import * as pulumi from "@pulumi/pulumi"; /** * This data source allows you to use data encrypted with a Google Cloud KMS asymmetric key * within your resource definitions. * * For more information see * [the official documentation](https://cloud.google.com/kms/docs/encrypt-decrypt-rsa). * * > **NOTE:** Using this data provider will allow you to conceal secret data within your * resource definitions, but it does not take care of protecting that data in the * logging output, plan output, or state output. Please take care to secure your secret * data outside of resource definitions. * * ## Example Usage * * First, create a KMS KeyRing and CryptoKey using the resource definitions: * * ```typescript * import * as pulumi from "@pulumi/pulumi"; * import * as gcp from "@pulumi/gcp"; * * const myKeyRing = new gcp.kms.KeyRing("my_key_ring", { * project: "my-project", * name: "my-key-ring", * location: "us-central1", * }); * const myCryptoKeyCryptoKey = new gcp.kms.CryptoKey("my_crypto_key", { * name: "my-crypto-key", * keyRing: myKeyRing.id, * purpose: "ASYMMETRIC_DECRYPT", * versionTemplate: { * algorithm: "RSA_DECRYPT_OAEP_4096_SHA256", * }, * }); * const myCryptoKey = gcp.kms.getKMSCryptoKeyVersionOutput({ * cryptoKey: myCryptoKeyCryptoKey.id, * }); * ``` * * Next, use the [Cloud SDK](https://cloud.google.com/kms/docs/encrypt-decrypt-rsa#kms-encrypt-asymmetric-cli) to encrypt * some sensitive information: * * Finally, reference the encrypted ciphertext in your resource definitions: * * ```typescript * import * as pulumi from "@pulumi/pulumi"; * import * as gcp from "@pulumi/gcp"; * import * as random from "@pulumi/random"; * * const sqlUserPassword = gcp.kms.getKMSSecretAsymmetric({ * cryptoKeyVersion: myCryptoKey.id, * crc32: "12c59e54", * ciphertext: ` M7nUoba9EGVTu2LjNjBKGdGVBYjyS/i/AY+4yQMQF0Qf/RfUfX31Jw6+VO9OuThq * ylu/7ihX9XD4bM7yYdXnMv9p1OHQUlorSBSbb/J6n1W9UJhcp6um8Tw8/Isx4f75 * 4PskYS6f8Y2ItliGt1/A9iR5BTgGtJBwOxMlgoX2Ggq+Nh4E5SbdoaE5o6CO1nBx * eIPsPEebQ6qC4JehQM3IGuV/lrm58+hZhaXAqNzX1cEYyAt5GYqJIVCiI585SUYs * wRToGyTgaN+zthF0HP9IWlR4Am4LmJ/1OcePTnYw11CkU8wNRbDzVAzogwNH+rXr * LTmf7hxVjBm6bBSVSNFcBKAXFlllubSfIeZ5hgzGqn54OmSf6odO12L5JxllddHc * yAd54vWKs2kJtnsKV2V4ZdkI0w6y1TeI67baFZDNGo6qsCpFMPnvv7d46Pg2VOp1 * J6Ivner0NnNHE4MzNmpZRk8WXMwqq4P/gTiT7F/aCX6oFCUQ4AWPQhJYh2dkcOmL * IP+47Veb10aFn61F1CJwpmOOiGNXKdDT1vK8CMnnwhm825K0q/q9Zqpzc1+1ae1z * mSqol1zCoa88CuSN6nTLQlVnN/dzfrGbc0boJPaM0iGhHtSzHk4SWg84LhiJB1q9 * A9XFJmOVdkvRY9nnz/iVLAdd0Q3vFtLqCdUYsNN2yh4= * `, * }); * const dbNameSuffix = new random.index.Id("db_name_suffix", {byteLength: 4}); * const main = new gcp.sql.DatabaseInstance("main", { * name: `main-instance-${dbNameSuffix.hex}`, * databaseVersion: "MYSQL_5_7", * settings: { * tier: "db-f1-micro", * }, * }); * const users = new gcp.sql.User("users", { * name: "me", * instance: main.name, * host: "me.com", * password: sqlUserPasswordGoogleKmsSecret.plaintext, * }); * ``` * * This will result in a Cloud SQL user being created with password `my-secret-password`. */ export declare function getKMSSecretAsymmetric(args: GetKMSSecretAsymmetricArgs, opts?: pulumi.InvokeOptions): Promise; /** * A collection of arguments for invoking getKMSSecretAsymmetric. */ export interface GetKMSSecretAsymmetricArgs { /** * The ciphertext to be decrypted, encoded in base64 */ ciphertext: string; /** * The crc32 checksum of the `ciphertext` in hexadecimal notation. If not specified, it will be computed. */ crc32?: string; /** * The id of the CryptoKey version that will be used to * decrypt the provided ciphertext. This is represented by the format * `projects/{project}/locations/{location}/keyRings/{keyring}/cryptoKeys/{key}/cryptoKeyVersions/{version}`. */ cryptoKeyVersion: string; } /** * A collection of values returned by getKMSSecretAsymmetric. */ export interface GetKMSSecretAsymmetricResult { readonly ciphertext: string; /** * Contains the crc32 checksum of the provided ciphertext. */ readonly crc32?: string; readonly cryptoKeyVersion: string; /** * The provider-assigned unique ID for this managed resource. */ readonly id: string; /** * Contains the result of decrypting the provided ciphertext. */ readonly plaintext: string; } /** * This data source allows you to use data encrypted with a Google Cloud KMS asymmetric key * within your resource definitions. * * For more information see * [the official documentation](https://cloud.google.com/kms/docs/encrypt-decrypt-rsa). * * > **NOTE:** Using this data provider will allow you to conceal secret data within your * resource definitions, but it does not take care of protecting that data in the * logging output, plan output, or state output. Please take care to secure your secret * data outside of resource definitions. * * ## Example Usage * * First, create a KMS KeyRing and CryptoKey using the resource definitions: * * ```typescript * import * as pulumi from "@pulumi/pulumi"; * import * as gcp from "@pulumi/gcp"; * * const myKeyRing = new gcp.kms.KeyRing("my_key_ring", { * project: "my-project", * name: "my-key-ring", * location: "us-central1", * }); * const myCryptoKeyCryptoKey = new gcp.kms.CryptoKey("my_crypto_key", { * name: "my-crypto-key", * keyRing: myKeyRing.id, * purpose: "ASYMMETRIC_DECRYPT", * versionTemplate: { * algorithm: "RSA_DECRYPT_OAEP_4096_SHA256", * }, * }); * const myCryptoKey = gcp.kms.getKMSCryptoKeyVersionOutput({ * cryptoKey: myCryptoKeyCryptoKey.id, * }); * ``` * * Next, use the [Cloud SDK](https://cloud.google.com/kms/docs/encrypt-decrypt-rsa#kms-encrypt-asymmetric-cli) to encrypt * some sensitive information: * * Finally, reference the encrypted ciphertext in your resource definitions: * * ```typescript * import * as pulumi from "@pulumi/pulumi"; * import * as gcp from "@pulumi/gcp"; * import * as random from "@pulumi/random"; * * const sqlUserPassword = gcp.kms.getKMSSecretAsymmetric({ * cryptoKeyVersion: myCryptoKey.id, * crc32: "12c59e54", * ciphertext: ` M7nUoba9EGVTu2LjNjBKGdGVBYjyS/i/AY+4yQMQF0Qf/RfUfX31Jw6+VO9OuThq * ylu/7ihX9XD4bM7yYdXnMv9p1OHQUlorSBSbb/J6n1W9UJhcp6um8Tw8/Isx4f75 * 4PskYS6f8Y2ItliGt1/A9iR5BTgGtJBwOxMlgoX2Ggq+Nh4E5SbdoaE5o6CO1nBx * eIPsPEebQ6qC4JehQM3IGuV/lrm58+hZhaXAqNzX1cEYyAt5GYqJIVCiI585SUYs * wRToGyTgaN+zthF0HP9IWlR4Am4LmJ/1OcePTnYw11CkU8wNRbDzVAzogwNH+rXr * LTmf7hxVjBm6bBSVSNFcBKAXFlllubSfIeZ5hgzGqn54OmSf6odO12L5JxllddHc * yAd54vWKs2kJtnsKV2V4ZdkI0w6y1TeI67baFZDNGo6qsCpFMPnvv7d46Pg2VOp1 * J6Ivner0NnNHE4MzNmpZRk8WXMwqq4P/gTiT7F/aCX6oFCUQ4AWPQhJYh2dkcOmL * IP+47Veb10aFn61F1CJwpmOOiGNXKdDT1vK8CMnnwhm825K0q/q9Zqpzc1+1ae1z * mSqol1zCoa88CuSN6nTLQlVnN/dzfrGbc0boJPaM0iGhHtSzHk4SWg84LhiJB1q9 * A9XFJmOVdkvRY9nnz/iVLAdd0Q3vFtLqCdUYsNN2yh4= * `, * }); * const dbNameSuffix = new random.index.Id("db_name_suffix", {byteLength: 4}); * const main = new gcp.sql.DatabaseInstance("main", { * name: `main-instance-${dbNameSuffix.hex}`, * databaseVersion: "MYSQL_5_7", * settings: { * tier: "db-f1-micro", * }, * }); * const users = new gcp.sql.User("users", { * name: "me", * instance: main.name, * host: "me.com", * password: sqlUserPasswordGoogleKmsSecret.plaintext, * }); * ``` * * This will result in a Cloud SQL user being created with password `my-secret-password`. */ export declare function getKMSSecretAsymmetricOutput(args: GetKMSSecretAsymmetricOutputArgs, opts?: pulumi.InvokeOutputOptions): pulumi.Output; /** * A collection of arguments for invoking getKMSSecretAsymmetric. */ export interface GetKMSSecretAsymmetricOutputArgs { /** * The ciphertext to be decrypted, encoded in base64 */ ciphertext: pulumi.Input; /** * The crc32 checksum of the `ciphertext` in hexadecimal notation. If not specified, it will be computed. */ crc32?: pulumi.Input; /** * The id of the CryptoKey version that will be used to * decrypt the provided ciphertext. This is represented by the format * `projects/{project}/locations/{location}/keyRings/{keyring}/cryptoKeys/{key}/cryptoKeyVersions/{version}`. */ cryptoKeyVersion: pulumi.Input; } //# sourceMappingURL=getKMSSecretAsymmetric.d.ts.map