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目录前言一、设计思路二、实现思路三、代码实现接口描述核心组成部分1.本地线程工具类2.注解部分3.拦截器实现四、测试后记前言 最近在工作遇到数据量比较多的情况,单表压力比较大,cru
最近在工作遇到数据量比较多的情况,单表压力比较大,crud的操作都受到影响,因为某些原因,项目上没有引入sharding-jdbc这款优秀的分表分库组件,所以打算简单写一个基于mybatis拦截器的分表实现
在现有的业务场景下,主要实现的目标就是表名的替换,需要解决的问题有
针对第一个问题,我们可以用mybatis提供的拦截器对sql进行处理,并用Druid自带的sql解析功能实现表名的获取
第二个问题是相对核心的,在拦截器里面,本质上是维护了一个map,key是原表名,value是替换后的表名,构造这个map可以有不同的方式,目前想到的有这2种
实现自动建表的功能可以在执行sql前,通过某些规则获取用户的方法,反射进行调用,但这里可能会存在线程安全问题(重复执行建表方法)
首先看看代码结构
下面是对应的注解
这个接口用于拦截器内标识解析的数据库类型,还有一个checkTableSql是用于检查是否有对应的表名存在,用于自动建表的校验
package com.xl.mphelper.shard;
import com.alibaba.druid.DbType;
import com.xl.mphelper.dynamic.DynamicDatasource;
import java.util.Collection;
import java.util.Iterator;
public interface ITableShardDbType {
DbType getDbType();
default String getCheckTableSQL(Collection<String> curTableNames) {
return null;
}
;
class MysqlShard implements ITableShardDbType {
private static String DEFAULT_GET_TABLE_SQL = "select TABLE_NAME from infORMation_schema.TABLES where TABLE_NAME in ";
@Override
public DbType getDbType() {
return DbType.mysql;
}
@Override
public String getCheckTableSQL(Collection<String> curTableNames) {
StringBuilder tableParam = new StringBuilder("(");
Iterator<String> iterator = curTableNames.iterator();
while (iterator.hasNext()) {
String next = iterator.next();
tableParam.append("'").append(next).append("'").append(",");
}
int i1 = tableParam.lastIndexOf(",");
tableParam.replace(i1, tableParam.length(), ")");
return DEFAULT_GET_TABLE_SQL + tableParam;
}
}
}另外一个接口主要是处理表逻辑,将实体+逻辑表名映射为实际的表,默认提供三种策略
package com.xl.mphelper.shard;
import com.alibaba.druid.support.JSON.jsONUtils;
import com.xl.mphelper.annonations.TableShardParam;
import org.springframework.util.DigestUtils;
import java.NIO.charset.StandardCharsets;
@FunctionalInterface
public interface ITableShardStrategy<T> {
String routingTable(String tableName, T entity);
class TableShardDefaultStrategy implements ITableShardStrategy {
@Override
public String routingTable(String tableName, Object entity) {
return tableName + "_" + entity.toString();
}
}
class CommonStrategy implements ITableShardStrategy<Shardable> {
@Override
public String routingTable(String tableName, Shardable shardable) {
return tableName + "_" + shardable.suffix();
}
}
class HashStrategy implements ITableShardStrategy {
@Override
public String routingTable(String tableName, Object entity) {
Integer length = TableShardHolder.hashTableLength();
if (length == null||length==0) {
throw new IllegalStateException("illegal hash length in TableShardHolder");
}
String hashKey=null;
if (entity instanceof String) {
hashKey= (String) entity;
}
if(entity instanceof Shardable){
hashKey=((Shardable)entity).suffix();
}
if(entity instanceof Number){
hashKey=entity.toString();
}
if(hashKey==null&&entity!=null){
hashKey= JSONUtils.toJSONString(entity);
}
if(hashKey==null){
throw new IllegalStateException("can not generate hashKey in current param:"+entity);
}
String value = DigestUtils.md5DigestAsHex(hashKey.getBytes(StandardCharsets.UTF_8));
value=value.substring(value.length()-4);
long hashMod = Long.parseLong(value, 16);
return tableName+"_"+hashMod % length;
}
}
}shardable接口
package com.xl.mphelper.shard;
public interface Shardable {
