In the idle mode, the M0 simply waits for a different mode to be set.
No SGPIO access is done.
One extra cycle is added to both TX code paths, to check whether the
M0 should return to the idle loop based on the mode setting. The RX
paths are unaffected as the branch to RX is handled first.
With both counters in place, the number of bytes in the buffer is now
indicated by the difference between the M0 and M4 counts.
The M4 count needs to be increased whenever the M4 produces or consumes
data in the USB bulk buffer, so that the two counts remain correctly
synchronised.
There are three places where this is done:
1. When a USB bulk transfer in or out of the buffer completes, the count
is increased by the number of bytes transferred. This is the most
common case.
2. At TX startup, the M4 effectively sends the M0 16K of zeroes to
transmit, before the first host-provided data.
This is done by zeroing the whole 32K buffer area, and then setting
up the first bulk transfer to write to the second 16K, whilst the M0
begins transmission of the first 16K.
The count is therefore increased by 16K during TX startup, to account
for the initial 16K of zeros.
3. In sweep mode, some data is discarded. When this is done, the count
is incremented by the size of the discarded data.
The USB IRQ is masked whilst doing this, since a read-modify-write is
required, and the bulk transfer completion callback may be called at
any point, which also increases the count.
Instead of this count wrapping at the buffer size, it now increments
continuously. The offset within the buffer is now obtained from the
lower bits of the count.
This makes it possible to keep track of the total number of bytes
transferred by the M0 core.
The count will wrap at 2^32 bytes, which at 20Msps will occur every
107 seconds.
This adds a `hackrf_debug [-S|--state]` option, and the necessary
plumbing to libhackrf and the M4 firmware to support it.
The USB API and libhackrf versions are bumped to reflect the changes.
These variables are already placed together; this commit just groups
them into a struct and declares this in a new header.
This commit should not result in any change to the firmware binary.
Only the names of symbols are changed.
