tests/fuzzers/abi: better test generation (#22158)

* tests/fuzzers/abi: better test generation

* tests/fuzzers/abi: fixed packing issue

* oss-fuzz: enable abi fuzzer
# Conflicts:
#	tests/fuzzers/abi/abifuzzer.go
This commit is contained in:
Marius van der Wijden 2021-01-18 14:33:15 +01:00 committed by Igor Mandrigin
parent 6d9c22a5a0
commit 519d6e3edf
3 changed files with 51 additions and 80 deletions

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@ -100,6 +100,7 @@ compile_fuzzer tests/fuzzers/rlp Fuzz fuzzRlp
compile_fuzzer tests/fuzzers/trie Fuzz fuzzTrie
compile_fuzzer tests/fuzzers/stacktrie Fuzz fuzzStackTrie
compile_fuzzer tests/fuzzers/difficulty Fuzz fuzzDifficulty
compile_fuzzertests/fuzzers/abi Fuzz fuzzAbi
compile_fuzzer tests/fuzzers/bls12381 FuzzG1Add fuzz_g1_add
compile_fuzzer tests/fuzzers/bls12381 FuzzG1Mul fuzz_g1_mul
@ -113,8 +114,3 @@ compile_fuzzer tests/fuzzers/bls12381 FuzzMapG2 fuzz_map_g2
#TODO: move this to tests/fuzzers, if possible
compile_fuzzer crypto/blake2b Fuzz fuzzBlake2b
# This doesn't work very well @TODO
#compile_fuzzertests/fuzzers/abi Fuzz fuzzAbi

