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@agoric/marshal
Advanced tools
"Marshalling" refers to the conversion of structured data (a tree or graph of objects) into a string, and back again.
The marshal
module helps with conversion of "capability-bearing data", in
which some portion of the structured input represents "pass-by-proxy" or
"pass-by-presence" objects. These should be serialized into markers that
refer to special "reference identifiers". These identifiers are collected in
an array, and the serialize()
function returns a two-element structure
known as "CapData": a body
that contains the usual string, and a new
slots
array that holds the reference identifiers. unserialize()
takes
this CapData structure and returns the object graph. The marshaller must be
taught (with a pair of callbacks) how to create the presence markers, and how
to turn these markers back into proxies/presences.
marshal
uses JSON to serialize the object graph, but knows how to serialize
Javascript objects that cannot be expressed directly as JSON, such as
BigInt
objects, undefined
, NaN
, and others.
This module exports a makeMarshal()
function, which can be called with two
optional callbacks (convertValToSlot
and convertSlotToVal
), and returns
an object with serialize
and unserialize
properties. If the callback
arguments are omitted, they default to the identity function.
import '@agoric/install-ses';
import { makeMarshal } from '@agoric/marshal';
const m = makeMarshal();
const o = harden({a: 1});
const s = m.serialize(o);
console.log(s); // { body: '{"a":1}', slots: [] }
const o2 = m.unserialize(s);
console.log(o2); // { a: 1 }
The entire object graph must be "hardened" (recursively frozen), such as done
by the ses
module (installed with @agoric/install-ses
). The serialization
function will refuse to marshal any graph that contains a non-frozen object.
marshal
uses a special marker object to represent both Presences and data
which cannot be expressed directly in JSON. This marker uses a property named
@qclass
that identifies the type of the object. For example, a Javascript
NaN
is serialized into:
m.serialize(NaN);
// { body: '{"@qclass":"NaN"}', slots: [] }
Cyclic data structures are handled by tracking the objects we've serialized before in a WeakMap, and replacing them with an index number if they appear a second time. This results in an "ibid" structure. When unserializing, a matching table is maintained, and "ibid" markers caues additional references to previously-unpacked to be added to the reconstructed object graph:
const o = harden({a: 1});
const oo = harden([o, o]);
const soo = m.serialize(oo);
// { body: '[{"a":1},{"@qclass":"ibid","index":1}]', slots: [] }
const oo2 = m.unserialize(soo);
// [ { a: 1 }, { a: 1 } ]
console.log(oo2[0] === oo2[1]); // true
const cycle = [];
cycle.push(cycle);
m.serialize(cycle);
// { body: '[{"@qclass":"ibid","index":0}]', slots: [] }
This "ibid table" is new for each invocation of m.serialize()
or
m.unserialize()
, so each serialized CapData is independent.
(TODO) To tolerate a @qclass
property appearing in the data being
serialized, the library uses a structure known as a "Hilbert Hotel", which
wraps the troublesome object in a new layer of serialization.
marshal
makes a distinction between objects that are pass-by-presence, and
those which are pass-by-copy.
To qualify as pass-by-presence, all enumerable properties of the object (and
of all objects in the inheritance hierarchy) must be methods, not data.
Pass-by-presence objects usually have identity (assuming the
convertValToSlot
and convertSlotToVal
callbacks behave well), so passing
the same object through multiple calls will result in multiple references to
the same output object.
To qualify as pass-by-copy, the enumerable string-named properties of the
object must data, not methods: they can be Arrays, strings, numbers, and
other pass-by-copy objects, but not functions. In addition, the object must
either inherit from Object.prototype
or null
. Pass-by-copy objects do not
generally have identity: the unserializer is not obligated to produce the
same output object for multiple appearances of the input object.
Mixed objects (some data properties, some functions) are rejected.
Empty objects (which qualify as both types) are treated as pass-by-presence, so they can be used as marker objects which can be compared for identity. These are especially useful as keys WeakMaps for the "rights amplification" pattern.
convertValToSlot
/ convertSlotToVal
When m.serialize()
encounters a pass-by-presence object, it will call the
convertValToSlot
callback with the value to be serialized. Its return value
will be used at the slot identifier to be placed into the slots array. In the
serialized body, this will be represented by the record
{ "@qclass": "slot", "index": index }
where index
is the index in the slots array of that slot.
The array of slot identifiers is returned as the slots
portion of the
CapData structure.
Each time m.unserialize()
encounters such a record, it calls
convertSlotToVal
with that slot from the slots array. convertSlotToVal
should create and return a proxy (or other representative) of the
pass-by-presence object.
This marshal package also exports stringify
and parse
functions that
can serve as a direct substitute for JSON.stringify
and JSON.parse
,
with the following differences. These alternate functions are built on
the marshal encoding of passable data explained above.
Compared to JSON, marshal's stringify
and parse
is both more tolerant and
less tolerant of what data it accepts. Marshal is more tolerant in that it will
encode NaN
, Infinity
, -Infinity
, BigInts, and
undefined
. Marshal is less tolerant in that accepts only pass-by-copy data
according to the semantics of our distributed object model, as enforced
by marshal---the Passable
type exported by the marshal package. For example,
all objects-as-records must be frozen, inherit from Object.prototype
and have
only enumerable string-named own properties. When JSON encounters something it
does not like, JSON rejects it by skipping it. Marshal rejects it by throwing
an error terminating the whole serialization.
The JSON methods have more than one parameter, enabling customization of the operation, for example with replacers or revivers. These marshal-based alternative do not.
The full marshal package will serialize Passable
objects containing
presences and promises, because it serializes to a CapData
structure
containing both a body
string and a slots
array. Marshal's stringify
function serializes only to a string, and so will not
accept any presences or promises. If any are found in the input, this
stringify
will throw an error. The OnlyData
type exported by this marshal
represents that restriction.
Any encoding into JSON of data JSON does not directly represent, such as NaN
relies on some kind of escape which signals the decoding side to decode that
encoding rather than passing it through literally. For marshal this is signaled
by the presence or absence of a property named "@qclass"
as explained above.
If you feed such a structure into stringify
as data, stringify
will reject
it, just as normal marshal's serialize
would. This prohibition is not the
ideal solution. We could instead use another level of "@qclass"
to encode the
"@qclass"
data so that it decoded into "@qclass"
data. However, this
is unlikely enough to fail by accident, and is safely stopped when it happens
maliciously. Thus adding this extra level of encoding is not urgent. In the
meantime, the prohibition does catch the accident where it happens when it
was not supposed to happen. This is probably the more important case to
optimize for anyway.
Unfortunately, at the present time, because of
Empty objects are surprising (#2018)
plain empty objects, which should be valid OnlyData
and serialize fine,
are instead rejected because they are currently classified as a presence.
We are in the process of fixing this.
FAQs
marshal
The npm package @agoric/marshal receives a total of 183 weekly downloads. As such, @agoric/marshal popularity was classified as not popular.
We found that @agoric/marshal demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 5 open source maintainers collaborating on the project.
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