We recommend using Azure Native.
azure.mobile.NetworkService
Explore with Pulumi AI
Manages a Mobile Network Service.
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as azure from "@pulumi/azure";
const example = new azure.core.ResourceGroup("example", {
name: "example-resources",
location: "east us",
});
const exampleNetwork = new azure.mobile.Network("example", {
name: "example-mn",
location: example.location,
resourceGroupName: example.name,
mobileCountryCode: "001",
mobileNetworkCode: "01",
});
const exampleNetworkService = new azure.mobile.NetworkService("example", {
name: "example-mns",
mobileNetworkId: exampleNetwork.id,
location: example.location,
servicePrecedence: 0,
pccRules: [{
name: "default-rule",
precedence: 1,
trafficControlEnabled: true,
qosPolicy: {
allocationAndRetentionPriorityLevel: 9,
qosIndicator: 9,
preemptionCapability: "NotPreempt",
preemptionVulnerability: "Preemptable",
guaranteedBitRate: {
downlink: "100 Mbps",
uplink: "10 Mbps",
},
maximumBitRate: {
downlink: "1 Gbps",
uplink: "100 Mbps",
},
},
serviceDataFlowTemplates: [{
direction: "Uplink",
name: "IP-to-server",
ports: [],
protocols: ["ip"],
remoteIpLists: ["10.3.4.0/24"],
}],
}],
serviceQosPolicy: {
allocationAndRetentionPriorityLevel: 9,
qosIndicator: 9,
preemptionCapability: "NotPreempt",
preemptionVulnerability: "Preemptable",
maximumBitRate: {
downlink: "1 Gbps",
uplink: "100 Mbps",
},
},
tags: {
key: "value",
},
});
import pulumi
import pulumi_azure as azure
example = azure.core.ResourceGroup("example",
name="example-resources",
location="east us")
example_network = azure.mobile.Network("example",
name="example-mn",
location=example.location,
resource_group_name=example.name,
mobile_country_code="001",
mobile_network_code="01")
example_network_service = azure.mobile.NetworkService("example",
name="example-mns",
mobile_network_id=example_network.id,
location=example.location,
service_precedence=0,
pcc_rules=[{
"name": "default-rule",
"precedence": 1,
"traffic_control_enabled": True,
"qos_policy": {
"allocation_and_retention_priority_level": 9,
"qos_indicator": 9,
"preemption_capability": "NotPreempt",
"preemption_vulnerability": "Preemptable",
"guaranteed_bit_rate": {
"downlink": "100 Mbps",
"uplink": "10 Mbps",
},
"maximum_bit_rate": {
"downlink": "1 Gbps",
"uplink": "100 Mbps",
},
},
"service_data_flow_templates": [{
"direction": "Uplink",
"name": "IP-to-server",
"ports": [],
"protocols": ["ip"],
"remote_ip_lists": ["10.3.4.0/24"],
}],
}],
service_qos_policy={
"allocation_and_retention_priority_level": 9,
"qos_indicator": 9,
"preemption_capability": "NotPreempt",
"preemption_vulnerability": "Preemptable",
"maximum_bit_rate": {
"downlink": "1 Gbps",
"uplink": "100 Mbps",
},
},
tags={
"key": "value",
})
package main
import (
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/mobile"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
example, err := core.NewResourceGroup(ctx, "example", &core.ResourceGroupArgs{
Name: pulumi.String("example-resources"),
Location: pulumi.String("east us"),
})
if err != nil {
return err
}
exampleNetwork, err := mobile.NewNetwork(ctx, "example", &mobile.NetworkArgs{
Name: pulumi.String("example-mn"),
Location: example.Location,
ResourceGroupName: example.Name,
MobileCountryCode: pulumi.String("001"),
MobileNetworkCode: pulumi.String("01"),
})
if err != nil {
return err
}
_, err = mobile.NewNetworkService(ctx, "example", &mobile.NetworkServiceArgs{
Name: pulumi.String("example-mns"),
MobileNetworkId: exampleNetwork.ID(),
Location: example.Location,
ServicePrecedence: pulumi.Int(0),
PccRules: mobile.NetworkServicePccRuleArray{
&mobile.NetworkServicePccRuleArgs{
Name: pulumi.String("default-rule"),
Precedence: pulumi.Int(1),
TrafficControlEnabled: pulumi.Bool(true),
QosPolicy: &mobile.NetworkServicePccRuleQosPolicyArgs{
AllocationAndRetentionPriorityLevel: pulumi.Int(9),
QosIndicator: pulumi.Int(9),
PreemptionCapability: pulumi.String("NotPreempt"),
PreemptionVulnerability: pulumi.String("Preemptable"),
