@cdktf/provider-google
Version:
Prebuilt google Provider for Terraform CDK (cdktf)
1,122 lines • 681 kB
JavaScript
"use strict";
var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k, _l, _m, _o, _p, _q, _r, _s, _t, _u, _v, _w, _x, _y, _z, _0, _1, _2, _3, _4, _5, _6, _7;
Object.defineProperty(exports, "__esModule", { value: true });
exports.computeInstanceFromTemplateSchedulingLocalSsdRecoveryTimeoutToHclTerraform = exports.computeInstanceFromTemplateSchedulingLocalSsdRecoveryTimeoutToTerraform = exports.ComputeInstanceFromTemplateReservationAffinityOutputReference = exports.computeInstanceFromTemplateReservationAffinityToHclTerraform = exports.computeInstanceFromTemplateReservationAffinityToTerraform = exports.ComputeInstanceFromTemplateReservationAffinitySpecificReservationOutputReference = exports.computeInstanceFromTemplateReservationAffinitySpecificReservationToHclTerraform = exports.computeInstanceFromTemplateReservationAffinitySpecificReservationToTerraform = exports.ComputeInstanceFromTemplateParamsOutputReference = exports.computeInstanceFromTemplateParamsToHclTerraform = exports.computeInstanceFromTemplateParamsToTerraform = exports.ComputeInstanceFromTemplateNetworkPerformanceConfigOutputReference = exports.computeInstanceFromTemplateNetworkPerformanceConfigToHclTerraform = exports.computeInstanceFromTemplateNetworkPerformanceConfigToTerraform = exports.ComputeInstanceFromTemplateNetworkInterfaceList = exports.ComputeInstanceFromTemplateNetworkInterfaceOutputReference = exports.computeInstanceFromTemplateNetworkInterfaceToHclTerraform = exports.computeInstanceFromTemplateNetworkInterfaceToTerraform = exports.ComputeInstanceFromTemplateNetworkInterfaceIpv6AccessConfigList = exports.ComputeInstanceFromTemplateNetworkInterfaceIpv6AccessConfigOutputReference = exports.computeInstanceFromTemplateNetworkInterfaceIpv6AccessConfigToHclTerraform = exports.computeInstanceFromTemplateNetworkInterfaceIpv6AccessConfigToTerraform = exports.ComputeInstanceFromTemplateNetworkInterfaceAliasIpRangeList = exports.ComputeInstanceFromTemplateNetworkInterfaceAliasIpRangeOutputReference = exports.computeInstanceFromTemplateNetworkInterfaceAliasIpRangeToHclTerraform = exports.computeInstanceFromTemplateNetworkInterfaceAliasIpRangeToTerraform = exports.ComputeInstanceFromTemplateNetworkInterfaceAccessConfigList = exports.ComputeInstanceFromTemplateNetworkInterfaceAccessConfigOutputReference = exports.computeInstanceFromTemplateNetworkInterfaceAccessConfigToHclTerraform = exports.computeInstanceFromTemplateNetworkInterfaceAccessConfigToTerraform = exports.ComputeInstanceFromTemplateGuestAcceleratorList = exports.ComputeInstanceFromTemplateGuestAcceleratorOutputReference = exports.computeInstanceFromTemplateGuestAcceleratorToHclTerraform = exports.computeInstanceFromTemplateGuestAcceleratorToTerraform = exports.ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference = exports.computeInstanceFromTemplateConfidentialInstanceConfigToHclTerraform = exports.computeInstanceFromTemplateConfidentialInstanceConfigToTerraform = exports.ComputeInstanceFromTemplateBootDiskOutputReference = exports.computeInstanceFromTemplateBootDiskToHclTerraform = exports.computeInstanceFromTemplateBootDiskToTerraform = exports.ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference = exports.computeInstanceFromTemplateBootDiskInitializeParamsToHclTerraform = exports.computeInstanceFromTemplateBootDiskInitializeParamsToTerraform = exports.ComputeInstanceFromTemplateAttachedDiskList = exports.ComputeInstanceFromTemplateAttachedDiskOutputReference = exports.computeInstanceFromTemplateAttachedDiskToHclTerraform = exports.computeInstanceFromTemplateAttachedDiskToTerraform = exports.ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference = exports.computeInstanceFromTemplateAdvancedMachineFeaturesToHclTerraform = exports.computeInstanceFromTemplateAdvancedMachineFeaturesToTerraform = void 0;
exports.ComputeInstanceFromTemplate = exports.ComputeInstanceFromTemplateTimeoutsOutputReference = exports.computeInstanceFromTemplateTimeoutsToHclTerraform = exports.computeInstanceFromTemplateTimeoutsToTerraform = exports.ComputeInstanceFromTemplateShieldedInstanceConfigOutputReference = exports.computeInstanceFromTemplateShieldedInstanceConfigToHclTerraform = exports.computeInstanceFromTemplateShieldedInstanceConfigToTerraform = exports.ComputeInstanceFromTemplateServiceAccountOutputReference = exports.computeInstanceFromTemplateServiceAccountToHclTerraform = exports.computeInstanceFromTemplateServiceAccountToTerraform = exports.ComputeInstanceFromTemplateScratchDiskList = exports.ComputeInstanceFromTemplateScratchDiskOutputReference = exports.computeInstanceFromTemplateScratchDiskToHclTerraform = exports.computeInstanceFromTemplateScratchDiskToTerraform = exports.ComputeInstanceFromTemplateSchedulingOutputReference = exports.computeInstanceFromTemplateSchedulingToHclTerraform = exports.computeInstanceFromTemplateSchedulingToTerraform = exports.ComputeInstanceFromTemplateSchedulingOnInstanceStopActionOutputReference = exports.computeInstanceFromTemplateSchedulingOnInstanceStopActionToHclTerraform = exports.computeInstanceFromTemplateSchedulingOnInstanceStopActionToTerraform = exports.ComputeInstanceFromTemplateSchedulingNodeAffinitiesList = exports.ComputeInstanceFromTemplateSchedulingNodeAffinitiesOutputReference = exports.computeInstanceFromTemplateSchedulingNodeAffinitiesToHclTerraform = exports.computeInstanceFromTemplateSchedulingNodeAffinitiesToTerraform = exports.ComputeInstanceFromTemplateSchedulingMaxRunDurationOutputReference = exports.computeInstanceFromTemplateSchedulingMaxRunDurationToHclTerraform = exports.computeInstanceFromTemplateSchedulingMaxRunDurationToTerraform = exports.ComputeInstanceFromTemplateSchedulingLocalSsdRecoveryTimeoutOutputReference = void 0;
