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gradelib.py
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gradelib.py
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import sys, os, re, time, socket, select, subprocess, errno, shutil
from subprocess import check_call, Popen
from optparse import OptionParser
__all__ = []
##################################################################
# Test structure
#
__all__ += ["test", "end_part", "run_tests", "get_current_test"]
TESTS = []
TOTAL = POSSIBLE = 0
PART_TOTAL = PART_POSSIBLE = 0
CURRENT_TEST = None
def test(points, title=None, parent=None):
"""Decorator for declaring test functions. If title is None, the
title of the test will be derived from the function name by
stripping the leading "test_" and replacing underscores with
spaces."""
def register_test(fn, title=title):
if not title:
assert fn.func_name.startswith("test_")
title = fn.func_name[5:].replace("_", " ")
if parent:
title = " " + title
def run_test():
global TOTAL, POSSIBLE, CURRENT_TEST
# Handle test dependencies
if run_test.complete:
return
run_test.complete = True
if parent:
parent()
# Run the test
fail = None
start = time.time()
CURRENT_TEST = run_test
sys.stdout.write("%s: " % title)
sys.stdout.flush()
try:
fn()
except AssertionError, e:
fail = str(e)
# Display and handle test result
POSSIBLE += points
if points:
print "%s" % \
(color("red", "FAIL") if fail else color("green", "OK")),
if time.time() - start > 0.1:
print "(%.1fs)" % (time.time() - start),
print
if fail:
print " %s" % fail.replace("\n", "\n ")
else:
TOTAL += points
for callback in run_test.on_finish:
callback(fail)
CURRENT_TEST = None
# Record test metadata on the test wrapper function
run_test.func_name = fn.func_name
run_test.title = title
run_test.complete = False
run_test.on_finish = []
TESTS.append(run_test)
return run_test
return register_test
def end_part(name):
def show_part():
global PART_TOTAL, PART_POSSIBLE
print "Part %s score: %d/%d" % \
(name, TOTAL - PART_TOTAL, POSSIBLE - PART_POSSIBLE)
print
PART_TOTAL, PART_POSSIBLE = TOTAL, POSSIBLE
show_part.title = ""
TESTS.append(show_part)
def run_tests():
"""Set up for testing and run the registered test functions."""
# Handle command line
global options
parser = OptionParser(usage="usage: %prog [-v] [filters...]")
parser.add_option("-v", "--verbose", action="store_true",
help="print commands")
parser.add_option("--color", choices=["never", "always", "auto"],
default="auto", help="never, always, or auto")
(options, args) = parser.parse_args()
# Start with a full build to catch build errors
make()
# Clean the file system if there is one
reset_fs()
# Run tests
limit = map(str.lower, args)
try:
for test in TESTS:
if not limit or any(l in test.title.lower() for l in limit):
test()
if not limit:
print "Score: %d/%d" % (TOTAL, POSSIBLE)
except KeyboardInterrupt:
pass
if TOTAL < POSSIBLE:
sys.exit(1)
def get_current_test():
if not CURRENT_TEST:
raise RuntimeError("No test is running")
return CURRENT_TEST
##################################################################
# Assertions
#
__all__ += ["assert_equal", "assert_lines_match"]
def assert_equal(got, expect, msg=""):
if got == expect:
return
if msg:
msg += "\n"
raise AssertionError("%sgot:\n %s\nexpected:\n %s" %
(msg, str(got).replace("\n", "\n "),
str(expect).replace("\n", "\n ")))
def assert_lines_match(text, *regexps, **kw):
"""Assert that all of regexps match some line in text. If a 'no'
keyword argument is given, it must be a list of regexps that must
*not* match any line in text."""
def assert_lines_match_kw(no=[]):
return no
no = assert_lines_match_kw(**kw)
# Check text against regexps
lines = text.splitlines()
good = set()
bad = set()
for i, line in enumerate(lines):
if any(re.match(r, line) for r in regexps):
good.add(i)
regexps = [r for r in regexps if not re.match(r, line)]
if any(re.match(r, line) for r in no):
bad.add(i)
if not regexps and not bad:
return
# We failed; construct an informative failure message
show = set()
for lineno in good.union(bad):
for offset in range(-2, 3):
show.add(lineno + offset)
if regexps:
show.update(n for n in range(len(lines) - 5, len(lines)))
msg = []
last = -1
for lineno in sorted(show):
if 0 <= lineno < len(lines):
if lineno != last + 1:
msg.append("...")
last = lineno
msg.append("%s %s" % (color("red", "BAD ") if lineno in bad else
color("green", "GOOD") if lineno in good
else " ",
lines[lineno]))
if last != len(lines) - 1:
msg.append("...")
