// buildTestLedger1 builds a simple ledger data structure that contains a blockchain with 3 blocks.
func buildTestLedger1(ledger1 *ledger.Ledger, t *testing.T) {
// -----------------------------<Block #0>---------------------
// Add the 0th (genesis block)
ledger1.BeginTxBatch(0)
err := ledger1.CommitTxBatch(0, []*protos.Transaction{}, nil, []byte("dummy-proof"))
if err != nil {
t.Fatalf("Error in commit: %s", err)
}
// -----------------------------<Block #0>---------------------
// -----------------------------<Block #1>------------------------------------
// Deploy a contract
// To deploy a contract, we call the 'NewContract' function in the 'Contracts' contract
// TODO Use chaincode instead of contract?
// TODO Two types of transactions. Execute transaction, deploy/delete/update contract
ledger1.BeginTxBatch(1)
transaction1a, err := protos.NewTransaction(protos.ChaincodeID{Path: "Contracts"}, generateUUID(t), "NewContract", []string{"name: MyContract1, code: var x; function setX(json) {x = json.x}}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
// VM runs transaction1a and updates the global state with the result
// In this case, the 'Contracts' contract stores 'MyContract1' in its state
ledger1.TxBegin(transaction1a.Txid)
ledger1.SetState("MyContract1", "code", []byte("code example"))
ledger1.TxFinished(transaction1a.Txid, true)
ledger1.CommitTxBatch(1, []*protos.Transaction{transaction1a}, nil, []byte("dummy-proof"))
// -----------------------------</Block #1>-----------------------------------
// -----------------------------<Block #2>------------------------------------
ledger1.BeginTxBatch(2)
transaction2a, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyContract"}, generateUUID(t), "setX", []string{"{x: \"hello\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction2b, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyOtherContract"}, generateUUID(t), "setY", []string{"{y: \"goodbuy\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
// Run this transction in the VM. The VM updates the state
ledger1.TxBegin(transaction2a.Txid)
ledger1.SetState("MyContract", "x", []byte("hello"))
ledger1.SetState("MyOtherContract", "y", []byte("goodbuy"))
ledger1.TxFinished(transaction2a.Txid, true)
// Commit txbatch that creates the 2nd block on blockchain
ledger1.CommitTxBatch(2, []*protos.Transaction{transaction2a, transaction2b}, nil, []byte("dummy-proof"))
// -----------------------------</Block #2>-----------------------------------
return
}
func (testWrapper *blockchainTestWrapper) populateBlockChainWithSampleData() (blocks []*protos.Block, hashes [][]byte, err error) {
var allBlocks []*protos.Block
var allHashes [][]byte
// -----------------------------<Genesis block>-------------------------------
// Add the first (genesis block)
block1 := protos.NewBlock(nil, []byte(testutil.GenerateUUID(testWrapper.t)))
allBlocks = append(allBlocks, block1)
allHashes = append(allHashes, []byte("stateHash1"))
testWrapper.addNewBlock(block1, []byte("stateHash1"))
// -----------------------------</Genesis block>------------------------------
// -----------------------------<Block 2>-------------------------------------
// Deploy a chaincode
transaction2a, err := protos.NewTransaction(protos.ChaincodeID{Path: "Contracts"}, testutil.GenerateUUID(testWrapper.t), "NewContract", []string{"name: MyContract1, code: var x; function setX(json) {x = json.x}}"})
if err != nil {
return nil, nil, err
}
// Now we add the transaction to the block 2 and add the block to the chain
transactions2a := []*protos.Transaction{transaction2a}
block2 := protos.NewBlock(transactions2a, nil)
allBlocks = append(allBlocks, block2)