const JSII_RTTI_SYMBOL_1 = Symbol.for("jsii.rtti");
const cdktf = require("cdktf");
function computeInstanceFromTemplateAdvancedMachineFeaturesToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
enable_nested_virtualization: cdktf.booleanToTerraform(struct.enableNestedVirtualization),
enable_uefi_networking: cdktf.booleanToTerraform(struct.enableUefiNetworking),
performance_monitoring_unit: cdktf.stringToTerraform(struct.performanceMonitoringUnit),
threads_per_core: cdktf.numberToTerraform(struct.threadsPerCore),
turbo_mode: cdktf.stringToTerraform(struct.turboMode),
visible_core_count: cdktf.numberToTerraform(struct.visibleCoreCount),
};
}
exports.computeInstanceFromTemplateAdvancedMachineFeaturesToTerraform = computeInstanceFromTemplateAdvancedMachineFeaturesToTerraform;
function computeInstanceFromTemplateAdvancedMachineFeaturesToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
const attrs = {
enable_nested_virtualization: {
value: cdktf.booleanToHclTerraform(struct.enableNestedVirtualization),
isBlock: false,
type: "simple",
storageClassType: "boolean",
},
enable_uefi_networking: {
value: cdktf.booleanToHclTerraform(struct.enableUefiNetworking),
isBlock: false,
type: "simple",
storageClassType: "boolean",
},
performance_monitoring_unit: {
value: cdktf.stringToHclTerraform(struct.performanceMonitoringUnit),
isBlock: false,
type: "simple",
storageClassType: "string",
},
threads_per_core: {
value: cdktf.numberToHclTerraform(struct.threadsPerCore),
isBlock: false,
type: "simple",
storageClassType: "number",
},
turbo_mode: {
value: cdktf.stringToHclTerraform(struct.turboMode),
isBlock: false,
type: "simple",
storageClassType: "string",
},
visible_core_count: {
value: cdktf.numberToHclTerraform(struct.visibleCoreCount),
isBlock: false,
type: "simple",
storageClassType: "number",
},
};
// remove undefined attributes
return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.computeInstanceFromTemplateAdvancedMachineFeaturesToHclTerraform = computeInstanceFromTemplateAdvancedMachineFeaturesToHclTerraform;
class ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference extends cdktf.ComplexObject {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
*/
constructor(terraformResource, terraformAttribute) {
super(terraformResource, terraformAttribute, false, 0);
this.isEmptyObject = false;
}
get internalValue() {
let hasAnyValues = this.isEmptyObject;
const internalValueResult = {};
if (this._enableNestedVirtualization !== undefined) {
hasAnyValues = true;
internalValueResult.enableNestedVirtualization = this._enableNestedVirtualization;
}
if (this._enableUefiNetworking !== undefined) {
hasAnyValues = true;
internalValueResult.enableUefiNetworking = this._enableUefiNetworking;
}
if (this._performanceMonitoringUnit !== undefined) {
hasAnyValues = true;
internalValueResult.performanceMonitoringUnit = this._performanceMonitoringUnit;
}
if (this._threadsPerCore !== undefined) {
hasAnyValues = true;
internalValueResult.threadsPerCore = this._threadsPerCore;
}
if (this._turboMode !== undefined) {
hasAnyValues = true;
internalValueResult.turboMode = this._turboMode;
}
if (this._visibleCoreCount !== undefined) {
hasAnyValues = true;
internalValueResult.visibleCoreCount = this._visibleCoreCount;
}
return hasAnyValues ? internalValueResult : undefined;
}
set internalValue(value) {
if (value === undefined) {
this.isEmptyObject = false;
this._enableNestedVirtualization = undefined;
this._enableUefiNetworking = undefined;
this._performanceMonitoringUnit = undefined;
this._threadsPerCore = undefined;
this._turboMode = undefined;
this._visibleCoreCount = undefined;
}
else {
this.isEmptyObject = Object.keys(value).length === 0;
this._enableNestedVirtualization = value.enableNestedVirtualization;
this._enableUefiNetworking = value.enableUefiNetworking;
this._performanceMonitoringUnit = value.performanceMonitoringUnit;
this._threadsPerCore = value.threadsPerCore;
this._turboMode = value.turboMode;
this._visibleCoreCount = value.visibleCoreCount;
}
}
get enableNestedVirtualization() {
return this.getBooleanAttribute('enable_nested_virtualization');
}
set enableNestedVirtualization(value) {
this._enableNestedVirtualization = value;
}
resetEnableNestedVirtualization() {
this._enableNestedVirtualization = undefined;
}
// Temporarily expose input value. Use with caution.