String suffix();
}首先是上面说的本地线程,主要是获取了映射的map,通过tableName注解来获取原表名,并设置一些属性来标识是否走拦截器的逻辑,也包括了hash的一些逻辑
package com.xl.mphelper.shard;
import com.baomidou.mybatisplus.annotation.TableName;
import com.xl.mphelper.util.ApplicationContextHolder;
import java.util.HashMap;
import java.util.Map;
public class TableShardHolder {
protected static ThreadLocal<Map<String, Object>> HOLDER = ThreadLocal.withInitial(HashMap::new);
private static String INGoRE_FLAG = "##ingore@@";
private static String HASH_LENGTH = "##hash_length@@";
//默认以_拼接
public static void putVal(Class entityClazz, String suffix) {
if (entityClazz.isAnnotationPresent(TableName.class)) {
TableName tableName = (TableName) entityClazz.getAnnotation(TableName.class);
String value = tableName.value();
if (value.equals(INGORE_FLAG) || value.equals(HASH_LENGTH)) {
throw new IllegalStateException("conflict with ignore flag,try another table name");
}
//hash策略处理
String res = value + "_" + suffix;
if (hashTableLength() != null) {
ITableShardStrategy tableShardStrategy = TableShardInterceptor.SHARD_STRATEGY.computeIfAbsent(ITableShardStrategy.HashStrategy.class, e -> (ITableShardStrategy) ApplicationContextHolder.getBeanOrInstance(e));
res = tableShardStrategy.routingTable(value, suffix);
}
HOLDER.get().put(value, res);
}
}
public static void ignore() {
HOLDER.get().put(INGORE_FLAG, "");
}
protected static boolean isIgnore() {
return HOLDER.get().containsKey(INGORE_FLAG);
}
public static void resetIgnore() {
HOLDER.get().remove(INGORE_FLAG);
}
public static void remove(Class entityClazz) {
if (entityClazz.isAnnotationPresent(TableName.class)) {
TableName tableName = (TableName) entityClazz.getAnnotation(TableName.class);
String value = tableName.value();
HOLDER.get().remove(value);
}
}
protected static String getReplaceName(String tableName) {
return (String) HOLDER.get().get(tableName);
}
protected static boolean containTable(String tableName) {
return HOLDER.get().containsKey(tableName);
}
protected static boolean hasVal() {
return HOLDER.get() != null && !HOLDER.get().isEmpty();
}
public static void clearAll() {
HOLDER.remove();
}
public static void hashTableLength(int length) {
HOLDER.get().put(HASH_LENGTH, length);
}
protected static Integer hashTableLength() {
return (Integer) HOLDER.get().get(HASH_LENGTH);
}
public static void clearHashTableLength() {
HOLDER.get().remove(HASH_LENGTH);
}
}TableShardParam 作用于方法参数上面,对应的值会传入对应的分表方法里面,如果启用了hash分表,会自动替换成hash策略
package com.xl.mphelper.annonations;
import com.xl.mphelper.shard.ITableShardStrategy;
import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
@Target({ElementType.PARAMETER})
@Retention(RetentionPolicy.RUNTIME)
public @interface TableShardParam {
//获取表名的策略
Class<? extends ITableShardStrategy> shardStrategy() default ITableShardStrategy.TableShardDefaultStrategy.class;
int hashTableLength() default -1;
boolean enableHash() default false;
}TableShard,作用于mapper上面,主要描述了自动建表信息和获取表映射的信息,还有获取当前方法的信息,同样也对常用的hash进行处理
package com.xl.mphelper.annonations;
import com.xl.mphelper.shard.ExecBaseMethod;
import com.xl.mphelper.shard.ITableShardDbType;
import com.xl.mphelper.shard.ITableShardStrategy;
import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
@Target({ElementType.TYPE})
