Module: Bitfab::Replay

Defined in:
lib/bitfab/replay.rb

Overview

Replay historical traces through a traced method and create a test run.

Class Method Summary collapse

Class Method Details

.build_mock_tree(root) ⇒ Object

Walk the children of a root span tree node depth-first and build a lookup keyed by "#trace_function_key:#span_name:#call_index".

The root node itself is excluded: at replay time the runtime root span never queries the mock tree.

The compound (key, name) match disambiguates same-key spans that come from the fluent client.get_function(key).wrap(...) pattern: every wrapped method shares trace_function_key but differs in span_name. The counter is per-(key, name) pair so repeated same-name calls (including recursion) still order by occurrence. Mirrors the Python and TypeScript SDKs after HVT-2078: keying by trace_function_key alone caused the wrong historical output for fluent-API span sets.



482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
# File 'lib/bitfab/replay.rb', line 482

def build_mock_tree(root)
  spans = {}
  counters = {}

  walk = lambda do |node|
    key = node["traceFunctionKey"]
    if key && !key.empty?
      name = node["spanName"]
      name = key if name.nil? || name.empty?
      counter_key = "#{key}:#{name}"
      index = counters[counter_key] || 0
      counters[counter_key] = index + 1
      # externalSpanId is what the lazy path fetches the recorded output by
      # when the tree came back payload-free (includeOutputs=false). output
      # / outputMeta are copied ONLY when the node actually carries them, so
      # the presence of the :output key distinguishes an inline nil output
      # from a payload-free entry (mirrors TS's undefined-vs-null check).
      entry = {
        source_span_id: node["sourceSpanId"],
        external_span_id: node["externalSpanId"]
      }
      entry[:output] = node["output"] if node.key?("output")
      entry[:output_meta] = node["outputMeta"] if node.key?("outputMeta")
      spans["#{counter_key}:#{index}"] = entry
    end
    (node["children"] || []).each { |child| walk.call(child) }
  end

  (root["children"] || []).each { |child| walk.call(child) }

  spans
end

.build_span_output_fetcher(http_client) ⇒ Object

Build a memoized lazy fetcher for a single replay item. The returned lambda takes an externalSpanId and returns that span's deserialized recorded output, fetching it via get_external_span at most once per id (a span read twice - as a base "marked" mock and via an override's get_original_output - fetches once). The cache is per item: each item replays synchronously on its own thread, so no lock is needed.



521
522
523
524
525
526
527
528
529
530
531
532
533
534
# File 'lib/bitfab/replay.rb', line 521

def build_span_output_fetcher(http_client)
  cache = {}
  lambda do |external_span_id|
    return cache[external_span_id] if cache.key?(external_span_id)

    span = http_client.get_external_span(external_span_id)
    span_data = (span["rawData"] || {})["span_data"] || {}
    # Prefer the Ruby Marshal payload (output_serialized) written by this
    # SDK; fall back to another SDK's output_meta, then the raw JSON output.
    meta = span_data["output_serialized"]
    meta = span_data["output_meta"] if meta.nil? || meta == ""
    cache[external_span_id] = Serialize.deserialize_output(span_data["output"], meta)
  end
end

.execute_item(item, receiver, method_name, test_run_id, input_source_span_id = nil, metrics = {}, input_source_trace_id: nil, mock_strategy: "marked", mock_tree: nil, mock_overrides: nil, fetch_span_output: nil, adapt_inputs: nil, adapt_ctx: nil, db_branch_lease: nil, source_bitfab_trace_id: nil, db_snapshot_ref: nil) ⇒ Object

Execute a single replay item: deserialize inputs, call method with replay context.



578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
# File 'lib/bitfab/replay.rb', line 578

def execute_item(item, receiver, method_name, test_run_id, input_source_span_id = nil, metrics = {},
  input_source_trace_id: nil, mock_strategy: "marked", mock_tree: nil, mock_overrides: nil,
  fetch_span_output: nil, adapt_inputs: nil, adapt_ctx: nil, db_branch_lease: nil, source_bitfab_trace_id: nil,
  db_snapshot_ref: nil)
  args, kwargs = Serialize.deserialize_inputs(item)

  fn_result = nil
  fn_error = nil
  sdk_trace_id = SecureRandom.uuid
  # Collects the root span's persistence threads (span uploads + trace
  # completion). Joined below so this item's trace is on the server
  # before run() calls complete_replay: otherwise the server's trace-ID
  # mapping races the uploads and the item's trace_id comes back nil.
  pending_persistence = []

