syz-manager/hub.go - platform/external/syzkaller - Git at Google

 // Copyright 2018 syzkaller project authors. All rights reserved.
 // Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.

 package main

 import (
 	"time"

 	"github.com/google/syzkaller/pkg/hash"
 	"github.com/google/syzkaller/pkg/log"
 	"github.com/google/syzkaller/pkg/mgrconfig"
 	"github.com/google/syzkaller/pkg/report"
 	"github.com/google/syzkaller/pkg/rpctype"
 	"github.com/google/syzkaller/prog"
 )

 func (mgr *Manager) hubSyncLoop() {
 	hc := &HubConnector{
 		mgr:           mgr,
 		cfg:           mgr.cfg,
 		target:        mgr.target,
 		stats:         mgr.stats,
 		enabledCalls:  mgr.checkResult.EnabledCalls[mgr.cfg.Sandbox],
 		fresh:         mgr.fresh,
 		hubReproQueue: mgr.hubReproQueue,
 	}
 	if mgr.cfg.Reproduce && mgr.dash != nil {
 		hc.needMoreRepros = mgr.needMoreRepros
 	}
 	hc.loop()
 }

 type HubConnector struct {
 	mgr            HubManagerView
 	cfg            *mgrconfig.Config
 	target         *prog.Target
 	stats          *Stats
 	enabledCalls   []int
 	fresh          bool
 	hubCorpus      map[hash.Sig]bool
 	newRepros      [][]byte
 	hubReproQueue  chan *Crash
 	needMoreRepros chan chan bool
 }

 // HubManagerView restricts interface between HubConnector and Manager.
 type HubManagerView interface {
 	getMinimizedCorpus() (corpus, repros [][]byte)
 	addNewCandidates(progs [][]byte)
 }

 func (hc *HubConnector) loop() {
 	var hub *rpctype.RPCClient
 	for {
 		time.Sleep(time.Minute)
 		corpus, repros := hc.mgr.getMinimizedCorpus()
 		hc.newRepros = append(hc.newRepros, repros...)
 		if hub == nil {
 			var err error
 			if hub, err = hc.connect(corpus); err != nil {
 				log.Logf(0, "failed to connect to hub at %v: %v", hc.cfg.HubAddr, err)
 				continue
 			}
 			log.Logf(0, "connected to hub at %v, corpus %v", hc.cfg.HubAddr, len(corpus))
 		}
 		if err := hc.sync(hub, corpus); err != nil {
 			log.Logf(0, "hub sync failed: %v", err)
 			hub.Close()
 			hub = nil
 		}
 	}
 }

 func (hc *HubConnector) connect(corpus [][]byte) (*rpctype.RPCClient, error) {
 	a := &rpctype.HubConnectArgs{
 		Client:  hc.cfg.HubClient,
 		Key:     hc.cfg.HubKey,
 		Manager: hc.cfg.Name,
 		Fresh:   hc.fresh,
 	}
 	for _, id := range hc.enabledCalls {
 		a.Calls = append(a.Calls, hc.target.Syscalls[id].Name)
 	}
 	hubCorpus := make(map[hash.Sig]bool)
 	for _, inp := range corpus {
 		hubCorpus[hash.Hash(inp)] = true
 		a.Corpus = append(a.Corpus, inp)
 	}
 	// Hub.Connect request can be very large, so do it on a transient connection
 	// (rpc connection buffers never shrink).
 	if err := rpctype.RPCCall(hc.cfg.HubAddr, "Hub.Connect", a, nil); err != nil {
 		return nil, err
 	}
 	hub, err := rpctype.NewRPCClient(hc.cfg.HubAddr)
 	if err != nil {
 		return nil, err
 	}
 	hc.hubCorpus = hubCorpus
 	hc.fresh = false
 	return hub, nil
 }

