If you can add properties to the data during sending to event hub, then you can try the steps below.
1.We need to set 2 properties for each event data.
For test data, we can add the following 2 properties:
property_name: "category", its velue: "test", which is used to determine which kind of data you're receiving, like for test or for train.
property_name: "seqNum", its value is number, like 0,1,2,3, which is used to determine the sequence of the data.
And for train data, use the steps above, just change category value to "train".
I set these properties in c# code, looks like below. You can set it via your own way without c#:
for (var i = 0; i < numMessagesToSend; i++)
{
var message = "555 Message";
EventData mydata = new EventData(Encoding.UTF8.GetBytes(message));
//add properties
mydata.Properties.Add("seqNum", i);
mydata.Properties.Add("category", "test");
await eventHubClient.SendAsync(mydata);
}
Then use the following python code to receive the data. Here, I define 2 dicts, one for store test data, another for store train data.
import logging
import asyncio
import os
import sys
import signal
import functools
from azure.eventprocessorhost import (
AbstractEventProcessor,
AzureStorageCheckpointLeaseManager,
EventHubConfig,
EventProcessorHost,
EPHOptions
)
# define 2 dictionaries, to store test data and train data respectively.
dict_test={}
dict_train={}
class EventProcessor(AbstractEventProcessor):
def __init__(self, params=None):
super().__init__(params)
self._msg_counter = 0
async def open_async(self, context):
print("Connection established {}".format(context.partition_id))
async def close_async(self, context, reason):
print("Connection closed (reason {}, id {}, offset {}, sq_number {})".format(
reason,
context.partition_id,
context.offset,
context.sequence_number))
async def process_events_async(self, context, messages):
for m in messages:
data = m.body_as_str()
if m.application_properties is not None:
mycategory = m.application_properties.get(b'category').decode('utf-8')
mysequence = str(m.application_properties.get(b'seqNum'))
if mycategory == 'test':
dict_test[mysequence]=data
if mycategory == 'train':
dict_train[mysequence]=data
print("Received data: {}".format(data))
await context.checkpoint_async()
async def process_error_async(self, context, error):
print("Event Processor Error {!r}".format(error))
async def wait_and_close(host):
await asyncio.sleep(60)
await host.close_async()
try:
loop = asyncio.get_event_loop()
# Storage Account Credentials
STORAGE_ACCOUNT_NAME = "xxx"
STORAGE_KEY = "xxxx"
LEASE_CONTAINER_NAME = "xxx"
NAMESPACE = "xxx"
EVENTHUB = "xxx"
USER = "RootManageSharedAccessKey"
KEY = "xxxx"
# Eventhub config and storage manager
eh_config = EventHubConfig(NAMESPACE, EVENTHUB, USER, KEY, consumer_group="$default")
eh_options = EPHOptions()
eh_options.release_pump_on_timeout = True
eh_options.debug_trace = False
storage_manager = AzureStorageCheckpointLeaseManager(
STORAGE_ACCOUNT_NAME, STORAGE_KEY, LEASE_CONTAINER_NAME)
# Event loop and host
host = EventProcessorHost(
EventProcessor,
eh_config,
storage_manager,
ep_params=["param1","param2"],
eph_options=eh_options,
loop=loop)
tasks = asyncio.gather(
host.open_async(),
wait_and_close(host))
loop.run_until_complete(tasks)
print("***this is the data for test***")
print(dict_test)
print("***-----------------------***")
print("***this is the data for train***")
print(dict_train)
except KeyboardInterrupt:
# Canceling pending tasks and stopping the loop
for task in asyncio.Task.all_tasks():
task.cancel()
loop.run_forever()
tasks.exception()
finally:
loop.stop()
The test result as below:
The last step, since the test data / train data are stored in dictionaries respectively, and the keys of the dict are the sequence number, you can write your code to operate the dict, rebuilt test data / train data in sequence.