@Retention(RetentionPolicy.RUNTIME)
public @interface TableShard {
//是否自动建表
boolean enableCreateTable() default false;
//创建表方法
String createTableMethod() default "";
//获取表名的策略
Class<? extends ITableShardStrategy> shardStrategy() default ITableShardStrategy.CommonStrategy.class;
//是否启用hash策略,-1不启用,其他作为分表的数量
int hashTableLength() default -1;
//默认使用的db策略
Class<? extends ITableShardDbType> dbType() default ITableShardDbType.MysqlShard.class;
//选取方法的策略,用到分页组件时需额外注意
Class<? extends ExecBaseMethod> execMethodStrategy() default ExecBaseMethod.class;
}获取方法的类,对应上面的execMethodStrategy,主要是判断当前方法是否需要分表以及给出对应方法的参数(项目上用了pagehelper,count的时候会默认带个后缀,所以是额外处理),下面是公共处理
package com.xl.mphelper.shard;
import com.xl.mphelper.annonations.TableShardIgnore;
import java.lang.reflect.Method;
import java.lang.reflect.Parameter;
public class ExecBaseMethod {
protected MethodInfo genMethodInfo(Method[] candidateMethods, String curMethodName) {
Method curMethod = null;
for (Method method : candidateMethods) {
if (method.getName().equals(curMethodName)) {
curMethod = method;
break;
}
}
if (curMethod == null) {
MethodInfo methodInfo = new MethodInfo();
methodInfo.shouldIgnore = true;
return methodInfo;
}
boolean shouldIgnore = curMethod.isAnnotationPresent(TableShardIgnore.class);
MethodInfo methodInfo = new MethodInfo();
methodInfo.shouldIgnore = shouldIgnore;
methodInfo.parameters = curMethod.getParameters();
return methodInfo;
}
public static class MethodInfo {
protected boolean shouldIgnore;
protected Parameter[] parameters;
}
}还有个注解就是作用于方法上,标识该方法需要忽略,不走分表拦截的逻辑
定义了几个缓存类
分别是缓存mapper、分表策略、数据库类型、已经处理过的表(自动建表逻辑)
private static final Map<String, Class> MAPPER_CLASS_CACHE = new ConcurrentHashMap<>();
private static final Map<Class, ITableShardStrategy> SHARD_STRATEGY = new ConcurrentHashMap<>();
private static final Map<Class, ITableShardDbType> SHARD_DB = new ConcurrentHashMap<>();
private static final Set<String> HANDLED_TABLE = new ConcurrentSkipListSet<>();首先需要通过StatmentHandler来获取boundSql、MappedStatement对象
routingStatementHandler里面有三种statementHandler,他们都继承于BaseStatementHandler
这个类里面就有boundSql对象
boundSql对象可以获取执行的sql,还有当前方法的值
MappedStatement对象主要是mapper方法的一个封装,包括入参、返回结果等
关系图如下,routingStatementHandler是一个入口,根据不同的type用不同的handler进行处理
mybatis会用动态代理来创建一个invocation对象给到拦截器
上面大概说明了拦截器是怎么获取到当前方法的参数的,以及myabtis提供了metaObject来获取BoundSql、MappedStatement 来获取当前执行的sql,当前执行的方法等信息
这时候我们可以确定,我们拦截器的拦截范围
@Override
public Object plugin(Object target) {
if (target instanceof RoutingStatementHandler) {
return Plugin.wrap(target, this);
}
return target;
}以及获取上面两个关键对象的方法
RoutingStatementHandler statementHandler = (RoutingStatementHandler) invocation.getTarget();
//获取
MetaObject metaObject = MetaObject.forObject(statementHandler, DEFAULT_OBJECT_FACTORY, DEFAULT_OBJECT_WRAPPER_FACTORY, REFLECTOR_FACTORY);
BoundSql boundSql = (BoundSql) metaObject.getValue("delegate.boundSql");
MappedStatement mappedStatement = (MappedStatement) metaObject.getValue("delegate.mappedStatement");MappedStatement的ID就是mapper里面一个方法的标识
org.apache.ibatis.builder.annotation.MapperAnnotationBuilder#parseStatement上面的方法里面标识了他的组成,就是mapperClass的名称+方法名
通过上述规则,解析id来获取对应的mapper名称
private Class<? extends BaseMapper> getMapperClass(MappedStatement mappedStatement) {
String id = mappedStatement.getId();
