-
Notifications
You must be signed in to change notification settings - Fork 148
API
-
Types and schemas
assembleProtocolSchema(path, [opts,] cb)
parseProtocolSchema(spec, [opts])
parseTypeSchema(spec)
-
Class
Type
Type.forSchema(schema, [opts])
Type.forTypes(types, [opts])
Type.forValue(val, [opts])
Type.isType(any, [prefix,] ...)
Type.__reset(size)
type.clone(val, [opts])
type.compare(val1, val2)
type.compareBuffers(buf1, buf2)
type.createResolver(writerType)
type.decode(buf, [pos,] [resolver])
type.encode(val, buf, [pos])
type.fromBuffer(buf, [resolver,] [noCheck])
type.fromString(str)
type.getAliases()
type.getDocumentation()
type.getFingerprint([algorithm])
type.getName([asBranch])
type.getSchema([opts])
type.getTypeName()
type.isValid(val, [opts])
type.random()
type.toBuffer(val)
type.toString([val])
type.equals(any)
-
Class
ArrayType(schema, [opts])
-
Class
EnumType(schema, [opts])
-
Class
FixedType(schema, [opts])
-
Class
LogicalType(schema, [opts])
-
Class
LongType(schema, [opts])
-
Class
MapType(schema, [opts])
-
Class
RecordType(schema, [opts])
-
Class
UnwrappedUnionType(schema, [opts])
-
Class
WrappedUnionType(schema, [opts])
- Files and streams
-
IPC & RPC
discoverProtocolSchema(transport, [opts,] cb)
-
Class
Protocol
Protocol.forSchema(schema, [opts])
protocol.createClient([opts])
protocol.createServer([opts])
protocol.equals(any)
protocol.getDocumentation()
protocol.getFingerprint([algorithm])
-
protocol.getMessage(name)
protocol.getMessages()
protocol.getName()
protocol.getSchema([opts])
protocol.getType(name)
protocol.getTypes()
-
Class
Client
-
Class
Server
-
Class
MessageEmitter
-
Class
MessageListener
-
path
{String} Path to Avro IDL file. -
opts
{Object} Options:-
ackVoidMessages
{Boolean} By default, usingvoid
as response type will mark the corresponding message as one-way. When this option is set,void
becomes equivalent tonull
. -
importHook(path, kind, cb)
{Function} Function called to load each file. The default will look up the files in the local file-system and load them viafs.readFile
.kind
is one of'idl'
,'protocol'
, or'schema'
depending on the kind of import requested. In the browser, no default is provided.
-
-
cb(err, schema)
{Function} Callback. If an error occurred, itspath
property will contain the path to the file which caused it.
Assemble an IDL file into its schema. This schema can then be passed to
Protocol.forSchema
to instantiate the corresponding Protocol
object.
-
spec
{String} Protocol IDL specification. -
opts
{Object} Options:-
ackVoidMessages
{Boolean} By default, usingvoid
as response type will mark the corresponding message as one-way. When this option is set,void
becomes equivalent tonull
.
-
Synchronous version of assembleProtocolSchema
. Note that it doesn't support
imports.
-
spec
{String} Type IDL specification.
Convenience method to generate a schema from a standalone type's IDL specification. The spec must contain a single type definition, for example:
const schema = parseTypeSchema(`record Header { long id; string name; }`);
const type = Type.forSchema(schema);
type.isValid({id: 123, name: 'abc'}); // true.
"Abstract" base Avro type class; all implementations inherit from it. It shouldn't be instantiate directly, but rather through one of the following factory methods described below.
-
schema
{Object|String} Decoded schema. This schema can be a string if it is a reference to a primitive type (e.g.'int'
, ), or a reference to a type in the registry (seeopts
below). -
opts
{Object} Parsing options. The following keys are currently supported:-
assertLogicalTypes
{Boolean} The Avro specification mandates that we fall through to the underlying type if a logical type is invalid. When set, this option will override this behavior and throw an error when a logical type can't be applied. -
logicalTypes
{Object} Optional dictionary ofLogicalType
. This can be used to support serialization and deserialization of arbitrary native objects. -
namespace
{String} Optional parent namespace. -
noAnonymousTypes
{Boolean} Throw an error if a named type (enum
,fixed
,record
, orerror
) is missing itsname
field. By default anonymous types are supported; they behave exactly like their named equivalent except that they cannot be referenced and can be resolved by any compatible type. -
registry
{Object} Registry of predefined type names. This can for example be used to override the types used for primitives or to split a schema declaration over multiple files. -
typeHook(schema, opts)
{Function} Function called before each type declaration or reference is parsed. The relevant decoded schema is available as first argument and the parsing options as second. This function can optionally return a type which will then be used in place of the result of parsingschema
. Using this option, it is possible to customize the parsing process by intercepting the creation of any type. Here are a few examples of what is possible using a custom hook: -
wrapUnions
{Boolean} Represent unions using aWrappedUnionType
instead of the defaultUnwrappedUnionType
.
