mirror of
https://github.com/reactos/syzkaller.git
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7795ae03c0
Without this check programs may end up panicing in places far away from the real cause. E.g. worker# ./syz-fuzzer -executor=./syz-executor -name=vm-0 -arch=amd64 -manager=10.128.0.101:21386 -sandbox=setuid -procs=2 -v=0 -cover=true -debug=false -test=false 2004/02/03 12:11:11 fuzzer started 2004/02/03 12:11:11 dialing manager at 10.128.0.101:21386 2004/02/03 12:11:12 syscalls: 1 2004/02/03 12:11:12 code coverage: enabled 2004/02/03 12:11:12 comparison tracing: support is not implemented in syzkaller 2004/02/03 12:11:12 setuid sandbox: support is not implemented in syzkaller 2004/02/03 12:11:12 namespace sandbox: support is not implemented in syzkaller 2004/02/03 12:11:12 Android sandbox: support is not implemented in syzkaller 2004/02/03 12:11:12 fault injection: support is not implemented in syzkaller 2004/02/03 12:11:12 leak checking: support is not implemented in syzkaller 2004/02/03 12:11:12 net packet injection: enabled 2004/02/03 12:11:12 net device setup: support is not implemented in syzkaller panic: invalid argument to Intn goroutine 27 [running]: math/rand.(*Rand).Intn(0xc000dff530, 0x0, 0x40) /usr/local/go/src/math/rand/rand.go:169 +0x9c github.com/google/syzkaller/prog.(*ChoiceTable).Choose(0xc000d92ec0, 0xc000dff530, 0xffffffffffffffff, 0xc000dff650) /syzkaller/gopath/src/github.com/google/syzkaller/prog/prio.go:241 +0x1a0 github.com/google/syzkaller/prog.(*randGen).generateCall(0xc000e145a0, 0xc000c2a200, 0xc000ce7f80, 0x2348f1940, 0xc000ce3440, 0xc000e6ee01) /syzkaller/gopath/src/github.com/google/syzkaller/prog/rand.go:451 +0x69 github.com/google/syzkaller/prog.(*Target).Generate(0xc00007f1e0, 0x8f8680, 0xc000ce3440, 0x1e, 0xc000d92ec0, 0x0) /syzkaller/gopath/src/github.com/google/syzkaller/prog/generation.go:19 +0x2b2 main.(*Proc).loop(0xc000d92f40) /syzkaller/gopath/src/github.com/google/syzkaller/syz-fuzzer/proc.go:93 +0x2a1 created by main.main /syzkaller/gopath/src/github.com/google/syzkaller/syz-fuzzer/fuzzer.go:236 +0xfe2
258 lines
6.3 KiB
Go
258 lines
6.3 KiB
Go
// Copyright 2015/2016 syzkaller project authors. All rights reserved.
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// Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
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package prog
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import (
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"fmt"
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"math/rand"
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"sort"
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)
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// Calulation of call-to-call priorities.
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// For a given pair of calls X and Y, the priority is our guess as to whether
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// additional of call Y into a program containing call X is likely to give
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// new coverage or not.
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// The current algorithm has two components: static and dynamic.
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// The static component is based on analysis of argument types. For example,
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// if call X and call Y both accept fd[sock], then they are more likely to give
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// new coverage together.
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// The dynamic component is based on frequency of occurrence of a particular
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// pair of syscalls in a single program in corpus. For example, if socket and
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// connect frequently occur in programs together, we give higher priority to
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// this pair of syscalls.
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// Note: the current implementation is very basic, there is no theory behind any
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// constants.
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func (target *Target) CalculatePriorities(corpus []*Prog) [][]float32 {
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static := target.calcStaticPriorities()
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dynamic := target.calcDynamicPrio(corpus)
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for i, prios := range static {
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for j, p := range prios {
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dynamic[i][j] *= p
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}
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}
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return dynamic
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}
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func (target *Target) calcStaticPriorities() [][]float32 {
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uses := target.calcResourceUsage()
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prios := make([][]float32, len(target.Syscalls))
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for i := range prios {
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prios[i] = make([]float32, len(target.Syscalls))
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}
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for _, calls := range uses {
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for c0, w0 := range calls {
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for c1, w1 := range calls {
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if c0 == c1 {
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// Self-priority is assigned below.
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continue
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}
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prios[c0][c1] += w0 * w1
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}
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}
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}
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// Self-priority (call wrt itself) is assigned to the maximum priority
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// this call has wrt other calls. This way the priority is high, but not too high.
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for c0, pp := range prios {
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var max float32
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for _, p := range pp {
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if max < p {
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max = p
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}
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}
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pp[c0] = max
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}
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normalizePrio(prios)
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return prios
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}
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func (target *Target) calcResourceUsage() map[string]map[int]float32 {
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uses := make(map[string]map[int]float32)
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for _, c := range target.Syscalls {
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ForeachType(c, func(t Type) {
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switch a := t.(type) {
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case *ResourceType:
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if a.Desc.Name == "pid" || a.Desc.Name == "uid" || a.Desc.Name == "gid" {
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// Pid/uid/gid usually play auxiliary role,
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// but massively happen in some structs.
