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autotest.py
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autotest.py
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#!/usr/bin/env python
# coding: utf-8
import click
import logging
import os
import random
import re
import select
import subprocess
import sys
import time
import uuid
import yaml
logging.basicConfig(level=os.environ.get("LOG_LEVEL", "INFO"))
TIMEOUT = 60 # 1 minute
# This one is not a constant. It's an ugly global.
IPADDR = None
class State(object):
def __init__(self):
self.clipboard = ""
self.interactive = True
self.verify_status = True
self.simulate_type = False
self.switch_desktop = False
self.sync_slides = False
self.open_links = False
self.run_hidden = True
self.slide = 1
self.snippet = 0
def load(self):
data = yaml.load(open("state.yaml"))
self.clipboard = str(data["clipboard"])
self.interactive = bool(data["interactive"])
self.verify_status = bool(data["verify_status"])
self.simulate_type = bool(data["simulate_type"])
self.switch_desktop = bool(data["switch_desktop"])
self.sync_slides = bool(data["sync_slides"])
self.open_links = bool(data["open_links"])
self.run_hidden = bool(data["run_hidden"])
self.slide = int(data["slide"])
self.snippet = int(data["snippet"])
def save(self):
with open("state.yaml", "w") as f:
yaml.dump(dict(
clipboard=self.clipboard,
interactive=self.interactive,
verify_status=self.verify_status,
simulate_type=self.simulate_type,
switch_desktop=self.switch_desktop,
sync_slides=self.sync_slides,
open_links=self.open_links,
run_hidden=self.run_hidden,
slide=self.slide,
snippet=self.snippet,
), f, default_flow_style=False)
state = State()
outfile = open("autopilot.log", "w")
def hrule():
return "="*int(subprocess.check_output(["tput", "cols"]))
# A "snippet" is something that the user is supposed to do in the workshop.
# Most of the "snippets" are shell commands.
# Some of them can be key strokes or other actions.
# In the markdown source, they are the code sections (identified by triple-
# quotes) within .exercise[] sections.
class Snippet(object):
def __init__(self, slide, content):
self.slide = slide
self.content = content
# Extract the "method" (e.g. bash, keys, ...)
# On multi-line snippets, the method is alone on the first line
# On single-line snippets, the data follows the method immediately
if '\n' in content:
self.method, self.data = content.split('\n', 1)
self.data = self.data.strip()
elif ' ' in content:
self.method, self.data = content.split(' ', 1)
else:
self.method, self.data = content, None
self.next = None
def __str__(self):
return self.content
class Slide(object):
current_slide = 0
def __init__(self, content):
self.number = Slide.current_slide
Slide.current_slide += 1
# Remove commented-out slides
# (remark.js considers ??? to be the separator for speaker notes)
content = re.split("\n\?\?\?\n", content)[0]
self.content = content
self.snippets = []
exercises = re.findall("\.exercise\[(.*)\]", content, re.DOTALL)
for exercise in exercises:
if "```" in exercise:
previous = None
for snippet_content in exercise.split("```")[1::2]:
snippet = Snippet(self, snippet_content)
if previous:
previous.next = snippet
previous = snippet
self.snippets.append(snippet)
else:
logging.warning("Exercise on slide {} does not have any ``` snippet."
.format(self.number))
self.debug()
def __str__(self):
text = self.content
for snippet in self.snippets:
text = text.replace(snippet.content, ansi("7")(snippet.content))
return text
def debug(self):
logging.debug("\n{}\n{}\n{}".format(hrule(), self.content, hrule()))
def focus_slides():
if not state.switch_desktop:
return
subprocess.check_output(["i3-msg", "workspace", "3"])
subprocess.check_output(["i3-msg", "workspace", "1"])
def focus_terminal():
if not state.switch_desktop:
return
subprocess.check_output(["i3-msg", "workspace", "2"])
subprocess.check_output(["i3-msg", "workspace", "1"])
def focus_browser():
if not state.switch_desktop:
return
subprocess.check_output(["i3-msg", "workspace", "4"])
subprocess.check_output(["i3-msg", "workspace", "1"])
def ansi(code):
return lambda s: "\x1b[{}m{}\x1b[0m".format(code, s)
# Sleeps the indicated delay, but interruptible by pressing ENTER.
# If interrupted, returns True.
def interruptible_sleep(t):
rfds, _, _ = select.select([0], [], [], t)
return 0 in rfds
def wait_for_string(s, timeout=TIMEOUT):
logging.debug("Waiting for string: {}".format(s))
deadline = time.time() + timeout
while time.time() < deadline:
output = capture_pane()
if s in output:
return
if interruptible_sleep(1): return
raise Exception("Timed out while waiting for {}!".format(s))
def wait_for_prompt():
logging.debug("Waiting for prompt.")
