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Volcengine v0.0.27 published on Tuesday, Dec 10, 2024 by Volcengine
volcengine.kafka.SaslUsers
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Use this data source to query detailed information of kafka sasl users
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as volcengine from "@pulumi/volcengine";
import * as volcengine from "@volcengine/pulumi";
const fooZones = volcengine.ecs.Zones({});
const fooVpc = new volcengine.vpc.Vpc("fooVpc", {
vpcName: "acc-test-vpc",
cidrBlock: "172.16.0.0/16",
});
const fooSubnet = new volcengine.vpc.Subnet("fooSubnet", {
subnetName: "acc-test-subnet",
cidrBlock: "172.16.0.0/24",
zoneId: fooZones.then(fooZones => fooZones.zones?.[0]?.id),
vpcId: fooVpc.id,
});
const fooInstance = new volcengine.kafka.Instance("fooInstance", {
instanceName: "acc-test-kafka",
instanceDescription: "tf-test",
version: "2.2.2",
computeSpec: "kafka.20xrate.hw",
subnetId: fooSubnet.id,
userName: "tf-user",
userPassword: "tf-pass!@q1",
chargeType: "PostPaid",
storageSpace: 300,
partitionNumber: 350,
projectName: "default",
tags: [{
key: "k1",
value: "v1",
}],
parameters: [
{
parameterName: "MessageMaxByte",
parameterValue: "12",
},
{
parameterName: "LogRetentionHours",
parameterValue: "70",
},
],
});
const fooSaslUser = new volcengine.kafka.SaslUser("fooSaslUser", {
userName: "acc-test-user",
instanceId: fooInstance.id,
userPassword: "suqsnis123!",
description: "tf-test",
allAuthority: true,
passwordType: "Scram",
});
const default = volcengine.kafka.SaslUsersOutput({
instanceId: fooInstance.id,
userName: fooSaslUser.userName,
});
import pulumi
import pulumi_volcengine as volcengine
foo_zones = volcengine.ecs.zones()
foo_vpc = volcengine.vpc.Vpc("fooVpc",
vpc_name="acc-test-vpc",
cidr_block="172.16.0.0/16")
foo_subnet = volcengine.vpc.Subnet("fooSubnet",
subnet_name="acc-test-subnet",
cidr_block="172.16.0.0/24",
zone_id=foo_zones.zones[0].id,
vpc_id=foo_vpc.id)
foo_instance = volcengine.kafka.Instance("fooInstance",
instance_name="acc-test-kafka",
instance_description="tf-test",
version="2.2.2",
compute_spec="kafka.20xrate.hw",
subnet_id=foo_subnet.id,
user_name="tf-user",
user_password="tf-pass!@q1",
charge_type="PostPaid",
storage_space=300,
partition_number=350,
project_name="default",
tags=[volcengine.kafka.InstanceTagArgs(
key="k1",
value="v1",
)],
parameters=[
volcengine.kafka.InstanceParameterArgs(
parameter_name="MessageMaxByte",
parameter_value="12",
),
volcengine.kafka.InstanceParameterArgs(
parameter_name="LogRetentionHours",
parameter_value="70",
),
])
foo_sasl_user = volcengine.kafka.SaslUser("fooSaslUser",
user_name="acc-test-user",
instance_id=foo_instance.id,
user_password="suqsnis123!",
description="tf-test",
all_authority=True,
password_type="Scram")
default = volcengine.kafka.sasl_users_output(instance_id=foo_instance.id,
user_name=foo_sasl_user.user_name)
package main
import (
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
"github.com/volcengine/pulumi-volcengine/sdk/go/volcengine/ecs"
"github.com/volcengine/pulumi-volcengine/sdk/go/volcengine/kafka"
"github.com/volcengine/pulumi-volcengine/sdk/go/volcengine/vpc"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
fooZones, err := ecs.Zones(ctx, nil, nil)
if err != nil {
return err
}
fooVpc, err := vpc.NewVpc(ctx, "fooVpc", &vpc.VpcArgs{
VpcName: pulumi.String("acc-test-vpc"),
CidrBlock: pulumi.String("172.16.0.0/16"),
