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go/misc/dashboard/godashboard/gobuild.py
2011-05-30 11:27:31 +10:00

561 lines
17 KiB
Python

# Copyright 2009 The Go Authors. All rights reserved.
# Use of this source code is governed by a BSD-style
# license that can be found in the LICENSE file.
# This is the server part of the continuous build system for Go. It must be run
# by AppEngine.
from django.utils import simplejson
from google.appengine.api import mail
from google.appengine.api import memcache
from google.appengine.ext import db
from google.appengine.ext import webapp
from google.appengine.ext.webapp import template
from google.appengine.ext.webapp.util import run_wsgi_app
import datetime
import hashlib
import hmac
import logging
import os
import re
import bz2
# local imports
import key
import const
# The majority of our state are commit objects. One of these exists for each of
# the commits known to the build system. Their key names are of the form
# <commit number (%08x)> "-" <hg hash>. This means that a sorting by the key
# name is sufficient to order the commits.
#
# The commit numbers are purely local. They need not match up to the commit
# numbers in an hg repo. When inserting a new commit, the parent commit must be
# given and this is used to generate the new commit number. In order to create
# the first Commit object, a special command (/init) is used.
class Commit(db.Model):
num = db.IntegerProperty() # internal, monotonic counter.
node = db.StringProperty() # Hg hash
parentnode = db.StringProperty() # Hg hash
user = db.StringProperty()
date = db.DateTimeProperty()
desc = db.BlobProperty()
# This is the list of builds. Each element is a string of the form <builder
# name> '`' <log hash>. If the log hash is empty, then the build was
# successful.
builds = db.StringListProperty()
fail_notification_sent = db.BooleanProperty()
# A CompressedLog contains the textual build log of a failed build.
# The key name is the hex digest of the SHA256 hash of the contents.
# The contents is bz2 compressed.
class CompressedLog(db.Model):
log = db.BlobProperty()
N = 30
def builderInfo(b):
f = b.split('-', 3)
goos = f[0]
goarch = f[1]
note = ""
if len(f) > 2:
note = f[2]
return {'name': b, 'goos': goos, 'goarch': goarch, 'note': note}
def builderset():
q = Commit.all()
q.order('-__key__')
results = q.fetch(N)
builders = set()
for c in results:
builders.update(set(parseBuild(build)['builder'] for build in c.builds))
return builders
class MainPage(webapp.RequestHandler):
def get(self):
self.response.headers['Content-Type'] = 'text/html; charset=utf-8'
try:
page = int(self.request.get('p', 1))
if not page > 0:
raise
except:
page = 1
try:
num = int(self.request.get('n', N))
if num <= 0 or num > 200:
raise
except:
num = N
offset = (page-1) * num
q = Commit.all()
q.order('-__key__')
results = q.fetch(num, offset)
revs = [toRev(r) for r in results]
builders = {}
for r in revs:
for b in r['builds']:
builders[b['builder']] = builderInfo(b['builder'])
for r in revs:
have = set(x['builder'] for x in r['builds'])
need = set(builders.keys()).difference(have)
for n in need:
r['builds'].append({'builder': n, 'log':'', 'ok': False})
r['builds'].sort(cmp = byBuilder)
builders = list(builders.items())
builders.sort()
values = {"revs": revs, "builders": [v for k,v in builders]}
values['num'] = num
values['prev'] = page - 1
if len(results) == num:
values['next'] = page + 1
path = os.path.join(os.path.dirname(__file__), 'main.html')
self.response.out.write(template.render(path, values))
# A DashboardHandler is a webapp.RequestHandler but provides
# authenticated_post - called by post after authenticating
# json - writes object in json format to response output
class DashboardHandler(webapp.RequestHandler):
def post(self):
if not auth(self.request):
self.response.set_status(403)
return
self.authenticated_post()
def authenticated_post(self):
return
def json(self, obj):
self.response.set_status(200)
simplejson.dump(obj, self.response.out)
return
def auth(req):
k = req.get('key')
return k == hmac.new(key.accessKey, req.get('builder')).hexdigest() or k == key.accessKey
# Todo serves /todo. It tells the builder which commits need to be built.
class Todo(DashboardHandler):
def get(self):
builder = self.request.get('builder')
key = 'todo-%s' % builder
response = memcache.get(key)
if response is None:
# Fell out of memcache. Rebuild from datastore results.
# We walk the commit list looking for nodes that have not
# been built by this builder.
q = Commit.all()
q.order('-__key__')
todo = []
first = None
for c in q.fetch(N+1):
if first is None:
first = c
if not built(c, builder):
todo.append({'Hash': c.node})
response = simplejson.dumps(todo)
memcache.set(key, response, 3600)
self.response.set_status(200)
self.response.out.write(response)
def built(c, builder):
for b in c.builds:
if b.startswith(builder+'`'):
return True
return False
# Log serves /log/. It retrieves log data by content hash.
class LogHandler(DashboardHandler):
def get(self):
self.response.headers['Content-Type'] = 'text/plain; charset=utf-8'
hash = self.request.path[5:]
l = CompressedLog.get_by_key_name(hash)
if l is None:
self.response.set_status(404)
return
log = bz2.decompress(l.log)
self.response.set_status(200)
self.response.out.write(log)
# Init creates the commit with id 0. Since this commit doesn't have a parent,
# it cannot be created by Build.
class Init(DashboardHandler):
def authenticated_post(self):
date = parseDate(self.request.get('date'))
node = self.request.get('node')
if not validNode(node) or date is None:
logging.error("Not valid node ('%s') or bad date (%s %s)", node, date, self.request.get('date'))
self.response.set_status(500)
return
commit = Commit(key_name = '00000000-%s' % node)
commit.num = 0
commit.node = node
commit.parentnode = ''
commit.user = self.request.get('user').encode('utf8')
commit.date = date
commit.desc = self.request.get('desc').encode('utf8')
commit.put()
self.response.set_status(200)
# The last commit when we switched to using entity groups.
# This is the root of the new commit entity group.
RootCommitKeyName = '00000f26-f32c6f1038207c55d5780231f7484f311020747e'
# CommitHandler serves /commit.
# A GET of /commit retrieves information about the specified commit.
# A POST of /commit creates a node for the given commit.
# If the commit already exists, the POST silently succeeds (like mkdir -p).
class CommitHandler(DashboardHandler):
def get(self):
node = self.request.get('node')
if not validNode(node):
return self.json({'Status': 'FAIL', 'Error': 'malformed node hash'})
n = nodeByHash(node)
if n is None:
return self.json({'Status': 'FAIL', 'Error': 'unknown revision'})
return self.json({'Status': 'OK', 'Node': nodeObj(n)})
def authenticated_post(self):
# Require auth with the master key, not a per-builder key.
if self.request.get('builder'):
self.response.set_status(403)
return
node = self.request.get('node')
date = parseDate(self.request.get('date'))
user = self.request.get('user').encode('utf8')
desc = self.request.get('desc').encode('utf8')
parenthash = self.request.get('parent')
if not validNode(node) or not validNode(parenthash) or date is None:
return self.json({'Status': 'FAIL', 'Error': 'malformed node, parent, or date'})
n = nodeByHash(node)
if n is None:
p = nodeByHash(parenthash)
if p is None:
return self.json({'Status': 'FAIL', 'Error': 'unknown parent'})
# Want to create new node in a transaction so that multiple
# requests creating it do not collide and so that multiple requests
# creating different nodes get different sequence numbers.
# All queries within a transaction must include an ancestor,
# but the original datastore objects we used for the dashboard
# have no common ancestor. Instead, we use a well-known
# root node - the last one before we switched to entity groups -
# as the as the common ancestor.
root = Commit.get_by_key_name(RootCommitKeyName)
def add_commit():
if nodeByHash(node, ancestor=root) is not None:
return
# Determine number for this commit.
# Once we have created one new entry it will be lastRooted.num+1,
# but the very first commit created in this scheme will have to use
# last.num's number instead (last is likely not rooted).
q = Commit.all()
q.order('-__key__')
q.ancestor(root)
last = q.fetch(1)[0]
num = last.num+1
n = Commit(key_name = '%08x-%s' % (num, node), parent = root)
n.num = num
n.node = node
n.parentnode = parenthash
n.user = user
n.date = date
n.desc = desc
n.put()
db.run_in_transaction(add_commit)
n = nodeByHash(node)
if n is None:
return self.json({'Status': 'FAIL', 'Error': 'failed to create commit node'})
return self.json({'Status': 'OK', 'Node': nodeObj(n)})
# Build serves /build.
# A POST to /build records a new build result.
class Build(webapp.RequestHandler):
def post(self):
if not auth(self.request):
self.response.set_status(403)
return
builder = self.request.get('builder')
log = self.request.get('log').encode('utf-8')
loghash = ''
if len(log) > 0:
loghash = hashlib.sha256(log).hexdigest()
l = CompressedLog(key_name=loghash)
l.log = bz2.compress(log)
l.put()
node = self.request.get('node')
if not validNode(node):
logging.error('Invalid node %s' % (node))
self.response.set_status(500)
return
n = nodeByHash(node)
if n is None:
logging.error('Cannot find node %s' % (node))
self.response.set_status(404)
return
nn = n
def add_build():
n = nodeByHash(node, ancestor=nn)
if n is None:
logging.error('Cannot find hash in add_build: %s %s' % (builder, node))
return
s = '%s`%s' % (builder, loghash)
for i, b in enumerate(n.builds):
if b.split('`', 1)[0] == builder:
# logging.error('Found result for %s %s already' % (builder, node))
n.builds[i] = s
break
else:
# logging.error('Added result for %s %s' % (builder, node))
n.builds.append(s)
n.put()
db.run_in_transaction(add_build)
key = 'todo-%s' % builder
memcache.delete(key)
c = getBrokenCommit(node, builder)
if c is not None and not c.fail_notification_sent:
notifyBroken(c, builder)
self.response.set_status(200)
def getBrokenCommit(node, builder):
"""
getBrokenCommit returns a Commit that breaks the build.