get enableNestedVirtualizationInput() {
return this._enableNestedVirtualization;
}
get enableUefiNetworking() {
return this.getBooleanAttribute('enable_uefi_networking');
}
set enableUefiNetworking(value) {
this._enableUefiNetworking = value;
}
resetEnableUefiNetworking() {
this._enableUefiNetworking = undefined;
}
// Temporarily expose input value. Use with caution.
get enableUefiNetworkingInput() {
return this._enableUefiNetworking;
}
get performanceMonitoringUnit() {
return this.getStringAttribute('performance_monitoring_unit');
}
set performanceMonitoringUnit(value) {
this._performanceMonitoringUnit = value;
}
resetPerformanceMonitoringUnit() {
this._performanceMonitoringUnit = undefined;
}
// Temporarily expose input value. Use with caution.
get performanceMonitoringUnitInput() {
return this._performanceMonitoringUnit;
}
get threadsPerCore() {
return this.getNumberAttribute('threads_per_core');
}
set threadsPerCore(value) {
this._threadsPerCore = value;
}
resetThreadsPerCore() {
this._threadsPerCore = undefined;
}
// Temporarily expose input value. Use with caution.
get threadsPerCoreInput() {
return this._threadsPerCore;
}
get turboMode() {
return this.getStringAttribute('turbo_mode');
}
set turboMode(value) {
this._turboMode = value;
}
resetTurboMode() {
this._turboMode = undefined;
}
// Temporarily expose input value. Use with caution.
get turboModeInput() {
return this._turboMode;
}
get visibleCoreCount() {
return this.getNumberAttribute('visible_core_count');
}
set visibleCoreCount(value) {
this._visibleCoreCount = value;
}
resetVisibleCoreCount() {
this._visibleCoreCount = undefined;
}
// Temporarily expose input value. Use with caution.
get visibleCoreCountInput() {
return this._visibleCoreCount;
}
}
exports.ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference = ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference;
_a = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference[_a] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateAdvancedMachineFeaturesOutputReference", version: "14.12.0" };
function computeInstanceFromTemplateAttachedDiskToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
device_name: cdktf.stringToTerraform(struct.deviceName),
disk_encryption_key_raw: cdktf.stringToTerraform(struct.diskEncryptionKeyRaw),
kms_key_self_link: cdktf.stringToTerraform(struct.kmsKeySelfLink),
mode: cdktf.stringToTerraform(struct.mode),
source: cdktf.stringToTerraform(struct.source),
};
}
exports.computeInstanceFromTemplateAttachedDiskToTerraform = computeInstanceFromTemplateAttachedDiskToTerraform;
function computeInstanceFromTemplateAttachedDiskToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
const attrs = {
device_name: {
value: cdktf.stringToHclTerraform(struct.deviceName),
isBlock: false,
type: "simple",
storageClassType: "string",
},
disk_encryption_key_raw: {
value: cdktf.stringToHclTerraform(struct.diskEncryptionKeyRaw),
isBlock: false,
type: "simple",
storageClassType: "string",
},
kms_key_self_link: {
value: cdktf.stringToHclTerraform(struct.kmsKeySelfLink),
isBlock: false,
type: "simple",
storageClassType: "string",
},
mode: {
value: cdktf.stringToHclTerraform(struct.mode),
isBlock: false,
type: "simple",
storageClassType: "string",
},
source: {
value: cdktf.stringToHclTerraform(struct.source),
isBlock: false,
type: "simple",
storageClassType: "string",
},
};
// remove undefined attributes
return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.computeInstanceFromTemplateAttachedDiskToHclTerraform = computeInstanceFromTemplateAttachedDiskToHclTerraform;