})
if err != nil {
return err
}
fooSubnet, err := vpc.NewSubnet(ctx, "fooSubnet", &vpc.SubnetArgs{
SubnetName: pulumi.String("acc-test-subnet"),
CidrBlock: pulumi.String("172.16.0.0/24"),
ZoneId: pulumi.String(fooZones.Zones[0].Id),
VpcId: fooVpc.ID(),
})
if err != nil {
return err
}
fooInstance, err := kafka.NewInstance(ctx, "fooInstance", &kafka.InstanceArgs{
InstanceName: pulumi.String("acc-test-kafka"),
InstanceDescription: pulumi.String("tf-test"),
Version: pulumi.String("2.2.2"),
ComputeSpec: pulumi.String("kafka.20xrate.hw"),
SubnetId: fooSubnet.ID(),
UserName: pulumi.String("tf-user"),
UserPassword: pulumi.String("tf-pass!@q1"),
ChargeType: pulumi.String("PostPaid"),
StorageSpace: pulumi.Int(300),
PartitionNumber: pulumi.Int(350),
ProjectName: pulumi.String("default"),
Tags: kafka.InstanceTagArray{
&kafka.InstanceTagArgs{
Key: pulumi.String("k1"),
Value: pulumi.String("v1"),
},
},
Parameters: kafka.InstanceParameterArray{
&kafka.InstanceParameterArgs{
ParameterName: pulumi.String("MessageMaxByte"),
ParameterValue: pulumi.String("12"),
},
&kafka.InstanceParameterArgs{
ParameterName: pulumi.String("LogRetentionHours"),
ParameterValue: pulumi.String("70"),
},
},
})
if err != nil {
return err
}
fooSaslUser, err := kafka.NewSaslUser(ctx, "fooSaslUser", &kafka.SaslUserArgs{
UserName: pulumi.String("acc-test-user"),
InstanceId: fooInstance.ID(),
UserPassword: pulumi.String("suqsnis123!"),
Description: pulumi.String("tf-test"),
AllAuthority: pulumi.Bool(true),
PasswordType: pulumi.String("Scram"),
})
if err != nil {
return err
}
_ = kafka.SaslUsersOutput(ctx, kafka.SaslUsersOutputArgs{
InstanceId: fooInstance.ID(),
UserName: fooSaslUser.UserName,
}, nil)
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Volcengine = Pulumi.Volcengine;
return await Deployment.RunAsync(() =>
{
var fooZones = Volcengine.Ecs.Zones.Invoke();
var fooVpc = new Volcengine.Vpc.Vpc("fooVpc", new()
{
VpcName = "acc-test-vpc",
CidrBlock = "172.16.0.0/16",
});
var fooSubnet = new Volcengine.Vpc.Subnet("fooSubnet", new()
{
SubnetName = "acc-test-subnet",
CidrBlock = "172.16.0.0/24",
ZoneId = fooZones.Apply(zonesResult => zonesResult.Zones[0]?.Id),
VpcId = fooVpc.Id,
});
var fooInstance = new Volcengine.Kafka.Instance("fooInstance", new()
{
InstanceName = "acc-test-kafka",
InstanceDescription = "tf-test",
Version = "2.2.2",
ComputeSpec = "kafka.20xrate.hw",
SubnetId = fooSubnet.Id,
UserName = "tf-user",
UserPassword = "tf-pass!@q1",
ChargeType = "PostPaid",
StorageSpace = 300,
PartitionNumber = 350,
ProjectName = "default",
Tags = new[]
{
new Volcengine.Kafka.Inputs.InstanceTagArgs
{
Key = "k1",
Value = "v1",
},
},
Parameters = new[]
{
new Volcengine.Kafka.Inputs.InstanceParameterArgs
{
ParameterName = "MessageMaxByte",
ParameterValue = "12",
},
new Volcengine.Kafka.Inputs.InstanceParameterArgs
{
ParameterName = "LogRetentionHours",
ParameterValue = "70",
},
},
});
var fooSaslUser = new Volcengine.Kafka.SaslUser("fooSaslUser", new()
{
UserName = "acc-test-user",
InstanceId = fooInstance.Id,
UserPassword = "suqsnis123!",
Description = "tf-test",
AllAuthority = true,
PasswordType = "Scram",
});
var @default = Volcengine.Kafka.SaslUsers.Invoke(new()
{
InstanceId = fooInstance.Id,
UserName = fooSaslUser.UserName,
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.volcengine.ecs.EcsFunctions;
import com.pulumi.volcengine.ecs.inputs.ZonesArgs;