-
Instantiate a type for its schema.
-
types
{Array} Array of types to combine. -
opts
{Object} All the options ofType.forSchema
are available, as well as:-
strictDefaults
{Boolean} When combining records with missing fields, the default behavior is to make such fields optional (wrapping their type inside a nullable union and setting their default tonull
). Activating this flag will instead combine the records into a map.
-
Merge multiple types into one. The resulting type will support all the input types' values.
-
val
{Any} Value to generate the type for. -
opts
{Object} All ofType.forTypes
' options are supported, along with:-
emptyArrayType
{Type} Temporary type used when an empty array is encountered. It will be discarded as soon as the array's type can be inferred. Defaults tonull
's type. -
valueHook(val, opts)
Function called each time a type needs to be inferred from a value. This function should either return an alternate type to use, orundefined
to proceed with the default inference logic.
-
Infer a type from a value.
-
any
{...} Any object. -
prefix
{String} If specified, this function will only returntrue
if the type's type name starts with at least one of these prefixes. For example,Type.isType(type, 'union', 'int')
will returntrue
if and only iftype
is either a union type or integer type.
Check whether any
is an instance of Type
. This is similar to any instanceof Type
but will work across contexts (e.g. iframe
s).
-
size
{Number} New buffer size in bytes.
This method resizes the internal buffer used to encode all types. You can call this method if you are encoding very large values and need to reclaim memory. In some cases, it can also be beneficial to call this method at startup with a sufficiently large buffer size to allow the JavaScript engine to better optimize encoding.
-
val
{...} The object to copy. -
opts
{Object} Options:-
coerceBuffers
{Boolean} Allow coercion of JSON buffer representations into actualBuffer
objects. When used with unwrapped unions, ambiguities caused by this coercion are always resolved in favor of the buffer type. -
fieldHook(field, any, type)
{Function} Function called when each record field is populated. The value returned by this function will be used instead ofany
.field
is the currentField
instance andtype
the parent type. -
qualifyNames
{Boolean} The branch's key in the union object should be the qualified name of its type, however some serializers incorrectly omit the namespace (which can cause collisions). Passing in this option will attempt to lookup unqualified names as well and return correctly qualified names. This option has no effect when used with unwrapped unions. -
wrapUnions
{Boolean} Allow wrapping of union values into their first matching branch. This option has no effect when used with unwrapped unions.
-
Deep copy a value of type
.
-
val1
{...} Value oftype
. -
val2
{...} Value oftype
.
Returns 0
if both values are equal according to their sort
order, -1
if the first is smaller than the second , and 1
otherwise. Comparing invalid values is undefined behavior.
-
buf1
{Buffer}type
value bytes. -
buf2
{Buffer}type
value bytes.
Similar to compare
, but doesn't require decoding
values.
-
writerType
{Type} Writer type.
Create a resolver that can be be passed to the type
's
decode
and
fromBuffer
methods. This will enable
decoding values which had been serialized using writerType
, according to the
Avro resolution rules. If the schemas are incompatible,
this method will throw an error.
For example, assume we have the following two versions of a type:
// A schema's first version.
const v1 = avro.parse({
name: 'Person',
type: 'record',
fields: [
{name: 'name', type: 'string'},
{name: 'age', type: 'int'}
]
});
// The updated version.
const v2 = avro.parse({
type: 'record',
name: 'Person',
fields: [
{
name: 'name', type: [
'string',
{
name: 'Name',
type: 'record',
fields: [
{name: 'first', type: 'string'},
{name: 'last', type: 'string'}
]
}
]
},
{name: 'phone', type: ['null', 'string'], default: null}
]
});
The two types are compatible since the name
field is present in both (the
string
can be promoted to the new union
) and the new phone
field has a
default value.
