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build: move e2e dependencies into e2e/go.mod

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Several packages are only used while running the e2e suite. These
packages are less important to update, as the they can not influence the
final executable that is part of the Ceph-CSI container-image.

By moving these dependencies out of the main Ceph-CSI go.mod, it is
easier to identify if a reported CVE affects Ceph-CSI, or only the
testing (like most of the Kubernetes CVEs).

Signed-off-by: Niels de Vos <ndevos@ibm.com>
This commit is contained in:
Niels de Vos
2025-03-04 08:57:28 +01:00
committed by mergify[bot]
parent 15da101b1b
commit bec6090996
8047 changed files with 1407827 additions and 3453 deletions
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run:
timeout: 1m
tests: true
linters:
disable-all: true
enable:
- asciicheck
- errcheck
- forcetypeassert
- gocritic
- gofmt
- goimports
- gosimple
- govet
- ineffassign
- misspell
- revive
- staticcheck
- typecheck
- unused
issues:
exclude-use-default: false
max-issues-per-linter: 0
max-same-issues: 10

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# CHANGELOG
## v1.0.0-rc1
This is the first logged release. Major changes (including breaking changes)
have occurred since earlier tags.

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# Contributing
Logr is open to pull-requests, provided they fit within the intended scope of
the project. Specifically, this library aims to be VERY small and minimalist,
with no external dependencies.
## Compatibility
This project intends to follow [semantic versioning](http://semver.org) and
is very strict about compatibility. Any proposed changes MUST follow those
rules.
## Performance
As a logging library, logr must be as light-weight as possible. Any proposed
code change must include results of running the [benchmark](./benchmark)
before and after the change.

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# A minimal logging API for Go
[![Go Reference](https://pkg.go.dev/badge/github.com/go-logr/logr.svg)](https://pkg.go.dev/github.com/go-logr/logr)
[![Go Report Card](https://goreportcard.com/badge/github.com/go-logr/logr)](https://goreportcard.com/report/github.com/go-logr/logr)
[![OpenSSF Scorecard](https://api.securityscorecards.dev/projects/github.com/go-logr/logr/badge)](https://securityscorecards.dev/viewer/?platform=github.com&org=go-logr&repo=logr)
logr offers an(other) opinion on how Go programs and libraries can do logging
without becoming coupled to a particular logging implementation. This is not
an implementation of logging - it is an API. In fact it is two APIs with two
different sets of users.
The `Logger` type is intended for application and library authors. It provides
a relatively small API which can be used everywhere you want to emit logs. It
defers the actual act of writing logs (to files, to stdout, or whatever) to the
`LogSink` interface.
The `LogSink` interface is intended for logging library implementers. It is a
pure interface which can be implemented by logging frameworks to provide the actual logging
functionality.
This decoupling allows application and library developers to write code in
terms of `logr.Logger` (which has very low dependency fan-out) while the
implementation of logging is managed "up stack" (e.g. in or near `main()`.)
Application developers can then switch out implementations as necessary.
Many people assert that libraries should not be logging, and as such efforts
like this are pointless. Those people are welcome to convince the authors of
the tens-of-thousands of libraries that *DO* write logs that they are all
wrong. In the meantime, logr takes a more practical approach.
## Typical usage
Somewhere, early in an application's life, it will make a decision about which
logging library (implementation) it actually wants to use. Something like:
```
func main() {
// ... other setup code ...
// Create the "root" logger. We have chosen the "logimpl" implementation,
// which takes some initial parameters and returns a logr.Logger.
logger := logimpl.New(param1, param2)
// ... other setup code ...
```
Most apps will call into other libraries, create structures to govern the flow,
etc. The `logr.Logger` object can be passed to these other libraries, stored
in structs, or even used as a package-global variable, if needed. For example:
```
app := createTheAppObject(logger)
app.Run()
```
Outside of this early setup, no other packages need to know about the choice of
implementation. They write logs in terms of the `logr.Logger` that they
received:
```
type appObject struct {
// ... other fields ...
logger logr.Logger
// ... other fields ...
}
func (app *appObject) Run() {
app.logger.Info("starting up", "timestamp", time.Now())
// ... app code ...
```
## Background
If the Go standard library had defined an interface for logging, this project
probably would not be needed. Alas, here we are.
When the Go developers started developing such an interface with
[slog](https://github.com/golang/go/issues/56345), they adopted some of the
logr design but also left out some parts and changed others:
| Feature | logr | slog |
|---------|------|------|
| High-level API | `Logger` (passed by value) | `Logger` (passed by [pointer](https://github.com/golang/go/issues/59126)) |
| Low-level API | `LogSink` | `Handler` |
| Stack unwinding | done by `LogSink` | done by `Logger` |
| Skipping helper functions | `WithCallDepth`, `WithCallStackHelper` | [not supported by Logger](https://github.com/golang/go/issues/59145) |
| Generating a value for logging on demand | `Marshaler` | `LogValuer` |
| Log levels | >= 0, higher meaning "less important" | positive and negative, with 0 for "info" and higher meaning "more important" |
| Error log entries | always logged, don't have a verbosity level | normal log entries with level >= `LevelError` |
| Passing logger via context | `NewContext`, `FromContext` | no API |
| Adding a name to a logger | `WithName` | no API |
| Modify verbosity of log entries in a call chain | `V` | no API |
| Grouping of key/value pairs | not supported | `WithGroup`, `GroupValue` |
| Pass context for extracting additional values | no API | API variants like `InfoCtx` |
The high-level slog API is explicitly meant to be one of many different APIs
that can be layered on top of a shared `slog.Handler`. logr is one such
alternative API, with [interoperability](#slog-interoperability) provided by
some conversion functions.
### Inspiration
Before you consider this package, please read [this blog post by the
inimitable Dave Cheney][warning-makes-no-sense]. We really appreciate what
he has to say, and it largely aligns with our own experiences.
### Differences from Dave's ideas
The main differences are:
1. Dave basically proposes doing away with the notion of a logging API in favor
of `fmt.Printf()`. We disagree, especially when you consider things like output
locations, timestamps, file and line decorations, and structured logging. This
package restricts the logging API to just 2 types of logs: info and error.
Info logs are things you want to tell the user which are not errors. Error
logs are, well, errors. If your code receives an `error` from a subordinate
function call and is logging that `error` *and not returning it*, use error
logs.
2. Verbosity-levels on info logs. This gives developers a chance to indicate
arbitrary grades of importance for info logs, without assigning names with
semantic meaning such as "warning", "trace", and "debug." Superficially this
may feel very similar, but the primary difference is the lack of semantics.
Because verbosity is a numerical value, it's safe to assume that an app running
with higher verbosity means more (and less important) logs will be generated.
## Implementations (non-exhaustive)
There are implementations for the following logging libraries:
- **a function** (can bridge to non-structured libraries): [funcr](https://github.com/go-logr/logr/tree/master/funcr)
- **a testing.T** (for use in Go tests, with JSON-like output): [testr](https://github.com/go-logr/logr/tree/master/testr)
- **github.com/google/glog**: [glogr](https://github.com/go-logr/glogr)
- **k8s.io/klog** (for Kubernetes): [klogr](https://git.k8s.io/klog/klogr)
- **a testing.T** (with klog-like text output): [ktesting](https://git.k8s.io/klog/ktesting)
- **go.uber.org/zap**: [zapr](https://github.com/go-logr/zapr)
- **log** (the Go standard library logger): [stdr](https://github.com/go-logr/stdr)
- **github.com/sirupsen/logrus**: [logrusr](https://github.com/bombsimon/logrusr)
- **github.com/wojas/genericr**: [genericr](https://github.com/wojas/genericr) (makes it easy to implement your own backend)
- **logfmt** (Heroku style [logging](https://www.brandur.org/logfmt)): [logfmtr](https://github.com/iand/logfmtr)
- **github.com/rs/zerolog**: [zerologr](https://github.com/go-logr/zerologr)
- **github.com/go-kit/log**: [gokitlogr](https://github.com/tonglil/gokitlogr) (also compatible with github.com/go-kit/kit/log since v0.12.0)
- **bytes.Buffer** (writing to a buffer): [bufrlogr](https://github.com/tonglil/buflogr) (useful for ensuring values were logged, like during testing)
## slog interoperability
Interoperability goes both ways, using the `logr.Logger` API with a `slog.Handler`
and using the `slog.Logger` API with a `logr.LogSink`. `FromSlogHandler` and
`ToSlogHandler` convert between a `logr.Logger` and a `slog.Handler`.
As usual, `slog.New` can be used to wrap such a `slog.Handler` in the high-level
slog API.
### Using a `logr.LogSink` as backend for slog
Ideally, a logr sink implementation should support both logr and slog by
implementing both the normal logr interface(s) and `SlogSink`. Because
of a conflict in the parameters of the common `Enabled` method, it is [not
possible to implement both slog.Handler and logr.Sink in the same
type](https://github.com/golang/go/issues/59110).
If both are supported, log calls can go from the high-level APIs to the backend
without the need to convert parameters. `FromSlogHandler` and `ToSlogHandler` can
convert back and forth without adding additional wrappers, with one exception:
when `Logger.V` was used to adjust the verbosity for a `slog.Handler`, then
`ToSlogHandler` has to use a wrapper which adjusts the verbosity for future
log calls.
Such an implementation should also support values that implement specific
interfaces from both packages for logging (`logr.Marshaler`, `slog.LogValuer`,
`slog.GroupValue`). logr does not convert those.
Not supporting slog has several drawbacks:
- Recording source code locations works correctly if the handler gets called
through `slog.Logger`, but may be wrong in other cases. That's because a
`logr.Sink` does its own stack unwinding instead of using the program counter
provided by the high-level API.
- slog levels <= 0 can be mapped to logr levels by negating the level without a
loss of information. But all slog levels > 0 (e.g. `slog.LevelWarning` as
used by `slog.Logger.Warn`) must be mapped to 0 before calling the sink
because logr does not support "more important than info" levels.
- The slog group concept is supported by prefixing each key in a key/value
pair with the group names, separated by a dot. For structured output like
JSON it would be better to group the key/value pairs inside an object.
- Special slog values and interfaces don't work as expected.
- The overhead is likely to be higher.
These drawbacks are severe enough that applications using a mixture of slog and
logr should switch to a different backend.
### Using a `slog.Handler` as backend for logr
Using a plain `slog.Handler` without support for logr works better than the
other direction:
- All logr verbosity levels can be mapped 1:1 to their corresponding slog level
by negating them.
- Stack unwinding is done by the `SlogSink` and the resulting program
counter is passed to the `slog.Handler`.
- Names added via `Logger.WithName` are gathered and recorded in an additional
attribute with `logger` as key and the names separated by slash as value.
- `Logger.Error` is turned into a log record with `slog.LevelError` as level
and an additional attribute with `err` as key, if an error was provided.
The main drawback is that `logr.Marshaler` will not be supported. Types should
ideally support both `logr.Marshaler` and `slog.Valuer`. If compatibility
with logr implementations without slog support is not important, then
`slog.Valuer` is sufficient.
### Context support for slog
Storing a logger in a `context.Context` is not supported by
slog. `NewContextWithSlogLogger` and `FromContextAsSlogLogger` can be
used to fill this gap. They store and retrieve a `slog.Logger` pointer
under the same context key that is also used by `NewContext` and
`FromContext` for `logr.Logger` value.
When `NewContextWithSlogLogger` is followed by `FromContext`, the latter will
automatically convert the `slog.Logger` to a
`logr.Logger`. `FromContextAsSlogLogger` does the same for the other direction.
With this approach, binaries which use either slog or logr are as efficient as
possible with no unnecessary allocations. This is also why the API stores a
`slog.Logger` pointer: when storing a `slog.Handler`, creating a `slog.Logger`
on retrieval would need to allocate one.
The downside is that switching back and forth needs more allocations. Because
logr is the API that is already in use by different packages, in particular
Kubernetes, the recommendation is to use the `logr.Logger` API in code which
uses contextual logging.
An alternative to adding values to a logger and storing that logger in the
context is to store the values in the context and to configure a logging
backend to extract those values when emitting log entries. This only works when
log calls are passed the context, which is not supported by the logr API.
With the slog API, it is possible, but not
required. https://github.com/veqryn/slog-context is a package for slog which
provides additional support code for this approach. It also contains wrappers
for the context functions in logr, so developers who prefer to not use the logr
APIs directly can use those instead and the resulting code will still be
interoperable with logr.
## FAQ
### Conceptual
#### Why structured logging?
- **Structured logs are more easily queryable**: Since you've got
key-value pairs, it's much easier to query your structured logs for
particular values by filtering on the contents of a particular key --
think searching request logs for error codes, Kubernetes reconcilers for
the name and namespace of the reconciled object, etc.
- **Structured logging makes it easier to have cross-referenceable logs**:
Similarly to searchability, if you maintain conventions around your
keys, it becomes easy to gather all log lines related to a particular
concept.
- **Structured logs allow better dimensions of filtering**: if you have
structure to your logs, you've got more precise control over how much
information is logged -- you might choose in a particular configuration
to log certain keys but not others, only log lines where a certain key
matches a certain value, etc., instead of just having v-levels and names
to key off of.
- **Structured logs better represent structured data**: sometimes, the
data that you want to log is inherently structured (think tuple-link
objects.) Structured logs allow you to preserve that structure when
outputting.
#### Why V-levels?
**V-levels give operators an easy way to control the chattiness of log
operations**. V-levels provide a way for a given package to distinguish
the relative importance or verbosity of a given log message. Then, if
a particular logger or package is logging too many messages, the user
of the package can simply change the v-levels for that library.
#### Why not named levels, like Info/Warning/Error?
Read [Dave Cheney's post][warning-makes-no-sense]. Then read [Differences
from Dave's ideas](#differences-from-daves-ideas).
#### Why not allow format strings, too?
**Format strings negate many of the benefits of structured logs**:
- They're not easily searchable without resorting to fuzzy searching,
regular expressions, etc.
- They don't store structured data well, since contents are flattened into
a string.
- They're not cross-referenceable.
- They don't compress easily, since the message is not constant.
(Unless you turn positional parameters into key-value pairs with numerical
keys, at which point you've gotten key-value logging with meaningless
keys.)
### Practical
#### Why key-value pairs, and not a map?
Key-value pairs are *much* easier to optimize, especially around
allocations. Zap (a structured logger that inspired logr's interface) has
[performance measurements](https://github.com/uber-go/zap#performance)
that show this quite nicely.
While the interface ends up being a little less obvious, you get
potentially better performance, plus avoid making users type
`map[string]string{}` every time they want to log.
#### What if my V-levels differ between libraries?
That's fine. Control your V-levels on a per-logger basis, and use the
`WithName` method to pass different loggers to different libraries.
Generally, you should take care to ensure that you have relatively
consistent V-levels within a given logger, however, as this makes deciding
on what verbosity of logs to request easier.
#### But I really want to use a format string!
That's not actually a question. Assuming your question is "how do
I convert my mental model of logging with format strings to logging with
constant messages":
1. Figure out what the error actually is, as you'd write in a TL;DR style,
and use that as a message.
2. For every place you'd write a format specifier, look to the word before
it, and add that as a key value pair.
For instance, consider the following examples (all taken from spots in the
Kubernetes codebase):
- `klog.V(4).Infof("Client is returning errors: code %v, error %v",
responseCode, err)` becomes `logger.Error(err, "client returned an
error", "code", responseCode)`
- `klog.V(4).Infof("Got a Retry-After %ds response for attempt %d to %v",
seconds, retries, url)` becomes `logger.V(4).Info("got a retry-after
response when requesting url", "attempt", retries, "after
seconds", seconds, "url", url)`
If you *really* must use a format string, use it in a key's value, and
call `fmt.Sprintf` yourself. For instance: `log.Printf("unable to
reflect over type %T")` becomes `logger.Info("unable to reflect over
type", "type", fmt.Sprintf("%T"))`. In general though, the cases where
this is necessary should be few and far between.
#### How do I choose my V-levels?
This is basically the only hard constraint: increase V-levels to denote
more verbose or more debug-y logs.
Otherwise, you can start out with `0` as "you always want to see this",
`1` as "common logging that you might *possibly* want to turn off", and
`10` as "I would like to performance-test your log collection stack."
Then gradually choose levels in between as you need them, working your way
down from 10 (for debug and trace style logs) and up from 1 (for chattier
info-type logs). For reference, slog pre-defines -4 for debug logs
(corresponds to 4 in logr), which matches what is
[recommended for Kubernetes](https://github.com/kubernetes/community/blob/master/contributors/devel/sig-instrumentation/logging.md#what-method-to-use).
#### How do I choose my keys?
Keys are fairly flexible, and can hold more or less any string
value. For best compatibility with implementations and consistency
with existing code in other projects, there are a few conventions you
should consider.
- Make your keys human-readable.
- Constant keys are generally a good idea.
- Be consistent across your codebase.
- Keys should naturally match parts of the message string.
- Use lower case for simple keys and
[lowerCamelCase](https://en.wiktionary.org/wiki/lowerCamelCase) for
more complex ones. Kubernetes is one example of a project that has
[adopted that
convention](https://github.com/kubernetes/community/blob/HEAD/contributors/devel/sig-instrumentation/migration-to-structured-logging.md#name-arguments).
While key names are mostly unrestricted (and spaces are acceptable),
it's generally a good idea to stick to printable ascii characters, or at
least match the general character set of your log lines.
#### Why should keys be constant values?
The point of structured logging is to make later log processing easier. Your
keys are, effectively, the schema of each log message. If you use different
keys across instances of the same log line, you will make your structured logs
much harder to use. `Sprintf()` is for values, not for keys!
#### Why is this not a pure interface?
The Logger type is implemented as a struct in order to allow the Go compiler to
optimize things like high-V `Info` logs that are not triggered. Not all of
these implementations are implemented yet, but this structure was suggested as
a way to ensure they *can* be implemented. All of the real work is behind the
`LogSink` interface.
[warning-makes-no-sense]: http://dave.cheney.net/2015/11/05/lets-talk-about-logging

