HyperLegerFabric开发(十)——资产交易平台实战
HyperLeger Fabric开发(十)——资产交易平台实战
一、资产交易平台需求分析
1、资产交易平台的功能
A、用户开户、销户功能
B、资产登记,即资产上链,资产绑定到用户
C、资产转让,即资产所有权的变更
D、查询功能,包括用户查询、资产查询、资产历史变更查询
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2、业务实体
A、用户,属性包括名字、标识、资产列表、
B、资产,属性包括名字、标识、特殊属性列表
C、资产变更记录,属性包括资产标识、资产源所有者、资产变更后所有者
3、交互方法
A、用户注册,参数包括用户名称、用户标识
B、销户,参数包括用户标识
C、资产登记,参数包括资产名称、资产标识、特殊属性列表、资产所有者
D、资产转让,参数包括资产所有者、资产标识、资产受让者
E、用户查询,参数包括用户标识,返回用户实体
F、资产查询,参数包括资产标识,返回资产实体
G、资产变更记录,参数包括资产标识,记录类型(登记/转让/全部),返回资产变更记录列表。
二、链码开发
1、链码编写
链码需要定义资产交易平台定义的所有实体和交互方法,然后在Invoke接口中调用相应的交互方法。
在Fabric工程目录AssetExchange/chaincode/assetexchange目录下进行链码开发,链码AssetExchangeChainCode.go实现如下:
package main
import (
"fmt"
"encoding/json"
"github.com/hyperledger/fabric/core/chaincode/shim"
"github.com/hyperledger/fabric/protos/peer"
)
// 用户
type User struct {
Name string `json:"name"`
ID string `json:"id"`
Assets []string `json:"assets"`
}
// 资产
type Asset struct {
Name string `json:"name"`
ID string `json:"id"`
Metadata string `json:"metadata"`
}
// 资产变更记录
type AssetHistory struct {
AssetID string `json:"asset_id"`
OriginOwnerID string `json:"origin_owner_id"`
CurrentOwnerID string `json:"current_owner_id"`
}
// 原始用户占位符
const (
originOwner = "originOwnerPlaceholder"
)
func constructUserKey(userId string)string{
return fmt.Sprint("user_%s",userId)
}
func constructAssetKey(assetID string)string{
return fmt.Sprint("asset_%s",assetID)
}
// 用户注册(开户)
func userRegister(stub shim.ChaincodeStubInterface, args []string) peer.Response{
// step 1:检查参数个数
if len(args) != 2{
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
name := args[0]
id := args[1]
if name == "" || id == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
if userBytes, err := stub.GetState(constructUserKey(id));err != nil || len(userBytes) != 0{
return shim.Error("User alreay exist")
}
// step 4: 写入状态
user := User{
Name:name,
ID:id,
Assets:make([]string,0),
}
// 序列化对象
userBytes, err := json.Marshal(user)
if err != nil{
return shim.Error(fmt.Sprint("marshal user error %s",err))
}
err = stub.PutState(constructUserKey(id), userBytes)
if err != nil {
return shim.Error(fmt.Sprint("put user error %s", err))
}
return shim.Success(nil)
}
// 用户注销
func userDestroy(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 1{
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
id := args[0]
if id == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
userBytes, err := stub.GetState(constructUserKey(id));
if err != nil || len(userBytes) == 0{
return shim.Error("User not found")
}
// step 4: 写入状态
if err := stub.DelState(constructUserKey(id)); err != nil {
return shim.Error(fmt.Sprintf("delete user error: %s", err))
}
// 删除用户名下的资产
user := new(User)
err = json.Unmarshal(userBytes,user)
if err != nil{
return shim.Error(fmt.Sprintf("unmarshal user error: %s", err))
}
for _,assetId := range user.Assets{
if err := stub.DelState(constructAssetKey(assetId)); err != nil {
return shim.Error(fmt.Sprintf("delete asset error: %s", err))
}
}
return shim.Success(nil)
}
// 资产登记
func assetEnroll(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 4 {
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
assetName := args[0]
assetId := args[1]
metadata := args[2]
ownerId := args[3]
if assetName == "" || assetId == "" || ownerId == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
