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https://github.com/opentofu/opentofu.git
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634430ebb2
Fixes #19347
416 lines
13 KiB
Go
416 lines
13 KiB
Go
package statefile
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import (
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"encoding/json"
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"fmt"
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"strconv"
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"strings"
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"github.com/zclconf/go-cty/cty"
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ctyjson "github.com/zclconf/go-cty/cty/json"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/states"
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"github.com/hashicorp/terraform/tfdiags"
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)
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func upgradeStateV3ToV4(old *stateV3) (*stateV4, error) {
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if old.Serial < 0 {
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// The new format is using uint64 here, which should be fine for any
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// real state (we only used positive integers in practice) but we'll
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// catch this explicitly here to avoid weird behavior if a state file
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// has been tampered with in some way.
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return nil, fmt.Errorf("state has serial less than zero, which is invalid")
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}
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new := &stateV4{
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TerraformVersion: old.TFVersion,
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Serial: uint64(old.Serial),
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Lineage: old.Lineage,
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RootOutputs: map[string]outputStateV4{},
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Resources: []resourceStateV4{},
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}
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if new.TerraformVersion == "" {
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// Older formats considered this to be optional, but now it's required
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// and so we'll stub it out with something that's definitely older
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// than the version that really created this state.
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new.TerraformVersion = "0.0.0"
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}
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for _, msOld := range old.Modules {
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if len(msOld.Path) < 1 || msOld.Path[0] != "root" {
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return nil, fmt.Errorf("state contains invalid module path %#v", msOld.Path)
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}
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// Convert legacy-style module address into our newer address type.
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// Since these old formats are only generated by versions of Terraform
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// that don't support count and for_each on modules, we can just assume
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// all of the modules are unkeyed.
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moduleAddr := make(addrs.ModuleInstance, len(msOld.Path)-1)
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for i, name := range msOld.Path[1:] {
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moduleAddr[i] = addrs.ModuleInstanceStep{
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Name: name,
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InstanceKey: addrs.NoKey,
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}
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}
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// In a v3 state file, a "resource state" is actually an instance
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// state, so we need to fill in a missing level of heirarchy here
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// by lazily creating resource states as we encounter them.
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// We'll track them in here, keyed on the string representation of
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// the resource address.
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resourceStates := map[string]*resourceStateV4{}
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for legacyAddr, rsOld := range msOld.Resources {
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instAddr, err := parseLegacyResourceAddress(legacyAddr)
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if err != nil {
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return nil, err
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}
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resAddr := instAddr.Resource
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rs, exists := resourceStates[resAddr.String()]
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if !exists {
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var modeStr string
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switch resAddr.Mode {
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case addrs.ManagedResourceMode:
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modeStr = "managed"
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case addrs.DataResourceMode:
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modeStr = "data"
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default:
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return nil, fmt.Errorf("state contains resource %s with an unsupported resource mode", resAddr)
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}
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// In state versions prior to 4 we allowed each instance of a
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// resource to have its own provider configuration address,
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// which makes no real sense in practice because providers
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// are associated with resources in the configuration. We
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// elevate that to the resource level during this upgrade,
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// implicitly taking the provider address of the first instance
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// we encounter for each resource. While this is lossy in
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// theory, in practice there is no reason for these values to
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// differ between instances.
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var providerAddr addrs.AbsProviderConfig
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oldProviderAddr := rsOld.Provider
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if strings.Contains(oldProviderAddr, "provider.") {
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// Smells like a new-style provider address, but we'll test it.
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var diags tfdiags.Diagnostics
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providerAddr, diags = addrs.ParseAbsProviderConfigStr(oldProviderAddr)
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if diags.HasErrors() {
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return nil, diags.Err()
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}
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} else {
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// Smells like an old-style module-local provider address,
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// which we'll need to migrate. We'll assume it's referring
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// to the same module the resource is in, which might be
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// incorrect but it'll get fixed up next time any updates
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// are made to an instance.
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if oldProviderAddr != "" {
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localAddr, diags := addrs.ParseProviderConfigCompactStr(oldProviderAddr)
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if diags.HasErrors() {
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return nil, diags.Err()
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}
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providerAddr = localAddr.Absolute(moduleAddr)
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} else {
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providerAddr = resAddr.DefaultProviderConfig().Absolute(moduleAddr)
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}
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}
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rs = &resourceStateV4{
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Module: moduleAddr.String(),
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Mode: modeStr,
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Type: resAddr.Type,
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Name: resAddr.Name,
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Instances: []instanceObjectStateV4{},
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ProviderConfig: providerAddr.String(),
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}
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resourceStates[resAddr.String()] = rs
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}
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// Now we'll deal with the instance itself, which may either be
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// the first instance in a resource we just created or an additional
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// instance for a resource added on a prior loop.
