netsurf/test/monkey_driver.py
Daniel Silverstone ee054db071
monkey: Excise sslcert and add loading blocking support
Signed-off-by: Daniel Silverstone <dsilvers@digital-scurf.org>
2020-05-22 09:15:27 +01:00

656 lines
21 KiB
Python
Executable File

#!/usr/bin/python3
#
# Copyright 2019 Daniel Silverstone <dsilvers@digital-scurf.org>
#
# This file is part of NetSurf, http://www.netsurf-browser.org/
#
# NetSurf is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; version 2 of the License.
#
# NetSurf is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
runs tests in monkey as defined in a yaml file
"""
# pylint: disable=locally-disabled, missing-docstring
import os
import sys
import getopt
import time
import yaml
from monkeyfarmer import Browser
class DriverBrowser(Browser):
def __init__(self, *args, **kwargs):
super(DriverBrowser, self).__init__(*args, **kwargs)
self.auth = []
def add_auth(self, url, realm, username, password):
self.auth.append((url, realm, username, password))
def remove_auth(self, url, realm, username, password):
keep = []
def matches(first, second):
if first is None or second is None:
return True
return first == second
for (iurl, irealm, iusername, ipassword) in self.auth:
if not (matches(url, iurl) or
matches(realm, irealm) or
matches(username, iusername) or
matches(password, ipassword)):
keep.append((iurl, irealm, iusername, ipassword))
self.auth = keep
def handle_ready_login(self, logwin):
# We have logwin.{url,username,password,realm}
# We must logwin.send_{username,password}(xxx)
# We may logwin.go()
# We may logwin.destroy()
def matches(first, second):
if first is None or second is None:
return True
return first == second
candidates = []
for (url, realm, username, password) in self.auth:
score = 0
if matches(url, logwin.url):
score += 1
if matches(realm, logwin.realm):
score += 1
if matches(username, logwin.username):
score += 1
if score > 0:
candidates.append((score, username, password))
if candidates:
candidates.sort()
(score, username, password) = candidates[-1]
print("401: Found candidate {}/{} with score {}".format(username, password, score))
logwin.send_username(username)
logwin.send_password(password)
logwin.go()
else:
print("401: No candidate found, cancelling login box")
logwin.destroy()
def print_usage():
print('Usage:')
print(' ' + sys.argv[0] + ' -m <path to monkey> -t <path to test> [-w <wrapper arguments>]')
def parse_argv(argv):
# pylint: disable=locally-disabled, unused-variable
path_monkey = ''
path_test = ''
wrapper = None
try:
opts, args = getopt.getopt(argv, "hm:t:w:", ["monkey=", "test=", "wrapper="])
except getopt.GetoptError:
print_usage()
sys.exit(2)
for opt, arg in opts:
if opt == '-h':
print_usage()
sys.exit()
elif opt in ("-m", "--monkey"):
path_monkey = arg
elif opt in ("-t", "--test"):
path_test = arg
elif opt in ("-w", "--wrapper"):
if wrapper is None:
wrapper = []
wrapper.extend(arg.split())
if path_monkey == '':
print_usage()
sys.exit()
if path_test == '':
print_usage()
sys.exit()
return path_monkey, path_test, wrapper
def load_test_plan(path):
# pylint: disable=locally-disabled, broad-except
plan = []
with open(path, 'r') as stream:
try:
plan = (yaml.load(stream, Loader=yaml.CSafeLoader))
except Exception as exc:
print(exc)
return plan
def get_indent(ctx):
return ' ' * ctx["depth"]
def print_test_plan_info(ctx, plan):
# pylint: disable=locally-disabled, unused-argument
print('Running test: [' + plan["group"] + '] ' + plan["title"])
def assert_browser(ctx):
assert ctx['browser'].started
assert not ctx['browser'].stopped
def conds_met(ctx, conds):
# for each condition listed determine if they have been met
# efectively this is condition1 | condition2
for cond in conds:
if 'timer' in cond.keys():
timer = cond['timer']
elapsed = cond['elapsed']
assert_browser(ctx)
assert ctx['timers'].get(timer) is not None
taken = time.time() - ctx['timers'][timer]["start"]
if taken >= elapsed:
return True
elif 'window' in cond.keys():
status = cond['status']
window = cond['window']
assert status == "complete" or status == "loading" # TODO: Add more status support?
