soc/xtensa/intel_adsp/tools/cavstwist.sh - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/bin/sh
 # Copyright (c) 2022 Intel Corporation
 # SPDX-License-Identifier: Apache-2.0
 set -e

 # Twister integration tool for a remote ssh-accessible cAVS audio DSP
 # host (e.g. an Up Squared board running Linux). Can be used as the
 # hook for both --device-serial-pty and --west-flash, for example:
 #
 #  export CAVS_OLD_FLASHER=1
 #  export CAVS_HOST=tgl2
 #  export CAVS_KEY=$HOME/otc_private_key_3k.pem
 #  export CAVS_RIMAGE=$HOME/rimage
 #
 #  twister -p intel_adsp_cavs25 --device-testing \
 #     --device-serial-pty=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstwist.sh \
 #     --west-flash=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstwist.sh
 #
 # The CAVS_OLD_FLASHER is necessary because now the client-server-based
 # cavstool works by default. This is to tell the build system to use
 # the misc-flasher as the runner. Please remember to do the command
 # "unset CAVS_OLD_FLASHER" when you are going to switch to the
 # client-server-based intel_adsp runner.
 #
 # The device at CAVS_HOST must be accessible via non-interactive ssh
 # access and the remote account must have password-free sudo ability.
 # (The intent is that isolating the host like this to be a CAVS test
 # unit means that simple device access at root is acceptable.)
 #
 # The signing key must be correct for your device.  In general we want
 # to be using the SOF-curated "community" keys.  Note that cAVS 2.5
 # uses a different (longer) key than the earlier platforms.
 #
 # CAVS_RIMAGE must be the path to a current, checked out and built (!)
 # rimage tool from SOF: https://github.com/thesofproject/rimage
 #
 # Alternatively, pass a built "zephyr.elf" file (in a complete build
 # tree, not just a standalone file) as the single argument and the
 # script will synchronously flash the device and begin emitting its
 # logs to standard output.
 #
 # Implementation notes:
 #
 # Twister has frustrating runtime behavior with this device.  The
 # flash tool is run via west as part of the build, has a working
 # directory in the build tree, and is passed the build directory as
 # its command line argument.  The console/serial tool is run globally
 # in $ZEPHYR_BASE.  But the console script has no arguments, and thus
 # can't find the test directory!  And worse, the scripts are
 # asynchronous and may start in either order, but our console script
 # can't be allowed to run until after the flash.  If it does, it will
 # pull old data (from the last test run!)  out of the buffer and
 # confuse twister.
 #
 # So the solution here is to have the console script do the trace
 # reading AND the flashing.  The flash script merely signs the binary
 # and places it into ZEPHYR_BASE for the console script to find.  The
 # console script then just has to wait for the binary to appear (which
 # solves the ordering problem), flash it, delete it (so as not to
 # confuse the next test run), and emit the adsplog output as expected.
 #
 # And notice the race protection: it's possible twister will run a
 # signing script IMMEDIATELY, simultaneous with the last flash script.
 # This may thus clobber the version that the other script hasn't seen
 # yet.  So we add an extra wait step in the signing path for the
 # loader to "accept" the file.
 #
 ########################################################################

 # Three configuration variables to set.  Have to be passed via the
 # environment because this script is launched from twister.

 if [ -z "$CAVS_HOST" -o -z "$CAVS_KEY" -o -z "$CAVS_RIMAGE" ]; then
     echo "Missing cavstwist.sh configuration, must have:" 1>&2
     echo "  export CAVS_HOST=ssh_host_name[:port]" 1>&2
     echo "  export CAVS_KEY=/path/to/signing_key.pem" 1>&2
     echo "  export CAVS_RIMAGE=/path/to/built/rimage/dir" 1>&2
     exit 1
 fi