deadline = time.time() + TIMEOUT
while time.time() < deadline:
output = capture_pane()
# If we are not at the bottom of the screen, there will be a bunch of extra \n's
output = output.rstrip('\n')
last_line = output.split('\n')[-1]
# Our custom prompt on the VMs has two lines; the 2nd line is just '$'
if last_line == "$":
# This is a perfect opportunity to grab the node's IP address
global IPADDR
IPADDR = re.findall("\[(.*)\]", output, re.MULTILINE)[-1]
return
# When we are in an alpine container, the prompt will be "/ #"
if last_line == "/ #":
return
# We did not recognize a known prompt; wait a bit and check again
logging.debug("Could not find a known prompt on last line: {!r}"
.format(last_line))
if interruptible_sleep(1): return
raise Exception("Timed out while waiting for prompt!")
def check_exit_status():
if not state.verify_status:
return
token = uuid.uuid4().hex
data = "echo {} $?\n".format(token)
logging.debug("Sending {!r} to get exit status.".format(data))
send_keys(data)
time.sleep(0.5)
wait_for_prompt()
screen = capture_pane()
status = re.findall("\n{} ([0-9]+)\n".format(token), screen, re.MULTILINE)
logging.debug("Got exit status: {}.".format(status))
if len(status) == 0:
raise Exception("Couldn't retrieve status code {}. Timed out?".format(token))
if len(status) > 1:
raise Exception("More than one status code {}. I'm seeing double! Shoot them both.".format(token))
code = int(status[0])
if code != 0:
raise Exception("Non-zero exit status: {}.".format(code))
# Otherwise just return peacefully.
def setup_tmux_and_ssh():
if subprocess.call(["tmux", "has-session"]):
logging.error("Couldn't connect to tmux. Please setup tmux first.")
ipaddr = "$IPADDR"
uid = os.getuid()
raise Exception(r"""
1. If you're running this directly from a node:
tmux
2. If you want to control a remote tmux:
rm -f /tmp/tmux-{uid}/default && ssh -t -L /tmp/tmux-{uid}/default:/tmp/tmux-1001/default docker@{ipaddr} tmux new-session -As 0
(Or use workshopctl tmux)
3. If you cannot control a remote tmux:
tmux new-session ssh docker@{ipaddr}
4. If you are running this locally with a remote cluster, make sure your prompt has the expected format:
tmux
IPADDR=$(
kubectl get nodes -o json |
jq -r '.items[0].status.addresses[] | select(.type=="ExternalIP") | .address'
)
export PS1="\n[{ipaddr}] \u@\h:\w\n\$ "
""".format(uid=uid, ipaddr=ipaddr))
else:
logging.info("Found tmux session. Trying to acquire shell prompt.")
wait_for_prompt()
logging.info("Successfully connected to test cluster in tmux session.")
slides = [Slide("Dummy slide zero")]
content = open(sys.argv[1]).read()
# OK, this part is definitely hackish, and will break if the
# excludedClasses parameter is not on a single line.
excluded_classes = re.findall("excludedClasses: (\[.*\])", content)
excluded_classes = set(eval(excluded_classes[0]))
for slide in re.split("\n---?\n", content):
slide_classes = re.findall("class: (.*)", slide)
if slide_classes:
slide_classes = slide_classes[0].split(",")
slide_classes = [c.strip() for c in slide_classes]
if excluded_classes & set(slide_classes):
logging.debug("Skipping excluded slide.")
continue
slides.append(Slide(slide))
def capture_pane():
return subprocess.check_output(["tmux", "capture-pane", "-p"]).decode('utf-8')
setup_tmux_and_ssh()
try:
state.load()
logging.debug("Successfully loaded state from file.")
# Let's override the starting state, so that when an error occurs,
# we can restart the auto-tester and then single-step or debug.
# (Instead of running again through the same issue immediately.)
state.interactive = True
except Exception as e:
logging.exception("Could not load state from file.")
logging.warning("Using default values.")
def move_forward():
state.snippet += 1
if state.snippet > len(slides[state.slide].snippets):
state.slide += 1
state.snippet = 0
check_bounds()
def move_backward():
state.snippet -= 1
if state.snippet < 0:
state.slide -= 1
state.snippet = 0
check_bounds()
def check_bounds():
if state.slide < 1:
state.slide = 1
if state.slide >= len(slides):
state.slide = len(slides)-1
##########################################################
# All functions starting with action_ correspond to the
# code to be executed when seeing ```foo``` blocks in the
# input. ```foo``` would call action_foo(state, snippet).
##########################################################
def send_keys(keys):
subprocess.check_call(["tmux", "send-keys", keys])
# Send a single key.
# Useful for special keys, e.g. tmux interprets these strings:
# ^C (and all other sequences starting with a caret)
# Space
# ... and many others (check tmux manpage for details).
def action_key(state, snippet):
send_keys(snippet.data)
