diff options
Diffstat (limited to 'import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers')
4 files changed, 259 insertions, 0 deletions
diff --git a/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/__init__.py b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/__init__.py new file mode 100644 index 000000000..e69de29bb --- /dev/null +++ b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/__init__.py diff --git a/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/beaglebonetarget.py b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/beaglebonetarget.py new file mode 100644 index 000000000..0f1aeb398 --- /dev/null +++ b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/beaglebonetarget.py @@ -0,0 +1,98 @@ +# Copyright (C) 2014 Intel Corporation +# +# Released under the MIT license (see COPYING.MIT) + +# This module adds support to testimage.bbclass to deploy images and run +# tests on a BeagleBone (original "white" or Black models). The device must +# be set up as per README.hardware and the master image should be deployed +# onto the card so that it boots into it by default. For booting into the +# image under test we interact with u-boot over serial, so for the +# BeagleBone Black you will need an additional TTL serial cable since a +# serial interface isn't automatically provided over the USB connection as +# it is on the original BeagleBone ("white") version. The separate ext3 +# partition that will contain the image to be tested must be labelled +# "testrootfs" so that the deployment code below can find it. +# +# NOTE: for the BeagleBone "white" (original version) you may need to use +# a script which handles the serial device disappearing on power down, such +# as scripts/contrib/serdevtry in OE-Core. + +import os +import bb +import time +import subprocess +import sys +import pexpect + +import oeqa.utils.sshcontrol as sshcontrol +from oeqa.controllers.masterimage import MasterImageHardwareTarget + + +class BeagleBoneTarget(MasterImageHardwareTarget): + + dtbs = {'uImage-am335x-bone.dtb': 'am335x-bone.dtb', 'uImage-am335x-boneblack.dtb': 'am335x-boneblack.dtb'} + + @classmethod + def get_extra_files(self): + return list(self.dtbs.keys()) + + def __init__(self, d): + super(BeagleBoneTarget, self).__init__(d) + + self.image_fstype = self.get_image_fstype(d) + self.deploy_cmds = [ + 'mkdir -p /mnt/testrootfs', + 'mount -L testrootfs /mnt/testrootfs', + 'rm -rf /mnt/testrootfs/*', + 'tar xvf ~/test-rootfs.%s -C /mnt/testrootfs' % self.image_fstype, + '[ -e /mnt/testrootfs/boot/uImage ] || [ -L /mnt/testrootfs/boot/uImage ] || cp ~/test-kernel /mnt/testrootfs/boot/uImage', + ] + + for _, dtbfn in self.dtbs.iteritems(): + # Kernel and dtb files may not be in the image, so copy them if not + self.deploy_cmds.append('[ -e /mnt/testrootfs/boot/{0} ] || cp ~/{0} /mnt/testrootfs/boot/'.format(dtbfn)) + + if not self.serialcontrol_cmd: + bb.fatal("This TEST_TARGET needs a TEST_SERIALCONTROL_CMD defined in local.conf.") + + + def _deploy(self): + self.master.run("umount /boot; umount /mnt/testrootfs;") + self.master.ignore_status = False + # Kernel and dtb files may not be in the image, so copy them just in case + self.master.copy_to(self.kernel, "~/test-kernel") + kernelpath = os.path.dirname(self.kernel) + for dtborig, dtbfn in self.dtbs.iteritems(): + dtbfile = os.path.join(kernelpath, dtborig) + if os.path.exists(dtbfile): + self.master.copy_to(dtbfile, "~/%s" % dtbfn) + self.master.copy_to(self.rootfs, "~/test-rootfs.%s" % self.image_fstype) + for cmd in self.deploy_cmds: + self.master.run(cmd) + + def _start(self, params=None): + self.power_cycle(self.master) + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + # We'd wait for "U-Boot" here but sometimes we connect too late on BeagleBone white to see it + serialconn.expect("NAND:") + serialconn.expect("MMC:") + serialconn.sendline("a") + serialconn.expect("U-Boot#") + serialconn.sendline("setenv bootpart 0:3") + serialconn.expect("U-Boot#") + serialconn.sendline("setenv mmcroot /dev/mmcblk0p3 ro") + serialconn.expect("U-Boot#") + serialconn.sendline("boot") + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) + + def _wait_until_booted(self): + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) diff --git a/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/edgeroutertarget.py b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/edgeroutertarget.py new file mode 100644 index 000000000..b3338ca85 --- /dev/null +++ b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/edgeroutertarget.py @@ -0,0 +1,90 @@ +# Copyright (C) 2014 Intel Corporation +# +# Released under the MIT license (see COPYING.MIT) + +# This module adds support to testimage.bbclass to deploy images and run +# tests on a Ubiquiti Networks EdgeRouter Lite. The device must be set up +# to boot into the master image already - the easiest way to do that is as +# follows: +# +# 1. Take out the internal USB drive and plug it into your PC +# 2. Repartition the USB drive so that you have three partitions in this +# order: +# 1: vfat, labelled "boot" (it will need to be formatted with mkfs.vfat +# for this to be possible, since FAT partitions formatted under +# DOS/Windows will only support uppercase