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156 lines
6.0 KiB
Markdown
156 lines
6.0 KiB
Markdown
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# Frequently Asked Questions
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## Design
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### Why spend so much effort on logger performance?
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Of course, most applications won't notice the impact of a slow logger: they
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already take tens or hundreds of milliseconds for each operation, so an extra
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millisecond doesn't matter.
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On the other hand, why *not* make structured logging fast? The `SugaredLogger`
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isn't any harder to use than other logging packages, and the `Logger` makes
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structured logging possible in performance-sensitive contexts. Across a fleet
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of Go microservices, making each application even slightly more efficient adds
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up quickly.
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### Why aren't `Logger` and `SugaredLogger` interfaces?
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Unlike the familiar `io.Writer` and `http.Handler`, `Logger` and
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`SugaredLogger` interfaces would include *many* methods. As [Rob Pike points
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out][go-proverbs], "The bigger the interface, the weaker the abstraction."
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Interfaces are also rigid — *any* change requires releasing a new major
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version, since it breaks all third-party implementations.
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Making the `Logger` and `SugaredLogger` concrete types doesn't sacrifice much
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abstraction, and it lets us add methods without introducing breaking changes.
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Your applications should define and depend upon an interface that includes
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just the methods you use.
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### Why sample application logs?
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Applications often experience runs of errors, either because of a bug or
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because of a misbehaving user. Logging errors is usually a good idea, but it
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can easily make this bad situation worse: not only is your application coping
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with a flood of errors, it's also spending extra CPU cycles and I/O logging
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those errors. Since writes are typically serialized, logging limits throughput
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when you need it most.
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Sampling fixes this problem by dropping repetitive log entries. Under normal
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conditions, your application writes out every entry. When similar entries are
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logged hundreds or thousands of times each second, though, zap begins dropping
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duplicates to preserve throughput.
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### Why do the structured logging APIs take a message in addition to fields?
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Subjectively, we find it helpful to accompany structured context with a brief
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description. This isn't critical during development, but it makes debugging
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and operating unfamiliar systems much easier.
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More concretely, zap's sampling algorithm uses the message to identify
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duplicate entries. In our experience, this is a practical middle ground
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between random sampling (which often drops the exact entry that you need while
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debugging) and hashing the complete entry (which is prohibitively expensive).
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### Why include package-global loggers?
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Since so many other logging packages include a global logger, many
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applications aren't designed to accept loggers as explicit parameters.
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Changing function signatures is often a breaking change, so zap includes
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global loggers to simplify migration.
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Avoid them where possible.
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### Why include dedicated Panic and Fatal log levels?
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In general, application code should handle errors gracefully instead of using
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`panic` or `os.Exit`. However, every rule has exceptions, and it's common to
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crash when an error is truly unrecoverable. To avoid losing any information
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— especially the reason for the crash — the logger must flush any
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buffered entries before the process exits.
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Zap makes this easy by offering `Panic` and `Fatal` logging methods that
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automatically flush before exiting. Of course, this doesn't guarantee that
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logs will never be lost, but it eliminates a common error.
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See the discussion in uber-go/zap#207 for more details.
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### What's `DPanic`?
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`DPanic` stands for "panic in development." In development, it logs at
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`PanicLevel`; otherwise, it logs at `ErrorLevel`. `DPanic` makes it easier to
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catch errors that are theoretically possible, but shouldn't actually happen,
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*without* crashing in production.
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If you've ever written code like this, you need `DPanic`:
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```go
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if err != nil {
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panic(fmt.Sprintf("shouldn't ever get here: %v", err))
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}
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```
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## Installation
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### What does the error `expects import "go.uber.org/zap"` mean?
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Either zap was installed incorrectly or you're referencing the wrong package
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name in your code.
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Zap's source code happens to be hosted on GitHub, but the [import
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path][import-path] is `go.uber.org/zap`. This gives us, the project
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maintainers, the freedom to move the source code if necessary. However, it
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means that you need to take a little care when installing and using the
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package.
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If you follow two simple rules, everything should work: install zap with `go
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get -u go.uber.org/zap`, and always import it in your code with `import
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"go.uber.org/zap"`. Your code shouldn't contain *any* references to
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`github.com/uber-go/zap`.
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## Usage
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### Does zap support log rotation?
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Zap doesn't natively support rotating log files, since we prefer to leave this
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to an external program like `logrotate`.
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However, it's easy to integrate a log rotation package like
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[`gopkg.in/natefinch/lumberjack.v2`][lumberjack] as a `zapcore.WriteSyncer`.
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```go
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// lumberjack.Logger is already safe for concurrent use, so we don't need to
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// lock it.
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w := zapcore.AddSync(&lumberjack.Logger{
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Filename: "/var/log/myapp/foo.log",
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MaxSize: 500, // megabytes
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MaxBackups: 3,
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MaxAge: 28, // days
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})
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core := zapcore.NewCore(
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zapcore.NewJSONEncoder(zap.NewProductionEncoderConfig()),
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w,
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zap.InfoLevel,
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)
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logger := zap.New(core)
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```
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## Extensions
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We'd love to support every logging need within zap itself, but we're only
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familiar with a handful of log ingestion systems, flag-parsing packages, and
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the like. Rather than merging code that we can't effectively debug and
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support, we'd rather grow an ecosystem of zap extensions.
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We're aware of the following extensions, but haven't used them ourselves:
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| Package | Integration |
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| --- | --- |
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| `github.com/tchap/zapext` | Sentry, syslog |
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| `github.com/fgrosse/zaptest` | Ginkgo |
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| `github.com/blendle/zapdriver` | Stackdriver |
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[go-proverbs]: https://go-proverbs.github.io/
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[import-path]: https://golang.org/cmd/go/#hdr-Remote_import_paths
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[lumberjack]: https://godoc.org/gopkg.in/natefinch/lumberjack.v2
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