8af57da7b2
* Initial stab at the protocol * initial protocol sketch for node pool manager * Added http header frame as a message * Force the use of WithAgent variants when creating a server * adds grpc models for node pool manager plus go deps * Naming things is really hard * Merge (and optionally purge) details received by the NPM * WIP: starting to add the runner-side functionality of the new data plane * WIP: Basic startup of grpc server for pure runner. Needs proper certs. * Go fmt * Initial agent for LB nodes. * Agent implementation for LB nodes. * Pass keys and certs to LB node agent. * Remove accidentally left reference to env var. * Add env variables for certificate files * stub out the capacity and group membership server channels * implement server-side runner manager service * removes unused variable * fixes build error * splits up GetCall and GetLBGroupId * Change LB node agent to use TLS connection. * Encode call model as JSON to send to runner node. * Use hybrid client in LB node agent. This should provide access to get app and route information for the call from an API node. * More error handling on the pure runner side * Tentative fix for GetCall problem: set deadlines correctly when reserving slot * Connect loop for LB agent to runner nodes. * Extract runner connection function in LB agent. * drops committed capacity counts * Bugfix - end state tracker only in submit * Do logs properly * adds first pass of tracking capacity metrics in agent * maked memory capacity metric uint64 * maked memory capacity metric uint64 * removes use of old capacity field * adds remove capacity call * merges overwritten reconnect logic * First pass of a NPM Provide a service that talks to a (simulated) CP. - Receive incoming capacity assertions from LBs for LBGs - expire LB requests after a short period - ask the CP to add runners to a LBG - note runner set changes and readvertise - scale down by marking runners as "draining" - shut off draining runners after some cool-down period * add capacity update on schedule * Send periodic capcacity metrics Sending capcacity metrics to node pool manager * splits grpc and api interfaces for capacity manager * failure to advertise capacity shouldn't panic * Add some instructions for starting DP/CP parts. * Create the poolmanager server with TLS * Use logrus * Get npm compiling with cert fixups. * Fix: pure runner should not start async processing * brings runner, nulb and npm together * Add field to acknowledgment to record slot allocation latency; fix a bug too * iterating on pool manager locking issue * raises timeout of placement retry loop * Fix up NPM Improve logging Ensure that channels etc. are actually initialised in the structure creation! * Update the docs - runners GRPC port is 9120 * Bugfix: return runner pool accurately. * Double locking * Note purges as LBs stop talking to us * Get the purging of old LBs working. * Tweak: on restart, load runner set before making scaling decisions. * more agent synchronization improvements * Deal with teh CP pulling out active hosts from under us. * lock at lbgroup level * Send request and receive response from runner. * Add capacity check right before slot reservation * Pass the full Call into the receive loop. * Wait for the data from the runner before finishing * force runner list refresh every time * Don't init db and mq for pure runners * adds shutdown of npm * fixes broken log line * Extract an interface for the Predictor used by the NPM * purge drained connections from npm * Refactor of the LB agent into the agent package * removes capacitytest wip * Fix undefined err issue * updating README for poolmanager set up * ues retrying dial for lb to npm connections * Rename lb_calls to lb_agent now that all functionality is there * Use the right deadline and errors in LBAgent * Make stream error flag per-call rather than global otherwise the whole runner is damaged by one call dropping * abstracting gRPCNodePool * Make stream error flag per-call rather than global otherwise the whole runner is damaged by one call dropping * Add some init checks for LB and pure runner nodes * adding some useful debug * Fix default db and mq for lb node * removes unreachable code, fixes typo * Use datastore as logstore in API nodes. This fixes a bug caused by trying to insert logs into a nil logstore. It was nil because it wasn't being set for API nodes. * creates placement abstraction and moves capacity APIs to NodePool * removed TODO, added logging * Dial reconnections for LB <-> runners LB grpc connections to runners are established using a backoff stategy in event of reconnections, this allows to let the LB up even in case one of the runners go away and reconnect to it as soon as it is back. * Add a status call to the Runner protocol Stub at the moment. To be used for things like draindown, health checks. * Remove comment. * makes assign/release capacity lockless * Fix hanging issue in lb agent when connections drop * Add the CH hash from fnlb Select this with FN_PLACER=ch when launching the LB. * small improvement for locking on reloadLBGmembership * Stabilise the list of Runenrs returned by NodePool The NodePoolManager makes some attempt to keep the list of runner nodes advertised as stable as possible. Let's preserve this effort in the client side. The main point of this is to