backbeat_cli/model.rs
1// Copyright (c) 2026 Cameron Bytheway
2// SPDX-License-Identifier: MIT
3
4//! Shared dump-loading model behind both output formats.
5//!
6//! A dump is decoded once into a [`Loaded`] — its `instance_id`, schema registry, intern table, and
7//! the flat list of records recovered from every shard (sorted into the global
8//! `(ts_nanos, shard_id, local_seq)` order). The Parquet ([`crate::convert`]) and Chrome-trace
9//! ([`crate::trace`]) writers both build on `&[Loaded]`, so multi-dump merge is uniform: load each
10//! input (in parallel), then hand the slice to the writer.
11
12use anyhow::{Context, Result};
13use backbeat::{
14 record::RecordView,
15 ring::walk,
16 wire::{DumpReader, OwnedSchema},
17};
18use bytes::Bytes;
19use rayon::prelude::*;
20use std::{
21 collections::HashMap,
22 fs,
23 path::{Path, PathBuf},
24};
25
26/// One decoded record, attributed to a schema within its [`Loaded`] dump.
27pub struct Rec {
28 pub ts_nanos: u64,
29 pub shard_id: u32,
30 /// Position within the shard, oldest-first — the per-shard `local_seq`.
31 pub local_seq: u64,
32 /// Index into the owning [`Loaded::schemas`].
33 pub schema_idx: usize,
34 /// The event's raw field bytes (length equals the schema's `record_size`). A cheap refcounted
35 /// slice into the dump's reconstructed-payload arena — cloning it bumps a count, not the heap.
36 pub fields: Bytes,
37}
38
39/// A single decoded dump: its identity, registry, intern table, and recovered records.
40pub struct Loaded {
41 /// Where it was read from (for error messages).
42 pub path: PathBuf,
43 /// The producing process's id; `(instance_id, span_id)` keys spans across merged dumps.
44 pub instance_id: u64,
45 /// Host label from the dump's metadata (empty if unset).
46 pub host: String,
47 /// The schema registry, sorted by `qualified_name` for deterministic output.
48 pub schemas: Vec<OwnedSchema>,
49 /// Interned `id → string` for `Interned` fields.
50 pub intern: HashMap<u32, String>,
51 /// Every valid record, in global `(ts_nanos, shard_id, local_seq)` order.
52 pub records: Vec<Rec>,
53}
54
55/// Loads and decodes a single dump from `bytes`. `path` is carried for diagnostics.
56pub fn load(path: &Path, bytes: Bytes) -> Result<Loaded> {
57 let reader = DumpReader::new(bytes).map_err(|e| anyhow::anyhow!("{e}"))?;
58 let mut schemas = reader.schemas().map_err(|e| anyhow::anyhow!("{e}"))?;
59 let intern_pairs = reader.intern_table().map_err(|e| anyhow::anyhow!("{e}"))?;
60 let meta = reader.meta().map_err(|e| anyhow::anyhow!("{e}"))?;
61 let shards = reader.shards().map_err(|e| anyhow::anyhow!("{e}"))?;
62
63 // Deterministic registry order regardless of how the producer's inventory was linked.
64 schemas.sort_by(|a, b| a.qualified_name.cmp(&b.qualified_name));
65
66 let intern: HashMap<u32, String> = intern_pairs
67 .into_iter()
68 .map(|(id, bytes)| (id, String::from_utf8_lossy(&bytes).into_owned()))
69 .collect();
70 let by_id: HashMap<u64, usize> = schemas
71 .iter()
72 .enumerate()
73 .map(|(i, s)| (s.id.get(), i))
74 .collect();
75
76 // Walk every shard, attributing each record to a schema. Shards are independent (no shared
77 // state in the walk), so we parse them in parallel with rayon and concatenate. The closure is
78 // walk's validator (see backbeat::ring::walk): accept a candidate only if its event_id is
79 // registered and its declared record_size matches the field bytes, so walk resynchronizes past
80 // torn data.
81 //
82 // `walk` hands us each payload as a `Bytes` — a zero-copy refcounted slice of the shard region
83 // (itself a slice of the file buffer), except for the one record per shard that wraps the ring
84 // boundary. So storing a record's fields is a refcount bump, not a per-record copy.
85 let mut records: Vec<Rec> = shards
86 .par_iter()
87 .flat_map(|shard| {
88 let mut shard_recs: Vec<Rec> = Vec::new();
89 // walk yields newest-first; assign `local_seq` descending from `u64::MAX` so the global
90 // ascending sort by `(ts, shard, local_seq)` orders this shard oldest-first — no second
91 // pass. (Only the relative order matters; the absolute value is just a sort tiebreaker.)
92 let mut seq = u64::MAX;
93 walk(
94 &shard.region,
95 shard.head as usize,
96 shard.capacity as usize,
97 |payload| {
98 let Some(rec) = RecordView::parse(&payload[..]) else {
99 return false;
100 };
101 match by_id.get(&rec.event_id.get()) {
102 Some(&idx) if rec.fields.len() == schemas[idx].record_size as usize => {
103 // The fields follow the fixed `[ts][event_id]` prefix; slice them out of
104 // the owned `Bytes` zero-copy (RecordView only borrowed it to validate).
105 let fields_off = payload.len() - rec.fields.len();
106 shard_recs.push(Rec {
107 ts_nanos: rec.ts_nanos,
108 shard_id: shard.shard_id,
109 local_seq: seq,
110 schema_idx: idx,
111 fields: payload.slice(fields_off..),
112 });
113 seq -= 1;
114 true
115 }
116 _ => false,
117 }
118 },
119 );
120 shard_recs
121 })
122 .collect();
123 records.sort_by_key(|r| (r.ts_nanos, r.shard_id, r.local_seq));
124
125 let (instance_id, host) = meta
126 .map(|m| (m.instance_id, m.host))
127 .unwrap_or((0, String::new()));
128 Ok(Loaded {
129 path: path.to_path_buf(),
130 instance_id,
131 host,
132 schemas,
133 intern,
134 records,
135 })
136}
137
138/// Loads several dumps in parallel (rayon). Returns them in input order.
139pub fn load_many(paths: &[PathBuf]) -> Result<Vec<Loaded>> {
140 paths
141 .par_iter()
142 .map(|p| {
143 let bytes = fs::read(p).with_context(|| format!("reading dump {}", p.display()))?;
144 load(p, bytes.into()).with_context(|| format!("decoding dump {}", p.display()))
145 })
146 .collect()
147}