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instKey := instAddr.Key
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if isOld := rsOld.Primary; isOld != nil {
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isNew, err := upgradeInstanceObjectV3ToV4(rsOld, isOld, instKey, states.NotDeposed)
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if err != nil {
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return nil, fmt.Errorf("failed to migrate primary generation of %s: %s", instAddr, err)
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}
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rs.Instances = append(rs.Instances, *isNew)
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}
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for i, isOld := range rsOld.Deposed {
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// When we migrate old instances we'll use sequential deposed
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// keys just so that the upgrade result is deterministic. New
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// deposed keys allocated moving forward will be pseudorandomly
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// selected, but we check for collisions and so these
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// non-random ones won't hurt.
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deposedKey := states.DeposedKey(fmt.Sprintf("%08x", i+1))
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isNew, err := upgradeInstanceObjectV3ToV4(rsOld, isOld, instKey, deposedKey)
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if err != nil {
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return nil, fmt.Errorf("failed to migrate deposed generation index %d of %s: %s", i, instAddr, err)
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}
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rs.Instances = append(rs.Instances, *isNew)
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}
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if instKey != addrs.NoKey && rs.EachMode == "" {
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rs.EachMode = "list"
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}
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}
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for _, rs := range resourceStates {
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new.Resources = append(new.Resources, *rs)
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}
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if len(msOld.Path) == 1 && msOld.Path[0] == "root" {
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// We'll migrate the outputs for this module too, then.
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for name, oldOS := range msOld.Outputs {
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newOS := outputStateV4{
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Sensitive: oldOS.Sensitive,
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}
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valRaw := oldOS.Value
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valSrc, err := json.Marshal(valRaw)
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if err != nil {
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// Should never happen, because this value came from JSON
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// in the first place and so we're just round-tripping here.
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return nil, fmt.Errorf("failed to serialize output %q value as JSON: %s", name, err)
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}
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// The "type" field in state V2 wasn't really that useful
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// since it was only able to capture string vs. list vs. map.
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// For this reason, during upgrade we'll just discard it
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// altogether and use cty's idea of the implied type of
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// turning our old value into JSON.
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ty, err := ctyjson.ImpliedType(valSrc)
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if err != nil {
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// REALLY should never happen, because we literally just
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// encoded this as JSON above!
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return nil, fmt.Errorf("failed to parse output %q value from JSON: %s", name, err)
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}
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// ImpliedType tends to produce structural types, but since older
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// version of Terraform didn't support those a collection type
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// is probably what was intended, so we'll see if we can
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// interpret our value as one.
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ty = simplifyImpliedValueType(ty)
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tySrc, err := ctyjson.MarshalType(ty)
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if err != nil {
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return nil, fmt.Errorf("failed to serialize output %q type as JSON: %s", name, err)
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}
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newOS.ValueRaw = json.RawMessage(valSrc)
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newOS.ValueTypeRaw = json.RawMessage(tySrc)
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new.RootOutputs[name] = newOS
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}
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}
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}
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new.normalize()
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return new, nil
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}
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func upgradeInstanceObjectV3ToV4(rsOld *resourceStateV2, isOld *instanceStateV2, instKey addrs.InstanceKey, deposedKey states.DeposedKey) (*instanceObjectStateV4, error) {
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// Schema versions were, in prior formats, a private concern of the provider
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// SDK, and not a first-class concept in the state format. Here we're
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// sniffing for the pre-0.12 SDK's way of representing schema versions
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// and promoting it to our first-class field if we find it. We'll ignore
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// it if it doesn't look like what the SDK would've written. If this
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// sniffing fails then we'll assume schema version 0.
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var schemaVersion uint64
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migratedSchemaVersion := false
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if raw, exists := isOld.Meta["schema_version"]; exists {
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switch tv := raw.(type) {
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case string:
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v, err := strconv.ParseUint(tv, 10, 64)
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if err == nil {
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schemaVersion = v
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migratedSchemaVersion = true
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}
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case int:
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schemaVersion = uint64(tv)
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migratedSchemaVersion = true
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case float64:
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schemaVersion = uint64(tv)
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migratedSchemaVersion = true
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}
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}
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private := map[string]interface{}{}
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for k, v := range isOld.Meta {
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if k == "schema_version" && migratedSchemaVersion {
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// We're gonna promote this into our first-class schema version field
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continue
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}
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private[k] = v
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}
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var privateJSON []byte
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if len(private) != 0 {
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var err error
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privateJSON, err = json.Marshal(private)
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if err != nil {
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// This shouldn't happen, because the Meta values all came from JSON
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// originally anyway.
