Service Config in gRPC ====================== # Objective The service config is a mechanism that allows service owners to publish parameters to be automatically used by all clients of their service. # Format The service config is a JSON string of the following form: ``` { # Load balancing policy name. # Supported values are 'round_robin' and 'grpclb'. # Optional; if unset, the default behavior is pick the first available # backend. # Note that if the resolver returns only balancer addresses and no # backend addresses, gRPC will always use the 'grpclb' policy, # regardless of what this field is set to. 'loadBalancingPolicy': string, # Per-method configuration. Optional. 'methodConfig': [ { # The names of the methods to which this method config applies. There # must be at least one name. Each name entry must be unique across the # entire service config. If the 'method' field is empty, then this # method config specifies the defaults for all methods for the specified # service. # # For example, let's say that the service config contains the following # method config entries: # # 'methodConfig': [ # { 'name': [ { 'service': 'MyService' } ] ... }, # { 'name': [ { 'service': 'MyService', 'method': 'Foo' } ] ... } # ] # # For a request for MyService/Foo, we will use the second entry, because # it exactly matches the service and method name. # For a request for MyService/Bar, we will use the first entry, because # it provides the default for all methods of MyService. 'name': [ { # RPC service name. Required. # If using gRPC with protobuf as the IDL, then this will be of # the form "pkg.service_name", where "pkg" is the package name # defined in the proto file. 'service': string, # RPC method name. Optional (see above). 'method': string, } ], # Whether RPCs sent to this method should wait until the connection is # ready by default. If false, the RPC will abort immediately if there # is a transient failure connecting to the server. Otherwise, gRPC will # attempt to connect until the deadline is exceeded. # # The value specified via the gRPC client API will override the value # set here. However, note that setting the value in the client API will # also affect transient errors encountered during name resolution, # which cannot be caught by the value here, since the service config # is obtained by the gRPC client via name resolution. 'waitForReady': bool, # The default timeout in seconds for RPCs sent to this method. This can # be overridden in code. If no reply is received in the specified amount # of time, the request is aborted and a deadline-exceeded error status # is returned to the caller. # # The actual deadline used will be the minimum of the value specified # here and the value set by the application via the gRPC client API. # If either one is not set, then the other will be used. # If neither is set, then the request has no deadline. # # The format of the value is that of the 'Duration' type defined here: # https://developers.google.com/protocol-buffers/docs/proto3#json 'timeout': string, # The maximum allowed payload size for an individual request or object # in a stream (client->server) in bytes. The size which is measured is # the serialized, uncompressed payload in bytes. This applies both # to streaming and non-streaming requests. # # The actual value used is the minimum of the value specified here and # the value set by the application via the gRPC client API. # If either one is not set, then the other will be used. # If neither is set, then the built-in default is used. # # If a client attempts to send an object larger than this value, it # will not be sent and the client will see an error. # Note that 0 is a valid value, meaning that the request message must # be empty. # # The format of the value is that of the 'uint64' type defined here: # https://developers.google.com/protocol-buffers/docs/proto3#json 'maxRequestMessageBytes': string, # The maximum allowed payload size for an individual response or object # in a stream (server->client) in bytes. The size which is measured is # the serialized, uncompressed payload in bytes. This applies both # to streaming and non-streaming requests. # # The actual value used is the minimum of the value specified here and # the value set by the application via the gRPC client API. # If either one is not set, then the other will be used. # If neither is set, then the built-in default is used. # # If a server attempts to send an object larger than this value, it # will not be sent, and the client will see an error. # Note that 0 is a valid value, meaning that the response message must # be empty. # # The format of the value is that of the 'uint64' type defined here: # https://developers.google.com/protocol-buffers/docs/proto3#json 'maxResponseMessageBytes': string } ] } ``` Note that new per-method parameters may be added in the future as new functionality is introduced. # Architecture A service config is associated with a server name. The [name resolver](naming.md) plugin, when asked to resolve a particular server name, will return both the resolved addresses and the service config. TODO(roth): Design how the service config will be encoded in DNS. # APIs The service config is used in the following APIs: - In the resolver API, used by resolver plugins to return the service config to the gRPC client. - In the gRPC client API, where users can query the channel to obtain the service config associated with the channel (for debugging purposes). - In the gRPC client API, where users can set the service config explicitly. This is intended for use in unit tests.