I support a legacy Java application that uses flat files (plain text) for persistence. Due to the nature of the application, the size of these files can reach 100s MB per day, and often the limiting factor in application performance is file IO. Currently, the application uses a plain ol' java.io.FileOutputStream to write data to disk.
Recently, we've had several developers assert that using memory-mapped files, implemented in native code (C/C++) and accessed via JNI, would provide greater performance. However, FileOutputStream already uses native methods for its core methods (i.e. write(byte)), so it appears a tenuous assumption without hard data or at least anecdotal evidence.
I have several questions on this:
Is this assertion really true? Will memory mapped files always provide faster IO compared to Java's FileOutputStream?
Does the class MappedByteBuffer accessed from a FileChannel provide the same functionality as a native memory mapped file library accessed via JNI? What is MappedByteBuffer lacking that might lead you to use a JNI solution?
What are the risks of using memory-mapped files for disk IO in a production application? That is, applications that have continuous uptime with minimal reboots (once a month, max). Real-life anecdotes from production applications (Java or otherwise) preferred.
Question #3 is important - I could answer this question myself partially by writing a "toy" application that perf tests IO using the various options described above, but by posting to SO I'm hoping for real-world anecdotes / data to chew on.
[EDIT] Clarification - each day of operation, the application creates multiple files that range in size from 100MB to 1 gig. In total, the application might be writing out multiple gigs of data per day.