I am trying to decipher a trace of USB I/O traffic produced by
usbmon and am having some issues getting my head around the endianness. For the sake of example, here are two lines from the trace I am working with:
ffff8800650e7000 433121059 S Ci:2:000:0 s 80 06 0100 0000 0040 64 < ffff8800650e7000 433121661 C Ci:2:000:0 0 18 = 12010002 00000040 da0b8781 00010102 0301
I initially had no suspicion whatsoever of anything other than big-endianness in the trace, but then I saw
da0b8781 in the second line, which corresponds to the identity of the USB device I am tracing which has a vendor ID of
0x0bda and product ID of
0x8187 (note the reversal of byte-order in the trace).
So at this point I thought that maybe within a given field of a
usbmon trace, the bytes were always in reverse byte order and should be interpreted as such. But to the contrary, let's examine a small part near the end of the first trace line,
... 0040 64
0040 is a hex field representing the maximum accepted response size.
64 is a decimal field that should represent exactly the same thing.
64 decimal, without switching the byte order to
0x4000, which would then !=
64 decimal. So it's at this point I started to get a bit uncertain about the byte-order of the different parts of the
Next I thought, maybe it's just the data portions of the
usbmon trace that are in reverse byte order. So I thought perhaps I should really be reading
...12010002 00000040 da0b8781 00010102 0301
1030 20101000 1878b0ad 04000000 20001021...
Nope, that doesn't seem to be right either. The USB Specification states that the vendor Id (
0x0bda in my case) should be at byte offset 8 for this particular string. If we leave the above string in its original order, then the vendor Id does start at byte offset 8 (
12010002 00000040 consumes the first 8 bytes), but if we reverse it as I have above, then it starts at byte offset 6 (
1030 20101000 only consumes the first 6 bytes).
So my best guess now is that
usbmon displays everything big-endian, accept that it switches to reverse byte order within each 4-byte word, but for data only. Can anyone offer some clarification on whether this is correct, or whether there may be something else I'm missing?