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return nil, fmt.Errorf("cannot serialize private instance object data: %s", err)
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}
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}
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var status string
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if isOld.Tainted {
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status = "tainted"
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}
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var instKeyRaw interface{}
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switch tk := instKey.(type) {
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case addrs.IntKey:
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instKeyRaw = int(tk)
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case addrs.StringKey:
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instKeyRaw = string(tk)
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default:
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if instKeyRaw != nil {
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return nil, fmt.Errorf("insupported instance key: %#v", instKey)
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}
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}
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var attributes map[string]string
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if isOld.Attributes != nil {
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attributes = make(map[string]string, len(isOld.Attributes))
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for k, v := range isOld.Attributes {
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attributes[k] = v
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}
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}
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if isOld.ID != "" {
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// As a special case, if we don't already have an "id" attribute and
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// yet there's a non-empty first-class ID on the old object then we'll
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// create a synthetic id attribute to avoid losing that first-class id.
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// In practice this generally arises only in tests where state literals
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// are hand-written in a non-standard way; real code prior to 0.12
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// would always force the first-class ID to be copied into the
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// id attribute before storing.
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if attributes == nil {
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attributes = make(map[string]string, len(isOld.Attributes))
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}
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if idVal := attributes["id"]; idVal == "" {
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attributes["id"] = isOld.ID
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}
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}
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dependencies := make([]string, len(rsOld.Dependencies))
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for i, v := range rsOld.Dependencies {
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dependencies[i] = strings.TrimSuffix(v, ".*")
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}
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return &instanceObjectStateV4{
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IndexKey: instKeyRaw,
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Status: status,
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Deposed: string(deposedKey),
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AttributesFlat: attributes,
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Dependencies: dependencies,
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SchemaVersion: schemaVersion,
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PrivateRaw: privateJSON,
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}, nil
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}
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// parseLegacyResourceAddress parses the different identifier format used
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// state formats before version 4, like "instance.name.0".
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func parseLegacyResourceAddress(s string) (addrs.ResourceInstance, error) {
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var ret addrs.ResourceInstance
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// Split based on ".". Every resource address should have at least two
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// elements (type and name).
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parts := strings.Split(s, ".")
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if len(parts) < 2 || len(parts) > 4 {
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return ret, fmt.Errorf("invalid internal resource address format: %s", s)
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}
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// Data resource if we have at least 3 parts and the first one is data
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ret.Resource.Mode = addrs.ManagedResourceMode
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if len(parts) > 2 && parts[0] == "data" {
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ret.Resource.Mode = addrs.DataResourceMode
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parts = parts[1:]
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}
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// If we're not a data resource and we have more than 3, then it is an error
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if len(parts) > 3 && ret.Resource.Mode != addrs.DataResourceMode {
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return ret, fmt.Errorf("invalid internal resource address format: %s", s)
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}
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// Build the parts of the resource address that are guaranteed to exist
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ret.Resource.Type = parts[0]
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ret.Resource.Name = parts[1]
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ret.Key = addrs.NoKey
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// If we have more parts, then we have an index. Parse that.
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if len(parts) > 2 {
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idx, err := strconv.ParseInt(parts[2], 0, 0)
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if err != nil {
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return ret, fmt.Errorf("error parsing resource address %q: %s", s, err)
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}
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ret.Key = addrs.IntKey(idx)
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}
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return ret, nil
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}
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// simplifyImpliedValueType attempts to heuristically simplify a value type
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// derived from a legacy stored output value into something simpler that
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// is closer to what would've fitted into the pre-v0.12 value type system.
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func simplifyImpliedValueType(ty cty.Type) cty.Type {
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switch {
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case ty.IsTupleType():
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// If all of the element types are the same then we'll make this
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// a list instead. This is very likely to be true, since prior versions
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// of Terraform did not officially support mixed-type collections.
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if ty.Equals(cty.EmptyTuple) {
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// Don't know what the element type would be, then.
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return ty
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}
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etys := ty.TupleElementTypes()
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ety := etys[0]
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for _, other := range etys[1:] {
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if !other.Equals(ety) {
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// inconsistent types
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return ty
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}
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}
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ety = simplifyImpliedValueType(ety)
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return cty.List(ety)
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case ty.IsObjectType():
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// If all of the attribute types are the same then we'll make this
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// a map instead. This is very likely to be true, since prior versions
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// of Terraform did not officially support mixed-type collections.
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if ty.Equals(cty.EmptyObject) {
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// Don't know what the element type would be, then.
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return ty
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}
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atys := ty.AttributeTypes()
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var ety cty.Type
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for _, other := range atys {
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if ety == cty.NilType {
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ety = other
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continue
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}
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if !other.Equals(ety) {
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// inconsistent types
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return ty
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}
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}
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ety = simplifyImpliedValueType(ety)
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return cty.Map(ety)
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default:
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// No other normalizations are possible
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return ty
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}
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}
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