  ReplayContext.with_context(
    test_run_id:,
    input_source_span_id:,
    input_source_trace_id:,
    trace_id: sdk_trace_id,
    mock_tree:,
    mock_strategy:,
    mock_overrides:,
    fetch_span_output:,
    pending_persistence:,
    db_branch_lease:,
    source_bitfab_trace_id:
  ) do
    # Reshape recorded inputs onto the current signature when an adapter is
    # supplied. Inside the rescue so a raising adapter surfaces on this
    # item's :error instead of crashing the run; args is reported on :input.
    if adapt_inputs
      ctx = adapt_ctx || {trace_id: nil, source_span_id: input_source_span_id}
      args, kwargs = adapt_inputs.call(args, kwargs, ctx)
    end
    fn_result = if kwargs.empty?
      receiver.send(method_name, *args)
    else
      receiver.send(method_name, *args, **kwargs)
    end
  rescue => e
    fn_error = e.message
  end

  # Wait for this item's trace (spans + completion) to be fully persisted
  # before the item resolves. Runs on the error path too: a raising
  # method still emits a root span whose trace must land before
  # complete_replay. Joins are bounded by the HTTP layer's own timeouts.
  pending_persistence.each(&:join)

  {
    input: args,
    result: fn_result,
    original_output: item["output"],
    error: fn_error,
    duration_ms: metrics[:duration_ms],
    tokens: metrics[:tokens],
    model: metrics[:model],
    trace_id: sdk_trace_id,
    db_snapshot_ref:
  }
end

.extract_server_item_metrics(server_item) ⇒ Object

Pull durationMs / model from the start-replay server item. Nil-safe defaults so older servers without these fields still produce a consistent shape. Tokens are intentionally NOT read from the start item (it carries the ORIGINAL trace's tokens); the replayed run's tokens are filled in by run() from the complete-replay response once spans are aggregated server-side, and stay nil here and on older servers.



555
556
557
558
559
560
561
# File 'lib/bitfab/replay.rb', line 555

def extract_server_item_metrics(server_item)
  {
    duration_ms: server_item["durationMs"],
    tokens: nil,
    model: server_item["model"]
  }
end

.extract_span_data(span) ⇒ Object

Extract input/output data from an external span's rawData.



537
538
539
540
541
542
543
544
545
546
547
# File 'lib/bitfab/replay.rb', line 537

def extract_span_data(span)
  raw_data = span["rawData"] || {}
  span_data = raw_data["span_data"] || {}

  {
    "input" => span_data["input"],
    "output" => span_data["output"],
    "inputSerialized" => span_data["input_serialized"],
    "outputSerialized" => span_data["output_serialized"]
  }
end

.normalize_tokens(raw_tokens) ⇒ Object

Normalize a complete-replay tokens hash (string-keyed JSON) into the symbol-keyed shape the replay item exposes. Nil when the server reported no token data for this trace.



566
567
568
569
570
571
572
573
574
575
# File 'lib/bitfab/replay.rb', line 566

def normalize_tokens(raw_tokens)
  return nil unless raw_tokens.is_a?(Hash)

  {
    input: raw_tokens["input"],
    output: raw_tokens["output"],
    cached: raw_tokens["cached"],
    total: raw_tokens["total"]
  }
end

.process_items(http_client, server_items, receiver, method_name, test_run_id, max_concurrency, mock_strategy, adapt_inputs = nil, include_db_branch_lease = false, on_progress: nil, mock_overrides: []) ⇒ Object

Process all replay items, optionally in parallel using threads.