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# Security Policy
If you have discovered a security vulnerability in this project, please report it
privately. **Do not disclose it as a public issue.** This gives us time to work with you
to fix the issue before public exposure, reducing the chance that the exploit will be
used before a patch is released.
You may submit the report in the following ways:
- send an email to go-logr-security@googlegroups.com
- send us a [private vulnerability report](https://github.com/go-logr/logr/security/advisories/new)
Please provide the following information in your report:
- A description of the vulnerability and its impact
- How to reproduce the issue
We ask that you give us 90 days to work on a fix before public exposure.

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/*
Copyright 2023 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
// contextKey is how we find Loggers in a context.Context. With Go < 1.21,
// the value is always a Logger value. With Go >= 1.21, the value can be a
// Logger value or a slog.Logger pointer.
type contextKey struct{}
// notFoundError exists to carry an IsNotFound method.
type notFoundError struct{}
func (notFoundError) Error() string {
return "no logr.Logger was present"
}
func (notFoundError) IsNotFound() bool {
return true
}

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//go:build !go1.21
// +build !go1.21
/*
Copyright 2019 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
import (
"context"
)
// FromContext returns a Logger from ctx or an error if no Logger is found.
func FromContext(ctx context.Context) (Logger, error) {
if v, ok := ctx.Value(contextKey{}).(Logger); ok {
return v, nil
}
return Logger{}, notFoundError{}
}
// FromContextOrDiscard returns a Logger from ctx. If no Logger is found, this
// returns a Logger that discards all log messages.
func FromContextOrDiscard(ctx context.Context) Logger {
if v, ok := ctx.Value(contextKey{}).(Logger); ok {
return v
}
return Discard()
}
// NewContext returns a new Context, derived from ctx, which carries the
// provided Logger.
func NewContext(ctx context.Context, logger Logger) context.Context {
return context.WithValue(ctx, contextKey{}, logger)
}

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//go:build go1.21
// +build go1.21
/*
Copyright 2019 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
import (
"context"
"fmt"
"log/slog"
)
// FromContext returns a Logger from ctx or an error if no Logger is found.
func FromContext(ctx context.Context) (Logger, error) {
v := ctx.Value(contextKey{})
if v == nil {
return Logger{}, notFoundError{}
}
switch v := v.(type) {
case Logger:
return v, nil
case *slog.Logger:
return FromSlogHandler(v.Handler()), nil
default:
// Not reached.
panic(fmt.Sprintf("unexpected value type for logr context key: %T", v))
}
}
// FromContextAsSlogLogger returns a slog.Logger from ctx or nil if no such Logger is found.
func FromContextAsSlogLogger(ctx context.Context) *slog.Logger {
v := ctx.Value(contextKey{})
if v == nil {
return nil
}
switch v := v.(type) {
case Logger:
return slog.New(ToSlogHandler(v))
case *slog.Logger:
return v
default:
// Not reached.
panic(fmt.Sprintf("unexpected value type for logr context key: %T", v))
}
}
// FromContextOrDiscard returns a Logger from ctx. If no Logger is found, this
// returns a Logger that discards all log messages.
func FromContextOrDiscard(ctx context.Context) Logger {
if logger, err := FromContext(ctx); err == nil {
return logger
}
return Discard()
}
// NewContext returns a new Context, derived from ctx, which carries the
// provided Logger.
func NewContext(ctx context.Context, logger Logger) context.Context {
return context.WithValue(ctx, contextKey{}, logger)
}
// NewContextWithSlogLogger returns a new Context, derived from ctx, which carries the
// provided slog.Logger.
func NewContextWithSlogLogger(ctx context.Context, logger *slog.Logger) context.Context {
return context.WithValue(ctx, contextKey{}, logger)
}

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/*
Copyright 2020 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
// Discard returns a Logger that discards all messages logged to it. It can be
// used whenever the caller is not interested in the logs. Logger instances
// produced by this function always compare as equal.
func Discard() Logger {
return New(nil)
}