class ComputeInstanceFromTemplateAttachedDiskOutputReference extends cdktf.ComplexObject {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
* @param complexObjectIndex the index of this item in the list
* @param complexObjectIsFromSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
*/
constructor(terraformResource, terraformAttribute, complexObjectIndex, complexObjectIsFromSet) {
super(terraformResource, terraformAttribute, complexObjectIsFromSet, complexObjectIndex);
this.isEmptyObject = false;
}
get internalValue() {
if (this.resolvableValue) {
return this.resolvableValue;
}
let hasAnyValues = this.isEmptyObject;
const internalValueResult = {};
if (this._deviceName !== undefined) {
hasAnyValues = true;
internalValueResult.deviceName = this._deviceName;
}
if (this._diskEncryptionKeyRaw !== undefined) {
hasAnyValues = true;
internalValueResult.diskEncryptionKeyRaw = this._diskEncryptionKeyRaw;
}
if (this._kmsKeySelfLink !== undefined) {
hasAnyValues = true;
internalValueResult.kmsKeySelfLink = this._kmsKeySelfLink;
}
if (this._mode !== undefined) {
hasAnyValues = true;
internalValueResult.mode = this._mode;
}
if (this._source !== undefined) {
hasAnyValues = true;
internalValueResult.source = this._source;
}
return hasAnyValues ? internalValueResult : undefined;
}
set internalValue(value) {
if (value === undefined) {
this.isEmptyObject = false;
this.resolvableValue = undefined;
this._deviceName = undefined;
this._diskEncryptionKeyRaw = undefined;
this._kmsKeySelfLink = undefined;
this._mode = undefined;
this._source = undefined;
}
else if (cdktf.Tokenization.isResolvable(value)) {
this.isEmptyObject = false;
this.resolvableValue = value;
}
else {
this.isEmptyObject = Object.keys(value).length === 0;
this.resolvableValue = undefined;
this._deviceName = value.deviceName;
this._diskEncryptionKeyRaw = value.diskEncryptionKeyRaw;
this._kmsKeySelfLink = value.kmsKeySelfLink;
this._mode = value.mode;
this._source = value.source;
}
}
get deviceName() {
return this.getStringAttribute('device_name');
}
set deviceName(value) {
this._deviceName = value;
}
resetDeviceName() {
this._deviceName = undefined;
}
// Temporarily expose input value. Use with caution.
get deviceNameInput() {
return this._deviceName;
}
get diskEncryptionKeyRaw() {
return this.getStringAttribute('disk_encryption_key_raw');
}
set diskEncryptionKeyRaw(value) {
this._diskEncryptionKeyRaw = value;
}
resetDiskEncryptionKeyRaw() {
this._diskEncryptionKeyRaw = undefined;
}
// Temporarily expose input value. Use with caution.
get diskEncryptionKeyRawInput() {
return this._diskEncryptionKeyRaw;
}
// disk_encryption_key_sha256 - computed: true, optional: false, required: false
get diskEncryptionKeySha256() {
return this.getStringAttribute('disk_encryption_key_sha256');
}
get kmsKeySelfLink() {
return this.getStringAttribute('kms_key_self_link');
}
set kmsKeySelfLink(value) {
this._kmsKeySelfLink = value;
}
resetKmsKeySelfLink() {
this._kmsKeySelfLink = undefined;
}
// Temporarily expose input value. Use with caution.
get kmsKeySelfLinkInput() {
return this._kmsKeySelfLink;
}
get mode() {
return this.getStringAttribute('mode');
}
set mode(value) {
this._mode = value;
}
resetMode() {
this._mode = undefined;
}
// Temporarily expose input value. Use with caution.
get modeInput() {
return this._mode;
}
get source() {
return this.getStringAttribute('source');
}
set source(value) {
this._source = value;
}
// Temporarily expose input value. Use with caution.
