opentofu/docs/plugin-protocol/object-wire-format.md

20 KiB

Wire Format for OpenTofu Objects and Associated Values

The provider wire protocol (as of major version 5) includes a protobuf message type DynamicValue which OpenTofu uses to represent values from the OpenTofu Language type system, which result from evaluating the content of resource, data, and provider blocks, based on a schema defined by the corresponding provider.

Because the structure of these values is determined at runtime, DynamicValue uses one of two possible dynamic serialization formats for the values themselves: MessagePack or JSON. OpenTofu most commonly uses MessagePack, because it offers a compact binary representation of a value. However, a server implementation of the provider protocol should fall back to JSON if the MessagePack field is not populated, in order to support both formats.

The remainder of this document describes how OpenTofu translates from its own type system into the type system of the two supported serialization formats. A server implementation of the OpenTofu provider protocol can use this information to decode DynamicValue values from incoming messages into whatever representation is convenient for the provider implementation.

A server implementation must also be able to produce DynamicValue messages as part of various response messages. When doing so, servers should always use MessagePack encoding, because OpenTofu does not consistently support JSON responses across all request types and all OpenTofu versions.

Both the MessagePack and JSON serializations are driven by information the provider previously returned in a Schema message. OpenTofu will encode each value depending on the type constraint given for it in the corresponding schema, using the closest possible MessagePack or JSON type to the OpenTofu language type. Therefore a server implementation can decode a serialized value using a standard MessagePack or JSON library and assume it will conform to the serialization rules described below.

MessagePack Serialization Rules

The MessagePack types referenced in this section are those defined in The MessagePack type system specification.

Note that MessagePack defines several possible serialization formats for each type, and OpenTofu may choose any of the formats of a specified type. The exact serialization chosen for a given value may vary between OpenTofu versions, but the types given here are contractual.

Conversely, server implementations that are producing MessagePack-encoded values are free to use any of the valid serialization formats for a particular type. However, we recommend choosing the most compact format that can represent the value without a loss of range.

Schema.Block Mapping Rules for MessagePack

To represent the content of a block as MessagePack, OpenTofu constructs a MessagePack map that contains one key-value pair per attribute and one key-value pair per distinct nested block described in the Schema.Block message.

The key-value pairs representing attributes have values based on the Schema.Attribute mapping rules. The key-value pairs representing nested block types have values based on the Schema.NestedBlock mapping rules.

Schema.Attribute Mapping Rules for MessagePack

The MessagePack serialization of an attribute value depends on the value of the type field of the corresponding Schema.Attribute message. The type field is a compact JSON serialization of a OpenTofu type constraint, which consists either of a single string value (for primitive types) or a two-element array giving a type kind and a type argument.

The following table describes the type-specific mapping rules. Along with those type-specific rules there are two special rules that override the mappings in the table below, regardless of type:

  • A null value is represented as a MessagePack nil value.
  • An unknown value (that is, a placeholder for a value that will be decided only during the apply operation) is represented as a MessagePack extension value, described in more detail below.
type Pattern MessagePack Representation
"string" A MessagePack string containing the Unicode characters from the string value serialized as normalized UTF-8.
"number" Either MessagePack integer, MessagePack float, or MessagePack string representing the number. If a number is represented as a string then the string contains a decimal representation of the number which may have a larger mantissa than can be represented by a 64-bit float.
"bool" A MessagePack boolean value corresponding to the value.
["list",T] A MessagePack array with the same number of elements as the list value, each of which is represented by the result of applying these same mapping rules to the nested type T.
["set",T] Identical in representation to ["list",T], but the order of elements is undefined because OpenTofu sets are unordered.
["map",T] A MessagePack map with one key-value pair per element of the map value, where the element key is serialized as the map key (always a MessagePack string) and the element value is represented by a value constructed by applying these same mapping rules to the nested type T.
["object",ATTRS] A MessagePack map with one key-value pair per attribute defined in the ATTRS object. The attribute name is serialized as the map key (always a MessagePack string) and the attribute value is represented by a value constructed by applying these same mapping rules to each attribute's own type.
["tuple",TYPES] A MessagePack array with one element per element described by the TYPES array. The element values are constructed by applying these same mapping rules to the corresponding element of TYPES.
"dynamic" A MessagePack array with exactly two elements. The first element is a MessagePack binary value containing a JSON-serialized type constraint in the same format described in this table. The second element is the result of applying these same mapping rules to the value with the type given in the first element. This special type constraint represents values whose types will be decided only at runtime.

