Way too many classes have a dependency on the TestContext class, in
most cases only for is_verbose. This patch removes the dependency from
Process and Namespace classes.
For Process, the test arguments can be parsed in the class itself which
will allow for this class to be completely isolated into its own file.
The Namespace class was already relatively isolated. Both were moved
into utils.py which makes 'run-tests' quite a bit nicer to look at and
more fitting to its name.
This commonizes some mounting code between QEMU and UML to allow exporting
of files to the host environment. UML does this with a hostfs mount while
QEMU still uses 9p.
The common code sanitizing the inputs has been put into _prepare_outfiles
and _prepare_mounts was modified to take an 'extra' arugment containing
additional mount points.
The results and monitor parent directories are now passed into the environment
via arguments, and these are hidden from the help text (in addition to testhome)
If --help or unknown options were supplied to test-runner python
would thrown a maximum recusion depth exception. This was due to
the way ArgumentParser was subclassed.
To fix this call ArgumentParser.__init__() rather than using the
super() method. And do this also for the RunnerCoreArgParse
subclass as well. In addition the namespace argument was removed
from parse_args since its not used, and instead supplied directly
to the parents parse_args method.
With how fast UML is hostapd events were being sent out prior to
ever calling wait_for_event. Instead set an IO watch on the control
socket and cache all events as they come. Then, when wait_for_event
is called, it can reference this list. If the event is found any
older events are purged from the list.
The AP-ENABLED event needed a special case because hostapd gets
started before the IO watch can be registered. To fix this an
enabled property was added which queries the state directly. This
is checked first, and if not enabled wait_for_event continues normally.
This allows the callers condition to be checked immediately without
the mainloop running. In addition may_block=True allows the mainloop
to poll/sleep rather than immediately return back to the caller. This
handles async IO much better than may_block=False, at least for our
use-case.
Namespace process logs were appearing under 'ip' (and also overwriting
actual 'ip' logs) since they were executed with 'ip netns exec <namespace>'.
Instead special case this and append '-<namespace>' to the log file name.
In addition processes executed prior to any tests were being put under
a folder (name of testhome directory). Now this case is detected and these
logs are put at the top level log directory.
This allows test-runner to run inside a UML binary which has some
advantages, specifically time-travel/infinite CPU speed. This should
fix any scheduler related failures we have on slower systems.
Currently this runner does not suppor the same features as the Qemu
runner, specifically:
- No hardware passthrough
- No logging/monitor (UML -> host mounting isn't implemented yet)
In order to keep all test-runner dev scripts working and to work with
the new runner.py system some file renaming was required.
test-runner was renamed to run-tests
A new test-runner was added which only creates the Runner() class.
This (as well as subsequent commits) will separate test-runner into two
parts:
1. Environment setup
2. Running tests
Spurred by interest in adding UML/host support, test-runner was in need
of a refactor to separate out the environment setup and actually running
the tests.
The environment (currently only Qemu) requires quite a bit of special
handling (ctypes mounting/reboot, 9p mounts, tons of kernel options etc)
which nobody writing tests should need to see or care about. This has all
been moved into 'runner.py'.
Running the tests (inside test-runner) won't change much.
The new 'runner.py' module adds an abstraction class which allows different
Runner's to be implemented, and setup their own environment as they see
fit. This is in preparation for UML and Host runners.
It looks like some architectures defconfig were adding these in
automatically, but not others. Explicitly add these to make sure
the kernel is built correctly.
Base the root user check on os.getuid() instead of SUDO_GID so as not to
implicitly require sudo. SUDO_GID being set doesn't guarantee that the
effective user is root either since you can sudo to non-root accounts.
We check that config is not None but then access config.ctx outside of
that if block anyway. Then we do the same for config.ctx and
config.ctx.args. Nest the if blocks for the checks to be useful.
For quite a while test-runner has run into frequent OOM exceptions when
running many tests in a row. Its not completely known exactly why, but
seems to point to the 9p driver which is used for sharing the root fs
between the test-runner VM and the host.
With debugging enabled (-d) one can see the available memory available
relatively stable. If a test fails it may spike ~3-4kb but this quickly
recovers as python garbage collects.
At some point the kernel faults failing to allocate which (usually) is
shown by a python OOM exception. At this point there is plenty of
available memory.