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/*
Copyright 2021 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
// Package funcr implements formatting of structured log messages and
// optionally captures the call site and timestamp.
//
// The simplest way to use it is via its implementation of a
// github.com/go-logr/logr.LogSink with output through an arbitrary
// "write" function. See New and NewJSON for details.
//
// # Custom LogSinks
//
// For users who need more control, a funcr.Formatter can be embedded inside
// your own custom LogSink implementation. This is useful when the LogSink
// needs to implement additional methods, for example.
//
// # Formatting
//
// This will respect logr.Marshaler, fmt.Stringer, and error interfaces for
// values which are being logged. When rendering a struct, funcr will use Go's
// standard JSON tags (all except "string").
package funcr
import (
"bytes"
"encoding"
"encoding/json"
"fmt"
"path/filepath"
"reflect"
"runtime"
"strconv"
"strings"
"time"
"github.com/go-logr/logr"
)
// New returns a logr.Logger which is implemented by an arbitrary function.
func New(fn func(prefix, args string), opts Options) logr.Logger {
return logr.New(newSink(fn, NewFormatter(opts)))
}
// NewJSON returns a logr.Logger which is implemented by an arbitrary function
// and produces JSON output.
func NewJSON(fn func(obj string), opts Options) logr.Logger {
fnWrapper := func(_, obj string) {
fn(obj)
}
return logr.New(newSink(fnWrapper, NewFormatterJSON(opts)))
}
// Underlier exposes access to the underlying logging function. Since
// callers only have a logr.Logger, they have to know which
// implementation is in use, so this interface is less of an
// abstraction and more of a way to test type conversion.
type Underlier interface {
GetUnderlying() func(prefix, args string)
}
func newSink(fn func(prefix, args string), formatter Formatter) logr.LogSink {
l := &fnlogger{
Formatter: formatter,
write: fn,
}
// For skipping fnlogger.Info and fnlogger.Error.
l.Formatter.AddCallDepth(1)
return l
}
// Options carries parameters which influence the way logs are generated.
type Options struct {
// LogCaller tells funcr to add a "caller" key to some or all log lines.
// This has some overhead, so some users might not want it.
LogCaller MessageClass
// LogCallerFunc tells funcr to also log the calling function name. This
// has no effect if caller logging is not enabled (see Options.LogCaller).
LogCallerFunc bool
// LogTimestamp tells funcr to add a "ts" key to log lines. This has some
// overhead, so some users might not want it.
LogTimestamp bool
// TimestampFormat tells funcr how to render timestamps when LogTimestamp
// is enabled. If not specified, a default format will be used. For more
// details, see docs for Go's time.Layout.
TimestampFormat string
// LogInfoLevel tells funcr what key to use to log the info level.
// If not specified, the info level will be logged as "level".
// If this is set to "", the info level will not be logged at all.
LogInfoLevel *string
// Verbosity tells funcr which V logs to produce. Higher values enable
// more logs. Info logs at or below this level will be written, while logs
// above this level will be discarded.
Verbosity int
// RenderBuiltinsHook allows users to mutate the list of key-value pairs
// while a log line is being rendered. The kvList argument follows logr
// conventions - each pair of slice elements is comprised of a string key
// and an arbitrary value (verified and sanitized before calling this
// hook). The value returned must follow the same conventions. This hook
// can be used to audit or modify logged data. For example, you might want
// to prefix all of funcr's built-in keys with some string. This hook is
// only called for built-in (provided by funcr itself) key-value pairs.
// Equivalent hooks are offered for key-value pairs saved via
// logr.Logger.WithValues or Formatter.AddValues (see RenderValuesHook) and
// for user-provided pairs (see RenderArgsHook).
RenderBuiltinsHook func(kvList []any) []any
// RenderValuesHook is the same as RenderBuiltinsHook, except that it is
// only called for key-value pairs saved via logr.Logger.WithValues. See
// RenderBuiltinsHook for more details.
RenderValuesHook func(kvList []any) []any
// RenderArgsHook is the same as RenderBuiltinsHook, except that it is only
// called for key-value pairs passed directly to Info and Error. See
// RenderBuiltinsHook for more details.
RenderArgsHook func(kvList []any) []any
// MaxLogDepth tells funcr how many levels of nested fields (e.g. a struct
// that contains a struct, etc.) it may log. Every time it finds a struct,
// slice, array, or map the depth is increased by one. When the maximum is
// reached, the value will be converted to a string indicating that the max
// depth has been exceeded. If this field is not specified, a default
// value will be used.
MaxLogDepth int
}
// MessageClass indicates which category or categories of messages to consider.
type MessageClass int
const (
// None ignores all message classes.
None MessageClass = iota
// All considers all message classes.
All
// Info only considers info messages.
Info
// Error only considers error messages.
Error
)
// fnlogger inherits some of its LogSink implementation from Formatter
// and just needs to add some glue code.
type fnlogger struct {
Formatter
write func(prefix, args string)
}
func (l fnlogger) WithName(name string) logr.LogSink {
l.Formatter.AddName(name)
return &l
}
func (l fnlogger) WithValues(kvList ...any) logr.LogSink {
l.Formatter.AddValues(kvList)
return &l
}
func (l fnlogger) WithCallDepth(depth int) logr.LogSink {
l.Formatter.AddCallDepth(depth)
return &l
}
func (l fnlogger) Info(level int, msg string, kvList ...any) {
prefix, args := l.FormatInfo(level, msg, kvList)
l.write(prefix, args)
}
func (l fnlogger) Error(err error, msg string, kvList ...any) {
prefix, args := l.FormatError(err, msg, kvList)
l.write(prefix, args)
}
func (l fnlogger) GetUnderlying() func(prefix, args string) {
return l.write
}
// Assert conformance to the interfaces.
var _ logr.LogSink = &fnlogger{}
var _ logr.CallDepthLogSink = &fnlogger{}
var _ Underlier = &fnlogger{}
// NewFormatter constructs a Formatter which emits a JSON-like key=value format.
func NewFormatter(opts Options) Formatter {
return newFormatter(opts, outputKeyValue)
}
// NewFormatterJSON constructs a Formatter which emits strict JSON.
func NewFormatterJSON(opts Options) Formatter {
return newFormatter(opts, outputJSON)
}
// Defaults for Options.
const defaultTimestampFormat = "2006-01-02 15:04:05.000000"
const defaultMaxLogDepth = 16
func newFormatter(opts Options, outfmt outputFormat) Formatter {
if opts.TimestampFormat == "" {
opts.TimestampFormat = defaultTimestampFormat
}
if opts.MaxLogDepth == 0 {
opts.MaxLogDepth = defaultMaxLogDepth
}
if opts.LogInfoLevel == nil {
opts.LogInfoLevel = new(string)
*opts.LogInfoLevel = "level"
}
f := Formatter{
outputFormat: outfmt,
prefix: "",
values: nil,
depth: 0,
opts: &opts,
}
return f
}
// Formatter is an opaque struct which can be embedded in a LogSink
// implementation. It should be constructed with NewFormatter. Some of
// its methods directly implement logr.LogSink.
type Formatter struct {
outputFormat outputFormat
prefix string
values []any
valuesStr string
depth int
opts *Options
groupName string // for slog groups
groups []groupDef
}
// outputFormat indicates which outputFormat to use.
type outputFormat int
const (
// outputKeyValue emits a JSON-like key=value format, but not strict JSON.
outputKeyValue outputFormat = iota
// outputJSON emits strict JSON.
outputJSON
)
// groupDef represents a saved group. The values may be empty, but we don't
// know if we need to render the group until the final record is rendered.
type groupDef struct {
name string
values string
}
// PseudoStruct is a list of key-value pairs that gets logged as a struct.
type PseudoStruct []any
// render produces a log line, ready to use.
func (f Formatter) render(builtins, args []any) string {
// Empirically bytes.Buffer is faster than strings.Builder for this.
buf := bytes.NewBuffer(make([]byte, 0, 1024))
if f.outputFormat == outputJSON {
buf.WriteByte('{') // for the whole record
}
// Render builtins
vals := builtins
if hook := f.opts.RenderBuiltinsHook; hook != nil {
vals = hook(f.sanitize(vals))
}
f.flatten(buf, vals, false) // keys are ours, no need to escape
continuing := len(builtins) > 0
// Turn the inner-most group into a string
argsStr := func() string {
buf := bytes.NewBuffer(make([]byte, 0, 1024))
vals = args
if hook := f.opts.RenderArgsHook; hook != nil {
vals = hook(f.sanitize(vals))
}
f.flatten(buf, vals, true) // escape user-provided keys
return buf.String()
}()
// Render the stack of groups from the inside out.
bodyStr := f.renderGroup(f.groupName, f.valuesStr, argsStr)
for i := len(f.groups) - 1; i >= 0; i-- {
grp := &f.groups[i]
if grp.values == "" && bodyStr == "" {
// no contents, so we must elide the whole group
continue
}
bodyStr = f.renderGroup(grp.name, grp.values, bodyStr)
}
if bodyStr != "" {
if continuing {
buf.WriteByte(f.comma())
}
buf.WriteString(bodyStr)
}
if f.outputFormat == outputJSON {
buf.WriteByte('}') // for the whole record
}
return buf.String()
}
// renderGroup returns a string representation of the named group with rendered
// values and args. If the name is empty, this will return the values and args,
// joined. If the name is not empty, this will return a single key-value pair,
// where the value is a grouping of the values and args. If the values and
// args are both empty, this will return an empty string, even if the name was
// specified.
func (f Formatter) renderGroup(name string, values string, args string) string {
buf := bytes.NewBuffer(make([]byte, 0, 1024))
needClosingBrace := false
if name != "" && (values != "" || args != "") {
buf.WriteString(f.quoted(name, true)) // escape user-provided keys
buf.WriteByte(f.colon())
buf.WriteByte('{')
needClosingBrace = true
}
continuing := false
if values != "" {
buf.WriteString(values)
continuing = true
}
if args != "" {
if continuing {
buf.WriteByte(f.comma())
}
buf.WriteString(args)
}
if needClosingBrace {
buf.WriteByte('}')
}
return buf.String()
}
// flatten renders a list of key-value pairs into a buffer. If escapeKeys is
// true, the keys are assumed to have non-JSON-compatible characters in them
// and must be evaluated for escapes.
//
// This function returns a potentially modified version of kvList, which
// ensures that there is a value for every key (adding a value if needed) and
// that each key is a string (substituting a key if needed).
func (f Formatter) flatten(buf *bytes.Buffer, kvList []any, escapeKeys bool) []any {
// This logic overlaps with sanitize() but saves one type-cast per key,
// which can be measurable.
if len(kvList)%2 != 0 {
kvList = append(kvList, noValue)
}
copied := false
for i := 0; i < len(kvList); i += 2 {
k, ok := kvList[i].(string)
if !ok {
if !copied {
newList := make([]any, len(kvList))
copy(newList, kvList)
kvList = newList
copied = true
}
k = f.nonStringKey(kvList[i])
kvList[i] = k
}
v := kvList[i+1]
if i > 0 {
if f.outputFormat == outputJSON {
buf.WriteByte(f.comma())
} else {
// In theory the format could be something we don't understand. In
// practice, we control it, so it won't be.
buf.WriteByte(' ')
}
}
buf.WriteString(f.quoted(k, escapeKeys))
buf.WriteByte(f.colon())
buf.WriteString(f.pretty(v))
}
return kvList
}
func (f Formatter) quoted(str string, escape bool) string {
if escape {
return prettyString(str)
}
// this is faster
return `"` + str + `"`
}
func (f Formatter) comma() byte {
if f.outputFormat == outputJSON {
return ','
}
return ' '
}
func (f Formatter) colon() byte {
if f.outputFormat == outputJSON {
return ':'
}
return '='
}
func (f Formatter) pretty(value any) string {
return f.prettyWithFlags(value, 0, 0)
}
const (
flagRawStruct = 0x1 // do not print braces on structs
)
// TODO: This is not fast. Most of the overhead goes here.
func (f Formatter) prettyWithFlags(value any, flags uint32, depth int) string {
if depth > f.opts.MaxLogDepth {
return `"<max-log-depth-exceeded>"`
}
// Handle types that take full control of logging.
if v, ok := value.(logr.Marshaler); ok {
// Replace the value with what the type wants to get logged.
// That then gets handled below via reflection.
value = invokeMarshaler(v)
}
// Handle types that want to format themselves.
switch v := value.(type) {
case fmt.Stringer:
value = invokeStringer(v)
case error:
value = invokeError(v)
}
