LCOV - code coverage report
Current view: top level - safekeeper/tests/walproposer_sim - walproposer_disk.rs (source / functions) Coverage Total Hit
Test: b4ae4c4857f9ef3e144e982a35ee23bc84c71983.info Lines: 88.4 % 216 191
Test Date: 2024-10-22 22:13:45 Functions: 100.0 % 45 45

            Line data    Source code
       1              : use std::{ffi::CString, sync::Arc};
       2              : 
       3              : use byteorder::{LittleEndian, WriteBytesExt};
       4              : use crc32c::crc32c_append;
       5              : use parking_lot::{Mutex, MutexGuard};
       6              : use postgres_ffi::{
       7              :     pg_constants::{
       8              :         RM_LOGICALMSG_ID, XLOG_LOGICAL_MESSAGE, XLP_LONG_HEADER, XLR_BLOCK_ID_DATA_LONG,
       9              :         XLR_BLOCK_ID_DATA_SHORT,
      10              :     },
      11              :     v16::{
      12              :         wal_craft_test_export::{XLogLongPageHeaderData, XLogPageHeaderData, XLOG_PAGE_MAGIC},
      13              :         xlog_utils::{
      14              :             XLogSegNoOffsetToRecPtr, XlLogicalMessage, XLOG_RECORD_CRC_OFFS,
      15              :             XLOG_SIZE_OF_XLOG_LONG_PHD, XLOG_SIZE_OF_XLOG_RECORD, XLOG_SIZE_OF_XLOG_SHORT_PHD,
      16              :             XLP_FIRST_IS_CONTRECORD,
      17              :         },
      18              :         XLogRecord,
      19              :     },
      20              :     WAL_SEGMENT_SIZE, XLOG_BLCKSZ,
      21              : };
      22              : use utils::lsn::Lsn;
      23              : 
      24              : use super::block_storage::BlockStorage;
      25              : 
      26              : /// Simulation implementation of walproposer WAL storage.
      27              : pub struct DiskWalProposer {
      28              :     state: Mutex<State>,
      29              : }
      30              : 
      31              : impl DiskWalProposer {
      32         9370 :     pub fn new() -> Arc<DiskWalProposer> {
      33         9370 :         Arc::new(DiskWalProposer {
      34         9370 :             state: Mutex::new(State {
      35         9370 :                 internal_available_lsn: Lsn(0),
      36         9370 :                 prev_lsn: Lsn(0),
      37         9370 :                 disk: BlockStorage::new(),
      38         9370 :             }),
      39         9370 :         })
      40         9370 :     }
      41              : 
      42        18591 :     pub fn lock(&self) -> MutexGuard<State> {
      43        18591 :         self.state.lock()
      44        18591 :     }
      45              : }
      46              : 
      47              : pub struct State {
      48              :     // flush_lsn
      49              :     internal_available_lsn: Lsn,
      50              :     // needed for WAL generation
      51              :     prev_lsn: Lsn,
      52              :     // actual WAL storage
      53              :     disk: BlockStorage,
      54              : }
      55              : 
      56              : impl State {
      57         4353 :     pub fn read(&self, pos: u64, buf: &mut [u8]) {
      58         4353 :         self.disk.read(pos, buf);
      59         4353 :         // TODO: fail on reading uninitialized data
      60         4353 :     }
      61              : 
      62        47108 :     pub fn write(&mut self, pos: u64, buf: &[u8]) {
      63        47108 :         self.disk.write(pos, buf);
      64        47108 :     }
      65              : 
      66              :     /// Update the internal available LSN to the given value.
      67          367 :     pub fn reset_to(&mut self, lsn: Lsn) {
      68          367 :         self.internal_available_lsn = lsn;
      69          367 :     }
      70              : 
      71              :     /// Get current LSN.
      72         1964 :     pub fn flush_rec_ptr(&self) -> Lsn {
      73         1964 :         self.internal_available_lsn
      74         1964 :     }
      75              : 
      76              :     /// Generate a new WAL record at the current LSN.
