Administración de recursos de Azure Cosmos DB for NoSQL mediante Bicep
SE APLICA A: 
NoSQL
En este artículo, aprenderá a usar Bicep para implementar y administrar cuentas, bases de datos y contenedores de Azure Cosmos DB.
En este artículo se muestran ejemplos de Bicep para cuentas con la API para NoSQL. También puede encontrar ejemplos de Bicep para las API de Cassandra, Gremlin, MongoDB y Table.
Importante
- Los nombres de cuenta están limitados a 44 caracteres, todo en minúsculas.
- Para cambiar los valores de rendimiento (RU/s), vuelva a implementar el archivo de Bicep con las RU/s actualizadas.
- Cuando agrega o elimina ubicaciones en una cuenta de Azure Cosmos DB, no puede modificar otras propiedades simultáneamente. Estas operaciones se deben realizar por separado.
- Para aprovisionar el rendimiento en el nivel de base de datos y compartirlo entre todos los contenedores, aplique los valores de rendimiento a la propiedad de opciones de base de datos.
Para crear cualquiera de los siguientes recursos de Azure Cosmos DB, copie el ejemplo siguiente en un archivo de Bicep nuevo. También puede crear un archivo de parámetros para usarlo al implementar varias instancias del mismo recurso con otros nombres y valores. Hay muchas maneras de implementar archivos de Azure Bicep, como la CLI de Azure, Azure PowerShell y Cloud Shell.
Cuenta de Azure Cosmos DB con rendimiento de escalabilidad automática
Cree una cuenta de Azure Cosmos DB en dos regiones con opciones para la coherencia y la conmutación por error, con una base de datos y un contenedor configurados para el rendimiento de escalabilidad automática con la mayoría de las opciones de directiva de índice habilitadas.
@description('Cosmos DB account name, max length 44 characters, lowercase')
param accountName string = 'sql-${uniqueString(resourceGroup().id)}'
@description('Location for the Cosmos DB account.')
param location string = resourceGroup().location
@description('The primary region for the Cosmos DB account.')
param primaryRegion string
@description('The secondary region for the Cosmos DB account.')
param secondaryRegion string
@description('The default consistency level of the Cosmos DB account.')
@allowed([
'Eventual'
'ConsistentPrefix'
'Session'
'BoundedStaleness'
'Strong'
])
param defaultConsistencyLevel string = 'Session'
@description('Max stale requests. Required for BoundedStaleness. Valid ranges, Single Region: 10 to 2147483647. Multi Region: 100000 to 2147483647.')
@minValue(10)
@maxValue(2147483647)
param maxStalenessPrefix int = 100000
@description('Max lag time (minutes). Required for BoundedStaleness. Valid ranges, Single Region: 5 to 84600. Multi Region: 300 to 86400.')
@minValue(5)
@maxValue(86400)
param maxIntervalInSeconds int = 300
@description('Enable system managed failover for regions')
param systemManagedFailover bool = true
@description('The name for the database')
param databaseName string
@description('The name for the container')
param containerName string
@description('Maximum autoscale throughput for the container')
@minValue(1000)
@maxValue(1000000)
param autoscaleMaxThroughput int = 1000
var consistencyPolicy = {
Eventual: {
defaultConsistencyLevel: 'Eventual'
}
ConsistentPrefix: {
defaultConsistencyLevel: 'ConsistentPrefix'
}
Session: {
defaultConsistencyLevel: 'Session'
}
BoundedStaleness: {
defaultConsistencyLevel: 'BoundedStaleness'
maxStalenessPrefix: maxStalenessPrefix
maxIntervalInSeconds: maxIntervalInSeconds
}
Strong: {
defaultConsistencyLevel: 'Strong'
}
}
var locations = [
{
locationName: primaryRegion
failoverPriority: 0
isZoneRedundant: false
}
{
locationName: secondaryRegion
failoverPriority: 1
isZoneRedundant: false
}
]
resource account 'Microsoft.DocumentDB/databaseAccounts@2022-05-15' = {
name: toLower(accountName)
kind: 'GlobalDocumentDB'
location: location
properties: {
consistencyPolicy: consistencyPolicy[defaultConsistencyLevel]
locations: locations
databaseAccountOfferType: 'Standard'
enableAutomaticFailover: systemManagedFailover
}
}
resource database 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases@2022-05-15' = {
parent: account
name: databaseName
properties: {
resource: {
id: databaseName
}
}
}
resource container 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers@2022-05-15' = {
parent: database
name: containerName
properties: {
resource: {
id: containerName
partitionKey: {
paths: [
'/myPartitionKey'
]
kind: 'Hash'
}
indexingPolicy: {
indexingMode: 'consistent'
includedPaths: [
{
path: '/*'
}
]
excludedPaths: [
{
path: '/myPathToNotIndex/*'
}
{
path: '/_etag/?'
