555ac432cd
* SV: CAS * Implement Check and Set for Delete and Upsert * Reading the conflict from the state store * Update endpoint for new error text * Updated HTTP api tests * Conflicts to the HTTP api * SV: structs: Update SV time to UnixNanos * update mock to UnixNano; refactor * SV: encrypter: quote KeyID in error * SV: mock: add mock for namespace w/ SV
430 lines
11 KiB
Go
430 lines
11 KiB
Go
package structs
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import (
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"bytes"
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"errors"
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"fmt"
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"reflect"
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"time"
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// note: this is aliased so that it's more noticeable if someone
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// accidentally swaps it out for math/rand via running goimports
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cryptorand "crypto/rand"
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"github.com/hashicorp/nomad/helper"
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"github.com/hashicorp/nomad/helper/uuid"
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)
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const (
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// SecureVariablesUpsertRPCMethod is the RPC method for upserting
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// secure variables into Nomad state.
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//
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// Args: SecureVariablesUpsertRequest
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// Reply: SecureVariablesUpsertResponse
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SecureVariablesUpsertRPCMethod = "SecureVariables.Upsert"
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// SecureVariablesDeleteRPCMethod is the RPC method for deleting
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// a secure variable by its namespace and path.
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//
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// Args: SecureVariablesDeleteRequest
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// Reply: SecureVariablesDeleteResponse
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SecureVariablesDeleteRPCMethod = "SecureVariables.Delete"
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// SecureVariablesListRPCMethod is the RPC method for listing secure
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// variables within Nomad.
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//
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// Args: SecureVariablesListRequest
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// Reply: SecureVariablesListResponse
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SecureVariablesListRPCMethod = "SecureVariables.List"
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// SecureVariablesGetServiceRPCMethod is the RPC method for fetching a
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// secure variable according to its namepace and path.
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//
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// Args: SecureVariablesByNameRequest
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// Reply: SecureVariablesByNameResponse
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SecureVariablesReadRPCMethod = "SecureVariables.Read"
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)
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// SecureVariableMetadata is the metadata envelope for a Secure Variable, it
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// is the list object and is shared data between an SecureVariableEncrypted and
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// a SecureVariableDecrypted object.
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type SecureVariableMetadata struct {
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Namespace string
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Path string
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CreateIndex uint64
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CreateTime int64
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ModifyIndex uint64
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ModifyTime int64
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}
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// SecureVariableEncrypted structs are returned from the Encrypter's encrypt
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// method. They are the only form that should ever be persisted to storage.
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type SecureVariableEncrypted struct {
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SecureVariableMetadata
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SecureVariableData
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}
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// SecureVariableData is the secret data for a Secure Variable
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type SecureVariableData struct {
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Data []byte // includes nonce
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KeyID string // ID of root key used to encrypt this entry
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}
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// SecureVariableDecrypted structs are returned from the Encrypter's decrypt
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// method. Since they contains sensitive material, they should never be
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// persisted to disk.
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type SecureVariableDecrypted struct {
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SecureVariableMetadata
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Items SecureVariableItems
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}
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// SecureVariableItems are the actual secrets stored in a secure variable. They
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// are always encrypted and decrypted as a single unit.
