LCOV - code coverage report
Current view: top level - libs/utils/src - pageserver_feedback.rs (source / functions) Coverage Total Hit
Test: b4ae4c4857f9ef3e144e982a35ee23bc84c71983.info Lines: 80.6 % 144 116
Test Date: 2024-10-22 22:13:45 Functions: 14.3 % 35 5

            Line data    Source code
       1              : use std::time::{Duration, SystemTime};
       2              : 
       3              : use bytes::{Buf, BufMut, Bytes, BytesMut};
       4              : use pq_proto::{read_cstr, PG_EPOCH};
       5              : use serde::{Deserialize, Serialize};
       6              : use tracing::{trace, warn};
       7              : 
       8              : use crate::lsn::Lsn;
       9              : 
      10              : /// Feedback pageserver sends to safekeeper and safekeeper resends to compute.
      11              : ///
      12              : /// Serialized in custom flexible key/value format. In replication protocol, it
      13              : /// is marked with NEON_STATUS_UPDATE_TAG_BYTE to differentiate from postgres
      14              : /// Standby status update / Hot standby feedback messages.
      15              : ///
      16              : /// serde Serialize is used only for human readable dump to json (e.g. in
      17              : /// safekeepers debug_dump).
      18            0 : #[derive(Debug, Clone, Copy, PartialEq, Eq, Serialize, Deserialize)]
      19              : pub struct PageserverFeedback {
      20              :     /// Last known size of the timeline. Used to enforce timeline size limit.
      21              :     pub current_timeline_size: u64,
      22              :     /// LSN last received and ingested by the pageserver. Controls backpressure.
      23              :     pub last_received_lsn: Lsn,
      24              :     /// LSN up to which data is persisted by the pageserver to its local disc.
      25              :     /// Controls backpressure.
      26              :     pub disk_consistent_lsn: Lsn,
      27              :     /// LSN up to which data is persisted by the pageserver on s3; safekeepers
      28              :     /// consider WAL before it can be removed.
      29              :     pub remote_consistent_lsn: Lsn,
      30              :     // Serialize with RFC3339 format.
      31              :     #[serde(with = "serde_systemtime")]
      32              :     pub replytime: SystemTime,
      33              :     /// Used to track feedbacks from different shards. Always zero for unsharded tenants.
      34              :     pub shard_number: u32,
      35              : }
      36              : 
      37              : impl PageserverFeedback {
      38            6 :     pub fn empty() -> PageserverFeedback {
      39            6 :         PageserverFeedback {
      40            6 :             current_timeline_size: 0,
      41            6 :             last_received_lsn: Lsn::INVALID,
      42            6 :             remote_consistent_lsn: Lsn::INVALID,
      43            6 :             disk_consistent_lsn: Lsn::INVALID,
      44            6 :             replytime: *PG_EPOCH,
      45            6 :             shard_number: 0,
      46            6 :         }
      47            6 :     }
      48              : 
      49              :     // Serialize PageserverFeedback using custom format
      50              :     // to support protocol extensibility.
      51              :     //
      52              :     // Following layout is used:
      53              :     // char - number of key-value pairs that follow.
      54              :     //
      55              :     // key-value pairs:
      56              :     // null-terminated string - key,
      57              :     // uint32 - value length in bytes
      58              :     // value itself
      59              :     //
      60              :     // TODO: change serialized fields names once all computes migrate to rename.
