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// Copyright 2019 The Waku Library Authors.
//
// The Waku library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The Waku library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty off
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the Waku library. If not, see <http://www.gnu.org/licenses/>.
//
// This software uses the go-ethereum library, which is licensed
// under the GNU Lesser General Public Library, version 3 or any later.
package waku
import (
"bytes"
"crypto/aes"
"crypto/cipher"
mrand "math/rand"
"testing"
"time"
"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/rlp"
)
func generateMessageParams ( ) ( * MessageParams , error ) {
// set all the parameters except p.Dst and p.Padding
buf := make ( [ ] byte , 4 )
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mrand . Read ( buf ) // nolint: gosec
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sz := mrand . Intn ( 400 )
var p MessageParams
p . PoW = 0.01
p . WorkTime = 1
p . TTL = uint32 ( mrand . Intn ( 1024 ) )
p . Payload = make ( [ ] byte , sz )
p . KeySym = make ( [ ] byte , aesKeyLength )
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mrand . Read ( p . Payload ) // nolint: gosec
mrand . Read ( p . KeySym ) // nolint: gosec
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p . Topic = BytesToTopic ( buf )
var err error
p . Src , err = crypto . GenerateKey ( )
if err != nil {
return nil , err
}
return & p , nil
}
func singleMessageTest ( t * testing . T , symmetric bool ) {
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
key , err := crypto . GenerateKey ( )
if err != nil {
t . Fatalf ( "failed GenerateKey with seed %d: %s." , seed , err )
}
if ! symmetric {
params . KeySym = nil
params . Dst = & key . PublicKey
}
text := make ( [ ] byte , 0 , 512 )
text = append ( text , params . Payload ... )
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
env , err := msg . Wrap ( params , time . Now ( ) )
if err != nil {
t . Fatalf ( "failed Wrap with seed %d: %s." , seed , err )
}
var decrypted * ReceivedMessage
if symmetric {
decrypted , err = env . OpenSymmetric ( params . KeySym )
} else {
decrypted , err = env . OpenAsymmetric ( key )
}
if err != nil {
t . Fatalf ( "failed to encrypt with seed %d: %s." , seed , err )
}
if ! decrypted . ValidateAndParse ( ) {
t . Fatalf ( "failed to validate with seed %d, symmetric = %v." , seed , symmetric )
}
if ! bytes . Equal ( text , decrypted . Payload ) {
t . Fatalf ( "failed with seed %d: compare payload." , seed )
}
if ! isMessageSigned ( decrypted . Raw [ 0 ] ) {
t . Fatalf ( "failed with seed %d: unsigned." , seed )
}
if len ( decrypted . Signature ) != signatureLength {
t . Fatalf ( "failed with seed %d: signature len %d." , seed , len ( decrypted . Signature ) )
}
if ! IsPubKeyEqual ( decrypted . Src , & params . Src . PublicKey ) {
t . Fatalf ( "failed with seed %d: signature mismatch." , seed )
}
}
func TestMessageEncryption ( t * testing . T ) {
InitSingleTest ( )
var symmetric bool
for i := 0 ; i < 256 ; i ++ {
singleMessageTest ( t , symmetric )
symmetric = ! symmetric
}
}
func TestMessageWrap ( t * testing . T ) {
seed = int64 ( 1777444222 )
mrand . Seed ( seed )
target := 128.0
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . TTL = 1
params . WorkTime = 12
params . PoW = target
env , err := msg . Wrap ( params , time . Now ( ) )
if err != nil {
t . Fatalf ( "failed Wrap with seed %d: %s." , seed , err )
}
pow := env . PoW ( )
if pow < target {
t . Fatalf ( "failed Wrap with seed %d: pow < target (%f vs. %f)." , seed , pow , target )
}
// set PoW target too high, expect error
msg2 , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . TTL = 1000000
params . WorkTime = 1
params . PoW = 10000000.0
_ , err = msg2 . Wrap ( params , time . Now ( ) )
if err == nil {
t . Fatalf ( "unexpectedly reached the PoW target with seed %d." , seed )
}
}
func TestMessageSeal ( t * testing . T ) {
// this test depends on deterministic choice of seed (1976726903)
seed = int64 ( 1976726903 )
mrand . Seed ( seed )
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . TTL = 1