if window == "*all*":
# all windows must be not throbbing
throbbing = False
for win in ctx['windows'].items():
if win[1].throbbing:
throbbing = True
# throbbing and want loading => true
# not throbbing and want complete => true
return (status == "loading") == throbbing
else:
win = ctx['windows'][window]
return win.throbbing == (status == "loading")
else:
raise AssertionError("Unknown condition: {}".format(repr(cond)))
return False
def run_test_step_action_launch(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
# ensure browser is not already launched
assert ctx.get('browser') is None
assert ctx.get('windows') is None
# build command line switches list
monkey_cmd = [ctx["monkey"]]
for option in step.get('launch-options', []):
monkey_cmd.append("--{}".format(option))
print(get_indent(ctx) + " " + "Command line: " + repr(monkey_cmd))
# build command environment
monkey_env = os.environ.copy()
for envkey, envvalue in step.get('environment', {}).items():
monkey_env[envkey] = envvalue
print(get_indent(ctx) + " " + envkey + "=" + envvalue)
if 'language' in step.keys():
monkey_env['LANGUAGE'] = step['language']
# create browser object
ctx['browser'] = DriverBrowser(
monkey_cmd=monkey_cmd,
monkey_env=monkey_env,
quiet=True,
wrapper=ctx.get("wrapper"))
assert_browser(ctx)
ctx['windows'] = dict()
# set user options
for option in step.get('options', []):
print(get_indent(ctx) + " " + option)
ctx['browser'].pass_options(option)
def run_test_step_action_window_new(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action: " + step["action"])
tag = step['tag']
assert_browser(ctx)
assert ctx['windows'].get(tag) is None
ctx['windows'][tag] = ctx['browser'].new_window(url=step.get('url'))
def run_test_step_action_window_close(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
assert ctx['windows'].get(tag) is not None
win = ctx['windows'].pop(tag)
timeout = int(step.get('timeout', 30))
win.kill()
win.wait_until_dead(timeout=timeout)
assert not win.alive
def run_test_step_action_navigate(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
if 'url' in step.keys():
url = step['url']
elif 'repeaturl' in step.keys():
repeat = ctx['repeats'].get(step['repeaturl'])
assert repeat is not None
assert repeat.get('values') is not None
url = repeat['values'][repeat['i']]
else:
url = None
assert url is not None
tag = step['window']
print(get_indent(ctx) + " " + tag + " --> " + url)
win = ctx['windows'].get(tag)
assert win is not None
win.go(url)
def run_test_step_action_stop(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
win = ctx['windows'].get(tag)
assert win is not None
win.stop()
def run_test_step_action_reload(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
win = ctx['windows'].get(tag)
assert win is not None
win.reload()
def run_test_step_action_sleep_ms(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
conds = step.get('conditions', {})
sleep_time = step['time']
sleep = 0
have_repeat = False
if isinstance(sleep_time, str):
assert ctx['repeats'].get(sleep_time) is not None
repeat = ctx['repeats'].get(sleep_time)
sleep = repeat["i"] / 1000
start = repeat["start"]
have_repeat = True
else:
sleep = sleep_time / 1000
start = time.time()
while True:
slept = time.time() - start
if conds_met(ctx, conds):
if have_repeat:
ctx['repeats'][sleep_time]["loop"] = False
print(get_indent(ctx) + " Condition met after {}s".format(slept))
break
elif slept > sleep:
print(get_indent(ctx) + " Condition not met after {}s".format(sleep))
break
else:
ctx['browser'].farmer.loop(once=True)
def run_test_step_action_block(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
conds = step['conditions']
assert_browser(ctx)
while not conds_met(ctx, conds):
ctx['browser'].farmer.loop(once=True)
def run_test_step_action_repeat(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
tag = step['tag']
assert ctx['repeats'].get(tag) is None
# initialise the loop continue conditional
ctx['repeats'][tag] = {"loop": True, }
if 'values' in step.keys():
# value iterator
ctx['repeats'][tag]['values'] = step["values"]
ctx['repeats'][tag]["max"] = len(step["values"])
ctx['repeats'][tag]["i"] = 0
ctx['repeats'][tag]["step"] = 1
else:
