mirror of
https://github.com/reactos/syzkaller.git
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c84501fe70
Add fuzzer for Deserialize and fix 5 or so bugs it found. Fixes #1086
165 lines
3.9 KiB
Go
165 lines
3.9 KiB
Go
// Copyright 2018 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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)
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// memAlloc keeps track of allocated objects in a program
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// and decides where to allocate new objects.
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// It has 2 main methods: noteAlloc which is called for existing allocations
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// in a program as we analyze it; and alloc which decides where to allocate
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// a new object.
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// The implementation is based on a 2-level bitmap where each bit represents
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// 64 bytes (memAllocGranule) of program memory.
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type memAlloc struct {
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size uint64
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mem [memAllocL1Size]*[memAllocL0Size]uint64
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buf [memAllocL0Size]uint64
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}
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const (
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memAllocGranule = 64 // 1 bit per that many bytes (all allocations are rounded to this size)
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memAllocMaxMem = 16 << 20
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memAllocL0Size = 64
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bitsPerUint64 = 8 * 8
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memAllocL0Mem = memAllocL0Size * memAllocGranule * bitsPerUint64
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memAllocL1Size = memAllocMaxMem / memAllocL0Mem
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)
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func newMemAlloc(totalMemSize uint64) *memAlloc {
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if totalMemSize > memAllocMaxMem {
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panic(fmt.Sprintf("newMemAlloc: too much mem %v (max: %v)", totalMemSize, memAllocMaxMem))
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}
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if totalMemSize%memAllocL0Mem != 0 {
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panic(fmt.Sprintf("newMemAlloc: unaligned size %v (align: %v)", totalMemSize, memAllocL0Mem))
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}
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ma := &memAlloc{
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size: totalMemSize / memAllocGranule,
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}
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ma.mem[0] = &ma.buf
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return ma
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}
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func (ma *memAlloc) noteAlloc(addr0, size0 uint64) {
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addr := addr0 / memAllocGranule
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size := (addr0+size0+memAllocGranule-1)/memAllocGranule - addr
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for i := uint64(0); i < size; i++ {
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ma.set(addr + i)
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}
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}
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func (ma *memAlloc) alloc(r *randGen, size0 uint64) uint64 {
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if size0 == 0 {
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size0 = 1
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}
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size := (size0 + memAllocGranule - 1) / memAllocGranule
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end := ma.size - size
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for start := uint64(0); start <= end; start++ {
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empty := true
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for i := uint64(0); i < size; i++ {
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if ma.get(start + i) {
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empty = false
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break
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}
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}
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if empty {
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start0 := start * memAllocGranule
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ma.noteAlloc(start0, size0)
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return start0
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}
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}
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ma.bankruptcy()
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return ma.alloc(r, size0)
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}
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func (ma *memAlloc) bankruptcy() {
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for i1 := uint64(0); i1 < ma.size/(memAllocL0Size*bitsPerUint64); i1++ {
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if ma.mem[i1] == nil {
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continue
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}
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for i0 := range ma.mem[i1] {
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ma.mem[i1][i0] = 0
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}
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}
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}
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func (ma *memAlloc) pos(idx uint64) (i1, i0, bit uint64) {
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i1 = idx / (memAllocL0Size * bitsPerUint64)
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r1 := idx % (memAllocL0Size * bitsPerUint64)
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i0 = r1 / bitsPerUint64
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bit = 1 << (r1 % bitsPerUint64)
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return
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}
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func (ma *memAlloc) set(idx uint64) {
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i1, i0, bit := ma.pos(idx)
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if ma.mem[i1] == nil {
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ma.mem[i1] = new([memAllocL0Size]uint64)
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}
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ma.mem[i1][i0] |= bit
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}
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func (ma *memAlloc) get(idx uint64) bool {
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i1, i0, bit := ma.pos(idx)
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if ma.mem[i1] == nil {
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return false
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}
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return ma.mem[i1][i0]&bit != 0
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}
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type vmaAlloc struct {
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numPages uint64
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used []uint64
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m map[uint64]struct{}
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}
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func newVmaAlloc(totalPages uint64) *vmaAlloc {
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return &vmaAlloc{
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numPages: totalPages,
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m: make(map[uint64]struct{}),
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}
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}
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func (va *vmaAlloc) noteAlloc(page, size uint64) {
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for i := page; i < page+size; i++ {
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if _, ok := va.m[i]; ok {
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continue
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}
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va.m[i] = struct{}{}
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va.used = append(va.used, i)
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}
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}
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func (va *vmaAlloc) alloc(r *randGen, size uint64) uint64 {
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if size > va.numPages {
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panic(fmt.Sprintf("vmaAlloc: bad size=%v numPages=%v", size, va.numPages))
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}
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var page uint64
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if len(va.used) == 0 || r.oneOf(5) {
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page = r.rand(4)
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if !r.oneOf(100) {
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page = va.numPages - page - size
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}
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} else {
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page = va.used[r.rand(len(va.used))]
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if size > 1 && r.bin() {
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off := r.rand(int(size))
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if off > page {
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off = page
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}
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page -= off
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}
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if page+size > va.numPages {
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page = va.numPages - size
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}
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}
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if page >= va.numPages || size > va.numPages || page+size > va.numPages {
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panic(fmt.Sprintf("vmaAlloc: bad page=%v size=%v numPages=%v", page, size, va.numPages))
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}
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va.noteAlloc(page, size)
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return page
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}
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