      77        11679 :     pub fn insert_logical_message(&mut self, prefix: &str, msg: &[u8]) -> anyhow::Result<()> {
      78        11679 :         let prefix_cstr = CString::new(prefix)?;
      79        11679 :         let prefix_bytes = prefix_cstr.as_bytes_with_nul();
      80        11679 : 
      81        11679 :         let lm = XlLogicalMessage {
      82        11679 :             db_id: 0,
      83        11679 :             transactional: 0,
      84        11679 :             prefix_size: prefix_bytes.len() as ::std::os::raw::c_ulong,
      85        11679 :             message_size: msg.len() as ::std::os::raw::c_ulong,
      86        11679 :         };
      87        11679 : 
      88        11679 :         let record_bytes = lm.encode();
      89        11679 :         let rdatas: Vec<&[u8]> = vec![&record_bytes, prefix_bytes, msg];
      90        11679 :         insert_wal_record(self, rdatas, RM_LOGICALMSG_ID, XLOG_LOGICAL_MESSAGE)
      91        11679 :     }
      92              : }
      93              : 
      94        11679 : fn insert_wal_record(
      95        11679 :     state: &mut State,
      96        11679 :     rdatas: Vec<&[u8]>,
      97        11679 :     rmid: u8,
      98        11679 :     info: u8,
      99        11679 : ) -> anyhow::Result<()> {
     100        11679 :     // bytes right after the header, in the same rdata block
     101        11679 :     let mut scratch = Vec::new();
     102        35037 :     let mainrdata_len: usize = rdatas.iter().map(|rdata| rdata.len()).sum();
     103        11679 : 
     104        11679 :     if mainrdata_len > 0 {
     105        11679 :         if mainrdata_len > 255 {
     106            0 :             scratch.push(XLR_BLOCK_ID_DATA_LONG);
     107            0 :             // TODO: verify endiness
     108            0 :             let _ = scratch.write_u32::<LittleEndian>(mainrdata_len as u32);
     109        11679 :         } else {
     110        11679 :             scratch.push(XLR_BLOCK_ID_DATA_SHORT);
     111        11679 :             scratch.push(mainrdata_len as u8);
     112        11679 :         }
     113            0 :     }
     114              : 
     115        11679 :     let total_len: u32 = (XLOG_SIZE_OF_XLOG_RECORD + scratch.len() + mainrdata_len) as u32;
     116        11679 :     let size = maxalign(total_len);
     117        11679 :     assert!(size as usize > XLOG_SIZE_OF_XLOG_RECORD);
     118              : 
     119        11679 :     let start_bytepos = recptr_to_bytepos(state.internal_available_lsn);
     120        11679 :     let end_bytepos = start_bytepos + size as u64;
     121        11679 : 
     122        11679 :     let start_recptr = bytepos_to_recptr(start_bytepos);
     123        11679 :     let end_recptr = bytepos_to_recptr(end_bytepos);
     124        11679 : 
     125        11679 :     assert!(recptr_to_bytepos(start_recptr) == start_bytepos);
     126        11679 :     assert!(recptr_to_bytepos(end_recptr) == end_bytepos);
     127              : 
     128        11679 :     let mut crc = crc32c_append(0, &scratch);
     129        46716 :     for rdata in &rdatas {
     130        35037 :         crc = crc32c_append(crc, rdata);
     131        35037 :     }
     132              : 
     133        11679 :     let mut header = XLogRecord {
     134        11679 :         xl_tot_len: total_len,
     135        11679 :         xl_xid: 0,
     136        11679 :         xl_prev: state.prev_lsn.0,
     137        11679 :         xl_info: info,
     138        11679 :         xl_rmid: rmid,
     139        11679 :         __bindgen_padding_0: [0u8; 2usize],
     140        11679 :         xl_crc: crc,
     141        11679 :     };
     142              : 
     143              :     // now we have the header and can finish the crc
     144        11679 :     let header_bytes = header.encode()?;
     145        11679 :     let crc = crc32c_append(crc, &header_bytes[0..XLOG_RECORD_CRC_OFFS]);
     146        11679 :     header.xl_crc = crc;
     147              : 
     148        11679 :     let mut header_bytes = header.encode()?.to_vec();
     149        11679 :     assert!(header_bytes.len() == XLOG_SIZE_OF_XLOG_RECORD);
     150              : 
     151        11679 :     header_bytes.extend_from_slice(&scratch);
     152        11679 : 
     153        11679 :     // finish rdatas
     154        11679 :     let mut rdatas = rdatas;
     155        11679 :     rdatas.insert(0, &header_bytes);
     156        11679 : 
