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tfplan.go
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tfplan.go
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package planfile
import (
"fmt"
"io"
"io/ioutil"
"google.golang.org/protobuf/proto"
"github.com/snyk/policy-engine/pkg/internal/terraform/addrs"
"github.com/snyk/policy-engine/pkg/internal/terraform/checks"
"github.com/snyk/policy-engine/pkg/internal/terraform/lang/globalref"
"github.com/snyk/policy-engine/pkg/internal/terraform/lang/marks"
"github.com/snyk/policy-engine/pkg/internal/terraform/plans"
"github.com/snyk/policy-engine/pkg/internal/terraform/plans/internal/planproto"
"github.com/snyk/policy-engine/pkg/internal/terraform/states"
"github.com/snyk/policy-engine/pkg/internal/terraform/version"
"github.com/zclconf/go-cty/cty"
)
const tfplanFormatVersion = 3
const tfplanFilename = "tfplan"
// ---------------------------------------------------------------------------
// This file deals with the internal structure of the "tfplan" sub-file within
// the plan file format. It's all private API, wrapped by methods defined
// elsewhere. This is the only file that should import the
// ../internal/planproto package, which contains the ugly stubs generated
// by the protobuf compiler.
// ---------------------------------------------------------------------------
// readTfplan reads a protobuf-encoded description from the plan portion of
// a plan file, which is stored in a special file in the archive called
// "tfplan".
func readTfplan(r io.Reader) (*plans.Plan, error) {
src, err := ioutil.ReadAll(r)
if err != nil {
return nil, err
}
var rawPlan planproto.Plan
err = proto.Unmarshal(src, &rawPlan)
if err != nil {
return nil, fmt.Errorf("parse error: %s", err)
}
if rawPlan.Version != tfplanFormatVersion {
return nil, fmt.Errorf("unsupported plan file format version %d; only version %d is supported", rawPlan.Version, tfplanFormatVersion)
}
if rawPlan.TerraformVersion != version.String() {
return nil, fmt.Errorf("plan file was created by Terraform %s, but this is %s; plan files cannot be transferred between different Terraform versions", rawPlan.TerraformVersion, version.String())
}
plan := &plans.Plan{
VariableValues: map[string]plans.DynamicValue{},
Changes: &plans.Changes{
Outputs: []*plans.OutputChangeSrc{},
Resources: []*plans.ResourceInstanceChangeSrc{},
},
DriftedResources: []*plans.ResourceInstanceChangeSrc{},
Checks: &states.CheckResults{},
}
switch rawPlan.UiMode {
case planproto.Mode_NORMAL:
plan.UIMode = plans.NormalMode
case planproto.Mode_DESTROY:
plan.UIMode = plans.DestroyMode
case planproto.Mode_REFRESH_ONLY:
plan.UIMode = plans.RefreshOnlyMode
default:
return nil, fmt.Errorf("plan has invalid mode %s", rawPlan.UiMode)
}
for _, rawOC := range rawPlan.OutputChanges {
name := rawOC.Name
change, err := changeFromTfplan(rawOC.Change)
if err != nil {
return nil, fmt.Errorf("invalid plan for output %q: %s", name, err)
}
plan.Changes.Outputs = append(plan.Changes.Outputs, &plans.OutputChangeSrc{
// All output values saved in the plan file are root module outputs,
// since we don't retain others. (They can be easily recomputed
// during apply).
