未验证 提交 4f076cf7 编写于 作者: B barriery 提交者: GitHub

Merge branch 'develop' into add-nvidia-wiki-to-docker-images-doc

# How to develop a new Web service?
([简体中文](NEW_WEB_SERVICE_CN.md)|English)
This document will take the image classification service based on the Imagenet data set as an example to introduce how to develop a new web service. The complete code can be visited at [here](../python/examples/imagenet/resnet50_web_service.py).
This document will take Uci service as an example to introduce how to develop a new Web Service. You can check out the complete code [here](../python/examples/pipeline/simple_web_service/web_service.py).
## WebService base class
## Op base class
In some services, a single model may not meet business needs, requiring multiple models to be concatenated or parallel to complete the entire service. We call a single model operation Op and provide a simple set of interfaces to implement the complex logic of Op concatenation or parallelism.
Paddle Serving implements the [WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L23) base class. You need to override its `preprocess` and `postprocess` method. The default implementation is as follows:
Data between Ops is passed as a dictionary, Op can be started as threads or process, and Op can be configured for the number of concurrencies, etc.
Typically, you need to inherit the Op base class and override its `init_op`, `preprocess` and `postprocess` methods, which are implemented by default as follows:
```python
class WebService(object):
def preprocess(self, feed={}, fetch=[]):
return feed, fetch
def postprocess(self, feed={}, fetch=[], fetch_map=None):
return fetch_map
class Op(object):
def init_op(self):
pass
def preprocess(self, input_dicts):
# multiple previous Op
if len(input_dicts) != 1:
_LOGGER.critical(
"Failed to run preprocess: this Op has multiple previous "
"inputs. Please override this func.")
os._exit(-1)
(_, input_dict), = input_dicts.items()
return input_dict
def postprocess(self, input_dicts, fetch_dict):
return fetch_dict
```
### init_op
This method is used to load user-defined resources such as dictionaries. A separator is loaded in the [UciOp](../python/examples/pipeline/simple_web_service/web_service.py).
**Note**: If Op is launched in threaded mode, different threads of the same Op execute `init_op` only once and share `init_op` loaded resources when Op is multi-concurrent.
### preprocess
The preprocess method has two input parameters, `feed` and `fetch`. For an HTTP request `request`:
This method is used to preprocess the data before model prediction. It has an `input_dicts` parameter, `input_dicts` is a dictionary, key is the `name` of the previous Op, and value is the data transferred from the corresponding previous op (the data is also in dictionary format).
- The value of `feed` is the feed part `request.json["feed"]` in the request data
- The value of `fetch` is the fetch part `request.json["fetch"]` in the request data
The `preprocess` method needs to process the data into a ndarray dictionary (key is the feed variable name, and value is the corresponding ndarray value). Op will take the return value as the input of the model prediction and pass the output to the `postprocess` method.
The return values are the feed and fetch values used in the prediction.
**Note**: if Op does not have a model configuration file, the return value of `preprocess` will be directly passed to `postprocess`.
### postprocess
The postprocess method has three input parameters, `feed`, `fetch` and `fetch_map`:
This method is used for data post-processing after model prediction. It has two parameters, `input_dicts` and `fetch_dict`.
Where the `input_dicts` parameter is consistent with the parameter in `preprocess` method, and `fetch_dict` is the output of the model prediction (key is the name of the fetch variable, and value is the corresponding ndarray value). Op will take the return value of `postprocess` as the input of subsequent Op `preprocess`.
- The value of `feed` is the feed part `request.json["feed"]` in the request data
- The value of `fetch` is the fetch part `request.json["fetch"]` in the request data
- The value of `fetch_map` is the model output value.
**Note**: if Op does not have a model configuration file, `fetch_dict` will be the return value of `preprocess`.
The return value will be processed as `{"reslut": fetch_map}` as the return of the HTTP request.