allHashes = append(allHashes, []byte("stateHash2"))
testWrapper.addNewBlock(block2, []byte("stateHash2"))
// -----------------------------</Block 2>------------------------------------
// -----------------------------<Block 3>-------------------------------------
// Create a transaction'
transaction3a, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyContract"}, testutil.GenerateUUID(testWrapper.t), "setX", []string{"{x: \"hello\"}"})
if err != nil {
return nil, nil, err
}
// Create the third block and add it to the chain
transactions3a := []*protos.Transaction{transaction3a}
block3 := protos.NewBlock(transactions3a, nil)
allBlocks = append(allBlocks, block3)
allHashes = append(allHashes, []byte("stateHash3"))
testWrapper.addNewBlock(block3, []byte("stateHash3"))
// -----------------------------</Block 3>------------------------------------
return allBlocks, allHashes, nil
}
func constructDummyTx(tb testing.TB) *protos.Transaction {
uuid := util.GenerateUUID()
tx, err := protos.NewTransaction(protos.ChaincodeID{Path: "dummyChaincodeId"}, uuid, "dummyFunction", []string{"dummyParamValue1, dummyParamValue2"})
testutil.AssertNil(tb, err)
return tx
}
state, _ := ledgerPtr.GetState("chaincode1", "key1", false)
Expect(state).To(BeNil())
state, _ = ledgerPtr.GetState("chaincode2", "key2", false)
Expect(state).To(BeNil())
state, _ = ledgerPtr.GetState("chaincode3", "key3", false)
Expect(state).To(BeNil())
state, _ = ledgerPtr.GetState("chaincode1", "key1", true)
Expect(state).To(BeNil())
state, _ = ledgerPtr.GetState("chaincode2", "key2", true)
Expect(state).To(BeNil())
state, _ = ledgerPtr.GetState("chaincode3", "key3", true)
Expect(state).To(BeNil())
})
It("should commit the batch with the correct ID", func() {
uuid := util.GenerateUUID()
tx, err := protos.NewTransaction(protos.ChaincodeID{Path: "testUrl"}, uuid, "anyfunction", []string{"param1, param2"})
Expect(err).To(BeNil())
err = ledgerPtr.CommitTxBatch(1, []*protos.Transaction{tx}, nil, []byte("proof"))
Expect(err).To(BeNil())
state, _ := ledgerPtr.GetState("chaincode1", "key1", false)
Expect(state).To(Equal([]byte("value1")))
state, _ = ledgerPtr.GetState("chaincode2", "key2", false)
Expect(state).To(Equal([]byte("value2")))
state, _ = ledgerPtr.GetState("chaincode3", "key3", false)
Expect(state).To(Equal([]byte("value3")))
state, _ = ledgerPtr.GetState("chaincode1", "key1", true)
Expect(state).To(Equal([]byte("value1")))
state, _ = ledgerPtr.GetState("chaincode2", "key2", true)
Expect(state).To(Equal([]byte("value2")))
state, _ = ledgerPtr.GetState("chaincode3", "key3", true)
Expect(state).To(Equal([]byte("value3")))
func buildTestTx(tb testing.TB) (*protos.Transaction, string) {
uuid := util.GenerateUUID()
tx, err := protos.NewTransaction(protos.ChaincodeID{Path: "testUrl"}, uuid, "anyfunction", []string{"param1, param2"})
testutil.AssertNil(tb, err)
return tx, uuid
}
// buildTestLedger2 builds a simple ledger data structure that contains a blockchain
// of 5 blocks, with each block containing the same number of transactions as its
// index within the blockchain. Block 0, 0 transactions. Block 1, 1 transaction,
// and so on.
func buildTestLedger2(ledger *ledger.Ledger, t *testing.T) {
// -----------------------------<Block #0>---------------------
// Add the 0th (genesis block)
ledger.BeginTxBatch(0)
ledger.CommitTxBatch(0, []*protos.Transaction{}, nil, []byte("dummy-proof"))
// -----------------------------<Block #0>---------------------
// -----------------------------<Block #1>------------------------------------
// Deploy a contract
// To deploy a contract, we call the 'NewContract' function in the 'Contracts' contract
// TODO Use chaincode instead of contract?