env := NewEnvelope ( params . TTL , params . Topic , msg , time . Now ( ) )
if err != nil {
t . Fatalf ( "failed Wrap with seed %d: %s." , seed , err )
}
env . Expiry = uint32 ( seed ) // make it deterministic
target := 32.0
params . WorkTime = 4
params . PoW = target
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env . Seal ( params ) // nolint: errcheck
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env . calculatePoW ( 0 )
pow := env . PoW ( )
if pow < target {
t . Fatalf ( "failed Wrap with seed %d: pow < target (%f vs. %f)." , seed , pow , target )
}
params . WorkTime = 1
params . PoW = 1000000000.0
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env . Seal ( params ) // nolint: errcheck
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env . calculatePoW ( 0 )
pow = env . PoW ( )
if pow < 2 * target {
t . Fatalf ( "failed Wrap with seed %d: pow too small %f." , seed , pow )
}
}
func TestEnvelopeOpen ( t * testing . T ) {
InitSingleTest ( )
var symmetric bool
for i := 0 ; i < 32 ; i ++ {
singleEnvelopeOpenTest ( t , symmetric )
symmetric = ! symmetric
}
}
func singleEnvelopeOpenTest ( t * testing . T , symmetric bool ) {
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
key , err := crypto . GenerateKey ( )
if err != nil {
t . Fatalf ( "failed GenerateKey with seed %d: %s." , seed , err )
}
if ! symmetric {
params . KeySym = nil
params . Dst = & key . PublicKey
}
text := make ( [ ] byte , 0 , 512 )
text = append ( text , params . Payload ... )
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
env , err := msg . Wrap ( params , time . Now ( ) )
if err != nil {
t . Fatalf ( "failed Wrap with seed %d: %s." , seed , err )
}
var f Filter
if symmetric {
f = Filter { KeySym : params . KeySym }
} else {
f = Filter { KeyAsym : key }
}
decrypted := env . Open ( & f )
if decrypted == nil {
t . Fatalf ( "failed to open with seed %d." , seed )
}
if ! bytes . Equal ( text , decrypted . Payload ) {
t . Fatalf ( "failed with seed %d: compare payload." , seed )
}
if ! isMessageSigned ( decrypted . Raw [ 0 ] ) {
t . Fatalf ( "failed with seed %d: unsigned." , seed )
}
if len ( decrypted . Signature ) != signatureLength {
t . Fatalf ( "failed with seed %d: signature len %d." , seed , len ( decrypted . Signature ) )
}
if ! IsPubKeyEqual ( decrypted . Src , & params . Src . PublicKey ) {
t . Fatalf ( "failed with seed %d: signature mismatch." , seed )
}
if decrypted . isAsymmetricEncryption ( ) == symmetric {
t . Fatalf ( "failed with seed %d: asymmetric %v vs. %v." , seed , decrypted . isAsymmetricEncryption ( ) , symmetric )
}
if decrypted . isSymmetricEncryption ( ) != symmetric {
t . Fatalf ( "failed with seed %d: symmetric %v vs. %v." , seed , decrypted . isSymmetricEncryption ( ) , symmetric )
}
if ! symmetric {
if decrypted . Dst == nil {
t . Fatalf ( "failed with seed %d: dst is nil." , seed )
}
if ! IsPubKeyEqual ( decrypted . Dst , & key . PublicKey ) {
t . Fatalf ( "failed with seed %d: Dst." , seed )
}
}
}
func TestEncryptWithZeroKey ( t * testing . T ) {
InitSingleTest ( )
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . KeySym = make ( [ ] byte , aesKeyLength )
_ , err = msg . Wrap ( params , time . Now ( ) )
if err == nil {
t . Fatalf ( "wrapped with zero key, seed: %d." , seed )
}
params , err = generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err = NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . KeySym = make ( [ ] byte , 0 )
_ , err = msg . Wrap ( params , time . Now ( ) )
if err == nil {
t . Fatalf ( "wrapped with empty key, seed: %d." , seed )
}
params , err = generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err = NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
params . KeySym = nil
_ , err = msg . Wrap ( params , time . Now ( ) )
if err == nil {
t . Fatalf ( "wrapped with nil key, seed: %d." , seed )
}
}
func TestRlpEncode ( t * testing . T ) {
InitSingleTest ( )
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d: %s." , seed , err )
}
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
env , err := msg . Wrap ( params , time . Now ( ) )
if err != nil {
t . Fatalf ( "wrapped with zero key, seed: %d." , seed )
}
