Configura la conectividad de IP privada para los destinos de Cloud SQL para PostgreSQL

Database Migration Service usa Private Service Connect para conectarse a tu instancia de Cloud SQL de destino con una dirección IP privada. Con Private Service Connect, puedes exponer tu base de datos de destino a conexiones seguras entrantes y controlar quién puede acceder a ella.

La configuración de la arquitectura de red para Private Service Connect difiere según si usas una instancia de Cloud SQL de destino habilitada o no para PSC.

Para obtener más información sobre los métodos de conectividad de destino, consulta la descripción general de los métodos de conectividad de la base de datos de destino.

Private Service Connect para instancias de Cloud SQL habilitadas para PSC

Para usar la conectividad privada con destinos de Cloud SQL para PostgreSQL habilitados para PSC, sigue estos pasos:

  1. Cuando creas y configuras la instancia de destino, asegúrate de crearla como una instancia habilitada para PSC con una IP privada. No puedes modificar una instancia de Cloud SQL existente para que se habilite para Private Service Connect.
  2. Más adelante, cuando crees el perfil de conexión de destino, en la sección Define connectivity method, selecciona Private IP.

    El campo Nombre del archivo adjunto de servicio se propaga automáticamente con el archivo adjunto de servicio creado para tu instancia de destino.

Private Service Connect para instancias de Cloud SQL que no están habilitadas para PSC

Para usar la conectividad de IP privada para los destinos de Cloud SQL para PostgreSQL que no se crearon con Private Service Connect habilitado, debes crear componentes de red adicionales para enrutar el tráfico entre Database Migration Service y tu destino. Para obtener más información, consulta Conectividad de destino de IP privada para instancias de Cloud SQL que no son de PSC.

Si una máquina virtual (VM) de bastión no es suficiente para tus necesidades de red, configura un grupo de instancias para la configuración de tu productor de red. Para obtener más información, consulta Conectividad de red en servicios administrados.

Para crear la configuración de productor de Private Service Connect requerida, te recomendamos que uses Google Cloud CLI o secuencias de comandos de automatización de Terraform. Antes de usar cualquiera de los datos de comando, realiza los siguientes reemplazos:

  • PROJECT_ID con el proyecto en el que creas la configuración del productor de Private Service Connect.
  • REGION con la región en la que creas la configuración del productor de Private Service Connect.
  • ZONE por la zona dentro de REGION en la que creas todos los recursos zonales (por ejemplo, la VM de bastión).
  • BASTION con la VM de bastión que deseas crear.
  • DB_SUBNETWORK con la subred a la que se reenviará el tráfico. La subred debe tener acceso a la instancia de Cloud SQL.
  • DB_SUBNETWORK_GATEWAY con la puerta de enlace IPv4 de la subred.
  • CLOUD_SQL_INSTANCE_CONNECTION_NAME con el nombre de conexión de la instancia de Cloud SQL (con el formato project:region:name).
  • PORT con el puerto que usará el bastión para exponer la base de datos subyacente.
  • CLOUD_SQL_INSTANCE_PRIVATE_IP con la dirección IP privada de la instancia de Cloud SQL de destino.

gcloud

La siguiente secuencia de comandos de Bash usa Google Cloud CLI para crear la configuración del productor de Private Service Connect para la base de datos de destino. Ten en cuenta que es posible que debas ajustar algunos valores predeterminados, por ejemplo, los rangos de CIDR de la subred de Private Service Connect.

