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kubernetes/kubernetes#111083 has been merged and synced into k8s.io/mount-utils. This should remove any systemd log messages while calling NodeStageVolume and NodeGetVolumeStats. Signed-off-by: Niels de Vos <ndevos@redhat.com>
283 lines
12 KiB
Markdown
283 lines
12 KiB
Markdown
# A minimal logging API for Go
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[![Go Reference](https://pkg.go.dev/badge/github.com/go-logr/logr.svg)](https://pkg.go.dev/github.com/go-logr/logr)
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logr offers an(other) opinion on how Go programs and libraries can do logging
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without becoming coupled to a particular logging implementation. This is not
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an implementation of logging - it is an API. In fact it is two APIs with two
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different sets of users.
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The `Logger` type is intended for application and library authors. It provides
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a relatively small API which can be used everywhere you want to emit logs. It
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defers the actual act of writing logs (to files, to stdout, or whatever) to the
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`LogSink` interface.
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The `LogSink` interface is intended for logging library implementers. It is a
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pure interface which can be implemented by logging frameworks to provide the actual logging
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functionality.
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This decoupling allows application and library developers to write code in
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terms of `logr.Logger` (which has very low dependency fan-out) while the
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implementation of logging is managed "up stack" (e.g. in or near `main()`.)
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Application developers can then switch out implementations as necessary.
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Many people assert that libraries should not be logging, and as such efforts
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like this are pointless. Those people are welcome to convince the authors of
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the tens-of-thousands of libraries that *DO* write logs that they are all
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wrong. In the meantime, logr takes a more practical approach.
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## Typical usage
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Somewhere, early in an application's life, it will make a decision about which
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logging library (implementation) it actually wants to use. Something like:
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```
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func main() {
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// ... other setup code ...
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// Create the "root" logger. We have chosen the "logimpl" implementation,
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// which takes some initial parameters and returns a logr.Logger.
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logger := logimpl.New(param1, param2)
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// ... other setup code ...
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```
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Most apps will call into other libraries, create structures to govern the flow,
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etc. The `logr.Logger` object can be passed to these other libraries, stored
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in structs, or even used as a package-global variable, if needed. For example:
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```
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app := createTheAppObject(logger)
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app.Run()
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```
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Outside of this early setup, no other packages need to know about the choice of
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implementation. They write logs in terms of the `logr.Logger` that they
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received:
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```
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type appObject struct {
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// ... other fields ...
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logger logr.Logger
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// ... other fields ...
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}
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func (app *appObject) Run() {
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app.logger.Info("starting up", "timestamp", time.Now())
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// ... app code ...
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```
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## Background
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If the Go standard library had defined an interface for logging, this project
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probably would not be needed. Alas, here we are.
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### Inspiration
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Before you consider this package, please read [this blog post by the
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inimitable Dave Cheney][warning-makes-no-sense]. We really appreciate what
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he has to say, and it largely aligns with our own experiences.
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### Differences from Dave's ideas
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The main differences are:
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1. Dave basically proposes doing away with the notion of a logging API in favor
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of `fmt.Printf()`. We disagree, especially when you consider things like output
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locations, timestamps, file and line decorations, and structured logging. This
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package restricts the logging API to just 2 types of logs: info and error.
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Info logs are things you want to tell the user which are not errors. Error
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logs are, well, errors. If your code receives an `error` from a subordinate
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function call and is logging that `error` *and not returning it*, use error
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logs.
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2. Verbosity-levels on info logs. This gives developers a chance to indicate
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arbitrary grades of importance for info logs, without assigning names with
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semantic meaning such as "warning", "trace", and "debug." Superficially this
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may feel very similar, but the primary difference is the lack of semantics.
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Because verbosity is a numerical value, it's safe to assume that an app running
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with higher verbosity means more (and less important) logs will be generated.
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## Implementations (non-exhaustive)
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There are implementations for the following logging libraries:
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- **a function** (can bridge to non-structured libraries): [funcr](https://github.com/go-logr/logr/tree/master/funcr)
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- **a testing.T** (for use in Go tests, with JSON-like output): [testr](https://github.com/go-logr/logr/tree/master/testr)
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- **github.com/google/glog**: [glogr](https://github.com/go-logr/glogr)
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- **k8s.io/klog** (for Kubernetes): [klogr](https://git.k8s.io/klog/klogr)
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- **a testing.T** (with klog-like text output): [ktesting](https://git.k8s.io/klog/ktesting)
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- **go.uber.org/zap**: [zapr](https://github.com/go-logr/zapr)
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- **log** (the Go standard library logger): [stdr](https://github.com/go-logr/stdr)
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- **github.com/sirupsen/logrus**: [logrusr](https://github.com/bombsimon/logrusr)
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- **github.com/wojas/genericr**: [genericr](https://github.com/wojas/genericr) (makes it easy to implement your own backend)
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- **logfmt** (Heroku style [logging](https://www.brandur.org/logfmt)): [logfmtr](https://github.com/iand/logfmtr)
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- **github.com/rs/zerolog**: [zerologr](https://github.com/go-logr/zerologr)
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- **github.com/go-kit/log**: [gokitlogr](https://github.com/tonglil/gokitlogr) (also compatible with github.com/go-kit/kit/log since v0.12.0)
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- **bytes.Buffer** (writing to a buffer): [bufrlogr](https://github.com/tonglil/buflogr) (useful for ensuring values were logged, like during testing)
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## FAQ
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### Conceptual
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#### Why structured logging?
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- **Structured logs are more easily queryable**: Since you've got
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key-value pairs, it's much easier to query your structured logs for
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particular values by filtering on the contents of a particular key --
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think searching request logs for error codes, Kubernetes reconcilers for
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the name and namespace of the reconciled object, etc.