GuaranteedBitRate: &mobile.NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs{
Downlink: pulumi.String("100 Mbps"),
Uplink: pulumi.String("10 Mbps"),
},
MaximumBitRate: &mobile.NetworkServicePccRuleQosPolicyMaximumBitRateArgs{
Downlink: pulumi.String("1 Gbps"),
Uplink: pulumi.String("100 Mbps"),
},
},
ServiceDataFlowTemplates: mobile.NetworkServicePccRuleServiceDataFlowTemplateArray{
&mobile.NetworkServicePccRuleServiceDataFlowTemplateArgs{
Direction: pulumi.String("Uplink"),
Name: pulumi.String("IP-to-server"),
Ports: pulumi.StringArray{},
Protocols: pulumi.StringArray{
pulumi.String("ip"),
},
RemoteIpLists: pulumi.StringArray{
pulumi.String("10.3.4.0/24"),
},
},
},
},
},
ServiceQosPolicy: &mobile.NetworkServiceServiceQosPolicyArgs{
AllocationAndRetentionPriorityLevel: pulumi.Int(9),
QosIndicator: pulumi.Int(9),
PreemptionCapability: pulumi.String("NotPreempt"),
PreemptionVulnerability: pulumi.String("Preemptable"),
MaximumBitRate: &mobile.NetworkServiceServiceQosPolicyMaximumBitRateArgs{
Downlink: pulumi.String("1 Gbps"),
Uplink: pulumi.String("100 Mbps"),
},
},
Tags: pulumi.StringMap{
"key": pulumi.String("value"),
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Azure = Pulumi.Azure;
return await Deployment.RunAsync(() =>
{
var example = new Azure.Core.ResourceGroup("example", new()
{
Name = "example-resources",
Location = "east us",
});
var exampleNetwork = new Azure.Mobile.Network("example", new()
{
Name = "example-mn",
Location = example.Location,
ResourceGroupName = example.Name,
MobileCountryCode = "001",
MobileNetworkCode = "01",
});
var exampleNetworkService = new Azure.Mobile.NetworkService("example", new()
{
Name = "example-mns",
MobileNetworkId = exampleNetwork.Id,
Location = example.Location,
ServicePrecedence = 0,
PccRules = new[]
{
new Azure.Mobile.Inputs.NetworkServicePccRuleArgs
{
Name = "default-rule",
Precedence = 1,
TrafficControlEnabled = true,
QosPolicy = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyArgs
{
AllocationAndRetentionPriorityLevel = 9,
QosIndicator = 9,
PreemptionCapability = "NotPreempt",
PreemptionVulnerability = "Preemptable",
GuaranteedBitRate = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs
{
Downlink = "100 Mbps",
Uplink = "10 Mbps",
},
MaximumBitRate = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyMaximumBitRateArgs
{
Downlink = "1 Gbps",
Uplink = "100 Mbps",
},
},
ServiceDataFlowTemplates = new[]
{
new Azure.Mobile.Inputs.NetworkServicePccRuleServiceDataFlowTemplateArgs
{
Direction = "Uplink",
Name = "IP-to-server",
Ports = new() { },
Protocols = new[]
{
"ip",
},
RemoteIpLists = new[]
{
"10.3.4.0/24",
},
},
},
},
},
ServiceQosPolicy = new Azure.Mobile.Inputs.NetworkServiceServiceQosPolicyArgs
{
AllocationAndRetentionPriorityLevel = 9,
QosIndicator = 9,
PreemptionCapability = "NotPreempt",
PreemptionVulnerability = "Preemptable",
MaximumBitRate = new Azure.Mobile.Inputs.NetworkServiceServiceQosPolicyMaximumBitRateArgs
{
Downlink = "1 Gbps",
Uplink = "100 Mbps",
},
},
Tags =
{
{ "key", "value" },
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.azure.core.ResourceGroup;
import com.pulumi.azure.core.ResourceGroupArgs;
import com.pulumi.azure.mobile.Network;
import com.pulumi.azure.mobile.NetworkArgs;
import com.pulumi.azure.mobile.NetworkService;
import com.pulumi.azure.mobile.NetworkServiceArgs;
import com.pulumi.azure.mobile.inputs.NetworkServicePccRuleArgs;
import com.pulumi.azure.mobile.inputs.NetworkServicePccRuleQosPolicyArgs;
import com.pulumi.azure.mobile.inputs.NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs;
import com.pulumi.azure.mobile.inputs.NetworkServicePccRuleQosPolicyMaximumBitRateArgs;
import com.pulumi.azure.mobile.inputs.NetworkServiceServiceQosPolicyArgs;
import com.pulumi.azure.mobile.inputs.NetworkServiceServiceQosPolicyMaximumBitRateArgs;
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) {
var example = new ResourceGroup("example", ResourceGroupArgs.builder()