//mapperClass
String className = id.substring(0, id.lastIndexOf("."));
return MAPPER_CLASS_CACHE.computeIfAbsent(className, name -> {
try {
return Class.forName(name);
} catch (ClassNotFoundException e) {
throw new IllegalStateException(e);
}
});
}获取到mapper的class之后,获取对应的注解,对于判断是否需要走拦截器的逻辑,用到了上面获取方法信息的ExecBaseMethod,该接口返回了是否需要执行逻辑,以及当前方法的参数列表
private ExecBaseMethod.MethodInfo getExecMethod(MappedStatement mappedStatement, Class mapperClass, TableShard annotation) {
String id = mappedStatement.getId();
//methodName
String methodName = id.substring(id.lastIndexOf(".") + 1);
final Method[] methods = mapperClass.getMethods();
ExecBaseMethod execMethod = (ExecBaseMethod) getObjectByClass(annotation.execMethodStrategy());
return execMethod.genMethodInfo(methods, methodName);
}这时候已经获取到了TableShard注解、执行方法的信息,然后可以结合上面获取的BoundSql对象,来解析获取对应的表名
这里插个题外话,下面这段代码是获取一个解析sql的处理器
SchemaStatVisitor visitor = SQLUtils.createSchemaStatVisitor(dbType);当时也想用一个静态map缓存起来,但是线上运行时候发现oom,后面分析一下原来这个visitor每次解析sql之后,都会产生大量跟预编译相关SLVariantRefExpr对象,所以导致缓存不断变大缺无法回收,后面改为在方法内执行
private Set<String> getTableNames(BoundSql boundSql, TableShard shard) {
Class<? extends ITableShardDbType> shardDb = shard.dbType();
ITableShardDbType iTableShardDb = SHARD_DB.computeIfAbsent(shardDb, e -> (ITableShardDbType) getObjectByClass(shardDb));
//获取sql语句
String originSql = boundSql.getSql();
DbType dbType = iTableShardDb.getDbType();
SchemaStatVisitor visitor = SQLUtils.createSchemaStatVisitor(dbType);
List<SQLStatement> stmtList = SQLUtils.parseStatements(originSql, dbType);
Set<String> tableNames = new HashSet<>();
for (int i = 0; i < stmtList.size(); i++) {
SQLStatement stmt = stmtList.get(i);
stmt.accept(visitor);
Map<TableStat.Name, TableStat> tables = visitor.getTables();
for (TableStat.Name name : tables.keySet()) {
tableNames.add(name.getName());
}
}
return tableNames;
}此时我们已经获取了表名,可以准备构造上面说的映射map了,在此之前先说明下建表逻辑
拿出一个连接,执行用户的方法,可以看到我们当前拦截的方法prepare,第一个参数就是连接
这个时候我们可以直接拿链接进行建表操作(只针对insert操作才进行建表判断),不过出于性能考虑,这里设置了两个校验,第一个是判断本地内存是否已经处理了这些表,第二个是判断数据库里面是否有了这些表,校验通过后,才会执行建表的方法,但如果并发比较高的话,还是可能有多个线程同时走到了建表方法,所以这里建议建表方法使用create if not exists语法
private void handleTableCreate(Invocation invocation, Class<? extends BaseMapper> mapperClass, Map<String, String> routingTableMap, TableShard annotation) throws SQLException {
//代表已经处理了这些表
boolean exec = false;
Collection<String> curTableValues = routingTableMap.values();
for (String value : curTableValues) {
if (!HANDLED_TABLE.contains(value)) {
exec = true;
break;
}
}
if (!exec) {
return;
}
String tableMethod = annotation.createTableMethod();
Method createTableMethod = null;
if (tableMethod.length() > 0) {
createTableMethod = ReflectionUtils.findMethod(mapperClass, tableMethod);
}
//把建表语句对应的sql进行表名的替换,如果该方法有ignore注解,不会进行调用
if (createTableMethod != null && !createTableMethod.isAnnotationPresent(TableShardIgnore.class)) {
SqlSessionFactory sessionFactory = ApplicationContextHolder.getBean(SqlSessionFactory.class);
String methodPath = mapperClass.getName() + "." + tableMethod;
Configuration configuration = sessionFactory.getConfiguration();
String createTableSql = configuration.getMappedStatement(methodPath).getBoundSql("delegate.boundSql").getSql();
//判断是否已经有这个表
Set<String> prepareHandledTable = new HashSet<>();
