// Copyright 2015 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 ( "bytes" "encoding/json" "flag" "fmt" "math/rand" "net" "os" "os/exec" "path/filepath" "sync" "sync/atomic" "time" "github.com/google/syzkaller/dashboard/dashapi" "github.com/google/syzkaller/pkg/cover" "github.com/google/syzkaller/pkg/csource" "github.com/google/syzkaller/pkg/db" "github.com/google/syzkaller/pkg/gce" "github.com/google/syzkaller/pkg/hash" "github.com/google/syzkaller/pkg/instance" "github.com/google/syzkaller/pkg/log" "github.com/google/syzkaller/pkg/mgrconfig" "github.com/google/syzkaller/pkg/osutil" "github.com/google/syzkaller/pkg/report" "github.com/google/syzkaller/pkg/repro" "github.com/google/syzkaller/pkg/rpctype" "github.com/google/syzkaller/pkg/signal" "github.com/google/syzkaller/prog" "github.com/google/syzkaller/sys" "github.com/google/syzkaller/vm" ) var ( flagConfig = flag.String("config", "", "configuration file") flagDebug = flag.Bool("debug", false, "dump all VM output to console") flagBench = flag.String("bench", "", "write execution statistics into this file periodically") ) type Manager struct { cfg *mgrconfig.Config vmPool *vm.Pool target *prog.Target reporter report.Reporter crashdir string port int corpusDB *db.DB startTime time.Time firstConnect time.Time fuzzingTime time.Duration stats *Stats fuzzerStats map[string]uint64 crashTypes map[string]bool vmStop chan bool checkResult *rpctype.CheckArgs fresh bool numFuzzing uint32 numReproducing uint32 dash *dashapi.Dashboard mu sync.Mutex phase int enabledSyscalls []int candidates []rpctype.RPCCandidate // untriaged inputs from corpus and hub disabledHashes map[string]struct{} corpus map[string]rpctype.RPCInput corpusCover cover.Cover corpusSignal signal.Signal maxSignal signal.Signal prios [][]float32 newRepros [][]byte fuzzers map[string]*Fuzzer needMoreRepros chan chan bool hubReproQueue chan *Crash reproRequest chan chan map[string]bool // For checking that files that we are using are not changing under us. // Maps file name to modification time. usedFiles map[string]time.Time } const ( // Just started, nothing done yet. phaseInit = iota // Corpus is loaded and machine is checked. phaseLoadedCorpus // Triaged all inputs from corpus. // This is when we start querying hub and minimizing persistent corpus. phaseTriagedCorpus // Done the first request to hub. phaseQueriedHub // Triaged all new inputs from hub. // This is when we start reproducing crashes. phaseTriagedHub ) const currentDBVersion = 3 type Fuzzer struct { name string inputs []rpctype.RPCInput newMaxSignal signal.Signal } type Crash struct { vmIndex int hub bool // this crash was created based on a repro from hub *report.Report } func main() { if sys.GitRevision == "" { log.Fatalf("Bad syz-manager build. Build with make, run bin/syz-manager.") } flag.Parse() log.EnableLogCaching(1000, 1<<20) cfg, err := mgrconfig.LoadFile(*flagConfig) if err != nil { log.Fatalf("%v", err) } target, err := prog.GetTarget(cfg.TargetOS, cfg.TargetArch) if err != nil { log.Fatalf("%v", err) } syscalls, err := mgrconfig.ParseEnabledSyscalls(target, cfg.EnabledSyscalls, cfg.DisabledSyscalls) if err != nil { log.Fatalf("%v", err) } RunManager(cfg, target, syscalls) } func RunManager(cfg *mgrconfig.Config, target *prog.Target, syscalls map[int]bool) { var vmPool *vm.Pool // Type "none" is a special case for debugging/development when manager // does not start any VMs, but instead you start them manually // and start syz-fuzzer there. if cfg.Type != "none" { var err error vmPool, err = vm.Create(cfg, *flagDebug) if err != nil { log.Fatalf("%v", err) } } crashdir := filepath.Join(cfg.Workdir, "crashes") osutil.MkdirAll(crashdir) var enabledSyscalls []int for c := range syscalls { enabledSyscalls = append(enabledSyscalls, c) } reporter, err := report.NewReporter(cfg) if err != nil { log.Fatalf("%v", err) } mgr := &Manager{ cfg: cfg, vmPool: vmPool, target: target, reporter: reporter, crashdir: crashdir, startTime: time.Now(), stats: new(Stats), fuzzerStats: make(map[string]uint64), crashTypes: make(map[string]bool), enabledSyscalls: enabledSyscalls, corpus: make(map[string]rpctype.RPCInput), disabledHashes: make(map[string]struct{}), fuzzers: make(map[string]*Fuzzer), fresh: true, vmStop: make(chan bool), hubReproQueue: make(chan *Crash, 10), needMoreRepros: make(chan chan bool), reproRequest: make(chan chan map[string]bool), usedFiles: make(map[string]time.Time), } log.Logf(0, "loading corpus...") mgr.corpusDB, err = db.Open(filepath.Join(cfg.Workdir, "corpus.db")) if err != nil { log.Fatalf("failed to open corpus database: %v", err) } // Create HTTP server. mgr.initHTTP() mgr.collectUsedFiles() // Create RPC server for fuzzers. s, err := rpctype.NewRPCServer(cfg.RPC, mgr) if err != nil { log.Fatalf("failed to create rpc server: %v", err) } log.Logf(0, "serving rpc on tcp://%v", s.Addr()) mgr.port = s.Addr().(*net.TCPAddr).Port go s.Serve() if cfg.DashboardAddr != "" { mgr.dash = dashapi.New(cfg.DashboardClient, cfg.DashboardAddr, cfg.DashboardKey) } go func() { for lastTime := time.Now(); ; { time.Sleep(10 * time.Second) now := time.Now() diff := now.Sub(lastTime) lastTime = now mgr.mu.Lock() if mgr.firstConnect.IsZero() { mgr.mu.Unlock() continue } mgr.fuzzingTime += diff * time.Duration(atomic.LoadUint32(&mgr.numFuzzing)) executed := mgr.stats.execTotal.get() crashes := mgr.stats.crashes.get() signal := mgr.corpusSignal.Len() mgr.mu.Unlock() numReproducing := atomic.LoadUint32(&mgr.numReproducing) numFuzzing := atomic.LoadUint32(&mgr.numFuzzing) log.Logf(0, "VMs %v, executed %v, cover %v, crashes %v, repro %v", numFuzzing, executed, signal, crashes, numReproducing) } }() if *flagBench != "" { f, err := os.OpenFile(*flagBench, os.O_WRONLY|os.O_CREATE|os.O_EXCL, osutil.DefaultFilePerm) if err != nil { log.Fatalf("failed to open bench file: %v", err) } go func() { for { time.Sleep(time.Minute) vals := make(map[string]uint64) mgr.mu.Lock() if mgr.firstConnect.IsZero() { mgr.mu.Unlock() continue } mgr.minimizeCorpus() vals["corpus"] = uint64(len(mgr.corpus)) vals["uptime"] = uint64(time.Since(mgr.firstConnect)) / 1e9 vals["fuzzing"] = uint64(mgr.fuzzingTime) / 1e9 vals["signal"] = uint64(mgr.corpusSignal.Len()) vals["coverage"] = uint64(len(mgr.corpusCover)) for k, v := range mgr.fuzzerStats { vals[k] = v } mgr.mu.Unlock() for k, v := range mgr.stats.all() { vals[k] = v } data, err := json.MarshalIndent(vals, "", " ") if err != nil { log.Fatalf("failed to serialize bench data") } if _, err := f.Write(append(data, '\n')); err != nil { log.Fatalf("failed to write bench data") } } }() } if mgr.dash != nil { go mgr.dashboardReporter() } osutil.HandleInterrupts(vm.Shutdown) if mgr.vmPool == nil { log.Logf(0, "no VMs started (type=none)") log.Logf(0, "you are supposed to start syz-fuzzer manually as:") log.Logf(0, "syz-fuzzer -manager=manager.ip:%v [other flags as necessary]", mgr.port) <-vm.Shutdown return } mgr.vmLoop() } type RunResult struct { idx int crash *Crash err error } type ReproResult struct { instances []int title0 string res *repro.Result stats *repro.Stats err error hub bool // repro came from hub } // Manager needs to be refactored (#605). // nolint: gocyclo func (mgr *Manager) vmLoop() { log.Logf(0, "booting test machines...") log.Logf(0, "wait for the connection from test machine...") instancesPerRepro := 4 vmCount := mgr.vmPool.Count() if instancesPerRepro > vmCount { instancesPerRepro = vmCount } instances := make([]int, vmCount) for i := range instances { instances[i] = vmCount - i - 1 } runDone := make(chan *RunResult, 