#!/bin/bash

# Create the VPC network for the Database Migration Service Private Service Connect.
gcloud compute networks create dms-psc-vpc \
--project=PROJECT_ID \
--subnet-mode=custom

# Create a subnet for the Database Migration Service Private Service Connect.
gcloud compute networks subnets create dms-psc-REGION \
--project=PROJECT_ID \
--range=10.0.0.0/16 --network=dms-psc-vpc \
--region=REGION

# Create a router required for the bastion to be able to install external
# packages (for example, Dante SOCKS server):
gcloud compute routers create ex-router-REGION \
--network dms-psc-vpc \
--project=PROJECT_ID \
--region=REGION

gcloud compute routers nats create ex-nat-REGION \
--router=ex-router-REGION \
--auto-allocate-nat-external-ips \
--nat-all-subnet-ip-ranges \
--enable-logging \
--project=PROJECT_ID \
--region=REGION

# Create the bastion VM.
gcloud compute instances create BASTION \
    --project=PROJECT_ID \
    --zone=ZONE \
    --image-family=debian-11 \
    --image-project=debian-cloud \
    --network-interface subnet=dms-psc-REGION,no-address \
    --network-interface subnet=DB_SUBNETWORK,no-address \
    --metadata=startup-script='#!/bin/bash

# Route the private IP address using the gateway of the database subnetwork.
# Find the gateway for the relevant subnetwork on the VPC network page
# in the Google Cloud console. Click VPC networks and select the database VPC
# to see the details.
ip route add CLOUD_SQL_INSTANCE_PRIVATE_IP via DB_SUBNETWORK_GATEWAY

# Install Dante SOCKS server.
apt-get install -y dante-server

# Create the Dante configuration file.
touch /etc/danted.conf

# Create a proxy.log file.
touch proxy.log

# Add the following configuration for Dante:
cat > /etc/danted.conf << EOF
logoutput: /proxy.log
user.privileged: proxy
user.unprivileged: nobody

internal: 0.0.0.0 port = PORT
external: ens5

clientmethod: none
socksmethod: none

client pass {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error disconnect
}
client block {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error
}
socks pass {
        from: 0.0.0.0/0
        to: CLOUD_SQL_INSTANCE_PRIVATE_IP/32
        protocol: tcp
        log: connect error disconnect
}
socks block {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error
}
EOF

# Start the Dante server.
systemctl restart danted

tail -f proxy.log'

# Create the target instance from the created bastion VM.
gcloud compute target-instances create bastion-ti-REGION \
--instance=BASTION \
--project=PROJECT_ID \
--instance-zone=ZONE \
--network=dms-psc-vpc

# Create a forwarding rule for the backend service.
gcloud compute forwarding-rules create dms-psc-forwarder-REGION \
--project=PROJECT_ID \
--region=REGION \
--load-balancing-scheme=internal \
--network=dms-psc-vpc \
--subnet=dms-psc-REGION \
--ip-protocol=TCP \
--ports=all \
--target-instance=bastion-ti-REGION \
--target-instance-zone=ZONE

# Create a TCP NAT subnet.
gcloud compute networks subnets create dms-psc-nat-REGION-tcp \
--network=dms-psc-vpc \
--project=PROJECT_ID \
--region=REGION \
--range=10.1.0.0/16 \
--purpose=private-service-connect

# Create a service attachment.
gcloud compute service-attachments create dms-psc-svc-att-REGION \
--project=PROJECT_ID \
--region=REGION \
--producer-forwarding-rule=dms-psc-forwarder-REGION \
--connection-preference=ACCEPT_MANUAL \
--nat-subnets=dms-psc-nat-REGION-tcp

# Create a firewall rule allowing the Private Service Connect NAT subnet.
# access the Private Service Connect subnet
gcloud compute \
--project=PROJECT_ID firewall-rules create dms-allow-psc-tcp \
--direction=INGRESS \
--priority=1000 \
--network=dms-psc-vpc \
--action=ALLOW \
--rules=all \
--source-ranges=10.1.0.0/16 \
--enable-logging

# Print out the created service attachment.
gcloud compute service-attachments describe dms-psc-svc-att-REGION \
--project=PROJECT_ID \
--region=REGION

Terraform

La siguiente secuencia de comandos de Bash usa Google Cloud CLI para crear la configuración del productor de Private Service Connect para la base de datos de destino. Ten en cuenta que es posible que debas ajustar algunos valores predeterminados, por ejemplo, los rangos de CIDR de la subred de Private Service Connect.