// We can therefore create a resolver.
const resolver = v2.createResolver(v1);
// And pass it whenever we want to decode from the old type to the new.
const buf = v1.toBuffer({name: 'Ann', age: 25});
const obj = v2.fromBuffer(buf, resolver); // === {name: {string: 'Ann'}, phone: null}
See the advanced usage page for more details on how schema evolution can be used to significantly speed up decoding.
-
buf
{Buffer} Buffer to read from. -
pos
{Number} Offset to start reading from. -
resolver
{Resolver} Optional resolver to decode values serialized from another schema. SeecreateResolver
for how to create one.
Returns {value: value, offset: offset}
if buf
contains a valid encoding of
type
(value
being the decoded value, and offset
the new offset in the
buffer). Returns {value: undefined, offset: -1}
when the buffer is too short.
-
val
{...} The value to encode. An error will be raised if this isn't a validtype
value. -
buf
{Buffer} Buffer to write to. -
pos
{Number} Offset to start writing at.
Encode a value into an existing buffer. If enough space was available in buf
,
returns the new (non-negative) offset, otherwise returns -N
where N
is the
(positive) number of bytes by which the buffer was short.
-
buf
{Buffer} Bytes containing a serialized value oftype
. -
resolver
{Resolver} To decode values serialized from another schema. SeecreateResolver
for how to create an resolver. -
noCheck
{Boolean} Do not check that the entire buffer has been read. This can be useful when using an resolver which only decodes fields at the start of the buffer, allowing decoding to bail early and yield significant performance speedups.
Deserialize a buffer into its corresponding value.
-
str
{String} String representing a JSON-serialized object.
Deserialize a JSON-encoded object of type
.
Returns a list of aliases for named types and undefined
for others. Note that
it is possible to modify this list to add and remove aliases after the type is
created (altering which types can be resolved via type.createResolver
).
Return the type's documentation (doc
attribute in schema and docstring in IDL
spec).
-
algorithm
{String} Algorithm used to compute the hash. Defaults to'md5'
. Only'md5'
is supported in the browser.
Return a buffer identifying type
.
-
asBranch
{Boolean} Iftype
doesn't have a name, return its "type name" instead ofundefined
. (This method then returns the type's branch name when included in a union.)
Returns type
's fully qualified name if it exists, undefined
otherwise.
-
opts
{Object} Options:-
exportAttrs
{Boolean} Include aliases, field defaults, order, and logical type attributes in the returned schema. -
noDeref
{Boolean} Do not dereference any type names.
-
Returns type
's canonical schema. This can be used to
compare schemas for equality.
Returns type
's "type name" (e.g. 'int'
, 'record'
, 'fixed'
).
-
val
{...} The value to validate. -
opts
{Object} Options:-
errorHook(path, any, type)
{Function} Function called when an invalid value is encountered. When an invalid value causes its parent values to also be invalid, the latter do not trigger a callback.path
will be an array of strings identifying where the mismatch occurred. This option is especially useful when dealing with complex records, for example to: -
noUndeclaredFields
{Boolean} When set, records with attributes that don't correspond to a declared field will be considered invalid. The default is to ignore any extra attributes.
-
Check whether val
is a valid type
value.
Returns a random value of type
.
-
val
{...} The value to encode. It must be a validtype
value.
Returns a Buffer
containing the Avro serialization of val
.
-
val
{...} The value to serialize. If not specified, this method will return a human-friendly description oftype
.
Serialize an object into a JSON-encoded string.
-
any
{...} Any object.
Check whether two types are equal (i.e. have the same canonical schema).
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
The type of the array's items.
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
Returns a copy of the type's symbols (an array of strings representing the
enum
's valid values).
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
The size in bytes of instances of this type.
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
"Abstract class" used to implement custom types. To implement a new logical type, the steps are:
- Call
LogicalType
's constructor inside your own subclass' to make sure the underlying type is property set up. Throwing an error anywhere inside your constructor will prevent the logical type from being used (the underlying type will be used instead). - Extend
LogicalType
in your own subclass (typically usingutil.inherits
). - Override the following methods (prefixed with an underscore because they are
internal to the class that defines them and should only be called by the
internal
LogicalType
methods):-
_export
(optional) _fromValue
-
_resolve
(optional) _toValue
-
See here for more information. A couple sample implementations are available as well:
Use this method to get the underlying Avro type. This can be useful when a logical type can support different underlying types.
-
schema
{Object} The type's raw exported attributes, containingtype
andlogicalType
keys.
