334 lines
12 KiB
Go
334 lines
12 KiB
Go
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/*
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Package log15 provides an opinionated, simple toolkit for best-practice logging that is
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both human and machine readable. It is modeled after the standard library's io and net/http
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packages.
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This package enforces you to only log key/value pairs. Keys must be strings. Values may be
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any type that you like. The default output format is logfmt, but you may also choose to use
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JSON instead if that suits you. Here's how you log:
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log.Info("page accessed", "path", r.URL.Path, "user_id", user.id)
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This will output a line that looks like:
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lvl=info t=2014-05-02T16:07:23-0700 msg="page accessed" path=/org/71/profile user_id=9
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Getting Started
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To get started, you'll want to import the library:
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import log "github.com/inconshreveable/log15"
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Now you're ready to start logging:
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func main() {
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log.Info("Program starting", "args", os.Args())
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}
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Convention
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Because recording a human-meaningful message is common and good practice, the first argument to every
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logging method is the value to the *implicit* key 'msg'.
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Additionally, the level you choose for a message will be automatically added with the key 'lvl', and so
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will the current timestamp with key 't'.
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You may supply any additional context as a set of key/value pairs to the logging function. log15 allows
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you to favor terseness, ordering, and speed over safety. This is a reasonable tradeoff for
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logging functions. You don't need to explicitly state keys/values, log15 understands that they alternate
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in the variadic argument list:
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log.Warn("size out of bounds", "low", lowBound, "high", highBound, "val", val)
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If you really do favor your type-safety, you may choose to pass a log.Ctx instead:
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log.Warn("size out of bounds", log.Ctx{"low": lowBound, "high": highBound, "val": val})
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Context loggers
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Frequently, you want to add context to a logger so that you can track actions associated with it. An http
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request is a good example. You can easily create new loggers that have context that is automatically included
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with each log line:
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requestlogger := log.New("path", r.URL.Path)
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// later
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requestlogger.Debug("db txn commit", "duration", txnTimer.Finish())
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This will output a log line that includes the path context that is attached to the logger:
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lvl=dbug t=2014-05-02T16:07:23-0700 path=/repo/12/add_hook msg="db txn commit" duration=0.12
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Handlers
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The Handler interface defines where log lines are printed to and how they are formated. Handler is a
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single interface that is inspired by net/http's handler interface:
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type Handler interface {
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Log(r *Record) error
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}
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Handlers can filter records, format them, or dispatch to multiple other Handlers.
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This package implements a number of Handlers for common logging patterns that are
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easily composed to create flexible, custom logging structures.
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Here's an example handler that prints logfmt output to Stdout:
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handler := log.StreamHandler(os.Stdout, log.LogfmtFormat())
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Here's an example handler that defers to two other handlers. One handler only prints records
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from the rpc package in logfmt to standard out. The other prints records at Error level
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or above in JSON formatted output to the file /var/log/service.json
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handler := log.MultiHandler(
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log.LvlFilterHandler(log.LvlError, log.Must.FileHandler("/var/log/service.json", log.JsonFormat())),
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log.MatchFilterHandler("pkg", "app/rpc" log.StdoutHandler())
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)
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Logging File Names and Line Numbers
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This package implements three Handlers that add debugging information to the
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context, CallerFileHandler, CallerFuncHandler and CallerStackHandler. Here's
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an example that adds the source file and line number of each logging call to
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the context.
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h := log.CallerFileHandler(log.StdoutHandler)
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log.Root().SetHandler(h)
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...
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log.Error("open file", "err", err)
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This will output a line that looks like:
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lvl=eror t=2014-05-02T16:07:23-0700 msg="open file" err="file not found" caller=data.go:42
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Here's an example that logs the call stack rather than just the call site.
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h := log.CallerStackHandler("%+v", log.StdoutHandler)
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log.Root().SetHandler(h)
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...
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log.Error("open file", "err", err)
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This will output a line that looks like:
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lvl=eror t=2014-05-02T16:07:23-0700 msg="open file" err="file not found" stack="[pkg/data.go:42 pkg/cmd/main.go]"
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The "%+v" format instructs the handler to include the path of the source file
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relative to the compile time GOPATH. The github.com/go-stack/stack package
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documents the full list of formatting verbs and modifiers available.
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Custom Handlers
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The Handler interface is so simple that it's also trivial to write your own. Let's create an
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example handler which tries to write to one handler, but if that fails it falls back to
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writing to another handler and includes the error that it encountered when trying to write
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to the primary. This might be useful when trying to log over a network socket, but if that
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fails you want to log those records to a file on disk.
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type BackupHandler struct {
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Primary Handler
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Secondary Handler
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}
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func (h *BackupHandler) Log (r *Record) error {
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err := h.Primary.Log(r)
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if err != nil {
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r.Ctx = append(ctx, "primary_err", err)
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return h.Secondary.Log(r)
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}
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return nil
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}
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This pattern is so useful that a generic version that handles an arbitrary number of Handlers
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is included as part of this library called FailoverHandler.
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Logging Expensive Operations
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Sometimes, you want to log values that are extremely expensive to compute, but you don't want to pay
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the price of computing them if you haven't turned up your logging level to a high level of detail.