# numeric iterator
ctx['repeats'][tag]['values'] = None
if 'min' in step.keys():
ctx['repeats'][tag]["i"] = step["min"]
else:
ctx['repeats'][tag]["i"] = 0
if 'step' in step.keys():
ctx['repeats'][tag]["step"] = step["step"]
else:
ctx['repeats'][tag]["step"] = 1
if 'max' in step.keys():
ctx['repeats'][tag]["max"] = step["max"]
else:
ctx['repeats'][tag]["max"] = None
while ctx['repeats'][tag]["loop"]:
ctx['repeats'][tag]["start"] = time.time()
ctx["depth"] += 1
# run through steps for this iteration
for stp in step["steps"]:
run_test_step(ctx, stp)
# increment iterator
ctx['repeats'][tag]["i"] += ctx['repeats'][tag]["step"]
# check for end condition
if ctx['repeats'][tag]["max"] is not None:
if ctx['repeats'][tag]["i"] >= ctx['repeats'][tag]["max"]:
ctx['repeats'][tag]["loop"] = False
ctx["depth"] -= 1
def run_test_step_action_click(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
win = ctx['windows'][step['window']]
targets = step['target']
if type(targets) == dict:
targets = [targets]
button = step.get('button', 'left').upper()
kind = step.get('kind', 'single').upper()
all_text_list = []
bitmaps = []
for plot in win.redraw():
if plot[0] == 'TEXT':
all_text_list.append((int(plot[2]), int(plot[4]), " ".join(plot[6:])))
if plot[0] == 'BITMAP':
bitmaps.append((int(plot[2]), int(plot[4]), int(plot[6]), int(plot[8])))
x = None
y = None
for target in targets:
if 'bitmap' in target:
if x is not None:
assert False, "Found more than one thing to click on, oh well"
bmap = int(target['bitmap'])
assert bmap < 0 or bmap >= len(bitmaps)
x = bitmaps[bmap][0] + bitmaps[bmap][2] / 2
y = bitmaps[bmap][1] + bitmaps[bmap][3] / 2
elif 'text' in target:
if x is not None:
assert False, "Found more than one thing to click on, oh well"
text = target['text']
for textentry in all_text_list:
if text in textentry[2]:
if x is not None:
assert False, "Text {} found more than once".format(text)
x = textentry[0] + 2
y = textentry[1] + 2
# Now we want to click on the x/y coordinate given
print(get_indent(ctx) + " Clicking at {}, {} (button={} kind={})".format(x, y, button, kind))
win.click(x, y, button, kind)
def run_test_step_action_wait_loading(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
win = ctx['windows'][step['window']]
win.wait_start_loading()
def run_test_step_action_plot_check(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
win = ctx['windows'][step['window']]
if 'checks' in step.keys():
checks = step['checks']
else:
checks = {}
all_text_list = []
bitmaps = []
for plot in win.redraw():
if plot[0] == 'TEXT':
all_text_list.extend(plot[6:])
if plot[0] == 'BITMAP':
bitmaps.append(plot[1:])
all_text = " ".join(all_text_list)
for check in checks:
if 'text-contains' in check.keys():
print(" Check {} in {}".format(repr(check['text-contains']), repr(all_text)))
assert check['text-contains'] in all_text
elif 'text-not-contains' in check.keys():
print(" Check {} NOT in {}".format(repr(check['text-not-contains']), repr(all_text)))
assert check['text-not-contains'] not in all_text
elif 'bitmap-count' in check.keys():
print(" Check bitmap count is {}".format(int(check['bitmap-count'])))
assert len(bitmaps) == int(check['bitmap-count'])
else:
raise AssertionError("Unknown check: {}".format(repr(check)))
def run_test_step_action_timer_start(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action: " + step["action"])
tag = step['timer']
assert_browser(ctx)
assert ctx['timers'].get(tag) is None
ctx['timers'][tag] = {}
ctx['timers'][tag]["start"] = time.time()
def run_test_step_action_timer_restart(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action: " + step["action"])
timer = step['timer']
assert_browser(ctx)
assert ctx['timers'].get(timer) is not None
taken = time.time() - ctx['timers'][timer]["start"]
print("{} {} restarted at: {:.2f}s".format(get_indent(ctx), timer, taken))
ctx['timers'][timer]["taken"] = taken
ctx['timers'][timer]["start"] = time.time()
def run_test_step_action_timer_stop(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
timer = step['timer']
assert_browser(ctx)
assert ctx['timers'].get(timer) is not None
taken = time.time() - ctx['timers'][timer]["start"]
print("{} {} took: {:.2f}s".format(get_indent(ctx), timer, taken))