     157        11679 :     write_walrecord_to_disk(state, total_len as u64, rdatas, start_recptr, end_recptr)?;
     158              : 
     159        11679 :     state.internal_available_lsn = end_recptr;
     160        11679 :     state.prev_lsn = start_recptr;
     161        11679 :     Ok(())
     162        11679 : }
     163              : 
     164        11679 : fn write_walrecord_to_disk(
     165        11679 :     state: &mut State,
     166        11679 :     total_len: u64,
     167        11679 :     rdatas: Vec<&[u8]>,
     168        11679 :     start: Lsn,
     169        11679 :     end: Lsn,
     170        11679 : ) -> anyhow::Result<()> {
     171        11679 :     let mut curr_ptr = start;
     172        11679 :     let mut freespace = insert_freespace(curr_ptr);
     173        11679 :     let mut written: usize = 0;
     174        11679 : 
     175        11679 :     assert!(freespace >= size_of::<u32>());
     176              : 
     177        58395 :     for mut rdata in rdatas {
     178        46798 :         while rdata.len() >= freespace {
     179           82 :             assert!(
     180           82 :                 curr_ptr.segment_offset(WAL_SEGMENT_SIZE) >= XLOG_SIZE_OF_XLOG_SHORT_PHD
     181            0 :                     || freespace == 0
     182              :             );
     183              : 
     184           82 :             state.write(curr_ptr.0, &rdata[..freespace]);
     185           82 :             rdata = &rdata[freespace..];
     186           82 :             written += freespace;
     187           82 :             curr_ptr = Lsn(curr_ptr.0 + freespace as u64);
     188           82 : 
     189           82 :             let mut new_page = XLogPageHeaderData {
     190           82 :                 xlp_magic: XLOG_PAGE_MAGIC as u16,
     191           82 :                 xlp_info: XLP_BKP_REMOVABLE,
     192           82 :                 xlp_tli: 1,
     193           82 :                 xlp_pageaddr: curr_ptr.0,
     194           82 :                 xlp_rem_len: (total_len - written as u64) as u32,
     195           82 :                 ..Default::default() // Put 0 in padding fields.
     196           82 :             };
     197           82 :             if new_page.xlp_rem_len > 0 {
     198           73 :                 new_page.xlp_info |= XLP_FIRST_IS_CONTRECORD;
     199           73 :             }
     200              : 
     201           82 :             if curr_ptr.segment_offset(WAL_SEGMENT_SIZE) == 0 {
     202            0 :                 new_page.xlp_info |= XLP_LONG_HEADER;
     203            0 :                 let long_page = XLogLongPageHeaderData {
     204            0 :                     std: new_page,
     205            0 :                     xlp_sysid: 0,
     206            0 :                     xlp_seg_size: WAL_SEGMENT_SIZE as u32,
     207            0 :                     xlp_xlog_blcksz: XLOG_BLCKSZ as u32,
     208            0 :                 };
     209            0 :                 let header_bytes = long_page.encode()?;
     210            0 :                 assert!(header_bytes.len() == XLOG_SIZE_OF_XLOG_LONG_PHD);
     211            0 :                 state.write(curr_ptr.0, &header_bytes);
     212            0 :                 curr_ptr = Lsn(curr_ptr.0 + header_bytes.len() as u64);
     213              :             } else {
     214           82 :                 let header_bytes = new_page.encode()?;
     215           82 :                 assert!(header_bytes.len() == XLOG_SIZE_OF_XLOG_SHORT_PHD);
     216           82 :                 state.write(curr_ptr.0, &header_bytes);
     217           82 :                 curr_ptr = Lsn(curr_ptr.0 + header_bytes.len() as u64);
     218              :             }
     219           82 :             freespace = insert_freespace(curr_ptr);
     220              :         }
     221              : 
     222        46716 :         assert!(
     223        46716 :             curr_ptr.segment_offset(WAL_SEGMENT_SIZE) >= XLOG_SIZE_OF_XLOG_SHORT_PHD
     224            0 :                 || rdata.is_empty()
     225              :         );
     226        46716 :         state.write(curr_ptr.0, rdata);
     227        46716 :         curr_ptr = Lsn(curr_ptr.0 + rdata.len() as u64);
     228        46716 :         written += rdata.len();
     229        46716 :         freespace -= rdata.len();
     230              :     }
     231              : 
     232        11679 :     assert!(written == total_len as usize);
