deb.open-vault/helper/monitor/monitor.go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0

package monitor

import (
	"fmt"
	"time"

	log "github.com/hashicorp/go-hclog"
	"go.uber.org/atomic"
)

// Monitor provides a mechanism to stream logs using go-hclog
// InterceptLogger and SinkAdapter. It allows streaming of logs
// at a different log level than what is set on the logger.
type Monitor interface {
	// Start returns a channel of log messages which are sent
	// every time a log message occurs
	Start() <-chan []byte

	// Stop de-registers the sink from the InterceptLogger
	// and closes the log channels
	Stop()
}

// monitor implements the Monitor interface. Note that this
// struct is not threadsafe.
type monitor struct {
	sink log.SinkAdapter

	// logger is the logger we will be monitoring
	logger log.InterceptLogger

	// logCh is a buffered chan where we send logs when streaming
	logCh chan []byte

	// doneCh coordinates the shutdown of logCh
	doneCh chan struct{}

	// droppedCount is the current count of messages
	// that were dropped from the logCh buffer.
	droppedCount *atomic.Uint32
	bufSize      int

	// dropCheckInterval is the amount of time we should
	// wait to check for dropped messages. Defaults
	// to 3 seconds
	dropCheckInterval time.Duration

	// started is whether the monitor has been started or not.
	// This is to ensure that we don't start it again until
	// it has been shut down.
	started *atomic.Bool
}

// NewMonitor creates a new Monitor. Start must be called in order to actually start
// streaming logs. buf is the buffer size of the channel that sends log messages.
func NewMonitor(buf int, logger log.InterceptLogger, opts *log.LoggerOptions) (Monitor, error) {
	return newMonitor(buf, logger, opts)
}

func newMonitor(buf int, logger log.InterceptLogger, opts *log.LoggerOptions) (*monitor, error) {
	if buf <= 0 {
		return nil, fmt.Errorf("buf must be greater than zero")
	}

	sw := &monitor{
		logger:            logger,
		logCh:             make(chan []byte, buf),
		doneCh:            make(chan struct{}),
		bufSize:           buf,
		dropCheckInterval: 3 * time.Second,
		droppedCount:      atomic.NewUint32(0),
		started:           atomic.NewBool(false),
	}

	opts.Output = sw
	sink := log.NewSinkAdapter(opts)
	sw.sink = sink

	return sw, nil
}

// Stop deregisters the sink and stops the monitoring process
func (d *monitor) Stop() {
	d.logger.DeregisterSink(d.sink)
	close(d.doneCh)
	d.started.Store(false)
}

// Start registers a sink on the monitor's logger and starts sending
// received log messages over the returned channel.
func (d *monitor) Start() <-chan []byte {
	// Check to see if this has already been started. If not, flag
	// it and proceed. If so, bail out early.
	if !d.started.CAS(false, true) {
		return nil
	}

	// register our sink with the logger
	d.logger.RegisterSink(d.sink)

	streamCh := make(chan []byte, d.bufSize)

	// Run a go routine that listens for streamed
	// log messages and sends them to streamCh.
	//
	// It also periodically checks for dropped
	// messages and makes room on the logCh to add
	// a dropped message count warning
	go func() {
		defer close(streamCh)

		ticker := time.NewTicker(d.dropCheckInterval)
		defer ticker.Stop()

		var logMessage []byte
		for {
			logMessage = nil

			select {
			case <-ticker.C:
				// Check if there have been any dropped messages.
				dc := d.droppedCount.Load()

				if dc > 0 {
					logMessage = []byte(fmt.Sprintf("Monitor dropped %d logs during monitor request\n", dc))
					d.droppedCount.Swap(0)
				}
			case logMessage = <-d.logCh:
			case <-d.doneCh:
				return
			}

			if len(logMessage) > 0 {
				select {
				case <-d.doneCh:
					return
				case streamCh <- logMessage:
				}
			}
		}
	}()

	return streamCh
}

// Write attempts to send latest log to logCh
// it drops the log if channel is unavailable to receive
func (d *monitor) Write(p []byte) (n int, err error) {
	// ensure logCh is still open
	select {
	case <-d.doneCh:
		return
	default:
	}

	bytes := make([]byte, len(p))
	copy(bytes, p)

	select {
	case d.logCh <- bytes:
	default:
		d.droppedCount.Add(1)
	}

	return len(p), nil
}
New upstream version 1.14.8 2024-04-20 12:23:50 +00:00			`// Copyright (c) HashiCorp, Inc.`
			`// SPDX-License-Identifier: MPL-2.0`