## Develop ImageService class
Here is the op of the UCI example:
```python
class UciOp(Op):
def init_op(self):
self.separator = ","
def preprocess(self, input_dicts):
(_, input_dict), = input_dicts.items()
x_value = input_dict["x"]
if isinstance(x_value, (str, unicode)):
input_dict["x"] = np.array(
[float(x.strip()) for x in x_value.split(self.separator)])
return input_dict
def postprocess(self, input_dicts, fetch_dict):
fetch_dict["price"] = str(fetch_dict["price"][0][0])
return fetch_dict
```
## WebService base class
Paddle Serving implements the [WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L23) base class. You need to override its `get_pipeline_response` method to define the topological relationship between Ops. The default implementation is as follows:
```python
class ImageService(WebService):
def preprocess(self, feed={}, fetch=[]):
reader = ImageReader()
feed_batch = []
for ins in feed:
if "image" not in ins:
raise ("feed data error!")
sample = base64.b64decode(ins["image"])
img = reader.process_image(sample)
feed_batch.append({"image": img})
return feed_batch, fetch
class WebService(object):
def get_pipeline_response(self, read_op):
return None
```
Where `read_op` serves as the entry point of the topology map of the whole service (that is, the first op defined by the user is followed by `read_op`).
For single Op service (single model), take Uci service as an example (there is only one Uci prediction model in the whole service):
```python
class UciService(WebService):
def get_pipeline_response(self, read_op):
uci_op = UciOp(name="uci", input_ops=[read_op])
return uci_op
```
For multiple Op services (multiple models), take Ocr service as an example (the whole service is completed in series by Det model and Rec model):
```python
class OcrService(WebService):
def get_pipeline_response(self, read_op):
det_op = DetOp(name="det", input_ops=[read_op])
rec_op = RecOp(name="rec", input_ops=[det_op])
return rec_op
```
WebService objects need to load a yaml configuration file through the `prepare_pipeline_config` to configure each Op and the entire service. The simplest configuration file is as follows (Uci example):
```yaml
http_port: 18080
op:
uci:
local_service_conf:
model_config: uci_housing_model # path
```
All field names of yaml file are as follows:
```yaml
rpc_port: 18080 # gRPC port
build_dag_each_worker: false # Whether to use process server or not. The default is false
worker_num: 1 # gRPC thread pool size (the number of processes in the process version servicer). The default is 1
http_port: 0 # HTTP service port. Do not start HTTP service when the value is less or equals 0. The default value is 0.
dag:
is_thread_op: true # Whether to use the thread version of OP. The default is true
client_type: brpc # Use brpc or grpc client. The default is brpc
retry: 1 # The number of times DAG executor retries after failure. The default value is 1, that is, no retrying
use_profile: false # Whether to print the log on the server side. The default is false
tracer:
interval_s: -1 # Monitoring time interval of Tracer (in seconds). Do not start monitoring when the value is less than 1. The default value is -1
op:
<op_name>: # op name, corresponding to the one defined in the program
concurrency: 1 # op concurrency number, the default is 1
timeout: -1 # predict timeout in milliseconds. The default value is -1, that is, no timeout
retry: 1 # timeout retransmissions. The default value is 1, that is, do not try again
batch_size: 1 # If this field is set, Op will merge multiple request outputs into a single batch
auto_batching_timeout: -1 # auto-batching timeout in milliseconds. The default value is -1, that is, no timeout
local_service_conf:
model_config: # the path of the corresponding model file. There is no default value(None). If this item is not configured, the model file will not be loaded.
workdir: "" # working directory of corresponding model
thread_num: 2 # the corresponding model is started with thread_num threads
devices: "" # on which device does the model launched. You can specify the GPU card number(such as "0,1,2"), which is CPU by default
mem_optim: true # mem optimization option, the default is true
ir_optim: false # ir optimization option, the default is false
```
For the above `ImageService`, only the `preprocess` method is rewritten to process the image data in Base64 format into the data format required by prediction.
All fields of Op can be defined when Op is created in the program (which will override yaml fields).
