terraform/internal/command/jsonstate/state.go

474 lines
14 KiB
Go

package jsonstate
import (
"encoding/json"
"fmt"
"sort"
"github.com/zclconf/go-cty/cty"
ctyjson "github.com/zclconf/go-cty/cty/json"
"github.com/hashicorp/terraform/internal/addrs"
"github.com/hashicorp/terraform/internal/lang/marks"
"github.com/hashicorp/terraform/internal/states"
"github.com/hashicorp/terraform/internal/states/statefile"
"github.com/hashicorp/terraform/internal/terraform"
)
// FormatVersion represents the version of the json format and will be
// incremented for any change to this format that requires changes to a
// consuming parser.
const FormatVersion = "1.0"
// state is the top-level representation of the json format of a terraform
// state.
type state struct {
FormatVersion string `json:"format_version,omitempty"`
TerraformVersion string `json:"terraform_version,omitempty"`
Values *stateValues `json:"values,omitempty"`
}
// stateValues is the common representation of resolved values for both the prior
// state (which is always complete) and the planned new state.
type stateValues struct {
Outputs map[string]output `json:"outputs,omitempty"`
RootModule module `json:"root_module,omitempty"`
}
type output struct {
Sensitive bool `json:"sensitive"`
Value json.RawMessage `json:"value,omitempty"`
}
// module is the representation of a module in state. This can be the root module
// or a child module
type module struct {
// Resources are sorted in a user-friendly order that is undefined at this
// time, but consistent.
Resources []resource `json:"resources,omitempty"`
// Address is the absolute module address, omitted for the root module
Address string `json:"address,omitempty"`
// Each module object can optionally have its own nested "child_modules",
// recursively describing the full module tree.
ChildModules []module `json:"child_modules,omitempty"`
}
// Resource is the representation of a resource in the state.
type resource struct {
// Address is the absolute resource address
Address string `json:"address,omitempty"`
// Mode can be "managed" or "data"
Mode string `json:"mode,omitempty"`
Type string `json:"type,omitempty"`
Name string `json:"name,omitempty"`
// Index is omitted for a resource not using `count` or `for_each`.
Index addrs.InstanceKey `json:"index,omitempty"`
// ProviderName allows the property "type" to be interpreted unambiguously
// in the unusual situation where a provider offers a resource type whose
// name does not start with its own name, such as the "googlebeta" provider
// offering "google_compute_instance".
ProviderName string `json:"provider_name"`
// SchemaVersion indicates which version of the resource type schema the
// "values" property conforms to.
SchemaVersion uint64 `json:"schema_version"`
// AttributeValues is the JSON representation of the attribute values of the
// resource, whose structure depends on the resource type schema. Any
// unknown values are omitted or set to null, making them indistinguishable
// from absent values.
AttributeValues attributeValues `json:"values,omitempty"`
// SensitiveValues is similar to AttributeValues, but with all sensitive
// values replaced with true, and all non-sensitive leaf values omitted.
SensitiveValues json.RawMessage `json:"sensitive_values,omitempty"`
// DependsOn contains a list of the resource's dependencies. The entries are
// addresses relative to the containing module.
DependsOn []string `json:"depends_on,omitempty"`
// Tainted is true if the resource is tainted in terraform state.
Tainted bool `json:"tainted,omitempty"`
// Deposed is set if the resource is deposed in terraform state.
DeposedKey string `json:"deposed_key,omitempty"`
}
// attributeValues is the JSON representation of the attribute values of the
// resource, whose structure depends on the resource type schema.
type attributeValues map[string]interface{}
func marshalAttributeValues(value cty.Value) attributeValues {
// unmark our value to show all values
value, _ = value.UnmarkDeep()
if value == cty.NilVal || value.IsNull() {
return nil
}
ret := make(attributeValues)
it := value.ElementIterator()
for it.Next() {
k, v := it.Element()
vJSON, _ := ctyjson.Marshal(v, v.Type())
ret[k.AsString()] = json.RawMessage(vJSON)
}
return ret
}
// newState() returns a minimally-initialized state
func newState() *state {
return &state{
FormatVersion: FormatVersion,
}
}
// Marshal returns the json encoding of a terraform state.