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This package provides a simple type to annotate a logging operation that you want to be evaluated
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lazily, just when it is about to be logged, so that it would not be evaluated if an upstream Handler
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filters it out. Just wrap any function which takes no arguments with the log.Lazy type. For example:
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func factorRSAKey() (factors []int) {
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// return the factors of a very large number
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}
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log.Debug("factors", log.Lazy{factorRSAKey})
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If this message is not logged for any reason (like logging at the Error level), then
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factorRSAKey is never evaluated.
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Dynamic context values
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The same log.Lazy mechanism can be used to attach context to a logger which you want to be
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evaluated when the message is logged, but not when the logger is created. For example, let's imagine
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a game where you have Player objects:
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type Player struct {
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name string
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alive bool
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log.Logger
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}
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You always want to log a player's name and whether they're alive or dead, so when you create the player
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object, you might do:
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p := &Player{name: name, alive: true}
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p.Logger = log.New("name", p.name, "alive", p.alive)
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Only now, even after a player has died, the logger will still report they are alive because the logging
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context is evaluated when the logger was created. By using the Lazy wrapper, we can defer the evaluation
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of whether the player is alive or not to each log message, so that the log records will reflect the player's
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current state no matter when the log message is written:
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p := &Player{name: name, alive: true}
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isAlive := func() bool { return p.alive }
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player.Logger = log.New("name", p.name, "alive", log.Lazy{isAlive})
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Terminal Format
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If log15 detects that stdout is a terminal, it will configure the default
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handler for it (which is log.StdoutHandler) to use TerminalFormat. This format
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logs records nicely for your terminal, including color-coded output based
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on log level.
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Error Handling
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Becasuse log15 allows you to step around the type system, there are a few ways you can specify
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invalid arguments to the logging functions. You could, for example, wrap something that is not
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a zero-argument function with log.Lazy or pass a context key that is not a string. Since logging libraries
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are typically the mechanism by which errors are reported, it would be onerous for the logging functions
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to return errors. Instead, log15 handles errors by making these guarantees to you:
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- Any log record containing an error will still be printed with the error explained to you as part of the log record.
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- Any log record containing an error will include the context key LOG15_ERROR, enabling you to easily
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(and if you like, automatically) detect if any of your logging calls are passing bad values.
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Understanding this, you might wonder why the Handler interface can return an error value in its Log method. Handlers
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are encouraged to return errors only if they fail to write their log records out to an external source like if the
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syslog daemon is not responding. This allows the construction of useful handlers which cope with those failures
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like the FailoverHandler.
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Library Use
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log15 is intended to be useful for library authors as a way to provide configurable logging to
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users of their library. Best practice for use in a library is to always disable all output for your logger
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by default and to provide a public Logger instance that consumers of your library can configure. Like so:
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package yourlib
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import "github.com/inconshreveable/log15"
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var Log = log.New()
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func init() {
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Log.SetHandler(log.DiscardHandler())
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}
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Users of your library may then enable it if they like:
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import "github.com/inconshreveable/log15"
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import "example.com/yourlib"
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func main() {
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handler := // custom handler setup
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yourlib.Log.SetHandler(handler)
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}
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Best practices attaching logger context
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The ability to attach context to a logger is a powerful one. Where should you do it and why?
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I favor embedding a Logger directly into any persistent object in my application and adding
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unique, tracing context keys to it. For instance, imagine I am writing a web browser:
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type Tab struct {
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url string
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render *RenderingContext
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// ...
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Logger
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}
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func NewTab(url string) *Tab {
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return &Tab {
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// ...
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url: url,
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Logger: log.New("url", url),
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}
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}
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When a new tab is created, I assign a logger to it with the url of
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the tab as context so it can easily be traced through the logs.
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Now, whenever we perform any operation with the tab, we'll log with its
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embedded logger and it will include the tab title automatically:
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tab.Debug("moved position", "idx", tab.idx)
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There's only one problem. What if the tab url changes? We could
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use log.Lazy to make sure the current url is always written, but that
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would mean that we couldn't trace a tab's full lifetime through our
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logs after the user navigate to a new URL.
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Instead, think about what values to attach to your loggers the
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same way you think about what to use as a key in a SQL database schema.
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If it's possible to use a natural key that is unique for the lifetime of the
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object, do so. But otherwise, log15's ext package has a handy RandId
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function to let you generate what you might call "surrogate keys"
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They're just random hex identifiers to use for tracing. Back to our
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Tab example, we would prefer to set up our Logger like so:
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import logext "github.com/inconshreveable/log15/ext"
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t := &Tab {
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// ...
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url: url,
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}
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t.Logger = log.New("id", logext.RandId(8), "url", log.Lazy{t.getUrl})
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return t
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Now we'll have a unique traceable identifier even across loading new urls, but
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we'll still be able to see the tab's current url in the log messages.
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Must
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For all Handler functions which can return an error, there is a version of that
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function which will return no error but panics on failure. They are all available
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on the Must object. For example:
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log.Must.FileHandler("/path", log.JsonFormat)
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log.Must.NetHandler("tcp", ":1234", log.JsonFormat)
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Inspiration and Credit
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All of the following excellent projects inspired the design of this library:
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code.google.com/p/log4go
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github.com/op/go-logging
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github.com/technoweenie/grohl
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github.com/Sirupsen/logrus
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github.com/kr/logfmt
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github.com/spacemonkeygo/spacelog
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golang's stdlib, notably io and net/http
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The Name
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https://xkcd.com/927/
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*/
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package log
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