package logical import ( "bytes" "encoding/json" "fmt" "time" ) // This logic was pulled from the http package so that it can be used for // encoding wrapped responses as well. It simply translates the logical // response to an http response, with the values we want and omitting the // values we don't. func LogicalResponseToHTTPResponse(input *Response) *HTTPResponse { httpResp := &HTTPResponse{ Data: input.Data, Warnings: input.Warnings, Headers: input.Headers, } if input.Secret != nil { httpResp.LeaseID = input.Secret.LeaseID httpResp.Renewable = input.Secret.Renewable httpResp.LeaseDuration = int(input.Secret.TTL.Seconds()) } // If we have authentication information, then // set up the result structure. if input.Auth != nil { httpResp.Auth = &HTTPAuth{ ClientToken: input.Auth.ClientToken, Accessor: input.Auth.Accessor, Policies: input.Auth.Policies, TokenPolicies: input.Auth.TokenPolicies, IdentityPolicies: input.Auth.IdentityPolicies, Metadata: input.Auth.Metadata, LeaseDuration: int(input.Auth.TTL.Seconds()), Renewable: input.Auth.Renewable, EntityID: input.Auth.EntityID, TokenType: input.Auth.TokenType.String(), Orphan: input.Auth.Orphan, MFARequirement: input.Auth.MFARequirement, NumUses: input.Auth.NumUses, } } return httpResp } func HTTPResponseToLogicalResponse(input *HTTPResponse) *Response { logicalResp := &Response{ Data: input.Data, Warnings: input.Warnings, Headers: input.Headers, } if input.LeaseID != "" { logicalResp.Secret = &Secret{ LeaseID: input.LeaseID, } logicalResp.Secret.Renewable = input.Renewable logicalResp.Secret.TTL = time.Second * time.Duration(input.LeaseDuration) } if input.Auth != nil { logicalResp.Auth = &Auth{ ClientToken: input.Auth.ClientToken, Accessor: input.Auth.Accessor, Policies: input.Auth.Policies, TokenPolicies: input.Auth.TokenPolicies, IdentityPolicies: input.Auth.IdentityPolicies, Metadata: input.Auth.Metadata, EntityID: input.Auth.EntityID, Orphan: input.Auth.Orphan, } logicalResp.Auth.Renewable = input.Auth.Renewable logicalResp.Auth.TTL = time.Second * time.Duration(input.Auth.LeaseDuration) switch input.Auth.TokenType { case "service": logicalResp.Auth.TokenType = TokenTypeService case "batch": logicalResp.Auth.TokenType = TokenTypeBatch } } return logicalResp } type HTTPResponse struct { RequestID string `json:"request_id"` LeaseID string `json:"lease_id"` Renewable bool `json:"renewable"` LeaseDuration int `json:"lease_duration"` Data map[string]interface{} `json:"data"` WrapInfo *HTTPWrapInfo `json:"wrap_info"` Warnings []string `json:"warnings"` Headers map[string][]string `json:"-"` Auth *HTTPAuth `json:"auth"` } type HTTPAuth struct { ClientToken string `json:"client_token"` Accessor string `json:"accessor"` Policies []string `json:"policies"` TokenPolicies []string `json:"token_policies,omitempty"` IdentityPolicies []string `json:"identity_policies,omitempty"` Metadata map[string]string `json:"metadata"` LeaseDuration int `json:"lease_duration"` Renewable bool `json:"renewable"` EntityID string `json:"entity_id"` TokenType string `json:"token_type"` Orphan bool `json:"orphan"` MFARequirement *MFARequirement `json:"mfa_requirement"` NumUses int `json:"num_uses"` } type HTTPWrapInfo struct { Token string `json:"token"` Accessor string `json:"accessor"` TTL int `json:"ttl"` CreationTime string `json:"creation_time"` CreationPath string `json:"creation_path"` WrappedAccessor string `json:"wrapped_accessor,omitempty"` } type HTTPSysInjector struct { Response *HTTPResponse } func (h HTTPSysInjector) MarshalJSON() ([]byte, error) { j, err := json.Marshal(h.Response) if err != nil { return nil, err } // Fast path no data or empty data if h.Response.Data == nil || len(h.Response.Data) == 0 { return j, nil } // Marshaling a response will always be a JSON object, meaning it will // always start with '{', so we hijack this to prepend necessary values var buf bytes.Buffer buf.WriteRune('{') for k, v := range h.Response.Data { // Marshal each key/value individually mk, err := json.Marshal(k) if err != nil { return nil, err } mv, err := json.Marshal(v) if err != nil { return nil, err } // Write into the final buffer. We'll never have a valid response // without any fields so we can unconditionally add a comma after each. buf.WriteString(fmt.Sprintf("%s: %s, ", mk, mv)) } // Add the rest, without the first '{' buf.Write(j[1:]) return buf.Bytes(), nil }