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ctrl/errorkernel.go
2023-01-12 12:03:10 +01:00

321 lines
8.9 KiB
Go

// The error kernel shall handle errors for a given process.
// This will be cases where the process itself were unable
// to handle the error on it's own, and we might need to
// restart the process, or send a message back to the operator
// that the action which the message where supposed to trigger
// failed, or that an event where unable to be processed.
package steward
import (
"context"
"fmt"
"log"
"os"
"time"
"golang.org/x/exp/slog"
)
// errorKernel is the structure that will hold all the error
// handling values and logic.
type errorKernel struct {
// NOTE: The errorKernel should probably have a concept
// of error-state which is a map of all the processes,
// how many times a process have failed over the same
// message etc...
// errorCh is used to report errors from a process
errorCh chan errorEvent
// testCh is used within REQTest for receving data for tests.
testCh chan []byte
ctx context.Context
cancel context.CancelFunc
metrics *metrics
configuration *Configuration
}
// newErrorKernel will initialize and return a new error kernel
func newErrorKernel(ctx context.Context, m *metrics, configuration *Configuration) *errorKernel {
ctxC, cancel := context.WithCancel(ctx)
return &errorKernel{
errorCh: make(chan errorEvent, 2),
testCh: make(chan []byte),
ctx: ctxC,
cancel: cancel,
metrics: m,
configuration: configuration,
}
}
type logLevel string
const logError logLevel = "error"
const logInfo logLevel = "info"
const logWarning logLevel = "warning"
const logDebug logLevel = "debug"
const logNone logLevel = "none"
// startErrorKernel will start the error kernel and check if there
// have been reveived any errors from any of the processes, and
// handle them appropriately.
//
// NOTE: Since a process will be locked while waiting to send the error
// on the errorCh maybe it makes sense to have a channel inside the
// processes error handling with a select so we can send back to the
// process if it should continue or not based not based on how severe
// the error where. This should be right after sending the error
// sending in the process.
func (e *errorKernel) start(ringBufferBulkInCh chan<- []subjectAndMessage) error {
// Initiate the slog logger.
var replaceFunc func(groups []string, a slog.Attr) slog.Attr
if !e.configuration.LogConsoleTimestamps {
replaceFunc = func(groups []string, a slog.Attr) slog.Attr {
if a.Key == slog.TimeKey {
return slog.Attr{}
}
return a
}
}
switch {
case e.configuration.LogLevel == string(logError):
opts := slog.HandlerOptions{Level: slog.LevelError,
ReplaceAttr: replaceFunc}
slog.SetDefault(slog.New(opts.NewTextHandler(os.Stderr)))
case e.configuration.LogLevel == string(logInfo):
opts := slog.HandlerOptions{Level: slog.LevelInfo,
ReplaceAttr: replaceFunc}
slog.SetDefault(slog.New(opts.NewTextHandler(os.Stderr)))
case e.configuration.LogLevel == string(logWarning):
opts := slog.HandlerOptions{Level: slog.LevelWarn,
ReplaceAttr: replaceFunc}
slog.SetDefault(slog.New(opts.NewTextHandler(os.Stderr)))
case e.configuration.LogLevel == string(logDebug):
opts := slog.HandlerOptions{Level: slog.LevelDebug,
ReplaceAttr: replaceFunc}
slog.SetDefault(slog.New(opts.NewTextHandler(os.Stderr)))
case e.configuration.LogLevel == string(logNone):
// TODO:
default:
log.Printf("error: not valid log level: %v\n", e.configuration.LogLevel)
os.Exit(1)
}
for {
var errEvent errorEvent
select {
case errEvent = <-e.errorCh:
case <-e.ctx.Done():
return fmt.Errorf("info: stopping errorKernel")
}
sendErrorOrInfo := func(errEvent errorEvent) {
er := fmt.Sprintf("%v, node: %v, %v\n", time.Now().Format("Mon Jan _2 15:04:05 2006"), errEvent.process.node, errEvent.err)
m := Message{
Directory: "errorLog",
ToNode: "errorCentral",
FromNode: errEvent.process.node,
FileName: "error.log",
Data: []byte(er),
Method: REQErrorLog,
ACKTimeout: errEvent.process.configuration.ErrorMessageTimeout,
Retries: errEvent.process.configuration.ErrorMessageRetries,
}
sam := subjectAndMessage{
Subject: newSubject(REQErrorLog, "errorCentral"),
Message: m,
}
// Put the message on the channel to the ringbuffer.
ringBufferBulkInCh <- []subjectAndMessage{sam}
// if errEvent.process.configuration.EnableDebug {
// log.Printf("%v\n", er)
// }
switch errEvent.logLevel {
case logError:
slog.Error("error", fmt.Errorf("%v", er))
case logInfo:
slog.Info(er)
case logWarning:
slog.Warn(er)
case logDebug:
slog.Debug(er)
case logNone:
// Do nothing for type logNone errors.