ctx['timers'][timer]["taken"] = taken
def run_test_step_action_timer_check(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action: " + step["action"])
condition = step["condition"].split()
assert len(condition) == 3
timer1 = ctx['timers'].get(condition[0])
timer2 = ctx['timers'].get(condition[2])
assert timer1 is not None
assert timer2 is not None
assert timer1["taken"] is not None
assert timer2["taken"] is not None
assert condition[1] in ('<', '>')
if condition[1] == '<':
assert timer1["taken"] < timer2["taken"]
elif condition[1] == '>':
assert timer1["taken"] > timer2["taken"]
def run_test_step_action_add_auth(ctx, step):
print(get_indent(ctx) + "Action:" + step["action"])
assert_browser(ctx)
browser = ctx['browser']
browser.add_auth(step.get("url"), step.get("realm"),
step.get("username"), step.get("password"))
def run_test_step_action_remove_auth(ctx, step):
# pylint: disable=locally-disabled, invalid-name
print(get_indent(ctx) + "Action:" + step["action"])
assert_browser(ctx)
browser = ctx['browser']
browser.remove_auth(step.get("url"), step.get("realm"),
step.get("username"), step.get("password"))
def run_test_step_action_clear_log(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
print(get_indent(ctx) + " " + tag + " Log cleared")
win = ctx['windows'].get(tag)
assert win is not None
win.clear_log()
def run_test_step_action_wait_log(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
source = step.get('source')
foldable = step.get('foldable')
level = step.get('level')
substr = step.get('substring')
print(get_indent(ctx) + " " + tag + " Wait for logging")
win = ctx['windows'].get(tag)
assert win is not None
win.wait_for_log(source=source, foldable=foldable, level=level, substr=substr)
def run_test_step_action_js_exec(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
cmd = step['cmd']
print(get_indent(ctx) + " " + tag + " Run " + cmd)
win = ctx['windows'].get(tag)
assert win is not None
win.js_exec(cmd)
def run_test_step_action_page_info_state(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
tag = step['window']
win = ctx['windows'].get(tag)
assert win is not None
match = step['match']
assert win.page_info_state == match
def run_test_step_action_quit(ctx, step):
print(get_indent(ctx) + "Action: " + step["action"])
assert_browser(ctx)
browser = ctx.pop('browser')
assert browser.quit_and_wait()
# clean up context as all windows have gone away after browser quit
ctx.pop('windows')
STEP_HANDLERS = {
"launch": run_test_step_action_launch,
"window-new": run_test_step_action_window_new,
"window-close": run_test_step_action_window_close,
"navigate": run_test_step_action_navigate,
"reload": run_test_step_action_reload,
"stop": run_test_step_action_stop,
"sleep-ms": run_test_step_action_sleep_ms,
"block": run_test_step_action_block,
"repeat": run_test_step_action_repeat,
"timer-start": run_test_step_action_timer_start,
"timer-restart": run_test_step_action_timer_restart,
"timer-stop": run_test_step_action_timer_stop,
"timer-check": run_test_step_action_timer_check,
"plot-check": run_test_step_action_plot_check,
"click": run_test_step_action_click,
"wait-loading": run_test_step_action_wait_loading,
"add-auth": run_test_step_action_add_auth,
"remove-auth": run_test_step_action_remove_auth,
"clear-log": run_test_step_action_clear_log,
"wait-log": run_test_step_action_wait_log,
"js-exec": run_test_step_action_js_exec,
"page-info-state":
run_test_step_action_page_info_state,
"quit": run_test_step_action_quit,
}
def run_test_step(ctx, step):
STEP_HANDLERS[step["action"]](ctx, step)
def walk_test_plan(ctx, plan):
ctx["depth"] = 0
ctx["timers"] = dict()
ctx['repeats'] = dict()
for step in plan["steps"]:
run_test_step(ctx, step)
def run_test_plan(ctx, plan):
print_test_plan_info(ctx, plan)
walk_test_plan(ctx, plan)
def run_preloaded_test(path_monkey, plan):
ctx = {
"monkey": path_monkey,
}
run_test_plan(ctx, plan)
def main(argv):
ctx = {}
path_monkey, path_test, wrapper = parse_argv(argv)
plan = load_test_plan(path_test)
ctx["monkey"] = path_monkey
ctx["wrapper"] = wrapper
run_test_plan(ctx, plan)
# Some python weirdness to get to main().
if __name__ == "__main__":
main(sys.argv[1:])