// Handling the most common types without reflect is a small perf win.
switch v := value.(type) {
case bool:
return strconv.FormatBool(v)
case string:
return prettyString(v)
case int:
return strconv.FormatInt(int64(v), 10)
case int8:
return strconv.FormatInt(int64(v), 10)
case int16:
return strconv.FormatInt(int64(v), 10)
case int32:
return strconv.FormatInt(int64(v), 10)
case int64:
return strconv.FormatInt(int64(v), 10)
case uint:
return strconv.FormatUint(uint64(v), 10)
case uint8:
return strconv.FormatUint(uint64(v), 10)
case uint16:
return strconv.FormatUint(uint64(v), 10)
case uint32:
return strconv.FormatUint(uint64(v), 10)
case uint64:
return strconv.FormatUint(v, 10)
case uintptr:
return strconv.FormatUint(uint64(v), 10)
case float32:
return strconv.FormatFloat(float64(v), 'f', -1, 32)
case float64:
return strconv.FormatFloat(v, 'f', -1, 64)
case complex64:
return `"` + strconv.FormatComplex(complex128(v), 'f', -1, 64) + `"`
case complex128:
return `"` + strconv.FormatComplex(v, 'f', -1, 128) + `"`
case PseudoStruct:
buf := bytes.NewBuffer(make([]byte, 0, 1024))
v = f.sanitize(v)
if flags&flagRawStruct == 0 {
buf.WriteByte('{')
}
for i := 0; i < len(v); i += 2 {
if i > 0 {
buf.WriteByte(f.comma())
}
k, _ := v[i].(string) // sanitize() above means no need to check success
// arbitrary keys might need escaping
buf.WriteString(prettyString(k))
buf.WriteByte(f.colon())
buf.WriteString(f.prettyWithFlags(v[i+1], 0, depth+1))
}
if flags&flagRawStruct == 0 {
buf.WriteByte('}')
}
return buf.String()
}
buf := bytes.NewBuffer(make([]byte, 0, 256))
t := reflect.TypeOf(value)
if t == nil {
return "null"
}
v := reflect.ValueOf(value)
switch t.Kind() {
case reflect.Bool:
return strconv.FormatBool(v.Bool())
case reflect.String:
return prettyString(v.String())
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return strconv.FormatInt(int64(v.Int()), 10)
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return strconv.FormatUint(uint64(v.Uint()), 10)
case reflect.Float32:
return strconv.FormatFloat(float64(v.Float()), 'f', -1, 32)
case reflect.Float64:
return strconv.FormatFloat(v.Float(), 'f', -1, 64)
case reflect.Complex64:
return `"` + strconv.FormatComplex(complex128(v.Complex()), 'f', -1, 64) + `"`
case reflect.Complex128:
return `"` + strconv.FormatComplex(v.Complex(), 'f', -1, 128) + `"`
case reflect.Struct:
if flags&flagRawStruct == 0 {
buf.WriteByte('{')
}
printComma := false // testing i>0 is not enough because of JSON omitted fields
for i := 0; i < t.NumField(); i++ {
fld := t.Field(i)
if fld.PkgPath != "" {
// reflect says this field is only defined for non-exported fields.
continue
}
if !v.Field(i).CanInterface() {
// reflect isn't clear exactly what this means, but we can't use it.
continue
}
name := ""
omitempty := false
if tag, found := fld.Tag.Lookup("json"); found {
if tag == "-" {
continue
}
if comma := strings.Index(tag, ","); comma != -1 {
if n := tag[:comma]; n != "" {
name = n
}
rest := tag[comma:]
if strings.Contains(rest, ",omitempty,") || strings.HasSuffix(rest, ",omitempty") {
omitempty = true
}
} else {
name = tag
}
}
if omitempty && isEmpty(v.Field(i)) {
continue
}
if printComma {
buf.WriteByte(f.comma())
}
printComma = true // if we got here, we are rendering a field
if fld.Anonymous && fld.Type.Kind() == reflect.Struct && name == "" {
buf.WriteString(f.prettyWithFlags(v.Field(i).Interface(), flags|flagRawStruct, depth+1))
continue
}
if name == "" {
name = fld.Name
}
// field names can't contain characters which need escaping
buf.WriteString(f.quoted(name, false))
buf.WriteByte(f.colon())
buf.WriteString(f.prettyWithFlags(v.Field(i).Interface(), 0, depth+1))
}
if flags&flagRawStruct == 0 {
buf.WriteByte('}')
}
return buf.String()
case reflect.Slice, reflect.Array:
// If this is outputing as JSON make sure this isn't really a json.RawMessage.
// If so just emit "as-is" and don't pretty it as that will just print
// it as [X,Y,Z,...] which isn't terribly useful vs the string form you really want.
if f.outputFormat == outputJSON {
if rm, ok := value.(json.RawMessage); ok {
// If it's empty make sure we emit an empty value as the array style would below.
if len(rm) > 0 {
buf.Write(rm)
} else {
buf.WriteString("null")
}
return buf.String()
}
}
buf.WriteByte('[')
for i := 0; i < v.Len(); i++ {
if i > 0 {
buf.WriteByte(f.comma())
}
e := v.Index(i)
buf.WriteString(f.prettyWithFlags(e.Interface(), 0, depth+1))
}
buf.WriteByte(']')
return buf.String()
case reflect.Map:
buf.WriteByte('{')
// This does not sort the map keys, for best perf.
it := v.MapRange()
i := 0
for it.Next() {
if i > 0 {
buf.WriteByte(f.comma())
}
// If a map key supports TextMarshaler, use it.
keystr := ""
if m, ok := it.Key().Interface().(encoding.TextMarshaler); ok {
txt, err := m.MarshalText()
if err != nil {
keystr = fmt.Sprintf("<error-MarshalText: %s>", err.Error())
} else {
keystr = string(txt)
}
keystr = prettyString(keystr)
} else {
// prettyWithFlags will produce already-escaped values
keystr = f.prettyWithFlags(it.Key().Interface(), 0, depth+1)
if t.Key().Kind() != reflect.String {
// JSON only does string keys. Unlike Go's standard JSON, we'll
// convert just about anything to a string.
keystr = prettyString(keystr)
}
}
buf.WriteString(keystr)
buf.WriteByte(f.colon())
buf.WriteString(f.prettyWithFlags(it.Value().Interface(), 0, depth+1))
i++
}
buf.WriteByte('}')
return buf.String()
case reflect.Ptr, reflect.Interface:
if v.IsNil() {
return "null"
}
return f.prettyWithFlags(v.Elem().Interface(), 0, depth)
}
return fmt.Sprintf(`"<unhandled-%s>"`, t.Kind().String())
}
func prettyString(s string) string {
// Avoid escaping (which does allocations) if we can.
if needsEscape(s) {
return strconv.Quote(s)
}
b := bytes.NewBuffer(make([]byte, 0, 1024))
b.WriteByte('"')
b.WriteString(s)
b.WriteByte('"')
return b.String()
}
// needsEscape determines whether the input string needs to be escaped or not,
// without doing any allocations.
func needsEscape(s string) bool {
for _, r := range s {
if !strconv.IsPrint(r) || r == '\\' || r == '"' {
return true
}
}
return false
}
func isEmpty(v reflect.Value) bool {
switch v.Kind() {
case reflect.Array, reflect.Map, reflect.Slice, reflect.String:
return v.Len() == 0
case reflect.Bool:
return !v.Bool()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.Int() == 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return v.Uint() == 0
case reflect.Float32, reflect.Float64:
return v.Float() == 0
case reflect.Complex64, reflect.Complex128:
return v.Complex() == 0
case reflect.Interface, reflect.Ptr:
return v.IsNil()
}
return false
}
func invokeMarshaler(m logr.Marshaler) (ret any) {
defer func() {
if r := recover(); r != nil {
ret = fmt.Sprintf("<panic: %s>", r)
}
}()
return m.MarshalLog()
}
func invokeStringer(s fmt.Stringer) (ret string) {
defer func() {
if r := recover(); r != nil {
ret = fmt.Sprintf("<panic: %s>", r)
}
}()
return s.String()
}
func invokeError(e error) (ret string) {
defer func() {
if r := recover(); r != nil {
ret = fmt.Sprintf("<panic: %s>", r)
}
}()
return e.Error()
}
// Caller represents the original call site for a log line, after considering
// logr.Logger.WithCallDepth and logr.Logger.WithCallStackHelper. The File and
// Line fields will always be provided, while the Func field is optional.
// Users can set the render hook fields in Options to examine logged key-value
// pairs, one of which will be {"caller", Caller} if the Options.LogCaller
// field is enabled for the given MessageClass.
type Caller struct {
// File is the basename of the file for this call site.
File string `json:"file"`
// Line is the line number in the file for this call site.
Line int `json:"line"`
// Func is the function name for this call site, or empty if
// Options.LogCallerFunc is not enabled.
Func string `json:"function,omitempty"`
}
func (f Formatter) caller() Caller {
// +1 for this frame, +1 for Info/Error.
pc, file, line, ok := runtime.Caller(f.depth + 2)
if !ok {
return Caller{"<unknown>", 0, ""}
}
fn := ""
if f.opts.LogCallerFunc {
if fp := runtime.FuncForPC(pc); fp != nil {
fn = fp.Name()
}
}
return Caller{filepath.Base(file), line, fn}
}
const noValue = "<no-value>"
func (f Formatter) nonStringKey(v any) string {
return fmt.Sprintf("<non-string-key: %s>", f.snippet(v))
}
// snippet produces a short snippet string of an arbitrary value.
func (f Formatter) snippet(v any) string {
const snipLen = 16
snip := f.pretty(v)
if len(snip) > snipLen {
snip = snip[:snipLen]
}
return snip
}
// sanitize ensures that a list of key-value pairs has a value for every key
// (adding a value if needed) and that each key is a string (substituting a key
// if needed).
func (f Formatter) sanitize(kvList []any) []any {
if len(kvList)%2 != 0 {
kvList = append(kvList, noValue)
}
for i := 0; i < len(kvList); i += 2 {
_, ok := kvList[i].(string)
if !ok {
kvList[i] = f.nonStringKey(kvList[i])
}
}
return kvList
}
// startGroup opens a new group scope (basically a sub-struct), which locks all
// the current saved values and starts them anew. This is needed to satisfy
// slog.
func (f *Formatter) startGroup(name string) {
// Unnamed groups are just inlined.
if name == "" {
return
}
n := len(f.groups)
f.groups = append(f.groups[:n:n], groupDef{f.groupName, f.valuesStr})
// Start collecting new values.
f.groupName = name
f.valuesStr = ""
f.values = nil
}
// Init configures this Formatter from runtime info, such as the call depth
// imposed by logr itself.
// Note that this receiver is a pointer, so depth can be saved.
func (f *Formatter) Init(info logr.RuntimeInfo) {
f.depth += info.CallDepth
}
// Enabled checks whether an info message at the given level should be logged.
func (f Formatter) Enabled(level int) bool {
return level <= f.opts.Verbosity
}
// GetDepth returns the current depth of this Formatter. This is useful for
// implementations which do their own caller attribution.
func (f Formatter) GetDepth() int {
return f.depth
}
// FormatInfo renders an Info log message into strings. The prefix will be
// empty when no names were set (via AddNames), or when the output is
// configured for JSON.
func (f Formatter) FormatInfo(level int, msg string, kvList []any) (prefix, argsStr string) {
args := make([]any, 0, 64) // using a constant here impacts perf
prefix = f.prefix
if f.outputFormat == outputJSON {
args = append(args, "logger", prefix)
prefix = ""
}
if f.opts.LogTimestamp {
args = append(args, "ts", time.Now().Format(f.opts.TimestampFormat))
}
if policy := f.opts.LogCaller; policy == All || policy == Info {
args = append(args, "caller", f.caller())
}
if key := *f.opts.LogInfoLevel; key != "" {
args = append(args, key, level)
}
args = append(args, "msg", msg)
return prefix, f.render(args, kvList)
}
// FormatError renders an Error log message into strings. The prefix will be
// empty when no names were set (via AddNames), or when the output is
// configured for JSON.
func (f Formatter) FormatError(err error, msg string, kvList []any) (prefix, argsStr string) {
args := make([]any, 0, 64) // using a constant here impacts perf
prefix = f.prefix
if f.outputFormat == outputJSON {
args = append(args, "logger", prefix)
prefix = ""
}
if f.opts.LogTimestamp {
args = append(args, "ts", time.Now().Format(f.opts.TimestampFormat))
}
if policy := f.opts.LogCaller; policy == All || policy == Error {
args = append(args, "caller", f.caller())
}
args = append(args, "msg", msg)
var loggableErr any
if err != nil {
loggableErr = err.Error()
}
args = append(args, "error", loggableErr)
return prefix, f.render(args, kvList)
}
// AddName appends the specified name. funcr uses '/' characters to separate
// name elements. Callers should not pass '/' in the provided name string, but
// this library does not actually enforce that.
func (f *Formatter) AddName(name string) {
if len(f.prefix) > 0 {
f.prefix += "/"
}
f.prefix += name
}
// AddValues adds key-value pairs to the set of saved values to be logged with
// each log line.
func (f *Formatter) AddValues(kvList []any) {
// Three slice args forces a copy.
n := len(f.values)
f.values = append(f.values[:n:n], kvList...)
vals := f.values
if hook := f.opts.RenderValuesHook; hook != nil {
vals = hook(f.sanitize(vals))
}
// Pre-render values, so we don't have to do it on each Info/Error call.
buf := bytes.NewBuffer(make([]byte, 0, 1024))
f.flatten(buf, vals, true) // escape user-provided keys
f.valuesStr = buf.String()
}
// AddCallDepth increases the number of stack-frames to skip when attributing
// the log line to a file and line.
func (f *Formatter) AddCallDepth(depth int) {
f.depth += depth
}