attempt to keep the same runner at the same inxed in the []Runner returned by NodePool.Runners(lbgid); the ch algorithm likes it when this is the case. * Factor out a generator function for the Runners so that mocks can be injected * temporarily allow lbgroup to be specified in HTTP header, while we sort out changes to the model * fixes bug with nil runners * Initial work for mocking things in tests * fix for anonymouse go routine error * fixing lb_test to compile * Refactor: internal objects for gRPCNodePool are now injectable, with defaults for the real world case * Make GRPC port configurable, fix weird handling of web port too * unit test reload Members * check on runner creation failure * adding nullRunner in case of failure during runner creation * Refactored capacity advertisements/aggregations. Made grpc advertisement post asynchronous and non-blocking. * make capacityEntry private * Change the runner gRPC bind address. This uses the existing `whoAmI` function, so that the gRPC server works when the runner is running on a different host. * Add support for multiple fixed runners to pool mgr * Added harness for dataplane system tests, minor refactors * Add Dockerfiles for components, along with docs. * Doc fix: second runner needs a different name. * Let us have three runners in system tests, why not * The first system test running a function in API/LB/PureRunner mode * Add unit test for Advertiser logic * Fix issue with Pure Runner not sending the last data frame * use config in models.Call as a temporary mechanism to override lb group ID * make gofmt happy * Updates documentation for how to configure lb groups for an app/route * small refactor unit test * Factor NodePool into its own package * Lots of fixes to Pure Runner - concurrency woes with errors and cancellations * New dataplane with static runnerpool (#813) Added static node pool as default implementation * moved nullRunner to grpc package * remove duplication in README * fix go vet issues * Fix server initialisation in api tests * Tiny logging changes in pool manager. Using `WithError` instead of `Errorf` when appropriate. * Change some log levels in the pure runner * fixing readme * moves multitenant compute documentation * adds introduction to multitenant readme * Proper triggering of system tests in makefile * Fix insructions about starting up the components * Change db file for system tests to avoid contention in parallel tests * fixes revisions from merge * Fix merge issue with handling of reserved slot * renaming nulb to lb in the doc and images folder * better TryExec sleep logic clean shutdown In this change we implement a better way to deal with the sleep inside the for loop during the attempt for placing a call. Plus we added a clean way to shutdown the connections with external component when we shut down the server. * System_test mysql port set mysql port for system test to a different value to the one set for the api tests to avoid conflicts as they can run in parallel. * change the container name for system-test * removes flaky test TestRouteRunnerExecution pending resolution by issue #796 * amend remove_containers to remove new added containers * Rework capacity reservation logic at a higher level for now * LB agent implements Submit rather than delegating. * Fix go vet linting errors * Changed a couple of error levels * Fix formatting * removes commmented out test * adds snappy to vendor directory * updates Gopkg and vendor directories, removing snappy and addhing siphash * wait for db containers to come up before starting the tests * make system tests start API node on 8085 to avoid port conflict with api_tests * avoid port conflicts with api_test.sh which are run in parallel * fixes postgres port conflict and issue with removal of old containers * Remove spurious println
6.6 KiB
Mocking Service for gRPC
Why?
To test client-side logic without the overhead of connecting to a real server. Mocking enables users to write light-weight unit tests to check functionalities on client-side without invoking RPC calls to a server.
Idea: Mock the client stub that connects to the server.
We use Gomock to mock the client interface (in the generated code) and programmatically set its methods to expect and return pre-determined values. This enables users to write tests around the client logic and use this mocked stub while making RPC calls.
How to use Gomock?
Documentation on Gomock can be found here. A quick reading of the documentation should enable users to follow the code below.
Consider a gRPC service based on following proto file:
//helloworld.proto
package helloworld;
message HelloRequest {
string name = 1;
}
message HelloReply {
string name = 1;
}
service Greeter {
rpc SayHello (HelloRequest) returns (HelloReply) {}
}
The generated file helloworld.pb.go will have a client interface for each service defined in the proto file. This interface will have methods corresponding to each rpc inside that service.
type GreeterClient interface {
SayHello(ctx context.Context, in *HelloRequest, opts ...grpc.CallOption) (*HelloReply, error)
}
The generated code also contains a struct that implements this interface.
type greeterClient struct {
cc *grpc.ClientConn
}
func (c *greeterClient) SayHello(ctx context.Context, in *HelloRequest, opts ...grpc.CallOption) (*HelloReply, error){
// ...