This method should add attributes to be exported to the schema
object. These
will then be included into any type.getSchema
calls
with exportAttrs
set. A default implementation exporting nothing is
provided.
-
val
{...} A value deserialized by the underlying type.
This method should return the converted value. This method is abstract and should be implemented but not called directly.
-
type
{Type} The writer's type.
This method should return:
-
undefined
if the writer's values cannot be converted. - Otherwise, a function which converts a value deserialized by the writer's type into a wrapped value for the current type.
This method is abstract and should be implemented but not called directly.
-
any
{...} A derived value.
This method should return a value which can be serialized by the underlying
type. If any
isn't a valid value for this logical type, you can either return
undefined
or throw an exception (slower). This method is abstract and should
be implemented but not called directly.
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
-
methods
{Object} Method implementations dictionary keyed by method name, see below for details on each of the functions to implement. -
noUnpack
{Boolean} Do not automatically unpack bytes before passing them to the abovemethods
'fromBuffer
function and pack bytes returned by itstoBuffer
function.
This function provides a way to support arbitrary long representations. Doing so requires implementing the following methods (a few examples are available here):
-
compare(val1, val2)
See
Type.compare
. -
isValid(val, [opts])
See
Type.isValid
. -
fromBuffer(buf)
-
buf
{Buffer} Encoded long. IfnoUnpack
is off (the default),buf
will be an 8-byte buffer containing the long's unpacked representation. Otherwise,buf
will contain a variable length buffer with the long's packed representation.
This method should return the corresponding decoded long.
-
-
fromJSON(any)
-
any
{Number|...} Parsed value. To ensure that thefromString
method works correctly on data JSON-serialized according to the Avro spec, this method should at least support numbers as input.
This method should return the corresponding decoded long.
It might also be useful to support other kinds of input (typically the output of the long implementation's
toJSON
method) to enable serializing large numbers without loss of precision (at the cost of violating the Avro spec). -
-
toBuffer(val)
-
val
{...} Decoded long.
If
noUnpack
is off (the default), this method should return an 8-byte buffer with thelong
's unpacked representation. Otherwise,toBuffer
should return an already packed buffer (of variable length). -
-
toJSON(val)
-
val
{...} Decoded long.
This method should return the
long
's JSON representation. -
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
The type of the map's values (keys are always strings).
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
-
name
{String} Field name.
Convenience method to retrieve a field by name. A field is an object with the following methods:
Returns a frozen copy of the array of fields contained in this record.
The Record
constructor for instances of this type. Indeed,
each RecordType
generates a corresponding
Record
constructor when its schema is parsed. This helps make decoding and
encoding records more efficient. This also lets us provide helpful methods on
decoded values (see below).
Calling the constructor directly can sometimes be a convenient shortcut to instantiate new records of a given type. In particular, it will correctly initialize all the missing record's fields with their default values.
The Record
prototype also exposes a few convenience methods described below
(available on each decoded record
value).
Convenience class method to get the record's type.
Convenience function to clone the current record.
Convenience function to compare the current record to another.
Convenience function to validate the current record.
Convenience function to serialize the current record.
Convenience function to serialize the current record using JSON encoding.
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
This class is the default used to represent unions. Its values are decoded
without a wrapping object: null
and 48
would be valid values for the schema
["null", "int"]
(as opposed to null
and {'int': 48}
for wrapped unions).
This representation is usually more convenient and natural, however it isn't
able to guarantee correctness for all unions. For example, we wouldn't be able
to tell which branch the value 23
comes from in a schema ["int", "float"]
.
More concretely, a union can be represented using this class if it has at most
a single branch inside each of the categories below:
'null'
'boolean'
-
'int'
,'long'
,'float'
,'double'
-
'string'
,'enum'
-
'bytes'
,'fixed'
'array'
-
'map'
,'record'
So ['null', 'int']
and ['null', 'string', {type: 'array', items: 'string'}]
are supported, but ['int', 'float']
and ['bytes', {name: 'Id', type: 'fixed', size: 2}]
are not.
Finally, note that by using logical types, it is possible to work around the above requirements (by delegating the branch inference to the logical types themselves).
The possible types that this union can take.
-
schema
{Object} Decoded type attributes. -
opts
{Object} Parsing options.
This class is the representation using for unions for types generated with
parse
's wrapUnions
option set. It uses Avro's JSON encoding and is able to
correctly represent all unions: branch type information is never lost since it
is included in the decoded value.