Addr: addrs.OutputValue{Name: name}.Absolute(addrs.RootModuleInstance),
ChangeSrc: *change,
Sensitive: rawOC.Sensitive,
})
}
plan.Checks.ConfigResults = addrs.MakeMap[addrs.ConfigCheckable, *states.CheckResultAggregate]()
for _, rawCRs := range rawPlan.CheckResults {
aggr := &states.CheckResultAggregate{}
switch rawCRs.Status {
case planproto.CheckResults_UNKNOWN:
aggr.Status = checks.StatusUnknown
case planproto.CheckResults_PASS:
aggr.Status = checks.StatusPass
case planproto.CheckResults_FAIL:
aggr.Status = checks.StatusFail
case planproto.CheckResults_ERROR:
aggr.Status = checks.StatusError
default:
return nil, fmt.Errorf("aggregate check results for %s have unsupported status %#v", rawCRs.ConfigAddr, rawCRs.Status)
}
var objKind addrs.CheckableKind
switch rawCRs.Kind {
case planproto.CheckResults_RESOURCE:
objKind = addrs.CheckableResource
case planproto.CheckResults_OUTPUT_VALUE:
objKind = addrs.CheckableOutputValue
default:
return nil, fmt.Errorf("aggregate check results for %s have unsupported object kind %s", rawCRs.ConfigAddr, objKind)
}
// Some trickiness here: we only have an address parser for
// addrs.Checkable and not for addrs.ConfigCheckable, but that's okay
// because once we have an addrs.Checkable we can always derive an
// addrs.ConfigCheckable from it, and a ConfigCheckable should always
// be the same syntax as a Checkable with no index information and
// thus we can reuse the same parser for both here.
configAddrProxy, diags := addrs.ParseCheckableStr(objKind, rawCRs.ConfigAddr)
if diags.HasErrors() {
return nil, diags.Err()
}
configAddr := configAddrProxy.ConfigCheckable()
if configAddr.String() != configAddrProxy.String() {
// This is how we catch if the config address included index
// information that would be allowed in a Checkable but not
// in a ConfigCheckable.
return nil, fmt.Errorf("invalid checkable config address %s", rawCRs.ConfigAddr)
}
aggr.ObjectResults = addrs.MakeMap[addrs.Checkable, *states.CheckResultObject]()
for _, rawCR := range rawCRs.Objects {
objectAddr, diags := addrs.ParseCheckableStr(objKind, rawCR.ObjectAddr)
if diags.HasErrors() {
return nil, diags.Err()
}
if !addrs.Equivalent(objectAddr.ConfigCheckable(), configAddr) {
return nil, fmt.Errorf("checkable object %s should not be grouped under %s", objectAddr, configAddr)
}
obj := &states.CheckResultObject{
FailureMessages: rawCR.FailureMessages,
}
switch rawCR.Status {
case planproto.CheckResults_UNKNOWN:
obj.Status = checks.StatusUnknown
case planproto.CheckResults_PASS:
obj.Status = checks.StatusPass
case planproto.CheckResults_FAIL:
obj.Status = checks.StatusFail
case planproto.CheckResults_ERROR:
obj.Status = checks.StatusError
default:
return nil, fmt.Errorf("object check results for %s has unsupported status %#v", rawCR.ObjectAddr, rawCR.Status)
}
aggr.ObjectResults.Put(objectAddr, obj)
}
// If we ended up with no elements in the map then we'll just nil it,
// primarily just to make life easier for our round-trip tests.
if aggr.ObjectResults.Len() == 0 {
aggr.ObjectResults.Elems = nil
}
plan.Checks.ConfigResults.Put(configAddr, aggr)
}
// If we ended up with no elements in the map then we'll just nil it,
// primarily just to make life easier for our round-trip tests.