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//go:build go1.21
// +build go1.21
/*
Copyright 2023 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package funcr
import (
"context"
"log/slog"
"github.com/go-logr/logr"
)
var _ logr.SlogSink = &fnlogger{}
const extraSlogSinkDepth = 3 // 2 for slog, 1 for SlogSink
func (l fnlogger) Handle(_ context.Context, record slog.Record) error {
kvList := make([]any, 0, 2*record.NumAttrs())
record.Attrs(func(attr slog.Attr) bool {
kvList = attrToKVs(attr, kvList)
return true
})
if record.Level >= slog.LevelError {
l.WithCallDepth(extraSlogSinkDepth).Error(nil, record.Message, kvList...)
} else {
level := l.levelFromSlog(record.Level)
l.WithCallDepth(extraSlogSinkDepth).Info(level, record.Message, kvList...)
}
return nil
}
func (l fnlogger) WithAttrs(attrs []slog.Attr) logr.SlogSink {
kvList := make([]any, 0, 2*len(attrs))
for _, attr := range attrs {
kvList = attrToKVs(attr, kvList)
}
l.AddValues(kvList)
return &l
}
func (l fnlogger) WithGroup(name string) logr.SlogSink {
l.startGroup(name)
return &l
}
// attrToKVs appends a slog.Attr to a logr-style kvList. It handle slog Groups
// and other details of slog.
func attrToKVs(attr slog.Attr, kvList []any) []any {
attrVal := attr.Value.Resolve()
if attrVal.Kind() == slog.KindGroup {
groupVal := attrVal.Group()
grpKVs := make([]any, 0, 2*len(groupVal))
for _, attr := range groupVal {
grpKVs = attrToKVs(attr, grpKVs)
}
if attr.Key == "" {
// slog says we have to inline these
kvList = append(kvList, grpKVs...)
} else {
kvList = append(kvList, attr.Key, PseudoStruct(grpKVs))
}
} else if attr.Key != "" {
kvList = append(kvList, attr.Key, attrVal.Any())
}
return kvList
}
// levelFromSlog adjusts the level by the logger's verbosity and negates it.
// It ensures that the result is >= 0. This is necessary because the result is
// passed to a LogSink and that API did not historically document whether
// levels could be negative or what that meant.
//
// Some example usage:
//
// logrV0 := getMyLogger()
// logrV2 := logrV0.V(2)
// slogV2 := slog.New(logr.ToSlogHandler(logrV2))
// slogV2.Debug("msg") // =~ logrV2.V(4) =~ logrV0.V(6)
// slogV2.Info("msg") // =~ logrV2.V(0) =~ logrV0.V(2)
// slogv2.Warn("msg") // =~ logrV2.V(-4) =~ logrV0.V(0)
func (l fnlogger) levelFromSlog(level slog.Level) int {
result := -level
if result < 0 {
result = 0 // because LogSink doesn't expect negative V levels
}
return int(result)
}