The Commit will be either the one specified by node or the one after.
"""
# Squelch mail if already fixed.
head = firstResult(builder)
if broken(head, builder) == False:
return
# Get current node and node before, after.
cur = nodeByHash(node)
if cur is None:
return
before = nodeBefore(cur)
after = nodeAfter(cur)
if broken(before, builder) == False and broken(cur, builder):
return cur
if broken(cur, builder) == False and broken(after, builder):
return after
return
def firstResult(builder):
q = Commit.all().order('-__key__').limit(20)
for c in q:
for i, b in enumerate(c.builds):
p = b.split('`', 1)
if p[0] == builder:
return c
return None
def nodeBefore(c):
return nodeByHash(c.parentnode)
def nodeAfter(c):
return Commit.all().filter('parenthash', c.node).get()
def notifyBroken(c, builder):
def send():
n = Commit.get_by_key_name('%08x-%s' % (c.num, c.node))
if n.fail_notification_sent:
return False
n.fail_notification_sent = True
return n.put()
if not db.run_in_transaction(send):
return
subject = const.mail_fail_subject % (builder, c.desc.split('\n')[0])
path = os.path.join(os.path.dirname(__file__), 'fail-notify.txt')
body = template.render(path, {
"builder": builder,
"node": c.node,
"user": c.user,
"desc": c.desc,
"loghash": logHash(c, builder)
})
mail.send_mail(
sender=const.mail_from,
to=const.mail_fail_to,
subject=subject,
body=body
)
def logHash(c, builder):
for i, b in enumerate(c.builds):
p = b.split('`', 1)
if p[0] == builder:
return p[1]
return ""
def broken(c, builder):
"""
broken returns True if commit c breaks the build for the specified builder,
False if it is a good build, and None if no results exist for this builder.
"""
if c is None:
return None
for i, b in enumerate(c.builds):
p = b.split('`', 1)
if p[0] == builder:
return len(p[1]) > 0
return None
def node(num):
q = Commit.all()
q.filter('num =', num)
n = q.get()
return n
def nodeByHash(hash, ancestor=None):
q = Commit.all()
q.filter('node =', hash)
if ancestor is not None:
q.ancestor(ancestor)
n = q.get()
return n
# nodeObj returns a JSON object (ready to be passed to simplejson.dump) describing node.
def nodeObj(n):
return {
'Hash': n.node,
'ParentHash': n.parentnode,
'User': n.user,
'Date': n.date.strftime('%Y-%m-%d %H:%M %z'),
'Desc': n.desc,
}
class FixedOffset(datetime.tzinfo):
"""Fixed offset in minutes east from UTC."""
def __init__(self, offset):
self.__offset = datetime.timedelta(seconds = offset)
def utcoffset(self, dt):
return self.__offset
def tzname(self, dt):
return None
def dst(self, dt):
return datetime.timedelta(0)
def validNode(node):
if len(node) != 40:
return False
for x in node:
o = ord(x)
if (o < ord('0') or o > ord('9')) and (o < ord('a') or o > ord('f')):
return False
return True
def parseDate(date):
if '-' in date:
(a, offset) = date.split('-', 1)
try:
return datetime.datetime.fromtimestamp(float(a), FixedOffset(0-int(offset)))
except ValueError:
return None
if '+' in date:
(a, offset) = date.split('+', 1)
try:
return datetime.datetime.fromtimestamp(float(a), FixedOffset(int(offset)))
except ValueError:
return None
try:
return datetime.datetime.utcfromtimestamp(float(date))
except ValueError:
return None
email_re = re.compile('^[^<]+<([^>]*)>$')
def toUsername(user):
r = email_re.match(user)
if r is None:
return user
email = r.groups()[0]
return email.replace('@golang.org', '')
def dateToShortStr(d):
return d.strftime('%a %b %d %H:%M')
def parseBuild(build):
[builder, logblob] = build.split('`')
return {'builder': builder, 'log': logblob, 'ok': len(logblob) == 0}
def nodeInfo(c):
return {
"node": c.node,
"user": toUsername(c.user),
"date": dateToShortStr(c.date),
"desc": c.desc,
"shortdesc": c.desc.split('\n', 2)[0]
}
def toRev(c):
b = nodeInfo(c)
b['builds'] = [parseBuild(build) for build in c.builds]
return b
def byBuilder(x, y):
return cmp(x['builder'], y['builder'])
# Give old builders work; otherwise they pound on the web site.
class Hwget(DashboardHandler):
def get(self):
self.response.out.write("8000\n")
# This is the URL map for the server. The first three entries are public, the
# rest are only used by the builders.
application = webapp.WSGIApplication(
[('/', MainPage),
('/hw-get', Hwget),
('/log/.*', LogHandler),
('/commit', CommitHandler),
('/init', Init),
('/todo', Todo),
('/build', Build),
], debug=True)
def main():
run_wsgi_app(application)
if __name__ == "__main__":
main()