get sourceInput() {
return this._source;
}
}
exports.ComputeInstanceFromTemplateAttachedDiskOutputReference = ComputeInstanceFromTemplateAttachedDiskOutputReference;
_b = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateAttachedDiskOutputReference[_b] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateAttachedDiskOutputReference", version: "14.12.0" };
class ComputeInstanceFromTemplateAttachedDiskList extends cdktf.ComplexList {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
* @param wrapsSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
*/
constructor(terraformResource, terraformAttribute, wrapsSet) {
super(terraformResource, terraformAttribute, wrapsSet);
this.terraformResource = terraformResource;
this.terraformAttribute = terraformAttribute;
this.wrapsSet = wrapsSet;
}
/**
* @param index the index of the item to return
*/
get(index) {
return new ComputeInstanceFromTemplateAttachedDiskOutputReference(this.terraformResource, this.terraformAttribute, index, this.wrapsSet);
}
}
exports.ComputeInstanceFromTemplateAttachedDiskList = ComputeInstanceFromTemplateAttachedDiskList;
_c = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateAttachedDiskList[_c] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateAttachedDiskList", version: "14.12.0" };
function computeInstanceFromTemplateBootDiskInitializeParamsToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
enable_confidential_compute: cdktf.booleanToTerraform(struct.enableConfidentialCompute),
image: cdktf.stringToTerraform(struct.image),
labels: cdktf.hashMapper(cdktf.stringToTerraform)(struct.labels),
provisioned_iops: cdktf.numberToTerraform(struct.provisionedIops),
provisioned_throughput: cdktf.numberToTerraform(struct.provisionedThroughput),
resource_manager_tags: cdktf.hashMapper(cdktf.stringToTerraform)(struct.resourceManagerTags),
resource_policies: cdktf.listMapper(cdktf.stringToTerraform, false)(struct.resourcePolicies),
size: cdktf.numberToTerraform(struct.size),
storage_pool: cdktf.stringToTerraform(struct.storagePool),
type: cdktf.stringToTerraform(struct.type),
};
}
exports.computeInstanceFromTemplateBootDiskInitializeParamsToTerraform = computeInstanceFromTemplateBootDiskInitializeParamsToTerraform;
function computeInstanceFromTemplateBootDiskInitializeParamsToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
const attrs = {
enable_confidential_compute: {
value: cdktf.booleanToHclTerraform(struct.enableConfidentialCompute),
isBlock: false,
type: "simple",
storageClassType: "boolean",
},
image: {
value: cdktf.stringToHclTerraform(struct.image),
isBlock: false,
type: "simple",
storageClassType: "string",
},
labels: {
value: cdktf.hashMapperHcl(cdktf.stringToHclTerraform)(struct.labels),
isBlock: false,
type: "map",
storageClassType: "stringMap",
},
provisioned_iops: {
value: cdktf.numberToHclTerraform(struct.provisionedIops),
isBlock: false,
type: "simple",
storageClassType: "number",
},
provisioned_throughput: {
value: cdktf.numberToHclTerraform(struct.provisionedThroughput),
isBlock: false,
type: "simple",
storageClassType: "number",
},
resource_manager_tags: {
value: cdktf.hashMapperHcl(cdktf.stringToHclTerraform)(struct.resourceManagerTags),
isBlock: false,
type: "map",
storageClassType: "stringMap",
},
resource_policies: {
value: cdktf.listMapperHcl(cdktf.stringToHclTerraform, false)(struct.resourcePolicies),
isBlock: false,
type: "list",
storageClassType: "stringList",
},
size: {
value: cdktf.numberToHclTerraform(struct.size),
isBlock: false,
type: "simple",
storageClassType: "number",
},
storage_pool: {
value: cdktf.stringToHclTerraform(struct.storagePool),
isBlock: false,
type: "simple",
storageClassType: "string",
},
type: {
value: cdktf.stringToHclTerraform(struct.type),
isBlock: false,
type: "simple",
storageClassType: "string",
},
};
// remove undefined attributes
return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.computeInstanceFromTemplateBootDiskInitializeParamsToHclTerraform = computeInstanceFromTemplateBootDiskInitializeParamsToHclTerraform;
class ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference extends cdktf.ComplexObject {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
*/
constructor(terraformResource, terraformAttribute) {
super(terraformResource, terraformAttribute, false, 0);
this.isEmptyObject = false;
}
get internalValue() {
let hasAnyValues = this.isEmptyObject;
const internalValueResult = {};
if (this._enableConfidentialCompute !== undefined) {
hasAnyValues = true;
internalValueResult.enableConfidentialCompute = this._enableConfidentialCompute;
}
if (this._image !== undefined) {
hasAnyValues = true;
internalValueResult.image = this._image;
}
if (this._labels !== undefined) {
hasAnyValues = true;
internalValueResult.labels = this._labels;
}
if (this._provisionedIops !== undefined) {
hasAnyValues = true;
internalValueResult.provisionedIops = this._provisionedIops;
}
if (this._provisionedThroughput !== undefined) {
hasAnyValues = true;
internalValueResult.provisionedThroughput = this._provisionedThroughput;
}
if (this._resourceManagerTags !== undefined) {
hasAnyValues = true;
internalValueResult.resourceManagerTags = this._resourceManagerTags;
}
if (this._resourcePolicies !== undefined) {
hasAnyValues = true;
internalValueResult.resourcePolicies = this._resourcePolicies;
}
if (this._size !== undefined) {
hasAnyValues = true;
internalValueResult.size = this._size;
}
if (this._storagePool !== undefined) {
hasAnyValues = true;
internalValueResult.storagePool = this._storagePool;
}
if (this._type !== undefined) {
hasAnyValues = true;
internalValueResult.type = this._type;
}
return hasAnyValues ? internalValueResult : undefined;
}
set internalValue(value) {
if (value === undefined) {
this.isEmptyObject = false;
this._enableConfidentialCompute = undefined;
this._image = undefined;
this._labels = undefined;
this._provisionedIops = undefined;
this._provisionedThroughput = undefined;
this._resourceManagerTags = undefined;
this._resourcePolicies = undefined;
this._size = undefined;
this._storagePool = undefined;
this._type = undefined;
}
else {
this.isEmptyObject = Object.keys(value).length === 0;
this._enableConfidentialCompute = value.enableConfidentialCompute;
this._image = value.image;
this._labels = value.labels;
this._provisionedIops = value.provisionedIops;
this._provisionedThroughput = value.provisionedThroughput;
this._resourceManagerTags = value.resourceManagerTags;
this._resourcePolicies = value.resourcePolicies;
this._size = value.size;
this._storagePool = value.storagePool;
this._type = value.type;
}
}
get enableConfidentialCompute() {
return this.getBooleanAttribute('enable_confidential_compute');
}
set enableConfidentialCompute(value) {
this._enableConfidentialCompute = value;
}
resetEnableConfidentialCompute() {
this._enableConfidentialCompute = undefined;
}
// Temporarily expose input value. Use with caution.