1) pendingRepro := make(map[*Crash]bool) reproducing := make(map[string]bool) reproInstances := 0 var reproQueue []*Crash reproDone := make(chan *ReproResult, 1) stopPending := false shutdown := vm.Shutdown for shutdown != nil || len(instances) != vmCount { mgr.mu.Lock() phase := mgr.phase mgr.mu.Unlock() for crash := range pendingRepro { if reproducing[crash.Title] { continue } delete(pendingRepro, crash) if !mgr.needRepro(crash) { continue } log.Logf(1, "loop: add to repro queue '%v'", crash.Title) reproducing[crash.Title] = true reproQueue = append(reproQueue, crash) } log.Logf(1, "loop: phase=%v shutdown=%v instances=%v/%v %+v repro: pending=%v reproducing=%v queued=%v", phase, shutdown == nil, len(instances), vmCount, instances, len(pendingRepro), len(reproducing), len(reproQueue)) canRepro := func() bool { return phase >= phaseTriagedHub && len(reproQueue) != 0 && reproInstances+instancesPerRepro <= vmCount } if shutdown != nil { for canRepro() && len(instances) >= instancesPerRepro { last := len(reproQueue) - 1 crash := reproQueue[last] reproQueue[last] = nil reproQueue = reproQueue[:last] vmIndexes := append([]int{}, instances[len(instances)-instancesPerRepro:]...) instances = instances[:len(instances)-instancesPerRepro] reproInstances += instancesPerRepro atomic.AddUint32(&mgr.numReproducing, 1) log.Logf(1, "loop: starting repro of '%v' on instances %+v", crash.Title, vmIndexes) go func() { res, stats, err := repro.Run(crash.Output, mgr.cfg, mgr.reporter, mgr.vmPool, vmIndexes) reproDone <- &ReproResult{vmIndexes, crash.Title, res, stats, err, crash.hub} }() } for !canRepro() && len(instances) != 0 { last := len(instances) - 1 idx := instances[last] instances = instances[:last] log.Logf(1, "loop: starting instance %v", idx) go func() { crash, err := mgr.runInstance(idx) runDone <- &RunResult{idx, crash, err} }() } } var stopRequest chan bool if !stopPending && canRepro() { stopRequest = mgr.vmStop } wait: select { case stopRequest <- true: log.Logf(1, "loop: issued stop request") stopPending = true case res := <-runDone: log.Logf(1, "loop: instance %v finished, crash=%v", res.idx, res.crash != nil) if res.err != nil && shutdown != nil { log.Logf(0, "%v", res.err) } stopPending = false instances = append(instances, res.idx) // On shutdown qemu crashes with "qemu: terminating on signal 2", // which we detect as "lost connection". Don't save that as crash. if shutdown != nil && res.crash != nil { needRepro := mgr.saveCrash(res.crash) if needRepro { log.Logf(1, "loop: add pending repro for '%v'", res.crash.Title) pendingRepro[res.crash] = true } } case res := <-reproDone: atomic.AddUint32(&mgr.numReproducing, ^uint32(0)) crepro := false title := "" if res.res != nil { crepro = res.res.CRepro title = res.res.Report.Title } log.Logf(1, "loop: repro on %+v finished '%v', repro=%v crepro=%v desc='%v'", res.instances, res.title0, res.res != nil, crepro, title) if res.err != nil { log.Logf(0, "repro failed: %v", res.err) } delete(reproducing, res.title0) instances = append(instances, res.instances...) reproInstances -= instancesPerRepro if res.res == nil { if !res.hub { mgr.saveFailedRepro(res.title0, res.stats) } } else { mgr.saveRepro(res.res, res.stats, res.hub) } case <-shutdown: log.Logf(1, "loop: shutting down...") shutdown = nil case crash := <-mgr.hubReproQueue: log.Logf(1, "loop: get repro from hub") pendingRepro[crash] = true case reply := <-mgr.needMoreRepros: reply <- phase >= phaseTriagedHub && len(reproQueue)+len(pendingRepro)+len(reproducing) == 0 goto wait case reply := <-mgr.reproRequest: repros := make(map[string]bool) for title := range reproducing { repros[title] = true } reply <- repros goto wait } } } func (mgr *Manager) loadCorpus() { // By default we don't re-minimize/re-smash programs from