if plan.Checks.ConfigResults.Len() == 0 {
plan.Checks.ConfigResults.Elems = nil
}
for _, rawRC := range rawPlan.ResourceChanges {
change, err := resourceChangeFromTfplan(rawRC)
if err != nil {
// errors from resourceChangeFromTfplan already include context
return nil, err
}
plan.Changes.Resources = append(plan.Changes.Resources, change)
}
for _, rawRC := range rawPlan.ResourceDrift {
change, err := resourceChangeFromTfplan(rawRC)
if err != nil {
// errors from resourceChangeFromTfplan already include context
return nil, err
}
plan.DriftedResources = append(plan.DriftedResources, change)
}
for _, rawRA := range rawPlan.RelevantAttributes {
ra, err := resourceAttrFromTfplan(rawRA)
if err != nil {
return nil, err
}
plan.RelevantAttributes = append(plan.RelevantAttributes, ra)
}
for _, rawTargetAddr := range rawPlan.TargetAddrs {
target, diags := addrs.ParseTargetStr(rawTargetAddr)
if diags.HasErrors() {
return nil, fmt.Errorf("plan contains invalid target address %q: %s", target, diags.Err())
}
plan.TargetAddrs = append(plan.TargetAddrs, target.Subject)
}
for _, rawReplaceAddr := range rawPlan.ForceReplaceAddrs {
addr, diags := addrs.ParseAbsResourceInstanceStr(rawReplaceAddr)
if diags.HasErrors() {
return nil, fmt.Errorf("plan contains invalid force-replace address %q: %s", addr, diags.Err())
}
plan.ForceReplaceAddrs = append(plan.ForceReplaceAddrs, addr)
}
for name, rawVal := range rawPlan.Variables {
val, err := valueFromTfplan(rawVal)
if err != nil {
return nil, fmt.Errorf("invalid value for input variable %q: %s", name, err)
}
plan.VariableValues[name] = val
}
if rawBackend := rawPlan.Backend; rawBackend == nil {
return nil, fmt.Errorf("plan file has no backend settings; backend settings are required")
} else {
config, err := valueFromTfplan(rawBackend.Config)
if err != nil {
return nil, fmt.Errorf("plan file has invalid backend configuration: %s", err)
}
plan.Backend = plans.Backend{
Type: rawBackend.Type,
Config: config,
Workspace: rawBackend.Workspace,
}
}
return plan, nil
}
func resourceChangeFromTfplan(rawChange *planproto.ResourceInstanceChange) (*plans.ResourceInstanceChangeSrc, error) {
if rawChange == nil {
// Should never happen in practice, since protobuf can't represent
// a nil value in a list.
return nil, fmt.Errorf("resource change object is absent")
}
ret := &plans.ResourceInstanceChangeSrc{}
if rawChange.Addr == "" {
// If "Addr" isn't populated then seems likely that this is a plan
// file created by an earlier version of Terraform, which had the
// same information spread over various other fields:
// ModulePath, Mode, Name, Type, and InstanceKey.
return nil, fmt.Errorf("no instance address for resource instance change; perhaps this plan was created by a different version of Terraform?")
}
instAddr, diags := addrs.ParseAbsResourceInstanceStr(rawChange.Addr)
if diags.HasErrors() {
return nil, fmt.Errorf("invalid resource instance address %q: %w", rawChange.Addr, diags.Err())
}
prevRunAddr := instAddr
if rawChange.PrevRunAddr != "" {
prevRunAddr, diags = addrs.ParseAbsResourceInstanceStr(rawChange.PrevRunAddr)
if diags.HasErrors() {
return nil, fmt.Errorf("invalid resource instance previous run address %q: %w", rawChange.PrevRunAddr, diags.Err())
}
}
providerAddr, diags := addrs.ParseAbsProviderConfigStr(rawChange.Provider)
if diags.HasErrors() {
return nil, diags.Err()
}
ret.ProviderAddr = providerAddr
ret.Addr = instAddr
ret.PrevRunAddr = prevRunAddr
if rawChange.DeposedKey != "" {
if len(rawChange.DeposedKey) != 8 {
return nil, fmt.Errorf("deposed object for %s has invalid deposed key %q", ret.Addr, rawChange.DeposedKey)
}
ret.DeposedKey = states.DeposedKey(rawChange.DeposedKey)
}
ret.RequiredReplace = cty.NewPathSet()
for _, p := range rawChange.RequiredReplace {
path, err := pathFromTfplan(p)
if err != nil {
return nil, fmt.Errorf("invalid path in required replace: %s", err)
}
ret.RequiredReplace.Add(path)
}
change, err := changeFromTfplan(rawChange.Change)
if err != nil {
return nil, fmt.Errorf("invalid plan for resource %s: %s", ret.Addr, err)
}
ret.ChangeSrc = *change
switch rawChange.ActionReason {
case planproto.ResourceInstanceActionReason_NONE:
ret.ActionReason = plans.ResourceInstanceChangeNoReason
case planproto.ResourceInstanceActionReason_REPLACE_BECAUSE_CANNOT_UPDATE:
ret.ActionReason = plans.ResourceInstanceReplaceBecauseCannotUpdate
case planproto.ResourceInstanceActionReason_REPLACE_BECAUSE_TAINTED:
ret.ActionReason = plans.ResourceInstanceReplaceBecauseTainted
case planproto.ResourceInstanceActionReason_REPLACE_BY_REQUEST:
ret.ActionReason = plans.ResourceInstanceReplaceByRequest
case planproto.ResourceInstanceActionReason_REPLACE_BY_TRIGGERS:
ret.ActionReason = plans.ResourceInstanceReplaceByTriggers
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_RESOURCE_CONFIG:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseNoResourceConfig
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_WRONG_REPETITION:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseWrongRepetition
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_COUNT_INDEX:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseCountIndex
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_EACH_KEY:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseEachKey
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_MODULE:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseNoModule
case planproto.ResourceInstanceActionReason_READ_BECAUSE_CONFIG_UNKNOWN:
ret.ActionReason = plans.ResourceInstanceReadBecauseConfigUnknown
case planproto.ResourceInstanceActionReason_READ_BECAUSE_DEPENDENCY_PENDING:
ret.ActionReason = plans.ResourceInstanceReadBecauseDependencyPending
case planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_MOVE_TARGET:
ret.ActionReason = plans.ResourceInstanceDeleteBecauseNoMoveTarget
default:
return nil, fmt.Errorf("resource has invalid action reason %s", rawChange.ActionReason)
}
if len(rawChange.Private) != 0 {
ret.Private = rawChange.Private
}
return ret, nil
}
func changeFromTfplan(rawChange *planproto.Change) (*plans.ChangeSrc, error) {
if rawChange == nil {
return nil, fmt.Errorf("change object is absent")
}
ret := &plans.ChangeSrc{}
// -1 indicates that there is no index. We'll customize these below
// depending on the change action, and then decode.
beforeIdx, afterIdx := -1, -1
switch rawChange.Action {
case planproto.Action_NOOP:
ret.Action = plans.NoOp
beforeIdx = 0
afterIdx = 0
case planproto.Action_CREATE:
ret.Action = plans.Create
afterIdx = 0
case planproto.Action_READ:
ret.Action = plans.Read
beforeIdx = 0
afterIdx = 1
case planproto.Action_UPDATE:
ret.Action = plans.Update
beforeIdx = 0
afterIdx = 1
case planproto.Action_DELETE:
ret.Action = plans.Delete
beforeIdx = 0
case planproto.Action_CREATE_THEN_DELETE:
ret.Action = plans.CreateThenDelete
beforeIdx = 0
afterIdx = 1
case planproto.Action_DELETE_THEN_CREATE:
ret.Action = plans.DeleteThenCreate
beforeIdx = 0
afterIdx = 1
default:
return nil, fmt.Errorf("invalid change action %s", rawChange.Action)
}
if beforeIdx != -1 {
if l := len(rawChange.Values); l <= beforeIdx {
return nil, fmt.Errorf("incorrect number of values (%d) for %s change", l, rawChange.Action)
}
var err error
ret.Before, err = valueFromTfplan(rawChange.Values[beforeIdx])
if err != nil {
return nil, fmt.Errorf("invalid \"before\" value: %s", err)
}
if ret.Before == nil {
return nil, fmt.Errorf("missing \"before\" value: %s", err)
}
}
if afterIdx != -1 {
if l := len(rawChange.Values); l <= afterIdx {
return nil, fmt.Errorf("incorrect number of values (%d) for %s change", l, rawChange.Action)
}
var err error
ret.After, err = valueFromTfplan(rawChange.Values[afterIdx])
if err != nil {
return nil, fmt.Errorf("invalid \"after\" value: %s", err)
}
if ret.After == nil {
return nil, fmt.Errorf("missing \"after\" value: %s", err)
}
}
sensitive := cty.NewValueMarks(marks.Sensitive)
beforeValMarks, err := pathValueMarksFromTfplan(rawChange.BeforeSensitivePaths, sensitive)
if err != nil {
return nil, fmt.Errorf("failed to decode before sensitive paths: %s", err)
}
afterValMarks, err := pathValueMarksFromTfplan(rawChange.AfterSensitivePaths, sensitive)
if err != nil {
return nil, fmt.Errorf("failed to decode after sensitive paths: %s", err)
}
if len(beforeValMarks) > 0 {
ret.BeforeValMarks = beforeValMarks
}
if len(afterValMarks) > 0 {
ret.AfterValMarks = afterValMarks
}
return ret, nil
}
func valueFromTfplan(rawV *planproto.DynamicValue) (plans.DynamicValue, error) {
if len(rawV.Msgpack) == 0 { // len(0) because that's the default value for a "bytes" in protobuf
return nil, fmt.Errorf("dynamic value does not have msgpack serialization")
}
return plans.DynamicValue(rawV.Msgpack), nil
}
// writeTfplan serializes the given plan into the protobuf-based format used
// for the "tfplan" portion of a plan file.