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- **Structured logging makes it easier to have cross-referenceable logs**:
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Similarly to searchability, if you maintain conventions around your
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keys, it becomes easy to gather all log lines related to a particular
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concept.
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- **Structured logs allow better dimensions of filtering**: if you have
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structure to your logs, you've got more precise control over how much
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information is logged -- you might choose in a particular configuration
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to log certain keys but not others, only log lines where a certain key
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matches a certain value, etc., instead of just having v-levels and names
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to key off of.
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- **Structured logs better represent structured data**: sometimes, the
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data that you want to log is inherently structured (think tuple-link
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objects.) Structured logs allow you to preserve that structure when
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outputting.
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#### Why V-levels?
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**V-levels give operators an easy way to control the chattiness of log
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operations**. V-levels provide a way for a given package to distinguish
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the relative importance or verbosity of a given log message. Then, if
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a particular logger or package is logging too many messages, the user
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of the package can simply change the v-levels for that library.
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#### Why not named levels, like Info/Warning/Error?
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Read [Dave Cheney's post][warning-makes-no-sense]. Then read [Differences
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from Dave's ideas](#differences-from-daves-ideas).
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#### Why not allow format strings, too?
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**Format strings negate many of the benefits of structured logs**:
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- They're not easily searchable without resorting to fuzzy searching,
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regular expressions, etc.
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- They don't store structured data well, since contents are flattened into
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a string.
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- They're not cross-referenceable.
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- They don't compress easily, since the message is not constant.
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(Unless you turn positional parameters into key-value pairs with numerical
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keys, at which point you've gotten key-value logging with meaningless
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keys.)
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### Practical
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#### Why key-value pairs, and not a map?
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Key-value pairs are *much* easier to optimize, especially around
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allocations. Zap (a structured logger that inspired logr's interface) has
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[performance measurements](https://github.com/uber-go/zap#performance)
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that show this quite nicely.
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While the interface ends up being a little less obvious, you get
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potentially better performance, plus avoid making users type
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`map[string]string{}` every time they want to log.
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#### What if my V-levels differ between libraries?
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That's fine. Control your V-levels on a per-logger basis, and use the
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`WithName` method to pass different loggers to different libraries.
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Generally, you should take care to ensure that you have relatively
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consistent V-levels within a given logger, however, as this makes deciding
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on what verbosity of logs to request easier.
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#### But I really want to use a format string!
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That's not actually a question. Assuming your question is "how do
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I convert my mental model of logging with format strings to logging with
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constant messages":
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1. Figure out what the error actually is, as you'd write in a TL;DR style,
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and use that as a message.
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2. For every place you'd write a format specifier, look to the word before
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it, and add that as a key value pair.
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For instance, consider the following examples (all taken from spots in the
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Kubernetes codebase):
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- `klog.V(4).Infof("Client is returning errors: code %v, error %v",
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responseCode, err)` becomes `logger.Error(err, "client returned an
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error", "code", responseCode)`
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- `klog.V(4).Infof("Got a Retry-After %ds response for attempt %d to %v",
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seconds, retries, url)` becomes `logger.V(4).Info("got a retry-after
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response when requesting url", "attempt", retries, "after
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seconds", seconds, "url", url)`
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If you *really* must use a format string, use it in a key's value, and
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call `fmt.Sprintf` yourself. For instance: `log.Printf("unable to
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reflect over type %T")` becomes `logger.Info("unable to reflect over
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type", "type", fmt.Sprintf("%T"))`. In general though, the cases where
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this is necessary should be few and far between.
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#### How do I choose my V-levels?
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This is basically the only hard constraint: increase V-levels to denote
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more verbose or more debug-y logs.
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Otherwise, you can start out with `0` as "you always want to see this",
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`1` as "common logging that you might *possibly* want to turn off", and
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`10` as "I would like to performance-test your log collection stack."
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Then gradually choose levels in between as you need them, working your way
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down from 10 (for debug and trace style logs) and up from 1 (for chattier
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info-type logs.)
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#### How do I choose my keys?
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Keys are fairly flexible, and can hold more or less any string
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value. For best compatibility with implementations and consistency
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with existing code in other projects, there are a few conventions you
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should consider.
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- Make your keys human-readable.
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- Constant keys are generally a good idea.
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- Be consistent across your codebase.
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- Keys should naturally match parts of the message string.
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- Use lower case for simple keys and
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[lowerCamelCase](https://en.wiktionary.org/wiki/lowerCamelCase) for
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more complex ones. Kubernetes is one example of a project that has
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[adopted that
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convention](https://github.com/kubernetes/community/blob/HEAD/contributors/devel/sig-instrumentation/migration-to-structured-logging.md#name-arguments).
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While key names are mostly unrestricted (and spaces are acceptable),
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it's generally a good idea to stick to printable ascii characters, or at
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least match the general character set of your log lines.
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#### Why should keys be constant values?
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The point of structured logging is to make later log processing easier. Your
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keys are, effectively, the schema of each log message. If you use different
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keys across instances of the same log line, you will make your structured logs
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much harder to use. `Sprintf()` is for values, not for keys!
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#### Why is this not a pure interface?
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The Logger type is implemented as a struct in order to allow the Go compiler to
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optimize things like high-V `Info` logs that are not triggered. Not all of
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these implementations are implemented yet, but this structure was suggested as
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a way to ensure they *can* be implemented. All of the real work is behind the
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`LogSink` interface.
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[warning-makes-no-sense]: http://dave.cheney.net/2015/11/05/lets-talk-about-logging
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