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// Copyright 2018 The dexon-consensus-core Authors
// This file is part of the dexon-consensus-core library.
//
// The dexon-consensus-core 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 dexon-consensus-core 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 dexon-consensus-core library. If not, see
// <http://www.gnu.org/licenses/>.

package core

import (
    "testing"
    "time"

    "github.com/dexon-foundation/dexon-consensus-core/common"
    "github.com/dexon-foundation/dexon-consensus-core/core/types"
    "github.com/dexon-foundation/dexon-consensus-core/crypto"
    "github.com/dexon-foundation/dexon-consensus-core/crypto/eth"
    "github.com/stretchr/testify/suite"
)

type CryptoTestSuite struct {
    suite.Suite
}

var myVID = types.ValidatorID{Hash: common.NewRandomHash()}

func (s *CryptoTestSuite) prepareBlock(prevBlock *types.Block) *types.Block {
    acks := make(map[common.Hash]struct{})
    timestamps := make(map[types.ValidatorID]time.Time)
    timestamps[myVID] = time.Now().UTC()
    if prevBlock == nil {
        return &types.Block{
            Acks:       acks,
            Timestamps: timestamps,
            Notary: types.Notary{
                Timestamp: time.Now(),
                Height:    0,
            },
        }
    }
    parentHash, err := hashNotary(prevBlock)
    s.Require().Nil(err)
    s.Require().NotEqual(prevBlock.Hash, common.Hash{})
    acks[parentHash] = struct{}{}
    return &types.Block{
        ParentHash: prevBlock.Hash,
        Acks:       acks,
        Timestamps: timestamps,
        Position: types.Position{
            Height: prevBlock.Position.Height + 1,
        },
        Notary: types.Notary{
            ParentHash: parentHash,
            Timestamp:  time.Now(),
            Height:     prevBlock.Notary.Height + 1,
        },
    }
}

func (s *CryptoTestSuite) newBlock(prevBlock *types.Block) *types.Block {
    block := s.prepareBlock(prevBlock)
    var err error
    block.Hash, err = hashBlock(block)
    s.Require().Nil(err)
    return block
}

func (s *CryptoTestSuite) generateCompactionChain(
    length int, prv crypto.PrivateKey) (
    []*types.Block, []types.NotaryAck) {
    blocks := make([]*types.Block, length)
    notaryAcks := make([]types.NotaryAck, length)
    var prevBlock *types.Block
    for idx := range blocks {
        block := s.newBlock(prevBlock)
        prevBlock = block
        blocks[idx] = block
        var err error
        notaryAcks[idx].Hash, err = hashNotary(blocks[idx])
        s.Require().Nil(err)
        notaryAcks[idx].NotaryBlockHash = blocks[idx].Hash
        notaryAcks[idx].Signature, err = prv.Sign(notaryAcks[idx].Hash)
        s.Require().Nil(err)
        if idx > 0 {
            block.Notary.ParentHash = notaryAcks[idx-1].Hash
        }
    }
    return blocks, notaryAcks
}

func (s *CryptoTestSuite) TestNotaryAckSignature() {
    prv, err := eth.NewPrivateKey()
    pub := prv.PublicKey()
    s.Require().Nil(err)
    blocks, notaryAcks := s.generateCompactionChain(10, prv)
    blockMap := make(map[common.Hash]*types.Block)
    for _, block := range blocks {
        blockMap[block.Hash] = block
    }
    parentBlock := blocks[0]
    for _, notaryAck := range notaryAcks {
        notaryBlock, exist := blockMap[notaryAck.NotaryBlockHash]
        s.Require().True(exist)
        if notaryBlock.Notary.Height == 0 {
            continue
        }
        s.True(parentBlock.Notary.Height == notaryBlock.Notary.Height-1)
        hash, err := hashNotary(parentBlock)
        s.Require().Nil(err)
        s.Equal(hash, notaryBlock.Notary.ParentHash)
        s.True(verifyNotarySignature(
            pub, notaryBlock, notaryAck.Signature))
        parentBlock = notaryBlock

    }
    // Modify Block.Notary.Timestamp and verify signature again.
    for _, notaryAck := range notaryAcks {
        block, exist := blockMap[notaryAck.NotaryBlockHash]
        s.Require().True(exist)
        block.Notary.Timestamp = time.Time{}
        ackingBlock, exist := blockMap[notaryAck.NotaryBlockHash]
        s.Require().True(exist)
        s.False(verifyNotarySignature(
            pub, ackingBlock, notaryAck.Signature))
    }
}

func (s *CryptoTestSuite) generateBlockChain(
    length int, prv crypto.PrivateKey) []*types.Block {
    blocks := make([]*types.Block, length)
    var prevBlock *types.Block
    for idx := range blocks {
        block := s.newBlock(prevBlock)
        blocks[idx] = block
        var err error
        block.Signature, err = prv.Sign(block.Hash)
        s.Require().Nil(err)
    }
    return blocks
}

func (s *CryptoTestSuite) TestBlockSignature() {
    prv, err := eth.NewPrivateKey()
    pub := prv.PublicKey()
    s.Require().Nil(err)
    blocks := s.generateBlockChain(10, prv)
    blockMap := make(map[common.Hash]*types.Block)
    for _, block := range blocks {
        blockMap[block.Hash] = block
    }
    for _, block := range blocks {
        if !block.IsGenesis() {
            parentBlock, exist := blockMap[block.ParentHash]
            s.Require().True(exist)
            s.True(parentBlock.Position.Height == block.Position.Height-1)
            hash, err := hashBlock(parentBlock)
            s.Require().Nil(err)
            s.Equal(hash, block.ParentHash)
        }
        s.True(verifyBlockSignature(pub, block, block.Signature))
    }
    // Modify Block.Acks and verify signature again.
    for _, block := range blocks {
        block.Acks[common.NewRandomHash()] = struct{}{}
        s.False(verifyBlockSignature(
            pub, block, block.Signature))
    }
}

func (s *CryptoTestSuite) TestVoteSignature() {
    prv, err := eth.NewPrivateKey()
    s.Require().Nil(err)
    pub := prv.PublicKey()
    vID := types.NewValidatorID(pub)
    vote := &types.Vote{
        ProposerID: vID,
        Type:       types.VoteAck,
        BlockHash:  common.NewRandomHash(),
        Period:     1,
    }
    vote.Signature, err = prv.Sign(hashVote(vote))
    s.Require().Nil(err)
    s.True(verifyVoteSignature(vote, eth.SigToPub))
    vote.Type = types.VoteConfirm
    s.False(verifyVoteSignature(vote, eth.SigToPub))
}

func (s *CryptoTestSuite) TestCRSSignature() {
    crs := common.NewRandomHash()
    prv, err := eth.NewPrivateKey()
    s.Require().Nil(err)
    pub := prv.PublicKey()
    vID := types.NewValidatorID(pub)
    block := &types.Block{
        ProposerID: vID,
    }
    block.CRSSignature, err = prv.Sign(hashCRS(block, crs))
    s.Require().Nil(err)
    s.True(verifyCRSSignature(block, crs, eth.SigToPub))
    block.Position.Height++
    s.False(verifyCRSSignature(block, crs, eth.SigToPub))
}

func TestCrypto(t *testing.T) {
    suite.Run(t, new(CryptoTestSuite))
}