Unknown values have two possible representations, both using MessagePack extension values.

The older encoding is for unrefined unknown values and uses an extension code of zero, with the extension value payload completely ignored.

Newer OpenTofu versions can produce "refined" unknown values which carry some additional information that constrains the possible range of the final value/ Refined unknown values have extension code 12 and then the extension object's payload is a MessagePack-encoded map using integer keys to represent different kinds of refinement:

  • 1 represents "nullness", and the value of that key will be a boolean value that is true if the value is definitely null or false if it is definitely not null. If this key isn't present at all then the value may or may not be null. It's not actually useful to encode that an unknown value is null; use a known null value instead in that case, because there is only one null value of each type.
  • 2 represents string prefix, and the value is a string that the final value is known to begin with. This is valid only for unknown values of string type.
  • 3 and 4 represent the lower and upper bounds respectively of a number value, and the value of both is a two-element msgpack array whose first element is a valid encoding of a number (as in the table above) and whose second element is a boolean value that is true for an inclusive bound and false for an exclusive bound. This is valid only for unknown values of number type.
  • 5 and 6 represent the lower and upper bounds respectively of the length of a collection value. The value of both is an integer representing an inclusive bound. This is valid only for unknown values of the three kinds of collection types: list, set, and map.

Unknown value refinements are an optional way to reduce the range of possible values for situations where that makes it possible to produce a known result for unknown inputs or where it allows detecting an error during the planning phase that would otherwise be detected only during the apply phase. It's always safe to ignore refinements and just treat an unknown value as wholly unknown, but considering refinements may allow a more precise answer. A provider that produces refined values in its planned new state (from PlanResourceChange) must honor those refinements in the final state (from ApplyResourceChange).

Unmarshalling code should ignore refinement map keys that they don't know about, because future versions of the protocol might define additional refinements.

When encoding an unknown value without any refinements, always use the older format with extension code zero instead of using extension code 12 with an empty refinement map. Any refined unknown value must have at least one refinement map entry. This rule ensures backward compatibility with older implementations that predate the value refinements concept.

A server implementation of the protocol should treat any MessagePack extension code as representing an unknown value, but should ignore the payload of that extension value entirely unless the extension code is 12 to indicate that the body represents refinements. Future versions of this protocol may define specific formats for other extension codes, but they will always represent unknown values.

Schema.NestedBlock Mapping Rules for MessagePack

The MessagePack serialization of a collection of blocks of a particular type depends on the nesting field of the corresponding Schema.NestedBlock message. The nesting field is a value from the Schema.NestingBlock.NestingMode enumeration.

All nesting values cause the individual blocks of a type to be represented by applying the Schema.Block mapping rules to the block's contents based on the block field, producing what we'll call a block value in the table below.

The nesting value then in turn defines how OpenTofu will collect all of the individual block values together to produce a single property value representing the nested block type. For all nesting values other than MAP, blocks may not have any labels. For the nesting value MAP, blocks must have exactly one label, which is a string we'll call a block label in the table below.

nesting Value MessagePack Representation
SINGLE The block value of the single block of this type, or nil if there is no block of that type.
LIST A MessagePack array of all of the block values, preserving the order of definition of the blocks in the configuration.
SET A MessagePack array of all of the block values in no particular order.
MAP A MessagePack map with one key-value pair per block value, where the key is the block label and the value is the block value.
GROUP The same as with SINGLE, except that if there is no block of that type OpenTofu will synthesize a block value by pretending that all of the declared attributes are null and that there are zero blocks of each declared block type.

