English | [简体中文](readme.md) # Service deployment based on PaddleHub Serving HubServing service pack contains 3 files, the directory is as follows: ``` deploy/hubserving/clas/ └─ __init__.py Empty file, required └─ config.json Configuration file, optional, passed in as a parameter when using configuration to start the service └─ module.py Main module file, required, contains the complete logic of the service └─ params.py Parameter file, required, including parameters such as model path, pre- and post-processing parameters ``` ## Quick start service ### 1. Prepare the environment ```shell # Install version 2.0 of PaddleHub pip3 install paddlehub==2.0.0b1 --upgrade -i https://pypi.tuna.tsinghua.edu.cn/simple ``` ### 2. Download inference model Before installing the service module, you need to prepare the inference model and put it in the correct path. The default model path is: ``` Model structure file: ./inference/cls_infer.pdmodel Model parameters file: ./inference/cls_infer.pdiparams ``` **The model path can be found and modified in `params.py`.** More models provided by PaddleClas can be obtained from the [model library](../../docs/en/models/models_intro_en.md). You can also use models trained by yourself. ### 3. Install Service Module * On Linux platform, the examples are as follows. ```shell hub install deploy/hubserving/clas/ ``` * On Windows platform, the examples are as follows. ```shell hub install deploy\hubserving\clas\ ``` ### 4. Start service #### Way 1. Start with command line parameters (CPU only) **start command:** ```shell $ hub serving start --modules Module1==Version1 \ --port XXXX \ --use_multiprocess \ --workers \ ``` **parameters:** |parameters|usage| |-|-| |--modules/-m|PaddleHub Serving pre-installed model, listed in the form of multiple Module==Version key-value pairs
*`When Version is not specified, the latest version is selected by default`*| |--port/-p|Service port, default is 8866| |--use_multiprocess|Enable concurrent mode, the default is single-process mode, this mode is recommended for multi-core CPU machines
*`Windows operating system only supports single-process mode`*| |--workers|The number of concurrent tasks specified in concurrent mode, the default is `2*cpu_count-1`, where `cpu_count` is the number of CPU cores| For example, start the 2-stage series service: ```shell hub serving start -m clas_system ``` This completes the deployment of a service API, using the default port number 8866. #### Way 2. Start with configuration file(CPU、GPU) **start command:** ```shell hub serving start --config/-c config.json ``` Wherein, the format of `config.json` is as follows: ```json { "modules_info": { "clas_system": { "init_args": { "version": "1.0.0", "use_gpu": true, "enable_mkldnn": false }, "predict_args": { } } }, "port": 8866, "use_multiprocess": false, "workers": 2 } ``` - The configurable parameters in `init_args` are consistent with the `_initialize` function interface in `module.py`. Among them, - when `use_gpu` is `true`, it means that the GPU is used to start the service. - when `enable_mkldnn` is `true`, it means that use MKL-DNN to accelerate. - The configurable parameters in `predict_args` are consistent with the `predict` function interface in `module.py`. **Note:** - When using the configuration file to start the service, other parameters will be ignored. - If you use GPU prediction (that is, `use_gpu` is set to `true`), you need to set the environment variable CUDA_VISIBLE_DEVICES before starting the service, such as: ```export CUDA_VISIBLE_DEVICES=0```, otherwise you do not need to set it. - **`use_gpu` and `use_multiprocess` cannot be `true` at the same time.** - **When both `use_gpu` and `enable_mkldnn` are set to `true` at the same time, GPU is used to run and `enable_mkldnn` will be ignored.** For example, use GPU card No. 3 to start the 2-stage series service: ```shell export CUDA_VISIBLE_DEVICES=3 hub serving start -c deploy/hubserving/clas/config.json ``` ## Send prediction requests After the service starts, you can use the following command to send a prediction request to obtain the prediction result: ```shell python tools/test_hubserving.py server_url image_path ``` Two parameters need to be passed to the script: - **server_url**:service address,format of which is `http://[ip_address]:[port]/predict/[module_name]` - **image_path**:Test image path, can be a single image path or an image directory path - **top_k**:[**Optional**] Return the top `top_k` 's scores ,default by `1`. **Eg.** ```shell python tools/test_hubserving.py http://127.0.0.1:8866/predict/clas_system ./deploy/hubserving/ILSVRC2012_val_00006666.JPEG 5 ``` ## Returned result format The returned result is a list, including classification results(`clas`), and the `top_k`'s scores(`socres`). And `scores` is a list, consist of `score`. **Note:** If you need to add, delete or modify the returned fields, you can modify the file `module.py` of the corresponding module. For the complete process, refer to the user-defined modification service module in the next section. ## User defined service module modification If you need to modify the service logic, the following steps are generally required: - 1. Stop service ```shell hub serving stop --port/-p XXXX ``` - 2. Modify the code in the corresponding files, like `module.py` and `params.py`, according to the actual needs. For example, if you need to replace the model used by the deployed service, you need to modify model path parameters `cfg.model_file` and `cfg.params_file` in `params.py`. Of course, other related parameters may need to be modified at the same time. Please modify and debug according to the actual situation. It is suggested to run `module.py` directly for debugging after modification before starting the service test. - 3. Uninstall old service module ```shell hub uninstall clas_system ``` - 4. Install modified service module ```shell hub install deploy/hubserving/clas/ ``` - 5. Restart service ```shell hub serving start -m clas_system ```