corpus, // it takes lots of time on start and is unnecessary. // However, on version bumps we can selectively re-minimize/re-smash. minimized, smashed := true, true switch mgr.corpusDB.Version { case 0: // Version 0 had broken minimization, so we need to re-minimize. minimized = false fallthrough case 1: // Version 1->2: memory is preallocated so lots of mmaps become unnecessary. minimized = false fallthrough case 2: // Version 2->3: big-endian hints. smashed = false fallthrough case currentDBVersion: } syscalls := make(map[int]bool) for _, id := range mgr.checkResult.EnabledCalls[mgr.cfg.Sandbox] { syscalls[id] = true } deleted := 0 for key, rec := range mgr.corpusDB.Records { p, err := mgr.target.Deserialize(rec.Val) if err != nil { if deleted < 10 { log.Logf(0, "deleting broken program: %v\n%s", err, rec.Val) } mgr.corpusDB.Delete(key) deleted++ continue } disabled := false for _, c := range p.Calls { if !syscalls[c.Meta.ID] { disabled = true break } } if disabled { // This program contains a disabled syscall. // We won't execute it, but remember its hash so // it is not deleted during minimization. mgr.disabledHashes[hash.String(rec.Val)] = struct{}{} continue } mgr.candidates = append(mgr.candidates, rpctype.RPCCandidate{ Prog: rec.Val, Minimized: minimized, Smashed: smashed, }) } mgr.fresh = len(mgr.corpusDB.Records) == 0 log.Logf(0, "%-24v: %v (%v deleted)", "corpus", len(mgr.candidates), deleted) // Now this is ugly. // We duplicate all inputs in the corpus and shuffle the second part. // This solves the following problem. A fuzzer can crash while triaging candidates, // in such case it will also lost all cached candidates. Or, the input can be somewhat flaky // and doesn't give the coverage on first try. So we give each input the second chance. // Shuffling should alleviate deterministically losing the same inputs on fuzzer crashing. mgr.candidates = append(mgr.candidates, mgr.candidates...) shuffle := mgr.candidates[len(mgr.candidates)/2:] for i := range shuffle { j := i + rand.Intn(len(shuffle)-i) shuffle[i], shuffle[j] = shuffle[j], shuffle[i] } if mgr.phase != phaseInit { panic(fmt.Sprintf("loadCorpus: bad phase %v", mgr.phase)) } mgr.phase = phaseLoadedCorpus } func (mgr *Manager) runInstance(index int) (*Crash, error) { mgr.checkUsedFiles() inst, err := mgr.vmPool.Create(index) if err != nil { return nil, fmt.Errorf("failed to create instance: %v", err) } defer inst.Close() fwdAddr, err := inst.Forward(mgr.port) if err != nil { return nil, fmt.Errorf("failed to setup port forwarding: %v", err) } fuzzerBin, err := inst.Copy(mgr.cfg.SyzFuzzerBin) if err != nil { return nil, fmt.Errorf("failed to copy binary: %v", err) } executorBin, err := inst.Copy(mgr.cfg.SyzExecutorBin) if err != nil { return nil, fmt.Errorf("failed to copy binary: %v", err) } fuzzerV := 0 procs := mgr.cfg.Procs if *flagDebug { fuzzerV = 100 procs = 1 } // Run the fuzzer binary. start := time.Now() atomic.AddUint32(&mgr.numFuzzing, 1) defer atomic.AddUint32(&mgr.numFuzzing, ^uint32(0)) cmd := instance.FuzzerCmd(fuzzerBin, executorBin, fmt.Sprintf("vm-%v", index), mgr.cfg.TargetOS, mgr.cfg.TargetArch, fwdAddr, mgr.cfg.Sandbox, procs, fuzzerV, mgr.cfg.Cover, *flagDebug, false, false) outc, errc, err := inst.Run(time.Hour, mgr.vmStop, cmd) if err != nil { return nil, fmt.Errorf("failed to run fuzzer: %v", err) } rep := inst.MonitorExecution(outc, errc, mgr.reporter, false) if rep == nil { // This is the only "OK" outcome. log.Logf(0, "vm-%v: running for %v, restarting", index, time.Since(start)) return nil, nil } crash := &Crash{ vmIndex: index, hub: false, Report: rep, } return crash, nil } func (mgr *Manager) emailCrash(crash *Crash) { if len(mgr.cfg.EmailAddrs) == 0 { return } args := []string{"-s", "syzkaller: " + crash.Title} args = append(args, mgr.cfg.EmailAddrs...) log.Logf(0, "sending email to %v", mgr.cfg.EmailAddrs) cmd := exec.Command("mailx", args...) cmd.Stdin = bytes.NewReader(crash.Report.Report) if _, err := osutil.Run(10*time.Minute, cmd); err != nil { log.Logf(0, "failed to send email: %v", err) } } func (mgr *Manager) saveCrash(crash *Crash) bool { if crash.Suppressed { log.Logf(0, "vm-%v: suppressed crash %v", crash.vmIndex, crash.Title) mgr.stats.crashSuppressed.inc() return false } corrupted := "" if crash.Corrupted { corrupted = " [corrupted]" } log.Logf(0, "vm-%v: crash: %v%v", crash.vmIndex, crash.Title, corrupted) if err := mgr.reporter.Symbolize(crash.Report); err != nil { log.Logf(0, "failed to symbolize report: %v", err) } mgr.stats.crashes.inc() mgr.mu.Lock() if !mgr.crashTypes[crash.Title] { mgr.crashTypes[crash.Title] = true mgr.stats.crashTypes.inc() } mgr.mu.Unlock() if mgr.dash != nil { dc := &dashapi.Crash{ BuildID: mgr.cfg.Tag, Title: crash.Title, Corrupted: crash.Corrupted, Maintainers: crash.Maintainers, Log: crash.Output, Report: crash.Report.Report, } resp, err := mgr.dash.ReportCrash(dc) if err != nil { log.Logf(0, "failed to report crash to dashboard: %v", err) } else { // Don't store the crash locally, if we've successfully // uploaded it to the dashboard. These will just eat disk space. return resp.NeedRepro } } sig := hash.Hash([]byte(crash.Title)) id := sig.String() dir := filepath.Join(mgr.crashdir, id) osutil.MkdirAll(dir) if err := osutil.WriteFile(filepath.Join(dir, "description"), []byte(crash.Title+"\n")); err != nil { log.Logf(0, "failed to write crash: %v", err) } // Save up to 100 reports. If we already have 100, overwrite the oldest one. // Newer reports are generally more useful. Overwriting is also needed // to be able to understand if a particular bug still happens or already fixed. oldestI := 0 var oldestTime time.Time for i := 0; i < 100; i++ { info, err := os.Stat(filepath.Join(dir, fmt.Sprintf("log%v", i))) if err != nil { oldestI = i if i == 0 { go mgr.emailCrash(crash) } break } if oldestTime.IsZero() || info.ModTime().Before(oldestTime) { oldestI = i oldestTime = info.ModTime() } } osutil.WriteFile(filepath.Join(dir, fmt.Sprintf("log%v", oldestI)), crash.Output) if len(mgr.cfg.Tag) > 0 { osutil.WriteFile(filepath.Join(dir, fmt.Sprintf("tag%v", oldestI)), []byte(mgr.cfg.Tag)) } if len(crash.Report.Report) > 0 { osutil.WriteFile(filepath.Join(dir, fmt.Sprintf("report%v", oldestI)), crash.Report.Report) } return mgr.needLocalRepro(crash) } const maxReproAttempts = 3 func (mgr *Manager) needLocalRepro(crash *Crash) bool { if !mgr.cfg.Reproduce || crash.Corrupted { return false } sig := hash.Hash([]byte(crash.Title)) dir := filepath.Join(mgr.crashdir, sig.String()) if osutil.IsExist(filepath.Join(dir, "repro.prog")) { return false } for i := 0; i < maxReproAttempts; i++ { if !osutil.IsExist(filepath.Join(dir, fmt.Sprintf("repro%v", i))) { return true } } return false } func (mgr *Manager) needRepro(crash *Crash) bool { if crash.hub { return true } if mgr.dash == nil { return mgr.needLocalRepro(crash) } cid := &dashapi.CrashID{ BuildID: mgr.cfg.Tag, Title: crash.Title, Corrupted: crash.Corrupted, } needRepro, err := mgr.dash.NeedRepro(cid) if err != nil { log.Logf(0, "dashboard.NeedRepro failed: %v", err) } return needRepro } func (mgr *Manager) saveFailedRepro(desc string, stats *repro.Stats) { if mgr.dash != nil { cid := &dashapi.CrashID{ BuildID: mgr.cfg.Tag, Title: desc, } if err := mgr.dash.ReportFailedRepro(cid); err != nil { log.Logf(0, "failed to report failed repro to dashboard: %v", err) } else { return } } dir := filepath.Join(mgr.crashdir, hash.String([]byte(desc))) osutil.MkdirAll(dir) for i := 0; i < maxReproAttempts; i++ { name := filepath.Join(dir, fmt.Sprintf("repro%v", i)) if !osutil.IsExist(name) { saveReproStats(name, stats) break } } } func (mgr *Manager) saveRepro(res *repro.Result, stats *repro.Stats, hub bool) { rep := res.Report if err := mgr.reporter.Symbolize(rep); err != nil { log.Logf(0, "failed to symbolize repro: %v", err) } opts := fmt.Sprintf("# %+v\n", res.Opts) prog := res.Prog.Serialize() // Append this repro to repro list to send to hub if it didn't come from hub originally. if !hub { progForHub := []byte(fmt.Sprintf("# %+v\n# %v\n# %v\n%s", res.Opts, res.Report.Title, mgr.cfg.Tag, prog)) mgr.mu.Lock() mgr.newRepros = append(mgr.newRepros, progForHub) mgr.mu.Unlock() } var cprogText []byte if res.CRepro { cprog, err := csource.Write(res.Prog, res.Opts) if err == nil { formatted, err := csource.Format(cprog) if err == nil { cprog = formatted } cprogText = cprog } else { log.Logf(0, "failed to write C source: %v", err) } } if mgr.dash != nil { // Note: we intentionally don't set Corrupted for reproducers: // 1. This is reproducible so can be debugged even with corrupted report. // 2. Repro re-tried 3 times and still got corrupted report at the end, // so maybe corrupted report detection is broken. // 3. Reproduction is expensive so it's good to persist the result. dc := &dashapi.Crash{ BuildID: mgr.cfg.Tag, Title: res.Report.Title, Maintainers: res.Report.Maintainers, Log: res.Report.Output, Report: res.Report.Report, ReproOpts: res.Opts.Serialize(), ReproSyz: res.Prog.Serialize(), ReproC: cprogText, } if _, err := mgr.dash.ReportCrash(dc); err != nil { log.Logf(0, "failed to report repro to dashboard: %v", err) } else { // Don't store the crash locally, if we've successfully // uploaded it to the dashboard. These will just eat disk space. return } } dir := filepath.Join(mgr.crashdir, hash.String([]byte(rep.Title))) osutil.MkdirAll(dir) if err := osutil.WriteFile(filepath.Join(dir, "description"), []byte(rep.Title+"\n")); err != nil { log.Logf(0, "failed to write crash: %v", err) } osutil.WriteFile(filepath.Join(dir, "repro.prog"), append([]byte(opts), prog...)) if len(mgr.cfg.Tag) > 0 { osutil.WriteFile(filepath.Join(dir, "repro.tag"), []byte(mgr.cfg.Tag)) } if len(rep.Output) > 0 { osutil.WriteFile(filepath.Join(dir, "repro.log"), rep.Output) } if len(rep.Report) > 0 { osutil.WriteFile(filepath.Join(dir, "repro.report"), rep.Report) } if len(cprogText) > 0 { osutil.WriteFile(filepath.Join(dir, "repro.cprog"), cprogText) } saveReproStats(filepath.Join(dir, "repro.stats"), stats) } func saveReproStats(filename string, stats *repro.Stats) { text := "" if stats != nil { text = fmt.Sprintf("Extracting prog: %v\nMinimizing prog: %v\n"+ "Simplifying prog options: %v\nExtracting C: %v\nSimplifying C: %v\n\n\n%s", stats.ExtractProgTime, stats.MinimizeProgTime, stats.SimplifyProgTime, stats.ExtractCTime, stats.SimplifyCTime, stats.Log) } osutil.WriteFile(filename, []byte(text)) } func (mgr *Manager) getMinimizedCorpus() (corpus, repros [][]byte) { mgr.mu.Lock() defer mgr.mu.Unlock() mgr.minimizeCorpus() corpus = make([][]byte, 0, len(mgr.corpus)) for _, inp := range mgr.corpus { corpus = append(corpus, inp.Prog) } repros = mgr.newRepros mgr.newRepros = nil return } func (mgr *Manager) addNewCandidates(progs [][]byte) { candidates := make([]rpctype.RPCCandidate, len(progs)) for i, inp := range progs { candidates[i] = rpctype.RPCCandidate{ Prog: inp, Minimized: false, // don't trust programs from hub Smashed: false, } } mgr.mu.Lock() defer mgr.mu.Unlock() mgr.candidates = append(mgr.candidates, candidates...) if mgr.phase == phaseTriagedCorpus { mgr.phase = phaseQueriedHub } } func (mgr *Manager) minimizeCorpus() { if mgr.phase < phaseLoadedCorpus { return } inputs := make([]signal.Context, 0, len(mgr.corpus)) for _, inp := range mgr.corpus { inputs = append(inputs, signal.Context{ Signal: inp.Signal.Deserialize(), Context: inp, }) } newCorpus := make(map[string]rpctype.RPCInput) for _, ctx := range signal.Minimize(inputs) { inp := ctx.