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/*
Copyright 2019 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
// This design derives from Dave Cheney's blog:
// http://dave.cheney.net/2015/11/05/lets-talk-about-logging
// Package logr defines a general-purpose logging API and abstract interfaces
// to back that API. Packages in the Go ecosystem can depend on this package,
// while callers can implement logging with whatever backend is appropriate.
//
// # Usage
//
// Logging is done using a Logger instance. Logger is a concrete type with
// methods, which defers the actual logging to a LogSink interface. The main
// methods of Logger are Info() and Error(). Arguments to Info() and Error()
// are key/value pairs rather than printf-style formatted strings, emphasizing
// "structured logging".
//
// With Go's standard log package, we might write:
//
// log.Printf("setting target value %s", targetValue)
//
// With logr's structured logging, we'd write:
//
// logger.Info("setting target", "value", targetValue)
//
// Errors are much the same. Instead of:
//
// log.Printf("failed to open the pod bay door for user %s: %v", user, err)
//
// We'd write:
//
// logger.Error(err, "failed to open the pod bay door", "user", user)
//
// Info() and Error() are very similar, but they are separate methods so that
// LogSink implementations can choose to do things like attach additional
// information (such as stack traces) on calls to Error(). Error() messages are
// always logged, regardless of the current verbosity. If there is no error
// instance available, passing nil is valid.
//
// # Verbosity
//
// Often we want to log information only when the application in "verbose
// mode". To write log lines that are more verbose, Logger has a V() method.
// The higher the V-level of a log line, the less critical it is considered.
// Log-lines with V-levels that are not enabled (as per the LogSink) will not
// be written. Level V(0) is the default, and logger.V(0).Info() has the same
// meaning as logger.Info(). Negative V-levels have the same meaning as V(0).
// Error messages do not have a verbosity level and are always logged.
//
// Where we might have written:
//
// if flVerbose >= 2 {
// log.Printf("an unusual thing happened")
// }
//
// We can write:
//
// logger.V(2).Info("an unusual thing happened")
//
// # Logger Names
//
// Logger instances can have name strings so that all messages logged through
// that instance have additional context. For example, you might want to add
// a subsystem name:
//
// logger.WithName("compactor").Info("started", "time", time.Now())
//
// The WithName() method returns a new Logger, which can be passed to
// constructors or other functions for further use. Repeated use of WithName()
// will accumulate name "segments". These name segments will be joined in some
// way by the LogSink implementation. It is strongly recommended that name
// segments contain simple identifiers (letters, digits, and hyphen), and do
// not contain characters that could muddle the log output or confuse the
// joining operation (e.g. whitespace, commas, periods, slashes, brackets,
// quotes, etc).
//
// # Saved Values
//
// Logger instances can store any number of key/value pairs, which will be
// logged alongside all messages logged through that instance. For example,
// you might want to create a Logger instance per managed object:
//
// With the standard log package, we might write:
//
// log.Printf("decided to set field foo to value %q for object %s/%s",
// targetValue, object.Namespace, object.Name)
//
// With logr we'd write:
//
// // Elsewhere: set up the logger to log the object name.
// obj.logger = mainLogger.WithValues(
// "name", obj.name, "namespace", obj.namespace)
//
// // later on...
// obj.logger.Info("setting foo", "value", targetValue)
//
// # Best Practices
//
// Logger has very few hard rules, with the goal that LogSink implementations
// might have a lot of freedom to differentiate. There are, however, some
// things to consider.
//
// The log message consists of a constant message attached to the log line.
// This should generally be a simple description of what's occurring, and should
// never be a format string. Variable information can then be attached using
// named values.
//
// Keys are arbitrary strings, but should generally be constant values. Values
// may be any Go value, but how the value is formatted is determined by the
// LogSink implementation.
//
// Logger instances are meant to be passed around by value. Code that receives
// such a value can call its methods without having to check whether the
// instance is ready for use.
//
// The zero logger (= Logger{}) is identical to Discard() and discards all log
// entries. Code that receives a Logger by value can simply call it, the methods
// will never crash. For cases where passing a logger is optional, a pointer to Logger
// should be used.
//
// # Key Naming Conventions
//
// Keys are not strictly required to conform to any specification or regex, but
// it is recommended that they:
// - be human-readable and meaningful (not auto-generated or simple ordinals)
// - be constant (not dependent on input data)
// - contain only printable characters
// - not contain whitespace or punctuation
// - use lower case for simple keys and lowerCamelCase for more complex ones
//
// These guidelines help ensure that log data is processed properly regardless
// of the log implementation. For example, log implementations will try to
// output JSON data or will store data for later database (e.g. SQL) queries.
//
// While users are generally free to use key names of their choice, it's
// generally best to avoid using the following keys, as they're frequently used
// by implementations:
// - "caller": the calling information (file/line) of a particular log line
// - "error": the underlying error value in the `Error` method
// - "level": the log level
// - "logger": the name of the associated logger
// - "msg": the log message
// - "stacktrace": the stack trace associated with a particular log line or
// error (often from the `Error` message)
// - "ts": the timestamp for a log line
//
// Implementations are encouraged to make use of these keys to represent the
// above concepts, when necessary (for example, in a pure-JSON output form, it
// would be necessary to represent at least message and timestamp as ordinary
// named values).
//
// # Break Glass
//
// Implementations may choose to give callers access to the underlying
// logging implementation. The recommended pattern for this is:
//
// // Underlier exposes access to the underlying logging implementation.
// // Since callers only have a logr.Logger, they have to know which
// // implementation is in use, so this interface is less of an abstraction
// // and more of way to test type conversion.
// type Underlier interface {
// GetUnderlying() <underlying-type>
// }
//
// Logger grants access to the sink to enable type assertions like this:
//
// func DoSomethingWithImpl(log logr.Logger) {
// if underlier, ok := log.GetSink().(impl.Underlier); ok {
// implLogger := underlier.GetUnderlying()
// ...
// }
// }
//
// Custom `With*` functions can be implemented by copying the complete
// Logger struct and replacing the sink in the copy:
//
// // WithFooBar changes the foobar parameter in the log sink and returns a
// // new logger with that modified sink. It does nothing for loggers where
// // the sink doesn't support that parameter.
// func WithFoobar(log logr.Logger, foobar int) logr.Logger {
// if foobarLogSink, ok := log.GetSink().(FoobarSink); ok {
// log = log.WithSink(foobarLogSink.WithFooBar(foobar))
// }
// return log
// }
//
// Don't use New to construct a new Logger with a LogSink retrieved from an
// existing Logger. Source code attribution might not work correctly and
// unexported fields in Logger get lost.
//
// Beware that the same LogSink instance may be shared by different logger
// instances. Calling functions that modify the LogSink will affect all of
// those.
package logr
// New returns a new Logger instance. This is primarily used by libraries
// implementing LogSink, rather than end users. Passing a nil sink will create
// a Logger which discards all log lines.
func New(sink LogSink) Logger {
logger := Logger{}
logger.setSink(sink)
if sink != nil {
sink.Init(runtimeInfo)
}
return logger
}
// setSink stores the sink and updates any related fields. It mutates the
// logger and thus is only safe to use for loggers that are not currently being
// used concurrently.
func (l *Logger) setSink(sink LogSink) {
l.sink = sink
}
// GetSink returns the stored sink.
func (l Logger) GetSink() LogSink {
return l.sink
}
// WithSink returns a copy of the logger with the new sink.
func (l Logger) WithSink(sink LogSink) Logger {
l.setSink(sink)
return l
}
// Logger is an interface to an abstract logging implementation. This is a
// concrete type for performance reasons, but all the real work is passed on to
// a LogSink. Implementations of LogSink should provide their own constructors
// that return Logger, not LogSink.
//
// The underlying sink can be accessed through GetSink and be modified through
// WithSink. This enables the implementation of custom extensions (see "Break
// Glass" in the package documentation). Normally the sink should be used only
// indirectly.
type Logger struct {
sink LogSink
level int
}
// Enabled tests whether this Logger is enabled. For example, commandline
// flags might be used to set the logging verbosity and disable some info logs.
func (l Logger) Enabled() bool {
// Some implementations of LogSink look at the caller in Enabled (e.g.
// different verbosity levels per package or file), but we only pass one
// CallDepth in (via Init). This means that all calls from Logger to the
// LogSink's Enabled, Info, and Error methods must have the same number of
// frames. In other words, Logger methods can't call other Logger methods
// which call these LogSink methods unless we do it the same in all paths.
return l.sink != nil && l.sink.Enabled(l.level)
}
// Info logs a non-error message with the given key/value pairs as context.
//
// The msg argument should be used to add some constant description to the log
// line. The key/value pairs can then be used to add additional variable
// information. The key/value pairs must alternate string keys and arbitrary
// values.
func (l Logger) Info(msg string, keysAndValues ...any) {
if l.sink == nil {
return
}
if l.sink.Enabled(l.level) { // see comment in Enabled
if withHelper, ok := l.sink.(CallStackHelperLogSink); ok {
withHelper.GetCallStackHelper()()
}
l.sink.Info(l.level, msg, keysAndValues...)
}
}
// Error logs an error, with the given message and key/value pairs as context.
// It functions similarly to Info, but may have unique behavior, and should be
// preferred for logging errors (see the package documentations for more
// information). The log message will always be emitted, regardless of
// verbosity level.
//
// The msg argument should be used to add context to any underlying error,
// while the err argument should be used to attach the actual error that
// triggered this log line, if present. The err parameter is optional
// and nil may be passed instead of an error instance.
func (l Logger) Error(err error, msg string, keysAndValues ...any) {
if l.sink == nil {
return
}
if withHelper, ok := l.sink.(CallStackHelperLogSink); ok {
withHelper.GetCallStackHelper()()
}
l.sink.Error(err, msg, keysAndValues...)
}
// V returns a new Logger instance for a specific verbosity level, relative to
// this Logger. In other words, V-levels are additive. A higher verbosity
// level means a log message is less important. Negative V-levels are treated
// as 0.
func (l Logger) V(level int) Logger {
if l.sink == nil {
return l
}
if level < 0 {
level = 0
}
l.level += level
return l
}
// GetV returns the verbosity level of the logger. If the logger's LogSink is
// nil as in the Discard logger, this will always return 0.
func (l Logger) GetV() int {
// 0 if l.sink nil because of the if check in V above.
return l.level
}
// WithValues returns a new Logger instance with additional key/value pairs.
// See Info for documentation on how key/value pairs work.
func (l Logger) WithValues(keysAndValues ...any) Logger {
if l.sink == nil {
return l
}
l.setSink(l.sink.WithValues(keysAndValues...))
return l
}
// WithName returns a new Logger instance with the specified name element added
// to the Logger's name. Successive calls with WithName append additional
// suffixes to the Logger's name. It's strongly recommended that name segments
// contain only letters, digits, and hyphens (see the package documentation for
// more information).
func (l Logger) WithName(name string) Logger {
if l.sink == nil {
return l
}
l.setSink(l.sink.WithName(name))
return l
}
// WithCallDepth returns a Logger instance that offsets the call stack by the
// specified number of frames when logging call site information, if possible.
// This is useful for users who have helper functions between the "real" call
// site and the actual calls to Logger methods. If depth is 0 the attribution
// should be to the direct caller of this function. If depth is 1 the
// attribution should skip 1 call frame, and so on. Successive calls to this
// are additive.
//
// If the underlying log implementation supports a WithCallDepth(int) method,
// it will be called and the result returned. If the implementation does not
// support CallDepthLogSink, the original Logger will be returned.
//
// To skip one level, WithCallStackHelper() should be used instead of
// WithCallDepth(1) because it works with implementions that support the
// CallDepthLogSink and/or CallStackHelperLogSink interfaces.
func (l Logger) WithCallDepth(depth int) Logger {
if l.sink == nil {
return l
}
if withCallDepth, ok := l.sink.(CallDepthLogSink); ok {
l.setSink(withCallDepth.WithCallDepth(depth))
}
return l
}
// WithCallStackHelper returns a new Logger instance that skips the direct
// caller when logging call site information, if possible. This is useful for
// users who have helper functions between the "real" call site and the actual
// calls to Logger methods and want to support loggers which depend on marking
// each individual helper function, like loggers based on testing.T.
//
// In addition to using that new logger instance, callers also must call the
// returned function.
//
// If the underlying log implementation supports a WithCallDepth(int) method,
// WithCallDepth(1) will be called to produce a new logger. If it supports a
// WithCallStackHelper() method, that will be also called. If the
// implementation does not support either of these, the original Logger will be
// returned.
func (l Logger) WithCallStackHelper() (func(), Logger) {
if l.sink == nil {
return func() {}, l
}
var helper func()
if withCallDepth, ok := l.sink.(CallDepthLogSink); ok {
l.setSink(withCallDepth.WithCallDepth(1))
}
if withHelper, ok := l.sink.(CallStackHelperLogSink); ok {
helper = withHelper.GetCallStackHelper()
} else {
helper = func() {}
}
return helper, l
}
// IsZero returns true if this logger is an uninitialized zero value
func (l Logger) IsZero() bool {
return l.sink == nil
}
// RuntimeInfo holds information that the logr "core" library knows which
// LogSinks might want to know.
type RuntimeInfo struct {
// CallDepth is the number of call frames the logr library adds between the
// end-user and the LogSink. LogSink implementations which choose to print
// the original logging site (e.g. file & line) should climb this many
// additional frames to find it.
CallDepth int
}
// runtimeInfo is a static global. It must not be changed at run time.
var runtimeInfo = RuntimeInfo{
CallDepth: 1,
}
// LogSink represents a logging implementation. End-users will generally not
// interact with this type.
type LogSink interface {
// Init receives optional information about the logr library for LogSink
// implementations that need it.
Init(info RuntimeInfo)
// Enabled tests whether this LogSink is enabled at the specified V-level.
// For example, commandline flags might be used to set the logging
// verbosity and disable some info logs.
Enabled(level int) bool
// Info logs a non-error message with the given key/value pairs as context.
// The level argument is provided for optional logging. This method will
// only be called when Enabled(level) is true. See Logger.Info for more
// details.
Info(level int, msg string, keysAndValues ...any)
// Error logs an error, with the given message and key/value pairs as
// context. See Logger.Error for more details.
Error(err error, msg string, keysAndValues ...any)
// WithValues returns a new LogSink with additional key/value pairs. See
// Logger.WithValues for more details.
WithValues(keysAndValues ...any) LogSink
// WithName returns a new LogSink with the specified name appended. See
// Logger.WithName for more details.
WithName(name string) LogSink
}
// CallDepthLogSink represents a LogSink that knows how to climb the call stack
// to identify the original call site and can offset the depth by a specified
// number of frames. This is useful for users who have helper functions
// between the "real" call site and the actual calls to Logger methods.
// Implementations that log information about the call site (such as file,
// function, or line) would otherwise log information about the intermediate
// helper functions.
//
// This is an optional interface and implementations are not required to
// support it.
type CallDepthLogSink interface {
// WithCallDepth returns a LogSink that will offset the call
// stack by the specified number of frames when logging call
// site information.
//
// If depth is 0, the LogSink should skip exactly the number
// of call frames defined in RuntimeInfo.CallDepth when Info
// or Error are called, i.e. the attribution should be to the
// direct caller of Logger.Info or Logger.Error.
//
// If depth is 1 the attribution should skip 1 call frame, and so on.
// Successive calls to this are additive.
WithCallDepth(depth int) LogSink
}
// CallStackHelperLogSink represents a LogSink that knows how to climb
// the call stack to identify the original call site and can skip
// intermediate helper functions if they mark themselves as
// helper. Go's testing package uses that approach.
//
// This is useful for users who have helper functions between the
// "real" call site and the actual calls to Logger methods.
// Implementations that log information about the call site (such as
// file, function, or line) would otherwise log information about the
// intermediate helper functions.
//
// This is an optional interface and implementations are not required
// to support it. Implementations that choose to support this must not
// simply implement it as WithCallDepth(1), because
// Logger.WithCallStackHelper will call both methods if they are
// present. This should only be implemented for LogSinks that actually
// need it, as with testing.T.
type CallStackHelperLogSink interface {
// GetCallStackHelper returns a function that must be called
// to mark the direct caller as helper function when logging
// call site information.
GetCallStackHelper() func()
}
// Marshaler is an optional interface that logged values may choose to
// implement. Loggers with structured output, such as JSON, should
// log the object return by the MarshalLog method instead of the
// original value.
type Marshaler interface {
// MarshalLog can be used to:
// - ensure that structs are not logged as strings when the original
// value has a String method: return a different type without a
// String method
// - select which fields of a complex type should get logged:
// return a simpler struct with fewer fields
// - log unexported fields: return a different struct
// with exported fields
//
// It may return any value of any type.
MarshalLog() any
}