import com.pulumi.volcengine.vpc.Vpc;
import com.pulumi.volcengine.vpc.VpcArgs;
import com.pulumi.volcengine.vpc.Subnet;
import com.pulumi.volcengine.vpc.SubnetArgs;
import com.pulumi.volcengine.kafka.Instance;
import com.pulumi.volcengine.kafka.InstanceArgs;
import com.pulumi.volcengine.kafka.inputs.InstanceTagArgs;
import com.pulumi.volcengine.kafka.inputs.InstanceParameterArgs;
import com.pulumi.volcengine.kafka.SaslUser;
import com.pulumi.volcengine.kafka.SaslUserArgs;
import com.pulumi.volcengine.kafka.KafkaFunctions;
import com.pulumi.volcengine.kafka.inputs.SaslUsersArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
final var fooZones = EcsFunctions.Zones();
var fooVpc = new Vpc("fooVpc", VpcArgs.builder()
.vpcName("acc-test-vpc")
.cidrBlock("172.16.0.0/16")
.build());
var fooSubnet = new Subnet("fooSubnet", SubnetArgs.builder()
.subnetName("acc-test-subnet")
.cidrBlock("172.16.0.0/24")
.zoneId(fooZones.applyValue(zonesResult -> zonesResult.zones()[0].id()))
.vpcId(fooVpc.id())
.build());
var fooInstance = new Instance("fooInstance", InstanceArgs.builder()
.instanceName("acc-test-kafka")
.instanceDescription("tf-test")
.version("2.2.2")
.computeSpec("kafka.20xrate.hw")
.subnetId(fooSubnet.id())
.userName("tf-user")
.userPassword("tf-pass!@q1")
.chargeType("PostPaid")
.storageSpace(300)
.partitionNumber(350)
.projectName("default")
.tags(InstanceTagArgs.builder()
.key("k1")
.value("v1")
.build())
.parameters(
InstanceParameterArgs.builder()
.parameterName("MessageMaxByte")
.parameterValue("12")
.build(),
InstanceParameterArgs.builder()
.parameterName("LogRetentionHours")
.parameterValue("70")
.build())
.build());
var fooSaslUser = new SaslUser("fooSaslUser", SaslUserArgs.builder()
.userName("acc-test-user")
.instanceId(fooInstance.id())
.userPassword("suqsnis123!")
.description("tf-test")
.allAuthority(true)
.passwordType("Scram")
.build());
final var default = KafkaFunctions.SaslUsers(SaslUsersArgs.builder()
.instanceId(fooInstance.id())
.userName(fooSaslUser.userName())
.build());
}
}
resources:
fooVpc:
type: volcengine:vpc:Vpc
properties:
vpcName: acc-test-vpc
cidrBlock: 172.16.0.0/16
fooSubnet:
type: volcengine:vpc:Subnet
properties:
subnetName: acc-test-subnet
cidrBlock: 172.16.0.0/24
zoneId: ${fooZones.zones[0].id}
vpcId: ${fooVpc.id}
fooInstance:
type: volcengine:kafka:Instance
properties:
instanceName: acc-test-kafka
instanceDescription: tf-test
version: 2.2.2
computeSpec: kafka.20xrate.hw
subnetId: ${fooSubnet.id}
userName: tf-user
userPassword: tf-pass!@q1
chargeType: PostPaid
storageSpace: 300
partitionNumber: 350
projectName: default
tags:
- key: k1
value: v1
parameters:
- parameterName: MessageMaxByte
parameterValue: '12'
- parameterName: LogRetentionHours
parameterValue: '70'
fooSaslUser:
type: volcengine:kafka:SaslUser
properties:
userName: acc-test-user
instanceId: ${fooInstance.id}
userPassword: suqsnis123!
description: tf-test
allAuthority: true
passwordType: Scram
variables:
fooZones:
fn::invoke:
Function: volcengine:ecs:Zones
Arguments: {}
default:
fn::invoke:
Function: volcengine:kafka:SaslUsers
Arguments:
instanceId: ${fooInstance.id}
userName: ${fooSaslUser.userName}
Using SaslUsers
Two invocation forms are available. The direct form accepts plain arguments and either blocks until the result value is available, or returns a Promise-wrapped result. The output form accepts Input-wrapped arguments and returns an Output-wrapped result.