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type SecureVariableItems map[string]string
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// Equals checks both the metadata and items in a SecureVariableDecrypted
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// struct
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func (v1 SecureVariableDecrypted) Equals(v2 SecureVariableDecrypted) bool {
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return v1.SecureVariableMetadata.Equals(v2.SecureVariableMetadata) &&
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v1.Items.Equals(v2.Items)
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}
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// Equals is a convenience method to provide similar equality checking
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// syntax for metadata and the SecureVariablesData or SecureVariableItems
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// struct
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func (sv SecureVariableMetadata) Equals(sv2 SecureVariableMetadata) bool {
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return sv == sv2
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}
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// Equals performs deep equality checking on the cleartext items
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// of a SecureVariableDecrypted. Uses reflect.DeepEqual
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func (i1 SecureVariableItems) Equals(i2 SecureVariableItems) bool {
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return reflect.DeepEqual(i1, i2)
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}
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// Equals checks both the metadata and encrypted data for a
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// SecureVariableEncrypted struct
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func (v1 SecureVariableEncrypted) Equals(v2 SecureVariableEncrypted) bool {
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return v1.SecureVariableMetadata.Equals(v2.SecureVariableMetadata) &&
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v1.SecureVariableData.Equals(v2.SecureVariableData)
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}
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// Equals performs deep equality checking on the encrypted data part
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// of a SecureVariableEncrypted
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func (d1 SecureVariableData) Equals(d2 SecureVariableData) bool {
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return d1.KeyID == d2.KeyID &&
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bytes.Equal(d1.Data, d2.Data)
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}
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func (sv SecureVariableDecrypted) Copy() SecureVariableDecrypted {
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return SecureVariableDecrypted{
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SecureVariableMetadata: sv.SecureVariableMetadata,
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Items: sv.Items.Copy(),
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}
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}
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func (sv SecureVariableItems) Copy() SecureVariableItems {
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out := make(SecureVariableItems, len(sv))
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for k, v := range sv {
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out[k] = v
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}
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return out
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}
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func (sv SecureVariableEncrypted) Copy() SecureVariableEncrypted {
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return SecureVariableEncrypted{
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SecureVariableMetadata: sv.SecureVariableMetadata,
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SecureVariableData: sv.SecureVariableData.Copy(),
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}
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}
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func (sv SecureVariableData) Copy() SecureVariableData {
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out := make([]byte, len(sv.Data))
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copy(out, sv.Data)
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return SecureVariableData{
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Data: out,
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KeyID: sv.KeyID,
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}
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}
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func (sv SecureVariableDecrypted) Validate() error {
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if len(sv.Items) == 0 {
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return errors.New("empty variables are invalid")
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}
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return nil
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}
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func (sv *SecureVariableDecrypted) Canonicalize() {
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if sv.Namespace == "" {
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sv.Namespace = DefaultNamespace
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}
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}
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// GetNamespace returns the secure variable's namespace. Used for pagination.
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func (sv *SecureVariableMetadata) Copy() *SecureVariableMetadata {
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var out SecureVariableMetadata = *sv
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return &out
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}
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// GetNamespace returns the secure variable's namespace. Used for pagination.
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func (sv SecureVariableMetadata) GetNamespace() string {
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return sv.Namespace
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}
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// GetID returns the secure variable's path. Used for pagination.
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func (sv SecureVariableMetadata) GetID() string {
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return sv.Path
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}
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// GetCreateIndex returns the secure variable's create index. Used for pagination.
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func (sv SecureVariableMetadata) GetCreateIndex() uint64 {
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return sv.CreateIndex
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}
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// SecureVariablesQuota is used to track the total size of secure
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// variables entries per namespace. The total length of
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// SecureVariable.EncryptedData will be added to the SecureVariablesQuota
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// table in the same transaction as a write, update, or delete.
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type SecureVariablesQuota struct {
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Namespace string
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Size uint64
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CreateIndex uint64
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ModifyIndex uint64
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}
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func (svq *SecureVariablesQuota) Copy() *SecureVariablesQuota {
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if svq == nil {
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return nil
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}
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nq := new(SecureVariablesQuota)
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*nq = *svq
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return nq
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}
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type SecureVariablesUpsertRequest struct {
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Data []*SecureVariableDecrypted
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CheckIndex *uint64
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WriteRequest
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}
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func (svur *SecureVariablesUpsertRequest) SetCheckIndex(ci uint64) {
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svur.CheckIndex = &ci
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}
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type SecureVariablesEncryptedUpsertRequest struct {
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Data []*SecureVariableEncrypted
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WriteRequest
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}
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type SecureVariablesUpsertResponse struct {
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Conflicts []*SecureVariableDecrypted
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WriteMeta
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}
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type SecureVariablesListRequest struct {
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QueryOptions
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}
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type SecureVariablesListResponse struct {
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Data []*SecureVariableMetadata
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QueryMeta
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}
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type SecureVariablesReadRequest struct {
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Path string
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QueryOptions
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}
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type SecureVariablesReadResponse struct {
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Data *SecureVariableDecrypted
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QueryMeta
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}
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type SecureVariablesDeleteRequest struct {
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Path string
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CheckIndex *uint64
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WriteRequest
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}
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func (svdr *SecureVariablesDeleteRequest) SetCheckIndex(ci uint64) {
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svdr.CheckIndex = &ci
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}
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type SecureVariablesDeleteResponse struct {
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Conflict *SecureVariableDecrypted
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WriteMeta
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}
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// RootKey is used to encrypt and decrypt secure variables. It is
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// never stored in raft.
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type RootKey struct {
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Meta *RootKeyMeta
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Key []byte // serialized to keystore as base64 blob
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}
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// NewRootKey returns a new root key and its metadata.