if bad:
msg.append("unexpected lines in output")
for r in regexps:
msg.append(color("red", "MISSING") + " '%s'" % r)
raise AssertionError("\n".join(msg))
##################################################################
# Utilities
#
__all__ += ["make", "maybe_unlink", "reset_fs", "color"]
MAKE_TIMESTAMP = 0
def pre_make():
"""Delay prior to running make to ensure file mtimes change."""
while int(time.time()) == MAKE_TIMESTAMP:
time.sleep(0.1)
def post_make():
"""Record the time after make completes so that the next run of
make can be delayed if needed."""
global MAKE_TIMESTAMP
MAKE_TIMESTAMP = int(time.time())
def make(*target):
pre_make()
if Popen(("make",) + target).wait():
sys.exit(1)
post_make()
def show_command(cmd):
from pipes import quote
print "\n$", " ".join(map(quote, cmd))
def maybe_unlink(*paths):
for path in paths:
try:
os.unlink(path)
except EnvironmentError, e:
if e.errno != errno.ENOENT:
raise
COLORS = {"default": "\033[0m", "red": "\033[31m", "green": "\033[32m"}
def color(name, text):
if options.color == "always" or (options.color == "auto" and os.isatty(1)):
return COLORS[name] + text + COLORS["default"]
return text
def reset_fs():
if os.path.exists("obj/fs/clean-fs.img"):
shutil.copyfile("obj/fs/clean-fs.img", "obj/fs/fs.img")
##################################################################
# Controllers
#
__all__ += ["QEMU", "GDBClient"]
class QEMU(object):
_GDBPORT = None
def __init__(self, *make_args):
# Check that QEMU is not currently running
try:
GDBClient(self.get_gdb_port(), timeout=0).close()
except socket.error:
pass
else:
print >> sys.stderr, """\
GDB stub found on port %d.
QEMU appears to already be running. Please exit it if possible or use
'killall qemu' or 'killall qemu.real'.""" % self.get_gdb_port()
sys.exit(1)
if options.verbose:
show_command(("make",) + make_args)
cmd = ("make", "-s", "--no-print-directory") + make_args
self.proc = Popen(cmd, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
stdin=subprocess.PIPE)
self.output = ""
self.on_output = []
@staticmethod
def get_gdb_port():
if QEMU._GDBPORT is None:
p = Popen(["make", "-s", "--no-print-directory", "print-gdbport"],
stdout=subprocess.PIPE)
(out, _) = p.communicate()
if p.returncode:
raise RuntimeError(
"Failed to get gdbport: make exited with %d" %
p.returncode)
QEMU._GDBPORT = int(out)
return QEMU._GDBPORT
def fileno(self):
if self.proc:
return self.proc.stdout.fileno()
def handle_read(self):
buf = os.read(self.proc.stdout.fileno(), 4096)
self.output += buf
for callback in self.on_output:
callback(buf)
if buf == "":
self.wait()
return
def wait(self):
if self.proc:
self.proc.wait()
self.proc = None
class GDBClient(object):
def __init__(self, port, timeout=15):
start = time.time()
while True:
self.sock = socket.socket()
try:
self.sock.settimeout(1)
self.sock.connect(("localhost", port))
break
except socket.error:
if time.time() >= start + timeout:
raise
self.__buf = ""
def fileno(self):
if self.sock:
return self.sock.fileno()
def handle_read(self):
try:
data = self.sock.recv(4096)
except socket.error:
data = ""
if data == "":
self.sock.close()
self.sock = None
return
self.__buf += data
while True:
m = re.search(r"\$([^#]*)#[0-9a-zA-Z]{2}", self.__buf)
if not m:
break
pkt = m.group(1)
self.__buf = self.__buf[m.end():]
if pkt.startswith("T05"):
# Breakpoint
raise TerminateTest
def __send(self, cmd):
packet = "$%s#%02x" % (cmd, sum(map(ord, cmd)) % 256)
self.sock.sendall(packet)
def __send_break(self):
self.sock.sendall("\x03")
def close(self):
if self.sock:
self.sock.close()
def cont(self):
self.__send("c")
def breakpoint(self, addr):
self.__send("Z1,%x,1" % addr)
def kill(self):
self.__send_break()
self.__send("k")
##################################################################
# QEMU test runner
#
__all__ += ["TerminateTest", "Runner"]
class TerminateTest(Exception):
pass
class Runner():
def __init__(self, *default_monitors):
self.__default_monitors = default_monitors
def run_qemu(self, *monitors, **kw):
"""Run a QEMU-based test. monitors should functions that will
be called with this Runner instance once QEMU and GDB are
started. Typically, they should register callbacks that throw
TerminateTest when stop events occur. The target_base
argument gives the make target to run. The make_args argument
should be a list of additional arguments to pass to make. The
timeout argument bounds how long to run before returning."""
