• 数据同步框架MS Sync Framework不同场景使用例子和简要分析


    上一篇http://www.cnblogs.com/2018/archive/2011/02/22/1961654.html 对这个框架一个总体介绍,这篇通过SDK内带的例子和一个综合的例子描述一下这个框架的使用

    [例子基于SDK2.1]

    SDK的例子

    C:\Program Files (x86)\Microsoft SDKs\Microsoft Sync Framework\2.1\Samples

    WebSharingAppDemo-CEProviderEndToEnd

    运行效果如上图,可以进行SQL、SQLCE数据库的相互同步

    Sync101RCA_Cached和其他例子展示了Provider等的实现,可参考其中的说明

    基本使用

    使用这个框架进行数据库同步涉及的几个方面:

    Ø Provisioning:对数据库架构和内容进行修改以记录修改的内容,为同步做准备

    Ø Synchronizing:同步过程,利用以上的信息进行信息的传递

    Ø Snapshot:在一个同步好的数据基础上建立快照,这样其他的客户端可以快速的部署

    几个场景的例子

    详细代码参考:http://cid-56b433ad3d1871e3.office.live.com/self.aspx/.Public/SyncTest.rar 

    具体代码的使用如下:

    Database

    N-Tier的同,SQl Server和SQL CE

    Contracts: 接口定义

    SqlWebSvc:WCF服务

    SyncClient:客户端端

    1.  建立SyncDB数据库,执行Data.edmx.sqldemoData.sql建立表和数据
    2.  启动SqlWebSvc服务
    3.  启动SyncClient
    a)  先Provison服务端数据库,定义出同步的表和条件[只要一次即可,需要修改可以DeProvision或使用1的步骤重建]
    b)  此时可远程同步[界面的中其他本地同步、架构建立只是说明]
    c)   快照:只要有一个同步好的数据库,这个文件就可以拷贝到其他的客户端,对于大数据量的初始化很有用
       
     image  
     
    总结:
    Ø  数据的Provision和Deprovision简单
    Ø  代码稍微多一些

    Database2

    类似CustomerProvider的同步

    数据库Provision在Custome_SyncSamplesDb.sql建立

    WCFService:服务端

    SyncClient:客户端

    1. 使用Custome_SyncSamplesDb.sql建立数据库和表

    2. 运行WCFService

    3. 运行SyncClient,可以看到同步的信息

    总结:
    Ø  数据的Provision和Deprovision需要通过脚本编写,采用SQL Server Tracking或自定义的形式

    DBCache-IDE

    VS IDE提供的支持,编程模型更简单

    DataService:服务端

    PresentationTier:客户端

    1. 使用Northwind.sql建立数据库和表

    2. 运行DataService服务

    3. 运行PresentationTier

    总结

    Ø 提供了一系列的设置简化同步操作

    Ø 只能针对SQL Server系列的数据库

    Offline

    SDK中Synchronizing Databases /Offline-Only Scenarios的例子

    Tracking Changes in the Server Database

    Use a Custom Change Tracking System

    展示了以上两种跟踪变化的形式

    Custome_SyncSamplesDb.sqlCustomeChangeTrack.cs

    SqlServer_ChangeTracking.sqlSqlserverChangeTrack.cs

    以上的脚本和代码配合可以完成同步的过程,通过这个可以了解更多的实现细节,对自定义Provider提供一些帮助

    Code Specific To N-Tier

    在SDK文档How to: Deliver Changes in Batches (SQL Server)“How to: Deliver Changes in Batches (SQL Server)”这个主题下有详细的说明,注记如下:

    The remainder of the code examples apply only to the n-tier scenario in WebSharingAppDemo. The relevant n-tier code is contained in three files:

    · The service contract: IRelationalSyncContract

    · The Web service: RelationalWebSyncService

    · The proxy: RelationalProviderProxy

    The two providers SqlSyncProvider and SqlCeSyncProvider both inherit from RelationalSyncProvider, so this code applies to both providers. Additional store-specific functionality is separated into proxy and service files for each type of provider.

    To understand how batching works in an n-tier scenario, consider a synchronization session in which the server is the source and the client is the destination. After changes have been written to the local directory on the server, the following process occurs for downloaded changes:

    1. The GetChangeBatch method is called on the client proxy. As demonstrated later in the sample code, this method should include specific code to handle batching.

    2. The service gets a batch file from SqlSyncProvider. The service removes the complete path information and sends only the file name over the network. This prevents exposing the directory structure of the server to the clients.

    3. The proxy call to GetChangeBatch returns.

    1. The proxy detects that changes are batched so it calls DownloadBatchFile by passing the batch file name as an argument.

    2. The proxy creates a unique directory (if one doesn’t exist for the session) under RelationalProviderProxy.BatchingDirectory to hold these batch files locally. The directory name is the replica ID of the peer that is enumerating changes. This ensures that the proxy and service have one unique directory for each enumerating peer.

    4. The proxy downloads the file and stores it locally. The proxy replaces the filename in the context with the new full path to the batch file on the local disk.

    5. The proxy returns the context back to the orchestrator.

    6. Repeat steps 1 through 6 until the last batch is received by proxy.

    The following process occurs for uploaded changes

    1. The orchestrator calls ProcessChangeBatch on the proxy.

    2. The proxy determines that it is a batch file, so it performs the following steps:

    1. Removes the complete path information and sends only the file name over the network.

    2. Calls HasUploadedBatchFile to determine if the file has already been uploaded. If it has, step C is not necessary.

    3. If HasUploadedBatchFile returns false, calls UploadBatchFile on the service, and uploads the batch file contents.

    The service will receive the call to UploadBatchFile and store the batch locally. Directory creation is similar to step 4 above.

    4. Calls ApplyChanges on the service.

    3. The server receives the ApplyChanges call and determines that it is a batch file. It replaces the filename in the context with the new full path to the batch file on the local disk.

    4. The server passes the DbSyncContext to local SqlSyncProvider.

    5. Repeat steps 1 through 6 until the last batch is sent.

  • 相关阅读:
    Python 01 Python的安装和配置
    Python 04 Geany的安装和配置
    Python 02 编写代码
    Python 03 pip 的安装和使用
    开源项目 12 ServiceStack.OrmLite
    北京第二天
    exit
    北京第一天
    关于扩展欧几里得算法和逆元
    正妹吃月饼
  • 原文地址:https://www.cnblogs.com/2018/p/1961657.html
Copyright © 2020-2023  润新知