// TODO Two types of transactions. Execute transaction, deploy/delete/update contract
ledger.BeginTxBatch(1)
transaction1a, err := protos.NewTransaction(protos.ChaincodeID{Path: "Contracts"}, generateUUID(t), "NewContract", []string{"name: MyContract1, code: var x; function setX(json) {x = json.x}}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
// VM runs transaction1a and updates the global state with the result
// In this case, the 'Contracts' contract stores 'MyContract1' in its state
ledger.TxBegin(transaction1a.Txid)
ledger.SetState("MyContract1", "code", []byte("code example"))
ledger.TxFinished(transaction1a.Txid, true)
ledger.CommitTxBatch(1, []*protos.Transaction{transaction1a}, nil, []byte("dummy-proof"))
// -----------------------------</Block #1>-----------------------------------
// -----------------------------<Block #2>------------------------------------
ledger.BeginTxBatch(2)
transaction2a, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyContract"}, generateUUID(t), "setX", []string{"{x: \"hello\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction2b, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyOtherContract"}, generateUUID(t), "setY", []string{"{y: \"goodbuy\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
// Run this transction in the VM. The VM updates the state
ledger.TxBegin(transaction2a.Txid)
ledger.SetState("MyContract", "x", []byte("hello"))
ledger.SetState("MyOtherContract", "y", []byte("goodbuy"))
ledger.TxFinished(transaction2a.Txid, true)
// Commit txbatch that creates the 2nd block on blockchain
ledger.CommitTxBatch(2, []*protos.Transaction{transaction2a, transaction2b}, nil, []byte("dummy-proof"))
// -----------------------------</Block #2>-----------------------------------
// -----------------------------<Block #3>------------------------------------
ledger.BeginTxBatch(3)
transaction3a, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyContract"}, generateUUID(t), "setX", []string{"{x: \"hello\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction3b, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyOtherContract"}, generateUUID(t), "setY", []string{"{y: \"goodbuy\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction3c, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyImportantContract"}, generateUUID(t), "setZ", []string{"{z: \"super\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
ledger.TxBegin(transaction3a.Txid)
ledger.SetState("MyContract", "x", []byte("hello"))
ledger.SetState("MyOtherContract", "y", []byte("goodbuy"))
ledger.SetState("MyImportantContract", "z", []byte("super"))
ledger.TxFinished(transaction3a.Txid, true)
ledger.CommitTxBatch(3, []*protos.Transaction{transaction3a, transaction3b, transaction3c}, nil, []byte("dummy-proof"))
// -----------------------------</Block #3>-----------------------------------
// -----------------------------<Block #4>------------------------------------
ledger.BeginTxBatch(4)
// Now we want to run the function 'setX' in 'MyContract
// Create a transaction'
transaction4a, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyContract"}, generateUUID(t), "setX", []string{"{x: \"hello\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction4b, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyOtherContract"}, generateUUID(t), "setY", []string{"{y: \"goodbuy\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction4c, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyImportantContract"}, generateUUID(t), "setZ", []string{"{z: \"super\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
transaction4d, err := protos.NewTransaction(protos.ChaincodeID{Path: "MyMEGAContract"}, generateUUID(t), "setMEGA", []string{"{mega: \"MEGA\"}"})
if err != nil {
t.Logf("Error creating NewTransaction: %s", err)
t.Fail()
}
// Run this transction in the VM. The VM updates the state
ledger.TxBegin(transaction4a.Txid)
ledger.SetState("MyContract", "x", []byte("hello"))
ledger.SetState("MyOtherContract", "y", []byte("goodbuy"))
ledger.SetState("MyImportantContract", "z", []byte("super"))
ledger.SetState("MyMEGAContract", "mega", []byte("MEGA"))
ledger.TxFinished(transaction4a.Txid, true)
// Create the 4th block and add it to the chain
ledger.CommitTxBatch(4, []*protos.Transaction{transaction4a, transaction4b, transaction4c, transaction4d}, nil, []byte("dummy-proof"))
// -----------------------------</Block #4>-----------------------------------
return
}