def run_qemu_kw(target_base="qemu", make_args=[], timeout=30):
return target_base, make_args, timeout
target_base, make_args, timeout = run_qemu_kw(**kw)
# Start QEMU
pre_make()
self.qemu = QEMU(target_base + "-nox-gdb", *make_args)
self.gdb = None
try:
# Wait for QEMU to start or make to fail. This will set
# self.gdb if QEMU starts.
self.qemu.on_output = [self.__monitor_start]
self.__react([self.qemu], timeout=30)
self.qemu.on_output = []
if self.gdb is None:
print "Failed to connect to QEMU; output:"
print self.qemu.output
sys.exit(1)
post_make()
# QEMU and GDB are up
self.reactors = [self.qemu, self.gdb]
# Start monitoring
for m in self.__default_monitors + monitors:
m(self)
# Run and react
self.gdb.cont()
self.__react(self.reactors, timeout)
finally:
# Shutdown QEMU
try:
if self.gdb is None:
sys.exit(1)
self.gdb.kill()
self.__react(self.reactors, 5)
self.gdb.close()
self.qemu.wait()
except:
print """\
Failed to shutdown QEMU. You might need to 'killall qemu' or
'killall qemu.real'.
"""
raise
def __monitor_start(self, output):
if "\n" in output:
try:
self.gdb = GDBClient(self.qemu.get_gdb_port(), timeout=2)
raise TerminateTest
except socket.error:
pass
if output == "":
raise TerminateTest
def __react(self, reactors, timeout):
deadline = time.time() + timeout
try:
while True:
timeleft = deadline - time.time()
if timeleft < 0:
sys.stdout.write("Timeout! ")
sys.stdout.flush()
return
rset = [r for r in reactors if r.fileno() is not None]
if not rset:
return
rset, _, _ = select.select(rset, [], [], timeleft)
for reactor in rset:
reactor.handle_read()
except TerminateTest:
pass
def user_test(self, binary, *monitors, **kw):
"""Run a user test using the specified binary. Monitors and
keyword arguments are as for run_qemu. This runs on a disk
snapshot unless the keyword argument 'snapshot' is False."""
maybe_unlink("obj/kern/init.o", "obj/kern/kernel")
if kw.pop("snapshot", True):
kw.setdefault("make_args", []).append("QEMUEXTRA+=-snapshot")
self.run_qemu(target_base="run-%s" % binary, *monitors, **kw)
def match(self, *args, **kwargs):
"""Shortcut to call assert_lines_match on the most recent QEMU
output."""
assert_lines_match(self.qemu.output, *args, **kwargs)
##################################################################
# Monitors
#
__all__ += ["save", "stop_breakpoint", "call_on_line", "stop_on_line"]
def save(path):
"""Return a monitor that writes QEMU's output to path. If the
test fails, copy the output to path.test-name."""
def setup_save(runner):
f.seek(0)
f.truncate()
runner.qemu.on_output.append(f.write)
get_current_test().on_finish.append(save_on_finish)
def save_on_finish(fail):
f.flush()
save_path = path + "." + get_current_test().func_name[5:]
if fail:
shutil.copyfile(path, save_path)
print " QEMU output saved to %s" % save_path
elif os.path.exists(save_path):
os.unlink(save_path)
print " (Old %s failure log removed)" % save_path
f = file(path, "w")
return setup_save
def stop_breakpoint(addr):
"""Returns a monitor that stops when addr is reached. addr may be
a number or the name of a symbol."""
def setup_breakpoint(runner):
if isinstance(addr, str):
addrs = [int(sym[:8], 16) for sym in file("obj/kern/kernel.sym")
if sym[11:].strip() == addr]
assert len(addrs), "Symbol %s not found" % addr
runner.gdb.breakpoint(addrs[0])
else:
runner.gdb.breakpoint(addr)
return setup_breakpoint
def call_on_line(regexp, callback):
"""Returns a monitor that calls 'callback' when QEMU prints a line
matching 'regexp'."""
def setup_call_on_line(runner):
buf = [""]
def handle_output(output, buf=buf):
buf[0] += output
while "\n" in buf[0]:
line, buf[0] = buf[0].split("\n", 1)
if re.match(regexp, line):
callback(line)
runner.qemu.on_output.append(handle_output)
return setup_call_on_line
def stop_on_line(regexp):
"""Returns a monitor that stops when QEMU prints a line matching
'regexp'."""
def stop(line):
raise TerminateTest
return call_on_line(regexp, stop)