# 如何开发一个新的Web Service?
(简体中文|[English](NEW_WEB_SERVICE.md))
本文档将以Imagenet图像分类服务为例,来介绍如何开发一个新的Web Service。您可以在[这里](../python/examples/imagenet/resnet50_web_service.py)查阅完整的代码。
本文档将以 Uci 房价预测服务为例,来介绍如何开发一个新的Web Service。您可以在[这里](../python/examples/pipeline/simple_web_service/web_service.py)查阅完整的代码。
## Op 基类
在一些服务中,单个模型可能无法满足需求,需要多个模型串联或并联来完成整个服务。我们将单个模型操作称为 Op,并提供了一套简单的接口来实现 Op 串联或并联的复杂逻辑。
## WebService基类
Op 间数据是以字典形式进行传递的,Op 可以以线程或进程方式启动,同时可以对 Op 的并发数等进行配置。
Paddle Serving实现了[WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L23)基类,您需要重写它的`preprocess`方法和`postprocess`方法,默认实现如下:
通常情况下,您需要继承 Op 基类,重写它的 `init_op``preprocess``postprocess` 方法,默认实现如下:
```python
class WebService(object):
def preprocess(self, feed={}, fetch=[]):
return feed, fetch
def postprocess(self, feed={}, fetch=[], fetch_map=None):
return fetch_map
class Op(object):
def init_op(self):
pass
def preprocess(self, input_dicts):
# multiple previous Op
if len(input_dicts) != 1:
_LOGGER.critical(
"Failed to run preprocess: this Op has multiple previous "
"inputs. Please override this func.")
os._exit(-1)
(_, input_dict), = input_dicts.items()
return input_dict
def postprocess(self, input_dicts, fetch_dict):
return fetch_dict
```
### preprocess方法
### init_op 方法
该方法用于加载用户自定义资源(如字典等),在 [UciOp](../python/examples/pipeline/simple_web_service/web_service.py) 中加载了一个分隔符。
**注意**:如果 Op 是以线程模式加载的,那么在 Op 多并发时,同种 Op 的不同线程只执行一次 `init_op`,且共用 `init_op` 加载的资源。
### preprocess 方法
该方法用于模型预测前对数据的预处理,它有一个 `input_dicts` 参数,`input_dicts` 是一个字典,key 为前继 Op 的 `name`,value 为对应前继 Op 传递过来的数据(数据同样是字典格式)。
`preprocess` 方法需要将数据处理成 ndarray 字典(key 为 feed 变量名,value 为对应的 ndarray 值),Op 会将该返回值作为模型预测的输入,并将输出传递给 `postprocess` 方法。
preprocess方法有两个输入参数,`feed``fetch`。对于一个HTTP请求`request`
**注意**:如果 Op 没有配置模型,则 `preprocess` 的返回值会直接传递给 `postprocess`
- `feed`的值为请求数据中的feed部分`request.json["feed"]`
- `fetch`的值为请求数据中的fetch部分`request.json["fetch"]`
### postprocess 方法
返回值分别是预测过程中用到的feed和fetch值
该方法用于模型预测后对数据的后处理,它有两个参数,`input_dicts``fetch_dict`
### postprocess方法
其中,`input_dicts``preprocess` 的参数相同,`fetch_dict` 为模型预测的输出(key 为 fetch 变量名,value 为对应的 ndarray 值)。Op 会将 `postprocess` 的返回值作为后继 Op `preprocess` 的输入。
postprocess方法有三个输入参数,`feed``fetch``fetch_map`
**注意**:如果 Op 没有配置模型,则 `fetch_dict` 将为 `preprocess` 的返回值。
- `feed`的值为请求数据中的feed部分`request.json["feed"]`
- `fetch`的值为请求数据中的fetch部分`request.json["fetch"]`
- `fetch_map`的值为fetch到的模型输出值
返回值将会被处理成`{"reslut": fetch_map}`作为HTTP请求的返回。
## 开发ImageService类
下面是 Uci 例子的 Op:
```python
class ImageService(WebService):
def preprocess(self, feed={}, fetch=[]):
reader = ImageReader()
feed_batch = []
for ins in feed:
if "image" not in ins:
raise ("feed data error!")