get enableConfidentialComputeInput() {
return this._enableConfidentialCompute;
}
get image() {
return this.getStringAttribute('image');
}
set image(value) {
this._image = value;
}
resetImage() {
this._image = undefined;
}
// Temporarily expose input value. Use with caution.
get imageInput() {
return this._image;
}
get labels() {
return this.getStringMapAttribute('labels');
}
set labels(value) {
this._labels = value;
}
resetLabels() {
this._labels = undefined;
}
// Temporarily expose input value. Use with caution.
get labelsInput() {
return this._labels;
}
get provisionedIops() {
return this.getNumberAttribute('provisioned_iops');
}
set provisionedIops(value) {
this._provisionedIops = value;
}
resetProvisionedIops() {
this._provisionedIops = undefined;
}
// Temporarily expose input value. Use with caution.
get provisionedIopsInput() {
return this._provisionedIops;
}
get provisionedThroughput() {
return this.getNumberAttribute('provisioned_throughput');
}
set provisionedThroughput(value) {
this._provisionedThroughput = value;
}
resetProvisionedThroughput() {
this._provisionedThroughput = undefined;
}
// Temporarily expose input value. Use with caution.
get provisionedThroughputInput() {
return this._provisionedThroughput;
}
get resourceManagerTags() {
return this.getStringMapAttribute('resource_manager_tags');
}
set resourceManagerTags(value) {
this._resourceManagerTags = value;
}
resetResourceManagerTags() {
this._resourceManagerTags = undefined;
}
// Temporarily expose input value. Use with caution.
get resourceManagerTagsInput() {
return this._resourceManagerTags;
}
get resourcePolicies() {
return this.getListAttribute('resource_policies');
}
set resourcePolicies(value) {
this._resourcePolicies = value;
}
resetResourcePolicies() {
this._resourcePolicies = undefined;
}
// Temporarily expose input value. Use with caution.
get resourcePoliciesInput() {
return this._resourcePolicies;
}
get size() {
return this.getNumberAttribute('size');
}
set size(value) {
this._size = value;
}
resetSize() {
this._size = undefined;
}
// Temporarily expose input value. Use with caution.
get sizeInput() {
return this._size;
}
get storagePool() {
return this.getStringAttribute('storage_pool');
}
set storagePool(value) {
this._storagePool = value;
}
resetStoragePool() {
this._storagePool = undefined;
}
// Temporarily expose input value. Use with caution.
get storagePoolInput() {
return this._storagePool;
}
get type() {
return this.getStringAttribute('type');
}
set type(value) {
this._type = value;
}
resetType() {
this._type = undefined;
}
// Temporarily expose input value. Use with caution.
get typeInput() {
return this._type;
}
}
exports.ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference = ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference;
_d = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference[_d] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference", version: "14.12.0" };
function computeInstanceFromTemplateBootDiskToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
auto_delete: cdktf.booleanToTerraform(struct.autoDelete),
device_name: cdktf.stringToTerraform(struct.deviceName),
disk_encryption_key_raw: cdktf.stringToTerraform(struct.diskEncryptionKeyRaw),
interface: cdktf.stringToTerraform(struct.interface),
kms_key_self_link: cdktf.stringToTerraform(struct.kmsKeySelfLink),
mode: cdktf.stringToTerraform(struct.mode),
source: cdktf.stringToTerraform(struct.source),
initialize_params: computeInstanceFromTemplateBootDiskInitializeParamsToTerraform(struct.initializeParams),
};
}
exports.computeInstanceFromTemplateBootDiskToTerraform = computeInstanceFromTemplateBootDiskToTerraform;
function computeInstanceFromTemplateBootDiskToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
const attrs = {
auto_delete: {
value: cdktf.booleanToHclTerraform(struct.autoDelete),
isBlock: false,
type: "simple",
storageClassType: "boolean",
},
device_name: {
value: cdktf.stringToHclTerraform(struct.deviceName),
isBlock: false,
type: "simple",
storageClassType: "string",
},
disk_encryption_key_raw: {
value: cdktf.stringToHclTerraform(struct.diskEncryptionKeyRaw),
isBlock: false,
type: "simple",
storageClassType: "string",
},
interface: {
value: cdktf.stringToHclTerraform(struct.interface),
isBlock: false,
type: "simple",
storageClassType: "string",
},
kms_key_self_link: {
value: cdktf.stringToHclTerraform(struct.kmsKeySelfLink),
isBlock: false,
type: "simple",
storageClassType: "string",
},
mode: {
value: cdktf.stringToHclTerraform(struct.mode),