284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
# File 'lib/bitfab/replay.rb', line 284

def process_items(http_client, server_items, receiver, method_name, test_run_id, max_concurrency, mock_strategy,
  adapt_inputs = nil, include_db_branch_lease = false, on_progress: nil, mock_overrides: [])
  concurrency = max_concurrency || server_items.length

  # Reports running totals once per item as it settles. In the parallel
  # path it runs from worker threads, so the mutex both makes the counter
  # updates safe and serializes the user's callback (never called
  # concurrently). A raising callback is swallowed: progress UI must never
  # crash the run.
  total = server_items.length
  progress_mutex = Mutex.new
  completed = 0
  succeeded = 0
  errored = 0
  # Each event carries the single item that just settled so a progress UI
  # can render per-trace pass/fail as the run streams. trace_id is the
  # SOURCE (historical) trace that was replayed, taken from the server
  # item: the result's own :trace_id at this stage is the new replay
  # trace id (assigned in run() after complete_replay), not the source.
  report = lambda do |result, source_trace_id, test_run_id|
    return unless on_progress

    progress_mutex.synchronize do
      completed += 1
      error = result[:error]
      error.nil? ? (succeeded += 1) : (errored += 1)
      begin
        on_progress.call({
          test_run_id:, completed:, total:, succeeded:, errored:,
          item: {
            trace_id: source_trace_id,
            replay_trace_id: result[:trace_id],
            input: result[:input],
            result: result[:result],
            original_output: result[:original_output],
            error:,
            duration_ms: result[:duration_ms],
            tokens: result[:tokens],
            model: result[:model],
            db_snapshot_ref: result[:db_snapshot_ref]
          }
        })
      rescue => e
        warn "Bitfab: replay on_progress callback raised: #{e.message}"
      end
    end
  end

  if concurrency <= 1
    server_items.map do |item|
      result = process_single_item(http_client, item, receiver, method_name, test_run_id, mock_strategy,
        adapt_inputs, include_db_branch_lease, mock_overrides:)
      report.call(result, item["traceId"], test_run_id)
      result
    end
  else
    results_mutex = Mutex.new
    results = []
    work_queue = server_items.each_with_index.to_a
    work_mutex = Mutex.new

    workers = [concurrency, server_items.length].min.times.map do
      Thread.new do
        loop do
          item, idx = work_mutex.synchronize { work_queue.shift }
          break unless item

          result = process_single_item(http_client, item, receiver, method_name, test_run_id, mock_strategy,
            adapt_inputs, include_db_branch_lease, mock_overrides:)
          results_mutex.synchronize { results[idx] = result }
          report.call(result, item["traceId"], test_run_id)
        end
      end
    end

    workers.each(&:join)
    results.compact
  end
end

.process_single_item(http_client, server_item, receiver, method_name, test_run_id, mock_strategy, adapt_inputs = nil, include_db_branch_lease = false, mock_overrides: []) ⇒ Object

Fetch span data and execute a single replay item.

Any error while fetching the span, building the mock tree, or deserializing inputs is captured on the returned item's :error rather than propagated, so one bad trace never aborts the whole replay run (mirrors the TypeScript and Python SDKs' per-item rescue).



370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
# File 'lib/bitfab/replay.rb', line 370

def process_single_item(http_client, server_item, receiver, method_name, test_run_id, mock_strategy,
  adapt_inputs = nil, include_db_branch_lease = false, mock_overrides: [])
  metrics = extract_server_item_metrics(server_item)
  # The server resolves a Neon preview branch per item during /replay/start
  # (only when include_db_branch_lease was sent). Release it in the +ensure+
  # below so any raise (span fetch, mock-tree build, or the replayed
  # method) frees the Neon resource. Items whose source trace had no
  # snapshot ref, or whose resolve failed server-side, arrive without a
  # lease (env.active? is false for those).
  lease = include_db_branch_lease ? server_item["dbBranchLease"] : nil

  span = http_client.get_external_span(server_item["externalSpanId"])
  item_data = extract_span_data(span)

  # Fetch the span tree when the base strategy needs recorded outputs
  # ("all"/"marked") OR when selective mock overrides are present. Overrides
  # gate on the same non-root call-counter machinery the tree drives, so
  # the tree must be fetched for them to fire even under mock: "none".
  #
  # Only mock: "all" needs every span's recorded output inline (it mocks
  # every child), so it fetches an eager tree. "marked" and overrides mock
  # only a few spans, so they fetch a payload-free tree (includeOutputs=
  # false) and pull each mocked span's output lazily by externalSpanId,
  # never dragging down outputs that no span consumes.
  overrides_present = !mock_overrides.nil? && !mock_overrides.empty?
  include_outputs = mock_strategy == "all"
  mock_tree = nil
  if mock_strategy == "all" || mock_strategy == "marked" || overrides_present
    begin
      tree = http_client.get_span_tree(server_item["externalSpanId"], include_outputs:)
      mock_tree = build_mock_tree(tree["root"] || {})
    rescue Exception => e # rubocop:disable Lint/RescueException
      raise if e.is_a?(SystemExit) || e.is_a?(SignalException)
      # "all" and overrides both depend on the tree: "all" mocks every span
      # from it, and overrides gate on its call-counter machinery. If the
      # fetch fails, surface the error on the item rather than silently
      # running everything real with the overrides dropped. Only bare
      # "marked" can fall back to real execution (its marked spans just
      # re-run). Mirrors the Python SDK's has_overrides re-raise.
      raise if mock_strategy == "all" || overrides_present
      mock_tree = nil
    end
  end

