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.
This is a defensive change to make the transceiver code easier to reason
about, and to avoid the possibility of races such as that seen in #1042.
Previously, set_transceiver_mode() was called in the vendor request
handler for the SET_TRANSCEIVER_MODE request, as well in the callback
for a USB configuration change. Both these calls are made from the USB0
ISR, so could interrupt the rx_mode(), tx_mode() and sweep_mode()
functions at any point. It was hard to tell if this was safe.
Instead, set_transceiver_mode() has been removed, and its work is split
into three parts:
- request_transceiver_mode(), which is safe to call from ISR context.
All this function does is update the requested mode and increment a
sequence number. This builds on work already done in PR #1029, but
the interface has been simplified to use a shared volatile structure.
- transceiver_startup(), which transitions the transceiver from an idle
state to the configuration required for a specific mode, including
setting up the RF path, configuring the M0, adjusting LEDs and UI etc.
- transceiver_shutdown(), which transitions the transceiver back to an
idle state.
The *_mode() functions that implement the transceiver modes now call
transceiver_startup() before starting work, and transceiver_shutdown()
before returning, and all this happens in the main thread of execution.
As such, it is now guaranteed that all the steps involved happen in a
consistent order, with the transceiver starting from an idle state, and
being returned to an idle state before control returns to the main loop.
For consistency of interface, an off_mode() function has been added to
implement the behaviour of the OFF transceiver mode. Since the
transceiver is already guaranteed to be in an idle state when this is
called, the only work required is to set the UI mode and wait for a new
mode request.
This fixes bug #1042, which occured when an RX->OFF->RX sequence
happened quickly enough that the loop in rx_mode() did not see the
change. As a result, the enable_baseband_streaming() call at the start
of that function was not repeated for the new RX operation, so RX
progress stalled.
To solve this, the vendor request handler now increments a sequence
number when it changes the transceiver mode. Instead of the RX loop
checking whether the transceiver mode is still RX, it now checks whether
the current sequence number is the same as when it was started. If not,
there must have been at least one mode change, so the loop exits, and
the main loop starts the necessary loop for the new mode. The same
behaviour is implemented for the TX and sweep loops.
For this approach to be reliable, we must ensure that when deciding
which mode and sequence number to use, we take both values from the same
set_transceiver_mode request.
To achieve this, we briefly disable the USB0 interrupt to stop the
vendor request handler from running whilst reading the mode and sequence
number together. Then the loop dispatch proceeds using those pre-read
values.
This changes m0_rom_to_ram to read directly from the ROM region, rather
than copying from where .text has been copied to RAM.
Previously the second .text section would be merged with the first one,
so the M0 image would be copied to RAM during `pre_main`. However, on
newer linkers the sections are not merged together so the second .text
section did not get copied to RAM.
fixes#936
Previously the firmware would re-initialise the bulk endpoints on
every transceiver mode change including a USB data toggle reset,
which could cause the first bulk packet (512-bytes) to be dropped
by the host if the PID no longer matched.
Perform PortaPack initialization separately from and earlier than UI initialization. Track if PortaPack was detected, provide (mostly useless) pointer if so. Put "weak" declarations into respective headers. Moving #includes around.
Just a very rough merge to get off the ground. Major parts are not yet
implemented. The mixer intergration is in a messed up state. Part which
need work have been marked with XXX
Conflicts:
firmware/common/hackrf_core.c
firmware/common/hackrf_core.h
firmware/common/max2837.c
firmware/common/max2837.h
firmware/common/rf_path.c
firmware/common/rffc5071.c
firmware/common/rffc5071.h
firmware/common/sgpio.c
firmware/common/si5351c.c
firmware/common/tuning.c
firmware/common/w25q80bv.c
firmware/common/w25q80bv.h
firmware/common/xapp058/ports.c
firmware/hackrf-common.cmake
firmware/hackrf_usb/hackrf_usb.c
firmware/hackrf_usb/usb_api_register.c
firmware/hackrf_usb/usb_api_transceiver.c
host/hackrf-tools/src/hackrf_transfer.c