The possible types that this union can take.
Additionally, each value decoded from a wrapped union exposes its corresponding
type via its constructor. This is also typically faster than calling
Object.keys()
on the value when the active branch is unknown.
const type = new avro.types.WrappedUnionType(['int', 'long']);
const val = type.fromBuffer(new Buffer([2, 8])); // == {long: 4}
const branchType = val.constructor.getBranchType() // == <LongType>
The following convenience functions are available for common operations on container files:
-
blob
{Blob} Binary blob. -
opts
{Object} Decoding options, passed toBlockDecoder
.
Returns a readable stream of decoded objects from an Avro container blob. Only available in the browser when using the full distribution.
-
schema
{Object|String|Type} Type used to serialize. -
opts
{Object} Encoding options, passed toBlockEncoder
.
Returns a duplex stream of objects. Written values will end up serialized into an Avro container blob which will be output as the stream's only readable value. Only available in the browser when using the full distribution.
-
path
{String} Path to Avro container file. -
opts
{Object} Decoding options, passed toBlockDecoder
.
Returns a readable stream of decoded objects from an Avro container file. Not available in the browser.
-
path
{String} Destination path. -
schema
{Object|String|Type} Type used to serialize. -
opts
{Object} Encoding options, passed toBlockEncoder
.
Returns a writable stream of objects. These will end up serialized into an Avro container file. Not available in the browser.
-
path
{String} Path to Avro container file. -
opts
{Object} Options:-
decode
{Boolean} Decode schema and codec metadata (otherwise they will be returned as bytes). Defaults totrue
.
-
Extract header from an Avro container file synchronously. If no header is
present (i.e. the path doesn't point to a valid Avro container file), null
is
returned. Not available in the browser.
-
opts
{Object} Decoding options. Available keys:-
codecs
{Object} Dictionary of decompression functions, keyed by codec name. A decompression function has the signaturefn(compressedData, cb)
wherecompressedData
is a buffer of compressed data, and must callcb(err, uncompressedData)
on completion. The default contains handlers for the'null'
and'deflate'
codecs. -
noDecode
{Boolean} Do not decode records before returning them. -
parseHook(schema)
{Function} Function called to generate the type from the schema contained in the file. This can be used to pass in addtional options when parsing the schema (e.g. logical type information). See below for an example.
-
A duplex stream which decodes bytes coming from on Avro object container file.
Sample use of the codecs
option to decode a Snappy encoded file using
snappy (note checksum
handling):
const snappy = require('snappy');
const blockDecoder = new avro.streams.BlockDecoder({
codecs: {
snappy: (buf, cb) => {
// The checksum is ignored here, we could use it for validation instead.
return snappy.uncompress(buf.slice(0, buf.length - 4), cb);
}
}
});
Note that the BlockDecoder
's opts
aren't used when parsing the writer's
type. A parseHook
should be used instead. The example below shows how to
instantiate a type with the wrapUnions
option set:
const decoder = new avro.streams.BlockDecoder({
parseHook: (schema) => { return avro.parse(schema, {wrapUnions: true}); }
});
-
type
{Type} The type used to write the file. -
codec
{String} The codec's name. -
header
{Object} The file's header, containing in particular the raw schema and codec.
This event is guaranteed to be emitted before the first 'data'
event.
-
data
{...} Decoded element or raw bytes.
Get built-in decompression functions (currently null
and deflate
).
-
schema
{Object|String|Type} Schema used for encoding. Argument parsing logic is the same as forparse
. -
opts
{Object} Encoding options. Available keys:-
blockSize
{Number} Maximum uncompressed size of each block data. A new block will be started when this number is exceeded. If it is too small to fit a single element, it will be increased appropriately. Defaults to 64kB. -
codec
{String} Name of codec to use for encoding. Seecodecs
option below to support arbitrary compression functions. -
codecs
{Object} Dictionary of compression functions, keyed by codec name. A compression function has the signaturefn(uncompressedData, cb)
whereuncompressedData
is a buffer of uncompressed data, and must callcb(err, compressedData)
on completion. The default contains handlers for the'null'
and'deflate'
codecs. -
omitHeader
{Boolean} Don't emit the header. This can be useful when appending to an existing container file. Defaults tofalse
. -
syncMarker
{Buffer} 16 byte buffer to use as synchronization marker inside the file. If unspecified, a random value will be generated.
