftl_io_init_internal(const struct ftl_io_init_opts *opts) { struct ftl_io *io = opts->io; struct ftl_io *parent = opts->parent; struct spdk_ftl_dev *dev = opts->dev; const struct iovec *iov; size_t iov_cnt, iov_off; if (!io) { if (parent) { io = ftl_io_alloc_child(parent); } else { io = ftl_io_alloc(ftl_get_io_channel(dev)); } if (!io) { return NULL; } } ftl_io_clear(io); ftl_io_init(io, dev, opts->cb_fn, opts->cb_ctx, opts->flags | FTL_IO_INTERNAL, opts->type); io->batch = opts->batch; io->band = opts->band; io->md = opts->md; io->iov = &io->iov_buf[0]; if (parent) { if (parent->flags & FTL_IO_VECTOR_LBA) { io->lba.vector = parent->lba.vector + parent->pos; } else { io->lba.single = parent->lba.single + parent->pos; } iov = &parent->iov[parent->iov_pos]; iov_cnt = parent->iov_cnt - parent->iov_pos; iov_off = parent->iov_off; } else { iov = &opts->iovs[0]; iov_cnt = opts->iovcnt; iov_off = 0; } /* Some requests (zone resets) do not use iovecs */ if (iov_cnt > 0) { ftl_io_init_iovec(io, iov, iov_cnt, iov_off, opts->num_blocks); } if (opts->flags & FTL_IO_VECTOR_LBA) { io->lba.vector = calloc(io->num_blocks, sizeof(uint64_t)); if (!io->lba.vector) { ftl_io_free(io); return NULL; } } return io; } struct ftl_io * ftl_io_wbuf_init(struct spdk_ftl_dev *dev, struct ftl_addr addr, struct ftl_band *band, struct ftl_batch *batch, ftl_io_fn cb) { struct ftl_io *io; struct ftl_io_init_opts opts = { .dev = dev, .io = NULL, .batch = batch, .band = band, .size = sizeof(struct ftl_io), .flags = 0, .type = FTL_IO_WRITE, .num_blocks = dev->xfer_size, .cb_fn = cb, .iovcnt = dev->xfer_size, .md = batch->metadata, }; memcpy(opts.iovs, batch->iov, sizeof(struct iovec) * dev->xfer_size); io = ftl_io_init_internal(&opts); if (!io) { return NULL; } io->addr = addr; return io; } struct ftl_io * ftl_io_erase_init(struct ftl_band *band, size_t num_blocks, ftl_io_fn cb) { struct ftl_io *io; struct ftl_io_init_opts opts = { .dev = band->dev, .io = NULL, .band = band, .size = sizeof(struct ftl_io), .flags = FTL_IO_PHYSICAL_MODE, .type = FTL_IO_ERASE, .num_blocks = 1, .cb_fn = cb, .iovcnt = 0, .md = NULL, }; io = ftl_io_init_internal(&opts); if (!io) { return NULL; } io->num_blocks = num_blocks; return io; } static void _ftl_user_cb(struct ftl_io *io, void *arg, int status) { io->user_fn(arg, status); } struct ftl_io * ftl_io_user_init(struct spdk_io_channel *_ioch, uint64_t lba, size_t num_blocks, struct iovec *iov, size_t iov_cnt, spdk_ftl_fn cb_fn, void *cb_ctx, int type) { struct ftl_io_channel *ioch = ftl_io_channel_get_ctx(_ioch); struct spdk_ftl_dev *dev = ioch->dev; struct ftl_io *io; io = ftl_io_alloc(_ioch); if (spdk_unlikely(!io)) { return NULL; } ftl_io_init(io, dev, _ftl_user_cb, cb_ctx, 0, type); io->lba.single = lba; io->user_fn = cb_fn; io->iov = iov; io->iov_cnt = iov_cnt; io->num_blocks = num_blocks; ftl_trace_lba_io_init(io->dev, io); return io; } static void _ftl_io_free(struct ftl_io *io) { struct ftl_io_channel *ioch; assert(LIST_EMPTY(&io->children)); if (io->flags & FTL_IO_VECTOR_LBA) { free(io->lba.vector); } if (pthread_spin_destroy(&io->lock)) { SPDK_ERRLOG("pthread_spin_destroy failed\n"); } ioch = ftl_io_channel_get_ctx(io->ioch); spdk_mempool_put(ioch->io_pool, io); } static