for (Map.Entry<String, String> entry : routingTableMap.entrySet()) {
if (createTableSql.contains(entry.geTKEy())) {
prepareHandledTable.add(entry.getValue());
createTableSql = createTableSql.replaceAll(entry.getKey(), entry.getValue());
}
}
//获取一个连接
Connection conn = (Connection) invocation.getArgs()[0];
boolean preAutoCommitState = conn.getAutoCommit();
conn.setAutoCommit(false);
Class<? extends ITableShardDbType> shardDb = annotation.dbType();
ITableShardDbType iTableShardDb = SHARD_DB.computeIfAbsent(shardDb, e -> (ITableShardDbType) getObjectByClass(shardDb));
//如果没有检查sql,默认已经建表
String checkTableSQL = iTableShardDb.getCheckTableSQL(curTableValues);
boolean contains = existsTable(conn, curTableValues, checkTableSQL);
if (contains) {
conn.setAutoCommit(preAutoCommitState);
HANDLED_TABLE.addAll(curTableValues);
return;
}
try (PreparedStatement countStmt = conn.prepareStatement(createTableSql)) {
countStmt.execute();
conn.commit();
} catch (Exception e) {
log.error("自动建表报错", e);
} finally {
//恢复状态
conn.setAutoCommit(preAutoCommitState);
HANDLED_TABLE.addAll(prepareHandledTable);
}
}
}自动建表逻辑说明完之后,再回到刚刚的映射map的构造上面,一种是通过本地线程的map
Map<String, String> routingTableMap = new HashMap<>(tableNames.size());
if (TableShardHolder.hasVal()) {
for (String tableName : tableNames) {
if (TableShardHolder.containTable(tableName)) {
routingTableMap.put(tableName, TableShardHolder.getReplaceName(tableName));
}
}
}一种是通过参数+分表策略获取替换后的表
首先通过mapper上面的注解获取默认的分表策略,然后查看方法参数有没有,有的话就以方法参数为准,但是这里也要兼顾了常用的hash逻辑
Class<? extends ITableShardStrategy> shardStrategy = annotation.shardStrategy();
boolean autoHash = false;
if (annotation.hashTableLength() != -1) {
shardStrategy = ITableShardStrategy.HashStrategy.class;
if (TableShardHolder.hashTableLength() == null) {
autoHash = true;
TableShardHolder.hashTableLength(annotation.hashTableLength());
}
}
ITableShardStrategy strategy = SHARD_STRATEGY.computeIfAbsent(shardStrategy, e -> (ITableShardStrategy) getObjectByClass(e));
if (strategy == null) {
return invocation.proceed();
}
Object objFromCurMethod = null;
for (String tableName : tableNames) {
String resName = null;
if (objFromCurMethod == null) {
Pair<Object, ITableShardStrategy> res = getObjFromCurMethod(curMethod.parameters, boundSql, autoHash);
if (res.getRight() != null) {
strategy = res.getRight();
}
objFromCurMethod = res.getLeft();
}
resName = strategy.routingTable(tableName, objFromCurMethod);
routingTableMap.put(tableName, resName);
}上面这段代码主要获取了实际的分表策略,和对应的参数,然后存入映射表里面,那么如何获取实际的分表策略和参数呢,主要有以下两个方法
通过boundSql对象获取方法参数的实际值,然后遍历获取符合的参数值,如果入参是可迭代的,就拿第一个非可迭代的值作为分表策略的入参,所以要求同一批数据中分表的策略都是一样的,这里由于在拦截器不好做,所以放到了service层去处理
private Pair<Object, ITableShardStrategy> getObjFromCurMethod(Parameter[] parameters, BoundSql boundSql, boolean isAutoHash) {
Object parameterObject = boundSql.getAdditionalParameter("_parameter");
if (parameterObject == null) {
parameterObject = boundSql.getParameterObject();
}
if (parameterObject == null || parameters.length == 0) {
return null;
}
Parameter defaultParam = parameters[0];
ITableShardStrategy res = null;
for (int i = 0; i < parameters.length; i++) {
Parameter cur = parameters[i];
if (cur.isAnnotationPresent(TableShardParam.class)) {
defaultParam = cur;
TableShardParam annotation = cur.getAnnotation(TableShardParam.class);