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func NewRootKey(algorithm EncryptionAlgorithm) (*RootKey, error) {
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meta := NewRootKeyMeta()
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meta.Algorithm = algorithm
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rootKey := &RootKey{
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Meta: meta,
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}
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switch algorithm {
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case EncryptionAlgorithmAES256GCM:
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const keyBytes = 32
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key := make([]byte, keyBytes)
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n, err := cryptorand.Read(key)
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if err != nil {
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return nil, err
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}
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if n < keyBytes {
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return nil, fmt.Errorf("failed to generate key: entropy exhausted")
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}
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rootKey.Key = key
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}
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return rootKey, nil
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}
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// RootKeyMeta is the metadata used to refer to a RootKey. It is
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// stored in raft.
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type RootKeyMeta struct {
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Active bool
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KeyID string // UUID
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Algorithm EncryptionAlgorithm
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CreateTime time.Time
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CreateIndex uint64
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ModifyIndex uint64
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}
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// NewRootKeyMeta returns a new RootKeyMeta with default values
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func NewRootKeyMeta() *RootKeyMeta {
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return &RootKeyMeta{
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KeyID: uuid.Generate(),
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Algorithm: EncryptionAlgorithmAES256GCM,
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CreateTime: time.Now(),
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}
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}
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// RootKeyMetaStub is for serializing root key metadata to the
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// keystore, not for the List API. It excludes frequently-changing
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// fields such as ModifyIndex so we don't have to sync them to the
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// on-disk keystore when the fields are already in raft.
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type RootKeyMetaStub struct {
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KeyID string
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Algorithm EncryptionAlgorithm
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CreateTime time.Time
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Active bool
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}
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func (rkm *RootKeyMeta) Stub() *RootKeyMetaStub {
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if rkm == nil {
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return nil
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}
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return &RootKeyMetaStub{
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KeyID: rkm.KeyID,
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Algorithm: rkm.Algorithm,
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CreateTime: rkm.CreateTime,
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Active: rkm.Active,
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}
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}
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func (rkm *RootKeyMeta) Copy() *RootKeyMeta {
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if rkm == nil {
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return nil
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}
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out := *rkm
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return &out
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}
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func (rkm *RootKeyMeta) Validate() error {
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if rkm == nil {
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return fmt.Errorf("root key metadata is required")
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}
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if rkm.KeyID == "" || !helper.IsUUID(rkm.KeyID) {
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return fmt.Errorf("root key UUID is required")
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}
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if rkm.Algorithm == "" {
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return fmt.Errorf("root key algorithm is required")
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}
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return nil
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}
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// EncryptionAlgorithm chooses which algorithm is used for
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// encrypting / decrypting entries with this key
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type EncryptionAlgorithm string
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const (
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EncryptionAlgorithmAES256GCM EncryptionAlgorithm = "aes256-gcm"
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)
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type KeyringRotateRootKeyRequest struct {
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Algorithm EncryptionAlgorithm
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Full bool
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WriteRequest
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}
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// KeyringRotateRootKeyResponse returns the full key metadata
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type KeyringRotateRootKeyResponse struct {
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Key *RootKeyMeta
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WriteMeta
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}
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type KeyringListRootKeyMetaRequest struct {
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// TODO: do we need any fields here?
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QueryOptions
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}
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type KeyringListRootKeyMetaResponse struct {
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Keys []*RootKeyMeta
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QueryMeta
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}
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// KeyringUpdateRootKeyRequest is used internally for key replication
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// only and for keyring restores. The RootKeyMeta will be extracted
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// for applying to the FSM with the KeyringUpdateRootKeyMetaRequest
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// (see below)
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type KeyringUpdateRootKeyRequest struct {
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RootKey *RootKey
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WriteRequest
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}
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type KeyringUpdateRootKeyResponse struct {
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WriteMeta
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}
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// KeyringGetRootKeyRequest is used internally for key replication
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// only and for keyring restores.
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type KeyringGetRootKeyRequest struct {
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KeyID string
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QueryOptions
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}
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type KeyringGetRootKeyResponse struct {
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Key *RootKey
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QueryMeta
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}
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// KeyringUpdateRootKeyMetaRequest is used internally for key
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// replication so that we have a request wrapper for writing the
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// metadata to the FSM without including the key material
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type KeyringUpdateRootKeyMetaRequest struct {
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RootKeyMeta *RootKeyMeta
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WriteRequest
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}
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type KeyringUpdateRootKeyMetaResponse struct {
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WriteMeta
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}
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type KeyringDeleteRootKeyRequest struct {
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KeyID string
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WriteRequest
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}
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type KeyringDeleteRootKeyResponse struct {
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WriteMeta
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}
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