deepstream-dev

NVIDIA DeepStream SDK 9.0 development with Python pyservicemaker API. Use when building video analytics pipelines, GStreamer-based video processing, TensorRT…

npx skills add https://github.com/nvidia/skills --skill deepstream-dev

DeepStream Development Skill

When this skill is active, ALWAYS read the relevant reference documents before generating code. Do NOT rely on memory - the reference documents contain critical details about exact property names, correct API usage, and common pitfalls.

SDK and Architecture Quick Reference

DeepStream SDK 9.0 Version Requirements

  • GStreamer: 1.24.2
  • NVIDIA Driver: 590+
  • CUDA: 13.1
  • TensorRT: 10.14.1.48
  • Platforms: Ubuntu 24.04 (x86_64 and ARM64/Jetson)

Typical Pipeline Flow

Source → Stream Muxer → Inference → [Tracker] → OSD → Renderer

Components in [brackets] are optional -- only add them when the user explicitly requests them.

StageRoleKey Element(s)Required?
SourceInput from files, RTSP, camerasnvurisrcbin (preferred), nvmultiurisrcbin, filesrcYes
Stream MuxerBatches streams for inferencenvstreammuxYes
InferenceTensorRT model executionnvinfer, nvinferserverYes
TrackerMulti-object tracking across framesnvtrackerOnly if requested
OSDDraws bounding boxes, labels, overlaysnvosdbinYes (for visualization)
RendererDisplay or save outputnveglglessink, nv3dsink, filesinkYes

Memory Model

DeepStream uses NVIDIA Video Memory Manager (NVMM) for zero-copy GPU buffer transfers. Caps strings use memory:NVMM to indicate GPU memory (e.g., video/x-raw(memory:NVMM), format=NV12).

Critical Rules

  1. Only Add Requested Components: Do NOT add pipeline elements the user did not ask for.

    • Tracker (nvtracker): Only add when the user explicitly requests tracking or object IDs across frames
    • Secondary GIEs: Only add when the user requests classification or attribute extraction
    • Analytics (nvdsanalytics): Only add when the user requests line crossing, ROI counting, etc.
    • Message broker (nvmsgbroker/nvmsgconv): Only add when the user requests Kafka/cloud messaging
    • When in doubt, build the minimal working pipeline and let the user ask for additions
  2. Default to nvurisrcbin for Sources: When the user says "camera", "stream", "video", or provides a file path:

    • Always use nvurisrcbin -- it handles RTSP, HTTP, and local files (file://) transparently
    • Only use filesrc + qtdemux + parser when the user explicitly needs raw file source control
    • For RTSP/live sources, also set live-source=1 on nvstreammux and sync=0 on the sink
    • Convert local paths to URI: "file://" + os.path.abspath(path)
  3. Metadata Iteration: Use .frame_items and .object_items (returns iterators, NOT lists)

    • NEVER use len() on these - iterate to count
    • Iterator can only be consumed once
  4. Request Pad Syntax: Use "sink_%u" template, NEVER literal pad names

    pipeline.link(("decoder", "mux"), ("", "sink_%u"))  # CORRECT
    # pipeline.link(("decoder", "mux"), ("", "sink_0"))  # WRONG - will fail
    
  5. Platform Detection for Sinks:

    import platform
    sink_type = "nv3dsink" if platform.processor() == "aarch64" else "nveglglessink"
    
  6. Buffer Cloning: Always clone buffers for async processing

    tensor = buffer.extract(0).clone()  # CRITICAL
    
  7. Queue Types:

    • queue.Queue → Use with threading.Thread
    • multiprocessing.Queue → Use with multiprocessing.Process
    • Using wrong type causes silent data loss!
  8. nvinfer Config Format:

    • YAML: Use property: section (NOT model:), key: value with space after colon
    • INI: Use [property] section, key=value with equals sign
    • Section MUST be named property
  9. nvmsgbroker is a SINK: Cannot have downstream elements - use tee to split pipeline

  10. ALL Sinks Need async=0 for Tee Splits or Dynamic Sources: CRITICAL for state transitions

    # When using tee splits OR dynamic sources, ALL sinks MUST have async=0
    pipeline.add("nveglglessink", "sink", {
        "sync": 0, "qos": 0,
        "async": 0  # CRITICAL - prevents state transition deadlock
    })
    

    Symptom if missing: Pipeline stays in PAUSED state, no video displays.

  11. Built-in Probe Attachment: measure_fps_probe can only be attached to processing elements (e.g., nvinfer, nvosdbin), NOT to sink elements. Attaching to a sink raises RuntimeError: Probe failure.

  12. Dynamic ONNX Models Require infer-dims: When the ONNX model has dynamic input shapes (e.g., exported with dynamic=True in Ultralytics YOLO, or with dynamic batch/height/width axes), you MUST add infer-dims=C;H;W to the nvinfer config. Without it, TensorRT sees -1 for dynamic dimensions and fails with setDimensions: Error Code 3. Common values:

    • YOLO models (640 input): infer-dims=3;640;640
    • Models with 416 input: infer-dims=3;416;416
    • Models with 1280 input: infer-dims=3;1280;1280
  13. Ultralytics YOLO Output Format Depends on Model Generation — newer models (v10+/v26+) output post-NMS results; older models (v8/v11) output raw pre-NMS tensors. The custom parser and cluster-mode must match the actual output:

Model generationOutput tensor shapeFieldscluster-mode
v8 / v11[batch, 84, 8400][features(4+80), anchors] — raw cx/cy/w/h + class scores, no NMS2 (NMS)
v10 / v26+[batch, 300, 6][max_det, (x1,y1,x2,y2,conf,cls)] — already post-NMS, pixel coords4 (none)

How to identify at runtime: log inferDims.d[0] and inferDims.d[1] inside the custom parser.