}
]
compositeIndexes: [
[
{
path: '/name'
order: 'ascending'
}
{
path: '/age'
order: 'descending'
}
]
]
spatialIndexes: [
{
path: '/path/to/geojson/property/?'
types: [
'Point'
'Polygon'
'MultiPolygon'
'LineString'
]
}
]
}
defaultTtl: 86400
uniqueKeyPolicy: {
uniqueKeys: [
{
paths: [
'/phoneNumber'
]
}
]
}
}
options: {
autoscaleSettings: {
maxThroughput: autoscaleMaxThroughput
}
}
}
}
Cuenta de Azure Cosmos DB con el almacén analítico
Cree una cuenta de Azure Cosmos DB en una región con un contenedor con TTL analítico habilitado y opciones para el rendimiento de escalado automático o manual.
@description('Azure Cosmos DB account name')
param accountName string = 'sql-${uniqueString(resourceGroup().id)}'
@description('Location for the Azure Cosmos DB account.')
param location string = resourceGroup().location
@description('The name for the database')
param databaseName string = 'database1'
@description('The name for the container')
param containerName string = 'container1'
@description('The partition key for the container')
param partitionKeyPath string = '/partitionKey'
@description('The throughput policy for the container')
@allowed([
'Manual'
'Autoscale'
])
param throughputPolicy string = 'Autoscale'
@description('Throughput value when using Manual Throughput Policy for the container')
@minValue(400)
@maxValue(1000000)
param manualProvisionedThroughput int = 400
@description('Maximum throughput when using Autoscale Throughput Policy for the container')
@minValue(1000)
@maxValue(1000000)
param autoscaleMaxThroughput int = 1000
@description('Time to Live for data in analytical store. (-1 no expiry)')
@minValue(-1)
@maxValue(2147483647)
param analyticalStoreTTL int = -1
var locations = [
{
locationName: location
failoverPriority: 0
isZoneRedundant: false
}
]
var throughput_Policy = {
Manual: {
throughput: manualProvisionedThroughput
}
Autoscale: {
autoscaleSettings: {
maxThroughput: autoscaleMaxThroughput
}
}
}
resource account 'Microsoft.DocumentDB/databaseAccounts@2022-05-15' = {
name: toLower(accountName)
location: location
properties: {
consistencyPolicy: {
defaultConsistencyLevel: 'Session'
}
databaseAccountOfferType: 'Standard'
locations: locations
enableAnalyticalStorage: true
}
}
resource database 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases@2022-05-15' = {
parent: account
name: databaseName
properties: {
resource: {
id: databaseName
}
}
}
resource container 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers@2022-05-15' = {
parent: database
name: containerName
properties: {
resource: {
id: containerName
partitionKey: {
paths: [
partitionKeyPath
]
kind: 'Hash'
}
analyticalStorageTtl: analyticalStoreTTL
}
options: throughput_Policy[throughputPolicy]
}
}
Cuenta de Azure Cosmos DB con rendimiento aprovisionado estándar
Cree una cuenta de Azure Cosmos DB en dos regiones con opciones para la coherencia y la conmutación por error, con una base de datos y un contenedor configurados para el rendimiento de estándar con la mayoría de las opciones de directiva habilitadas.
