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218 lines
5.8 KiB
218 lines
5.8 KiB
package validators
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import (
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"github.com/go-playground/validator/v10"
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"regexp"
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)
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// protoValidator is used to validate Proto fields.
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func protoValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, protoValues)
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}
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// accessTypeValidator is used to validate AccessType fields.
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func accessTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, accessTypeValues)
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}
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// resTypesValidator is used to validate ResTypes fields.
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func resTypesValidator(fe validator.FieldLevel) bool {
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fieldSlice, ok := fe.Field().Interface().([]string)
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if !ok {
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return false
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}
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for _, value := range fieldSlice {
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if !StringInSlice(value, resTypesValues) {
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return false
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}
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}
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return true
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}
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// driverValidator is used to validate Driver fields.
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func driverValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, driverValues)
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}
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// accountCUTypeValidator is used to validate CUType field.
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func accountCUTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, accountCUTypeValues)
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}
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// bserviceModeValidator is used to validate Mode field.
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func bserviceModeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, bserviceModeValues)
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}
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// computeTopologyValidator is used to validate Topology field.
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func computeTopologyValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computeTopologyValues)
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}
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// computePolicyValidator is used to validate Policy field.
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func computePolicyValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computePolicyValues)
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}
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// computeModeValidator is used to validate Mode field.
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func computeModeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computeModeValues)
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}
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// computeDiskTypeValidator is used to validate DiskType field.
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func computeDiskTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computeDiskTypeValues)
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}
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// computeNetTypeValidator is used to validate NetType field.
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func computeNetTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computeNetTypeValues)
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}
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// computeOrderValidator is used to validate Order field.
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func computeOrderValidator(fe validator.FieldLevel) bool {
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fieldSlice, ok := fe.Field().Interface().([]string)
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if !ok {
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return false
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}
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for _, value := range fieldSlice {
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if !StringInSlice(value, computeOrderValues) {
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return false
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}
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}
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return true
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}
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// computeDataDisksValidator is used to validate DataDisks field.
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func computeDataDisksValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, computeDataDisksValues)
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}
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// diskTypeValidator is used to validate Type field.
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func diskTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, diskTypeValues)
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}
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// flipgroupClientTypeValidator is used to validate ClientType field.
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func flipgroupClientTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, flipgroupClientTypeValues)
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}
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// kvmNetTypeValidator is used to validate NetType field.
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func kvmNetTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, kvmNetTypeValues)
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}
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// lbAlgorithmValidator is used to validate Algorithm field.
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func lbAlgorithmValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, lbAlgorithmValues)
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}
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// rgDefNetValidator is used to validate DefNet field.
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func rgDefNetValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, rgDefNetValues)
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}
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// rgNetTypeValidator is used to validate NetType field.
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func rgNetTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, rgNetTypeValues)
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}
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// vinsTypeValidator is used to validate Type field.
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func vinsTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, vinsTypeValues)
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}
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// imageBootTypeValidator is used to validate BootType field.
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func imageBootTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, imageBootTypeValues)
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}
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// imageTypeValidator is used to validate ImageType field.
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func imageTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, imageTypeValues)
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}
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// imageDriversValidator is used to validate Drivers field.
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func imageDriversValidator(fe validator.FieldLevel) bool {
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fieldSlice, ok := fe.Field().Interface().([]string)
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if !ok {
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return false
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}
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for _, item := range fieldSlice {
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if !StringInSlice(item, imageDriversValues) {
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return false
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}
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}
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return true
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}
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// imageArchitectureValidator is used to validate Architecture field.
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func imageArchitectureValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, imageArchitectureValues)
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}
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// sepFieldTypeValidator is used to validate FieldType field.
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func sepFieldTypeValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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return StringInSlice(fieldValue, sepFieldTypeValues)
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}
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// hwPathValidator is used to validate HWPath field.
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func hwPathValidator(fe validator.FieldLevel) bool {
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fieldValue := fe.Field().String()
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ok, _ := regexp.MatchString(`^\b[0-9a-f]{4}:[0-9a-fA-F]{2}:[0-9a-fA-F]{2}.\d{1}$`, fieldValue)
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return ok
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}
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