  # Memoized per-item lazy fetcher, present only on the payload-free path
  # (not eager "all", whose outputs are already inline). Passed to the
  # replay context so resolve_recorded_output can pull a mocked span's
  # output on demand, once per span even if read twice (base mock + an
  # override's get_original_output).
  fetch_span_output = (mock_tree && !include_outputs) ? build_span_output_fetcher(http_client) : nil

  adapt_ctx = {trace_id: server_item["traceId"], source_span_id: server_item["externalSpanId"]}

  execute_item(
    item_data,
    receiver,
    method_name,
    test_run_id,
    span["id"],
    metrics,
    input_source_trace_id: span["externalTraceId"],
    mock_strategy:,
    mock_tree:,
    mock_overrides:,
    fetch_span_output:,
    adapt_inputs:,
    adapt_ctx:,
    db_branch_lease: lease,
    source_bitfab_trace_id: server_item["traceId"],
    db_snapshot_ref: server_item["dbSnapshotRef"]
  )
rescue => e
  warn "Bitfab: replay item for span #{server_item["externalSpanId"]} failed before execution: #{e.message}"
  {
    input: [],
    result: nil,
    original_output: nil,
    error: e.message,
    duration_ms: metrics&.dig(:duration_ms),
    tokens: metrics&.dig(:tokens),
    model: metrics&.dig(:model),
    trace_id: nil,
    db_snapshot_ref: server_item["dbSnapshotRef"]
  }
ensure
  release_db_branch_lease(http_client, lease) if lease
end

.release_db_branch_lease(http_client, lease) ⇒ Object

Delete the per-item Neon preview branch. Best-effort: a failure is warned but never raised: the server-side TTL janitor reaps orphans.



460
461
462
463
464
465
466
467
# File 'lib/bitfab/replay.rb', line 460

def release_db_branch_lease(http_client, lease)
  neon_branch_id = lease["neonBranchId"]
  return unless neon_branch_id

  http_client.release_db_branch_lease(neon_branch_id)
rescue => e
  warn "Bitfab: failed to release DB branch #{neon_branch_id} (TTL janitor will catch it): #{e.message}"
end

.run(client, receiver, method_name, trace_function_key:, limit: nil, trace_ids: nil, name: nil, max_concurrency: 10, code_change_description: nil, code_change_files: nil, experiment_group_id: nil, dataset_id: nil, mock: "marked", adapt_inputs: nil, mock_override: nil, environment: nil, on_progress: nil) ⇒ Hash

Replay historical traces through a method and create a test run.

Fetches the last N traces for the given trace function key, re-runs each through the provided receiver and method, and returns comparison data.

Parameters:

  • client (Bitfab::Client)

    the Bitfab client instance

  • receiver (Object, Class)

    an instance for instance methods, or a Class for class methods

  • method_name (Symbol)

    the method to replay

  • trace_function_key (String)

    the trace function key for this method

  • limit (Integer, nil) (defaults to: nil)

    maximum number of traces to replay (default: 5). Ignored when trace_ids is passed (with a warning): an explicit ID list already determines how many traces replay.

