We have an ARM9-based embedded board which is running Linux 22.214.171.124. The device is a video camera whose associated capture/compression hardware places data into an input fifo in the ARM memory which the ARM then accesses from user space. We also have a driver for this encoder for high level control.
A thread in the application level code checks this user space fifo and when there is data it sends this out over a socket. To avoid the overhead of this thread needing to poll the user space fifo for data we have a very simple read() call to the driver which in reality simply pends until there is any data in the fifo (nothing is really "read" into the buffer supplied in the read() call). This read() call then returns and the thread proceeds to read data from the fifo until it's empty and then pends again by calling the fake read() call.
This system is quite efficient as measured by how many network streams can be transmitted before frame drops are detected. But we have determined that using the fake read() call causes the Linux "top" utility to report large CPU usage by our app.
We have built 2 versions of the app- one which operates as above and the other which is identical except that it never calls the fake read() but instead polls the fifo with intervening usleep() calls. When we look at the CPU usage as reported by "top" for the 2 cases when each is sending 5 streams we get:
1) read() version: CPU 12%
2) usleep() version: CPU 4%
Of course polling in reality is less efficient and if we ignore what "top" is saying and instead just measure how many simultaneous network streams the 2 versions can transmit before we see frame drops then version 1 above wins.
We have verified that the read() call above is operating correctly. If some bug results in the read() call returning immediately even when there is no data in the fifo then the thread would end up doing expensive continuous polling. But this is not the case; the read() call causes the thread to run exactly 30 times per second as it should.
We thought that there might be some shortcut taken by our toy busybox version of "top"- but no these results are in the raw numbers in /proc//stat that top uses to calculate its displayed numbers.
This issue must be some limitation of how the Linux kernel itself collects the numbers shown in /proc//stat.
If anyone understands why this should be so please point me in the right direction. Thanks!