function saslUsers(args: SaslUsersArgs, opts?: InvokeOptions): Promise<SaslUsersResult>
function saslUsersOutput(args: SaslUsersOutputArgs, opts?: InvokeOptions): Output<SaslUsersResult>def sasl_users(instance_id: Optional[str] = None,
output_file: Optional[str] = None,
user_name: Optional[str] = None,
opts: Optional[InvokeOptions] = None) -> SaslUsersResult
def sasl_users_output(instance_id: Optional[pulumi.Input[str]] = None,
output_file: Optional[pulumi.Input[str]] = None,
user_name: Optional[pulumi.Input[str]] = None,
opts: Optional[InvokeOptions] = None) -> Output[SaslUsersResult]func SaslUsers(ctx *Context, args *SaslUsersArgs, opts ...InvokeOption) (*SaslUsersResult, error)
func SaslUsersOutput(ctx *Context, args *SaslUsersOutputArgs, opts ...InvokeOption) SaslUsersResultOutputpublic static class SaslUsers
{
public static Task<SaslUsersResult> InvokeAsync(SaslUsersArgs args, InvokeOptions? opts = null)
public static Output<SaslUsersResult> Invoke(SaslUsersInvokeArgs args, InvokeOptions? opts = null)
}public static CompletableFuture<SaslUsersResult> saslUsers(SaslUsersArgs args, InvokeOptions options)
public static Output<SaslUsersResult> saslUsers(SaslUsersArgs args, InvokeOptions options)
fn::invoke:
function: volcengine:kafka:SaslUsers
arguments:
# arguments dictionaryThe following arguments are supported:
- Instance
Id string - The id of instance.
- Output
File string - File name where to save data source results.
- User
Name string - The user name, support fuzzy matching.
- Instance
Id string - The id of instance.
- Output
File string - File name where to save data source results.
- User
Name string - The user name, support fuzzy matching.
- instance
Id String - The id of instance.
- output
File String - File name where to save data source results.
- user
Name String - The user name, support fuzzy matching.
- instance
Id string - The id of instance.
- output
File string - File name where to save data source results.
- user
Name string - The user name, support fuzzy matching.
- instance_
id str - The id of instance.
- output_
file str - File name where to save data source results.
- user_
name str - The user name, support fuzzy matching.
- instance
Id String - The id of instance.
- output
File String - File name where to save data source results.
- user
Name String - The user name, support fuzzy matching.
SaslUsers Result
The following output properties are available:
- Id string
- The provider-assigned unique ID for this managed resource.
- Instance
Id string - Total
Count int - The total count of query.
- Users
List<Sasl
Users User> - The collection of query.
- Output
File string - User
Name string - The name of user.
- Id string
- The provider-assigned unique ID for this managed resource.
- Instance
Id string - Total
Count int - The total count of query.
- Users
[]Sasl
Users User - The collection of query.
- Output
File string - User
Name string - The name of user.
- id String
- The provider-assigned unique ID for this managed resource.
- instance
Id String - total
Count Integer - The total count of query.
- users
List<Sasl
Users User> - The collection of query.
- output
File String - user
Name String - The name of user.
- id string
- The provider-assigned unique ID for this managed resource.
- instance
Id string - total
Count number - The total count of query.
- users
Sasl
Users User[] - The collection of query.
- output
File string - user
Name string - The name of user.
- id str
- The provider-assigned unique ID for this managed resource.
- instance_
id str - total_
count int - The total count of query.
- users
Sequence[Sasl
Users User] - The collection of query.
- output_
file str - user_
name str - The name of user.
- id String
- The provider-assigned unique ID for this managed resource.
- instance
Id String - total
Count Number - The total count of query.
- users List<Property Map>
- The collection of query.
- output
File String - user
Name String - The name of user.
Supporting Types
SaslUsersUser
- bool
- Whether this user has read and write permissions for all topics.
- Create
Time string - The create time.
- Description string
- The description of user.
- Password
Type string - The type of password.
- User
Name string - The user name, support fuzzy matching.
- bool
- Whether this user has read and write permissions for all topics.
- Create
Time string - The create time.
- Description string
- The description of user.
- Password
Type string - The type of password.
- User
Name string - The user name, support fuzzy matching.
- Boolean
- Whether this user has read and write permissions for all topics.
- create
Time String - The create time.
- description String
- The description of user.
- password
Type String - The type of password.
- user
Name String - The user name, support fuzzy matching.
- boolean
- Whether this user has read and write permissions for all topics.
- create
Time string - The create time.
- description string
- The description of user.
- password
Type string - The type of password.
- user
Name string - The user name, support fuzzy matching.
- bool
- Whether this user has read and write permissions for all topics.
- create_
time str - The create time.
- description str
- The description of user.
- password_
type str - The type of password.
- user_
name str - The user name, support fuzzy matching.
- Boolean
- Whether this user has read and write permissions for all topics.
- create
Time String - The create time.
- description String
- The description of user.
- password
Type String - The type of password.
- user
Name String - The user name, support fuzzy matching.
Package Details
- Repository
- volcengine volcengine/pulumi-volcengine
- License
- Apache-2.0
- Notes
- This Pulumi package is based on the
volcengineTerraform Provider.