Updated on 2024-08-08 GMT+08:00

Querying Product Specifications

Function

This API is used to query the product specifications.

Calling Method

For details, see Calling APIs.

URI

GET /v2/{engine}/products

Table 1 Path Parameters

Parameter

Mandatory

Type

Description

engine

Yes

String

Message engine.

Table 2 Query Parameters

Parameter

Mandatory

Type

Description

product_id

No

String

Product ID.

Request Parameters

None

Response Parameters

Status code: 200

Table 3 Response body parameters

Parameter

Type

Description

engine

String

Message engine of DMS.

versions

Array of strings

Supported versions.

products

Array of ListEngineProductsEntity objects

Product specification details.

Table 4 ListEngineProductsEntity

Parameter

Type

Description

type

String

Product type. Currently, single-node and cluster types are supported.

product_id

String

Product ID.

ecs_flavor_id

String

ECS flavor.

billing_code

String

Billing mode.

arch_types

Array of strings

CPU architecture.

charging_mode

Array of strings

Billing mode.

  • monthly: yearly/monthly

  • hourly: pay-per-use

ios

Array of ListEngineIosEntity objects

List of supported disk I/O types.

support_features

Array of objects

List of features supported by instances of the current specifications.

properties

ListEnginePropertiesEntity object

Attribute of instances of the current specifications.

Table 5 ListEngineIosEntity

Parameter

Type

Description

io_spec

String

Disk I/O code.

type

String

Disk type.

available_zones

Array of strings

AZs.

unavailable_zones

Array of strings

Unavailable AZs.

Table 6 ListEnginePropertiesEntity

Parameter

Type

Description

step_length

String

Node quantity increase step.

max_queue_per_broker

String

Maximum number of queues on each broker.

max_connection_per_broker

String

Maximum number of connections on each broker.

max_partition_per_broker

String

Maximum number of partitions of each broker.

max_broker

String

Maximum number of brokers.

max_storage_per_node

String

Maximum storage space of each broker. Unit: GB.

max_consumer_per_broker

String

Maximum number of consumers of each broker.

min_broker

String

Minimum number of brokers.

max_bandwidth_per_broker

String

Maximum bandwidth of each broker.

min_storage_per_node

String

Minimum storage space of each broker. Unit: GB

max_tps_per_broker

String

Maximum TPS of each broker.

product_alias

String

Alias of product_id.

Example Requests

GET https://{endpoint}/v2/rabbitmq/products

Example Responses

Status code: 200

Product specifications are queried successfully.

  • Successful.

    {
      "engine" : "rabbitmq",
      "versions" : [ "3.8.35" ],
      "products" : [ {
        "type" : "single",
        "product_id" : "c6.2u4g.single",
        "ecs_flavor_id" : "c6.large.2",
        "billing_code" : "dms.platinum.c6",
        "arch_types" : [ "X86" ],
        "charging_mode" : [ "monthly", "hourly" ],
        "ios" : [ {
          "io_spec" : "dms.physical.storage.ultra.v2",
          "type" : "evs",
          "available_zones" : [ "xxx" ],
          "unavailable_zones" : [ "xxx" ]
        }, {
          "io_spec" : "dms.physical.storage.high.v2",
          "type" : "evs",
          "available_zones" : [ "xxx" ],
          "unavailable_zones" : [ "xxx" ]
        } ],
        "support_features" : [ ],
        "properties" : {
          "max_connection_per_broker" : "2000",
          "max_broker" : "1",
          "max_queue_per_broker" : "100",
          "max_storage_per_node" : "30000",
          "min_broker" : "1",
          "step_length" : "0",
          "min_storage_per_node" : "200",
          "product_alias" : "rabbitmq.2u4g.single"
        }
      }, {
        "type" : "cluster",
        "product_id" : "c6.4u8g.cluster",
        "ecs_flavor_id" : "c6.xlarge.2",
        "billing_code" : "dms.platinum.c6",
        "arch_types" : [ "X86" ],
        "charging_mode" : [ "monthly", "hourly" ],
        "ios" : [ {
          "io_spec" : "dms.physical.storage.high.v2",
          "type" : "evs",
          "available_zones" : [ "xxx" ],
          "unavailable_zones" : [ "xxx" ]
        }, {
          "io_spec" : "dms.physical.storage.ultra.v2",
          "type" : "evs",
          "available_zones" : [ "xxx" ],
          "unavailable_zones" : [ "xxx" ]
        } ],
        "support_features" : [ ],
        "properties" : {
          "max_connection_per_broker" : "4500",
          "max_broker" : "7",
          "max_queue_per_broker" : "400",
          "max_storage_per_node" : "30000",
          "min_broker" : "3",
          "step_length" : "2",
          "min_storage_per_node" : "100",
          "product_alias" : "rabbitmq.4u8g.cluster"
        }
      } ]
    }

SDK Sample Code

The SDK sample code is as follows.