  • d={84, 8400} → pre-NMS (v8/v11 style)
  • d={300, 6} → post-NMS (v10/v26+ style)

Symptom of mismatch: If cluster-mode: 2 is used with a post-NMS [N, 6] output, bounding boxes appear shifted by 45° or 135° from the actual objects (DeepStream's NMS incorrectly re-processes already-final coordinates). If you see tilted or rotated boxes, also check the OBB / rotation_angle note in references/nvinfer_config.md: for non-OBB models, value-initialize NvDsInferObjectDetectionInfo with obj{} and keep rotation_angle = 0; plain NvDsInferObjectDetectionInfo obj; leaves fields uninitialized.

  1. Virtual Environment Must Include pyservicemaker: pyservicemaker is installed system-wide but is NOT accessible from a standard Python virtual environment. When a task requires a venv (e.g., for model download/conversion pip dependencies), always install pyservicemaker and pyyaml inside the venv. The venv setup in generated code and README must always include:
    python3 -m venv venv
    source venv/bin/activate
    pip install /opt/nvidia/deepstream/deepstream/service-maker/python/pyservicemaker*.whl pyyaml
    pip install -r requirements.txt  # other dependencies
    
    Symptom if missing: ModuleNotFoundError: No module named 'pyservicemaker' when running the app inside the venv.

Key Paths (DeepStream 9.0)

  • Models: /opt/nvidia/deepstream/deepstream/samples/models/
  • Primary Detector: /opt/nvidia/deepstream/deepstream/samples/models/Primary_Detector/resnet18_trafficcamnet_pruned.onnx
  • Tracker lib: /opt/nvidia/deepstream/deepstream/lib/libnvds_nvmultiobjecttracker.so
  • Kafka lib: /opt/nvidia/deepstream/deepstream/lib/libnvds_kafka_proto.so
  • Sample configs: /opt/nvidia/deepstream/deepstream/samples/configs/deepstream-app/

Reference Documents

IMPORTANT: Always read these documents for complete details. Do NOT generate code from memory.

DocumentUse When
references/gstreamer_plugins.mdLooking up plugin properties, ALL properties listed
references/service_maker_api.mdUsing Pipeline/Flow API, metadata access, probes, EventMessageUserMetadata
references/use_cases_pipelines.mdBuilding pipelines: simple playback, multi-inference, cascaded GIE
references/kafka_messaging.mdKafka/message broker setup, nvmsgconv/nvmsgbroker config, msg2p-newapi
references/best_practices.mdDesign patterns, common pitfalls, anti-patterns
references/buffer_apis.mdBufferProvider/Feeder (injection), BufferRetriever/Receiver (extraction)
references/media_extractor_advanced.mdMediaExtractor, MediaChunk, FrameSampler
references/utilities_config.mdPerfMonitor, EngineFileMonitor, SourceConfig, SensorInfo, SmartRecordConfig
references/nvinfer_config.mdnvinfer config file format, ALL parameters
references/tracker_config.mdnvtracker config, NvDCF/IOU/DeepSORT/NvSORT
references/troubleshooting.mdError messages and solutions
references/rest_api_dynamic.mdREST API, dynamic source add/remove, nvmultiurisrcbin
references/metamux_config.mdnvdsmetamux config, parallel multi-model inference, metadata merging, source ID filtering
references/docker_containers.mdDocker images, Dockerfile examples, pyservicemaker install, container run commands

Quick Error Reference

ErrorSolution
iterator has no len()Iterate to count, don't use len()
pad template not foundUse "sink_%u" not "sink_0"
Queue data lossUse multiprocessing.Queue with Process
Config parse failedUse property: not model: in YAML
is-classifier deprecation warningUse network-type: 1 instead of is-classifier: 1 for classifiers; omit both for detectors
min-boxes unknown key warningUse minBoxes (camelCase) in class-attrs-* sections, not min-boxes
Secondary GIE inactiveSet process-mode: 2, check operate-on-gie-id
Tee/dynamic source stuck PAUSEDSet async: 0 on ALL sink elements
RTSP no data/reconnectingTest URL with ffplay, check credentials
RuntimeError: Probe failuremeasure_fps_probe cannot attach to sink elements; use nvinfer or nvosdbin instead
setDimensions negative dims / engine build failedAdd infer-dims=C;H;W for dynamic ONNX models (e.g., infer-dims=3;640;640)
No module named 'pyservicemaker' in venvpip install /opt/nvidia/deepstream/deepstream/service-maker/python/pyservicemaker*.whl pyyaml inside the venv
AttributeError: object has no attribute 'obj_label'Use obj_meta.label not obj_meta.obj_label in pyservicemaker (C API name differs from Python binding)