opentofu/states/statefile/version2.go
Masayuki Morita ac83827c90 states/statefile: decode backend hash as uint64
Fixes #21478

In #19688, `terraform.BackendState.Hash` was fixed.
We also need to fix `states/statefile.backendStateV2.Hash`
2019-05-28 23:59:36 +09:00

210 lines
7.4 KiB
Go

package statefile
import (
"encoding/json"
"fmt"
"sync"
"github.com/hashicorp/terraform/tfdiags"
)
func readStateV2(src []byte) (*File, tfdiags.Diagnostics) {
var diags tfdiags.Diagnostics
sV2 := &stateV2{}
err := json.Unmarshal(src, sV2)
if err != nil {
diags = diags.Append(jsonUnmarshalDiags(err))
return nil, diags
}
file, prepDiags := prepareStateV2(sV2)
diags = diags.Append(prepDiags)
return file, diags
}
func prepareStateV2(sV2 *stateV2) (*File, tfdiags.Diagnostics) {
var diags tfdiags.Diagnostics
sV3, err := upgradeStateV2ToV3(sV2)
if err != nil {
diags = diags.Append(tfdiags.Sourceless(
tfdiags.Error,
upgradeFailed,
fmt.Sprintf("Error upgrading state file format from version 2 to version 3: %s.", err),
))
return nil, diags
}
file, prepDiags := prepareStateV3(sV3)
diags = diags.Append(prepDiags)
return file, diags
}
// stateV2 is a representation of the legacy JSON state format version 2.
//
// It is only used to read version 2 JSON files prior to upgrading them to
// the current format.
type stateV2 struct {
// Version is the state file protocol version.
Version int `json:"version"`
// TFVersion is the version of Terraform that wrote this state.
TFVersion string `json:"terraform_version,omitempty"`
// Serial is incremented on any operation that modifies
// the State file. It is used to detect potentially conflicting
// updates.
Serial int64 `json:"serial"`
// Lineage is set when a new, blank state is created and then
// never updated. This allows us to determine whether the serials
// of two states can be meaningfully compared.
// Apart from the guarantee that collisions between two lineages
// are very unlikely, this value is opaque and external callers
// should only compare lineage strings byte-for-byte for equality.
Lineage string `json:"lineage"`
// Remote is used to track the metadata required to
// pull and push state files from a remote storage endpoint.
Remote *remoteStateV2 `json:"remote,omitempty"`
// Backend tracks the configuration for the backend in use with
// this state. This is used to track any changes in the backend
// configuration.
Backend *backendStateV2 `json:"backend,omitempty"`
// Modules contains all the modules in a breadth-first order
Modules []*moduleStateV2 `json:"modules"`
}
type remoteStateV2 struct {
// Type controls the client we use for the remote state
Type string `json:"type"`
// Config is used to store arbitrary configuration that
// is type specific
Config map[string]string `json:"config"`
}
type outputStateV2 struct {
// Sensitive describes whether the output is considered sensitive,
// which may lead to masking the value on screen in some cases.
Sensitive bool `json:"sensitive"`
// Type describes the structure of Value. Valid values are "string",
// "map" and "list"
Type string `json:"type"`
// Value contains the value of the output, in the structure described
// by the Type field.
Value interface{} `json:"value"`
mu sync.Mutex
}
type moduleStateV2 struct {
// Path is the import path from the root module. Modules imports are
// always disjoint, so the path represents amodule tree
Path []string `json:"path"`
// Locals are kept only transiently in-memory, because we can always
// re-compute them.
Locals map[string]interface{} `json:"-"`
// Outputs declared by the module and maintained for each module
// even though only the root module technically needs to be kept.
// This allows operators to inspect values at the boundaries.
Outputs map[string]*outputStateV2 `json:"outputs"`
// Resources is a mapping of the logically named resource to
// the state of the resource. Each resource may actually have
// N instances underneath, although a user only needs to think
// about the 1:1 case.
Resources map[string]*resourceStateV2 `json:"resources"`
// Dependencies are a list of things that this module relies on
// existing to remain intact. For example: an module may depend
// on a VPC ID given by an aws_vpc resource.
//
// Terraform uses this information to build valid destruction
// orders and to warn the user if they're destroying a module that
// another resource depends on.
//
// Things can be put into this list that may not be managed by
// Terraform. If Terraform doesn't find a matching ID in the
// overall state, then it assumes it isn't managed and doesn't
// worry about it.
Dependencies []string `json:"depends_on"`
}
type resourceStateV2 struct {
// This is filled in and managed by Terraform, and is the resource
// type itself such as "mycloud_instance". If a resource provider sets
// this value, it won't be persisted.
Type string `json:"type"`
// Dependencies are a list of things that this resource relies on
// existing to remain intact. For example: an AWS instance might
// depend on a subnet (which itself might depend on a VPC, and so
// on).
//
// Terraform uses this information to build valid destruction
// orders and to warn the user if they're destroying a resource that
// another resource depends on.
//
// Things can be put into this list that may not be managed by
// Terraform. If Terraform doesn't find a matching ID in the
// overall state, then it assumes it isn't managed and doesn't
// worry about it.
Dependencies []string `json:"depends_on"`
// Primary is the current active instance for this resource.
// It can be replaced but only after a successful creation.
// This is the instances on which providers will act.
Primary *instanceStateV2 `json:"primary"`
// Deposed is used in the mechanics of CreateBeforeDestroy: the existing
// Primary is Deposed to get it out of the way for the replacement Primary to
// be created by Apply. If the replacement Primary creates successfully, the
// Deposed instance is cleaned up.
//
// If there were problems creating the replacement Primary, the Deposed
// instance and the (now tainted) replacement Primary will be swapped so the
// tainted replacement will be cleaned up instead.
//
// An instance will remain in the Deposed list until it is successfully
// destroyed and purged.
Deposed []*instanceStateV2 `json:"deposed"`
// Provider is used when a resource is connected to a provider with an alias.
// If this string is empty, the resource is connected to the default provider,
// e.g. "aws_instance" goes with the "aws" provider.
// If the resource block contained a "provider" key, that value will be set here.
Provider string `json:"provider"`
mu sync.Mutex
}
type instanceStateV2 struct {
// A unique ID for this resource. This is opaque to Terraform
// and is only meant as a lookup mechanism for the providers.
ID string `json:"id"`
// Attributes are basic information about the resource. Any keys here
// are accessible in variable format within Terraform configurations:
// ${resourcetype.name.attribute}.
Attributes map[string]string `json:"attributes"`
// Meta is a simple K/V map that is persisted to the State but otherwise
// ignored by Terraform core. It's meant to be used for accounting by
// external client code. The value here must only contain Go primitives
// and collections.
Meta map[string]interface{} `json:"meta"`
// Tainted is used to mark a resource for recreation.
Tainted bool `json:"tainted"`
}
type backendStateV2 struct {
Type string `json:"type"` // Backend type
ConfigRaw json.RawMessage `json:"config"` // Backend raw config
Hash uint64 `json:"hash"` // Hash of portion of configuration from config files
}