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pulumi/pkg/diag/sink.go
Matt Ellis 7587bcd7ec Have engine emit "events" instead of writing to streams 
Previously, the engine would write to io.Writer's to display output.
When hosted in `pulumi` these writers were tied to os.Stdout and
os.Stderr, but other applications hosting the engine could send them
other places (e.g. a log to be sent to an another application later).

While much better than just using the ambient streams, this was still
not the best. It would be ideal if the engine could just emit strongly
typed events and whatever is hosting the engine could care about
displaying them.

As a first step down that road, we move to a model where operations on
the engine now take a `chan engine.Event` and during the course of the
operation, events are written to this channel. It is the
responsibility of the caller of the method to read from the channel
until it is closed (singifying that the operation is complete).

The events we do emit are still intermingle presentation with data,
which is unfortunate, but can be improved over time. Most of the
events today are just colorized in the client and printed to stdout or
stderr without much thought.
2017-10-09 18:24:56 -07:00

313 lines
8.6 KiB
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// Copyright 2016-2017, Pulumi Corporation. All rights reserved.
package diag
import (
"bytes"
"fmt"
"io"
"io/ioutil"
"path/filepath"
"strconv"
"sync"
"github.com/golang/glog"
"github.com/pulumi/pulumi/pkg/diag/colors"
"github.com/pulumi/pulumi/pkg/util/contract"
)
// Sink facilitates pluggable diagnostics messages.
type Sink interface {
// Count fetches the total number of diagnostics issued (errors plus warnings).
Count() int
// Infos fetches the number of debug messages issued.
Debugs() int
// Infos fetches the number of stdout informational messages issued.
Infos() int
// Infos fetches the number of stderr informational messages issued.
Infoerrs() int
// Errors fetches the number of errors issued.
Errors() int
// Warnings fetches the number of warnings issued.
Warnings() int
// Success returns true if this sink is currently error-free.
Success() bool
// Logf issues a log message.
Logf(sev Severity, diag *Diag, args ...interface{})
// Debugf issues a debugging message.
Debugf(diag *Diag, args ...interface{})
// Infof issues an informational message (to stdout).
Infof(diag *Diag, args ...interface{})
// Infoerrf issues an informational message (to stderr).
Infoerrf(diag *Diag, args ...interface{})
// Errorf issues a new error diagnostic.
Errorf(diag *Diag, args ...interface{})
// Warningf issues a new warning diagnostic.
Warningf(diag *Diag, args ...interface{})
// Stringify stringifies a diagnostic in the usual way (e.g., "error: MU123: Lumi.yaml:7:39: error goes here\n").
Stringify(sev Severity, diag *Diag, args ...interface{}) string
// StringifyLocation stringifies a source document location.
StringifyLocation(sev Severity, doc *Document, loc *Location) string
}
// Severity dictates the kind of diagnostic.
type Severity string
const (
Debug Severity = "debug"
Info Severity = "info"
Infoerr Severity = "info#err"
Warning Severity = "warning"
Error Severity = "error"
)
// FormatOptions controls the output style and content.
type FormatOptions struct {
Pwd string // the working directory.
Colors bool // if true, output will be colorized.
Debug bool // if true, debugging will be output to stdout.
}
// DefaultSink returns a default sink that simply logs output to stderr/stdout.
func DefaultSink(stdout io.Writer, stderr io.Writer, opts FormatOptions) Sink {
contract.Require(stdout != nil, "stdout")
contract.Require(stderr != nil, "stderr")
// Discard debug output by default unless requested.
debug := ioutil.Discard
if opts.Debug {
debug = stdout
}
return newDefaultSink(opts, map[Severity]io.Writer{
Debug: debug,
Info: stdout,
Infoerr: stderr,
Error: stderr,
Warning: stderr,
})
}
func newDefaultSink(opts FormatOptions, writers map[Severity]io.Writer) *defaultSink {
contract.Assert(writers[Debug] != nil)
contract.Assert(writers[Info] != nil)
contract.Assert(writers[Infoerr] != nil)
contract.Assert(writers[Error] != nil)
contract.Assert(writers[Warning] != nil)
return &defaultSink{
opts: opts,
counts: make(map[Severity]int),
writers: writers,
}
}
const DefaultSinkIDPrefix = "PU"
// defaultSink is the default sink which logs output to stderr/stdout.
type defaultSink struct {
opts FormatOptions // a set of options that control output style and content.
writers map[Severity]io.Writer // the writers to use for each kind of diagnostic severity.
counts map[Severity]int // the number of messages that have been issued per severity.
mutex sync.RWMutex // a mutex for guarding updates to the counts map
}
func (d *defaultSink) Count() int { return d.Debugs() + d.Infos() + d.Errors() + d.Warnings() }
