Files
sglang/test
laoyao0822 bafb55044b Keep CP current IPC staging proportional to touched pages
Cache-hit bs>1 current reuse can create very large dense attention buffers
while touching only a small set of current pages. The previous SGLang runtime
asked tai-kernel for a staging buffer sized like the full dense tensor, which
caused CUDA OOM before the current IPC fast path could run.

Switch token and index current IPC helpers to descriptor-compact staging: publish
the dense destination pages into compact staging slots and materialize peers
from compact source page ids back to the original dense destination pages.
Document the failure mode and the compact-staging contract so the dense-sized
contract is not reintroduced.

Constraint: CUDA + SGLANG_CP_SHARED_KV_USE_TAI_MATERIALIZE=1 must fail fast instead of silently falling back to current-slot all_reduce
Rejected: Let staging allocation failure fall back to all_reduce | hides the bug and restores the expensive collective path
Rejected: Size staging by the full dense tensor | reproduces the 965MB staging OOM on long-prefix cache-hit batches
Confidence: high
Scope-risk: moderate
Directive: Current IPC helper source ids are compact staging ids; destination ids remain dense slot pages
Tested: Remote cjy-glm5-new PYTHONPATH=python:/mnt/beegfs/cjy/tai-kernel/python python -m pytest -q test/registered/unit/mem_cache/test_cp_shared_kv_runtime.py -> 144 passed, 2 subtests passed
Tested: Local py_compile cp_shared_kv_runtime.py
Not-tested: Full ETE service restart with production traffic after this commit
(cherry picked from commit 906ecbe5d4f08b73242e98e2b628e26516d5b04a)
2026-06-13 00:58:47 +08:00
..

Run Unit Tests

SGLang uses the built-in library unittest as the testing framework.

Test Backend Runtime

cd sglang/test/srt

# Run a single file
python3 test_srt_endpoint.py

# Run a single test
python3 test_srt_endpoint.py TestSRTEndpoint.test_simple_decode

# Run a suite with multiple files
python3 run_suite.py --suite per-commit

Test Frontend Language

cd sglang/test/lang

# Run a single file
python3 test_choices.py

Adding or Updating Tests in CI

  • Create new test files under test/srt or test/lang depending on the type of test.
  • For nightly tests, place them in test/srt/nightly/. Use the NightlyBenchmarkRunner helper class in nightly_utils.py for performance benchmarking tests.
  • Ensure they are referenced in the respective run_suite.py (e.g., test/srt/run_suite.py) so they are picked up in CI. For most small test cases, they can be added to the per-commit-1-gpu suite. Sort the test cases alphabetically by name.
  • Ensure you added unittest.main() for unittest and sys.exit(pytest.main([__file__])) for pytest in the scripts. The CI run them via python3 test_file.py.
  • The CI will run some suites such as per-commit-1-gpu, per-commit-2-gpu, and nightly-1-gpu automatically. If you need special setup or custom test groups, you may modify the workflows in .github/workflows/.

CI Registry System

Tests in test/registered/ use a registry-based CI system for flexible backend/schedule configuration.

Registration Functions

from sglang.test.ci.ci_register import (
    register_cuda_ci,
    register_amd_ci,
    register_cpu_ci,
    register_npu_ci,
)

# Per-commit test (small 1-gpu, runs on 5090)
register_cuda_ci(est_time=80, suite="stage-b-test-1-gpu-small")

# Per-commit test (large 1-gpu, runs on H100)
register_cuda_ci(est_time=120, suite="stage-b-test-1-gpu-large")

# Per-commit test (2-gpu)
register_cuda_ci(est_time=200, suite="stage-b-test-2-gpu-large")

# Nightly-only test
register_cuda_ci(est_time=200, suite="nightly-1-gpu", nightly=True)

# Multi-backend test
register_cuda_ci(est_time=80, suite="stage-b-test-1-gpu-small")
register_amd_ci(est_time=120, suite="stage-a-test-1-gpu-small-amd")