userBytes, err := stub.GetState(constructUserKey(ownerId))
if err != nil || len(userBytes) == 0{
return shim.Error("User not found")
}
if assetBytes, err := stub.GetState(constructAssetKey(assetId)); err == nil && len(assetBytes) != 0 {
return shim.Error("Asset already exist")
}
// step 4: 写入状态
asset := &Asset{
Name: assetName,
ID: assetId,
Metadata: metadata,
}
assetBytes, err := json.Marshal(asset)
if err != nil {
return shim.Error(fmt.Sprintf("marshal asset error: %s", err))
}
if err := stub.PutState(constructAssetKey(assetId), assetBytes); err != nil {
return shim.Error(fmt.Sprintf("save asset error: %s", err))
}
user := new(User)
// 反序列化user
if err := json.Unmarshal(userBytes, user); err != nil {
return shim.Error(fmt.Sprintf("unmarshal user error: %s", err))
}
user.Assets = append(user.Assets, assetId)
// 序列化user
userBytes, err = json.Marshal(user)
if err != nil {
return shim.Error(fmt.Sprintf("marshal user error: %s", err))
}
if err := stub.PutState(constructUserKey(user.ID), userBytes); err != nil {
return shim.Error(fmt.Sprintf("update user error: %s", err))
}
// 资产变更历史
history := &AssetHistory{
AssetID: assetId,
OriginOwnerID: originOwner,
CurrentOwnerID: ownerId,
}
historyBytes, err := json.Marshal(history)
if err != nil {
return shim.Error(fmt.Sprintf("marshal assert history error: %s", err))
}
historyKey, err := stub.CreateCompositeKey("history", []string{
assetId,
originOwner,
ownerId,
})
if err != nil {
return shim.Error(fmt.Sprintf("create key error: %s", err))
}
if err := stub.PutState(historyKey, historyBytes); err != nil {
return shim.Error(fmt.Sprintf("save assert history error: %s", err))
}
return shim.Success(historyBytes)
}
// 资产转让
func assetExchange(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 3 {
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
ownerID := args[0]
assetID := args[1]
currentOwnerID := args[2]
if ownerID == "" || assetID == "" || currentOwnerID == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
originOwnerBytes, err := stub.GetState(constructUserKey(ownerID))
if err != nil || len(originOwnerBytes) == 0 {
return shim.Error("user not found")
}
currentOwnerBytes, err := stub.GetState(constructUserKey(currentOwnerID))
if err != nil || len(currentOwnerBytes) == 0 {
return shim.Error("user not found")
}
assetBytes, err := stub.GetState(constructAssetKey(assetID))
if err != nil || len(assetBytes) == 0 {
return shim.Error("asset not found")
}
// 校验原始拥有者确实拥有当前变更的资产
originOwner := new(User)
// 反序列化user
if err := json.Unmarshal(originOwnerBytes, originOwner); err != nil {
return shim.Error(fmt.Sprintf("unmarshal user error: %s", err))
}
aidexist := false
for _, aid := range originOwner.Assets {
if aid == assetID {
aidexist = true
break
}
}
if !aidexist {
return shim.Error("asset owner not match")
}
// step 4: 写入状态
assetIds := make([]string, 0)
for _, aid := range originOwner.Assets {
if aid == assetID {
continue
}
assetIds = append(assetIds, aid)
}
originOwner.Assets = assetIds
originOwnerBytes, err = json.Marshal(originOwner)
if err != nil {
return shim.Error(fmt.Sprintf("marshal user error: %s", err))
}
if err := stub.PutState(constructUserKey(ownerID), originOwnerBytes); err != nil {
return shim.Error(fmt.Sprintf("update user error: %s", err))
}
// 当前拥有者插入资产id
currentOwner := new(User)
// 反序列化user
if err := json.Unmarshal(currentOwnerBytes, currentOwner); err != nil {