func Marshal(sf *statefile.File, schemas *terraform.Schemas) ([]byte, error) {
output := newState()
if sf == nil || sf.State.Empty() {
ret, err := json.Marshal(output)
return ret, err
}
if sf.TerraformVersion != nil {
output.TerraformVersion = sf.TerraformVersion.String()
}
// output.StateValues
err := output.marshalStateValues(sf.State, schemas)
if err != nil {
return nil, err
}
ret, err := json.Marshal(output)
return ret, err
}
func (jsonstate *state) marshalStateValues(s *states.State, schemas *terraform.Schemas) error {
var sv stateValues
var err error
// only marshal the root module outputs
sv.Outputs, err = marshalOutputs(s.RootModule().OutputValues)
if err != nil {
return err
}
// use the state and module map to build up the module structure
sv.RootModule, err = marshalRootModule(s, schemas)
if err != nil {
return err
}
jsonstate.Values = &sv
return nil
}
func marshalOutputs(outputs map[string]*states.OutputValue) (map[string]output, error) {
if outputs == nil {
return nil, nil
}
ret := make(map[string]output)
for k, v := range outputs {
ov, err := ctyjson.Marshal(v.Value, v.Value.Type())
if err != nil {
return ret, err
}
ret[k] = output{
Value: ov,
Sensitive: v.Sensitive,
}
}
return ret, nil
}
func marshalRootModule(s *states.State, schemas *terraform.Schemas) (module, error) {
var ret module
var err error
ret.Address = ""
rs, err := marshalResources(s.RootModule().Resources, addrs.RootModuleInstance, schemas)
if err != nil {
return ret, err
}
ret.Resources = rs
// build a map of module -> set[child module addresses]
moduleChildSet := make(map[string]map[string]struct{})
for _, mod := range s.Modules {
if mod.Addr.IsRoot() {
continue
} else {
for childAddr := mod.Addr; !childAddr.IsRoot(); childAddr = childAddr.Parent() {
if _, ok := moduleChildSet[childAddr.Parent().String()]; !ok {
moduleChildSet[childAddr.Parent().String()] = map[string]struct{}{}
}
moduleChildSet[childAddr.Parent().String()][childAddr.String()] = struct{}{}
}
}
}
// transform the previous map into map of module -> [child module addresses]
moduleMap := make(map[string][]addrs.ModuleInstance)
for parent, children := range moduleChildSet {
for child := range children {
childModuleInstance, diags := addrs.ParseModuleInstanceStr(child)
if diags.HasErrors() {
return ret, diags.Err()
}
moduleMap[parent] = append(moduleMap[parent], childModuleInstance)
}
}
// use the state and module map to build up the module structure
ret.ChildModules, err = marshalModules(s, schemas, moduleMap[""], moduleMap)
return ret, err
}
// marshalModules is an ungainly recursive function to build a module structure
// out of terraform state.
func marshalModules(
s *states.State,
schemas *terraform.Schemas,
modules []addrs.ModuleInstance,
moduleMap map[string][]addrs.ModuleInstance,
) ([]module, error) {
var ret []module
for _, child := range modules {
// cm for child module, naming things is hard.
cm := module{Address: child.String()}
// the module may be resourceless and contain only submodules, it will then be nil here
stateMod := s.Module(child)
if stateMod != nil {
rs, err := marshalResources(stateMod.Resources, stateMod.Addr, schemas)
if err != nil {
return nil, err
}
cm.Resources = rs
}
if moduleMap[child.String()] != nil {
moreChildModules, err := marshalModules(s, schemas, moduleMap[child.String()], moduleMap)
if err != nil {
return nil, err
}
cm.ChildModules = moreChildModules
}
ret = append(ret, cm)
}
// sort the child modules by address for consistency.
