学习后端语言的时候,都会涉及到数据库的相关操作,不同语言在操作数据库方面有不同的驱动程序,比如java的JDBC,C#的ADO.NET。当进行数据的新增,更新以及删除的时候,经常需要开启数据库事务。比如ADO.NET是这样使用:
SqlConnection con = new Sqlconnection("数据库连接语句");
con.Open();
var trans = con.BeginTransaction();
try
{
SqlCommand com = new SqlCommand(trans);
//处理插入或更新逻辑
trans.Commit();
}catch(ex){
trans.Rollback();//如果前面有异常则事务回滚
}
finally
{
con.Close();
}
很多教程都将事务写在数据访问层(dao层),但是更多时候我们需要的是业务逻辑层(service层)级别的事务控制。比如我们有一个学生表,一个班级表。学生表存有对应的班级字段,学生与班级表都有对应的dao和service操作类。每个dao只操作相关的数据,不能即操作学生的数据,又操作班级的数据。现在我们要删除一个班级,并且将该班级的学生一并删除。不管是先删除班级还是先删除学生(不存在外键约束),反正就是要一起删除。因为每个dao只操作单一的对象,这时候dao中进行删除操作的时候开启事务是达不到我们目的。班级删除失败,学生的删除操作是不会回滚的,反之也一样。
删除班级的同时一并删除学生,某一个失败,另一个删除操作回滚。这属于一个业务层的原子操作。在班级的service操作类中可以引入班级和学生的dao进行操作,两个dao的操作放到同一事务中进行操作。
连接Id类
namespace RuoXieTranscation
{
public class ConnId
{
private string _cconId = Guid.NewGuid().ToString().Replace("-", "");
private DateTime _createTime=DateTime.Now;
public ConnId()
{
}
public string CconId
{
get { return _cconId; }
}
public DateTime CreateTime
{
get { return _createTime; }
}
}
}
生成一个guid,后面标识每个连接实例的唯一性。
连接类
namespace RuoXieTranscation
{
public class DbConnection
{
private string _sConnStr = "";
private ConnId _connId = null;
private SqlConnection _sqlConnection = null;
private SqlCommand _sqlCommand = null;
public ConnId ConnId
{
get { return _connId; }
}
public SqlCommand SqlCommand
{
get { return _sqlCommand; }
}
public DbConnection(string connStr)
{
_sConnStr = connStr;
}
public ConnId ConnOpen()
{
try
{
this._sqlConnection = new SqlConnection(_sConnStr);
this._sqlCommand = new SqlCommand();
_sqlCommand.Connection = this._sqlConnection;
this._connId = new ConnId();
_sqlConnection.Open();
}
catch (Exception e)
{
if (this._sqlConnection.State != System.Data.ConnectionState.Closed)
{
this._sqlConnection.Close();
this._sqlConnection.Dispose();
}
this._sqlConnection = null;
}
return this._connId;
}
public void BeginTransaction()
{
try
{
_sqlCommand.Transaction =
_sqlConnection.BeginTransaction(System.Data.IsolationLevel.ReadCommitted,
this._connId.CconId);
}
catch (Exception e)
{
if (this._sqlConnection.State != System.Data.ConnectionState.Closed)
{
this._sqlConnection.Close();
this._sqlConnection.Dispose();
}
this._sqlConnection = null;
}
}
public void Commit()
{
try
{
this._sqlCommand.Transaction.Commit();
}
catch (Exception e)
{
this._sqlCommand.Transaction.Rollback();
}
}
public void Rollback()
{
try
{
this._sqlCommand.Transaction.Rollback();
}
catch (Exception e)
{
this._sqlCommand.Transaction.Rollback();
}
}
public void Close()
{
if (this._sqlCommand != null)
{
this._sqlCommand.Dispose();
}
if (this._sqlConnection.State != System.Data.ConnectionState.Closed)
{
this._sqlConnection.Close();
this._sqlConnection.Dispose();
}
}
}
}
打开连接后可以显式调用BeginTransaction来决定使用事务
连接管理类
namespace RuoXieTranscation
{
public class ConnManager
{
private static ConcurrentDictionary<string, DbConnection> _cache =
new ConcurrentDictionary<string, DbConnection>();
private static ThreadLocal<string> _threadLocal;
private static readonly string _connStr = @"Password=977865769;Persist Security Info=True;User ID=sa;Initial Catalog=RuoXie;Data Source=5ENALIZN94GYJZZ\SQLEXPRESS";
static ConnManager()
{
_threadLocal=new ThreadLocal<string>();
}
public static bool CreateConn()
{
DbConnection dbconn = new DbConnection(_connStr);
ConnId key = dbconn.ConnOpen();
if (!_cache.ContainsKey(key.CconId))
{
_cache.TryAdd(key.CconId, dbconn);
_threadLocal.Value = key.CconId;
Console.WriteLine("创建数据库连接,Id: " + key.CconId);
return true;
}
throw new Exception("打开数据库连接失败");
}
public static void BeginTransaction()
{
var id = GetId();
if (!_cache.ContainsKey(id))
throw new Exception("内部错误,链接已丢失");
_cache[id].BeginTransaction();
}
public static void Commit()
{
try
{
var id = GetId();
if(!_cache.ContainsKey(id))
throw new Exception("内部错误,链接已丢失");
_cache[id].Commit();
}
catch (Exception e)
{
throw e;
}
}
public static void Rollback()
{
try
{
var id = GetId();