      61            2 :     pub fn serialize(&self, buf: &mut BytesMut) {
      62            2 :         let buf_ptr = buf.len();
      63            2 :         buf.put_u8(0); // # of keys, will be filled later
      64            2 :         let mut nkeys = 0;
      65            2 : 
      66            2 :         nkeys += 1;
      67            2 :         buf.put_slice(b"current_timeline_size\0");
      68            2 :         buf.put_i32(8);
      69            2 :         buf.put_u64(self.current_timeline_size);
      70            2 : 
      71            2 :         nkeys += 1;
      72            2 :         buf.put_slice(b"ps_writelsn\0");
      73            2 :         buf.put_i32(8);
      74            2 :         buf.put_u64(self.last_received_lsn.0);
      75            2 : 
      76            2 :         nkeys += 1;
      77            2 :         buf.put_slice(b"ps_flushlsn\0");
      78            2 :         buf.put_i32(8);
      79            2 :         buf.put_u64(self.disk_consistent_lsn.0);
      80            2 : 
      81            2 :         nkeys += 1;
      82            2 :         buf.put_slice(b"ps_applylsn\0");
      83            2 :         buf.put_i32(8);
      84            2 :         buf.put_u64(self.remote_consistent_lsn.0);
      85            2 : 
      86            2 :         let timestamp = self
      87            2 :             .replytime
      88            2 :             .duration_since(*PG_EPOCH)
      89            2 :             .expect("failed to serialize pg_replytime earlier than PG_EPOCH")
      90            2 :             .as_micros() as i64;
      91            2 : 
      92            2 :         nkeys += 1;
      93            2 :         buf.put_slice(b"ps_replytime\0");
      94            2 :         buf.put_i32(8);
      95            2 :         buf.put_i64(timestamp);
      96            2 : 
      97            2 :         if self.shard_number > 0 {
      98            0 :             nkeys += 1;
      99            0 :             buf.put_slice(b"shard_number\0");
     100            0 :             buf.put_i32(4);
     101            0 :             buf.put_u32(self.shard_number);
     102            2 :         }
     103              : 
     104            2 :         buf[buf_ptr] = nkeys;
     105            2 :     }
     106              : 
     107              :     // Deserialize PageserverFeedback message
     108              :     // TODO: change serialized fields names once all computes migrate to rename.
     109            2 :     pub fn parse(mut buf: Bytes) -> PageserverFeedback {
     110            2 :         let mut rf = PageserverFeedback::empty();
     111            2 :         let nfields = buf.get_u8();
     112            2 :         for _ in 0..nfields {
     113           11 :             let key = read_cstr(&mut buf).unwrap();
     114           11 :             match key.as_ref() {
     115           11 :                 b"current_timeline_size" => {
     116            2 :                     let len = buf.get_i32();
     117            2 :                     assert_eq!(len, 8);
     118            2 :                     rf.current_timeline_size = buf.get_u64();
     119              :                 }
     120            9 :                 b"ps_writelsn" => {
     121            2 :                     let len = buf.get_i32();
     122            2 :                     assert_eq!(len, 8);
     123            2 :                     rf.last_received_lsn = Lsn(buf.get_u64());
     124              :                 }
     125              :                 b"ps_flushlsn" => {
     126            2 :                     let len = buf.get_i32();
     127            2 :                     assert_eq!(len, 8);
     128            2 :                     rf.disk_consistent_lsn = Lsn(buf.get_u64());
     129              :                 }
     130              :                 b"ps_applylsn" => {
     131            2 :                     let len = buf.get_i32();
     132            2 :                     assert_eq!(len, 8);
     133            2 :                     rf.remote_consistent_lsn = Lsn(buf.get_u64());
     134              :                 }
     135            3 :                 b"ps_replytime" => {
     136            2 :                     let len = buf.get_i32();
     137            2 :                     assert_eq!(len, 8);
     138            2 :                     let raw_time = buf.get_i64();
     139            2 :                     if raw_time > 0 {
     140            2 :                         rf.replytime = *PG_EPOCH + Duration::from_micros(raw_time as u64);
     141            2 :                     } else {
     142            0 :                         rf.replytime = *PG_EPOCH - Duration::from_micros(-raw_time as u64);
     143            0 :                     }
     144              :                 }