isBlock: false,
type: "simple",
storageClassType: "string",
},
source: {
value: cdktf.stringToHclTerraform(struct.source),
isBlock: false,
type: "simple",
storageClassType: "string",
},
initialize_params: {
value: computeInstanceFromTemplateBootDiskInitializeParamsToHclTerraform(struct.initializeParams),
isBlock: true,
type: "list",
storageClassType: "ComputeInstanceFromTemplateBootDiskInitializeParamsList",
},
};
// remove undefined attributes
return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.computeInstanceFromTemplateBootDiskToHclTerraform = computeInstanceFromTemplateBootDiskToHclTerraform;
class ComputeInstanceFromTemplateBootDiskOutputReference extends cdktf.ComplexObject {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
*/
constructor(terraformResource, terraformAttribute) {
super(terraformResource, terraformAttribute, false, 0);
this.isEmptyObject = false;
// initialize_params - computed: false, optional: true, required: false
this._initializeParams = new ComputeInstanceFromTemplateBootDiskInitializeParamsOutputReference(this, "initialize_params");
}
get internalValue() {
let hasAnyValues = this.isEmptyObject;
const internalValueResult = {};
if (this._autoDelete !== undefined) {
hasAnyValues = true;
internalValueResult.autoDelete = this._autoDelete;
}
if (this._deviceName !== undefined) {
hasAnyValues = true;
internalValueResult.deviceName = this._deviceName;
}
if (this._diskEncryptionKeyRaw !== undefined) {
hasAnyValues = true;
internalValueResult.diskEncryptionKeyRaw = this._diskEncryptionKeyRaw;
}
if (this._interface !== undefined) {
hasAnyValues = true;
internalValueResult.interface = this._interface;
}
if (this._kmsKeySelfLink !== undefined) {
hasAnyValues = true;
internalValueResult.kmsKeySelfLink = this._kmsKeySelfLink;
}
if (this._mode !== undefined) {
hasAnyValues = true;
internalValueResult.mode = this._mode;
}
if (this._source !== undefined) {
hasAnyValues = true;
internalValueResult.source = this._source;
}
if (this._initializeParams?.internalValue !== undefined) {
hasAnyValues = true;
internalValueResult.initializeParams = this._initializeParams?.internalValue;
}
return hasAnyValues ? internalValueResult : undefined;
}
set internalValue(value) {
if (value === undefined) {
this.isEmptyObject = false;
this._autoDelete = undefined;
this._deviceName = undefined;
this._diskEncryptionKeyRaw = undefined;
this._interface = undefined;
this._kmsKeySelfLink = undefined;
this._mode = undefined;
this._source = undefined;
this._initializeParams.internalValue = undefined;
}
else {
this.isEmptyObject = Object.keys(value).length === 0;
this._autoDelete = value.autoDelete;
this._deviceName = value.deviceName;
this._diskEncryptionKeyRaw = value.diskEncryptionKeyRaw;
this._interface = value.interface;
this._kmsKeySelfLink = value.kmsKeySelfLink;
this._mode = value.mode;
this._source = value.source;
this._initializeParams.internalValue = value.initializeParams;
}
}
get autoDelete() {
return this.getBooleanAttribute('auto_delete');
}
set autoDelete(value) {
this._autoDelete = value;
}
resetAutoDelete() {
this._autoDelete = undefined;
}
// Temporarily expose input value. Use with caution.
get autoDeleteInput() {
return this._autoDelete;
}
get deviceName() {
return this.getStringAttribute('device_name');
}
set deviceName(value) {
this._deviceName = value;
}
resetDeviceName() {
this._deviceName = undefined;
}
// Temporarily expose input value. Use with caution.
get deviceNameInput() {
return this._deviceName;
}
get diskEncryptionKeyRaw() {
return this.getStringAttribute('disk_encryption_key_raw');
}
set diskEncryptionKeyRaw(value) {
this._diskEncryptionKeyRaw = value;
}
resetDiskEncryptionKeyRaw() {
this._diskEncryptionKeyRaw = undefined;
}
// Temporarily expose input value. Use with caution.
get diskEncryptionKeyRawInput() {
return this._diskEncryptionKeyRaw;
}
// disk_encryption_key_sha256 - computed: true, optional: false, required: false
get diskEncryptionKeySha256() {
return this.getStringAttribute('disk_encryption_key_sha256');
}
get interface() {
return this.getStringAttribute('interface');
}
set interface(value) {
this._interface = value;
}
resetInterface() {
this._interface = undefined;
}
// Temporarily expose input value. Use with caution.
get interfaceInput() {
return this._interface;
}
get kmsKeySelfLink() {
return this.getStringAttribute('kms_key_self_link');
}
set kmsKeySelfLink(value) {
this._kmsKeySelfLink = value;
}
resetKmsKeySelfLink() {
this._kmsKeySelfLink = undefined;
}
// Temporarily expose input value. Use with caution.