sample = base64.b64decode(ins["image"])
img = reader.process_image(sample)
feed_batch.append({"image": img})
return feed_batch, fetch
class UciOp(Op):
def init_op(self):
self.separator = ","
def preprocess(self, input_dicts):
(_, input_dict), = input_dicts.items()
x_value = input_dict["x"]
if isinstance(x_value, (str, unicode)):
input_dict["x"] = np.array(
[float(x.strip()) for x in x_value.split(self.separator)])
return input_dict
def postprocess(self, input_dicts, fetch_dict):
fetch_dict["price"] = str(fetch_dict["price"][0][0])
return fetch_dict
```
## WebService 基类
Paddle Serving 实现了 [WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L28) 基类,您需要重写它的 `get_pipeline_response` 方法来定义 Op 间的拓扑关系,并返回作为 Response 的 Op,默认实现如下:
```python
class WebService(object):
def get_pipeline_response(self, read_op):
return None
```
其中,`read_op` 作为整个服务拓扑图的入口(即用户自定义的第一个 Op 的前继为 `read_op`)。
对于单 Op 服务(单模型),以 Uci 服务为例(整个服务中只有一个 Uci 房价预测模型):
```python
class UciService(WebService):
def get_pipeline_response(self, read_op):
uci_op = UciOp(name="uci", input_ops=[read_op])
return uci_op
```
对于多 Op 服务(多模型),以 Ocr 服务为例(整个服务由 Det 模型和 Rec 模型串联完成):
```python
class OcrService(WebService):
def get_pipeline_response(self, read_op):
det_op = DetOp(name="det", input_ops=[read_op])
rec_op = RecOp(name="rec", input_ops=[det_op])
return rec_op
```
WebService 对象需要通过 `prepare_pipeline_config` 加载一个 yaml 配置文件,用来对各个 Op 以及整个服务进行配置,最简单的配置文件如下(Uci 例子):
```yaml
http_port: 18080
op:
uci:
local_service_conf:
model_config: uci_housing_model # 路径
```
yaml 文件的所有字段名详见下面:
```yaml
rpc_port: 18080 # gRPC端口号
build_dag_each_worker: false # 是否使用进程版 Servicer,默认为 false
worker_num: 1 # gRPC线程池大小(进程版 Servicer 中为进程数),默认为 1
http_port: 0 # HTTP 服务的端口号,若该值小于或等于 0 则不开启 HTTP 服务,默认为 0
dag:
is_thread_op: true # 是否使用线程版Op,默认为 true
client_type: brpc # 使用 brpc 或 grpc client,默认为 brpc
retry: 1 # DAG Executor 在失败后重试次数,默认为 1,即不重试
use_profile: false # 是否在 Server 端打印日志,默认为 false
tracer:
interval_s: -1 # Tracer 监控的时间间隔,单位为秒。当该值小于 1 时不启动监控,默认为 -1
op:
<op_name>: # op 名,与程序中定义的相对应
concurrency: 1 # op 并发数,默认为 1
timeout: -1 # 预测超时时间,单位为毫秒。默认为 -1 即不超时
retry: 1 # 超时重发次数。默认为 1 即不重试
batch_size: 1 # auto-batching 中的 batch_size,若设置该字段则 Op 会将多个请求输出合并为一个 batch
auto_batching_timeout: -1 # auto-batching 超时时间,单位为毫秒。默认为 -1 即不超时
local_service_conf:
model_config: # 对应模型文件的路径,无默认值(None)。若不配置该项则不会加载模型文件。
workdir: "" # 对应模型的工作目录
thread_num: 2 # 对应模型用几个线程启动
devices: "" # 模型启动在哪个设备上,可以指定 gpu 卡号(如 "0,1,2"),默认为 cpu
mem_optim: true # mem 优化选项,默认为 true
ir_optim: false # ir 优化选项,默认为 false
```
对于上述的`ImageService`,只重写了前处理方法,将base64格式的图片数据处理成模型预测需要的数据格式
其中,Op 的所有字段均可以在程序中创建 Op 时定义(会覆盖 yaml 的字段)
# How to develop a new Web service?
([简体中文](NEW_WEB_SERVICE_CN.md)|English)
This document will take the image classification service based on the Imagenet data set as an example to introduce how to develop a new web service. The complete code can be visited at [here](../python/examples/imagenet/resnet50_web_service.py).