.name("example-resources")
.location("east us")
.build());
var exampleNetwork = new Network("exampleNetwork", NetworkArgs.builder()
.name("example-mn")
.location(example.location())
.resourceGroupName(example.name())
.mobileCountryCode("001")
.mobileNetworkCode("01")
.build());
var exampleNetworkService = new NetworkService("exampleNetworkService", NetworkServiceArgs.builder()
.name("example-mns")
.mobileNetworkId(exampleNetwork.id())
.location(example.location())
.servicePrecedence(0)
.pccRules(NetworkServicePccRuleArgs.builder()
.name("default-rule")
.precedence(1)
.trafficControlEnabled(true)
.qosPolicy(NetworkServicePccRuleQosPolicyArgs.builder()
.allocationAndRetentionPriorityLevel(9)
.qosIndicator(9)
.preemptionCapability("NotPreempt")
.preemptionVulnerability("Preemptable")
.guaranteedBitRate(NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs.builder()
.downlink("100 Mbps")
.uplink("10 Mbps")
.build())
.maximumBitRate(NetworkServicePccRuleQosPolicyMaximumBitRateArgs.builder()
.downlink("1 Gbps")
.uplink("100 Mbps")
.build())
.build())
.serviceDataFlowTemplates(NetworkServicePccRuleServiceDataFlowTemplateArgs.builder()
.direction("Uplink")
.name("IP-to-server")
.ports()
.protocols("ip")
.remoteIpLists("10.3.4.0/24")
.build())
.build())
.serviceQosPolicy(NetworkServiceServiceQosPolicyArgs.builder()
.allocationAndRetentionPriorityLevel(9)
.qosIndicator(9)
.preemptionCapability("NotPreempt")
.preemptionVulnerability("Preemptable")
.maximumBitRate(NetworkServiceServiceQosPolicyMaximumBitRateArgs.builder()
.downlink("1 Gbps")
.uplink("100 Mbps")
.build())
.build())
.tags(Map.of("key", "value"))
.build());
}
}
resources:
example:
type: azure:core:ResourceGroup
properties:
name: example-resources
location: east us
exampleNetwork:
type: azure:mobile:Network
name: example
properties:
name: example-mn
location: ${example.location}
resourceGroupName: ${example.name}
mobileCountryCode: '001'
mobileNetworkCode: '01'
exampleNetworkService:
type: azure:mobile:NetworkService
name: example
properties:
name: example-mns
mobileNetworkId: ${exampleNetwork.id}
location: ${example.location}
servicePrecedence: 0
pccRules:
- name: default-rule
precedence: 1
trafficControlEnabled: true
qosPolicy:
allocationAndRetentionPriorityLevel: 9
qosIndicator: 9
preemptionCapability: NotPreempt
preemptionVulnerability: Preemptable
guaranteedBitRate:
downlink: 100 Mbps
uplink: 10 Mbps
maximumBitRate:
downlink: 1 Gbps
uplink: 100 Mbps
serviceDataFlowTemplates:
- direction: Uplink
name: IP-to-server
ports: []
protocols:
- ip
remoteIpLists:
- 10.3.4.0/24
serviceQosPolicy:
allocationAndRetentionPriorityLevel: 9
qosIndicator: 9
preemptionCapability: NotPreempt
preemptionVulnerability: Preemptable
maximumBitRate:
downlink: 1 Gbps
uplink: 100 Mbps
tags:
key: value
Create NetworkService Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new NetworkService(name: string, args: NetworkServiceArgs, opts?: CustomResourceOptions);
@overload
def NetworkService(resource_name: str,
args: NetworkServiceArgs,
opts: Optional[ResourceOptions] = None)
@overload
def NetworkService(resource_name: str,
opts: Optional[ResourceOptions] = None,
mobile_network_id: Optional[str] = None,
pcc_rules: Optional[Sequence[NetworkServicePccRuleArgs]] = None,
service_precedence: Optional[int] = None,
location: Optional[str] = None,
name: Optional[str] = None,
service_qos_policy: Optional[NetworkServiceServiceQosPolicyArgs] = None,
tags: Optional[Mapping[str, str]] = None)
func NewNetworkService(ctx *Context, name string, args NetworkServiceArgs, opts ...ResourceOption) (*NetworkService, error)
public NetworkService(string name, NetworkServiceArgs args, CustomResourceOptions? opts = null)
public NetworkService(String name, NetworkServiceArgs args)
public NetworkService(String name, NetworkServiceArgs args, CustomResourceOptions options)
type: azure:mobile:NetworkService
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name string
- The unique name of the resource.