get kmsKeySelfLinkInput() {
return this._kmsKeySelfLink;
}
get mode() {
return this.getStringAttribute('mode');
}
set mode(value) {
this._mode = value;
}
resetMode() {
this._mode = undefined;
}
// Temporarily expose input value. Use with caution.
get modeInput() {
return this._mode;
}
get source() {
return this.getStringAttribute('source');
}
set source(value) {
this._source = value;
}
resetSource() {
this._source = undefined;
}
// Temporarily expose input value. Use with caution.
get sourceInput() {
return this._source;
}
get initializeParams() {
return this._initializeParams;
}
putInitializeParams(value) {
this._initializeParams.internalValue = value;
}
resetInitializeParams() {
this._initializeParams.internalValue = undefined;
}
// Temporarily expose input value. Use with caution.
get initializeParamsInput() {
return this._initializeParams.internalValue;
}
}
exports.ComputeInstanceFromTemplateBootDiskOutputReference = ComputeInstanceFromTemplateBootDiskOutputReference;
_e = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateBootDiskOutputReference[_e] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateBootDiskOutputReference", version: "14.12.0" };
function computeInstanceFromTemplateConfidentialInstanceConfigToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
confidential_instance_type: cdktf.stringToTerraform(struct.confidentialInstanceType),
enable_confidential_compute: cdktf.booleanToTerraform(struct.enableConfidentialCompute),
};
}
exports.computeInstanceFromTemplateConfidentialInstanceConfigToTerraform = computeInstanceFromTemplateConfidentialInstanceConfigToTerraform;
function computeInstanceFromTemplateConfidentialInstanceConfigToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
const attrs = {
confidential_instance_type: {
value: cdktf.stringToHclTerraform(struct.confidentialInstanceType),
isBlock: false,
type: "simple",
storageClassType: "string",
},
enable_confidential_compute: {
value: cdktf.booleanToHclTerraform(struct.enableConfidentialCompute),
isBlock: false,
type: "simple",
storageClassType: "boolean",
},
};
// remove undefined attributes
return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.computeInstanceFromTemplateConfidentialInstanceConfigToHclTerraform = computeInstanceFromTemplateConfidentialInstanceConfigToHclTerraform;
class ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference extends cdktf.ComplexObject {
/**
* @param terraformResource The parent resource
* @param terraformAttribute The attribute on the parent resource this class is referencing
*/
constructor(terraformResource, terraformAttribute) {
super(terraformResource, terraformAttribute, false, 0);
this.isEmptyObject = false;
}
get internalValue() {
let hasAnyValues = this.isEmptyObject;
const internalValueResult = {};
if (this._confidentialInstanceType !== undefined) {
hasAnyValues = true;
internalValueResult.confidentialInstanceType = this._confidentialInstanceType;
}
if (this._enableConfidentialCompute !== undefined) {
hasAnyValues = true;
internalValueResult.enableConfidentialCompute = this._enableConfidentialCompute;
}
return hasAnyValues ? internalValueResult : undefined;
}
set internalValue(value) {
if (value === undefined) {
this.isEmptyObject = false;
this._confidentialInstanceType = undefined;
this._enableConfidentialCompute = undefined;
}
else {
this.isEmptyObject = Object.keys(value).length === 0;
this._confidentialInstanceType = value.confidentialInstanceType;
this._enableConfidentialCompute = value.enableConfidentialCompute;
}
}
get confidentialInstanceType() {
return this.getStringAttribute('confidential_instance_type');
}
set confidentialInstanceType(value) {
this._confidentialInstanceType = value;
}
resetConfidentialInstanceType() {
this._confidentialInstanceType = undefined;
}
// Temporarily expose input value. Use with caution.
get confidentialInstanceTypeInput() {
return this._confidentialInstanceType;
}
get enableConfidentialCompute() {
return this.getBooleanAttribute('enable_confidential_compute');
}
set enableConfidentialCompute(value) {
this._enableConfidentialCompute = value;
}
resetEnableConfidentialCompute() {
this._enableConfidentialCompute = undefined;
}
// Temporarily expose input value. Use with caution.
get enableConfidentialComputeInput() {
return this._enableConfidentialCompute;
}
}
exports.ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference = ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference;
_f = JSII_RTTI_SYMBOL_1;
ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference[_f] = { fqn: "@cdktf/provider-google.computeInstanceFromTemplate.ComputeInstanceFromTemplateConfidentialInstanceConfigOutputReference", version: "14.12.0" };
function computeInstanceFromTemplateGuestAcceleratorToTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
}
return {
count: cdktf.numberToTerraform(struct.count),
type: cdktf.stringToTerraform(struct.type),
};
}
exports.computeInstanceFromTemplateGuestAcceleratorToTerraform = computeInstanceFromTemplateGuestAcceleratorToTerraform;
function computeInstanceFromTemplateGuestAcceleratorToHclTerraform(struct) {
if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
return struct;
}
if (cdktf.isComplexElement(struct)) {
throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-obje