			`package monitor`

			`import (`
			`"fmt"`
			`"time"`

			`log "github.com/hashicorp/go-hclog"`
			`"go.uber.org/atomic"`
			`)`

			`// Monitor provides a mechanism to stream logs using go-hclog`
			`// InterceptLogger and SinkAdapter. It allows streaming of logs`
			`// at a different log level than what is set on the logger.`
			`type Monitor interface {`
			`// Start returns a channel of log messages which are sent`
			`// every time a log message occurs`
			`Start() <-chan []byte`

			`// Stop de-registers the sink from the InterceptLogger`
			`// and closes the log channels`
			`Stop()`
			`}`

			`// monitor implements the Monitor interface. Note that this`
			`// struct is not threadsafe.`
			`type monitor struct {`
			`sink log.SinkAdapter`

			`// logger is the logger we will be monitoring`
			`logger log.InterceptLogger`

			`// logCh is a buffered chan where we send logs when streaming`
			`logCh chan []byte`

			`// doneCh coordinates the shutdown of logCh`
			`doneCh chan struct{}`

			`// droppedCount is the current count of messages`
			`// that were dropped from the logCh buffer.`
			`droppedCount *atomic.Uint32`
			`bufSize int`

			`// dropCheckInterval is the amount of time we should`
			`// wait to check for dropped messages. Defaults`
			`// to 3 seconds`
			`dropCheckInterval time.Duration`

			`// started is whether the monitor has been started or not.`
			`// This is to ensure that we don't start it again until`
			`// it has been shut down.`
			`started *atomic.Bool`
			`}`

			`// NewMonitor creates a new Monitor. Start must be called in order to actually start`
			`// streaming logs. buf is the buffer size of the channel that sends log messages.`
			`func NewMonitor(buf int, logger log.InterceptLogger, opts *log.LoggerOptions) (Monitor, error) {`
			`return newMonitor(buf, logger, opts)`
			`}`

			`func newMonitor(buf int, logger log.InterceptLogger, opts log.LoggerOptions) (monitor, error) {`
			`if buf <= 0 {`
			`return nil, fmt.Errorf("buf must be greater than zero")`
			`}`

			`sw := &monitor{`
			`logger: logger,`
			`logCh: make(chan []byte, buf),`
			`doneCh: make(chan struct{}),`
			`bufSize: buf,`
			`dropCheckInterval: 3 * time.Second,`
			`droppedCount: atomic.NewUint32(0),`
			`started: atomic.NewBool(false),`
			`}`

			`opts.Output = sw`
			`sink := log.NewSinkAdapter(opts)`
			`sw.sink = sink`

			`return sw, nil`
			`}`

			`// Stop deregisters the sink and stops the monitoring process`
			`func (d *monitor) Stop() {`
			`d.logger.DeregisterSink(d.sink)`
			`close(d.doneCh)`
			`d.started.Store(false)`
			`}`

			`// Start registers a sink on the monitor's logger and starts sending`
			`// received log messages over the returned channel.`
			`func (d *monitor) Start() <-chan []byte {`
			`// Check to see if this has already been started. If not, flag`
			`// it and proceed. If so, bail out early.`
			`if !d.started.CAS(false, true) {`
			`return nil`
			`}`

			`// register our sink with the logger`
			`d.logger.RegisterSink(d.sink)`

			`streamCh := make(chan []byte, d.bufSize)`

			`// Run a go routine that listens for streamed`
			`// log messages and sends them to streamCh.`
			`//`
			`// It also periodically checks for dropped`
			`// messages and makes room on the logCh to add`
			`// a dropped message count warning`
			`go func() {`
			`defer close(streamCh)`

			`ticker := time.NewTicker(d.dropCheckInterval)`
			`defer ticker.Stop()`

			`var logMessage []byte`
			`for {`
			`logMessage = nil`

			`select {`
			`case <-ticker.C:`
			`// Check if there have been any dropped messages.`
			`dc := d.droppedCount.Load()`

			`if dc > 0 {`
			`logMessage = []byte(fmt.Sprintf("Monitor dropped %d logs during monitor request\n", dc))`
			`d.droppedCount.Swap(0)`
			`}`
			`case logMessage = <-d.logCh:`
			`case <-d.doneCh:`
			`return`
			`}`

			`if len(logMessage) > 0 {`
			`select {`
			`case <-d.doneCh:`
			`return`
			`case streamCh <- logMessage:`
			`}`
			`}`
			`}`
			`}()`

			`return streamCh`
			`}`

			`// Write attempts to send latest log to logCh`
			`// it drops the log if channel is unavailable to receive`
			`func (d *monitor) Write(p []byte) (n int, err error) {`
			`// ensure logCh is still open`
			`select {`
			`case <-d.doneCh:`
			`return`
			`default:`
			`}`

			`bytes := make([]byte, len(p))`
			`copy(bytes, p)`

			`select {`
			`case d.logCh <- bytes:`
			`default:`
			`d.droppedCount.Add(1)`
			`}`

			`return len(p), nil`
			`}`