Class<? extends ITableShardStrategy> shardStrategy = annotation.shardStrategy();
if (isAutoHash && annotation.enableHash()) {
//如果支持hash
shardStrategy = ITableShardStrategy.HashStrategy.class;
//如果当前mapper为hash模式,并且对应的长度不为-1,设置长度
if (annotation.hashTableLength() != -1) {
TableShardHolder.hashTableLength(annotation.hashTableLength());
}
}
res = SHARD_STRATEGY.computeIfAbsent(shardStrategy, e -> (ITableShardStrategy) getObjectByClass(e));
break;
}
}
Object paramValue = null;
if (defaultParam.isAnnotationPresent(Param.class)) {
String value = defaultParam.getAnnotation(Param.class).value();
paramValue = ((MapperMethod.ParamMap) parameterObject).get(value);
} else {
paramValue = parameterObject;
}
return Pair.of(getInnerObj(paramValue), res);
}
private static Object getInnerObj(Object paramValue) {
if (paramValue instanceof Iterable) {
Iterable value = (Iterable) paramValue;
Iterator iterator = value.iterator();
while (iterator.hasNext()) {
return getInnerObj(iterator.next());
}
}
return paramValue;
}最后就是处理我们的sql,把生成的map进行值替换
private void replaceSql(MetaObject metaObject, BoundSql boundSql, Map<String, String> routingTableMap) {
String sql = boundSql.getSql();
for (Map.Entry<String, String> entry : routingTableMap.entrySet()) {
sql = sql.replaceAll(entry.getKey(), entry.getValue());
}
metaObject.setValue("delegate.boundSql.sql", sql);
}以上就是整套拦截器的实现代码和思路
具体代码可以查看GitHub项目的example模块
测试代码如下
@SpringBootApplication(scanBasePackages = "com.xl.mphelper.*")
@MapperScan(basePackages = "com.xl.mphelper.example.mapper")
@Slf4j
public class MpHelperApplication {
public static void main(String[] args) {
ConfigurableApplicationContext run = SpringApplication.run(MpHelperApplication.class, args);
OrderController controller = run.getBean(OrderController.class);
List<OrderInfo> orderInfos = controller.testAdd();
String suffix = orderInfos.get(0).suffix();
Page<OrderInfo> orderInfoPage = controller.queryByPage(suffix);
log.info("分页查询{}", orderInfoPage.getRecords().size());
List<OrderInfo> query = controller.query(suffix);
log.info("查询所有{}", query.size());
IOrderService service = run.getBean(IOrderService.class);
//自定义service的crud操作
service.testCustomServiceShardCUD();
}
}测试结果如下
可以看到是先去数据库查询是否存在该表,没有的话就进行建表操作,分页操作通过本地线程进行了表名的替换
接下来是基于service分组的增删改的案例
附上service层实现的方法,主要是根据接口进行分组处理
public boolean saveBatchShard(Collection<T> entityList) {
if (CollectionUtils.isEmpty(entityList)) {
return false;
}
T param = entityList.iterator().next();
if (param instanceof Shardable) {
Collection<Shardable> shardables = (Collection<Shardable>) entityList;
shardables.stream().collect(Collectors.groupingBy(Shardable::suffix)).forEach((k, v) -> {
TableShardHolder.putVal(param.getClass(),k);
super.saveBatch((Collection<T>) v);
TableShardHolder.remove(param.getClass());
});
return true;
}
return false;
}
public boolean updateBatchByShard(Collection<T> entityList){
if (CollectionUtils.isEmpty(entityList)) {
return false;
}
T param = entityList.iterator().next();
if (param instanceof Shardable) {
Collection<Shardable> shardables = (Collection<Shardable>) entityList;
shardables.stream().collect(Collectors.groupingBy(Shardable::suffix)).forEach((k, v) -> {
TableShardHolder.putVal(param.getClass(),k);
super.updateBatchById((Collection<T>) v);
