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mirror of https://gitlab.com/ita1024/waf.git synced 2024-11-27 20:39:23 +01:00
waf/waflib/extras/distnet.py
2024-07-13 23:06:31 +08:00

436 lines
12 KiB
Python

#! /usr/bin/env python
# encoding: utf-8
"""
waf-powered distributed network builds, with a network cache.
Caching files from a server has advantages over a NFS/Samba shared folder:
- builds are much faster because they use local files
- builds just continue to work in case of a network glitch
- permissions are much simpler to manage
"""
import os, urllib, tarfile, re, shutil, tempfile, sys
from collections import OrderedDict
from waflib import Context, Utils, Logs
try:
from urllib.parse import urlencode
except ImportError:
urlencode = urllib.urlencode
def safe_urlencode(data):
x = urlencode(data)
try:
x = x.encode('utf-8')
except Exception:
pass
return x
try:
from urllib.error import URLError
except ImportError:
from urllib2 import URLError
try:
from urllib.request import Request, urlopen
except ImportError:
from urllib2 import Request, urlopen
DISTNETCACHE = os.environ.get('DISTNETCACHE', '/tmp/distnetcache')
DISTNETSERVER = os.environ.get('DISTNETSERVER', 'http://localhost:8000/cgi-bin/')
TARFORMAT = 'w:bz2'
TIMEOUT = 60
REQUIRES = 'requires.txt'
re_com = re.compile(r'\s*#.*', re.M)
def total_version_order(num):
lst = num.split('.')
template = '%10s' * len(lst)
ret = template % tuple(lst)
return ret
def get_distnet_cache():
return getattr(Context.g_module, 'DISTNETCACHE', DISTNETCACHE)
def get_server_url():
return getattr(Context.g_module, 'DISTNETSERVER', DISTNETSERVER)
def get_download_url():
return '%s/download.py' % get_server_url()
def get_upload_url():
return '%s/upload.py' % get_server_url()
def get_resolve_url():
return '%s/resolve.py' % get_server_url()
def send_package_name():
out = getattr(Context.g_module, 'out', 'build')
pkgfile = '%s/package_to_upload.tarfile' % out
return pkgfile
class package(Context.Context):
fun = 'package'
cmd = 'package'
def execute(self):
try:
files = self.files
except AttributeError:
files = self.files = []
Context.Context.execute(self)
pkgfile = send_package_name()
if not pkgfile in files:
if not REQUIRES in files:
files.append(REQUIRES)
self.make_tarfile(pkgfile, files, add_to_package=False)
def make_tarfile(self, filename, files, **kw):
if kw.get('add_to_package', True):
self.files.append(filename)
with tarfile.open(filename, TARFORMAT) as tar:
endname = os.path.split(filename)[-1]
endname = endname.split('.')[0] + '/'
for x in files:
tarinfo = tar.gettarinfo(x, x)
tarinfo.uid = tarinfo.gid = 0
tarinfo.uname = tarinfo.gname = 'root'
tarinfo.size = os.stat(x).st_size
if os.environ.get('SOURCE_DATE_EPOCH'):
tarinfo.mtime = int(os.environ.get('SOURCE_DATE_EPOCH'))
# TODO - more archive creation options?
if kw.get('bare', True):
tarinfo.name = os.path.split(x)[1]
else:
tarinfo.name = endname + x # todo, if tuple, then..