-
A duplex stream to create Avro container object files.
-
data
{Buffer} Serialized bytes.
Get built-in compression functions (currently null
and deflate
).
-
schema
{Object|String|Type} Writer schema. Required since the input doesn't contain a header. Argument parsing logic is the same as forparse
. -
opts
{Object} Decoding options. Available keys:-
decode
{Boolean} Whether to decode records before returning them. Defaults totrue
.
-
A duplex stream which can be used to decode a stream of serialized Avro objects with no headers or blocks.
-
data
{...} Decoded element or raw bytes.
-
schema
{Object|String|Type} Schema used for encoding. Argument parsing logic is the same as forparse
. -
opts
{Object} Encoding options. Available keys:-
batchSize
{Number} To increase performance, records are serialized in batches. Use this option to control how often batches are emitted. If it is too small to fit a single record, it will be increased automatically. Defaults to 64kB.
-
The encoding equivalent of RawDecoder
.
-
data
{Buffer} Serialized bytes.
Avro also defines a way of executing remote procedure calls.
-
transport
{Transport} See below. -
opts
{Object} Options:-
scope
{String} Remove server scope. -
timeout
{Number} Maximum delay to wait for a response,0
for no limit. Defaults to10000
.
-
-
cb(err, schema)
{Function} Callback.
Discover a remote server's protocol schema. This can be useful to emit requests to another server without having a local copy of the protocol.
Protocol
instances are generated from a protocol
declaration and define an API that can be used to send
remote messages (for example to another machine, or another process on the same
machine).
-
schema
{Object} -
opts
{Object}
-
opts
{Object} Options:-
defaultTimeout
{Number} Default timeout in milliseconds used when emitting requests, specify0
for no timeout (note that this may cause memory leaks in the presence of communication errors). Defaults to10000
. Note that it can be overridden on a per-request basis. -
emitterPolicy(emitters)
{Function} Load-balancing function. Should return one of the passed in emitters. -
remoteProtocols
{Array} Array of protocols to cache locally. Useful to avoid performing handshakes. -
strictErrors
{Boolean} Disable conversion of string errors toError
objects. -
transport
{Transport} Convenience option to add a transport to the newly created client.
-
Generate a client corresponding to this protocol. This client can be used to send messages to a remote server for a compatible protocol.
-
opts
{Object} Options:-
errorFormatter(err)
{Function} Function called to serialize errors before sending them over the wire. The default will use an error'srpcCode
attribute if it exists, otherwise the'INTERNAL_SERVER_ERROR'
string. -
remoteProtocols
{Array} Array of protocols to cache locally. Useful to avoid performing handshakes. -
silent
{Boolean} Suppress default behavior of outputting handler errors to stderr. objects. -
strictErrors
{Boolean} Disable automatic conversion ofError
objects to strings. When set, handlers' returned error parameters must either be a valid union branch orundefined
.
-
Generate a server corresponding to this protocol. This server can be used to respond to messages from compatible protocols' clients.
-
any
{...} Any object.
Check whether the argument is equal to protocol
(w.r.t canonical
representations).
Get the protocol's docstring.
-
algorithm
{String} Algorithm used to generate the protocol's fingerprint. Defaults to'md5'
. Only'md5'
is supported in the browser.
Returns a buffer containing the protocol's fingerprint.
-
name
{String} Message name.
Get a single message from this protocol.
Retrieve all the messages defined in the protocol.
Returns the protocol's fully qualified name.
-
opts
{Object} Same options asType.getSchema
.
Returns protocol
's canonical schema.
-
name
{String} A type's fully qualified name.
Convenience function to retrieve a type defined inside this protocol. Returns
undefined
if no type exists for the given name.
Returns a frozen list of the named types declared in this protocol.
-
transport
{Duplex|Object|Function} The transport used to communicate with the remote listener. Multiple argument types are supported, see below. -
opts
{Object} Options.-
context
{...} Context object. Useful to pass information to middleware. It can be retrieved viaclient.getContext()
. -
endWritable
{Boolean} Set this tofalse
to prevent the transport's writable stream from beingend
ed when the emitter is destroyed (for stateful transports) or when a request is sent (for stateless transports). Defaults totrue
. -
noPing
{Boolean} Do not emit a ping request when the emitter is created. For stateful transports this will assume that a connection has already been established, for stateless transports this will delay handshakes until the first message is sent. -
objectMode
{Boolean} Expect a transport in object mode. Instead of exchanging buffers, objects{id, payload}
will be written and expected. This can be used to implement custom transport encodings. -
remoteProtocol
{Protocol} Remote protocol to use for the initial handshake. If unspecified, the client's protocol will be used. -
scope
{String} Scope used to multiplex messages across a shared connection. There should be at most one emitter or listener per scope on a single stateful transport. Matching emitter/listener pairs should have matching scopes. Scoping isn't supported on stateless transports.