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//go:build go1.21
// +build go1.21
/*
Copyright 2023 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
import (
"context"
"log/slog"
)
type slogHandler struct {
// May be nil, in which case all logs get discarded.
sink LogSink
// Non-nil if sink is non-nil and implements SlogSink.
slogSink SlogSink
// groupPrefix collects values from WithGroup calls. It gets added as
// prefix to value keys when handling a log record.
groupPrefix string
// levelBias can be set when constructing the handler to influence the
// slog.Level of log records. A positive levelBias reduces the
// slog.Level value. slog has no API to influence this value after the
// handler got created, so it can only be set indirectly through
// Logger.V.
levelBias slog.Level
}
var _ slog.Handler = &slogHandler{}
// groupSeparator is used to concatenate WithGroup names and attribute keys.
const groupSeparator = "."
// GetLevel is used for black box unit testing.
func (l *slogHandler) GetLevel() slog.Level {
return l.levelBias
}
func (l *slogHandler) Enabled(_ context.Context, level slog.Level) bool {
return l.sink != nil && (level >= slog.LevelError || l.sink.Enabled(l.levelFromSlog(level)))
}
func (l *slogHandler) Handle(ctx context.Context, record slog.Record) error {
if l.slogSink != nil {
// Only adjust verbosity level of log entries < slog.LevelError.
if record.Level < slog.LevelError {
record.Level -= l.levelBias
}
return l.slogSink.Handle(ctx, record)
}
// No need to check for nil sink here because Handle will only be called
// when Enabled returned true.
kvList := make([]any, 0, 2*record.NumAttrs())
record.Attrs(func(attr slog.Attr) bool {
kvList = attrToKVs(attr, l.groupPrefix, kvList)
return true
})
if record.Level >= slog.LevelError {
l.sinkWithCallDepth().Error(nil, record.Message, kvList...)
} else {
level := l.levelFromSlog(record.Level)
l.sinkWithCallDepth().Info(level, record.Message, kvList...)
}
return nil
}
// sinkWithCallDepth adjusts the stack unwinding so that when Error or Info
// are called by Handle, code in slog gets skipped.
//
// This offset currently (Go 1.21.0) works for calls through
// slog.New(ToSlogHandler(...)). There's no guarantee that the call
// chain won't change. Wrapping the handler will also break unwinding. It's
// still better than not adjusting at all....
//
// This cannot be done when constructing the handler because FromSlogHandler needs
// access to the original sink without this adjustment. A second copy would
// work, but then WithAttrs would have to be called for both of them.
func (l *slogHandler) sinkWithCallDepth() LogSink {
if sink, ok := l.sink.(CallDepthLogSink); ok {
return sink.WithCallDepth(2)
}
return l.sink
}
func (l *slogHandler) WithAttrs(attrs []slog.Attr) slog.Handler {
if l.sink == nil || len(attrs) == 0 {
return l
}
clone := *l
if l.slogSink != nil {
clone.slogSink = l.slogSink.WithAttrs(attrs)
clone.sink = clone.slogSink
} else {
kvList := make([]any, 0, 2*len(attrs))
for _, attr := range attrs {
kvList = attrToKVs(attr, l.groupPrefix, kvList)
}
clone.sink = l.sink.WithValues(kvList...)
}
return &clone
}
func (l *slogHandler) WithGroup(name string) slog.Handler {
if l.sink == nil {
return l
}
if name == "" {
// slog says to inline empty groups
return l
}
clone := *l
if l.slogSink != nil {
clone.slogSink = l.slogSink.WithGroup(name)
clone.sink = clone.slogSink
} else {
clone.groupPrefix = addPrefix(clone.groupPrefix, name)
}
return &clone
}
// attrToKVs appends a slog.Attr to a logr-style kvList. It handle slog Groups
// and other details of slog.
func attrToKVs(attr slog.Attr, groupPrefix string, kvList []any) []any {
attrVal := attr.Value.Resolve()
if attrVal.Kind() == slog.KindGroup {
groupVal := attrVal.Group()
grpKVs := make([]any, 0, 2*len(groupVal))
prefix := groupPrefix
if attr.Key != "" {
prefix = addPrefix(groupPrefix, attr.Key)
}
for _, attr := range groupVal {
grpKVs = attrToKVs(attr, prefix, grpKVs)
}
kvList = append(kvList, grpKVs...)
} else if attr.Key != "" {
kvList = append(kvList, addPrefix(groupPrefix, attr.Key), attrVal.Any())
}
return kvList
}
func addPrefix(prefix, name string) string {
if prefix == "" {
return name
}
if name == "" {
return prefix
}
return prefix + groupSeparator + name
}
// levelFromSlog adjusts the level by the logger's verbosity and negates it.
// It ensures that the result is >= 0. This is necessary because the result is
// passed to a LogSink and that API did not historically document whether
// levels could be negative or what that meant.
//
// Some example usage:
//
// logrV0 := getMyLogger()
// logrV2 := logrV0.V(2)
// slogV2 := slog.New(logr.ToSlogHandler(logrV2))
// slogV2.Debug("msg") // =~ logrV2.V(4) =~ logrV0.V(6)
// slogV2.Info("msg") // =~ logrV2.V(0) =~ logrV0.V(2)
// slogv2.Warn("msg") // =~ logrV2.V(-4) =~ logrV0.V(0)
func (l *slogHandler) levelFromSlog(level slog.Level) int {
result := -level
result += l.levelBias // in case the original Logger had a V level
if result < 0 {
result = 0 // because LogSink doesn't expect negative V levels
}
return int(result)
}