  • trace_ids (Array<String>, nil) (defaults to: nil)

    optional list of trace IDs to replay (max 100)

  • name (String, nil) (defaults to: nil)

    optional display name for the resulting experiment/test run

  • max_concurrency (Integer, nil) (defaults to: 10)

    max threads for parallel replay (default: 10)

  • code_change_description (String, nil) (defaults to: nil)

    optional rationale for the code change being tested in this replay (stored on the experiment)

  • code_change_files (Array<Hash>, nil) (defaults to: nil)

    optional list of edited files, each as { path:, before:, after: } (empty string for new/deleted files)

  • experiment_group_id (String, nil) (defaults to: nil)

    optional UUID grouping multiple replay runs into a single experiment batch

  • dataset_id (String, nil) (defaults to: nil)

    optional UUID of the dataset this replay runs against, stored on the resulting experiment for durable attribution

  • mock (String) (defaults to: "marked")

    mock strategy for child spans: "marked" (default), "none", or "all". "marked" only mocks spans declared with mock_on_replay: true; "all" mocks every child span.

  • adapt_inputs (#call, nil) (defaults to: nil)

    optional hook to reshape recorded inputs onto the method's current signature when its shape changed after the traces were captured. Receives (args, kwargs, ctx) where ctx is { trace_id:, source_span_id: }, and returns [new_args, new_kwargs]. Runs per item inside the same rescue as the method, so a raising adapter sets that item's :error rather than crashing the run.

  • on_progress (#call, nil) (defaults to: nil)

    optional callback invoked once per item as it finishes, with a running-totals hash { completed:, total:, succeeded:, errored:, item: } where item is { trace_id:, error:, duration_ms: } for the single item that just settled. trace_id is the SOURCE (historical) trace that was replayed, error is that item's replay error or nil, and duration_ms is how long that one trace took to replay. Use it to render replay progress (e.g. a per-trace log). A raising callback never crashes the run.

Returns:

  • (Hash)

    with :items, :test_run_id, :test_run_url



125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
# File 'lib/bitfab/replay.rb', line 125

def run(client, receiver, method_name, trace_function_key:, limit: nil, trace_ids: nil, name: nil,
  max_concurrency: 10, code_change_description: nil, code_change_files: nil, experiment_group_id: nil,
  dataset_id: nil, mock: "marked",
  adapt_inputs: nil, mock_override: nil, environment: nil, on_progress: nil)
  unless MOCK_STRATEGIES.include?(mock.to_s)
    raise ArgumentError, "Invalid mock strategy '#{mock}'. Must be one of: #{MOCK_STRATEGIES.join(", ")}"
  end
  if trace_ids
    raise ArgumentError, "trace_ids must contain at least one trace ID." if trace_ids.empty?
    if trace_ids.length > 100
      raise ArgumentError, "trace_ids supports at most 100 trace IDs per replay (got #{trace_ids.length})."
    end
  end
  if limit && trace_ids
    warn "Bitfab: limit is ignored when trace_ids is passed: the explicit trace ID list already " \
      "determines how many traces replay."
  end

  # Reject a trace_function_key that contradicts the method's declared key.
  # replay() fetches historical traces by trace_function_key but records the
  # replayed spans under the method's own bitfab_span key (via send below),
  # so a mismatch produces an incoherent test run (traces fetched for one
  # function, recorded under another). Only fires when the method's key is
  # introspectable; an untraced method falls through to the persistence
  # check in complete_replay. Mirrors the TypeScript/Python SDKs.
  declared_key = Traceable.trace_function_key_for(receiver, method_name)
  if declared_key && declared_key != trace_function_key
    raise ArgumentError,
      "Method #{method_name} is traced under trace function key '#{declared_key}' but replay was " \
      "called with '#{trace_function_key}'. Pass trace_function_key: '#{declared_key}' to replay it, " \
      "or point at the method traced under '#{trace_function_key}'."
  end

  http_client = client.instance_variable_get(:@http_client)

  # Resolved override list: per-call overrides FIRST (they win), then the
  # client's registered overrides. First matching override wins downstream,
  # so this ordering makes per-call take precedence over registered, and
  # both take precedence over the base mock strategy.
  registered_overrides = client.instance_variable_get(:@mock_overrides) || []
  resolved_overrides = MockOverride.normalize(mock_override) + registered_overrides

  # limit is meaningless with explicit trace_ids (the ID list determines
  # the count), so it's omitted from the request entirely.
  effective_limit = trace_ids ? nil : (limit || 5)

  include_db_branch_lease = !environment.nil?