 func (hc *HubConnector) sync(hub *rpctype.RPCClient, corpus [][]byte) error {
 	a := &rpctype.HubSyncArgs{
 		Client:  hc.cfg.HubClient,
 		Key:     hc.cfg.HubKey,
 		Manager: hc.cfg.Name,
 	}
 	sigs := make(map[hash.Sig]bool)
 	for _, inp := range corpus {
 		sig := hash.Hash(inp)
 		sigs[sig] = true
 		if hc.hubCorpus[sig] {
 			continue
 		}
 		hc.hubCorpus[sig] = true
 		a.Add = append(a.Add, inp)
 	}
 	for sig := range hc.hubCorpus {
 		if sigs[sig] {
 			continue
 		}
 		delete(hc.hubCorpus, sig)
 		a.Del = append(a.Del, sig.String())
 	}
 	if hc.needMoreRepros != nil {
 		needReproReply := make(chan bool)
 		hc.needMoreRepros <- needReproReply
 		a.NeedRepros = <-needReproReply
 	}
 	a.Repros = hc.newRepros
 	for {
 		r := new(rpctype.HubSyncRes)
 		if err := hub.Call("Hub.Sync", a, r); err != nil {
 			return err
 		}
 		progDropped := hc.processProgs(r.Progs)
 		reproDropped := hc.processRepros(r.Repros)
 		hc.stats.hubSendProgAdd.add(len(a.Add))
 		hc.stats.hubSendProgDel.add(len(a.Del))
 		hc.stats.hubSendRepro.add(len(a.Repros))
 		hc.stats.hubRecvProg.add(len(r.Progs) - progDropped)
 		hc.stats.hubRecvProgDrop.add(progDropped)
 		hc.stats.hubRecvRepro.add(len(r.Repros) - reproDropped)
 		hc.stats.hubRecvReproDrop.add(reproDropped)
 		log.Logf(0, "hub sync: send: add %v, del %v, repros %v;"+
 			" recv: progs %v, repros %v; more %v",
 			len(a.Add), len(a.Del), len(a.Repros),
 			len(r.Progs)-progDropped, len(r.Repros)-reproDropped, r.More)
 		a.Add = nil
 		a.Del = nil
 		a.Repros = nil
 		a.NeedRepros = false
 		hc.newRepros = nil
 		if len(r.Progs)+r.More == 0 {
 			return nil
 		}
 	}
 }

 func (hc *HubConnector) processProgs(progs [][]byte) int {
 	dropped := 0
 	candidates := make([][]byte, 0, len(progs))
 	for _, inp := range progs {
 		if _, err := hc.target.Deserialize(inp, prog.NonStrict); err != nil {
 			dropped++
 			continue
 		}
 		candidates = append(candidates, inp)
 	}
 	hc.mgr.addNewCandidates(candidates)
 	return dropped
 }

 func (hc *HubConnector) processRepros(repros [][]byte) int {
 	dropped := 0
 	for _, repro := range repros {
 		if _, err := hc.target.Deserialize(repro, prog.NonStrict); err != nil {
 			dropped++
 			continue
 		}
 		hc.hubReproQueue <- &Crash{
 			vmIndex: -1,
 			hub:     true,
 			Report: &report.Report{
 				Title:  "external repro",
 				Output: repro,
 			},
 		}
 	}
 	return dropped
 }
	// Copyright 2018 syzkaller project authors. All rights reserved.
	// Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.

	package main

	import (
	"time"

	"github.com/google/syzkaller/pkg/hash"
	"github.com/google/syzkaller/pkg/log"
	"github.com/google/syzkaller/pkg/mgrconfig"
	"github.com/google/syzkaller/pkg/report"
	"github.com/google/syzkaller/pkg/rpctype"
	"github.com/google/syzkaller/prog"
	)

	func (mgr *Manager) hubSyncLoop() {
	hc := &HubConnector{
	mgr: mgr,
	cfg: mgr.cfg,
	target: mgr.target,
	stats: mgr.stats,
	enabledCalls: mgr.checkResult.EnabledCalls[mgr.cfg.Sandbox],
	fresh: mgr.fresh,
	hubReproQueue: mgr.hubReproQueue,
	}
	if mgr.cfg.Reproduce && mgr.dash != nil {
	hc.needMoreRepros = mgr.needMoreRepros
	}
	hc.loop()
	}

	type HubConnector struct {
	mgr HubManagerView
	cfg *mgrconfig.Config
	target *prog.Target
	stats *Stats
	enabledCalls []int
	fresh bool
	hubCorpus map[hash.Sig]bool
	newRepros [][]byte
	hubReproQueue chan *Crash
	needMoreRepros chan chan bool
	}