raw , err := rlp . EncodeToBytes ( env )
if err != nil {
t . Fatalf ( "RLP encode failed: %s." , err )
}
var decoded Envelope
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err = rlp . DecodeBytes ( raw , & decoded )
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if err != nil {
t . Fatalf ( "RLP decode failed: %s." , err )
}
he := env . Hash ( )
hd := decoded . Hash ( )
if he != hd {
t . Fatalf ( "Hashes are not equal: %x vs. %x" , he , hd )
}
}
func singlePaddingTest ( t * testing . T , padSize int ) {
params , err := generateMessageParams ( )
if err != nil {
t . Fatalf ( "failed generateMessageParams with seed %d and sz=%d: %s." , seed , padSize , err )
}
params . Padding = make ( [ ] byte , padSize )
params . PoW = 0.0000000001
pad := make ( [ ] byte , padSize )
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_ , err = mrand . Read ( pad ) // nolint: gosec
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if err != nil {
t . Fatalf ( "padding is not generated (seed %d): %s" , seed , err )
}
n := copy ( params . Padding , pad )
if n != padSize {
t . Fatalf ( "padding is not copied (seed %d): %s" , seed , err )
}
msg , err := NewSentMessage ( params )
if err != nil {
t . Fatalf ( "failed to create new message with seed %d: %s." , seed , err )
}
env , err := msg . Wrap ( params , time . Now ( ) )
if err != nil {
t . Fatalf ( "failed to wrap, seed: %d and sz=%d." , seed , padSize )
}
f := Filter { KeySym : params . KeySym }
decrypted := env . Open ( & f )
if decrypted == nil {
t . Fatalf ( "failed to open, seed and sz=%d: %d." , seed , padSize )
}
if ! bytes . Equal ( pad , decrypted . Padding ) {
t . Fatalf ( "padding is not retireved as expected with seed %d and sz=%d:\n[%x]\n[%x]." , seed , padSize , pad , decrypted . Padding )
}
}
func TestPadding ( t * testing . T ) {
InitSingleTest ( )
for i := 1 ; i < 260 ; i ++ {
singlePaddingTest ( t , i )
}
lim := 256 * 256
for i := lim - 5 ; i < lim + 2 ; i ++ {
singlePaddingTest ( t , i )
}
for i := 0 ; i < 256 ; i ++ {
n := mrand . Intn ( 256 * 254 ) + 256
singlePaddingTest ( t , n )
}
for i := 0 ; i < 256 ; i ++ {
n := mrand . Intn ( 256 * 1024 ) + 256 * 256
singlePaddingTest ( t , n )
}
}
func TestPaddingAppendedToSymMessagesWithSignature ( t * testing . T ) {
params := & MessageParams {
Payload : make ( [ ] byte , 246 ) ,
KeySym : make ( [ ] byte , aesKeyLength ) ,
}
pSrc , err := crypto . GenerateKey ( )
if err != nil {
t . Fatalf ( "Error creating the signature key %v" , err )
return
}
params . Src = pSrc
// Simulate a message with a payload just under 256 so that
// payload + flag + signature > 256. Check that the result
// is padded on the next 256 boundary.
msg := sentMessage { }
const payloadSizeFieldMinSize = 1
msg . Raw = make ( [ ] byte , flagsLength + payloadSizeFieldMinSize + len ( params . Payload ) )
err = msg . appendPadding ( params )
if err != nil {
t . Fatalf ( "Error appending padding to message %v" , err )
return
}
if len ( msg . Raw ) != 512 - signatureLength {
t . Errorf ( "Invalid size %d != 512" , len ( msg . Raw ) )
}
}
func TestAesNonce ( t * testing . T ) {
key := hexutil . MustDecode ( "0x03ca634cae0d49acb401d8a4c6b6fe8c55b70d115bf400769cc1400f3258cd31" )
block , err := aes . NewCipher ( key )
if err != nil {
t . Fatalf ( "NewCipher failed: %s" , err )
}
aesgcm , err := cipher . NewGCM ( block )
if err != nil {
t . Fatalf ( "NewGCM failed: %s" , err )
}
// This is the most important single test in this package.
// If it fails, waku will not be working.
if aesgcm . NonceSize ( ) != aesNonceLength {
t . Fatalf ( "Nonce size is wrong. This is a critical error. Apparently AES nonce size have changed in the new version of AES GCM package. Waku will not be working until this problem is resolved." )
}
}
func TestValidateAndParseSizeOfPayloadSize ( t * testing . T ) {
testCases := [ ] struct {
Name string
Raw [ ] byte
} {
{
Name : "one byte of value 1" ,
Raw : [ ] byte { 1 } ,
} ,
{
Name : "two bytes of values 1 and 1" ,
Raw : [ ] byte { 1 , 1 } ,
} ,
}
for _ , tc := range testCases {
t . Run ( tc . Name , func ( t * testing . T ) {
msg := ReceivedMessage { Raw : tc . Raw }
msg . ValidateAndParse ( )
} )
}
}