示例#1
0
文件: acl.go 项目: netantho/mig
// checkActionAuthorization verifies the PGP signatures of a given action
// against the Access Control List of the agent.
func checkActionAuthorization(a mig.Action, ctx Context) (err error) {
	defer func() {
		if e := recover(); e != nil {
			err = fmt.Errorf("checkActionAuthorization() -> %v", e)
		}
		ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: "leaving checkActionAuthorization()"}.Debug()
	}()
	// get an io.Reader from the public pgp key
	keyring, keycount, err := pgp.ArmoredPubKeysToKeyring(PUBLICPGPKEYS[0:])
	if err != nil {
		panic(err)
	}
	ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: fmt.Sprintf("loaded %d keys", keycount)}.Debug()

	// Check the action syntax and signature
	err = a.Validate()
	if err != nil {
		desc := fmt.Sprintf("action validation failed: %v", err)
		ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: desc}.Err()
		panic(desc)
	}
	// Validate() checks that the action hasn't expired, but we need to
	// check the start time ourselves
	if time.Now().Before(a.ValidFrom) {
		ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: "action is scheduled for later"}.Err()
		panic("Action ValidFrom date is in the future")
	}

	// check ACLs, includes verifying signatures
	err = a.VerifyACL(ctx.ACL, keyring)
	if err != nil {
		desc := fmt.Sprintf("action ACL verification failed: %v", err)
		ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: desc}.Err()
		panic(desc)
	}

	ctx.Channels.Log <- mig.Log{ActionID: a.ID, Desc: "ACL verification succeeded."}.Debug()
	return
}
示例#2
0
文件: agent.go 项目: jeffbryner/mig
// parseCommands transforms a message into a MIG Command struct, performs validation
// and run the command
func parseCommands(ctx Context, msg []byte) (err error) {
	var cmd mig.Command
	cmd.ID = 0 // safety net
	defer func() {
		if e := recover(); e != nil {
			err = fmt.Errorf("parseCommands() -> %v", e)

			// if we have a command to return, update status and send back
			if cmd.ID > 0 {
				errLog := mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: fmt.Sprintf("%v", err)}.Err()
				cmd.Results = append(cmd.Results, errLog)
				cmd.Status = "failed"
				ctx.Channels.Results <- cmd
			}
		}
		ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: "leaving parseCommands()"}.Debug()
	}()

	// unmarshal the received command into a command struct
	// if this fails, inform the scheduler and skip this message
	err = json.Unmarshal(msg, &cmd)
	if err != nil {
		panic(err)
	}

	// get an io.Reader from the public pgp key
	keyring, keycount, err := pgp.ArmoredPubKeysToKeyring(PUBLICPGPKEYS[0:])
	if err != nil {
		panic(err)
	}
	ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: fmt.Sprintf("loaded %d keys", keycount)}.Debug()

	// Check the action syntax and signature
	err = cmd.Action.Validate()
	if err != nil {
		desc := fmt.Sprintf("action validation failed: %v", err)
		ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: desc}.Err()
		panic(desc)
	}
	err = cmd.Action.VerifySignature(keyring)
	if err != nil {
		desc := fmt.Sprintf("action signature verification failed: %v", err)
		ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: desc}.Err()
		panic(desc)
	}

	// Expiration is verified by the Validate() call above, but we need
	// to verify the ScheduledDate ourselves
	if time.Now().Before(cmd.Action.ValidFrom) {
		ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: "action is scheduled for later"}.Err()
		panic("ScheduledDateInFuture")
	}

	// Each operation is ran separately by a module, a channel is created to receive the results from each module
	// a goroutine is created to read from the result channel, and when all modules are done, build the response
	resultChan := make(chan moduleResult)
	opsCounter := 0
	for counter, operation := range cmd.Action.Operations {
		// create an module operation object
		currentOp := moduleOp{id: mig.GenID(),
			mode:       operation.Module,
			params:     operation.Parameters,
			resultChan: resultChan}

		desc := fmt.Sprintf("sending operation %d to module %s", counter, operation.Module)
		ctx.Channels.Log <- mig.Log{OpID: currentOp.id, ActionID: cmd.Action.ID, CommandID: cmd.ID, Desc: desc}

		// pass the module operation object to the proper channel
		switch operation.Module {
		case "filechecker":
			// send the operation to the module
			ctx.Channels.RunAgentCommand <- currentOp
			opsCounter++
		case "shell":
			// send to the external execution path
			ctx.Channels.RunExternalCommand <- currentOp
			opsCounter++
		case "terminate":
			ctx.Channels.Terminate <- fmt.Errorf("Terminate order received from scheduler")
			opsCounter++
		default:
			ctx.Channels.Log <- mig.Log{CommandID: cmd.ID, ActionID: cmd.Action.ID, Desc: fmt.Sprintf("module '%s' is invalid", operation.Module)}
		}
	}

	// start the goroutine that will receive the results
	go receiveModuleResults(ctx, cmd, resultChan, opsCounter)

	return
}