labels) +# 2: ext3 (for master image) labelled "testmaster" +# 3: ext3 (for image under test) labelled "testrootfs" +# 3. Copy the kernel to be used by the master image to the FAT partition +# (it should be named "vmlinux.64" with the factory u-boot configuration) +# 4. Install the master image onto the "testmaster" ext3 partition. If +# you do this by just extracting the contents of an image onto the +# partition, you will also likely need to create the master image marker +# file /etc/masterimage within this partition so that we can tell when +# we're booted into it that it is the master image. +# 5. Put the USB drive back into the device, and ensure the console port +# and first ethernet port are connected before powering on +# +# TEST_SERIALCONTROL_CMD will need to be set in local.conf so that we can +# interact with u-boot over the serial console port. + +import os +import bb +import time +import subprocess +import sys +import pexpect + +import oeqa.utils.sshcontrol as sshcontrol +from oeqa.controllers.masterimage import MasterImageHardwareTarget + + +class EdgeRouterTarget(MasterImageHardwareTarget): + + def __init__(self, d): + super(EdgeRouterTarget, self).__init__(d) + + self.image_fstype = self.get_image_fstype(d) + self.deploy_cmds = [ + 'mount -L boot /boot', + 'mkdir -p /mnt/testrootfs', + 'mount -L testrootfs /mnt/testrootfs', + 'cp ~/test-kernel /boot', + 'rm -rf /mnt/testrootfs/*', + 'tar xvf ~/test-rootfs.%s -C /mnt/testrootfs' % self.image_fstype + ] + if not self.serialcontrol_cmd: + bb.fatal("This TEST_TARGET needs a TEST_SERIALCONTROL_CMD defined in local.conf.") + + + def _deploy(self): + self.master.run("umount /mnt/testrootfs;") + self.master.ignore_status = False + self.master.copy_to(self.kernel, "~/test-kernel") + self.master.copy_to(self.rootfs, "~/test-rootfs.%s" % self.image_fstype) + for cmd in self.deploy_cmds: + self.master.run(cmd) + + def _start(self, params=None): + self.power_cycle(self.master) + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + serialconn.expect("U-Boot") + serialconn.sendline("a") + serialconn.expect("Octeon ubnt_e100#") + serialconn.sendline("fatload usb 0:1 $loadaddr test-kernel") + serialconn.expect(" bytes read") + serialconn.expect("Octeon ubnt_e100#") + serialconn.sendline("bootoctlinux $loadaddr coremask=0x3 root=/dev/sda3 rw rootwait mtdparts=phys_mapped_flash:512k(boot0),512k(boot1),64k@3072k(eeprom)") + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) + + def _wait_until_booted(self): + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) diff --git a/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/grubtarget.py b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/grubtarget.py new file mode 100644 index 000000000..7bc807d2b --- /dev/null +++ b/import-layers/yocto-poky/meta-yocto-bsp/lib/oeqa/controllers/grubtarget.py @@ -0,0 +1,71 @@ +# Copyright (C) 2014 Intel Corporation +# +# Released under the MIT license (see COPYING.MIT) + +# This module adds support to testimage.bbclass to deploy images and run +# tests on a Generic PC that boots using grub bootloader. The device must +# be set up as per README.hardware and the master image should be deployed +# onto the harddisk so that it boots into it by default.For booting into the +# image under test we interact with grub over serial, so for the +# Generic PC you will need an additional serial cable and device under test +# needs to have a serial interface. The separate ext3 +# partition that will contain the image to be tested must be labelled +# "testrootfs" so that the deployment code below can find it. + +import os +import bb +import time +import subprocess +import sys +import pexpect + +import oeqa.utils.sshcontrol as sshcontrol +from oeqa.controllers.masterimage import MasterImageHardwareTarget + +class GrubTarget(MasterImageHardwareTarget): + + def __init__(self, d): + super(GrubTarget, self).__init__(d) + self.deploy_cmds = [ + 'mount -L boot /boot', + 'mkdir -p /mnt/testrootfs', + 'mount -L testrootfs /mnt/testrootfs', + 'cp ~/test-kernel /boot', + 'rm -rf /mnt/testrootfs/*', + 'tar xvf ~/test-rootfs.%s -C /mnt/testrootfs' % self.image_fstype, + ] + + if not self.serialcontrol_cmd: + bb.fatal("This TEST_TARGET needs a TEST_SERIALCONTROL_CMD defined in local.conf.") + + + def _deploy(self): + # make sure these aren't mounted + self.master.run("umount /boot; umount /mnt/testrootfs;") + self.master.ignore_status = False + # Kernel files may not be in the image, so copy them just in case + self.master.copy_to(self.rootfs, "~/test-rootfs." + self.image_fstype) + self.master.copy_to(self.kernel, "~/test-kernel") + for cmd in self.deploy_cmds: + self.master.run(cmd) + + def _start(self, params=None): + self.power_cycle(self.master) + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + serialconn.expect("GNU GRUB version 2.00") + serialconn.expect("Linux") + serialconn.sendline("x") + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) + + def _wait_until_booted(self): + try: + serialconn = pexpect.spawn(self.serialcontrol_cmd, env=self.origenv, logfile=sys.stdout) + serialconn.expect("login:", timeout=120) + serialconn.close() + except pexpect.ExceptionPexpect as e: + bb.fatal('Serial interaction failed: %s' % str(e)) + |
