187 lines
6.3 KiB
C++
187 lines
6.3 KiB
C++
#include "blockstore_impl.h"
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blockstore_journal_check_t::blockstore_journal_check_t(blockstore_impl_t *bs)
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{
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this->bs = bs;
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sectors_required = 0;
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next_pos = bs->journal.next_free;
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next_sector = bs->journal.cur_sector;
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next_in_pos = bs->journal.in_sector_pos;
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right_dir = next_pos >= bs->journal.used_start;
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}
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// Check if we can write <required> entries of <size> bytes and <data_after> data bytes after them to the journal
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int blockstore_journal_check_t::check_available(blockstore_op_t *op, int required, int size, int data_after)
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{
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while (1)
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{
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int fits = (bs->journal.block_size - next_in_pos) / size;
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if (fits > 0)
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{
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required -= fits;
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next_in_pos += fits * size;
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sectors_required++;
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}
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else if (bs->journal.sector_info[next_sector].dirty)
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{
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// sectors_required is more like "sectors to write"
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sectors_required++;
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}
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if (required <= 0)
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{
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break;
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}
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next_pos = next_pos + bs->journal.block_size;
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if (next_pos >= bs->journal.len)
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{
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next_pos = bs->journal.block_size;
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right_dir = false;
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}
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next_in_pos = 0;
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if (bs->journal.sector_info[next_sector].usage_count > 0 ||
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bs->journal.sector_info[next_sector].dirty)
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{
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next_sector = ((next_sector + 1) % bs->journal.sector_count);
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}
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if (bs->journal.sector_info[next_sector].usage_count > 0 ||
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bs->journal.sector_info[next_sector].dirty)
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{
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// No memory buffer available. Wait for it.
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#ifdef BLOCKSTORE_DEBUG
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printf("next journal buffer %d is still dirty=%d used=%d\n", next_sector,
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bs->journal.sector_info[next_sector].dirty, bs->journal.sector_info[next_sector].usage_count);
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#endif
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PRIV(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 (data_after > 0)
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{
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next_pos = next_pos + data_after;
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if (next_pos > bs->journal.len)
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{
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next_pos = bs->journal.block_size + data_after;
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right_dir = false;
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}
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}
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if (!right_dir && next_pos >= bs->journal.used_start-bs->journal.block_size)
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{
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// No space in the journal. Wait until used_start changes.
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printf(
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"Ran out of journal space (free space: %lu bytes)\n",
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(bs->journal.next_free >= bs->journal.used_start
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? bs->journal.len-bs->journal.block_size - (bs->journal.next_free-bs->journal.used_start)
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: bs->journal.used_start - bs->journal.next_free)
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);
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PRIV(op)->wait_for = WAIT_JOURNAL;
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bs->flusher->force_start();
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PRIV(op)->wait_detail = bs->journal.used_start;
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return 0;
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}
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return 1;
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}
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journal_entry* prefill_single_journal_entry(journal_t & journal, uint16_t type, uint32_t size)
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{
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if (journal.block_size - journal.in_sector_pos < size)
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{
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assert(!journal.sector_info[journal.cur_sector].dirty);
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// Move to the next journal sector
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if (journal.sector_info[journal.cur_sector].usage_count > 0)
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{
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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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}
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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+journal.block_size) < journal.len ? journal.next_free + journal.block_size : journal.block_size;
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memset(journal.inmemory
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? journal.buffer + journal.sector_info[journal.cur_sector].offset
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: journal.sector_buf + journal.block_size*journal.cur_sector, 0, journal.block_size);
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}
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journal_entry *je = (struct journal_entry*)(
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(journal.inmemory
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? journal.buffer + journal.sector_info[journal.cur_sector].offset
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: journal.sector_buf + journal.block_size*journal.cur_sector) + journal.in_sector_pos
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);
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journal.in_sector_pos += size;
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je->magic = JOURNAL_MAGIC;
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je->type = type;
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je->size = size;
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je->crc32_prev = journal.crc32_last;
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journal.sector_info[journal.cur_sector].dirty = true;
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return je;
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}
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void prepare_journal_sector_write(journal_t & journal, int cur_sector, io_uring_sqe *sqe, std::function<void(ring_data_t*)> cb)
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{
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journal.sector_info[cur_sector].dirty = false;
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journal.sector_info[cur_sector].usage_count++;
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ring_data_t *data = ((ring_data_t*)sqe->user_data);
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data->iov = (struct iovec){
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(journal.inmemory
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? journal.buffer + journal.sector_info[cur_sector].offset
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: journal.sector_buf + journal.block_size*cur_sector),
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journal.block_size
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};
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data->callback = cb;
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my_uring_prep_writev(
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sqe, journal.fd, &data->iov, 1, journal.offset + journal.sector_info[cur_sector].offset
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);
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}
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journal_t::~journal_t()
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{
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if (sector_buf)
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free(sector_buf);
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if (sector_info)
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free(sector_info);
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if (buffer)
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free(buffer);
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sector_buf = NULL;
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sector_info = NULL;
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buffer = NULL;
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}
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bool journal_t::trim()
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{
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auto journal_used_it = used_sectors.lower_bound(used_start);
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#ifdef BLOCKSTORE_DEBUG
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printf(
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"Trimming journal (used_start=%08lx, next_free=%08lx, first_used=%08lx, usage_count=%08lx)\n",
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used_start, next_free,
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journal_used_it == used_sectors.end() ? 0 : journal_used_it->first,
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journal_used_it == used_sectors.end() ? 0 : journal_used_it->second
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);
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#endif
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if (journal_used_it == used_sectors.end())
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{
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// Journal is cleared to its end, restart from the beginning
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journal_used_it = used_sectors.begin();
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if (journal_used_it == used_sectors.end())
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{
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// Journal is empty
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used_start = next_free;
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}
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else
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{
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used_start = journal_used_it->first;
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// next_free does not need updating here
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}
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}
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else if (journal_used_it->first > used_start)
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{
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// Journal is cleared up to <journal_used_it>
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used_start = journal_used_it->first;
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}
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else
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{
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// Can't trim journal
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return false;
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}
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#ifdef BLOCKSTORE_DEBUG
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printf("Journal trimmed to %08lx (next_free=%08lx)\n", used_start, next_free);
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#endif
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return true;
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}
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