- args NetworkServiceArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name str
- The unique name of the resource.
- args NetworkServiceArgs
- The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name string
- The unique name of the resource.
- args NetworkServiceArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args NetworkServiceArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args NetworkServiceArgs
- The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
Constructor example
The following reference example uses placeholder values for all input properties.
var networkServiceResource = new Azure.Mobile.NetworkService("networkServiceResource", new()
{
MobileNetworkId = "string",
PccRules = new[]
{
new Azure.Mobile.Inputs.NetworkServicePccRuleArgs
{
Name = "string",
Precedence = 0,
ServiceDataFlowTemplates = new[]
{
new Azure.Mobile.Inputs.NetworkServicePccRuleServiceDataFlowTemplateArgs
{
Direction = "string",
Name = "string",
Protocols = new[]
{
"string",
},
RemoteIpLists = new[]
{
"string",
},
Ports = new[]
{
"string",
},
},
},
QosPolicy = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyArgs
{
MaximumBitRate = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyMaximumBitRateArgs
{
Downlink = "string",
Uplink = "string",
},
QosIndicator = 0,
AllocationAndRetentionPriorityLevel = 0,
GuaranteedBitRate = new Azure.Mobile.Inputs.NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs
{
Downlink = "string",
Uplink = "string",
},
PreemptionCapability = "string",
PreemptionVulnerability = "string",
},
TrafficControlEnabled = false,
},
},
ServicePrecedence = 0,
Location = "string",
Name = "string",
ServiceQosPolicy = new Azure.Mobile.Inputs.NetworkServiceServiceQosPolicyArgs
{
MaximumBitRate = new Azure.Mobile.Inputs.NetworkServiceServiceQosPolicyMaximumBitRateArgs
{
Downlink = "string",
Uplink = "string",
},
AllocationAndRetentionPriorityLevel = 0,
PreemptionCapability = "string",
PreemptionVulnerability = "string",
QosIndicator = 0,
},
Tags =
{
{ "string", "string" },
},
});
example, err := mobile.NewNetworkService(ctx, "networkServiceResource", &mobile.NetworkServiceArgs{
MobileNetworkId: pulumi.String("string"),
PccRules: mobile.NetworkServicePccRuleArray{
&mobile.NetworkServicePccRuleArgs{
Name: pulumi.String("string"),
Precedence: pulumi.Int(0),
ServiceDataFlowTemplates: mobile.NetworkServicePccRuleServiceDataFlowTemplateArray{
&mobile.NetworkServicePccRuleServiceDataFlowTemplateArgs{
Direction: pulumi.String("string"),
Name: pulumi.String("string"),
Protocols: pulumi.StringArray{
pulumi.String("string"),
},
RemoteIpLists: pulumi.StringArray{
pulumi.String("string"),
},
Ports: pulumi.StringArray{
pulumi.String("string"),
},
},
},
QosPolicy: &mobile.NetworkServicePccRuleQosPolicyArgs{
MaximumBitRate: &mobile.NetworkServicePccRuleQosPolicyMaximumBitRateArgs{
Downlink: pulumi.String("string"),
Uplink: pulumi.String("string"),
},
QosIndicator: pulumi.Int(0),
AllocationAndRetentionPriorityLevel: pulumi.Int(0),
GuaranteedBitRate: &mobile.NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs{
Downlink: pulumi.String("string"),
Uplink: pulumi.String("string"),
},
PreemptionCapability: pulumi.String("string"),
PreemptionVulnerability: pulumi.String("string"),
},
TrafficControlEnabled: pulumi.Bool(false),
},
},
ServicePrecedence: pulumi.Int(0),
Location: pulumi.String("string"),
Name: pulumi.String("string"),
ServiceQosPolicy: &mobile.NetworkServiceServiceQosPolicyArgs{
MaximumBitRate: &mobile.NetworkServiceServiceQosPolicyMaximumBitRateArgs{
Downlink: pulumi.String("string"),
Uplink: pulumi.String("string"),
},
AllocationAndRetentionPriorityLevel: pulumi.Int(0),
PreemptionCapability: pulumi.String("string"),
PreemptionVulnerability: pulumi.String("string"),
QosIndicator: pulumi.Int(0),
},
Tags: pulumi.StringMap{
"string": pulumi.String("string"),
},
})
var networkServiceResource = new NetworkService("networkServiceResource", NetworkServiceArgs.builder()
.mobileNetworkId("string")
.pccRules(NetworkServicePccRuleArgs.builder()
.name("string")
.precedence(0)
.serviceDataFlowTemplates(NetworkServicePccRuleServiceDataFlowTemplateArgs.builder()
.direction("string")
