# # This file specifies defaults so the testcase running system knows # how to build Zephyr apps. # # It looks all like comments so that it can also put this stuff inside # Makefiles, shell scripts, python, C, etc... # # Things like: # ## ^COMMAND ARGUMENTS ## @COMMAND ARGUMENTS # # are what the parser looks for. ^COMMAND means that if it fails or # block, the list of COMMANDs will not continue being executed, @ # means the next commands still will be executed. Note the ## is so # that the parser doesn't interpret it as a command, as we are # documenting it. # Variables # --------- # # Every %(VARIABLE)s you are going to use or maybe override has to be # defined; otherwise it'll throw a KeyError exception on you. # # Some are pre-filled by the system (see below), but others are # user-defined and some test cases make use of it, so we define a # default value (empty) here: # # @var extra_args # Building # -------- # # - We need to put the output of the compilation on a directory # specific to the target and testcase we are building for because: # # - two targets, although the same hardware, might have differences # that could be or not specified in the target's tags. # # - multiple paralallel builds for the same testcase PATH with # different testcase names (especially those coming from # testcase.ini) files can collide with each other. # # - HACK: ARCH is specified, when it should not be needed to, because # of current limitations of the Zephyr build system on resolving # ARCH from the BOARD specification. This is an historical carry # over that eventually should be cleared # (https://jira.zephyrproject.org/browse/ZEP-690 and # https://jira.zephyrproject.org/browse/ZEP-754). # # Thus is the `%(tchash)s` substitution, which is a unique hash # for a combination of the testcase name, the target and the # bsp_model. # (1) Remove the existing config file # # Why? because otherwise, in some cases, 'silentoldconfig' tries # to update it with input from the user and fails. When it is not # needed. So before we start mucking with it, remove it. # # ^build \ # mkdir -p %(srcdir)s/outdir-%(tchash)s-%(board)s; \ # rm -f %(srcdir)s/outdir-%(tchash)s-%(board)s/.config # (2) prepare the configuration for Quark SE / ARC BSPs # # (2.1) If we are running both cores at the same time, make sure # ARC_INIT is set # # ^build [ quark_se_stub == 'yes' and bsp_model == 'x86+arc' ] \ # echo "# Generated by Zephyr's TCF defaults.tc" > %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.1.conf; \ # echo 'CONFIG_ARC_INIT=y' >> %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.1.conf # (2.2) On Quark SE, when running the x86 core only we need to make # sure the kernel doesn't wait for the ARC to initialize. # # @build [ quark_se_stub == 'yes' and bsp_model == 'x86' ] \ # echo "# Generated by Zephyr's TCF defaults.tc" > %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.2.conf; \ # echo 'CONFIG_ARC_INIT=n' >> %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.2.conf # (2.3) To run only in the ARC core in certain Quark SE platforms, we need a # stub in the x86 core to start the ARC CPU. # # It has to also be deployed, so we add said kernel to @images. # # (2.3.1) Arduino 101 # # @build [ type == "arduino101" and quark_se_stub == 'yes' and bsp_model == 'arc' ] \ # rm -f %(srcdir_abs)s/outdir-%(tchash)s-stub-x86-arduino_101/.config; \ # make -j -C $ZEPHYR_BASE/samples/stub \ # BOARD=arduino_101 ARCH=x86 \ # O=%(srcdir_abs)s/outdir-%(tchash)s-stub-x86-arduino_101 # # @images [ type == "arduino101" and quark_se_stub == 'yes' and bsp_model == 'arc'] \ # kernel-x86:%(srcdir)s/outdir-%(tchash)s-stub-x86-arduino_101/zephyr.bin # # (2.3.2) For Quark SE Devboard v1 # # @build [ type == "ah" and quark_se_stub == 'yes' and bsp_model == 'arc' ] \ # rm -f %(srcdir_abs)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard/.config; \ # make -j -C $ZEPHYR_BASE/samples/stub \ # BOARD=quark_se_c1000_devboard \ # O=%(srcdir_abs)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard # # @images [ type == "ah" and quark_se_stub == 'yes' and bsp_model == 'arc'] \ # kernel-x86:%(srcdir)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard/zephyr.bin # # (2.3.3) For Quark SE Devboard # # @build [ type == "ma" and quark_se_stub == 'yes' and bsp_model == 'arc' ] \ # rm -f %(srcdir_abs)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard/.config; \ # make -j -C $ZEPHYR_BASE/samples/stub \ # BOARD=quark_se_c1000_devboard \ # O=%(srcdir_abs)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard # # @images [ type == "ma" and quark_se_stub == 'yes' and bsp_model == 'arc'] \ # kernel-x86:%(srcdir)s/outdir-%(tchash)s-stub-x86-quark_se_c1000_devboard/zephyr.bin # # (2.3.4) When running the ARC in Quark SE, we redirect the output to the # UART_1 (the same as the x86) to simplify the test setup (no # need to connect multiple console cables) # # However, this makes it impossible to run independent test cases # at the same time (BSP model x86+arc) because they'd interfere # with each other. # # ^build [ quark_se_stub == 'yes' and bsp == 'arc' ] \ # echo "# Generated by Zephyr's TCF defaults.tc" > %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.3.4.conf; \ # echo 'CONFIG_UART_CONSOLE_ON_DEV_NAME="UART_1"' >> %(srcdir)s/outdir-%(tchash)s-%(board)s/tcf_2.3.4.conf # # (2.3.5) Quark SE: run test cases on x86 or ARC modes by default # # This applies to test cases that are designed to run only in # one core, as Quark SE will share one serial port in our test # setup and the outputs will conflict and be a mess. # # Test cases that need to run in both cores (BSP MODEl # x86+arc) can still request it by tagging '@targets # bsp_model:x86\+arc' # # @targets [ quark_se_stub == 'yes' ] bsp_model:^(x86|arc)$ # (3) Generate the initial configuration # # Because to filter which test cases we can run, we need to see if # a CONFIG option is enabled or not. # # ^build \ # make -j -C %(srcdir)s/ %(extra_args)s \ # BOARD=%(board)s ARCH=%(bsp)s O=outdir-%(tchash)s-%(board)s \ # initconfig # # Once we have the configuration generated, for Sanity Check test # cases (and others) evaluate if we have to run or not based on # configuration values. This is done by a Python function # (tcfl.tc_tci.action_eval_skip). This looks at CONFIG_ options # and decides if we are to skip for any reason. # # ^build @tcfl.tc_tci.action_eval_skip %(srcdir)s/outdir-%(tchash)s-%(board)s # (4) General build and deploy commands that apply to all platforms # # Note: we pass a RUNID that is a compositon of the RunID passed # with '-i' to 'tcf run' (if passed) TCHASH (which is # unique hash of the target and testcase name) -- this # ensures that succesive test cases ran in the same target # will have a different TC_RUNID. We will in # tests/.tcdefaults (when using TC_PRINT_RUNID / # TC_END_REPORT) to verify that the right image has been # deployed to the target. # # @build \ # make -j -C %(srcdir)s %(extra_args)s \ # KCPPFLAGS=-DTC_RUNID=%(runid)s:%(tchash)s \ # BOARD=%(board)s ARCH=%(bsp)s O=outdir-%(tchash)s-%(board)s # # And deploy the kernel we just built # # @images kernel-%(bsp)s:%(srcdir)s/outdir-%(tchash)s-%(board)s/%(kernelname)s # Cleaning up # ----------- # # This is only invoked when you give `--clean` or `-L` to `tcf run` # # @clean rm -rf %(srcdir)s/outdir-%(tchash)s-* # Evaluation of the test case # --------------------------- # # These are the steps performed to evaluate a test case / sample for # success in execution. In here we only list the general ones that # apply to all of them, but each testcase will have it's specific # ones. # # (1) In general, before evaluating, reset/power-cycle/resume the # target. # # `one-shot` means only once if we are running multiple BSPs and fail # inmediately if it doesn't work): # # ^eval [ type:"(?!^emsk.*)" ] target-reset one-shot # # EMSKs get their firmware loaded into RAM; if we do a full reset, # it is wiped, so we just do a raw reset (which means a CPU reset # in this case) and resume # # ^eval [ type:"^emsk.*" ] debug-reset-halt one-shot # ^eval [ type:"^emsk.*" ] debug-resume one-shot # # (2) Fail inmmediately (^) if we find these messages, that's bad # stuff happening in the kernel. # # ^eval console-rx %(console)s::fail USAGE FAULT # ^eval console-rx %(console)s::fail fatal fault in # # For testcases under tests/, the .tcdefaults in there adds more steps # to verify; test cases are picked up based on their # testcase.ini. Each test case is then free to add more, if # needed. Note than in samples, most of that information is going to # be in .tc files.