}
}
// Check the type of the error to decide what to do.
//
// We should be able to handle each error individually and
// also concurrently, so each handler is started in it's
// own go routine
//
// Here we should check the severity of the error,
// and also possibly the the error-state of the process
// that fails.
switch errEvent.errorType {
case errTypeSendError:
// Just log the error by creating a message and send it
// to the errorCentral log server.
go func() {
sendErrorOrInfo(errEvent)
e.metrics.promErrorMessagesSentTotal.Inc()
}()
case errTypeSendInfo:
// Just log the error by creating a message and send it
// to the errorCentral log server.
go func() {
sendErrorOrInfo(errEvent)
e.metrics.promInfoMessagesSentTotal.Inc()
}()
case errTypeWithAction:
// Just print the error, and tell the process to continue. The
// process who sent the error should block and wait for receiving
// an errActionContinue message.
go func() {
log.Printf("TESTING, we received and error from the process, but we're telling the process back to continue\n")
// Send a message back to where the errWithAction function
// was called on the errorActionCh so the caller can decide
// what to do based on the response.
select {
case errEvent.errorActionCh <- errActionContinue:
case <-e.ctx.Done():
log.Printf("info: errorKernel: got ctx.Done, will stop waiting for errAction\n")
return
}
// We also want to log the error.
e.errSend(errEvent.process, errEvent.message, errEvent.err, logWarning)
}()
default:
// fmt.Printf(" * case default\n")
}
}
}
func (e *errorKernel) stop() {
e.cancel()
}
type errorEvent struct {
// The actual error
err error
// Channel for communicating the action to take back to
// to the process who triggered the error
errorActionCh chan errorAction
// Some informational text
errorType errorType
// The process structure that belongs to a given process
process process
// The message that where in progress when error occured
message Message
// Level, the log level of the severity
logLevel logLevel
}
func (e errorEvent) Error() string {
return fmt.Sprintf("worker error: proc = %#v, message = %#v", e.process, e.message)
}
// errSend will just send an error message to the errorCentral.
func (e *errorKernel) errSend(proc process, msg Message, err error, logLevel logLevel) {
ev := errorEvent{
err: err,
errorType: errTypeSendError,
process: proc,
message: msg,
logLevel: logLevel,
// We don't want to create any actions when just
// sending errors.
// errorActionCh: make(chan errorAction),
}
e.errorCh <- ev
}
// infoSend will just send an info message to the errorCentral.
func (e *errorKernel) infoSend(proc process, msg Message, err error) {
ev := errorEvent{
err: err,
errorType: errTypeSendInfo,
process: proc,
message: msg,
// We don't want to create any actions when just
// sending errors.
// errorActionCh: make(chan errorAction),
}
e.errorCh <- ev
}
func (e *errorKernel) logError(err error, c *Configuration) {
if c.LogLevel == string(logError) {
slog.Error("error", err)
}
}
func (e *errorKernel) logInfo(err error, c *Configuration) {
if c.LogLevel == string(logInfo) {
slog.Info(err.Error())
}
}
func (e *errorKernel) logWarn(err error, c *Configuration) {
if c.LogLevel == string(logWarning) {
slog.Warn(err.Error())
}
}
func (e *errorKernel) logDebug(err error, c *Configuration) {
if c.LogLevel == string(logDebug) {
slog.Debug(err.Error())
}
}
// errorAction is used to tell the process who sent the error
// what it shall do. The process who sends the error will
// have to block and wait for the response on the errorActionCh.
type errorAction int
const (
// errActionContinue is ment to be used when the a process
// can just continue without taking any special care.
errActionContinue errorAction = iota
// TODO NOT IMPLEMENTED YET:
// errActionKill should log the error,
// and f.ex. stop the current work, and restart from start?
// errActionKill errorAction = iota
)
// errorType
type errorType int
const (
// errSend will just send the content of the error to the
// central error logger.
errTypeSendError errorType = iota
errTypeSendInfo errorType = iota
errTypeWithAction errorType = iota
)