bool ftl_io_remove_child(struct ftl_io *io) { struct ftl_io *parent = io->parent; bool parent_done; pthread_spin_lock(&parent->lock); LIST_REMOVE(io, child_entry); parent_done = parent->done && LIST_EMPTY(&parent->children); parent->status = parent->status ? : io->status; pthread_spin_unlock(&parent->lock); return parent_done; } void ftl_io_complete(struct ftl_io *io) { struct ftl_io *parent = io->parent; bool complete; io->flags &= ~FTL_IO_INITIALIZED; pthread_spin_lock(&io->lock); complete = LIST_EMPTY(&io->children); io->done = true; pthread_spin_unlock(&io->lock); if (complete) { if (io->cb_fn) { io->cb_fn(io, io->cb_ctx, io->status); } if (parent && ftl_io_remove_child(io)) { ftl_io_complete(parent); } _ftl_io_free(io); } } struct ftl_io * ftl_io_alloc_child(struct ftl_io *parent) { struct ftl_io *io; io = ftl_io_alloc(parent->ioch); if (spdk_unlikely(!io)) { return NULL; } ftl_io_init(io, parent->dev, NULL, NULL, parent->flags, parent->type); io->parent = parent; pthread_spin_lock(&parent->lock); LIST_INSERT_HEAD(&parent->children, io, child_entry); pthread_spin_unlock(&parent->lock); return io; } void ftl_io_fail(struct ftl_io *io, int status) { io->status = status; ftl_io_advance(io, io->num_blocks - io->pos); } void * ftl_io_get_md(const struct ftl_io *io) { if (!io->md) { return NULL; } return (char *)io->md + io->pos * io->dev->md_size; } struct ftl_io * ftl_io_alloc(struct spdk_io_channel *ch) { struct ftl_io *io; struct ftl_io_channel *ioch = ftl_io_channel_get_ctx(ch); io = spdk_mempool_get(ioch->io_pool); if (!io) { return NULL; } memset(io, 0, ioch->elem_size); io->ioch = ch; if (pthread_spin_init(&io->lock, PTHREAD_PROCESS_PRIVATE)) { SPDK_ERRLOG("pthread_spin_init failed\n"); spdk_mempool_put(ioch->io_pool, io); return NULL; } return io; } void ftl_io_reinit(struct ftl_io *io, ftl_io_fn cb, void *ctx, int flags, int type) { ftl_io_clear(io); ftl_io_init(io, io->dev, cb, ctx, flags, type); } void ftl_io_clear(struct ftl_io *io) { ftl_io_reset(io); io->flags = 0; io->batch = NULL; io->band = NULL; } void ftl_io_reset(struct ftl_io *io) { io->req_cnt = io->pos = io->iov_pos = io->iov_off = 0; io->done = false; } void ftl_io_free(struct ftl_io *io) { struct ftl_io *parent; if (!io) { return; } parent = io->parent; if (parent && ftl_io_remove_child(io)) { ftl_io_complete(parent); } _ftl_io_free(io); } void ftl_io_call_foreach_child(struct ftl_io *io, int (*callback)(struct ftl_io *)) { struct ftl_io *child, *tmp; assert(!io->done); /* * If the IO doesn't have any children, it means that it directly describes a request (i.e. * all of the buffers, LBAs, etc. are filled). Otherwise the IO only groups together several * requests and may be partially filled, so the callback needs to be called on all of its * children instead. */ if (LIST_EMPTY(&io->children)) { callback(io); return; } LIST_FOREACH_SAFE(child, &io->children, child_entry, tmp) { int rc = callback(child); if (rc) { assert(rc != -EAGAIN); ftl_io_fail(io, rc); break; } } /* * If all the callbacks were processed or an error occurred, treat this IO as completed. * Multiple calls to ftl_io_call_foreach_child are not supported, resubmissions are supposed * to be handled in the callback. */ ftl_io_complete(io); }