## WebService base class
Paddle Serving implements the [WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L23) base class. You need to override its `preprocess` and `postprocess` method. The default implementation is as follows:
```python
class WebService(object):
def preprocess(self, feed={}, fetch=[]):
return feed, fetch
def postprocess(self, feed={}, fetch=[], fetch_map=None):
return fetch_map
```
### preprocess
The preprocess method has two input parameters, `feed` and `fetch`. For an HTTP request `request`:
- The value of `feed` is the feed part `request.json["feed"]` in the request data
- The value of `fetch` is the fetch part `request.json["fetch"]` in the request data
The return values are the feed and fetch values used in the prediction.
### postprocess
The postprocess method has three input parameters, `feed`, `fetch` and `fetch_map`:
- The value of `feed` is the feed part `request.json["feed"]` in the request data
- The value of `fetch` is the fetch part `request.json["fetch"]` in the request data
- The value of `fetch_map` is the model output value.
The return value will be processed as `{"reslut": fetch_map}` as the return of the HTTP request.
## Develop ImageService class
```python
class ImageService(WebService):
def preprocess(self, feed={}, fetch=[]):
reader = ImageReader()
feed_batch = []
for ins in feed:
if "image" not in ins:
raise ("feed data error!")
sample = base64.b64decode(ins["image"])
img = reader.process_image(sample)
feed_batch.append({"image": img})
return feed_batch, fetch
```
For the above `ImageService`, only the `preprocess` method is rewritten to process the image data in Base64 format into the data format required by prediction.
# 如何开发一个新的Web Service?
(简体中文|[English](NEW_WEB_SERVICE.md))
本文档将以Imagenet图像分类服务为例,来介绍如何开发一个新的Web Service。您可以在[这里](../python/examples/imagenet/resnet50_web_service.py)查阅完整的代码。
## WebService基类
Paddle Serving实现了[WebService](https://github.com/PaddlePaddle/Serving/blob/develop/python/paddle_serving_server/web_service.py#L23)基类,您需要重写它的`preprocess`方法和`postprocess`方法,默认实现如下:
```python
class WebService(object):
def preprocess(self, feed={}, fetch=[]):
return feed, fetch
def postprocess(self, feed={}, fetch=[], fetch_map=None):
return fetch_map
```
### preprocess方法
preprocess方法有两个输入参数,`feed``fetch`。对于一个HTTP请求`request`
- `feed`的值为请求数据中的feed部分`request.json["feed"]`
- `fetch`的值为请求数据中的fetch部分`request.json["fetch"]`
返回值分别是预测过程中用到的feed和fetch值。
### postprocess方法
postprocess方法有三个输入参数,`feed``fetch``fetch_map`
- `feed`的值为请求数据中的feed部分`request.json["feed"]`
- `fetch`的值为请求数据中的fetch部分`request.json["fetch"]`
- `fetch_map`的值为fetch到的模型输出值
返回值将会被处理成`{"reslut": fetch_map}`作为HTTP请求的返回。
## 开发ImageService类
```python
class ImageService(WebService):
def preprocess(self, feed={}, fetch=[]):
reader = ImageReader()
feed_batch = []
for ins in feed:
if "image" not in ins:
raise ("feed data error!")
sample = base64.b64decode(ins["image"])
img = reader.process_image(sample)
feed_batch.append({"image": img})
return feed_batch, fetch
```
对于上述的`ImageService`,只重写了前处理方法,将base64格式的图片数据处理成模型预测需要的数据格式。
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