.name("string")
.protocols("string")
.remoteIpLists("string")
.ports("string")
.build())
.qosPolicy(NetworkServicePccRuleQosPolicyArgs.builder()
.maximumBitRate(NetworkServicePccRuleQosPolicyMaximumBitRateArgs.builder()
.downlink("string")
.uplink("string")
.build())
.qosIndicator(0)
.allocationAndRetentionPriorityLevel(0)
.guaranteedBitRate(NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs.builder()
.downlink("string")
.uplink("string")
.build())
.preemptionCapability("string")
.preemptionVulnerability("string")
.build())
.trafficControlEnabled(false)
.build())
.servicePrecedence(0)
.location("string")
.name("string")
.serviceQosPolicy(NetworkServiceServiceQosPolicyArgs.builder()
.maximumBitRate(NetworkServiceServiceQosPolicyMaximumBitRateArgs.builder()
.downlink("string")
.uplink("string")
.build())
.allocationAndRetentionPriorityLevel(0)
.preemptionCapability("string")
.preemptionVulnerability("string")
.qosIndicator(0)
.build())
.tags(Map.of("string", "string"))
.build());
network_service_resource = azure.mobile.NetworkService("networkServiceResource",
mobile_network_id="string",
pcc_rules=[{
"name": "string",
"precedence": 0,
"service_data_flow_templates": [{
"direction": "string",
"name": "string",
"protocols": ["string"],
"remote_ip_lists": ["string"],
"ports": ["string"],
}],
"qos_policy": {
"maximum_bit_rate": {
"downlink": "string",
"uplink": "string",
},
"qos_indicator": 0,
"allocation_and_retention_priority_level": 0,
"guaranteed_bit_rate": {
"downlink": "string",
"uplink": "string",
},
"preemption_capability": "string",
"preemption_vulnerability": "string",
},
"traffic_control_enabled": False,
}],
service_precedence=0,
location="string",
name="string",
service_qos_policy={
"maximum_bit_rate": {
"downlink": "string",
"uplink": "string",
},
"allocation_and_retention_priority_level": 0,
"preemption_capability": "string",
"preemption_vulnerability": "string",
"qos_indicator": 0,
},
tags={
"string": "string",
})
const networkServiceResource = new azure.mobile.NetworkService("networkServiceResource", {
mobileNetworkId: "string",
pccRules: [{
name: "string",
precedence: 0,
serviceDataFlowTemplates: [{
direction: "string",
name: "string",
protocols: ["string"],
remoteIpLists: ["string"],
ports: ["string"],
}],
qosPolicy: {
maximumBitRate: {
downlink: "string",
uplink: "string",
},
qosIndicator: 0,
allocationAndRetentionPriorityLevel: 0,
guaranteedBitRate: {
downlink: "string",
uplink: "string",
},
preemptionCapability: "string",
preemptionVulnerability: "string",
},
trafficControlEnabled: false,
}],
servicePrecedence: 0,
location: "string",
name: "string",
serviceQosPolicy: {
maximumBitRate: {
downlink: "string",
uplink: "string",
},
allocationAndRetentionPriorityLevel: 0,
preemptionCapability: "string",
preemptionVulnerability: "string",
qosIndicator: 0,
},
tags: {
string: "string",
},
});
type: azure:mobile:NetworkService
properties:
location: string
mobileNetworkId: string
name: string
pccRules:
- name: string
precedence: 0
qosPolicy:
allocationAndRetentionPriorityLevel: 0
guaranteedBitRate:
downlink: string
uplink: string
maximumBitRate:
downlink: string
uplink: string
preemptionCapability: string
preemptionVulnerability: string
qosIndicator: 0
serviceDataFlowTemplates:
- direction: string
name: string
ports:
- string
protocols:
- string
remoteIpLists:
- string
trafficControlEnabled: false
servicePrecedence: 0
serviceQosPolicy:
allocationAndRetentionPriorityLevel: 0
maximumBitRate:
downlink: string
uplink: string
preemptionCapability: string
preemptionVulnerability: string
qosIndicator: 0
tags:
string: string
NetworkService Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The NetworkService resource accepts the following input properties:
- Mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Pcc
Rules List<NetworkService Pcc Rule> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - Service
Precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - Location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- Name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Dictionary<string, string>
- A mapping of tags which should be assigned to the Mobile Network Service.
- Mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Pcc
Rules []NetworkService Pcc Rule Args - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - Service
Precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - Location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- Name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Service
Qos NetworkPolicy Service Service Qos Policy Args - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - map[string]string
- A mapping of tags which should be assigned to the Mobile Network Service.
- mobile
Network StringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules List<NetworkService Pcc Rule> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence Integer - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - location String
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- name String
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Map<String,String>
- A mapping of tags which should be assigned to the Mobile Network Service.
- mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules NetworkService Pcc Rule[] - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence number - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - {[key: string]: string}
- A mapping of tags which should be assigned to the Mobile Network Service.
- mobile_
network_ strid - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc_
rules Sequence[NetworkService Pcc Rule Args] - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service_
precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - location str
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- name str
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- service_
qos_ Networkpolicy Service Service Qos Policy Args - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Mapping[str, str]
- A mapping of tags which should be assigned to the Mobile Network Service.
- mobile
Network StringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules List<Property Map> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence Number - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - location String
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- name String
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- service
Qos Property MapPolicy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Map<String>
- A mapping of tags which should be assigned to the Mobile Network Service.
Outputs
All input properties are implicitly available as output properties. Additionally, the NetworkService resource produces the following output properties:
- Id string
- The provider-assigned unique ID for this managed resource.
- Id string
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
- id string
- The provider-assigned unique ID for this managed resource.
- id str
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
Look up Existing NetworkService Resource
Get an existing NetworkService resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.
public static get(name: string, id: Input<ID>, state?: NetworkServiceState, opts?: CustomResourceOptions): NetworkService
@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
location: Optional[str] = None,
mobile_network_id: Optional[str] = None,
name: Optional[str] = None,
pcc_rules: Optional[Sequence[NetworkServicePccRuleArgs]] = None,
service_precedence: Optional[int] = None,
service_qos_policy: Optional[NetworkServiceServiceQosPolicyArgs] = None,
tags: Optional[Mapping[str, str]] = None) -> NetworkService
func GetNetworkService(ctx *Context, name string, id IDInput, state *NetworkServiceState, opts ...ResourceOption) (*NetworkService, error)
public static NetworkService Get(string name, Input<string> id, NetworkServiceState? state, CustomResourceOptions? opts = null)
public static NetworkService get(String name, Output<String> id, NetworkServiceState state, CustomResourceOptions options)
Resource lookup is not supported in YAML
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- resource_name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- Location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- Mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Pcc
Rules List<NetworkService Pcc Rule> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - Service
Precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - Service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Dictionary<string, string>
- A mapping of tags which should be assigned to the Mobile Network Service.
- Location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- Mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- Pcc
Rules []NetworkService Pcc Rule Args - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - Service
Precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - Service
Qos NetworkPolicy Service Service Qos Policy Args - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - map[string]string
- A mapping of tags which should be assigned to the Mobile Network Service.
- location String
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- mobile
Network StringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- name String
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules List<NetworkService Pcc Rule> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence Integer - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Map<String,String>
- A mapping of tags which should be assigned to the Mobile Network Service.
- location string
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- mobile
Network stringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- name string
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules NetworkService Pcc Rule[] - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence number - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - service
Qos NetworkPolicy Service Service Qos Policy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - {[key: string]: string}
- A mapping of tags which should be assigned to the Mobile Network Service.
- location str
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- mobile_
network_ strid - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- name str
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc_
rules Sequence[NetworkService Pcc Rule Args] - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service_
precedence int - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - service_
qos_ Networkpolicy Service Service Qos Policy Args - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Mapping[str, str]
- A mapping of tags which should be assigned to the Mobile Network Service.
- location String
- Specifies the Azure Region where the Mobile Network Service should exist. Changing this forces a new Mobile Network Service to be created.
- mobile
Network StringId - Specifies the ID of the Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- name String
- Specifies the name which should be used for this Mobile Network Service. Changing this forces a new Mobile Network Service to be created.
- pcc
Rules List<Property Map> - A
pcc_rule
block as defined below. The set of PCC Rules that make up this service. - service
Precedence Number - A precedence value that is used to decide between services when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all services configured in the mobile network. Must be between
0
and255
. - service
Qos Property MapPolicy - A
service_qos_policy
block as defined below. The QoS policy to use for packets matching this service. This can be overridden for particular flows using the ruleQosPolicy field in apcc_rule
. If this field is not specified then thesim_policy
of User Equipment (UE) will define the QoS settings. - Map<String>
- A mapping of tags which should be assigned to the Mobile Network Service.