@description('Azure Cosmos DB account name, max length 44 characters')
param accountName string = 'sql-${uniqueString(resourceGroup().id)}'
@description('Location for the Azure Cosmos DB account.')
param location string = resourceGroup().location
@description('The primary region for the Azure Cosmos DB account.')
param primaryRegion string
@description('The secondary region for the Azure Cosmos DB account.')
param secondaryRegion string
@allowed([
'Eventual'
'ConsistentPrefix'
'Session'
'BoundedStaleness'
'Strong'
])
@description('The default consistency level of the Cosmos DB account.')
param defaultConsistencyLevel string = 'Session'
@minValue(10)
@maxValue(2147483647)
@description('Max stale requests. Required for BoundedStaleness. Valid ranges, Single Region: 10 to 2147483647. Multi Region: 100000 to 2147483647.')
param maxStalenessPrefix int = 100000
@minValue(5)
@maxValue(86400)
@description('Max lag time (minutes). Required for BoundedStaleness. Valid ranges, Single Region: 5 to 84600. Multi Region: 300 to 86400.')
param maxIntervalInSeconds int = 300
@allowed([
true
false
])
@description('Enable system managed failover for regions')
param systemManagedFailover bool = true
@description('The name for the database')
param databaseName string = 'myDatabase'
@description('The name for the container')
param containerName string = 'myContainer'
@minValue(400)
@maxValue(1000000)
@description('The throughput for the container')
param throughput int = 400
var consistencyPolicy = {
Eventual: {
defaultConsistencyLevel: 'Eventual'
}
ConsistentPrefix: {
defaultConsistencyLevel: 'ConsistentPrefix'
}
Session: {
defaultConsistencyLevel: 'Session'
}
BoundedStaleness: {
defaultConsistencyLevel: 'BoundedStaleness'
maxStalenessPrefix: maxStalenessPrefix
maxIntervalInSeconds: maxIntervalInSeconds
}
Strong: {
defaultConsistencyLevel: 'Strong'
}
}
var locations = [
{
locationName: primaryRegion
failoverPriority: 0
isZoneRedundant: false
}
{
locationName: secondaryRegion
failoverPriority: 1
isZoneRedundant: false
}
]
resource account 'Microsoft.DocumentDB/databaseAccounts@2024-02-15-preview' = {
name: toLower(accountName)
location: location
kind: 'GlobalDocumentDB'
properties: {
consistencyPolicy: consistencyPolicy[defaultConsistencyLevel]
locations: locations
databaseAccountOfferType: 'Standard'
enableAutomaticFailover: systemManagedFailover
disableKeyBasedMetadataWriteAccess: true
}
}
resource database 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases@2024-02-15-preview' = {
parent: account
name: databaseName
properties: {
resource: {
id: databaseName
}
}
}
resource container 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers@2024-02-15-preview' = {
parent: database
name: containerName
properties: {
resource: {
id: containerName
partitionKey: {
paths: [
'/myPartitionKey'
]
kind: 'Hash'
}
indexingPolicy: {
indexingMode: 'consistent'
includedPaths: [
{
path: '/*'
}
]
excludedPaths: [
{
path: '/myPathToNotIndex/*'
}
{
path: '/_etag/?'
}
]
compositeIndexes: [
[
{
path: '/name'
order: 'ascending'
}
{
path: '/age'
order: 'descending'
}
]
]
spatialIndexes: [
{
path: '/location/*'
types: [
'Point'
'Polygon'
'MultiPolygon'
'LineString'
]
}
]
}
defaultTtl: 86400
uniqueKeyPolicy: {
uniqueKeys: [
{
paths: [
'/phoneNumber'
]
}
]
}
}
options: {
throughput: throughput
}
}
}
output location string = location
output name string = database.name
output resourceGroupName string = resourceGroup().name
output resourceId string = database.id
Contenedor de Azure Cosmos DB con funcionalidad del lado servidor
Cree una cuenta, una base de datos y un contenedor de Azure Cosmos DB con un procedimiento almacenado, un desencadenador y una función definida por el usuario.