return shim.Error(fmt.Sprintf("unmarshal user error: %s", err))
}
currentOwner.Assets = append(currentOwner.Assets, assetID)
currentOwnerBytes, err = json.Marshal(currentOwner)
if err != nil {
return shim.Error(fmt.Sprintf("marshal user error: %s", err))
}
if err := stub.PutState(constructUserKey(currentOwnerID), currentOwnerBytes); err != nil {
return shim.Error(fmt.Sprintf("update user error: %s", err))
}
// 插入资产变更记录
history := &AssetHistory{
AssetID: assetID,
OriginOwnerID: ownerID,
CurrentOwnerID: currentOwnerID,
}
historyBytes, err := json.Marshal(history)
if err != nil {
return shim.Error(fmt.Sprintf("marshal asset history error: %s", err))
}
historyKey, err := stub.CreateCompositeKey("history", []string{
assetID,
ownerID,
currentOwnerID,
})
if err != nil {
return shim.Error(fmt.Sprintf("create key error: %s", err))
}
if err := stub.PutState(historyKey, historyBytes); err != nil {
return shim.Error(fmt.Sprintf("save asset history error: %s", err))
}
return shim.Success(nil)
}
// 用户查询
func queryUser(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 1 {
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
userID := args[0]
if userID == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
userBytes, err := stub.GetState(constructUserKey(userID))
if err != nil || len(userBytes) == 0 {
return shim.Error("user not found")
}
return shim.Success(userBytes)
}
// 资产查询
func queryAsset(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 1 {
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
assetID := args[0]
if assetID == ""{
return shim.Error("Invalid args")
}
// step 3:验证数据是否存在
assetBytes, err := stub.GetState(constructAssetKey(assetID))
if err != nil || len(assetBytes) == 0 {
return shim.Error("asset not found")
}
return shim.Success(assetBytes)
}
// 资产交易记录查询
func queryAssetHistory(stub shim.ChaincodeStubInterface,args []string)peer.Response{
// step 1:检查参数个数
if len(args) != 2 && len(args) != 1 {
return shim.Error("Not enough args")
}
// step 2:验证参数正确性
assetID := args[0]
if assetID == ""{
return shim.Error("Invalid args")
}
queryType := "all"
if len(args) == 2 {
queryType = args[1]
}
if queryType != "all" && queryType != "enroll" && queryType != "exchange" {
return shim.Error(fmt.Sprintf("queryType unknown %s", queryType))
}
// step 3:验证数据是否存在
assetBytes, err := stub.GetState(constructAssetKey(assetID))
if err != nil || len(assetBytes) == 0 {
return shim.Error("asset not found")
}
// 查询相关数据
keys := make([]string, 0)
keys = append(keys, assetID)
switch queryType {
case "enroll":
keys = append(keys, originOwner)
case "exchange", "all": // 不添加任何附件key
default:
return shim.Error(fmt.Sprintf("unsupport queryType: %s", queryType))
}
result, err := stub.GetStateByPartialCompositeKey("history", keys)
if err != nil {
return shim.Error(fmt.Sprintf("query history error: %s", err))
}
defer result.Close()
histories := make([]*AssetHistory, 0)
for result.HasNext() {
historyVal, err := result.Next()
if err != nil {
return shim.Error(fmt.Sprintf("query error: %s", err))
}
history := new(AssetHistory)
if err := json.Unmarshal(historyVal.GetValue(), history); err != nil {
return shim.Error(fmt.Sprintf("unmarshal error: %s", err))
}
// 过滤掉不是资产转让的记录
if queryType == "exchange" && history.OriginOwnerID == originOwner {
continue
}
histories = append(histories, history)
}