variables.tf:

variable "project_id" {
  type        = string
  description = <<DESC
The Google Cloud project in which the setup is created. This should be the same project as
the one that the Cloud SQL instance belongs to.
DESC
}

variable "region" {
  type        = string
  description = "The Google Cloud region in which you create the Private Service Connect
regional resources."
}

variable "zone" {
  type        = string
  description = <<DESC
The Google Cloud zone in which you create the Private Service Connect zonal resources
(should be in the same region as the one specified in the "region" variable).
DESC
}

variable "cloud_sql_instance_name" {
  type        = string
  description = "The Cloud SQL instance name."
}

variable "port" {
  type        = string
  description = "The port that the bastion will use to expose the underlying database."
  default     = "5432"
}

variable "cloud_sql_instance_network" {
  type        = string
  description = <<DESC
The VPC to which the Cloud SQL instance is peered. This is where the bastion will
forward connections to (the destination database needs to be accessible in this VPC).
DESC
}

main.tf:

/* To execute the call:
terraform apply
-var="project_id=PROJECT_ID"
-var="region=REGION"
-var="zone=ZONE"
-var="cloud_sql_instance_name=CLOUD_SQL_INSTANCE_NAME"
-var="port=PORT"
-var="cloud_sql_instance_network=CLOUD_SQL_INSTANCE_NETWORK" */

locals {
  cloud_sql_instance_connection_name = "${var.project_id}:${var.region}:${var.cloud_sql_instance_name}"
}

# Needed for getting the private IP address of the Cloud SQL instance.
data "google_sql_database_instance" "csql_instance" {
  name    = var.cloud_sql_instance_name
  project = var.project_id
}

# Needed for getting the IPv4 gateway of the subnetwork for the database.
data "google_compute_subnetwork" "db_network_subnet" {
  name    = var.cloud_sql_instance_network
  project = var.project_id
  region  = var.region
}

resource "google_compute_network" "psc_sp_network" {
  name                    = "dms-psc-network"
  project                 = var.project_id
  auto_create_subnetworks = false
}

resource "google_compute_subnetwork" "psc_sp_subnetwork" {
  name    = "dms-psc-subnet"
  region  = var.region
  project = var.project_id

  network = google_compute_network.psc_sp_network.id
  # CIDR range can be lower.
  ip_cidr_range = "10.0.0.0/16"
}

resource "google_compute_subnetwork" "psc_sp_nat" {
  provider = google-beta
  name     = "dms-psc-nat"
  region   = var.region
  project  = var.project_id

  network = google_compute_network.psc_sp_network.id
  purpose = "PRIVATE_SERVICE_CONNECT"
  # CIDR range can be lower.
  ip_cidr_range = "10.1.0.0/16"
}

resource "google_compute_service_attachment" "psc_sp_service_attachment" {
  provider = google-beta
  name     = "dms-psc-svc-att"
  region   = var.region
  project  = var.project_id

  enable_proxy_protocol = false
  connection_preference = "ACCEPT_MANUAL"
  nat_subnets           = [google_compute_subnetwork.psc_sp_nat.id]
  target_service        = google_compute_forwarding_rule.psc_sp_target_direct_rule.id
}

resource "google_compute_forwarding_rule" "psc_sp_target_direct_rule" {
  name       = "dms-psc-fr"
  region     = var.region
  project    = var.project_id
  network    = google_compute_network.psc_sp_network.id
  subnetwork = google_compute_subnetwork.psc_sp_subnetwork.id

  load_balancing_scheme = "INTERNAL"
  ip_protocol           = "TCP"
  all_ports             = true

  target = google_compute_target_instance.psc_sp_target.id

}

resource "google_compute_target_instance" "psc_sp_target" {
  provider = google-beta
  name     = "dms-psc-fr-target"
  zone     = var.zone
  instance = google_compute_instance.psc_sp_bastion.id
  network  = google_compute_network.psc_sp_network.id
}

resource "google_compute_instance" "psc_sp_bastion" {
  name           = "dms-psc-cloud-sql-bastion"
  project        = var.project_id
  machine_type   = "e2-medium"
  zone           = var.zone
  can_ip_forward = true

  boot_disk {
    initialize_params {
      image = "debian-cloud/debian-11"
    }
  }