@description('Cosmos DB account name')
param accountName string = 'sql-${uniqueString(resourceGroup().id)}'
@description('Location for the Cosmos DB account.')
param location string = resourceGroup().location
@description('The primary region for the Cosmos DB account.')
param primaryRegion string
@description('The default consistency level of the Cosmos DB account.')
@allowed([
'Eventual'
'ConsistentPrefix'
'Session'
'BoundedStaleness'
'Strong'
])
param defaultConsistencyLevel string = 'Session'
@description('Max stale requests. Required for BoundedStaleness. Valid ranges, Single Region: 10 to 2147483647. Multi Region: 100000 to 2147483647.')
@minValue(10)
@maxValue(2147483647)
param maxStalenessPrefix int = 100000
@description('Max lag time (seconds). Required for BoundedStaleness. Valid ranges, Single Region: 5 to 84600. Multi Region: 300 to 86400.')
@minValue(5)
@maxValue(86400)
param maxIntervalInSeconds int = 300
@description('Enable system managed failover for regions')
param systemManagedFailover bool = true
@description('The name for the database')
param databaseName string = 'database1'
@description('The name for the container')
param containerName string = 'container1'
@description('The throughput for the container')
@minValue(400)
@maxValue(1000000)
param throughput int = 400
var consistencyPolicy = {
Eventual: {
defaultConsistencyLevel: 'Eventual'
}
ConsistentPrefix: {
defaultConsistencyLevel: 'ConsistentPrefix'
}
Session: {
defaultConsistencyLevel: 'Session'
}
BoundedStaleness: {
defaultConsistencyLevel: 'BoundedStaleness'
maxStalenessPrefix: maxStalenessPrefix
maxIntervalInSeconds: maxIntervalInSeconds
}
Strong: {
defaultConsistencyLevel: 'Strong'
}
}
var locations = [
{
locationName: primaryRegion
failoverPriority: 0
isZoneRedundant: false
}
]
resource account 'Microsoft.DocumentDB/databaseAccounts@2022-05-15' = {
name: toLower(accountName)
location: location
kind: 'GlobalDocumentDB'
properties: {
consistencyPolicy: consistencyPolicy[defaultConsistencyLevel]
locations: locations
databaseAccountOfferType: 'Standard'
enableAutomaticFailover: systemManagedFailover
}
}
resource database 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases@2022-05-15' = {
parent: account
name: databaseName
properties: {
resource: {
id: databaseName
}
}
}
resource container 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers@2022-05-15' = {
parent: database
name: containerName
properties: {
resource: {
id: containerName
partitionKey: {
paths: [
'/myPartitionKey'
]
kind: 'Hash'
}
indexingPolicy: {
indexingMode: 'consistent'
includedPaths: [
{
path: '/*'
}
]
excludedPaths: [
{
path: '/_etag/?'
}
]
}
}
options: {
throughput: throughput
}
}
}
resource storedProcedure 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers/storedProcedures@2022-05-15' = {
parent: container
name: 'myStoredProcedure'
properties: {
resource: {
id: 'myStoredProcedure'
body: 'function () { var context = getContext(); var response = context.getResponse(); response.setBody(\'Hello, World\'); }'
}
}
}
resource trigger 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers/triggers@2022-05-15' = {
parent: container
name: 'myPreTrigger'
properties: {
resource: {
id: 'myPreTrigger'
triggerType: 'Pre'
triggerOperation: 'Create'
body: 'function validateToDoItemTimestamp(){var context=getContext();var request=context.getRequest();var itemToCreate=request.getBody();if(!(\'timestamp\'in itemToCreate)){var ts=new Date();itemToCreate[\'timestamp\']=ts.getTime();}request.setBody(itemToCreate);}'
}
}
}
resource userDefinedFunction 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers/userDefinedFunctions@2022-05-15' = {
parent: container
name: 'myUserDefinedFunction'
properties: {
resource: {
id: 'myUserDefinedFunction'
body: 'function tax(income){if(income==undefined)throw\'no input\';if(income<1000)return income*0.1;else if(income<10000)return income*0.2;else return income*0.4;}'
}
}
}
Cuenta de Azure Cosmos DB con Microsoft Entra ID y RBAC
Cree una cuenta de Azure Cosmos DB, una definición de rol mantenida de forma nativa y una asignación de roles mantenida de forma nativa para una identidad de Microsoft Entra.
