mirror of https://github.com/minio/minio.git
181 lines
6.9 KiB
Markdown
181 lines
6.9 KiB
Markdown
This outlines the backwards incompatible changes that were made to the public API after the
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`v0.3.7` stable release, and and how to migrate existing legacy codebases.
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#### Background
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The original `go-nsq` codebase is some of our earliest Go code, and one of our first attempts at a
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public Go library.
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We've learned a lot over the last 2 years and we wanted `go-nsq` to reflect the experiences we've
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had working with the library as well as the general Go conventions and best practices we picked up
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along the way.
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The diff can be seen via: https://github.com/nsqio/go-nsq/compare/v0.3.7...HEAD
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The bulk of the refactoring came via: https://github.com/nsqio/go-nsq/pull/30
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#### Naming
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Previously, the high-level types we exposed were named `nsq.Reader` and `nsq.Writer`. These
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reflected internal naming conventions we had used at bitly for some time but conflated semantics
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with what a typical Go developer would expect (they obviously did not implement `io.Reader` and
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`io.Writer`).
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We renamed these types to `nsq.Consumer` and `nsq.Producer`, which more effectively communicate
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their purpose and is consistent with the NSQ documentation.
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#### Configuration
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In the previous API there were inconsistent and confusing ways to configure your clients.
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Now, configuration is performed *before* creating an `nsq.Consumer` or `nsq.Producer` by creating
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an `nsq.Config` struct. The only valid way to do this is via `nsq.NewConfig` (i.e. using a struct
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literal will panic due to invalid internal state).
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The `nsq.Config` struct has exported variables that can be set directly in a type-safe manner. You
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can also call `cfg.Validate()` to check that the values are correct and within range.
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`nsq.Config` also exposes a convenient helper method `Set(k string, v interface{})` that can set
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options by *coercing* the supplied `interface{}` value.
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This is incredibly convenient if you're reading options from a config file or in a serialized
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format that does not exactly match the native types.
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It is both flexible and forgiving.
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#### Improving the nsq.Handler interface
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`go-nsq` attempts to make writing the common use case consumer incredibly easy.
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You specify a type that implements the `nsq.Handler` interface, the interface method is called per
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message, and the return value of said method indicates to the library what the response to `nsqd`
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should be (`FIN` or `REQ`), all the while managing flow control and backoff.
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However, more advanced use cases require the ability to respond to a message *later*
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("asynchronously", if you will). Our original API provided a *second* message handler interface
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called `nsq.AsyncHandler`.
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Unfortunately, it was never obvious from the name alone (or even the documentation) how to properly
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use this form. The API was needlessly complex, involving the garbage creation of wrapping structs
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to track state and respond to messages.
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We originally had the same problem in `pynsq`, our Python client library, and we were able to
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resolve the tension and expose an API that was robust and supported all use cases.
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The new `go-nsq` message handler interface exposes only `nsq.Handler`, and its `HandleMessage`
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method remains identical (specifically, `nsq.AsyncHandler` has been removed).
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Additionally, the API to configure handlers has been improved to provide better first-class support
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for common operations. We've added `AddConcurrentHandlers` (for quickly spawning multiple handler
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goroutines).
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For the most common use case, where you want `go-nsq` to respond to messages on your behalf, there
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are no changes required! In fact, we've made it even easier to implement the `nsq.Handler`
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interface for simple functions by providing the `nsq.HandlerFunc` type (in the spirit of the Go
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standard library's `http.HandlerFunc`):
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```go
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r, err := nsq.NewConsumer("test_topic", "test_channel", nsq.NewConfig())
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if err != nil {
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log.Fatalf(err.Error())
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}
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r.AddHandler(nsq.HandlerFunc(func(m *nsq.Message) error {
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return doSomeWork(m)
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})
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err := r.ConnectToNSQD(nsqdAddr)
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if err != nil {
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log.Fatalf(err.Error())
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}
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<-r.StopChan
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```
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In the new API, we've made the `nsq.Message` struct more robust, giving it the ability to proxy
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responses. If you want to usurp control of the message from `go-nsq`, you simply call
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`msg.DisableAutoResponse()`.
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This is effectively the same as if you had used `nsq.AsyncHandler`, only you don't need to manage
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`nsq.FinishedMessage` structs or implement a separate interface. Instead you just keep/pass
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references to the `nsq.Message` itself, and when you're ready to respond you call `msg.Finish()`,
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`msg.Requeue(<duration>)` or `msg.Touch(<duration>)`. Additionally, this means you can make this
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decision on a *per-message* basis rather than for the lifetime of the handler.
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Here is an example:
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```go
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type myHandler struct {}
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func (h *myHandler) HandleMessage(m *nsq.Message) error {
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m.DisableAutoResponse()
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workerChan <- m
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return nil
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}
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go func() {
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for m := range workerChan {
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err := doSomeWork(m)
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if err != nil {
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m.Requeue(-1)
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continue
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}
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m.Finish()
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}
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}()
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cfg := nsq.NewConfig()
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cfg.MaxInFlight = 1000
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r, err := nsq.NewConsumer("test_topic", "test_channel", cfg)
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if err != nil {
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log.Fatalf(err.Error())
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}
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r.AddConcurrentHandlers(&myHandler{}, 20)
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err := r.ConnectToNSQD(nsqdAddr)
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if err != nil {
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log.Fatalf(err.Error())
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}
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<-r.StopChan
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```
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#### Requeue without backoff
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As a side effect of the message handler restructuring above, it is now trivial to respond to a
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message without triggering a backoff state in `nsq.Consumer` (which was not possible in the
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previous API).
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The `nsq.Message` type now has a `msg.RequeueWithoutBackoff()` method for this purpose.
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#### Producer Error Handling
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Previously, `Writer` (now `Producer`) returned a triplicate of `frameType`, `responseBody`, and
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`error` from calls to `*Publish`.
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This required the caller to check both `error` and `frameType` to confirm success. `Producer`
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publish methods now return only `error`.
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#### Logging
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One of the challenges library implementors face is how to provide feedback via logging, while
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exposing an interface that follows the standard library and still provides a means to control and
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configure the output.
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In the new API, we've provided a method on `Consumer` and `Producer` called `SetLogger` that takes
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an interface compatible with the Go standard library `log.Logger` (which can be instantiated via
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`log.NewLogger`) and a traditional log level integer `nsq.LogLevel{Debug,Info,Warning,Error}`:
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Output(maxdepth int, s string) error
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This gives the user the flexibility to control the format, destination, and verbosity while still
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conforming to standard library logging conventions.
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#### Misc.
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Un-exported `NewDeadlineTransport` and `ApiRequest`, which never should have been exported in the
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first place.
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`nsq.Message` serialization switched away from `binary.{Read,Write}` for performance and
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`nsq.Message` now implements the `io.WriterTo` interface.
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