  replay_data = http_client.start_replay(
    trace_function_key,
    effective_limit,
    trace_ids:,
    name:,
    code_change_description:,
    code_change_files:,
    experiment_group_id:,
    include_db_branch_lease:,
    dataset_id:
  )
  test_run_id = replay_data["testRunId"]
  test_run_url = replay_data["testRunUrl"]
  server_items = replay_data["items"] || []

  result_items = if server_items.any?
    process_items(http_client, server_items, receiver, method_name, test_run_id, max_concurrency, mock.to_s,
      adapt_inputs, include_db_branch_lease, on_progress:, mock_overrides: resolved_overrides)
  else
    []
  end

  # Every item joined its own trace-persistence threads (span uploads +
  # completion) in execute_item, so all replay traces are on the server
  # by now: no flush needed, and complete_replay's trace-ID mapping is
  # deterministic. complete_replay failures propagate: a missing mapping
  # means verdicts can't be persisted, which callers must hear about
  # loudly.
  complete_response = http_client.complete_replay(test_run_id)
  trace_id_map = complete_response&.dig("traceIds")
  # Per-replay-trace token usage keyed by server trace id: the REPLAYED
  # run's tokens (span-aggregated server-side), used below to fill each
  # item's :tokens.
  replay_tokens = complete_response&.dig("tokens") || {}

  if trace_id_map.nil?
    # Older servers don't return the mapping. Preserve the legacy
    # nil-trace_id behavior but say why.
    warn "Bitfab: server did not return replay trace IDs; item trace_id " \
      "will be nil (server upgrade required for verdict persistence)"
    result_items.each { |item| item[:trace_id] = nil }
  else
    # Map each item's locally-generated trace ID to the server's trace
    # row ID. A completed item with no mapping means its trace was sent
    # but the server has no record: a nil trace_id blocks verdict
    # persistence and the Studio experiments view downstream, so this
    # must never be silent.
    #
    # Severity splits on scope:
    # - ALL completed items missing: systemic (the replayed method is
    #   not traced, or uploads are wholesale broken). Raise; the run's
    #   results are unusable for persistence.
    # - SOME completed items missing: per-item upload failure (transient
    #   network blip, one oversized payload). Nil those items and warn
    #   loudly, but return the run so callers can persist verdicts for
    #   the items that landed.
    missing = []
    completed_count = 0
    result_items.each do |item|
      next unless item[:trace_id]

      mapped = trace_id_map[item[:trace_id]]
      if item[:error].nil?
        completed_count += 1
        missing << item[:trace_id] if mapped.nil?
      end
      # Pull this item's replayed-run tokens by its server trace id, before
      # :trace_id is overwritten with that id below.
      item[:tokens] = normalize_tokens(replay_tokens[mapped]) if mapped
      item[:trace_id] = mapped
    end
    if missing.any?
      trace_count = complete_response["traceCount"]
      server_count = trace_count.nil? ? "" : " The server persisted #{trace_count} trace(s) for this run."
      if missing.length == completed_count
        raise "Replay completed but the server has no persisted trace for " \
          "any of the #{completed_count} completed item(s) " \
          "(test_run_id #{test_run_id}).#{server_count} Trace uploads were " \
          "joined, so either the uploads failed or the replayed method is " \
          "not traced (no root span was emitted)."
      end
      warn "Bitfab: server has no persisted trace for #{missing.length} of " \
        "#{completed_count} completed replay item(s) " \
        "(test_run_id #{test_run_id}).#{server_count} Their trace_id is nil " \
        "and verdicts cannot be persisted for them. Missing: #{missing.join(", ")}"
    end
  end

  replay_result = {
    items: result_items,
    test_run_id:,
    test_run_url: "#{client.service_url}#{test_run_url}"
  }
  write_replay_result_file(replay_result)
  replay_result
end

.write_replay_result_file(result) ⇒ Object



270
271
272
273
274
275
276
277
278
279
280
281
# File 'lib/bitfab/replay.rb', line 270

def write_replay_result_file(result)
  result_path = ENV["BITFAB_REPLAY_RESULT_PATH"]
  return if result_path.nil? || result_path.empty?

  begin
    dir = File.dirname(result_path)
    FileUtils.mkdir_p(dir) unless dir.nil? || dir.empty? || dir == "."
    File.write(result_path, "#{JSON.pretty_generate(result)}\n")
  rescue => e
    warn "Bitfab: failed to write replay result to BITFAB_REPLAY_RESULT_PATH (#{result_path}): #{e.message}"
  end
end