if (!_cache.ContainsKey(id))
throw new Exception("内部错误,链接已丢失");
_cache[id].Rollback();
}
catch (Exception e)
{
throw e;
}
}
public static void ReleaseConn()
{
try
{
var id = GetId();
if (!_cache.ContainsKey(id))
throw new Exception("内部错误,链接已丢失");
_cache[id].Close();
Remove(id);
}
catch (Exception e)
{
throw e;
}
}
public static SqlCommand GetSqlCommand()
{
var id = GetId();
if (!_cache.ContainsKey(id))
throw new Exception("内部错误: 连接已丢失.");
return _cache[id].SqlCommand;
}
private static string GetId()
{
var id = _threadLocal.Value;
if (string.IsNullOrEmpty(id))
{
throw new Exception("内部错误: 连接已丢失.");
}
return id;
}
private static bool Remove(string id)
{
if (!_cache.ContainsKey(id)) return false;
DbConnection dbConnection;
int index = 0;
bool result = false;
while (!(result = _cache.TryRemove(id, out dbConnection)))
{
index++;
Thread.Sleep(20);
if (index > 3) break;
}
return result;
}
}
}
通过静态属性_cache保存每个连接的Id,_threadLocal保存当前线程中的连接Id,不管一个service中涉及多少个dao操作,都是处于同一线程中,通过_threadLocal就可以取出同一个连接对象进行操作。
使用
public class SQLHelper
{
public static int ExecuteNonQuery(string sql, SqlParameter[] parameters = null)
{
var command = ConnManager.GetSqlCommand();
command.CommandText = sql;
command.CommandType = System.Data.CommandType.Text;
if (parameters != null)
{
command.Parameters.Clear();
command.Parameters.AddRange(parameters);
}
return command.ExecuteNonQuery();
}
public static object ExecuteScalar(string sql, SqlParameter[] parameters = null)
{
var command = ConnManager.GetSqlCommand();
command.CommandText = sql;
command.CommandType = System.Data.CommandType.Text;
if (parameters != null)
{
command.Parameters.Clear();
command.Parameters.AddRange(parameters);
}
return command.ExecuteScalar();
}
}
public class StudentDao
{
public bool Add(string name, string no)
{
string sql = string.Format("insert into T_Student(Name12,No) values(@name,@no)");
var nameParameter = new SqlParameter("@name", SqlDbType.NVarChar);
var noParameter = new SqlParameter("@no", SqlDbType.NVarChar);
nameParameter.Value = name;
noParameter.Value = no;
SqlParameter[] paras = new SqlParameter[]{
nameParameter,noParameter
};
return SQLHelper.ExecuteNonQuery(sql, paras) > 0;
}
}
public class StudentBll
{
private StudentDao mDao;
public StudentBll()
{
mDao=new StudentDao();
}
public bool AddStudent(string name, string no)
{
return mDao.Add(name, no);
}
}
class Program
{
static void Main(string[] args)
{
test();
test2();
test3();
Console.ReadLine();
}
static void test()
{
ConnManager.CreateConn();
ConnManager.BeginTransaction();
try
{
var classService = new ClassBll();
classService.AddClass("7班");
ConnManager.Commit();
ConnManager.ReleaseConn();
}
catch (Exception e)
{
ConnManager.Rollback();
ConnManager.ReleaseConn();
}
}
static void test2()
{
ConnManager.CreateConn();
ConnManager.BeginTransaction();
try
{
var classService = new ClassBll();
var studentService=new StudentBll();
classService.AddClass("8班");
studentService.AddStudent("李四","001");
ConnManager.Commit();
ConnManager.ReleaseConn();
}
catch (Exception e)
{
ConnManager.Rollback();
ConnManager.ReleaseConn();
}
}
static void test3()
{
ConnManager.CreateConn();
//ConnManager.BeginTransaction();
try
{
var classService = new ClassBll();
var studentService = new StudentBll();
classService.AddClass("8班");
studentService.AddStudent("李四", "001");
//ConnManager.Commit();
ConnManager.ReleaseConn();
}
catch (Exception e)
{
//ConnManager.Rollback();
ConnManager.ReleaseConn();
}
}
}
虽然将事务提取到了service层,但是每次都要写这样的代码
ConnManager.CreateConn();
ConnManager.BeginTransaction();
try
{
//业务逻辑调用
ConnManager.Commit();
ConnManager.ReleaseConn();
}
catch (Exception e)
{
ConnManager.Rollback();
ConnManager.ReleaseConn();
}
使用过spring或者spring.net的应该都知道将事务控制转到业务层事多简单,比如spring.net
[Transaction]
public void DeleteData(string name)
{
UserDao.Delete(name);
AccountDao.Delete(name);
}
只需要在service方法加上Transaction attribute。原理就是AOP编程。
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