TableShardHolder.remove(param.getClass());
});
return true;
}
return false;
}
public boolean removeByShard(Collection<T> entityList){
if (CollectionUtils.isEmpty(entityList)) {
return false;
}
T param = entityList.iterator().next();
if (param instanceof Shardable) {
Collection<Shardable> shardables = (Collection<Shardable>) entityList;
String keyProperty = getKeyPropertyFromLists(entityList);
shardables.stream().collect(Collectors.groupingBy(Shardable::suffix)).forEach((k, v) -> {
TableShardHolder.putVal(param.getClass(),k);
List<Serializable> id=new ArrayList<>(v.size());;
for (Shardable shardable : v) {
Serializable idValue = (Serializable) ReflectionKit.getFieldValue(shardable, keyProperty);
if(Objects.nonNull(idValue)){
id.add(idValue);
}
}
super.removeByIds(id);
TableShardHolder.remove(param.getClass());
});
return true;
}
return false;
}为了简化操作,这里对hash,本地线程替换的方法抽取出来
public void wrapRunnable(Runnable runnable, Map<Class, String> map) {
putValIfExistHashStrategy();
for (Map.Entry<Class, String> entry : map.entrySet()) {
TableShardHolder.putVal(entry.getKey(), entry.getValue());
}
runnable.run();
for (Map.Entry<Class, String> entry : map.entrySet()) {
TableShardHolder.remove(entry.getKey());
}
TableShardHolder.clearHashTableLength();
}
public void putValIfExistHashStrategy() {
TableShard annotation = mapperClass.getAnnotation(TableShard.class);
if (annotation == null) {
throw new IllegalStateException("not found tableShard in mapper");
}
int i = annotation.hashTableLength();
if (i != -1) {
TableShardHolder.hashTableLength(i);
}
}这里的查询采用本地线程调用,也是通过包装对通用的操作进行屏蔽
Page<OrderInfo> page = new Page<>();
Page<OrderInfo> res = (Page<OrderInfo>) wrapSupplier(() -> orderInfoMapper.testLeftJoin(page, month), KVBuilder.init(OrderInfo.class, month).put(OrderDetail.class, month)
);
return res;也可以直接通过mapper方法的参数进行表路由的操作
关于hash有个额外注意点——如果mapper是hash策略,且本地线程没有指定hash策略,而方法上面指定了param参数且没有开启enableHash,就会走到默认的分表策略
List<OrderInfo> testLeftJoin2(@TableShardParam String month);然后是hash路由的测试,把对应的注解注释打开
//@TableShard(enableCreateTable = true, createTableMethod = "createTable")
@TableShard(enableCreateTable = true,createTableMethod = "createTable", hashTableLength = 10)
public interface OrderDetailMapper extends CustomMapper<OrderDetail> {
void createTable();
}
//@TableShard(enableCreateTable = true, createTableMethod = "createTable")
@TableShard(enableCreateTable = true, createTableMethod = "createTable", hashTableLength = 10)
public interface OrderInfoMapper extends CustomMapper<OrderInfo> {
void createTable();
//注意,这里调用的service层没设置本地线程变量,如果enableHash也为false,则不会调用hash策略
List<OrderInfo> testLeftJoin2(@TableShardParam(enableHash = true)
//@TableShardParam
String month);
Page<OrderInfo> testLeftJoin(IPage page, @TableShardParam String month);
@TableShardIgnore
@Select("select * from order_info where update_time is null")
Cursor<OrderInfo> test();
}测试结果
也可以看到对应的数据库表已经建立起来
以上是全部内容,在做的时候也参考了别人的一些做法,结合了自己的一些想法,最后形成本文,代码已上传的到gitHub, 有兴趣的小伙伴可以下来看看,里面有一些关于sqlInject的用法,具体解析可以参考我另一篇博文,但这些还是有很多改进的点,主要是属性写死在代码里面,不是很灵活,比如把注解上面的属性改为配置处理,以适配不同环境等
到此这篇关于springboot+mybatis-plus基于拦截器实现分表的文章就介绍到这了,更多相关springboot+mybatis-plus基于拦截器实现分表内容请搜索编程网以前的文章或继续浏览下面的相关文章希望大家以后多多支持编程网!
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