 ########################################################################

 CAVSTOOL=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstool.py
 IMAGE=$ZEPHYR_BASE/_cavstmp.ri
 IMAGE2=$ZEPHYR_BASE/_cavstmp2.ri

 if [ "$1" = "" ]; then
     # Twister --device-serial-pty mode
     DO_LOAD=1
 elif [ "$(basename $1)" = "zephyr.elf" ]; then
     # Standalone mode (argument is a path to zephyr.elf)
     BLDDIR=$(dirname $(dirname $1))
     DO_SIGN=1
     DO_LOAD=1
 else
     # Twister --west-flash mode
     BLDDIR=$1
     DO_SIGN=1
 fi

 if [ "$DO_SIGN" = "1" ]; then
     # Wait for the last flasher to accept the old file
     while [ -e $IMAGE ]; do
 	sleep 0.1
     done

     ELF=$BLDDIR/zephyr/zephyr.elf.mod
     BOOT=$BLDDIR/zephyr/bootloader.elf.mod
     (cd $BLDDIR;
      west sign --tool-data=$CAVS_RIMAGE/config -t rimage -- -k $CAVS_KEY)
     cp $BLDDIR/zephyr/zephyr.ri $IMAGE
 fi

 if [ "$DO_LOAD" = "1" ]; then
     while [ ! -e $IMAGE ]; do
 	sleep 0.1
     done

     # Must "accept" the file so the next signing script knows it's OK
     # to write a new one
     mv $IMAGE $IMAGE2
     scp $IMAGE2 $CAVSTOOL scp://$CAVS_HOST
     rm -f $IMAGE2

     # Twister seems to overlap tests by a tiny bit, and of course the
     # remote system might have other junk running from manual testing.
     # If something is doing log reading at the moment of firmware
     # load, it tends fairly reliably to hang the DSP.  Kill it.
     ssh ssh://$CAVS_HOST "sudo pkill -9 -f cavstool" ||:

     exec ssh ssh://$CAVS_HOST "sudo ./$(basename $CAVSTOOL) $(basename $IMAGE2)"
 fi
	#!/bin/sh
	# Copyright (c) 2022 Intel Corporation
	# SPDX-License-Identifier: Apache-2.0
	set -e

	# Twister integration tool for a remote ssh-accessible cAVS audio DSP
	# host (e.g. an Up Squared board running Linux). Can be used as the
	# hook for both --device-serial-pty and --west-flash, for example:
	#
	# export CAVS_OLD_FLASHER=1
	# export CAVS_HOST=tgl2
	# export CAVS_KEY=$HOME/otc_private_key_3k.pem
	# export CAVS_RIMAGE=$HOME/rimage
	#
	# twister -p intel_adsp_cavs25 --device-testing \
	# --device-serial-pty=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstwist.sh \
	# --west-flash=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstwist.sh
	#
	# The CAVS_OLD_FLASHER is necessary because now the client-server-based
	# cavstool works by default. This is to tell the build system to use
	# the misc-flasher as the runner. Please remember to do the command
	# "unset CAVS_OLD_FLASHER" when you are going to switch to the
	# client-server-based intel_adsp runner.
	#
	# The device at CAVS_HOST must be accessible via non-interactive ssh
	# access and the remote account must have password-free sudo ability.
	# (The intent is that isolating the host like this to be a CAVS test
	# unit means that simple device access at root is acceptable.)
	#
	# The signing key must be correct for your device. In general we want
	# to be using the SOF-curated "community" keys. Note that cAVS 2.5
	# uses a different (longer) key than the earlier platforms.
	#
	# CAVS_RIMAGE must be the path to a current, checked out and built (!)
	# rimage tool from SOF: https://github.com/thesofproject/rimage
	#
	# Alternatively, pass a built "zephyr.elf" file (in a complete build
	# tree, not just a standalone file) as the single argument and the
	# script will synchronously flash the device and begin emitting its
	# logs to standard output.
	#
	# Implementation notes:
	#
	# Twister has frustrating runtime behavior with this device. The
	# flash tool is run via west as part of the build, has a working
	# directory in the build tree, and is passed the build directory as
	# its command line argument. The console/serial tool is run globally
	# in $ZEPHYR_BASE. But the console script has no arguments, and thus
	# can't find the test directory! And worse, the scripts are
	# asynchronous and may start in either order, but our console script
	# can't be allowed to run until after the flash. If it does, it will
	# pull old data (from the last test run!) out of the buffer and
	# confuse twister.
	#
	# So the solution here is to have the console script do the trace
	# reading AND the flashing. The flash script merely signs the binary
	# and places it into ZEPHYR_BASE for the console script to find. The
	# console script then just has to wait for the binary to appear (which
	# solves the ordering problem), flash it, delete it (so as not to
	# confuse the next test run), and emit the adsplog output as expected.
	#
	# And notice the race protection: it's possible twister will run a
	# signing script IMMEDIATELY, simultaneous with the last flash script.
	# This may thus clobber the version that the other script hasn't seen
	# yet. So we add an extra wait step in the signing path for the
	# loader to "accept" the file.
	#
	########################################################################

