tendermint/blocks/block_test.go

package blocks

import (
	"bytes"
	. "github.com/tendermint/tendermint/binary"
	"math/rand"
	"testing"
)

// Distributed pseudo-exponentially to test for various cases
func randVar() UInt64 {
	bits := rand.Uint32() % 64
	if bits == 0 {
		return 0
	}
	n := uint64(1 << (bits - 1))
	n += uint64(rand.Int63()) & ((1 << (bits - 1)) - 1)
	return UInt64(n)
}

func randBytes(n int) ByteSlice {
	bs := make([]byte, n)
	for i := 0; i < n; i++ {
		bs[i] = byte(rand.Intn(256))
	}
	return bs
}

func randSig() Signature {
	return Signature{AccountNumber(randVar()), randBytes(32)}
}

func TestBlock(t *testing.T) {

	// Txs

	sendTx := &SendTx{
		Signature: randSig(),
		Fee:       randVar(),
		To:        AccountNumber(randVar()),
		Amount:    randVar(),
	}

	nameTx := &NameTx{
		Signature: randSig(),
		Fee:       randVar(),
		Name:      String(randBytes(12)),
		PubKey:    randBytes(32),
	}

	// Adjs

	bond := &Bond{
		Signature: randSig(),
		Fee:       randVar(),
		UnbondTo:  AccountNumber(randVar()),
		Amount:    randVar(),
	}

	unbond := &Unbond{
		Signature: randSig(),
		Fee:       randVar(),
		Amount:    randVar(),
	}

	timeout := &Timeout{
		Account: AccountNumber(randVar()),
		Penalty: randVar(),
	}

	dupeout := &Dupeout{
		VoteA: Vote{
			Height:    randVar(),
			BlockHash: randBytes(32),
			Signature: randSig(),
		},
		VoteB: Vote{
			Height:    randVar(),
			BlockHash: randBytes(32),
			Signature: randSig(),
		},
	}

	// Block

	block := &Block{
		Header{
			Name:           "Tendermint",
			Height:         randVar(),
			Fees:           randVar(),
			Time:           randVar(),
			PrevHash:       randBytes(32),
			ValidationHash: randBytes(32),
			TxsHash:        randBytes(32),
		},
		Validation{
			Signatures:  []Signature{randSig(), randSig()},
			Adjustments: []Adjustment{bond, unbond, timeout, dupeout},
		},
		Txs{
			Txs: []Tx{sendTx, nameTx},
		},
	}

	// Write the block, read it in again, write it again.
	// Then, compare.

	blockBytes := BinaryBytes(block)
	block2 := ReadBlock(bytes.NewReader(blockBytes))
	blockBytes2 := BinaryBytes(block2)

	if !BinaryEqual(blockBytes, blockBytes2) {
		t.Fatal("Write->Read of block failed.")
	}
}
updated block types 2014-06-05 02:34:45 -07:00			`package blocks`

			`import (`
go fmt 2014-07-01 14:50:24 -07:00			`"bytes"`
			`. "github.com/tendermint/tendermint/binary"`
			`"math/rand"`
			`"testing"`
updated block types 2014-06-05 02:34:45 -07:00			`)`

			`// Distributed pseudo-exponentially to test for various cases`
			`func randVar() UInt64 {`
go fmt 2014-07-01 14:50:24 -07:00			`bits := rand.Uint32() % 64`
			`if bits == 0 {`
			`return 0`
			`}`
			`n := uint64(1 << (bits - 1))`
			`n += uint64(rand.Int63()) & ((1 << (bits - 1)) - 1)`
			`return UInt64(n)`
updated block types 2014-06-05 02:34:45 -07:00			`}`

			`func randBytes(n int) ByteSlice {`
go fmt 2014-07-01 14:50:24 -07:00			`bs := make([]byte, n)`
			`for i := 0; i < n; i++ {`
			`bs[i] = byte(rand.Intn(256))`
			`}`
			`return bs`
updated block types 2014-06-05 02:34:45 -07:00			`}`

. 2014-06-05 21:20:55 -07:00			`func randSig() Signature {`
go fmt 2014-07-01 14:50:24 -07:00			`return Signature{AccountNumber(randVar()), randBytes(32)}`
. 2014-06-05 21:20:55 -07:00			`}`

updated block types 2014-06-05 02:34:45 -07:00			`func TestBlock(t *testing.T) {`

go fmt 2014-07-01 14:50:24 -07:00			`// Txs`

			`sendTx := &SendTx{`
			`Signature: randSig(),`
			`Fee: randVar(),`
			`To: AccountNumber(randVar()),`
			`Amount: randVar(),`
			`}`

			`nameTx := &NameTx{`
			`Signature: randSig(),`
			`Fee: randVar(),`
			`Name: String(randBytes(12)),`
			`PubKey: randBytes(32),`
			`}`

			`// Adjs`

			`bond := &Bond{`
			`Signature: randSig(),`
			`Fee: randVar(),`
			`UnbondTo: AccountNumber(randVar()),`
			`Amount: randVar(),`
			`}`

			`unbond := &Unbond{`
			`Signature: randSig(),`
			`Fee: randVar(),`
			`Amount: randVar(),`
			`}`

			`timeout := &Timeout{`
			`Account: AccountNumber(randVar()),`
			`Penalty: randVar(),`
			`}`

			`dupeout := &Dupeout{`
			`VoteA: Vote{`
			`Height: randVar(),`
			`BlockHash: randBytes(32),`
			`Signature: randSig(),`
			`},`
			`VoteB: Vote{`
			`Height: randVar(),`
			`BlockHash: randBytes(32),`
			`Signature: randSig(),`
			`},`
			`}`

			`// Block`

			`block := &Block{`
			`Header{`
			`Name: "Tendermint",`
			`Height: randVar(),`
			`Fees: randVar(),`
			`Time: randVar(),`
			`PrevHash: randBytes(32),`
			`ValidationHash: randBytes(32),`
Connection -> MConnection, huge refactor. True multiplexing. 2014-07-28 01:41:25 -07:00			`TxsHash: randBytes(32),`
go fmt 2014-07-01 14:50:24 -07:00			`},`
			`Validation{`
			`Signatures: []Signature{randSig(), randSig()},`
			`Adjustments: []Adjustment{bond, unbond, timeout, dupeout},`
			`},`
Connection -> MConnection, huge refactor. True multiplexing. 2014-07-28 01:41:25 -07:00			`Txs{`
go fmt 2014-07-01 14:50:24 -07:00			`Txs: []Tx{sendTx, nameTx},`
			`},`
			`}`

			`// Write the block, read it in again, write it again.`
			`// Then, compare.`

			`blockBytes := BinaryBytes(block)`
			`block2 := ReadBlock(bytes.NewReader(blockBytes))`
			`blockBytes2 := BinaryBytes(block2)`

			`if !BinaryEqual(blockBytes, blockBytes2) {`
			`t.Fatal("Write->Read of block failed.")`
			`}`
. 2014-06-05 18:17:09 -07:00			`}`