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I have an existing protocol (unchangeable) that I am trying to implement with netty where the packets have bytes that have to be read in both big and little endian as well as responses written in big and little endian.

Example: 00 00 00 04 02 00 05 00 00 00

This packets values are 4, 2 and 5.

I know that I can implement this my own way, but I would like know if there is a "Netty" way to do this.

I have found the .order(ByteOrder) method but this appears to just make a new buffer and I don't see why I should have to create a new object to read bytes in a different order. Am i missing something here?

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1 Answer 1

up vote 1 down vote accepted

You can simply leave the buffer's byte order as big-endian and use BufUtil.swap*(). In your case:

int a = buf.readInt();
int b = BufUtil.swapShort(buf.readShort());
int c = BufUtil.swapInt(buf.readInt());

On the other hand, in Netty 4, the buffer created by .order(ByteOrder) is cached by the original buffer, so the overhead of .order(ByteOrder) should be pretty small as long as the connection is short-living. If you used .order(ByteOrder):

int a = buf.readInt();
int b = buf.order(LITTLE_ENDIAN).readShort();
int c = buf.order(LITTLE_ENDIAN).readInt();

I'm actually curious if using .order(..) is noticeably slower than using BufUtil.swap*() although my guess is they should be essentially almost same.

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Thank you for the input. I think that the first method would work better for me if I could create all buffers as little endian (hints?). It just feels dirty to have to create a new shallow object or swap a value after it is read to accomplish this. It feel like the ByteBuf interface should just have methods like readIntLE(), and I recall seeing some conventions in previous documentations there was an interface that did this, but it seems to be gone. –  Kyle Mar 2 '13 at 16:02

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