func (d *defaultSink) Debugs() int { return d.getCount(Debug) }
func (d *defaultSink) Infos() int { return d.getCount(Info) }
func (d *defaultSink) Infoerrs() int { return d.getCount(Infoerr) }
func (d *defaultSink) Errors() int { return d.getCount(Error) }
func (d *defaultSink) Warnings() int { return d.getCount(Warning) }
func (d *defaultSink) Success() bool { return d.Errors() == 0 }
func (d *defaultSink) Logf(sev Severity, diag *Diag, args ...interface{}) {
switch sev {
case Debug:
d.Debugf(diag, args...)
case Info:
d.Infof(diag, args...)
case Infoerr:
d.Infoerrf(diag, args...)
case Warning:
d.Warningf(diag, args...)
case Error:
d.Errorf(diag, args...)
default:
contract.Failf("Unrecognized severity: %v", sev)
}
}
func (d *defaultSink) Debugf(diag *Diag, args ...interface{}) {
// For debug messages, write both to the glogger and a stream, if there is one.
glog.V(3).Infof(diag.Message, args...)
msg := d.Stringify(Debug, diag, args...)
if glog.V(9) {
glog.V(9).Infof("defaultSink::Debug(%v)", msg[:len(msg)-1])
}
fmt.Fprintf(d.writers[Debug], msg)
d.incrementCount(Debug)
}
func (d *defaultSink) Infof(diag *Diag, args ...interface{}) {
msg := d.Stringify(Info, diag, args...)
if glog.V(5) {
glog.V(5).Infof("defaultSink::Info(%v)", msg[:len(msg)-1])
}
fmt.Fprintf(d.writers[Info], msg)
d.incrementCount(Info)
}
func (d *defaultSink) Infoerrf(diag *Diag, args ...interface{}) {
msg := d.Stringify(Info /* not Infoerr, just "info: "*/, diag, args...)
if glog.V(5) {
glog.V(5).Infof("defaultSink::Infoerr(%v)", msg[:len(msg)-1])
}
fmt.Fprintf(d.writers[Infoerr], msg)
d.incrementCount(Infoerr)
}
func (d *defaultSink) Errorf(diag *Diag, args ...interface{}) {
msg := d.Stringify(Error, diag, args...)
if glog.V(5) {
glog.V(5).Infof("defaultSink::Error(%v)", msg[:len(msg)-1])
}
fmt.Fprintf(d.writers[Error], msg)
d.incrementCount(Error)
}
func (d *defaultSink) Warningf(diag *Diag, args ...interface{}) {
msg := d.Stringify(Warning, diag, args...)
if glog.V(5) {
glog.V(5).Infof("defaultSink::Warning(%v)", msg[:len(msg)-1])
}
fmt.Fprintf(d.writers[Warning], msg)
d.incrementCount(Warning)
}
func (d *defaultSink) incrementCount(sev Severity) {
d.mutex.Lock()
defer d.mutex.Unlock()
d.counts[sev]++
}
func (d *defaultSink) getCount(sev Severity) int {
d.mutex.RLock()
defer d.mutex.RUnlock()
return d.counts[sev]
}
func (d *defaultSink) useColor(sev Severity) bool {
// we will use color so long as we're not spewing to debug (which is colorless).
return d.opts.Colors
}
func (d *defaultSink) Stringify(sev Severity, diag *Diag, args ...interface{}) string {
var buffer bytes.Buffer
// First print the location if there is one.
if diag.Doc != nil || diag.Loc != nil {
buffer.WriteString(d.StringifyLocation(sev, diag.Doc, diag.Loc))
buffer.WriteString(": ")
}
// Now print the message category's prefix (error/warning).
if d.useColor(sev) {
switch sev {
case Debug:
buffer.WriteString(colors.SpecDebug)
case Info, Infoerr:
buffer.WriteString(colors.SpecInfo)
case Error:
buffer.WriteString(colors.SpecError)
case Warning:
buffer.WriteString(colors.SpecWarning)
default:
contract.Failf("Unrecognized diagnostic severity: %v", sev)
}
}
buffer.WriteString(string(sev))
if diag.ID > 0 {
buffer.WriteString(" ")
buffer.WriteString(DefaultSinkIDPrefix)
buffer.WriteString(strconv.Itoa(int(diag.ID)))
}
buffer.WriteString(": ")
if d.useColor(sev) {
buffer.WriteString(colors.Reset)
}
// Finally, actually print the message itself.
if d.useColor(sev) {
buffer.WriteString(colors.SpecNote)
}
buffer.WriteString(fmt.Sprintf(diag.Message, args...))
if d.useColor(sev) {
buffer.WriteString(colors.Reset)
}
buffer.WriteRune('\n')
// TODO[pulumi/pulumi#15]: support Clang-style expressive diagnostics. This would entail, for example, using
// the buffer within the target document, to demonstrate the offending line/column range of code.
s := buffer.String()
// If colorization was requested, compile and execute the directives now.
if d.useColor(sev) {
s = colors.ColorizeText(s)
}
return s
}
func (d *defaultSink) StringifyLocation(sev Severity, doc *Document, loc *Location) string {
var buffer bytes.Buffer
if doc != nil {
if d.useColor(sev) {
buffer.WriteString(colors.SpecLocation)
}
file := doc.File
if d.opts.Pwd != "" {
// If a PWD is available, try to create a relative path.
rel, err := filepath.Rel(d.opts.Pwd, file)
if err == nil {
file = rel
}
}
buffer.WriteString(file)
}
if loc != nil && !loc.IsEmpty() {
buffer.WriteRune('(')
buffer.WriteString(strconv.Itoa(loc.Start.Line))
buffer.WriteRune(',')
buffer.WriteString(strconv.Itoa(loc.Start.Column))
buffer.WriteRune(')')
}
var s string
if doc != nil || loc != nil {
if d.useColor(sev) {
buffer.WriteString(colors.Reset)
}
s = buffer.String()
// If colorization was requested, compile and execute the directives now.
if d.useColor(sev) {
s = colors.ColorizeText(s)
}
}
return s
}
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