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path: root/trie/proof_test.go
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// Copyright 2015 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum 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 go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// 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 go-ethereum library. If not, see <http://www.gnu.org/licenses/>.

package trie

import (
    "bytes"
    crand "crypto/rand"
    mrand "math/rand"
    "testing"
    "time"

    "github.com/ethereum/go-ethereum/common"
    "github.com/ethereum/go-ethereum/crypto"
    "github.com/ethereum/go-ethereum/ethdb/memorydb"
)

func init() {
    mrand.Seed(time.Now().Unix())
}

// makeProvers creates Merkle trie provers based on different implementations to
// test all variations.
func makeProvers(trie *Trie) []func(key []byte) *memorydb.Database {
    var provers []func(key []byte) *memorydb.Database

    // Create a direct trie based Merkle prover
    provers = append(provers, func(key []byte) *memorydb.Database {
        proof := memorydb.New()
        trie.Prove(key, 0, proof)
        return proof
    })
    // Create a leaf iterator based Merkle prover
    provers = append(provers, func(key []byte) *memorydb.Database {
        proof := memorydb.New()
        if it := NewIterator(trie.NodeIterator(key)); it.Next() && bytes.Equal(key, it.Key) {
            for _, p := range it.Prove() {
                proof.Put(crypto.Keccak256(p), p)
            }
        }
        return proof
    })
    return provers
}

func TestProof(t *testing.T) {
    trie, vals := randomTrie(500)
    root := trie.Hash()
    for i, prover := range makeProvers(trie) {
        for _, kv := range vals {
            proof := prover(kv.k)
            if proof == nil {
                t.Fatalf("prover %d: missing key %x while constructing proof", i, kv.k)
            }
            val, _, err := VerifyProof(root, kv.k, proof)
            if err != nil {
                t.Fatalf("prover %d: failed to verify proof for key %x: %v\nraw proof: %x", i, kv.k, err, proof)
            }
            if !bytes.Equal(val, kv.v) {
                t.Fatalf("prover %d: verified value mismatch for key %x: have %x, want %x", i, kv.k, val, kv.v)
            }
        }
    }
}

func TestOneElementProof(t *testing.T) {
    trie := new(Trie)
    updateString(trie, "k", "v")
    for i, prover := range makeProvers(trie) {
        proof := prover([]byte("k"))
        if proof == nil {
            t.Fatalf("prover %d: nil proof", i)
        }
        if proof.Len() != 1 {
            t.Errorf("prover %d: proof should have one element", i)
        }
        val, _, err := VerifyProof(trie.Hash(), []byte("k"), proof)
        if err != nil {
            t.Fatalf("prover %d: failed to verify proof: %v\nraw proof: %x", i, err, proof)
        }
        if !bytes.Equal(val, []byte("v")) {
            t.Fatalf("prover %d: verified value mismatch: have %x, want 'k'", i, val)
        }
    }
}

func TestBadProof(t *testing.T) {
    trie, vals := randomTrie(800)
    root := trie.Hash()
    for i, prover := range makeProvers(trie) {
        for _, kv := range vals {
            proof := prover(kv.k)
            if proof == nil {
                t.Fatalf("prover %d: nil proof", i)
            }
            it := proof.NewIterator()
            for i, d := 0, mrand.Intn(proof.Len()); i <= d; i++ {
                it.Next()
            }
            key := it.Key()
            val, _ := proof.Get(key)
            proof.Delete(key)
            it.Release()

            mutateByte(val)
            proof.Put(crypto.Keccak256(val), val)

            if _, _, err := VerifyProof(root, kv.k, proof); err == nil {
                t.Fatalf("prover %d: expected proof to fail for key %x", i, kv.k)
            }
        }
    }
}

// Tests that missing keys can also be proven. The test explicitly uses a single
// entry trie and checks for missing keys both before and after the single entry.
func TestMissingKeyProof(t *testing.T) {
    trie := new(Trie)
    updateString(trie, "k", "v")

    for i, key := range []string{"a", "j", "l", "z"} {
        proof := memorydb.New()
        trie.Prove([]byte(key), 0, proof)

        if proof.Len() != 1 {
            t.Errorf("test %d: proof should have one element", i)
        }
        val, _, err := VerifyProof(trie.Hash(), []byte(key), proof)
        if err != nil {
            t.Fatalf("test %d: failed to verify proof: %v\nraw proof: %x", i, err, proof)
        }
        if val != nil {
            t.Fatalf("test %d: verified value mismatch: have %x, want nil", i, val)
        }
    }
}

// mutateByte changes one byte in b.
func mutateByte(b []byte) {
    for r := mrand.Intn(len(b)); ; {
        new := byte(mrand.Intn(255))
        if new != b[r] {
            b[r] = new
            break
        }
    }
}

func BenchmarkProve(b *testing.B) {
    trie, vals := randomTrie(100)
    var keys []string
    for k := range vals {
        keys = append(keys, k)
    }

    b.ResetTimer()
    for i := 0; i < b.N; i++ {
        kv := vals[keys[i%len(keys)]]
        proofs := memorydb.New()
        if trie.Prove(kv.k, 0, proofs); proofs.Len() == 0 {
            b.Fatalf("zero length proof for %x", kv.k)
        }
    }
}

func BenchmarkVerifyProof(b *testing.B) {
    trie, vals := randomTrie(100)
    root := trie.Hash()
    var keys []string
    var proofs []*memorydb.Database
    for k := range vals {
        keys = append(keys, k)
        proof := memorydb.New()
        trie.Prove([]byte(k), 0, proof)
        proofs = append(proofs, proof)
    }

    b.ResetTimer()
    for i := 0; i < b.N; i++ {
        im := i % len(keys)
        if _, _, err := VerifyProof(root, []byte(keys[im]), proofs[im]); err != nil {
            b.Fatalf("key %x: %v", keys[im], err)
        }
    }
}

func randomTrie(n int) (*Trie, map[string]*kv) {
    trie := new(Trie)
    vals := make(map[string]*kv)
    for i := byte(0); i < 100; i++ {
        value := &kv{common.LeftPadBytes([]byte{i}, 32), []byte{i}, false}
        value2 := &kv{common.LeftPadBytes([]byte{i + 10}, 32), []byte{i}, false}
        trie.Update(value.k, value.v)
        trie.Update(value2.k, value2.v)
        vals[string(value.k)] = value
        vals[string(value2.k)] = value2
    }
    for i := 0; i < n; i++ {
        value := &kv{randBytes(32), randBytes(20), false}
        trie.Update(value.k, value.v)
        vals[string(value.k)] = value
    }
    return trie, vals
}

func randBytes(n int) []byte {
    r := make([]byte, n)
    crand.Read(r)
    return r
}