  # The incoming NIC defines the default gateway which must be the Private Service Connect subnet.
  network_interface {
    network    = google_compute_network.psc_sp_network.id
    subnetwork = google_compute_subnetwork.psc_sp_subnetwork.id
  }

  # The outgoing NIC which is on the same network as the Cloud SQL instance.
  network_interface {
    network = data.google_compute_subnetwork.db_network_subnet.network
  }

  metadata_startup_script = <<SCRIPT

#!/bin/bash

# Route the private IP address of the database using the gateway of the database subnetwork.
# To find the gateway for the relevant subnetwork, go to the VPC network page
# in the Google Cloud console. Click VPC networks, and select the database VPC
# to see the details.
ip route add ${data.google_sql_database_instance.csql_instance.private_ip_address} \
via ${data.google_compute_subnetwork.db_network_subnet.gateway_address}

# Install Dante SOCKS server.
apt-get install -y dante-server

# Create the Dante configuration file.
touch /etc/danted.conf

# Create a proxy.log file.
touch proxy.log

# Add the following configuration for Dante:
cat > /etc/danted.conf << EOF
logoutput: /proxy.log
user.privileged: proxy
user.unprivileged: nobody

internal: 0.0.0.0 port = ${var.port}
external: ens5

clientmethod: none
socksmethod: none

client pass {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error disconnect
}
client block {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error
}
socks pass {
        from: 0.0.0.0/0
        to: ${data.google_sql_database_instance.csql_instance.private_ip_address}/32
        protocol: tcp
        log: connect error disconnect
}
socks block {
        from: 0.0.0.0/0
        to: 0.0.0.0/0
        log: connect error
}
EOF

# Start the Dante server.
systemctl restart danted

tail -f proxy.log

SCRIPT
}

# Required firewall rules:

/* Firewall rule allowing the Private Service Connect NAT subnet to access
the Private Service Connect subnet. */
resource "google_compute_firewall" "psc_sp_in_fw" {
  name    = "dms-psc-ingress-nat-fw"
  project = var.project_id
  network = google_compute_network.psc_sp_network.id

  log_config {
    metadata = "INCLUDE_ALL_METADATA"
  }

  allow {
    protocol = "all"
  }

  priority  = 1000
  direction = "INGRESS"
  source_ranges = [google_compute_subnetwork.psc_sp_nat.ip_cidr_range]
}

/* The router that the bastion VM uses to install external packages
(for example, Dante SOCKS server). */

resource "google_compute_router" "psc_sp_ex_router" {
  name    = "dms-psc-external-router"
  project = var.project_id
  region  = var.region
  network = google_compute_network.psc_sp_network.id
}

resource "google_compute_router_nat" "psc_sp_ex_router_nat" {
  name    = "dms-psc-external-router-nat"
  project = var.project_id
  region  = var.region
  router  = google_compute_router.psc_sp_ex_router.name

  nat_ip_allocate_option             = "AUTO_ONLY"
  source_subnetwork_ip_ranges_to_nat = "ALL_SUBNETWORKS_ALL_IP_RANGES"

  log_config {
    enable = true
    filter = "ERRORS_ONLY"
  }
}

outputs.tf:

# The Private Service Connect service attachment.
output "service_attachment" {
  value = google_compute_service_attachment.psc_sp_service_attachment.id
}

Más adelante, cuando creas el perfil de conexión de destino, haz lo siguiente:

  1. En la sección Definir método de conectividad, selecciona IP privada.
  2. En el menú desplegable Nombre del archivo adjunto de servicio, selecciona dms-psc-svc-att-REGION.