Supporting Types
NetworkServicePccRule, NetworkServicePccRuleArgs
- Name string
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - Precedence int
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - Service
Data List<NetworkFlow Templates Service Pcc Rule Service Data Flow Template> - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - Qos
Policy NetworkService Pcc Rule Qos Policy - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - Traffic
Control boolEnabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
- Name string
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - Precedence int
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - Service
Data []NetworkFlow Templates Service Pcc Rule Service Data Flow Template - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - Qos
Policy NetworkService Pcc Rule Qos Policy - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - Traffic
Control boolEnabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
- name String
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - precedence Integer
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - service
Data List<NetworkFlow Templates Service Pcc Rule Service Data Flow Template> - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - qos
Policy NetworkService Pcc Rule Qos Policy - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - traffic
Control BooleanEnabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
- name string
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - precedence number
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - service
Data NetworkFlow Templates Service Pcc Rule Service Data Flow Template[] - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - qos
Policy NetworkService Pcc Rule Qos Policy - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - traffic
Control booleanEnabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
- name str
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - precedence int
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - service_
data_ Sequence[Networkflow_ templates Service Pcc Rule Service Data Flow Template] - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - qos_
policy NetworkService Pcc Rule Qos Policy - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - traffic_
control_ boolenabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
- name String
- Specifies the name of the rule. This must be unique within the parent service. You must not use any of the following reserved strings -
default
,requested
orservice
. - precedence Number
- A precedence value that is used to decide between data flow policy rules when identifying the QoS values to use for a particular SIM. A lower value means a higher priority. This value should be unique among all data flow policy rules configured in the mobile network. Must be between
0
and255
. - service
Data List<Property Map>Flow Templates - A
service_data_flow_template
block as defined below. The set of service data flow templates to use for this PCC rule. - qos
Policy Property Map - A
qos_policy
block as defined below. The QoS policy to use for packets matching this rule. If this field is not specified then the Service will define the QoS settings. - traffic
Control BooleanEnabled - Determines whether flows that match this data flow policy rule are permitted. Defaults to
true
.
NetworkServicePccRuleQosPolicy, NetworkServicePccRuleQosPolicyArgs
- Maximum
Bit NetworkRate Service Pcc Rule Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - Qos
Indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - Allocation
And intRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - Guaranteed
Bit NetworkRate Service Pcc Rule Qos Policy Guaranteed Bit Rate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - Preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - Preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
- Maximum
Bit NetworkRate Service Pcc Rule Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - Qos
Indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - Allocation
And intRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - Guaranteed
Bit NetworkRate Service Pcc Rule Qos Policy Guaranteed Bit Rate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - Preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - Preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
- maximum
Bit NetworkRate Service Pcc Rule Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - qos
Indicator Integer - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - allocation
And IntegerRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - guaranteed
Bit NetworkRate Service Pcc Rule Qos Policy Guaranteed Bit Rate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - preemption
Capability String - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - preemption
Vulnerability String - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
- maximum
Bit NetworkRate Service Pcc Rule Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - qos
Indicator number - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - allocation
And numberRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - guaranteed
Bit NetworkRate Service Pcc Rule Qos Policy Guaranteed Bit Rate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
- maximum_
bit_ Networkrate Service Pcc Rule Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - qos_
indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - allocation_
and_ intretention_ priority_ level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - guaranteed_
bit_ Networkrate Service Pcc Rule Qos Policy Guaranteed Bit Rate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - preemption_
capability str - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - preemption_
vulnerability str - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
- maximum
Bit Property MapRate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - qos
Indicator Number - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
. - allocation
And NumberRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - guaranteed
Bit Property MapRate - A
guaranteed_bit_rate
block as defined below. The Guaranteed Bit Rate (GBR) for all service data flows that use this PCC Rule. If it's not specified, there will be no GBR set for the PCC Rule that uses this QoS definition. - preemption
Capability String - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
, Defaults toNotPreempt
. - preemption
Vulnerability String - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. Defaults toPreemptable
.