@description('Location for all resources.')
param location string = resourceGroup().location
@description('Cosmos DB account name, max length 44 characters')
param accountName string = toLower('sql-rbac-${uniqueString(resourceGroup().id)}')
@description('Friendly name for the SQL Role Definition')
param roleDefinitionName string = 'My Read Write Role'
@description('Data actions permitted by the Role Definition')
param dataActions array = [
'Microsoft.DocumentDB/databaseAccounts/readMetadata'
'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers/items/*'
]
@description('Object ID of the AAD identity. Must be a GUID.')
param principalId string
var locations = [
{
locationName: location
failoverPriority: 0
isZoneRedundant: false
}
]
var roleDefinitionId = guid('sql-role-definition-', principalId, databaseAccount.id)
var roleAssignmentId = guid(roleDefinitionId, principalId, databaseAccount.id)
resource databaseAccount 'Microsoft.DocumentDB/databaseAccounts@2021-04-15' = {
name: accountName
kind: 'GlobalDocumentDB'
location: location
properties: {
consistencyPolicy: {
defaultConsistencyLevel: 'Session'
}
locations: locations
databaseAccountOfferType: 'Standard'
enableAutomaticFailover: false
enableMultipleWriteLocations: false
}
}
resource sqlRoleDefinition 'Microsoft.DocumentDB/databaseAccounts/sqlRoleDefinitions@2021-04-15' = {
name: '${databaseAccount.name}/${roleDefinitionId}'
properties: {
roleName: roleDefinitionName
type: 'CustomRole'
assignableScopes: [
databaseAccount.id
]
permissions: [
{
dataActions: dataActions
}
]
}
}
resource sqlRoleAssignment 'Microsoft.DocumentDB/databaseAccounts/sqlRoleAssignments@2021-04-15' = {
name: '${databaseAccount.name}/${roleAssignmentId}'
properties: {
roleDefinitionId: sqlRoleDefinition.id
principalId: principalId
scope: databaseAccount.id
}
}
Cuenta de Azure Cosmos DB de nivel gratis
Cree una cuenta de Azure Cosmos DB de nivel gratis y una base de datos con rendimiento compartido que se pueda compartir con hasta 25 contenedores.
@description('Cosmos DB account name')
param accountName string = 'cosmos-${uniqueString(resourceGroup().id)}'
@description('Location for the Cosmos DB account.')
param location string = resourceGroup().location
@description('The name for the SQL API database')
param databaseName string
@description('The name for the SQL API container')
param containerName string
resource account 'Microsoft.DocumentDB/databaseAccounts@2023-11-15' = {
name: toLower(accountName)
location: location
properties: {
enableFreeTier: true
databaseAccountOfferType: 'Standard'
consistencyPolicy: {
defaultConsistencyLevel: 'Session'
}
locations: [
{
locationName: location
}
]
}
}
resource database 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases@2023-11-15' = {
parent: account
name: databaseName
properties: {
resource: {
id: databaseName
}
options: {
throughput: 1000
}
}
}
resource container 'Microsoft.DocumentDB/databaseAccounts/sqlDatabases/containers@2023-11-15' = {
parent: database
name: containerName
properties: {
resource: {
id: containerName
partitionKey: {
paths: [
'/myPartitionKey'
]
kind: 'Hash'
}
indexingPolicy: {
indexingMode: 'consistent'
includedPaths: [
{
path: '/*'
}
]
excludedPaths: [
{
path: '/_etag/?'
}
]
}
}
}
}
output location string = location
output name string = container.name
output resourceGroupName string = resourceGroup().name
output resourceId string = container.id
Pasos siguientes
Estos son algunos recursos adicionales: