#include "blockstore.h" void blockstore::enqueue_write(blockstore_operation *op) { // Assign version number bool found = false; if (dirty_db.size() > 0) { auto dirty_it = dirty_db.upper_bound((obj_ver_id){ .oid = op->oid, .version = UINT64_MAX, }); dirty_it--; // segfaults when dirty_db is empty if (dirty_it != dirty_db.end() && dirty_it->first.oid == op->oid) { found = true; op->version = dirty_it->first.version + 1; } } if (!found) { auto clean_it = clean_db.find(op->oid); if (clean_it != clean_db.end()) { op->version = clean_it->second.version + 1; } else { op->version = 1; } } // Immediately add the operation into dirty_db, so subsequent reads could see it #ifdef BLOCKSTORE_DEBUG printf("Write %lu:%lu v%lu\n", op->oid.inode, op->oid.stripe, op->version); #endif dirty_db.emplace((obj_ver_id){ .oid = op->oid, .version = op->version, }, (dirty_entry){ .state = ST_IN_FLIGHT, .flags = 0, .location = 0, .offset = op->offset, .len = op->len, .journal_sector = 0, }); } // First step of the write algorithm: dequeue operation and submit initial write(s) int blockstore::dequeue_write(blockstore_operation *op) { auto dirty_it = dirty_db.find((obj_ver_id){ .oid = op->oid, .version = op->version, }); if (op->len == block_size || op->version == 1) { // Big (redirect) write uint64_t loc = data_alloc->find_free(); if (loc == UINT64_MAX) { // no space if (flusher->is_active()) { // hope that some space will be available after flush op->wait_for = WAIT_FREE; return 0; } op->retval = -ENOSPC; op->callback(op); return 1; } BS_SUBMIT_GET_SQE(sqe, data); dirty_it->second.location = loc << block_order; dirty_it->second.state = ST_D_SUBMITTED; #ifdef BLOCKSTORE_DEBUG printf("Allocate block %lu\n", loc); #endif data_alloc->set(loc, true); int vcnt = 0; if (op->version == 1 && op->len != block_size) { // Zero fill newly allocated object. First write is always a big write // FIXME: Add "no-zero-fill" mode which will just leave random garbage (insecure, but may be useful) if (op->offset > 0) op->iov_zerofill[vcnt++] = (struct iovec){ zero_object, op->offset }; op->iov_zerofill[vcnt++] = (struct iovec){ op->buf, op->len }; if (op->offset+op->len < block_size) op->iov_zerofill[vcnt++] = (struct iovec){ zero_object, block_size - (op->offset + op->len) }; data->iov.iov_len = block_size; } else { vcnt = 1; op->iov_zerofill[0] = (struct iovec){ op->buf, op->len }; data->iov.iov_len = op->len; // to check it in the callback } data->callback = [this, op](ring_data_t *data) { handle_write_event(data, op); }; my_uring_prep_writev( sqe, data_fd, op->iov_zerofill, vcnt, data_offset + (loc << block_order) ); op->pending_ops = 1; op->min_used_journal_sector = op->max_used_journal_sector = 0; // Remember big write as unsynced unsynced_big_writes.push_back((obj_ver_id){ .oid = op->oid, .version = op->version, }); } else { // Small (journaled) write // First check if the journal has sufficient space // FIXME Always two SQEs for now. Although it's possible to send 1 sometimes //two_sqes = (512 - journal.in_sector_pos < sizeof(struct journal_entry_small_write) // ? (journal.len - next_pos < op->len) // : (journal.sector_info[journal.cur_sector].offset + 512 != journal.next_free || // journal.len - next_pos < op->len); blockstore_journal_check_t space_check(this); if (!space_check.check_available(op, 1, sizeof(journal_entry_small_write), op->len)) { return 0; } // There is sufficient space. Get SQE(s) BS_SUBMIT_GET_ONLY_SQE(sqe1); BS_SUBMIT_GET_SQE(sqe2, data2); // Got SQEs. Prepare journal sector write journal_entry_small_write *je = (journal_entry_small_write*) prefill_single_journal_entry(journal, JE_SMALL_WRITE, sizeof(struct journal_entry_small_write)); dirty_it->second.journal_sector = journal.sector_info[journal.cur_sector].offset; journal.used_sectors[journal.sector_info[journal.cur_sector].offset]++; #ifdef BLOCKSTORE_DEBUG printf("journal offset %lu is used by %lu:%lu v%lu\n", dirty_it->second.journal_sector, dirty_it->first.oid.inode, dirty_it->first.oid.stripe, dirty_it->first.version); #endif // Figure out where data will be journal.next_free = (journal.next_free + op->len) <= journal.len ? journal.next_free : 512; je->oid = op->oid; je->version = op->version; je->offset = op->offset; je->len = op->len; je->data_offset = journal.next_free; je->crc32_data = crc32c(0, op->buf, op->len); je->crc32 = je_crc32((journal_entry*)je); journal.crc32_last = je->crc32; auto cb = [this, op](ring_data_t *data) { handle_write_event(data, op); }; prepare_journal_sector_write(journal, sqe1, cb); op->min_used_journal_sector = op->max_used_journal_sector = 1 + journal.cur_sector; // Prepare journal data write if (journal.inmemory) { // Copy data memcpy(journal.buffer + journal.next_free, op->buf, op->len); } data2->iov = (struct iovec){ op->buf, op->len }; data2->callback = cb; my_uring_prep_writev( sqe2, journal.fd, &data2->iov, 1, journal.offset + journal.next_free ); dirty_it->second.location = journal.next_free; dirty_it->second.state = ST_J_SUBMITTED; journal.next_free += op->len; if (journal.next_free >= journal.len) journal.next_free = 512; op->pending_ops = 2; // Remember small write as unsynced unsynced_small_writes.push_back((obj_ver_id){ .oid = op->oid, .version = op->version, }); } return 1; } void blockstore::handle_write_event(ring_data_t *data, blockstore_operation *op) { if (data->res != data->iov.iov_len) { // FIXME: our state becomes corrupted after a write error. maybe do something better than just die throw std::runtime_error( "write operation failed ("+std::to_string(data->res)+" != "+std::to_string(data->iov.iov_len)+ "). in-memory state is corrupted. AAAAAAAaaaaaaaaa!!!111" ); } op->pending_ops--; if (op->pending_ops == 0) { // Release used journal sectors if (op->min_used_journal_sector > 0) { uint64_t s = op->min_used_journal_sector; while (1) { journal.sector_info[s-1].usage_count--; if (s == op->max_used_journal_sector) break; s = 1 + s % journal.sector_count; } op->min_used_journal_sector = op->max_used_journal_sector = 0; } // Switch object state auto & dirty_entry = dirty_db[(obj_ver_id){ .oid = op->oid, .version = op->version, }]; #ifdef BLOCKSTORE_DEBUG printf("Ack write %lu:%lu v%lu = %d\n", op->oid.inode, op->oid.stripe, op->version, dirty_entry.state); #endif if (dirty_entry.state == ST_J_SUBMITTED) { dirty_entry.state = ST_J_WRITTEN; } else if (dirty_entry.state == ST_D_SUBMITTED) { dirty_entry.state = ST_D_WRITTEN; } else if (dirty_entry.state == ST_DEL_SUBMITTED) { dirty_entry.state = ST_DEL_WRITTEN; } // Acknowledge write without sync op->retval = op->len; op->callback(op); } }