func writeTfplan(plan *plans.Plan, w io.Writer) error {
if plan == nil {
return fmt.Errorf("cannot write plan file for nil plan")
}
if plan.Changes == nil {
return fmt.Errorf("cannot write plan file with nil changeset")
}
rawPlan := &planproto.Plan{
Version: tfplanFormatVersion,
TerraformVersion: version.String(),
Variables: map[string]*planproto.DynamicValue{},
OutputChanges: []*planproto.OutputChange{},
CheckResults: []*planproto.CheckResults{},
ResourceChanges: []*planproto.ResourceInstanceChange{},
ResourceDrift: []*planproto.ResourceInstanceChange{},
}
switch plan.UIMode {
case plans.NormalMode:
rawPlan.UiMode = planproto.Mode_NORMAL
case plans.DestroyMode:
rawPlan.UiMode = planproto.Mode_DESTROY
case plans.RefreshOnlyMode:
rawPlan.UiMode = planproto.Mode_REFRESH_ONLY
default:
return fmt.Errorf("plan has unsupported mode %s", plan.UIMode)
}
for _, oc := range plan.Changes.Outputs {
// When serializing a plan we only retain the root outputs, since
// changes to these are externally-visible side effects (e.g. via
// terraform_remote_state).
if !oc.Addr.Module.IsRoot() {
continue
}
name := oc.Addr.OutputValue.Name
// Writing outputs as cty.DynamicPseudoType forces the stored values
// to also contain dynamic type information, so we can recover the
// original type when we read the values back in readTFPlan.
protoChange, err := changeToTfplan(&oc.ChangeSrc)
if err != nil {
return fmt.Errorf("cannot write output value %q: %s", name, err)
}
rawPlan.OutputChanges = append(rawPlan.OutputChanges, &planproto.OutputChange{
Name: name,
Change: protoChange,
Sensitive: oc.Sensitive,
})
}
if plan.Checks != nil {
for _, configElem := range plan.Checks.ConfigResults.Elems {
crs := configElem.Value
pcrs := &planproto.CheckResults{
ConfigAddr: configElem.Key.String(),
}
switch crs.Status {
case checks.StatusUnknown:
pcrs.Status = planproto.CheckResults_UNKNOWN
case checks.StatusPass:
pcrs.Status = planproto.CheckResults_PASS
case checks.StatusFail:
pcrs.Status = planproto.CheckResults_FAIL
case checks.StatusError:
pcrs.Status = planproto.CheckResults_ERROR
default:
return fmt.Errorf("checkable configuration %s has unsupported aggregate status %s", configElem.Key, crs.Status)
}
switch kind := configElem.Key.CheckableKind(); kind {
case addrs.CheckableResource:
pcrs.Kind = planproto.CheckResults_RESOURCE
case addrs.CheckableOutputValue:
pcrs.Kind = planproto.CheckResults_OUTPUT_VALUE
default:
return fmt.Errorf("checkable configuration %s has unsupported object type kind %s", configElem.Key, kind)
}
for _, objectElem := range configElem.Value.ObjectResults.Elems {
cr := objectElem.Value
pcr := &planproto.CheckResults_ObjectResult{
ObjectAddr: objectElem.Key.String(),
FailureMessages: objectElem.Value.FailureMessages,
}
switch cr.Status {
case checks.StatusUnknown:
pcr.Status = planproto.CheckResults_UNKNOWN
case checks.StatusPass:
pcr.Status = planproto.CheckResults_PASS
case checks.StatusFail:
pcr.Status = planproto.CheckResults_FAIL
case checks.StatusError:
pcr.Status = planproto.CheckResults_ERROR
default:
return fmt.Errorf("checkable object %s has unsupported status %s", objectElem.Key, crs.Status)
}
pcrs.Objects = append(pcrs.Objects, pcr)
}
rawPlan.CheckResults = append(rawPlan.CheckResults, pcrs)
}
}
for _, rc := range plan.Changes.Resources {
rawRC, err := resourceChangeToTfplan(rc)
if err != nil {
return err
}
rawPlan.ResourceChanges = append(rawPlan.ResourceChanges, rawRC)
}
for _, rc := range plan.DriftedResources {
rawRC, err := resourceChangeToTfplan(rc)
if err != nil {
return err
}
rawPlan.ResourceDrift = append(rawPlan.ResourceDrift, rawRC)
}
for _, ra := range plan.RelevantAttributes {
rawRA, err := resourceAttrToTfplan(ra)
if err != nil {
return err
}
rawPlan.RelevantAttributes = append(rawPlan.RelevantAttributes, rawRA)
}
for _, targetAddr := range plan.TargetAddrs {
rawPlan.TargetAddrs = append(rawPlan.TargetAddrs, targetAddr.String())
}
for _, replaceAddr := range plan.ForceReplaceAddrs {
rawPlan.ForceReplaceAddrs = append(rawPlan.ForceReplaceAddrs, replaceAddr.String())
}
for name, val := range plan.VariableValues {
rawPlan.Variables[name] = valueToTfplan(val)
}
if plan.Backend.Type == "" || plan.Backend.Config == nil {
// This suggests a bug in the code that created the plan, since it
// ought to always have a backend populated, even if it's the default
// "local" backend with a local state file.
return fmt.Errorf("plan does not have a backend configuration")
}
rawPlan.Backend = &planproto.Backend{
Type: plan.Backend.Type,
Config: valueToTfplan(plan.Backend.Config),
Workspace: plan.Backend.Workspace,
}
src, err := proto.Marshal(rawPlan)
if err != nil {
return fmt.Errorf("serialization error: %s", err)
}
_, err = w.Write(src)
if err != nil {
return fmt.Errorf("failed to write plan to plan file: %s", err)
}
return nil
}
func resourceAttrToTfplan(ra globalref.ResourceAttr) (*planproto.PlanResourceAttr, error) {
res := &planproto.PlanResourceAttr{}
res.Resource = ra.Resource.String()
attr, err := pathToTfplan(ra.Attr)
if err != nil {
return res, err
}
res.Attr = attr
return res, nil
}
func resourceAttrFromTfplan(ra *planproto.PlanResourceAttr) (globalref.ResourceAttr, error) {
var res globalref.ResourceAttr
if ra.Resource == "" {
return res, fmt.Errorf("missing resource address from relevant attribute")
}
instAddr, diags := addrs.ParseAbsResourceInstanceStr(ra.Resource)
if diags.HasErrors() {
return res, fmt.Errorf("invalid resource instance address %q in relevant attributes: %w", ra.Resource, diags.Err())
}
res.Resource = instAddr
path, err := pathFromTfplan(ra.Attr)
if err != nil {
return res, fmt.Errorf("invalid path in %q relevant attribute: %s", res.Resource, err)
}
res.Attr = path
return res, nil
}
func resourceChangeToTfplan(change *plans.ResourceInstanceChangeSrc) (*planproto.ResourceInstanceChange, error) {
ret := &planproto.ResourceInstanceChange{}
if change.PrevRunAddr.Resource.Resource.Type == "" {
// Suggests that an old caller wasn't yet updated to populate this
// properly. All code that generates plans should populate this field,
// even if it's just to write in the same value as in change.Addr.