historiesBytes, err := json.Marshal(histories)
if err != nil {
return shim.Error(fmt.Sprintf("marshal error: %s", err))
}
return shim.Success(historiesBytes)
}
type AssetExchangeChainCode struct {
}
func (t *AssetExchangeChainCode) Init(stub shim.ChaincodeStubInterface) peer.Response{
return shim.Success(nil)
}
func (t *AssetExchangeChainCode) Invoke(stub shim.ChaincodeStubInterface) peer.Response{
functionName, args := stub.GetFunctionAndParameters()
switch functionName {
case "userRegister":
return userRegister(stub,args)
case "userDestroy":
return userDestroy(stub,args)
case "assetEnroll":
return assetEnroll(stub,args)
case "assetExchange":
return assetExchange(stub,args)
case "queryUser":
return queryUser(stub,args)
case "queryAsset":
return queryAsset(stub,args)
case "queryAssetHistory":
return queryAssetHistory(stub,args)
default:
return shim.Error(fmt.Sprintf("unsupported function: %s", functionName))
}
return shim.Success(nil)
}
func main() {
err := shim.Start(new(AssetExchangeChainCode))
if err != nil {
fmt.Printf("Error starting AssetExchange chaincode: %s", err)
}
}
2、链码编译
在Fabric工程AssetExchange/chaincode/assetexchange目录下编译链码:go build -o assetexchange
编译成功的关键在于确保Fabric依赖的第三方包能够正确被从网络上下载到本地。由于部分第三方依赖包可能从google.golang.org下载,因此需要确保网络可以正确下载。
三、链码部署
1、Fabric区块链网络部署
进入Fabric工程AssetExchange/deploydocker-compose up
启动服务是否正确启动,确保orderer、peer、cli节点都正确启动。docker ps
进入cli容器:docker exec -it cli bash
进入/etc/hyperledger/channel-artifacts目录:cd /etc/hyperledger/channel-artifacts
创建业务通道:peer channel create -o orderer.example.com:7050 -c assetchannel -f assetchannel.tx
在当前目录下会生成assetchannel.block区块
加入通道peer channel join -b assetchannel.block
设置主节点peer channel update -o orderer.example.com:7050 -c assetchannel -f Org1MSPanchors.tx
2、链码安装
安装assetexchange链码:peer chaincode install -n assetexchange -v 1.0.0 -l golang -p github.com/chaincode/assetexchange
3、链码实例化
实例化assetexchange链码:peer chaincode instantiate -o orderer.example.com:7050 -C assetchannel -n assetexchange -l golang -v 1.0.0 -c '{"Args":["user1","0"]}'
4、链码交互
用户注册:peer chaincode invoke -C assetchannel -n assetexchange -c '{"Args":["userRegister", "user1", "user1"]}'
资产登记:peer chaincode invoke -C assetchannel -n assetexchange -c '{"Args":["assetEnroll", "asset1", "asset1", "metadata", "user1"]}'
用户注册:peer chaincode invoke -C assetchannel -n assetexchange -c '{"Args":["userRegister", "user2", "user2"]}'
资产转让:peer chaincode invoke -C assetchannel -n assetexchange -c '{"Args":["assetExchange", "user1", "asset1", "user2"]}'
用户注销:peer chaincode invoke -C assetchannel -n assetexchange -c '{"Args":["userDestroy", "user1"]}'
5、链码查询
用户查询:peer chaincode query -C assetchannel -n assetexchange -c '{"Args":["queryUser", "user1"]}'
资产查询:peer chaincode query -C assetchannel -n assetexchange -c '{"Args":["queryAsset", "asset1"]}'
用户查询:peer chaincode query -C assetchannel -n assetexchange -c '{"Args":["queryUser", "user2"]}'
资产交易记录查询:peer chaincode query -C assetchannel -n assetexchange -c '{"Args":["queryAssetHistory", "asset1"]}'
peer chaincode query -C assetchannel -n assetexchange -c '{"Args":["queryAssetHistory", "asset1", "all"]}'
6、链码升级
peer chaincode install -n assetexchange -v 1.0.1 -l golang -p github.com/chaincode/assetexchange
peer chaincode upgrade -C assetchannel -n assetexchange -v 1.0.1 -c '{"Args":[""]}'
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