	// HubManagerView restricts interface between HubConnector and Manager.
	type HubManagerView interface {
	getMinimizedCorpus() (corpus, repros [][]byte)
	addNewCandidates(progs [][]byte)
	}

	func (hc *HubConnector) loop() {
	var hub *rpctype.RPCClient
	for {
	time.Sleep(time.Minute)
	corpus, repros := hc.mgr.getMinimizedCorpus()
	hc.newRepros = append(hc.newRepros, repros...)
	if hub == nil {
	var err error
	if hub, err = hc.connect(corpus); err != nil {
	log.Logf(0, "failed to connect to hub at %v: %v", hc.cfg.HubAddr, err)
	continue
	}
	log.Logf(0, "connected to hub at %v, corpus %v", hc.cfg.HubAddr, len(corpus))
	}
	if err := hc.sync(hub, corpus); err != nil {
	log.Logf(0, "hub sync failed: %v", err)
	hub.Close()
	hub = nil
	}
	}
	}

	func (hc HubConnector) connect(corpus [][]byte) (rpctype.RPCClient, error) {
	a := &rpctype.HubConnectArgs{
	Client: hc.cfg.HubClient,
	Key: hc.cfg.HubKey,
	Manager: hc.cfg.Name,
	Fresh: hc.fresh,
	}
	for _, id := range hc.enabledCalls {
	a.Calls = append(a.Calls, hc.target.Syscalls[id].Name)
	}
	hubCorpus := make(map[hash.Sig]bool)
	for _, inp := range corpus {
	hubCorpus[hash.Hash(inp)] = true
	a.Corpus = append(a.Corpus, inp)
	}
	// Hub.Connect request can be very large, so do it on a transient connection
	// (rpc connection buffers never shrink).
	if err := rpctype.RPCCall(hc.cfg.HubAddr, "Hub.Connect", a, nil); err != nil {
	return nil, err
	}
	hub, err := rpctype.NewRPCClient(hc.cfg.HubAddr)
	if err != nil {
	return nil, err
	}
	hc.hubCorpus = hubCorpus
	hc.fresh = false
	return hub, nil
	}

	func (hc HubConnector) sync(hub rpctype.RPCClient, corpus [][]byte) error {
	a := &rpctype.HubSyncArgs{
	Client: hc.cfg.HubClient,
	Key: hc.cfg.HubKey,
	Manager: hc.cfg.Name,
	}
	sigs := make(map[hash.Sig]bool)
	for _, inp := range corpus {
	sig := hash.Hash(inp)
	sigs[sig] = true
	if hc.hubCorpus[sig] {
	continue
	}
	hc.hubCorpus[sig] = true
	a.Add = append(a.Add, inp)
	}
	for sig := range hc.hubCorpus {
	if sigs[sig] {
	continue
	}
	delete(hc.hubCorpus, sig)
	a.Del = append(a.Del, sig.String())
	}
	if hc.needMoreRepros != nil {
	needReproReply := make(chan bool)
	hc.needMoreRepros <- needReproReply
	a.NeedRepros = <-needReproReply
	}
	a.Repros = hc.newRepros
	for {
	r := new(rpctype.HubSyncRes)
	if err := hub.Call("Hub.Sync", a, r); err != nil {
	return err
	}
	progDropped := hc.processProgs(r.Progs)
	reproDropped := hc.processRepros(r.Repros)
	hc.stats.hubSendProgAdd.add(len(a.Add))
	hc.stats.hubSendProgDel.add(len(a.Del))
	hc.stats.hubSendRepro.add(len(a.Repros))
	hc.stats.hubRecvProg.add(len(r.Progs) - progDropped)
	hc.stats.hubRecvProgDrop.add(progDropped)
	hc.stats.hubRecvRepro.add(len(r.Repros) - reproDropped)
	hc.stats.hubRecvReproDrop.add(reproDropped)
	log.Logf(0, "hub sync: send: add %v, del %v, repros %v;"+
	" recv: progs %v, repros %v; more %v",
	len(a.Add), len(a.Del), len(a.Repros),
	len(r.Progs)-progDropped, len(r.Repros)-reproDropped, r.More)
	a.Add = nil
	a.Del = nil
	a.Repros = nil
	a.NeedRepros = false
	hc.newRepros = nil
	if len(r.Progs)+r.More == 0 {
	return nil
	}
	}
	}

	func (hc *HubConnector) processProgs(progs [][]byte) int {
	dropped := 0
	candidates := make([][]byte, 0, len(progs))
	for _, inp := range progs {
	if _, err := hc.target.Deserialize(inp, prog.NonStrict); err != nil {
	dropped++
	continue
	}
	candidates = append(candidates, inp)
	}
	hc.mgr.addNewCandidates(candidates)
	return dropped
	}

	func (hc *HubConnector) processRepros(repros [][]byte) int {
	dropped := 0
	for _, repro := range repros {
	if _, err := hc.target.Deserialize(repro, prog.NonStrict); err != nil {
	dropped++
	continue
	}
	hc.hubReproQueue <- &Crash{
	vmIndex: -1,
	hub: true,
	Report: &report.Report{
	Title: "external repro",
	Output: repro,
	},
	}
	}
	return dropped
	}