change.PrevRunAddr = change.Addr
}
ret.Addr = change.Addr.String()
ret.PrevRunAddr = change.PrevRunAddr.String()
if ret.PrevRunAddr == ret.Addr {
// In the on-disk format we leave PrevRunAddr unpopulated in the common
// case where it's the same as Addr, and then fill it back in again on
// read.
ret.PrevRunAddr = ""
}
ret.DeposedKey = string(change.DeposedKey)
ret.Provider = change.ProviderAddr.String()
requiredReplace := change.RequiredReplace.List()
ret.RequiredReplace = make([]*planproto.Path, 0, len(requiredReplace))
for _, p := range requiredReplace {
path, err := pathToTfplan(p)
if err != nil {
return nil, fmt.Errorf("invalid path in required replace: %s", err)
}
ret.RequiredReplace = append(ret.RequiredReplace, path)
}
valChange, err := changeToTfplan(&change.ChangeSrc)
if err != nil {
return nil, fmt.Errorf("failed to serialize resource %s change: %s", change.Addr, err)
}
ret.Change = valChange
switch change.ActionReason {
case plans.ResourceInstanceChangeNoReason:
ret.ActionReason = planproto.ResourceInstanceActionReason_NONE
case plans.ResourceInstanceReplaceBecauseCannotUpdate:
ret.ActionReason = planproto.ResourceInstanceActionReason_REPLACE_BECAUSE_CANNOT_UPDATE
case plans.ResourceInstanceReplaceBecauseTainted:
ret.ActionReason = planproto.ResourceInstanceActionReason_REPLACE_BECAUSE_TAINTED
case plans.ResourceInstanceReplaceByRequest:
ret.ActionReason = planproto.ResourceInstanceActionReason_REPLACE_BY_REQUEST
case plans.ResourceInstanceReplaceByTriggers:
ret.ActionReason = planproto.ResourceInstanceActionReason_REPLACE_BY_TRIGGERS
case plans.ResourceInstanceDeleteBecauseNoResourceConfig:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_RESOURCE_CONFIG
case plans.ResourceInstanceDeleteBecauseWrongRepetition:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_WRONG_REPETITION
case plans.ResourceInstanceDeleteBecauseCountIndex:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_COUNT_INDEX
case plans.ResourceInstanceDeleteBecauseEachKey:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_EACH_KEY
case plans.ResourceInstanceDeleteBecauseNoModule:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_MODULE
case plans.ResourceInstanceReadBecauseConfigUnknown:
ret.ActionReason = planproto.ResourceInstanceActionReason_READ_BECAUSE_CONFIG_UNKNOWN
case plans.ResourceInstanceReadBecauseDependencyPending:
ret.ActionReason = planproto.ResourceInstanceActionReason_READ_BECAUSE_DEPENDENCY_PENDING
case plans.ResourceInstanceDeleteBecauseNoMoveTarget:
ret.ActionReason = planproto.ResourceInstanceActionReason_DELETE_BECAUSE_NO_MOVE_TARGET
default:
return nil, fmt.Errorf("resource %s has unsupported action reason %s", change.Addr, change.ActionReason)
}
if len(change.Private) > 0 {
ret.Private = change.Private
}
return ret, nil
}
func changeToTfplan(change *plans.ChangeSrc) (*planproto.Change, error) {
ret := &planproto.Change{}
before := valueToTfplan(change.Before)
after := valueToTfplan(change.After)
beforeSensitivePaths, err := pathValueMarksToTfplan(change.BeforeValMarks)
if err != nil {
return nil, err
}
afterSensitivePaths, err := pathValueMarksToTfplan(change.AfterValMarks)
if err != nil {
return nil, err
}
ret.BeforeSensitivePaths = beforeSensitivePaths
ret.AfterSensitivePaths = afterSensitivePaths
switch change.Action {
case plans.NoOp:
ret.Action = planproto.Action_NOOP
ret.Values = []*planproto.DynamicValue{before} // before and after should be identical
case plans.Create:
ret.Action = planproto.Action_CREATE
ret.Values = []*planproto.DynamicValue{after}
case plans.Read:
ret.Action = planproto.Action_READ
ret.Values = []*planproto.DynamicValue{before, after}
case plans.Update:
ret.Action = planproto.Action_UPDATE
ret.Values = []*planproto.DynamicValue{before, after}
case plans.Delete:
ret.Action = planproto.Action_DELETE
ret.Values = []*planproto.DynamicValue{before}
case plans.DeleteThenCreate:
ret.Action = planproto.Action_DELETE_THEN_CREATE
ret.Values = []*planproto.DynamicValue{before, after}
case plans.CreateThenDelete:
ret.Action = planproto.Action_CREATE_THEN_DELETE
ret.Values = []*planproto.DynamicValue{before, after}
default:
return nil, fmt.Errorf("invalid change action %s", change.Action)
}
return ret, nil
}
func valueToTfplan(val plans.DynamicValue) *planproto.DynamicValue {
if val == nil {
// protobuf can't represent nil, so we'll represent it as a
// DynamicValue that has no serializations at all.
return &planproto.DynamicValue{}
}
return &planproto.DynamicValue{
Msgpack: []byte(val),
}
}
func pathValueMarksFromTfplan(paths []*planproto.Path, marks cty.ValueMarks) ([]cty.PathValueMarks, error) {
ret := make([]cty.PathValueMarks, 0, len(paths))
for _, p := range paths {
path, err := pathFromTfplan(p)
if err != nil {
return nil, err
}
ret = append(ret, cty.PathValueMarks{
Path: path,
Marks: marks,
})
}
return ret, nil
}
func pathValueMarksToTfplan(pvm []cty.PathValueMarks) ([]*planproto.Path, error) {
ret := make([]*planproto.Path, 0, len(pvm))
for _, p := range pvm {
path, err := pathToTfplan(p.Path)
if err != nil {
return nil, err
}
ret = append(ret, path)
}
return ret, nil
}
func pathFromTfplan(path *planproto.Path) (cty.Path, error) {
ret := make([]cty.PathStep, 0, len(path.Steps))
for _, step := range path.Steps {
switch s := step.Selector.(type) {
case *planproto.Path_Step_ElementKey:
dynamicVal, err := valueFromTfplan(s.ElementKey)
if err != nil {
return nil, fmt.Errorf("error decoding path index step: %s", err)
}
ty, err := dynamicVal.ImpliedType()
if err != nil {
return nil, fmt.Errorf("error determining path index type: %s", err)
}
val, err := dynamicVal.Decode(ty)
if err != nil {
return nil, fmt.Errorf("error decoding path index value: %s", err)
}
ret = append(ret, cty.IndexStep{Key: val})
case *planproto.Path_Step_AttributeName:
ret = append(ret, cty.GetAttrStep{Name: s.AttributeName})
default:
return nil, fmt.Errorf("Unsupported path step %t", step.Selector)
}
}
return ret, nil
}
func pathToTfplan(path cty.Path) (*planproto.Path, error) {
steps := make([]*planproto.Path_Step, 0, len(path))
for _, step := range path {
switch s := step.(type) {
case cty.IndexStep:
value, err := plans.NewDynamicValue(s.Key, s.Key.Type())
if err != nil {
return nil, fmt.Errorf("Error encoding path step: %s", err)
}
steps = append(steps, &planproto.Path_Step{
Selector: &planproto.Path_Step_ElementKey{
ElementKey: valueToTfplan(value),
},
})
case cty.GetAttrStep:
steps = append(steps, &planproto.Path_Step{
Selector: &planproto.Path_Step_AttributeName{
AttributeName: s.Name,
},
})
default:
return nil, fmt.Errorf("Unsupported path step %#v (%t)", step, step)
}
}
return &planproto.Path{
Steps: steps,
}, nil
}