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package com.huaweicloud.sdk.test;

import com.huaweicloud.sdk.core.auth.ICredential;
import com.huaweicloud.sdk.core.auth.BasicCredentials;
import com.huaweicloud.sdk.core.exception.ConnectionException;
import com.huaweicloud.sdk.core.exception.RequestTimeoutException;
import com.huaweicloud.sdk.core.exception.ServiceResponseException;
import com.huaweicloud.sdk.rabbitmq.v2.region.RabbitMQRegion;
import com.huaweicloud.sdk.rabbitmq.v2.*;
import com.huaweicloud.sdk.rabbitmq.v2.model.*;


public class ListEngineProductsSolution {

    public static void main(String[] args) {
        // The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
        // In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
        String ak = System.getenv("CLOUD_SDK_AK");
        String sk = System.getenv("CLOUD_SDK_SK");

        ICredential auth = new BasicCredentials()
                .withAk(ak)
                .withSk(sk);

        RabbitMQClient client = RabbitMQClient.newBuilder()
                .withCredential(auth)
                .withRegion(RabbitMQRegion.valueOf("<YOUR REGION>"))
                .build();
        ListEngineProductsRequest request = new ListEngineProductsRequest();
        request.withEngine(ListEngineProductsRequest.EngineEnum.fromValue("{engine}"));
        try {
            ListEngineProductsResponse response = client.listEngineProducts(request);
            System.out.println(response.toString());
        } catch (ConnectionException e) {
            e.printStackTrace();
        } catch (RequestTimeoutException e) {
            e.printStackTrace();
        } catch (ServiceResponseException e) {
            e.printStackTrace();
            System.out.println(e.getHttpStatusCode());
            System.out.println(e.getRequestId());
            System.out.println(e.getErrorCode());
            System.out.println(e.getErrorMsg());
        }
    }
}
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# coding: utf-8

import os
from huaweicloudsdkcore.auth.credentials import BasicCredentials
from huaweicloudsdkrabbitmq.v2.region.rabbitmq_region import RabbitMQRegion
from huaweicloudsdkcore.exceptions import exceptions
from huaweicloudsdkrabbitmq.v2 import *

if __name__ == "__main__":
    # The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
    # In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
    ak = os.environ["CLOUD_SDK_AK"]
    sk = os.environ["CLOUD_SDK_SK"]

    credentials = BasicCredentials(ak, sk)

    client = RabbitMQClient.new_builder() \
        .with_credentials(credentials) \
        .with_region(RabbitMQRegion.value_of("<YOUR REGION>")) \
        .build()

    try:
        request = ListEngineProductsRequest()
        request.engine = "{engine}"
        response = client.list_engine_products(request)
        print(response)
    except exceptions.ClientRequestException as e:
        print(e.status_code)
        print(e.request_id)
        print(e.error_code)
        print(e.error_msg)
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package main

import (
	"fmt"
	"github.com/huaweicloud/huaweicloud-sdk-go-v3/core/auth/basic"
    rabbitmq "github.com/huaweicloud/huaweicloud-sdk-go-v3/services/rabbitmq/v2"
	"github.com/huaweicloud/huaweicloud-sdk-go-v3/services/rabbitmq/v2/model"
    region "github.com/huaweicloud/huaweicloud-sdk-go-v3/services/rabbitmq/v2/region"
)

func main() {
    // The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
    // In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
    ak := os.Getenv("CLOUD_SDK_AK")
    sk := os.Getenv("CLOUD_SDK_SK")

    auth := basic.NewCredentialsBuilder().
        WithAk(ak).
        WithSk(sk).
        Build()

    client := rabbitmq.NewRabbitMQClient(
        rabbitmq.RabbitMQClientBuilder().
            WithRegion(region.ValueOf("<YOUR REGION>")).
            WithCredential(auth).
            Build())

    request := &model.ListEngineProductsRequest{}
	request.Engine = model.GetListEngineProductsRequestEngineEnum().ENGINE
	response, err := client.ListEngineProducts(request)
	if err == nil {
        fmt.Printf("%+v\n", response)
    } else {
        fmt.Println(err)
    }
}

For SDK sample code of more programming languages, see the Sample Code tab in API Explorer. SDK sample code can be automatically generated.

Status Codes

Status Code

Description

200

Product specifications are queried successfully.

Error Codes

See Error Codes.