LCOV - code coverage report
Current view: top level - libs/tenant_size_model/src - lib.rs (source / functions) Coverage Total Hit
Test: 3eba1babe267649f8cebefc91c236589db030548.info Lines: 33.3 % 3 1
Test Date: 2024-11-22 12:36:12 Functions: 11.1 % 27 3

            Line data    Source code
       1              : //! Synthetic size calculation
       2              : #![deny(unsafe_code)]
       3              : #![deny(clippy::undocumented_unsafe_blocks)]
       4              : 
       5              : mod calculation;
       6              : pub mod svg;
       7              : 
       8              : /// StorageModel is the input to the synthetic size calculation.
       9              : ///
      10              : /// It represents a tree of timelines, with just the information that's needed
      11              : /// for the calculation. This doesn't track timeline names or where each timeline
      12              : /// begins and ends, for example. Instead, it consists of "points of interest"
      13              : /// on the timelines. A point of interest could be the timeline start or end point,
      14              : /// the oldest point on a timeline that needs to be retained because of PITR
      15              : /// cutoff, or snapshot points named by the user. For each such point, and the
      16              : /// edge connecting the points (implicit in Segment), we store information about
      17              : /// whether we need to be able to recover to the point, and if known, the logical
      18              : /// size at the point.
      19              : ///
      20              : /// The segments must form a well-formed tree, with no loops.
      21              : #[derive(serde::Serialize)]
      22              : pub struct StorageModel {
      23              :     pub segments: Vec<Segment>,
      24              : }
      25              : 
      26              : /// Segment represents one point in the tree of branches, *and* the edge that leads
      27              : /// to it (if any). We don't need separate structs for points and edges, because each
      28              : /// point can have only one parent.
      29              : ///
      30              : /// When 'needed' is true, it means that we need to be able to reconstruct
      31              : /// any version between 'parent.lsn' and 'lsn'. If you want to represent that only
      32              : /// a single point is needed, create two Segments with the same lsn, and mark only
      33              : /// the child as needed.
      34              : ///
      35          140 : #[derive(Clone, Debug, Eq, PartialEq, serde::Serialize, serde::Deserialize)]
      36              : pub struct Segment {
      37              :     /// Previous segment index into ['Storage::segments`], if any.
      38              :     pub parent: Option<usize>,
      39              : 
      40              :     /// LSN at this point
      41              :     pub lsn: u64,
      42              : 
      43              :     /// Logical size at this node, if known.
      44              :     pub size: Option<u64>,
      45              : 
      46              :     /// If true, the segment from parent to this node is needed by `retention_period`
      47              :     pub needed: bool,
      48              : }
      49              : 
      50              : /// Result of synthetic size calculation. Returned by StorageModel::calculate()
      51              : pub struct SizeResult {
      52              :     pub total_size: u64,
      53              : 
      54              :     // This has same length as the StorageModel::segments vector in the input.
      55              :     // Each entry in this array corresponds to the entry with same index in
      56              :     // StorageModel::segments.
      57              :     pub segments: Vec<SegmentSizeResult>,
      58              : }
      59              : 
      60            0 : #[derive(Clone, Debug, Eq, PartialEq, serde::Serialize, serde::Deserialize)]
      61              : pub struct SegmentSizeResult {
      62              :     pub method: SegmentMethod,
      63              :     // calculated size of this subtree, using this method
      64              :     pub accum_size: u64,
      65              : }
      66              : 
      67              : /// Different methods to retain history from a particular state
      68            0 : #[derive(Clone, Copy, Debug, Eq, PartialEq, serde::Serialize, serde::Deserialize)]
      69              : pub enum SegmentMethod {
      70              :     SnapshotHere, // A logical snapshot is needed after this segment
      71              :     Wal,          // Keep WAL leading up to this node
      72              :     Skipped,
      73              : }
        

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