For the LIST and SET nesting modes, OpenTofu guarantees that the MessagePack array will have a number of elements between the min_items and max_items values given in the schema, unless any of the block values contain nested unknown values. When unknown values are present, OpenTofu considers the value to be potentially incomplete and so OpenTofu defers validation of the number of blocks. For example, if the configuration includes a dynamic block whose for_each argument is unknown then the final number of blocks is not predictable until the apply phase.

JSON Serialization Rules

The JSON serialization is a secondary representation for DynamicValue, with MessagePack preferred due to its ability to represent unknown values via an extension.

The JSON encoding described in this section is also used for the json field of the RawValue message that forms part of an UpgradeResourceState request. However, in that case the data is serialized per the schema of the provider version that created it, which won't necessarily match the schema of the current version of that provider.

Schema.Block Mapping Rules for JSON

To represent the content of a block as JSON, OpenTofu constructs a JSON object that contains one property per attribute and one property per distinct nested block described in the Schema.Block message.

The properties representing attributes have property values based on the Schema.Attribute mapping rules. The properties representing nested block types have property values based on the Schema.NestedBlock mapping rules.

Schema.Attribute Mapping Rules for JSON

The JSON serialization of an attribute value depends on the value of the type field of the corresponding Schema.Attribute message. The type field is a compact JSON serialization of a OpenTofu type constraint, which consists either of a single string value (for primitive types) or a two-element array giving a type kind and a type argument.

The following table describes the type-specific mapping rules. Along with those type-specific rules there is one special rule that overrides the rules in the table regardless of type:

  • A null value is always represented as JSON null.
type Pattern JSON Representation
"string" A JSON string containing the Unicode characters from the string value.
"number" A JSON number representing the number value. OpenTofu numbers are arbitrary-precision floating point, so the value may have a larger mantissa than can be represented by a 64-bit float.
"bool" Either JSON true or JSON false, depending on the boolean value.
["list",T] A JSON array with the same number of elements as the list value, each of which is represented by the result of applying these same mapping rules to the nested type T.
["set",T] Identical in representation to ["list",T], but the order of elements is undefined because OpenTofu sets are unordered.
["map",T] A JSON object with one property per element of the map value, where the element key is serialized as the property name string and the element value is represented by a property value constructed by applying these same mapping rules to the nested type T.
["object",ATTRS] A JSON object with one property per attribute defined in the ATTRS object. The attribute name is serialized as the property name string and the attribute value is represented by a property value constructed by applying these same mapping rules to each attribute's own type.
["tuple",TYPES] A JSON array with one element per element described by the TYPES array. The element values are constructed by applying these same mapping rules to the corresponding element of TYPES.
"dynamic" A JSON object with two properties: "type" specifying one of the type patterns described in this table in-band, giving the exact runtime type of the value, and "value" specifying the result of applying these same mapping rules to the table for the specified runtime type. This special type constraint represents values whose types will be decided only at runtime.

Schema.NestedBlock Mapping Rules for JSON

The JSON serialization of a collection of blocks of a particular type depends on the nesting field of the corresponding Schema.NestedBlock message. The nesting field is a value from the Schema.NestingBlock.NestingMode enumeration.

All nesting values cause the individual blocks of a type to be represented by applying the Schema.Block mapping rules to the block's contents based on the block field, producing what we'll call a block value in the table below.

The nesting value then in turn defines how OpenTofu will collect all of the individual block values together to produce a single property value representing the nested block type. For all nesting values other than MAP, blocks may not have any labels. For the nesting value MAP, blocks must have exactly one label, which is a string we'll call a block label in the table below.

nesting Value JSON Representation
SINGLE The block value of the single block of this type, or null if there is no block of that type.
LIST A JSON array of all of the block values, preserving the order of definition of the blocks in the configuration.
SET A JSON array of all of the block values in no particular order.
MAP A JSON object with one property per block value, where the property name is the block label and the value is the block value.
GROUP The same as with SINGLE, except that if there is no block of that type OpenTofu will synthesize a block value by pretending that all of the declared attributes are null and that there are zero blocks of each declared block type.

For the LIST and SET nesting modes, OpenTofu guarantees that the JSON array will have a number of elements between the min_items and max_items values given in the schema.