     233        11679 :     curr_ptr.0 = maxalign(curr_ptr.0);
     234        11679 :     assert!(curr_ptr == end);
     235        11679 :     Ok(())
     236        11679 : }
     237              : 
     238        23358 : fn maxalign<T>(size: T) -> T
     239        23358 : where
     240        23358 :     T: std::ops::BitAnd<Output = T>
     241        23358 :         + std::ops::Add<Output = T>
     242        23358 :         + std::ops::Not<Output = T>
     243        23358 :         + From<u8>,
     244        23358 : {
     245        23358 :     (size + T::from(7)) & !T::from(7)
     246        23358 : }
     247              : 
     248        11761 : fn insert_freespace(ptr: Lsn) -> usize {
     249        11761 :     if ptr.block_offset() == 0 {
     250            0 :         0
     251              :     } else {
     252        11761 :         (XLOG_BLCKSZ as u64 - ptr.block_offset()) as usize
     253              :     }
     254        11761 : }
     255              : 
     256              : const XLP_BKP_REMOVABLE: u16 = 0x0004;
     257              : const USABLE_BYTES_IN_PAGE: u64 = (XLOG_BLCKSZ - XLOG_SIZE_OF_XLOG_SHORT_PHD) as u64;
     258              : const USABLE_BYTES_IN_SEGMENT: u64 = ((WAL_SEGMENT_SIZE / XLOG_BLCKSZ) as u64
     259              :     * USABLE_BYTES_IN_PAGE)
     260              :     - (XLOG_SIZE_OF_XLOG_RECORD - XLOG_SIZE_OF_XLOG_SHORT_PHD) as u64;
     261              : 
     262        23358 : fn bytepos_to_recptr(bytepos: u64) -> Lsn {
     263        23358 :     let fullsegs = bytepos / USABLE_BYTES_IN_SEGMENT;
     264        23358 :     let mut bytesleft = bytepos % USABLE_BYTES_IN_SEGMENT;
     265              : 
     266        23358 :     let seg_offset = if bytesleft < (XLOG_BLCKSZ - XLOG_SIZE_OF_XLOG_SHORT_PHD) as u64 {
     267              :         // fits on first page of segment
     268            0 :         bytesleft + XLOG_SIZE_OF_XLOG_SHORT_PHD as u64
     269              :     } else {
     270              :         // account for the first page on segment with long header
     271        23358 :         bytesleft -= (XLOG_BLCKSZ - XLOG_SIZE_OF_XLOG_SHORT_PHD) as u64;
     272        23358 :         let fullpages = bytesleft / USABLE_BYTES_IN_PAGE;
     273        23358 :         bytesleft %= USABLE_BYTES_IN_PAGE;
     274        23358 : 
     275        23358 :         XLOG_BLCKSZ as u64
     276        23358 :             + fullpages * XLOG_BLCKSZ as u64
     277        23358 :             + bytesleft
     278        23358 :             + XLOG_SIZE_OF_XLOG_SHORT_PHD as u64
     279              :     };
     280              : 
     281        23358 :     Lsn(XLogSegNoOffsetToRecPtr(
     282        23358 :         fullsegs,
     283        23358 :         seg_offset as u32,
     284        23358 :         WAL_SEGMENT_SIZE,
     285        23358 :     ))
     286        23358 : }
     287              : 
     288        35037 : fn recptr_to_bytepos(ptr: Lsn) -> u64 {
     289        35037 :     let fullsegs = ptr.segment_number(WAL_SEGMENT_SIZE);
     290        35037 :     let offset = ptr.segment_offset(WAL_SEGMENT_SIZE) as u64;
     291        35037 : 
     292        35037 :     let fullpages = offset / XLOG_BLCKSZ as u64;
     293        35037 :     let offset = offset % XLOG_BLCKSZ as u64;
     294        35037 : 
     295        35037 :     if fullpages == 0 {
     296            0 :         fullsegs * USABLE_BYTES_IN_SEGMENT
     297            0 :             + if offset > 0 {
     298            0 :                 assert!(offset >= XLOG_SIZE_OF_XLOG_SHORT_PHD as u64);
     299            0 :                 offset - XLOG_SIZE_OF_XLOG_SHORT_PHD as u64
     300              :             } else {
     301            0 :                 0
     302              :             }
     303              :     } else {
     304        35037 :         fullsegs * USABLE_BYTES_IN_SEGMENT
     305        35037 :             + (XLOG_BLCKSZ - XLOG_SIZE_OF_XLOG_SHORT_PHD) as u64
     306        35037 :             + (fullpages - 1) * USABLE_BYTES_IN_PAGE
     307        35037 :             + if offset > 0 {
     308        35037 :                 assert!(offset >= XLOG_SIZE_OF_XLOG_SHORT_PHD as u64);
     309        35037 :                 offset - XLOG_SIZE_OF_XLOG_SHORT_PHD as u64
     310              :             } else {
     311            0 :                 0
     312              :             }
     313              :     }
     314        35037 : }
        

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