(rpctype.RPCInput) newCorpus[hash.String(inp.Prog)] = inp } log.Logf(1, "minimized corpus: %v -> %v", len(mgr.corpus), len(newCorpus)) mgr.corpus = newCorpus // Don't minimize persistent corpus until fuzzers have triaged all inputs from it. if mgr.phase < phaseTriagedCorpus { return } for key := range mgr.corpusDB.Records { _, ok1 := mgr.corpus[key] _, ok2 := mgr.disabledHashes[key] if !ok1 && !ok2 { mgr.corpusDB.Delete(key) } } mgr.corpusDB.BumpVersion(currentDBVersion) } func (mgr *Manager) Connect(a *rpctype.ConnectArgs, r *rpctype.ConnectRes) error { log.Logf(1, "fuzzer %v connected", a.Name) mgr.stats.vmRestarts.inc() mgr.mu.Lock() defer mgr.mu.Unlock() f := &Fuzzer{ name: a.Name, } mgr.fuzzers[a.Name] = f mgr.minimizeCorpus() f.newMaxSignal = mgr.maxSignal.Copy() f.inputs = make([]rpctype.RPCInput, 0, len(mgr.corpus)) for _, inp := range mgr.corpus { f.inputs = append(f.inputs, inp) } r.EnabledCalls = mgr.enabledSyscalls r.CheckResult = mgr.checkResult r.GitRevision = sys.GitRevision r.TargetRevision = mgr.target.Revision return nil } func (mgr *Manager) Check(a *rpctype.CheckArgs, r *int) error { mgr.mu.Lock() defer mgr.mu.Unlock() if mgr.checkResult != nil { return nil } if len(mgr.cfg.EnabledSyscalls) != 0 && len(a.DisabledCalls[mgr.cfg.Sandbox]) != 0 { disabled := make(map[string]string) for _, dc := range a.DisabledCalls[mgr.cfg.Sandbox] { disabled[mgr.target.Syscalls[dc.ID].Name] = dc.Reason } for _, id := range mgr.enabledSyscalls { name := mgr.target.Syscalls[id].Name if reason := disabled[name]; reason != "" { log.Logf(0, "disabling %v: %v", name, reason) } } } if a.Error != "" { log.Fatalf("machine check: %v", a.Error) } log.Logf(0, "machine check:") log.Logf(0, "%-24v: %v/%v", "syscalls", len(a.EnabledCalls[mgr.cfg.Sandbox]), len(mgr.target.Syscalls)) for _, feat := range a.Features { log.Logf(0, "%-24v: %v", feat.Name, feat.Reason) } a.DisabledCalls = nil mgr.checkResult = a mgr.loadCorpus() mgr.firstConnect = time.Now() return nil } func (mgr *Manager) NewInput(a *rpctype.NewInputArgs, r *int) error { inputSignal := a.Signal.Deserialize() log.Logf(4, "new input from %v for syscall %v (signal=%v, cover=%v)", a.Name, a.Call, inputSignal.Len(), len(a.Cover)) mgr.mu.Lock() defer mgr.mu.Unlock() f := mgr.fuzzers[a.Name] if f == nil { log.Fatalf("fuzzer %v is not connected", a.Name) } if _, err := mgr.target.Deserialize(a.RPCInput.Prog); err != nil { // This should not happen, but we see such cases episodically, reason unknown. log.Logf(0, "failed to deserialize program from fuzzer: %v\n%s", err, a.RPCInput.Prog) return nil } if mgr.corpusSignal.Diff(inputSignal).Empty() { return nil } mgr.stats.newInputs.inc() mgr.corpusSignal.Merge(inputSignal) mgr.corpusCover.Merge(a.Cover) sig := hash.String(a.RPCInput.Prog) if inp, ok := mgr.corpus[sig]; ok { // The input is already present, but possibly with diffent signal/coverage/call. inputSignal.Merge(inp.Signal.Deserialize()) inp.Signal = inputSignal.Serialize() var inputCover cover.Cover inputCover.Merge(inp.Cover) inputCover.Merge(a.RPCInput.Cover) inp.Cover = inputCover.Serialize() mgr.corpus[sig] = inp } else { mgr.corpus[sig] = a.RPCInput mgr.corpusDB.Save(sig, a.RPCInput.Prog, 0) if err := mgr.corpusDB.Flush(); err != nil { log.Logf(0, "failed to save corpus database: %v", err) } for _, f1 := range mgr.fuzzers { if f1 == f { continue } inp := a.RPCInput inp.Cover = nil // Don't send coverage back to all fuzzers. f1.inputs = append(f1.inputs, inp) } } return nil } func (mgr *Manager) Poll(a *rpctype.PollArgs, r *rpctype.PollRes) error { mgr.mu.Lock() defer mgr.mu.Unlock() for k, v := range a.Stats { switch k { case "exec total": mgr.stats.execTotal.add(int(v)) default: mgr.fuzzerStats[k] += v } } f := mgr.fuzzers[a.Name] if f == nil { log.Fatalf("fuzzer %v is not connected", a.Name) } newMaxSignal := mgr.maxSignal.Diff(a.MaxSignal.Deserialize()) if !newMaxSignal.Empty() { mgr.maxSignal.Merge(newMaxSignal) for _, f1 := range mgr.fuzzers { if f1 == f { continue } f1.newMaxSignal.Merge(newMaxSignal) } } r.MaxSignal = f.newMaxSignal.Split(500).Serialize() maxInputs := 5 if maxInputs < mgr.cfg.Procs { maxInputs = mgr.cfg.Procs } if a.NeedCandidates { for i := 0; i < maxInputs && len(mgr.candidates) > 0; i++ { last := len(mgr.candidates) - 1 r.Candidates = append(r.Candidates, mgr.candidates[last]) mgr.candidates[last] = rpctype.RPCCandidate{} mgr.candidates = mgr.candidates[:last] } } if len(r.Candidates) == 0 { for i := 0; i < maxInputs && len(f.inputs) > 0; i++ { last := len(f.inputs) - 1 r.NewInputs = append(r.NewInputs, f.inputs[last]) f.inputs[last] = rpctype.RPCInput{} f.inputs = f.inputs[:last] } if len(f.inputs) == 0 { f.inputs = nil } } if len(mgr.candidates) == 0 { mgr.candidates = nil if mgr.phase == phaseLoadedCorpus { if mgr.cfg.HubClient != "" { mgr.phase = phaseTriagedCorpus go mgr.hubSyncLoop() } else { mgr.phase = phaseTriagedHub } } else if mgr.phase == phaseQueriedHub { mgr.phase = phaseTriagedHub } } log.Logf(4, "poll from %v: candidates=%v inputs=%v maxsignal=%v", a.Name, len(r.Candidates), len(r.NewInputs), len(r.MaxSignal.Elems)) return nil } func (mgr *Manager) collectUsedFiles() { if mgr.vmPool == nil { return } addUsedFile := func(f string) { if f == "" { return } stat, err := os.Stat(f) if err != nil { log.Fatalf("failed to stat %v: %v", f, err) } mgr.usedFiles[f] = stat.ModTime() } cfg := mgr.cfg addUsedFile(cfg.SyzFuzzerBin) addUsedFile(cfg.SyzExecprogBin) addUsedFile(cfg.SyzExecutorBin) addUsedFile(cfg.SSHKey) if vmlinux := filepath.Join(cfg.KernelObj, "vmlinux"); osutil.IsExist(vmlinux) { addUsedFile(vmlinux) } if zircon := filepath.Join(cfg.KernelObj, "zircon.elf"); osutil.IsExist(zircon) { addUsedFile(zircon) } if cfg.Image != "9p" { addUsedFile(cfg.Image) } } func (mgr *Manager) checkUsedFiles() { for f, mod := range mgr.usedFiles { stat, err := os.Stat(f) if err != nil { log.Fatalf("failed to stat %v: %v", f, err) } if mod != stat.ModTime() { log.Fatalf("file %v that syz-manager uses has been modified by an external program\n"+ "this can lead to arbitrary syz-manager misbehavior\n"+ "modification time has changed: %v -> %v\n"+ "don't modify files that syz-manager uses. exiting to prevent harm", f, mod, stat.ModTime()) } } } func (mgr *Manager) dashboardReporter() { webAddr := publicWebAddr(mgr.cfg.HTTP) var lastFuzzingTime time.Duration var lastCrashes, lastExecs uint64 for { time.Sleep(time.Minute) mgr.mu.Lock() if mgr.firstConnect.IsZero() { mgr.mu.Unlock() continue } crashes := mgr.stats.crashes.get() execs := mgr.stats.execTotal.get() req := &dashapi.ManagerStatsReq{ Name: mgr.cfg.Name, Addr: webAddr, UpTime: time.Since(mgr.firstConnect), Corpus: uint64(len(mgr.corpus)), Cover: uint64(mgr.corpusSignal.Len()), FuzzingTime: mgr.fuzzingTime - lastFuzzingTime, Crashes: crashes - lastCrashes, Execs: execs - lastExecs, } mgr.mu.Unlock() if err := mgr.dash.UploadManagerStats(req); err != nil { log.Logf(0, "faield to upload dashboard stats: %v", err) continue } mgr.mu.Lock() lastFuzzingTime += req.FuzzingTime lastCrashes += req.Crashes lastExecs += req.Execs mgr.mu.Unlock() } } func publicWebAddr(addr string) string { _, port, err := net.SplitHostPort(addr) if err == nil && port != "" { if host, err := os.Hostname(); err == nil { addr = net.JoinHostPort(host, port) } if GCE, err := gce.NewContext(); err == nil { addr = net.JoinHostPort(GCE.ExternalIP, port) } } return "http://" + addr }