NetworkServicePccRuleQosPolicyGuaranteedBitRate, NetworkServicePccRuleQosPolicyGuaranteedBitRateArgs
NetworkServicePccRuleQosPolicyMaximumBitRate, NetworkServicePccRuleQosPolicyMaximumBitRateArgs
NetworkServicePccRuleServiceDataFlowTemplate, NetworkServicePccRuleServiceDataFlowTemplateArgs
- Direction string
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - Name string
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - Protocols List<string>
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - Remote
Ip List<string>Lists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - Ports List<string>
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
- Direction string
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - Name string
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - Protocols []string
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - Remote
Ip []stringLists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - Ports []string
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
- direction String
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - name String
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - protocols List<String>
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - remote
Ip List<String>Lists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - ports List<String>
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
- direction string
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - name string
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - protocols string[]
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - remote
Ip string[]Lists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - ports string[]
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
- direction str
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - name str
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - protocols Sequence[str]
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - remote_
ip_ Sequence[str]lists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - ports Sequence[str]
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
- direction String
- Specifies the direction of this flow. Possible values are
Uplink
,Downlink
andBidirectional
. - name String
- Specifies the name of the data flow template. This must be unique within the parent data flow policy rule. You must not use any of the following reserved strings -
default
,requested
orservice
. - protocols List<String>
- A list of the allowed protocol(s) for this flow. If you want this flow to be able to use any protocol within the internet protocol suite, use the value
ip
. If you only want to allow a selection of protocols, you must use the corresponding IANA Assigned Internet Protocol Number for each protocol, as described in https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml. For example, for UDP, you must use 17. If you use the valueip
then you must leave the fieldport
unspecified. - remote
Ip List<String>Lists - Specifies the remote IP address(es) to which UEs will connect for this flow. If you want to allow connections on any IP address, use the value
any
. Otherwise, you must provide each of the remote IP addresses to which the packet core instance will connect for this flow. You must provide each IP address in CIDR notation, including the netmask (for example,192.0.2.54/24
). - ports List<String>
- The port(s) to which UEs will connect for this flow. You can specify zero or more ports or port ranges. If you specify one or more ports or port ranges then you must specify a value other than
ip
in theprotocol
field. If it is not specified then connections will be allowed on all ports. Port ranges must be specified as -. For example: [8080
,8082-8085
].
NetworkServiceServiceQosPolicy, NetworkServiceServiceQosPolicyArgs
- Maximum
Bit NetworkRate Service Service Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - Allocation
And intRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - Preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - Preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - Qos
Indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
- Maximum
Bit NetworkRate Service Service Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - Allocation
And intRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - Preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - Preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - Qos
Indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
- maximum
Bit NetworkRate Service Service Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - allocation
And IntegerRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - preemption
Capability String - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - preemption
Vulnerability String - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - qos
Indicator Integer - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
- maximum
Bit NetworkRate Service Service Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - allocation
And numberRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - preemption
Capability string - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - preemption
Vulnerability string - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - qos
Indicator number - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
- maximum_
bit_ Networkrate Service Service Qos Policy Maximum Bit Rate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - allocation_
and_ intretention_ priority_ level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - preemption_
capability str - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - preemption_
vulnerability str - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - qos_
indicator int - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
- maximum
Bit Property MapRate - A
maximum_bit_rate
block as defined below. The Maximum Bit Rate (MBR) for all service data flows that use this PCC Rule or Service. - allocation
And NumberRetention Priority Level - QoS Flow allocation and retention priority (ARP) level. Flows with higher priority preempt flows with lower priority, if the settings of
preemption_capability
andpreemption_vulnerability
allow it. 1 is the highest level of priority. If this field is not specified thenqos_indicator
is used to derive the ARP value. Defaults to9
. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. - preemption
Capability String - The Preemption Capability of a QoS Flow controls whether it can preempt another QoS Flow with a lower priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreempt
andMayPreempt
,. - preemption
Vulnerability String - The Preemption Vulnerability of a QoS Flow controls whether it can be preempted by QoS Flow with a higher priority level. See 3GPP TS23.501 section 5.7.2.2 for a full description of the ARP parameters. Possible values are
NotPreemptable
andPreemptable
. - qos
Indicator Number - The QoS Indicator (5QI for 5G network /QCI for 4G net work) value identifies a set of QoS characteristics that control QoS forwarding treatment for QoS flows or EPS bearers. Recommended values: 5-9; 69-70; 79-80. Must be between
1
and127
.
NetworkServiceServiceQosPolicyMaximumBitRate, NetworkServiceServiceQosPolicyMaximumBitRateArgs
Import
Mobile Network Service can be imported using the resource id
, e.g.
$ pulumi import azure:mobile/networkService:NetworkService example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/resourceGroup1/providers/Microsoft.MobileNetwork/mobileNetworks/mobileNetwork1/services/service1
To learn more about importing existing cloud resources, see Importing resources.
Package Details
- Repository
- Azure Classic pulumi/pulumi-azure
- License
- Apache-2.0
- Notes
- This Pulumi package is based on the
azurerm
Terraform Provider.