Dumping the kernel trace its seen that the 9p driver is involved:
[ 248.962949] test-runner: page allocation failure: order:7, mode:0x40dc0(GFP_KERNEL|__GFP_COMP|__GFP_ZERO), nodemask=(null),cpuset=/,mems_allowed=0
[ 248.962958] CPU: 2 PID: 477 Comm: test-runner Not tainted 5.16.0 #91
[ 248.962960] Hardware name: QEMU Standard PC (Q35 + ICH9, 2009), BIOS 1.14.0-4.fc34 04/01/2014
[ 248.962961] Call Trace:
[ 248.962964] <TASK>
[ 248.962965] dump_stack_lvl+0x34/0x44
[ 248.962971] warn_alloc.cold+0x78/0xdc
[ 248.962975] ? __alloc_pages_direct_compact+0x14c/0x1e0
[ 248.962979] __alloc_pages_slowpath.constprop.0+0xbfe/0xc60
[ 248.962982] __alloc_pages+0x2d5/0x2f0
[ 248.962984] kmalloc_order+0x23/0x80
[ 248.962988] kmalloc_order_trace+0x14/0x80
[ 248.962990] v9fs_alloc_rdir_buf.isra.0+0x1f/0x30
[ 248.962994] v9fs_dir_readdir+0x51/0x1d0
[ 248.962996] ? __handle_mm_fault+0x6e0/0xb40
[ 248.962999] ? inode_security+0x1d/0x50
[ 248.963009] ? selinux_file_permission+0xff/0x140
[ 248.963011] iterate_dir+0x16f/0x1c0
[ 248.963014] __x64_sys_getdents64+0x7b/0x120
[ 248.963016] ? compat_fillonedir+0x150/0x150
[ 248.963019] do_syscall_64+0x3b/0x90
[ 248.963021] entry_SYSCALL_64_after_hwframe+0x44/0xae
[ 248.963024] RIP: 0033:0x7fedd7c6d8c7
[ 248.963026] Code: 00 00 0f 05 eb b7 66 2e 0f 1f 84 00 00 00 00 00 0f 1f 00 f3 0f 1e fa b8 ff ff ff 7f 48 39 c2 48 0f 47 d0 b8 d9 00 00 00 0f 05 <48> 3d 00 f0 ff ff 77 01 c3 48 8b 15 81 a5 0f 00 f7 d8 64 89 02 48
[ 248.963028] RSP: 002b:00007ffd06cd87e8 EFLAGS: 00000293 ORIG_RAX: 00000000000000d9
[ 248.963031] RAX: ffffffffffffffda RBX: 000056090d87dd20 RCX: 00007fedd7c6d8c7
[ 248.963032] RDX: 0000000000080000 RSI: 000056090d87dd50 RDI: 000000000000000f
[ 248.963033] RBP: 000056090d87dd50 R08: 0000000000000030 R09: 00007fedc7d37af0
[ 248.963035] R10: 00007fedc7d7d730 R11: 0000000000000293 R12: ffffffffffffff88
[ 248.963038] R13: 000056090d87dd24 R14: 0000000000000000 R15: 000056090d0485e8
Here its seen an allocation of 512k is being requested (order:7), but faults.
In this run it there was ~35MB of available memory on the system.
Available Memory: 35268 kB
Last Test Delta: -2624 kB
Per-test Usage:
[ 0] ** 37016
[ 1] ********* 41584
[ 2] * 36280
[ 3] ********* 41452
[ 4] ******** 40940
[ 5] ****** 39284
[ 6] **** 38348
[ 7] *** 37496
[ 8] **** 37892
[ 9] 35268
This can be reproduced by running all autotests (changing the ram down to
~128MB helps trigger it faster):
./tools/test-runner -k <kernel> -d
After many attempts to fix this it was finally found that simply removing the
explicit 9p2000.u version from the kernel command line 'fixed' the problem.
This even allows decreasing the RAM down to 256MB from 384MB and so far no
OOM's have been seen.
In debug mode the test context is printed before each test. This
adds some additional information in there:
Available Memory: /proc/meminfo: MemAvailable
Last Test Delta: Change in usage between current and last test
Per-test Usage: Graph of usage relative to all past tests. This is
useful for seeing a trend down/up of usage.
Running the tests inside a VM makes it difficult for the host to figure
out if the test actually failed or succeeded. For a human its easy to
read the results table, but for an automated system parsing this would
be fragile. This adds a new option --result <file> which writes PASS/FAIL
to the provided file once all tests are completed. Any failures results in
'FAIL' being written to the file.
Currently CreateRadio only allows a single outstanding DBus message
until the radio is fully created. 99% of the time this is just fine
but in order to test dual phy cards there needs to be support for
phy's appearing at the same time.
This required storing the pending DBus message inside the radio object
rather than a single static variable.
The code was refactored to handle the internal radio info objects better
for the various cases:
- Creation from CreateRadio()
- Radio already existed before hwsim started, or created externally
- Existing radio changed name, address, etc.
First, Name is now a required option to CreateRadio(). This allows
the radio info to be pushed to the queue immediately (also allowing the
pending DBus message to be tracked). Then, when the NEW_RADIO event
fires the pending radio can be looked up (by name) and filled with the
remaining info.
If the radio was not found by name but a matching ID was found this is
the 'changed' case and the radio is re-initialized with the changed
values.
If neither name or ID matches the radio was created externally, or
prior to hwsim starting. A radio info object is created at this time
and initialized.
The ID was changed to a signed integer in order to initialize it to an
invalid number -1. Doing this was required since a pending uninitalized
radio ID (0) could match an existing radio ID. This required some
bounds checks in case the kernels counter reaches an extremely high value.
This isn't likely to ever happen in practice.
This tool will decrypt an IWD network profile which was previously
encrypted using a systemd provided key. Either a text passphrase
can be provided (--pass) or a file containing the secret (--file).
This can be useful for debugging, or recovering an encrypted
profile after enabling SystemdEncrypt.
This is created by the python interpreter for speed optimization
but poses problems if copied to /tmp since previous tests may
have already copied it leading to an exception.
Right now hwsim blindly tries to forward broadcast/multicast frames to
all interfaces it knows about and relies on the kernel to reject the
forwarding attempt if the frequency does not match. This results in
multiple copies of the same message being added to the genl transmit
queue.
On slower systems this can cause a run-away memory consumption effect
where the queued messages are not processed in time prior to a new
message being received for forwarding. The likelyhood of this effect
manifesting itself is directly related to the number of hostapd
instances that are created and are beaconing simultaneously.
Try to optimize frame forwarding by not sending beacon frames
to those interfaces that are in AP mode (i.e. pure hostapd instances)
since such interfaces are going to be operating on a different frequency
and would not be interested in processing beacon frames anyway.
This optimization cuts down peak memory use during certain tests by 30x
or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
It appears different versions of pyroute2 may or may not have
iwutil, and instead use pyroute2.IW() directly. Try the iwutil
way first, then pyroute2.IW()
After namespaces were added, the dbus address was customized to
be /tmp/dbus{0..N}. This prevented any dbus applications started
in the shell from working properly.
Set DBUS_SYSTEM_BUS_ADDRESS to the environment prior to entering
the shell.