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//go:build go1.21
// +build go1.21
/*
Copyright 2023 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
import (
"context"
"log/slog"
)
// FromSlogHandler returns a Logger which writes to the slog.Handler.
//
// The logr verbosity level is mapped to slog levels such that V(0) becomes
// slog.LevelInfo and V(4) becomes slog.LevelDebug.
func FromSlogHandler(handler slog.Handler) Logger {
if handler, ok := handler.(*slogHandler); ok {
if handler.sink == nil {
return Discard()
}
return New(handler.sink).V(int(handler.levelBias))
}
return New(&slogSink{handler: handler})
}
// ToSlogHandler returns a slog.Handler which writes to the same sink as the Logger.
//
// The returned logger writes all records with level >= slog.LevelError as
// error log entries with LogSink.Error, regardless of the verbosity level of
// the Logger:
//
// logger := <some Logger with 0 as verbosity level>
// slog.New(ToSlogHandler(logger.V(10))).Error(...) -> logSink.Error(...)
//
// The level of all other records gets reduced by the verbosity
// level of the Logger and the result is negated. If it happens
// to be negative, then it gets replaced by zero because a LogSink
// is not expected to handled negative levels:
//
// slog.New(ToSlogHandler(logger)).Debug(...) -> logger.GetSink().Info(level=4, ...)
// slog.New(ToSlogHandler(logger)).Warning(...) -> logger.GetSink().Info(level=0, ...)
// slog.New(ToSlogHandler(logger)).Info(...) -> logger.GetSink().Info(level=0, ...)
// slog.New(ToSlogHandler(logger.V(4))).Info(...) -> logger.GetSink().Info(level=4, ...)
func ToSlogHandler(logger Logger) slog.Handler {
if sink, ok := logger.GetSink().(*slogSink); ok && logger.GetV() == 0 {
return sink.handler
}
handler := &slogHandler{sink: logger.GetSink(), levelBias: slog.Level(logger.GetV())}
if slogSink, ok := handler.sink.(SlogSink); ok {
handler.slogSink = slogSink
}
return handler
}
// SlogSink is an optional interface that a LogSink can implement to support
// logging through the slog.Logger or slog.Handler APIs better. It then should
// also support special slog values like slog.Group. When used as a
// slog.Handler, the advantages are:
//
// - stack unwinding gets avoided in favor of logging the pre-recorded PC,
// as intended by slog
// - proper grouping of key/value pairs via WithGroup
// - verbosity levels > slog.LevelInfo can be recorded
// - less overhead
//
// Both APIs (Logger and slog.Logger/Handler) then are supported equally
// well. Developers can pick whatever API suits them better and/or mix
// packages which use either API in the same binary with a common logging
// implementation.
//
// This interface is necessary because the type implementing the LogSink
// interface cannot also implement the slog.Handler interface due to the
// different prototype of the common Enabled method.
//
// An implementation could support both interfaces in two different types, but then
// additional interfaces would be needed to convert between those types in FromSlogHandler
// and ToSlogHandler.
type SlogSink interface {
LogSink
Handle(ctx context.Context, record slog.Record) error
WithAttrs(attrs []slog.Attr) SlogSink
WithGroup(name string) SlogSink
}

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//go:build go1.21
// +build go1.21
/*
Copyright 2023 The logr Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package logr
import (
"context"
"log/slog"
"runtime"
"time"
)
var (
_ LogSink = &slogSink{}
_ CallDepthLogSink = &slogSink{}
_ Underlier = &slogSink{}
)
// Underlier is implemented by the LogSink returned by NewFromLogHandler.
type Underlier interface {
// GetUnderlying returns the Handler used by the LogSink.
GetUnderlying() slog.Handler
}
const (
// nameKey is used to log the `WithName` values as an additional attribute.
nameKey = "logger"
// errKey is used to log the error parameter of Error as an additional attribute.
errKey = "err"
)
type slogSink struct {
callDepth int
name string
handler slog.Handler
}
func (l *slogSink) Init(info RuntimeInfo) {
l.callDepth = info.CallDepth
}
func (l *slogSink) GetUnderlying() slog.Handler {
return l.handler
}
func (l *slogSink) WithCallDepth(depth int) LogSink {
newLogger := *l
newLogger.callDepth += depth
return &newLogger
}
func (l *slogSink) Enabled(level int) bool {
return l.handler.Enabled(context.Background(), slog.Level(-level))
}
func (l *slogSink) Info(level int, msg string, kvList ...interface{}) {
l.log(nil, msg, slog.Level(-level), kvList...)
}
func (l *slogSink) Error(err error, msg string, kvList ...interface{}) {
l.log(err, msg, slog.LevelError, kvList...)
}
func (l *slogSink) log(err error, msg string, level slog.Level, kvList ...interface{}) {
var pcs [1]uintptr
// skip runtime.Callers, this function, Info/Error, and all helper functions above that.
runtime.Callers(3+l.callDepth, pcs[:])
record := slog.NewRecord(time.Now(), level, msg, pcs[0])
if l.name != "" {
record.AddAttrs(slog.String(nameKey, l.name))
}
if err != nil {
record.AddAttrs(slog.Any(errKey, err))
}
record.Add(kvList...)
_ = l.handler.Handle(context.Background(), record)
}
func (l slogSink) WithName(name string) LogSink {
if l.name != "" {
l.name += "/"
}
l.name += name
return &l
}
func (l slogSink) WithValues(kvList ...interface{}) LogSink {
l.handler = l.handler.WithAttrs(kvListToAttrs(kvList...))
return &l
}
func kvListToAttrs(kvList ...interface{}) []slog.Attr {
// We don't need the record itself, only its Add method.
record := slog.NewRecord(time.Time{}, 0, "", 0)
record.Add(kvList...)
attrs := make([]slog.Attr, 0, record.NumAttrs())
record.Attrs(func(attr slog.Attr) bool {
attrs = append(attrs, attr)
return true
})
return attrs
}