# Send multiple keys.
# If keystroke simulation is off, all keys are sent at once.
# If keystroke simulation is on, keys are sent one by one, with a delay between them.
def action_keys(state, snippet, keys=None):
if keys is None:
keys = snippet.data
if not state.simulate_type:
send_keys(keys)
else:
for key in keys:
if key == ";":
key = "\\;"
if key == "\n":
if interruptible_sleep(1): return
send_keys(key)
if interruptible_sleep(0.15*random.random()): return
if key == "\n":
if interruptible_sleep(1): return
def action_hide(state, snippet):
if state.run_hidden:
action_bash(state, snippet)
def action_bash(state, snippet):
data = snippet.data
# Make sure that we're ready
wait_for_prompt()
# Strip leading spaces
data = re.sub("\n +", "\n", data)
# Remove backticks (they are used to highlight sections)
data = data.replace('`', '')
# Add "RETURN" at the end of the command :)
data += "\n"
# Send command
action_keys(state, snippet, data)
# Force a short sleep to avoid race condition
time.sleep(0.5)
if snippet.next and snippet.next.method == "wait":
wait_for_string(snippet.next.data)
elif snippet.next and snippet.next.method == "longwait":
wait_for_string(snippet.next.data, 10*TIMEOUT)
else:
wait_for_prompt()
# Verify return code
check_exit_status()
def action_copy(state, snippet):
screen = capture_pane()
matches = re.findall(snippet.data, screen, flags=re.DOTALL)
if len(matches) == 0:
raise Exception("Could not find regex {} in output.".format(snippet.data))
# Arbitrarily get the most recent match
match = matches[-1]
# Remove line breaks (like a screen copy paste would do)
match = match.replace('\n', '')
logging.debug("Copied {} to clipboard.".format(match))
state.clipboard = match
def action_paste(state, snippet):
logging.debug("Pasting {} from clipboard.".format(state.clipboard))
action_keys(state, snippet, state.clipboard)
def action_check(state, snippet):
wait_for_prompt()
check_exit_status()
def action_open(state, snippet):
# Cheap way to get node1's IP address
screen = capture_pane()
url = snippet.data.replace("/node1", "/{}".format(IPADDR))
# This should probably be adapted to run on different OS
if state.open_links:
subprocess.check_output(["xdg-open", url])
focus_browser()
if state.interactive:
print("Press any key to continue to next step...")
click.getchar()
def action_tmux(state, snippet):
subprocess.check_call(["tmux"] + snippet.data.split())
def action_unknown(state, snippet):
logging.warning("Unknown method {}: {!r}".format(snippet.method, snippet.data))
def run_snippet(state, snippet):
logging.info("Running with method {}: {}".format(snippet.method, snippet.data))
try:
action = globals()["action_"+snippet.method]
except KeyError:
action = action_unknown
try:
action(state, snippet)
result = "OK"
except:
result = "ERR"
logging.exception("While running method {} with {!r}".format(snippet.method, snippet.data))
# Try to recover
try:
wait_for_prompt()
except:
subprocess.check_call(["tmux", "new-window"])
wait_for_prompt()
outfile.write("{} SLIDE={} METHOD={} DATA={!r}\n".format(result, state.slide, snippet.method, snippet.data))
outfile.flush()
while True:
state.save()
slide = slides[state.slide]
if state.snippet and state.snippet <= len(slide.snippets):
snippet = slide.snippets[state.snippet-1]
else:
snippet = None
click.clear()
print("[Slide {}/{}] [Snippet {}/{}] [simulate_type:{}] [verify_status:{}] "
"[switch_desktop:{}] [sync_slides:{}] [open_links:{}] [run_hidden:{}]"
.format(state.slide, len(slides)-1,
state.snippet, len(slide.snippets) if slide.snippets else 0,
state.simulate_type, state.verify_status,
state.switch_desktop, state.sync_slides,
state.open_links, state.run_hidden))
print(hrule())
if snippet:
print(slide.content.replace(snippet.content, ansi(7)(snippet.content)))
focus_terminal()
else:
print(slide.content)
if state.sync_slides:
subprocess.check_output(["./gotoslide.js", str(slide.number)])
focus_slides()
print(hrule())
if state.interactive:
print("y/⎵/⏎ Execute snippet or advance to next snippet")
print("p/← Previous")
print("n/→ Next")
print("s Simulate keystrokes")
print("v Validate exit status")
print("d Switch desktop")
print("k Sync slides")
print("o Open links")
print("h Run hidden commands")
print("g Go to a specific slide")
print("q Quit")
print("c Continue non-interactively until next error")
command = click.getchar()
else:
command = "y"
if command in ("n", "\x1b[C"):
move_forward()
elif command in ("p", "\x1b[D"):
move_backward()
elif command == "s":
state.simulate_type = not state.simulate_type
elif command == "v":
state.verify_status = not state.verify_status
elif command == "d":
state.switch_desktop = not state.switch_desktop
elif command == "k":
state.sync_slides = not state.sync_slides
elif command == "o":
state.open_links = not state.open_links
elif command == "h":
state.run_hidden = not state.run_hidden
elif command == "g":
state.slide = click.prompt("Enter slide number", type=int)
state.snippet = 0
check_bounds()
elif command == "q":
break
elif command == "c":
# continue until next timeout
state.interactive = False
elif command in ("y", "\r", " "):
if snippet:
run_snippet(state, snippet)
move_forward()
else:
# Advance to next snippet
# Advance until a slide that has snippets
while not slides[state.slide].snippets:
move_forward()
# But stop if we reach the last slide
if state.slide == len(slides)-1:
break
# And then advance to the snippet
move_forward()
else:
logging.warning("Unknown command {}.".format(command))