sort.Slice(ret, func(i, j int) bool {
return ret[i].Address < ret[j].Address
})
return ret, nil
}
func marshalResources(resources map[string]*states.Resource, module addrs.ModuleInstance, schemas *terraform.Schemas) ([]resource, error) {
var ret []resource
for _, r := range resources {
for k, ri := range r.Instances {
resAddr := r.Addr.Resource
current := resource{
Address: r.Addr.Instance(k).String(),
Index: k,
Type: resAddr.Type,
Name: resAddr.Name,
ProviderName: r.ProviderConfig.Provider.String(),
}
switch resAddr.Mode {
case addrs.ManagedResourceMode:
current.Mode = "managed"
case addrs.DataResourceMode:
current.Mode = "data"
default:
return ret, fmt.Errorf("resource %s has an unsupported mode %s",
resAddr.String(),
resAddr.Mode.String(),
)
}
schema, version := schemas.ResourceTypeConfig(
r.ProviderConfig.Provider,
resAddr.Mode,
resAddr.Type,
)
// It is possible that the only instance is deposed
if ri.Current != nil {
if version != ri.Current.SchemaVersion {
return nil, fmt.Errorf("schema version %d for %s in state does not match version %d from the provider", ri.Current.SchemaVersion, resAddr, version)
}
current.SchemaVersion = ri.Current.SchemaVersion
if schema == nil {
return nil, fmt.Errorf("no schema found for %s (in provider %s)", resAddr.String(), r.ProviderConfig.Provider)
}
riObj, err := ri.Current.Decode(schema.ImpliedType())
if err != nil {
return nil, err
}
current.AttributeValues = marshalAttributeValues(riObj.Value)
s := SensitiveAsBool(riObj.Value)
v, err := ctyjson.Marshal(s, s.Type())
if err != nil {
return nil, err
}
current.SensitiveValues = v
if len(riObj.Dependencies) > 0 {
dependencies := make([]string, len(riObj.Dependencies))
for i, v := range riObj.Dependencies {
dependencies[i] = v.String()
}
current.DependsOn = dependencies
}
if riObj.Status == states.ObjectTainted {
current.Tainted = true
}
ret = append(ret, current)
}
for deposedKey, rios := range ri.Deposed {
// copy the base fields from the current instance
deposed := resource{
Address: current.Address,
Type: current.Type,
Name: current.Name,
ProviderName: current.ProviderName,
Mode: current.Mode,
Index: current.Index,
}
riObj, err := rios.Decode(schema.ImpliedType())
if err != nil {
return nil, err
}
deposed.AttributeValues = marshalAttributeValues(riObj.Value)
s := SensitiveAsBool(riObj.Value)
v, err := ctyjson.Marshal(s, s.Type())
if err != nil {
return nil, err
}
deposed.SensitiveValues = v
if len(riObj.Dependencies) > 0 {
dependencies := make([]string, len(riObj.Dependencies))
for i, v := range riObj.Dependencies {
dependencies[i] = v.String()
}
deposed.DependsOn = dependencies
}
if riObj.Status == states.ObjectTainted {
deposed.Tainted = true
}
deposed.DeposedKey = deposedKey.String()
ret = append(ret, deposed)
}
}
}
sort.Slice(ret, func(i, j int) bool {
return ret[i].Address < ret[j].Address
})
return ret, nil
}
func SensitiveAsBool(val cty.Value) cty.Value {
if val.HasMark(marks.Sensitive) {
return cty.True
}
ty := val.Type()
switch {
case val.IsNull(), ty.IsPrimitiveType(), ty.Equals(cty.DynamicPseudoType):
return cty.False
case ty.IsListType() || ty.IsTupleType() || ty.IsSetType():
if !val.IsKnown() {
// If the collection is unknown we can't say anything about the
// sensitivity of its contents
return cty.EmptyTupleVal
}
length := val.LengthInt()
if length == 0 {
// If there are no elements then we can't have sensitive values
return cty.EmptyTupleVal
}
vals := make([]cty.Value, 0, length)
it := val.ElementIterator()
for it.Next() {
_, v := it.Element()
vals = append(vals, SensitiveAsBool(v))
}
// The above transform may have changed the types of some of the
// elements, so we'll always use a tuple here in case we've now made
// different elements have different types. Our ultimate goal is to
// marshal to JSON anyway, and all of these sequence types are
// indistinguishable in JSON.
return cty.TupleVal(vals)
case ty.IsMapType() || ty.IsObjectType():
if !val.IsKnown() {
// If the map/object is unknown we can't say anything about the
// sensitivity of its attributes
return cty.EmptyObjectVal
}
var length int
switch {
case ty.IsMapType():
length = val.LengthInt()
default:
length = len(val.Type().AttributeTypes())
}
if length == 0 {
// If there are no elements then we can't have sensitive values
return cty.EmptyObjectVal
}
vals := make(map[string]cty.Value)
it := val.ElementIterator()
for it.Next() {
k, v := it.Element()
s := SensitiveAsBool(v)
// Omit all of the "false"s for non-sensitive values for more
// compact serialization
if !s.RawEquals(cty.False) {
vals[k.AsString()] = s
}
}
// The above transform may have changed the types of some of the
// elements, so we'll always use an object here in case we've now made
// different elements have different types. Our ultimate goal is to
// marshal to JSON anyway, and all of these mapping types are
// indistinguishable in JSON.
return cty.ObjectVal(vals)
default:
// Should never happen, since the above should cover all types
panic(fmt.Sprintf("sensitiveAsBool cannot handle %#v", val))
}
}