	# Three configuration variables to set. Have to be passed via the
	# environment because this script is launched from twister.

	if [ -z "$CAVS_HOST" -o -z "$CAVS_KEY" -o -z "$CAVS_RIMAGE" ]; then
	echo "Missing cavstwist.sh configuration, must have:" 1>&2
	echo " export CAVS_HOST=ssh_host_name[:port]" 1>&2
	echo " export CAVS_KEY=/path/to/signing_key.pem" 1>&2
	echo " export CAVS_RIMAGE=/path/to/built/rimage/dir" 1>&2
	exit 1
	fi

	########################################################################

	CAVSTOOL=$ZEPHYR_BASE/soc/xtensa/intel_adsp/tools/cavstool.py
	IMAGE=$ZEPHYR_BASE/_cavstmp.ri
	IMAGE2=$ZEPHYR_BASE/_cavstmp2.ri

	if [ "$1" = "" ]; then
	# Twister --device-serial-pty mode
	DO_LOAD=1
	elif [ "$(basename $1)" = "zephyr.elf" ]; then
	# Standalone mode (argument is a path to zephyr.elf)
	BLDDIR=$(dirname $(dirname $1))
	DO_SIGN=1
	DO_LOAD=1
	else
	# Twister --west-flash mode
	BLDDIR=$1
	DO_SIGN=1
	fi

	if [ "$DO_SIGN" = "1" ]; then
	# Wait for the last flasher to accept the old file
	while [ -e $IMAGE ]; do
	sleep 0.1
	done

	ELF=$BLDDIR/zephyr/zephyr.elf.mod
	BOOT=$BLDDIR/zephyr/bootloader.elf.mod
	(cd $BLDDIR;
	west sign --tool-data=$CAVS_RIMAGE/config -t rimage -- -k $CAVS_KEY)
	cp $BLDDIR/zephyr/zephyr.ri $IMAGE
	fi

	if [ "$DO_LOAD" = "1" ]; then
	while [ ! -e $IMAGE ]; do
	sleep 0.1
	done

	# Must "accept" the file so the next signing script knows it's OK
	# to write a new one
	mv $IMAGE $IMAGE2
	scp $IMAGE2 $CAVSTOOL scp://$CAVS_HOST
	rm -f $IMAGE2

	# Twister seems to overlap tests by a tiny bit, and of course the
	# remote system might have other junk running from manual testing.
	# If something is doing log reading at the moment of firmware
	# load, it tends fairly reliably to hang the DSP. Kill it.
	ssh ssh://$CAVS_HOST "sudo pkill -9 -f cavstool" \|\|:

	exec ssh ssh://$CAVS_HOST "sudo ./$(basename $CAVSTOOL) $(basename $IMAGE2)"
	fi