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noteUsage(uses, c, 0.1, "res%v", a.Desc.Name)
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} else {
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str := "res"
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for i, k := range a.Desc.Kind {
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str += "-" + k
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w := 1.0
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if i < len(a.Desc.Kind)-1 {
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w = 0.2
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}
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noteUsage(uses, c, float32(w), str)
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}
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}
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case *PtrType:
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if _, ok := a.Type.(*StructType); ok {
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noteUsage(uses, c, 1.0, "ptrto-%v", a.Type.Name())
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}
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if _, ok := a.Type.(*UnionType); ok {
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noteUsage(uses, c, 1.0, "ptrto-%v", a.Type.Name())
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}
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if arr, ok := a.Type.(*ArrayType); ok {
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noteUsage(uses, c, 1.0, "ptrto-%v", arr.Type.Name())
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}
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case *BufferType:
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switch a.Kind {
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case BufferBlobRand, BufferBlobRange, BufferText:
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case BufferString:
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if a.SubKind != "" {
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noteUsage(uses, c, 0.2, fmt.Sprintf("str-%v", a.SubKind))
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}
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case BufferFilename:
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noteUsage(uses, c, 1.0, "filename")
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default:
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panic("unknown buffer kind")
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}
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case *VmaType:
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noteUsage(uses, c, 0.5, "vma")
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case *IntType:
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switch a.Kind {
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case IntPlain, IntFileoff, IntRange:
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default:
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panic("unknown int kind")
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}
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}
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})
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}
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return uses
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}
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func noteUsage(uses map[string]map[int]float32, c *Syscall, weight float32, str string, args ...interface{}) {
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id := fmt.Sprintf(str, args...)
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if uses[id] == nil {
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uses[id] = make(map[int]float32)
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}
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old := uses[id][c.ID]
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if weight > old {
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uses[id][c.ID] = weight
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}
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}
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func (target *Target) calcDynamicPrio(corpus []*Prog) [][]float32 {
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prios := make([][]float32, len(target.Syscalls))
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for i := range prios {
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prios[i] = make([]float32, len(target.Syscalls))
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}
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for _, p := range corpus {
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for _, c0 := range p.Calls {
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for _, c1 := range p.Calls {
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id0 := c0.Meta.ID
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id1 := c1.Meta.ID
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prios[id0][id1] += 1.0
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}
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}
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}
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normalizePrio(prios)
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return prios
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}
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// normalizePrio assigns some minimal priorities to calls with zero priority,
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// and then normalizes priorities to 0.1..1 range.
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func normalizePrio(prios [][]float32) {
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for _, prio := range prios {
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max := float32(0)
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min := float32(1e10)
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nzero := 0
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for _, p := range prio {
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if max < p {
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max = p
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}
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if p != 0 && min > p {
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min = p
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}
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if p == 0 {
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nzero++
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}
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}
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if nzero != 0 {
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min /= 2 * float32(nzero)
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}
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if min == max {
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max = 0
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}
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for i, p := range prio {
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if max == 0 {
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prio[i] = 1
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continue
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}
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if p == 0 {
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p = min
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}
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p = (p-min)/(max-min)*0.9 + 0.1
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if p > 1 {
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p = 1
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}
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prio[i] = p
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}
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}
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}
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// ChooseTable allows to do a weighted choice of a syscall for a given syscall
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// based on call-to-call priorities and a set of enabled syscalls.
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type ChoiceTable struct {
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target *Target
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run [][]int
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enabledCalls []*Syscall
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enabled map[*Syscall]bool
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}
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func (target *Target) BuildChoiceTable(prios [][]float32, enabled map[*Syscall]bool) *ChoiceTable {
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if enabled == nil {
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enabled = make(map[*Syscall]bool)
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for _, c := range target.Syscalls {
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enabled[c] = true
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}
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}
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var enabledCalls []*Syscall
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for c := range enabled {
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enabledCalls = append(enabledCalls, c)
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}
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if len(enabledCalls) == 0 {
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panic(fmt.Sprintf("empty enabledCalls, len(target.Syscalls)=%v", len(target.Syscalls)))
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}
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run := make([][]int, len(target.Syscalls))
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for i := range run {
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if !enabled[target.Syscalls[i]] {
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continue
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}
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run[i] = make([]int, len(target.Syscalls))
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sum := 0
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for j := range run[i] {
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if enabled[target.Syscalls[j]] {
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w := 1
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if prios != nil {
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w = int(prios[i][j] * 1000)
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}
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sum += w
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}
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run[i][j] = sum
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}
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}
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return &ChoiceTable{target, run, enabledCalls, enabled}
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}
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func (ct *ChoiceTable) Choose(r *rand.Rand, call int) int {
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if call < 0 {
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return ct.enabledCalls[r.Intn(len(ct.enabledCalls))].ID
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}
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run := ct.run[call]
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if run == nil {
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return ct.enabledCalls[r.Intn(len(ct.enabledCalls))].ID
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}
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for {
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x := r.Intn(run[len(run)-1]) + 1
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i := sort.SearchInts(run, x)
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if ct.enabled[ct.target.Syscalls[i]] {
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return i
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}
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}
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}
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