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@ -17,38 +17,52 @@
package abi
import (
"bytes"
"fmt"
"math/rand"
"reflect"
"strings"
fuzz "github.com/google/gofuzz"
"github.com/ledgerwatch/turbo-geth/accounts/abi"
"github.com/ledgerwatch/turbo-geth/crypto"
)
func unpackPack(abi abi.ABI, method string, inputType []interface{}, input []byte) bool {
outptr := reflect.New(reflect.TypeOf(inputType))
if err := abi.UnpackIntoInterface(outptr.Interface(), method, input); err == nil {
output, err := abi.Pack(method, input)
var (
names = []string{"_name", "name", "NAME", "name_", "__", "_name_", "n"}
stateMut = []string{"", "pure", "view", "payable"}
stateMutabilites = []*string{&stateMut[0], &stateMut[1], &stateMut[2], &stateMut[3]}
pays = []string{"", "true", "false"}
payables = []*string{&pays[0], &pays[1]}
vNames = []string{"a", "b", "c", "d", "e", "f", "g"}
varNames = append(vNames, names...)
varTypes = []string{"bool", "address", "bytes", "string",
"uint8", "int8", "uint8", "int8", "uint16", "int16",
"uint24", "int24", "uint32", "int32", "uint40", "int40", "uint48", "int48", "uint56", "int56",
"uint64", "int64", "uint72", "int72", "uint80", "int80", "uint88", "int88", "uint96", "int96",
"uint104", "int104", "uint112", "int112", "uint120", "int120", "uint128", "int128", "uint136", "int136",
"uint144", "int144", "uint152", "int152", "uint160", "int160", "uint168", "int168", "uint176", "int176",
"uint184", "int184", "uint192", "int192", "uint200", "int200", "uint208", "int208", "uint216", "int216",
"uint224", "int224", "uint232", "int232", "uint240", "int240", "uint248", "int248", "uint256", "int256",
"bytes1", "bytes2", "bytes3", "bytes4", "bytes5", "bytes6", "bytes7", "bytes8", "bytes9", "bytes10", "bytes11",
"bytes12", "bytes13", "bytes14", "bytes15", "bytes16", "bytes17", "bytes18", "bytes19", "bytes20", "bytes21",
"bytes22", "bytes23", "bytes24", "bytes25", "bytes26", "bytes27", "bytes28", "bytes29", "bytes30", "bytes31",
"bytes32", "bytes"}
)
func unpackPack(abi abi.ABI, method string, input []byte) ([]interface{}, bool) {
if out, err := abi.Unpack(method, input); err == nil {
_, err := abi.Pack(method, out...)
if err != nil {
// We have some false positives as we can unpack these type successfully, but not pack them
if err.Error() == "abi: cannot use []uint8 as type [0]int8 as argument" ||
err.Error() == "abi: cannot use uint8 as type int8 as argument" {
return false
return out, false
}
panic(err)
}
if !bytes.Equal(input, output[4:]) {
panic(fmt.Sprintf("unpackPack is not equal, \ninput : %x\noutput: %x", input, output[4:]))
}
return true
return out, true
}
return false
return nil, false
}
func packUnpack(abi abi.ABI, method string, input []interface{}) bool {
func packUnpack(abi abi.ABI, method string, input *[]interface{}) bool {
if packed, err := abi.Pack(method, input); err == nil {
outptr := reflect.New(reflect.TypeOf(input))
err := abi.UnpackIntoInterface(outptr.Interface(), method, packed)
@ -100,64 +114,23 @@ func createABI(name string, stateMutability, payable *string, inputs []args) (ab
return abi.JSON(strings.NewReader(sig))
}
func fillStruct(structs []interface{}, data []byte) {
if structs != nil && len(data) != 0 {
fuzz.NewFromGoFuzz(data).Fuzz(&structs)
}
}
func createStructs(args []args) []interface{} {
structs := make([]interface{}, len(args))
for i, arg := range args {
t, err := abi.NewType(arg.typ, "", nil)
if err != nil {
panic(err)
}
structs[i] = reflect.New(t.GetType()).Elem()
}
return structs
}
func runFuzzer(input []byte) int {
good := false
fuzzer := fuzz.NewFromGoFuzz(input)
names := []string{"_name", "name", "NAME", "name_", "__", "_name_", "n"}
stateMut := []string{"", "pure", "view", "payable"}
stateMutabilites := []*string{nil, &stateMut[0], &stateMut[1], &stateMut[2], &stateMut[3]}
pays := []string{"true", "false"}
payables := []*string{nil, &pays[0], &pays[1]}
varNames := []string{"a", "b", "c", "d", "e", "f", "g"}
varNames = append(varNames, names...)
varTypes := []string{"bool", "address", "bytes", "string",
"uint8", "int8", "uint8", "int8", "uint16", "int16",
"uint24", "int24", "uint32", "int32", "uint40", "int40", "uint48", "int48", "uint56", "int56",
"uint64", "int64", "uint72", "int72", "uint80", "int80", "uint88", "int88", "uint96", "int96",
"uint104", "int104", "uint112", "int112", "uint120", "int120", "uint128", "int128", "uint136", "int136",
"uint144", "int144", "uint152", "int152", "uint160", "int160", "uint168", "int168", "uint176", "int176",
"uint184", "int184", "uint192", "int192", "uint200", "int200", "uint208", "int208", "uint216", "int216",
"uint224", "int224", "uint232", "int232", "uint240", "int240", "uint248", "int248", "uint256", "int256",
"bytes1", "bytes2", "bytes3", "bytes4", "bytes5", "bytes6", "bytes7", "bytes8", "bytes9", "bytes10", "bytes11",
"bytes12", "bytes13", "bytes14", "bytes15", "bytes16", "bytes17", "bytes18", "bytes19", "bytes20", "bytes21",
"bytes22", "bytes23", "bytes24", "bytes25", "bytes26", "bytes27", "bytes28", "bytes29", "bytes30", "bytes31",
"bytes32", "bytes"}
rnd := rand.New(rand.NewSource(123456))
if len(input) > 0 {
kec := crypto.Keccak256(input)
rnd = rand.New(rand.NewSource(int64(kec[0])))
}
name := names[rnd.Intn(len(names))]
stateM := stateMutabilites[rnd.Intn(len(stateMutabilites))]
payable := payables[rnd.Intn(len(payables))]
name := names[getUInt(fuzzer)%len(names)]
stateM := stateMutabilites[getUInt(fuzzer)%len(stateMutabilites)]
payable := payables[getUInt(fuzzer)%len(payables)]
maxLen := 5
for k := 1; k < maxLen; k++ {
var arg []args
for i := k; i > 0; i-- {
argName := varNames[i]
argTyp := varTypes[rnd.Int31n(int32(len(varTypes)))]
if rnd.Int31n(10) == 0 {
argTyp := varTypes[getUInt(fuzzer)%len(varTypes)]
if getUInt(fuzzer)%10 == 0 {
argTyp += "[]"
} else if rnd.Int31n(10) == 0 {
arrayArgs := rnd.Int31n(30) + 1
} else if getUInt(fuzzer)%10 == 0 {
arrayArgs := getUInt(fuzzer)%30 + 1
argTyp += fmt.Sprintf("[%d]", arrayArgs)
}
arg = append(arg, args{
@ -169,10 +142,8 @@ func runFuzzer(input []byte) int {
if err != nil {
continue
}
structs := createStructs(arg)
b := unpackPack(abi, name, structs, input)
fillStruct(structs, input)
c := packUnpack(abi, name, structs)
structs, b := unpackPack(abi, name, input)
c := packUnpack(abi, name, &structs)
good = good || b || c
}
if good {
@ -184,3 +155,12 @@ func runFuzzer(input []byte) int {
func Fuzz(input []byte) int {
return runFuzzer(input)
}
func getUInt(fuzzer *fuzz.Fuzzer) int {
var i int
fuzzer.Fuzz(&i)
if i < 0 {
i *= -1
}
return i
}

View File

@ -23,13 +23,8 @@ import (
// TestReplicate can be used to replicate crashers from the fuzzing tests.
// Just replace testString with the data in .quoted
func TestReplicate(t *testing.T) {
testString := "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" +
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00 \x00\x00\x00\x00\x00\x00\x00\x00" +
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" +
"\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00000000000" +
"00000000000000000000" +
"00000000000000000000" +
"00000001"
testString := "N\xef\xbf0\xef\xbf99000000000000" +
"000000000000"
data := []byte(testString)
runFuzzer(data)