# RocketMQ MappedFile 内存映射文件详解 1、MappedFile 初始化 ```java private void init(final String fileName, final int fileSize) throws IOException { this.fileName = fileName; this.fileSize = fileSize; this.file = new File(fileName); this.fileFromOffset = Long.parseLong(this.file.getName()); boolean ok = false; ensureDirOK(this.file.getParent()); try { this.fileChannel = new RandomAccessFile(this.file, "rw").getChannel(); this.mappedByteBuffer = this.fileChannel.map(MapMode.READ_WRITE, 0, fileSize); TOTAL_MAPPED_VIRTUAL_MEMORY.addAndGet(fileSize); TOTAL_MAPPED_FILES.incrementAndGet(); ok = true; } catch (FileNotFoundException e) { log.error("Failed to create file " + this.fileName, e); throw e; } catch (IOException e) { log.error("Failed to map file " + this.fileName, e); throw e; } finally { if (!ok && this.fileChannel != null) { this.fileChannel.close(); } } } ``` 初始化`fileFromOffset`,因为 commitLog 文件夹下的文件都是以偏移量为命名的,所以转成了 long 类型 确认文件目录是否存在,不存在则创建 ```java public static void ensureDirOK(final String dirName) { if (dirName != null) { if (dirName.contains(MessageStoreConfig.MULTI_PATH_SPLITTER)) { String[] dirs = dirName.trim().split(MessageStoreConfig.MULTI_PATH_SPLITTER); for (String dir : dirs) { createDirIfNotExist(dir); } } else { createDirIfNotExist(dirName); } } } ``` 通过`RandomAccessFile`设置 fileChannel `this.fileChannel = new RandomAccessFile(this.file, "rw").getChannel();` 使用 NIO 内存映射将文件映射到内存中 `this.mappedByteBuffer = this.fileChannel.map(MapMode.*READ_WRITE*, 0, fileSize);` 2、MappedFile 提交 ```java public int commit(final int commitLeastPages) { if (writeBuffer == null) { //no need to commit data to file channel, so just regard wrotePosition as committedPosition. return this.wrotePosition.get(); } if (this.isAbleToCommit(commitLeastPages)) { if (this.hold()) { commit0(); this.release(); } else { log.warn("in commit, hold failed, commit offset = " + this.committedPosition.get()); } } // All dirty data has been committed to FileChannel. if (writeBuffer != null && this.transientStorePool != null && this.fileSize == this.committedPosition.get()) { this.transientStorePool.returnBuffer(writeBuffer); this.writeBuffer = null; } return this.committedPosition.get(); } ``` 如果 wroteBuffer 为空,直接返回 wrotePosition ```java if (writeBuffer == null) { //no need to commit data to file channel, so just regard wrotePosition as committedPosition. return this.wrotePosition.get(); } ``` 判断是否执行 commit 操作: 如果文件已满,返回 true ```java if (this.isFull()) { return true; } ``` ```java public boolean isFull() { return this.fileSize == this.wrotePosition.get(); } ``` commitLeastPages 为本次提交的最小页数,如果 commitLeastPages 大于 0,计算当前写指针(`wrotePosition`)与上一次提交的指针`committedPosition`的差值 除以页*`OS_PAGE_SIZE`*的大小得到脏页数量,如果大于 commitLeastPages,就可以提交。如果 commitLeastPages 小于 0,则存在脏页就提交 ```java if (commitLeastPages > 0) { return ((write /OS_PAGE_SIZE) - (flush /OS_PAGE_SIZE)) >= commitLeastPages; } return write > flush; ``` MapperFile 具体的提交过程,首先创建 `writeBuffer`的共享缓存区,设置 position 为上一次提交的位置`committedPosition` ,设置 limit 为`wrotePosition`当前写指针,接着将 committedPosition 到 wrotePosition 的数据写入到 FileChannel 中,最后更新 committedPosition 指针为 wrotePosition ```java protected void commit0() { int writePos = this.wrotePosition.get(); int lastCommittedPosition = this.committedPosition.get(); if (writePos - lastCommittedPosition > 0) { try { ByteBuffer byteBuffer = writeBuffer.slice(); byteBuffer.position(lastCommittedPosition); byteBuffer.limit(writePos); this.fileChannel.position(lastCommittedPosition); this.fileChannel.write(byteBuffer); this.committedPosition.set(writePos); } catch (Throwable e) { log.error("Error occurred when commit data to FileChannel.", e); } } } ``` 3、MappedFile 刷盘 判断是否要进行刷盘 文件是否已满 ```java if (this.isFull()) { return true; } ``` ```java public boolean isFull() { return this.fileSize == this.wrotePosition.get(); } ``` 如果`flushLeastPages`大于 0,判断写数据指针位置-上次刷盘的指针位置, 然后除以*`OS_PAGE_SIZE 是否大于等于`*`flushLeastPages` 如果 flushLeastPages 小于等于 0,判断是否有要刷盘的数据 ```java if (flushLeastPages > 0) { return ((write /OS_PAGE_SIZE) - (flush /OS_PAGE_SIZE)) >= flushLeastPages; } return write > flush; ``` 获取最大读指针 ```java public int getReadPosition() { return this.writeBuffer == null ? this.wrotePosition.get() : this.committedPosition.get(); } ``` 将数据刷出到磁盘 如果`writeBuffer`不为空或者通道的 position 不等于 0,通过 fileChannel 将数据刷新到磁盘 否则通过 MappedByteBuffer 将数据刷新到磁盘 4、MappedFile 销毁 ```java public boolean destroy(final long intervalForcibly) { this.shutdown(intervalForcibly); if (this.isCleanupOver()) { try { this.fileChannel.close(); log.info("close file channel " + this.fileName + " OK"); long beginTime = System.currentTimeMillis(); boolean result = this.file.delete(); log.info("delete file[REF:" + this.getRefCount() + "] " + this.fileName + (result ? " OK, " : " Failed, ") + "W:" + this.getWrotePosition() + " M:" + this.getFlushedPosition() + ", " + UtilAll.computeElapsedTimeMilliseconds(beginTime)); } catch (Exception e) { log.warn("close file channel " + this.fileName + " Failed. ", e); } return true; } else { log.warn("destroy mapped file[REF:" + this.getRefCount() + "] " + this.fileName + " Failed. cleanupOver: " + this.cleanupOver); } return false; } ``` 1> 关闭 MappedFile 第一次调用时 this.`available为true`,设置 available 为 false,设置第一次关闭的时间戳为当前时间戳,调用 release()释放资源,只有在引用次数小于 1 的时候才会释放资源,如果引用次数大于 0,判断当前时间与 firstShutdownTimestamp 的差值是否大于最大拒绝存活期`intervalForcibly`,如果大于等于最大拒绝存活期,将引用数减少 1000,直到引用数小于 0 释放资源 ```java public void shutdown(final long intervalForcibly) { if (this.available) { this.available = false; this.firstShutdownTimestamp = System.currentTimeMillis(); this.release(); } else if (this.getRefCount() > 0) { if ((System.currentTimeMillis() - this.firstShutdownTimestamp) >= intervalForcibly) { this.refCount.set(-1000 - this.getRefCount()); this.release(); } } } ``` 2> 判断是否清理完成 是否清理完成的标准是引用次数小于等于 0 并且清理完成标记 cleanupOver 为 true ```java public boolean isCleanupOver() { return this.refCount.get() <= 0 && this.cleanupOver; } ``` 3> 关闭文件通道 fileChannel `this.fileChannel.close();`