llama-stack-mirror

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grs da73f1a180 Some checks failed Test External Providers Installed via Module / test-external-providers-from-module (venv) (push) Has been skipped Details Vector IO Integration Tests / test-matrix (push) Failing after 4s Details Pre-commit / pre-commit (push) Failing after 4s Details Python Package Build Test / build (3.13) (push) Failing after 3s Details Test Llama Stack Build / build-single-provider (push) Failing after 5s Details Test Llama Stack Build / build-custom-container-distribution (push) Failing after 4s Details Python Package Build Test / build (3.12) (push) Failing after 5s Details Unit Tests / unit-tests (3.13) (push) Failing after 4s Details UI Tests / ui-tests (22) (push) Failing after 5s Details Unit Tests / unit-tests (3.12) (push) Failing after 6s Details Test External API and Providers / test-external (venv) (push) Failing after 8s Details SqlStore Integration Tests / test-postgres (3.13) (push) Failing after 12s Details SqlStore Integration Tests / test-postgres (3.12) (push) Failing after 15s Details Integration Auth Tests / test-matrix (oauth2_token) (push) Failing after 17s Details Test Llama Stack Build / generate-matrix (push) Failing after 21s Details Integration Tests (Replay) / Integration Tests (, , , client=, vision=) (push) Failing after 23s Details Test Llama Stack Build / build (push) Has been skipped Details Update ReadTheDocs / update-readthedocs (push) Failing after 20s Details Test Llama Stack Build / build-ubi9-container-distribution (push) Failing after 24s Details fix: ensure assistant message is followed by tool call message as expected by openai (#3224 ) # What does this PR do? As described in #3134 a langchain example works against openai's responses impl, but not against llama stack's. This turned out to be due to the order of the inputs. The langchain example has the two function call outputs first, followed by each call result in turn. This seems to be valid as it is accepted by openai's impl. However in llama stack, these inputs are converted to chat completion inputs and the resulting order for that api is not accpeted by openai. This PR fixes the issue by ensuring that the converted chat completions inputs are in the expected order. Closes #3134 ## Test Plan Added unit and integration tests. Verified this fixes original issue as reported. --------- Signed-off-by: Gordon Sim <gsim@redhat.com>		2025-08-22 10:42:03 -07:00
..
common	chore(tests): fix responses and vector_io tests (#3119 )	2025-08-12 16:15:53 -07:00
containers	feat(ci): add support for running vision inference tests (#2972 )	2025-07-31 11:50:42 -07:00
external	chore: bump min python version in docs and tests (#3103 )	2025-08-12 08:52:57 -07:00
integration	fix: ensure assistant message is followed by tool call message as expected by openai (#3224 )	2025-08-22 10:42:03 -07:00
unit	fix: ensure assistant message is followed by tool call message as expected by openai (#3224 )	2025-08-22 10:42:03 -07:00
__init__.py	refactor(test): introduce --stack-config and simplify options (#1404 )	2025-03-05 17:02:02 -08:00
README.md	test(recording): add a script to schedule recording workflow (#3170 )	2025-08-15 16:54:34 -07:00

README.md

There are two obvious types of tests:

Type	Location	Purpose
Unit	`tests/unit/`	Fast, isolated component testing
Integration	`tests/integration/`	End-to-end workflows with record-replay

Both have their place. For unit tests, it is important to create minimal mocks and instead rely more on "fakes". Mocks are too brittle. In either case, tests must be very fast and reliable.

Record-replay for integration tests

Testing AI applications end-to-end creates some challenges:

API costs accumulate quickly during development and CI
Non-deterministic responses make tests unreliable
Multiple providers require testing the same logic across different APIs

Our solution: Record real API responses once, replay them for fast, deterministic tests. This is better than mocking because AI APIs have complex response structures and streaming behavior. Mocks can miss edge cases that real APIs exhibit. A single test can exercise underlying APIs in multiple complex ways making it really hard to mock.

This gives you:

Cost control - No repeated API calls during development
Speed - Instant test execution with cached responses
Reliability - Consistent results regardless of external service state
Provider coverage - Same tests work across OpenAI, Anthropic, local models, etc.

Testing Quick Start

You can run the unit tests with:

uv run --group unit pytest -sv tests/unit/

For running integration tests, you must provide a few things:

A stack config. This is a pointer to a stack. You have a few ways to point to a stack:
- server:<config> - automatically start a server with the given config (e.g., server:starter). This provides one-step testing by auto-starting the server if the port is available, or reusing an existing server if already running.
- server:<config>:<port> - same as above but with a custom port (e.g., server:starter:8322)
- a URL which points to a Llama Stack distribution server
- a distribution name (e.g., starter) or a path to a run.yaml file
- a comma-separated list of api=provider pairs, e.g. inference=fireworks,safety=llama-guard,agents=meta-reference. This is most useful for testing a single API surface.
Whether you are using replay or live mode for inference. This is specified with the LLAMA_STACK_TEST_INFERENCE_MODE environment variable. The default mode currently is "live" -- that is certainly surprising, but we will fix this soon.
Any API keys you need to use should be set in the environment, or can be passed in with the --env option.

You can run the integration tests in replay mode with:

# Run all tests with existing recordings
LLAMA_STACK_TEST_INFERENCE_MODE=replay \
  LLAMA_STACK_TEST_RECORDING_DIR=tests/integration/recordings \
  uv run --group test \
  pytest -sv tests/integration/ --stack-config=starter

If you don't specify LLAMA_STACK_TEST_INFERENCE_MODE, by default it will be in "live" mode -- that is, it will make real API calls.

# Test against live APIs
FIREWORKS_API_KEY=your_key pytest -sv tests/integration/inference --stack-config=starter

Re-recording tests

Local Re-recording (Manual Setup Required)

If you want to re-record tests locally, you can do so with:

LLAMA_STACK_TEST_INFERENCE_MODE=record \
  LLAMA_STACK_TEST_RECORDING_DIR=tests/integration/recordings \
  uv run --group test \
  pytest -sv tests/integration/ --stack-config=starter -k "<appropriate test name>"

This will record new API responses and overwrite the existing recordings.


You must be careful when re-recording. CI workflows assume a specific setup for running the replay-mode tests. You must re-record the tests in the same way as the CI workflows. This means
- you need Ollama running and serving some specific models.
- you are using the `starter` distribution.

Remote Re-recording (Recommended)

For easier re-recording without local setup, use the automated recording workflow:

# Record tests for specific test subdirectories
./scripts/github/schedule-record-workflow.sh --test-subdirs "agents,inference"

# Record with vision tests enabled
./scripts/github/schedule-record-workflow.sh --test-subdirs "inference" --run-vision-tests

# Record with specific provider
./scripts/github/schedule-record-workflow.sh --test-subdirs "agents" --test-provider vllm

This script:

🚀 Runs in GitHub Actions - no local Ollama setup required
🔍 Auto-detects your branch and associated PR
🍴 Works from forks - handles repository context automatically
✅ Commits recordings back to your branch

Prerequisites:

GitHub CLI: brew install gh && gh auth login
jq: brew install jq
Your branch pushed to a remote

Supported providers: vllm, ollama

Next Steps

Integration Testing Guide - Detailed usage and configuration
Unit Testing Guide - Fast component testing