// gRPC specific code here
// ...
}
Along with this the generated code has a method to create an instance of this struct.
func NewGreeterClient(cc *grpc.ClientConn) GreeterClient
The user code uses this function to create an instance of the struct greeterClient which then can be used to make rpc calls to the server. We will mock this interface GreeterClient and use an instance of that mock to make rpc calls. These calls instead of going to server will return pre-determined values.
To create a mock we’ll use mockgen.
From the directory examples/helloworld/ run mockgen google.golang.org/grpc/examples/helloworld/helloworld GreeterClient > mock_helloworld/hw_mock.go
Notice that in the above command we specify GreeterClient as the interface to be mocked.
The user test code can import the package generated by mockgen along with library package gomock to write unit tests around client-side logic.
import "github.com/golang/mock/gomock"
import hwmock "google.golang.org/grpc/examples/helloworld/mock_helloworld"
An instance of the mocked interface can be created as:
mockGreeterClient := hwmock.NewMockGreeterClient(ctrl)
This mocked object can be programmed to expect calls to its methods and return pre-determined values. For instance, we can program mockGreeterClient to expect a call to its method SayHello and return a HelloReply with message “Mocked RPC”.
mockGreeterClient.EXPECT().SayHello(
gomock.Any(), // expect any value for first parameter
gomock.Any(), // expect any value for second parameter
).Return(&helloworld.HelloReply{Message: “Mocked RPC”}, nil)
gomock.Any() indicates that the parameter can have any value or type. We can indicate specific values for built-in types with gomock.Eq(). However, if the test code needs to specify the parameter to have a proto message type, we can replace gomock.Any() with an instance of a struct that implements gomock.Matcher interface.
type rpcMsg struct {
msg proto.Message
}
func (r *rpcMsg) Matches(msg interface{}) bool {
m, ok := msg.(proto.Message)
if !ok {
return false
}
return proto.Equal(m, r.msg)
}
func (r *rpcMsg) String() string {
return fmt.Sprintf("is %s", r.msg)
}
...
req := &helloworld.HelloRequest{Name: "unit_test"}
mockGreeterClient.EXPECT().SayHello(
gomock.Any(),
&rpcMsg{msg: req},
).Return(&helloworld.HelloReply{Message: "Mocked Interface"}, nil)
Mock streaming RPCs:
For our example we consider the case of bi-directional streaming RPCs. Concretely, we'll write a test for RouteChat function from the route guide example to demonstrate how to write mocks for streams.
RouteChat is a bi-directional streaming RPC, which means calling RouteChat returns a stream that can Send and Recv messages to and from the server, respectively. We'll start by creating a mock of this stream interface returned by RouteChat and then we'll mock the client interface and set expectation on the method RouteChat to return our mocked stream.
Generating mocking code:
Like before we'll use mockgen. From the examples/route_guide directory run: mockgen google.golang.org/grpc/examples/route_guide/routeguide RouteGuideClient,RouteGuide_RouteChatClient > mock_route_guide/rg_mock.go
Notice that we are mocking both client(RouteGuideClient) and stream(RouteGuide_RouteChatClient) interfaces here.
This will create a file rg_mock.go under directory mock_route_guide. This file contins all the mocking code we need to write our test.
In our test code, like before, we import the this mocking code along with the generated code
import (
rgmock "google.golang.org/grpc/examples/route_guide/mock_routeguide"
rgpb "google.golang.org/grpc/examples/route_guide/routeguide"
)
Now conside a test that takes the RouteGuide client object as a parameter, makes a RouteChat rpc call and sends a message on the resulting stream. Furthermore, this test expects to see the same message to be received on the stream.
var msg = ...
// Creates a RouteChat call and sends msg on it.
// Checks if the received message was equal to msg.
func testRouteChat(client rgb.RouteChatClient) error{
...
}
We can inject our mock in here by simply passing it as an argument to the method.
Creating mock for stream interface:
stream := rgmock.NewMockRouteGuide_RouteChatClient(ctrl)
}
Setting Expectations:
stream.EXPECT().Send(gomock.Any()).Return(nil)
stream.EXPECT().Recv().Return(msg, nil)
Creating mock for client interface:
rgclient := rgmock.NewMockRouteGuideClient(ctrl)
Setting Expectations:
rgclient.EXPECT().RouteChat(gomock.Any()).Return(stream, nil)