     145              :                 b"shard_number" => {
     146            0 :                     let len = buf.get_i32();
     147            0 :                     assert_eq!(len, 4);
     148            0 :                     rf.shard_number = buf.get_u32();
     149              :                 }
     150              :                 _ => {
     151            1 :                     let len = buf.get_i32();
     152            1 :                     warn!(
     153            0 :                         "PageserverFeedback parse. unknown key {} of len {len}. Skip it.",
     154            0 :                         String::from_utf8_lossy(key.as_ref())
     155              :                     );
     156            1 :                     buf.advance(len as usize);
     157              :                 }
     158              :             }
     159              :         }
     160            2 :         trace!("PageserverFeedback parsed is {:?}", rf);
     161            2 :         rf
     162            2 :     }
     163              : }
     164              : 
     165              : mod serde_systemtime {
     166              :     use std::time::SystemTime;
     167              : 
     168              :     use chrono::{DateTime, Utc};
     169              :     use serde::{Deserialize, Deserializer, Serializer};
     170              : 
     171            0 :     pub fn serialize<S>(ts: &SystemTime, serializer: S) -> Result<S::Ok, S::Error>
     172            0 :     where
     173            0 :         S: Serializer,
     174            0 :     {
     175            0 :         let chrono_dt: DateTime<Utc> = (*ts).into();
     176            0 :         serializer.serialize_str(&chrono_dt.to_rfc3339())
     177            0 :     }
     178              : 
     179            0 :     pub fn deserialize<'de, D>(deserializer: D) -> Result<SystemTime, D::Error>
     180            0 :     where
     181            0 :         D: Deserializer<'de>,
     182            0 :     {
     183            0 :         let time: String = Deserialize::deserialize(deserializer)?;
     184            0 :         Ok(DateTime::parse_from_rfc3339(&time)
     185            0 :             .map_err(serde::de::Error::custom)?
     186            0 :             .into())
     187            0 :     }
     188              : }
     189              : 
     190              : #[cfg(test)]
     191              : mod tests {
     192              :     use super::*;
     193              : 
     194              :     #[test]
     195            1 :     fn test_replication_feedback_serialization() {
     196            1 :         let mut rf = PageserverFeedback::empty();
     197            1 :         // Fill rf with some values
     198            1 :         rf.current_timeline_size = 12345678;
     199            1 :         // Set rounded time to be able to compare it with deserialized value,
     200            1 :         // because it is rounded up to microseconds during serialization.
     201            1 :         rf.replytime = *PG_EPOCH + Duration::from_secs(100_000_000);
     202            1 :         let mut data = BytesMut::new();
     203            1 :         rf.serialize(&mut data);
     204            1 : 
     205            1 :         let rf_parsed = PageserverFeedback::parse(data.freeze());
     206            1 :         assert_eq!(rf, rf_parsed);
     207            1 :     }
     208              : 
     209              :     #[test]
     210            1 :     fn test_replication_feedback_unknown_key() {
     211            1 :         let mut rf = PageserverFeedback::empty();
     212            1 :         // Fill rf with some values
     213            1 :         rf.current_timeline_size = 12345678;
     214            1 :         // Set rounded time to be able to compare it with deserialized value,
     215            1 :         // because it is rounded up to microseconds during serialization.
     216            1 :         rf.replytime = *PG_EPOCH + Duration::from_secs(100_000_000);
     217            1 :         let mut data = BytesMut::new();
     218            1 :         rf.serialize(&mut data);
     219            1 : 
     220            1 :         // Add an extra field to the buffer and adjust number of keys
     221            1 :         data[0] += 1;
     222            1 :         data.put_slice(b"new_field_one\0");
     223            1 :         data.put_i32(8);
     224            1 :         data.put_u64(42);
     225            1 : 
     226            1 :         // Parse serialized data and check that new field is not parsed
     227            1 :         let rf_parsed = PageserverFeedback::parse(data.freeze());
     228            1 :         assert_eq!(rf, rf_parsed);
     229            1 :     }
     230              : }
        

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