-
Generate a MessageEmitter
for this client. This
emitter can then be used to communicate with a remote server of compatible
protocol.
There are two major types of transports:
-
Stateful: a pair of binary streams
{readable, writable}
. As a convenience passing a single duplex stream is also supported and equivalent to passing{readable: duplex, writable: duplex}
. -
Stateless: stream factory
fn(cb)
which should return a writable stream and call its callback argument with an eventual error and readable stream (if available).
-
opts
{Object} Options:-
noWait
{Boolean} Wait for pending requests.
-
Destroy all the client's currently active emitters.
-
name
{String} Name of the message to emit. -
req
{Object} Request value, must correspond to the message's declared request type. -
opts
{Object} Options:-
timeout
{Number} Request specific timeout.
-
-
cb(err, res)
{Function} Function called with the remote call's response (and eventual error) when available. If not specified and an error occurs, the error will be emitted onemitter
instead.
Send a message. This is always done asynchronously.
Returns a frozen list of the client's active emitters.
Returns the client's protocol.
Returns a frozen copy of the client's cached protocols.
-
middleware(wreq, wres, next)
{Function} Middleware handler.
Install a middleware function.
-
transport
{Duplex|Object|Function} Similar toclient.createEmitter
's corresponding argument, except that readable and writable roles are reversed for stateless transports. -
opts
{Object} Options.-
context
{...} Context object. Useful to pass information to middleware. It can be retrieved viaserver.getContext()
. -
endWritable
{Boolean} Set this tofalse
to prevent the transport's writable stream from beingend
ed when the emitter is destroyed (for stateful transports) or when a response is sent (for stateless transports). Defaults totrue
. -
objectMode
{Boolean} Expect a transport in object mode. Instead of exchanging buffers, objects{id, payload}
will be written and expected. This can be used to implement custom transport encodings. -
scope
{String} Scope used to multiplex messages accross a shared connection. There should be at most one emitter or listener per scope on a single stateful transport. Matching emitter/listener pairs should have matching scopes. Scoping isn't supported on stateless transports.
-
Generate a MessageListener
for this protocol. This
listener can be used to respond to messages emitted from compatible protocols.
Returns a frozen copy of the server's active listeners.
Returns the server's protocol.
-
name
{String} Message name to add the handler for. An error will be thrown if this name isn't defined in the protocol. At most one handler can exist for a given name (any previously defined handler will be overwritten). -
handler(req, cb)
{Function} Handler, called each time a message with matching name is received. The callback argumentcb(err, res)
should be called to send the response back to the emitter.
Add a handler for a given message.
-
middleware(wreq, wres, next)
{Function} Middleware handler.
Install a middleware function.
Instance of this class are EventEmitter
s, with the following
events:
End of transmission event, emitted after the client is destroyed and there are no more pending requests.
-
request
{Object} Handshake request. -
response
{Object} Handshake response.
Emitted when the server's handshake response is received.
-
noWait
{Boolean} Cancel any pending requests. By default pending requests will still be honored.
Disable the emitter.
Get the emitter's client.
Get the context used when creating the emitter.
Get the number of pending calls (i.e. the number of messages emittes which haven't yet had a response).
Check whether the listener was destroyed.
Listeners are the receiving-side equivalent of MessageEmitter
s and are also
EventEmitter
s, with the following events:
End of transmission event, emitted after the listener is destroyed and there are no more responses to send.
-
request
{Object} Handshake request. -
response
{Object} Handshake response.
Emitted right before the server sends a handshake response.
-
noWait
{Boolean} Don't wait for all pending responses to have been sent.
Disable this listener and release underlying streams. In general you shouldn't need to call this: stateless listeners will be destroyed automatically when a response is sent, and stateful listeners are best destroyed from the client's side.
Get the context used when creating the listener.
Get the number of pending calls (i.e. the number of messages received which haven't yet had their response sent).
Get the listener's server.
Check whether the listener was destroyed.