forked from vitalif/vitastor
Send STABLE entry to the journal
parent
890335bff6
commit
69581e6d0c
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@ -87,6 +87,7 @@ int blockstore::dequeue_read(blockstore_operation *read_op)
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read_op->callback(read_op);
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read_op->callback(read_op);
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return 1;
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return 1;
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}
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}
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// FIXME track fulfilled and stop when it is equal to read_op->len
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uint64_t fulfilled = 0;
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uint64_t fulfilled = 0;
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if (dirty_found)
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if (dirty_found)
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{
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{
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@ -36,7 +36,63 @@ int blockstore::dequeue_stable(blockstore_operation *op)
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op->callback(op);
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op->callback(op);
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return 1;
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return 1;
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}
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}
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return 0;
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// FIXME: Try to deduplicate journal entry submission code...
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// Check journal space
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uint64_t next_pos = journal.next_free;
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if (512 - journal.in_sector_pos < sizeof(struct journal_entry_stable))
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{
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next_pos = (next_pos+512) < journal.len ? next_pos+512 : 512;
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// Also check if we have an unused memory buffer for the journal sector
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if (journal.sector_info[((journal.cur_sector + 1) % journal.sector_count)].usage_count > 0)
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{
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// No memory buffer available. Wait for it.
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op->wait_for = WAIT_JOURNAL_BUFFER;
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return 0;
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}
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}
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if (next_pos >= journal.used_start)
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{
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// No space in the journal. Wait for it.
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op->wait_for = WAIT_JOURNAL;
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op->wait_detail = next_pos;
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return 0;
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}
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// There is sufficient space. Get SQE
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BS_SUBMIT_GET_SQE(sqe, data);
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// Got SQE. Prepare journal sector write
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if (512 - journal.in_sector_pos < sizeof(struct journal_entry_stable))
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{
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// Move to the next journal sector
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// Also select next sector buffer in memory
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journal.cur_sector = ((journal.cur_sector + 1) % journal.sector_count);
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journal.sector_info[journal.cur_sector].offset = journal.next_free;
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journal.in_sector_pos = 0;
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journal.next_free = (journal.next_free+512) < journal.len ? journal.next_free + 512 : 512;
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memset(journal.sector_buf + 512*journal.cur_sector, 0, 512);
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}
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journal_entry_stable *je = (journal_entry_stable*)(
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journal.sector_buf + 512*journal.cur_sector + journal.in_sector_pos
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);
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*je = {
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.crc32 = 0,
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.magic = JOURNAL_MAGIC,
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.type = JE_STABLE,
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.size = sizeof(struct journal_entry_stable),
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.crc32_prev = journal.crc32_last,
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.oid = op->oid,
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.version = op->version,
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};
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je->crc32 = je_crc32((journal_entry*)je);
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journal.crc32_last = je->crc32;
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data->iov = (struct iovec){ journal.sector_buf + 512*journal.cur_sector, 512 };
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data->op = op;
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io_uring_prep_writev(
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sqe, journal.fd, &data->iov, 1, journal.offset + journal.sector_info[journal.cur_sector].offset
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);
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journal.sector_info[journal.cur_sector].usage_count++;
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op->pending_ops = 1;
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op->min_used_journal_sector = op->max_used_journal_sector = 1 + journal.cur_sector;
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return 1;
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}
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}
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void blockstore::handle_stable_event(ring_data_t *data, blockstore_operation *op)
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void blockstore::handle_stable_event(ring_data_t *data, blockstore_operation *op)
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@ -50,6 +106,32 @@ void blockstore::handle_stable_event(ring_data_t *data, blockstore_operation *op
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op->pending_ops--;
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op->pending_ops--;
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if (op->pending_ops == 0)
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if (op->pending_ops == 0)
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{
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{
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// Mark dirty_db entry as stable
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auto dirty_it = dirty_db.find((obj_ver_id){
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.oid = op->oid,
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.version = op->version,
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});
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if (dirty_it->second.state == ST_J_SYNCED)
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{
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dirty_it->second.state = ST_J_STABLE;
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// Copy data from the journal to the data device
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// -> increase version on the metadata device
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// -> advance object_db entry's version and clear previous journal entries
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// This makes 1 4K small write look like:
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// 512b+4K (journal) + sync + 512b (journal) + sync + 512b (metadata) + 4K (data) + sync.
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// WA = 2.375. It's not the best, SSD FTL-like redirect-write with defragmentation
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// could probably be lower even with defragmentation. But it's fixed and it's still
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// better than in Ceph. :)
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}
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else if (dirty_it->second.state == ST_D_META_SYNCED)
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{
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dirty_it->second.state = ST_D_STABLE;
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// Copy metadata from the journal to the metadata device
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// -> move dirty_db entry to object_db and clear previous journal entries
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// This makes 1 128K big write look like:
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// 128K (data) + sync + 512b (journal) + sync + 512b (journal) + sync + 512b (metadata) + sync.
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// WA = 1.012. Very good :)
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}
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}
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}
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}
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}
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@ -98,7 +98,6 @@ int blockstore::dequeue_write(blockstore_operation *op)
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return 0;
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return 0;
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}
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}
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// There is sufficient space. Get SQE(s)
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// There is sufficient space. Get SQE(s)
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unsigned prev_sqe_pos = ringloop->ring->sq.sqe_tail;
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BS_SUBMIT_GET_SQE(sqe1, data1);
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BS_SUBMIT_GET_SQE(sqe1, data1);
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BS_SUBMIT_GET_SQE(sqe2, data2);
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BS_SUBMIT_GET_SQE(sqe2, data2);
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// Got SQEs. Prepare journal sector write
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// Got SQEs. Prepare journal sector write
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@ -133,6 +132,7 @@ int blockstore::dequeue_write(blockstore_operation *op)
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io_uring_prep_writev(
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io_uring_prep_writev(
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sqe1, journal.fd, &data1->iov, 1, journal.offset + journal.sector_info[journal.cur_sector].offset
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sqe1, journal.fd, &data1->iov, 1, journal.offset + journal.sector_info[journal.cur_sector].offset
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);
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);
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journal.sector_info[journal.cur_sector].usage_count++;
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// Prepare journal data write
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// Prepare journal data write
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journal.next_free = (journal.next_free + op->len) < journal.len ? journal.next_free + op->len : 512;
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journal.next_free = (journal.next_free + op->len) < journal.len ? journal.next_free + op->len : 512;
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data2->iov = (struct iovec){ op->buf, op->len };
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data2->iov = (struct iovec){ op->buf, op->len };
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@ -142,9 +142,8 @@ int blockstore::dequeue_write(blockstore_operation *op)
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);
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);
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dirty_it->second.location = journal.next_free;
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dirty_it->second.location = journal.next_free;
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dirty_it->second.state = ST_J_SUBMITTED;
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dirty_it->second.state = ST_J_SUBMITTED;
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// Move journal.next_free and save last write for current sector
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// Move journal.next_free
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journal.next_free += op->len;
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journal.next_free += op->len;
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journal.sector_info[journal.cur_sector].usage_count++;
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op->pending_ops = 2;
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op->pending_ops = 2;
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op->min_used_journal_sector = op->max_used_journal_sector = 1 + journal.cur_sector;
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op->min_used_journal_sector = op->max_used_journal_sector = 1 + journal.cur_sector;
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}
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}
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