# Temporarily disabled test
register_cuda_ci(est_time=80, suite="stage-b-test-1-gpu-small", disabled="flaky - see #12345")

Choosing Between 1-GPU Suites (5090 vs H100)

When adding 1-GPU tests, choose the appropriate suite based on hardware compatibility:

Suite Runner GPU When to Use
stage-a-test-1-gpu-small 1-gpu-5090 RTX 5090 (32GB, SM120) Stage A per-commit smoke on 5090 (CUDA)
stage-a-test-1-gpu-small-amd AMD CI runners ROCm Stage A per-commit smoke (AMD)
stage-b-test-1-gpu-small 1-gpu-5090 RTX 5090 (32GB, SM120) 5090-compatible tests (preferred)
stage-b-test-1-gpu-large 1-gpu-h100 H100 (80GB, SM90) Large models or 5090-incompatible tests

Use stage-b-test-1-gpu-small (5090) whenever possible - this is the preferred suite for most 1-GPU tests.

Use stage-b-test-1-gpu-large (H100) if ANY of these apply:

  1. Architecture incompatibility (SM120/Blackwell):

    • FA3 attention backend (requires SM≤90)
    • MLA with FA3 backend
    • FP8/MXFP4 quantization (not supported on SM120)
    • Certain Triton kernels (shared memory limits)
  2. Memory requirements:

    • Models >30B params or large MoE
    • Tests requiring >32GB VRAM
  3. Known 5090 failures:

    • Weight update/sync tests
    • Certain spec decoding tests

If a test cannot run on 5090 due to any of the above, use stage-b-test-1-gpu-large which runs on H100.

Available Suites

Per-Commit (CUDA):

  • Stage A: stage-a-test-1-gpu-small (5090), stage-a-test-2, stage-a-test-cpu
  • Stage B: stage-b-test-1-gpu-small (5090), stage-b-test-1-gpu-large (H100), stage-b-test-2-gpu-large
  • Stage C (4-GPU): stage-c-test-4-gpu-h100, stage-c-test-4-gpu-b200, stage-c-test-4-gpu-gb200, stage-c-test-deepep-4-gpu-h100
  • Stage C (8-GPU): stage-c-test-8-gpu-h20, stage-c-test-8-gpu-h200, stage-c-test-8-gpu-b200, stage-c-test-deepep-8-gpu-h200

Per-Commit (AMD):

  • stage-a-test-1-gpu-small-amd, stage-b-test-1-gpu-small-amd, stage-b-test-2-gpu-large-amd

Nightly:

  • nightly-1-gpu, nightly-2-gpu, nightly-4-gpu, nightly-8-gpu, etc.

Running Tests with run_suite.py

# Run per-commit tests
python test/run_suite.py --hw cuda --suite stage-b-test-1-gpu-small

# Run nightly tests
python test/run_suite.py --hw cuda --suite nightly-1-gpu --nightly

# With auto-partitioning (for parallel CI jobs)
python test/run_suite.py --hw cuda --suite stage-b-test-1-gpu-small \
    --auto-partition-id 0 --auto-partition-size 4

Writing Elegant Test Cases

  • Learn from existing examples in sglang/test/srt.
  • Reduce the test time by using smaller models and reusing the server for multiple test cases. Launching a server takes a lot of time.
  • Use as few GPUs as possible. Do not run long tests with 8-gpu runners.
  • If the test cases take too long, considering adding them to nightly tests instead of per-commit tests.
  • Keep each test function focused on a single scenario or piece of functionality.
  • Give tests descriptive names reflecting their purpose.
  • Use robust assertions (e.g., assert, unittest methods) to validate outcomes.
  • Clean up resources to avoid side effects and preserve test independence.
  • Reduce the test time by using smaller models and reusing the server for multiple test cases.

Adding New Models to Nightly CI

  • For text models: extend global model lists variables in test_utils.py, or add more model lists
  • For vlms: extend the MODEL_THRESHOLDS global dictionary in test/srt/nightly/test_vlms_mmmu_eval.py