I am working on a database engine for Linux and I have a question about consistency regarding writing many blocks with one system call to the kernel. I open the device with O_DIRECT.
The device writes data in blocks, depending on the hardware it could be 512,2048 or 4096. Lets say I will write 2 blocks of 512 bytes in one system call. What happens if the system is shut down exactly after the disk has written 1 block? During normal operation the write() syscall will return the size of the data written, so I could compare and generate an error when 2 values (asked vs returned) mismatch, but with power shutdown it gets complicated. It is even more complicated since the kernel might send write requests to the device not in order that you told it to, so the tail of the request may be written before the head and then you have a power off.
Consider that a database engine writes a transaction log. Lets say a transaction is about 4096 bytes, the engine will need to write 8 blocks of 512 bytes. Suddenly we have power shutdown and only half of the request was written. How databases handle these issues? I suppose to get around this you would first need to write the amount of blocks you intend write to another location on the disk. Once you received correct return value, you may write your data. Then, after receiving confirmation, you must send another write to disk updating the info that all the blocks you wanted to write were actually written successfuly. So, this would require 3 write operations, and if the kernel is doing writes on disk from another processes, this will most likely result in 3 seeks. Too inefficient.
I am looking for a way to achieve a consistent write of many blocks with only one write operation to disk. (one write() syscall) Is this possible?