Logs.debug('distnet: adding %r to %s', tarinfo.name, filename)
with open(x, 'rb') as f:
tar.addfile(tarinfo, f)
Logs.info('Created %s', filename)
class publish(Context.Context):
fun = 'publish'
cmd = 'publish'
def execute(self):
if hasattr(Context.g_module, 'publish'):
Context.Context.execute(self)
mod = Context.g_module
rfile = getattr(self, 'rfile', send_package_name())
if not os.path.isfile(rfile):
self.fatal('Create the release file with "waf release" first! %r' % rfile)
fdata = Utils.readf(rfile, m='rb')
data = safe_urlencode([('pkgdata', fdata), ('pkgname', mod.APPNAME), ('pkgver', mod.VERSION)])
req = Request(get_upload_url(), data)
response = urlopen(req, timeout=TIMEOUT)
data = response.read().strip()
if sys.hexversion>0x300000f:
data = data.decode('utf-8')
if data != 'ok':
self.fatal('Could not publish the package %r' % data)
class constraint(object):
def __init__(self, line=''):
self.required_line = line
self.info = []
line = line.strip()
if not line:
return
lst = line.split(',')
if lst:
self.pkgname = lst[0]
self.required_version = lst[1]
for k in lst:
a, b, c = k.partition('=')
if a and c:
self.info.append((a, c))
def __str__(self):
buf = []
buf.append(self.pkgname)
buf.append(self.required_version)
for k in self.info:
buf.append('%s=%s' % k)
return ','.join(buf)
def __repr__(self):
return "requires %s-%s" % (self.pkgname, self.required_version)
def human_display(self, pkgname, pkgver):
return '%s-%s requires %s-%s' % (pkgname, pkgver, self.pkgname, self.required_version)
def why(self):
ret = []
for x in self.info:
if x[0] == 'reason':
ret.append(x[1])
return ret
def add_reason(self, reason):
self.info.append(('reason', reason))
def parse_constraints(text):
assert(text is not None)
constraints = []
text = re.sub(re_com, '', text)
lines = text.splitlines()
for line in lines:
line = line.strip()
if not line:
continue
constraints.append(constraint(line))
return constraints
def list_package_versions(cachedir, pkgname):
pkgdir = os.path.join(cachedir, pkgname)
try:
versions = os.listdir(pkgdir)
except OSError:
return []
versions.sort(key=total_version_order)
versions.reverse()
return versions
class package_reader(Context.Context):
cmd = 'solver'
fun = 'solver'
def __init__(self, **kw):
Context.Context.__init__(self, **kw)
self.myproject = getattr(Context.g_module, 'APPNAME', 'project')
self.myversion = getattr(Context.g_module, 'VERSION', '1.0')
self.cache_constraints = {}
self.constraints = []
def compute_dependencies(self, filename=REQUIRES):
text = Utils.readf(filename)
data = safe_urlencode([('text', text)])
if '--offline' in sys.argv:
self.constraints = self.local_resolve(text)
else:
req = Request(get_resolve_url(), data)
try:
response = urlopen(req, timeout=TIMEOUT)
except URLError as e:
Logs.warn('The package server is down! %r', e)
self.constraints = self.local_resolve(text)
else:
ret = response.read()
try:
ret = ret.decode('utf-8')
except Exception:
pass
self.trace(ret)
self.constraints = parse_constraints(ret)
self.check_errors()
def check_errors(self):
errors = False
for c in self.constraints:
if not c.required_version:
errors = True
reasons = c.why()
if len(reasons) == 1:
Logs.error('%s but no matching package could be found in this repository', reasons[0])
else:
Logs.error('Conflicts on package %r:', c.pkgname)
for r in reasons:
Logs.error(' %s', r)
if errors:
self.fatal('The package requirements cannot be satisfied!')
def load_constraints(self, pkgname, pkgver, requires=REQUIRES):
try:
return self.cache_constraints[(pkgname, pkgver)]
except KeyError:
text = Utils.readf(os.path.join(get_distnet_cache(), pkgname, pkgver, requires))
ret = parse_constraints(text)
self.cache_constraints[(pkgname, pkgver)] = ret
return ret
def apply_constraint(self, domain, constraint):
vname = constraint.required_version.replace('*', '.*')
rev = re.compile(vname, re.M)
ret = [x for x in domain if rev.match(x)]
return ret
def trace(self, *k):
if getattr(self, 'debug', None):
Logs.error(*k)
def solve(self, packages_to_versions={}, packages_to_constraints={}, pkgname='', pkgver='', todo=[], done=[]):
# breadth first search
n_packages_to_versions = dict(packages_to_versions)
n_packages_to_constraints = dict(packages_to_constraints)
self.trace("calling solve with %r %r %r" % (packages_to_versions, todo, done))
done = done + [pkgname]
constraints = self.load_constraints(pkgname, pkgver)
self.trace("constraints %r" % constraints)
for k in constraints:
try:
domain = n_packages_to_versions[k.pkgname]
except KeyError:
domain = list_package_versions(get_distnet_cache(), k.pkgname)
self.trace("constraints?")
if not k.pkgname in done:
todo = todo + [k.pkgname]
self.trace("domain before %s -> %s, %r" % (pkgname, k.pkgname, domain))
# apply the constraint
domain = self.apply_constraint(domain, k)
self.trace("domain after %s -> %s, %r" % (pkgname, k.pkgname, domain))
n_packages_to_versions[k.pkgname] = domain
# then store the constraint applied
constraints = list(packages_to_constraints.get(k.pkgname, []))
constraints.append((pkgname, pkgver, k))
n_packages_to_constraints[k.pkgname] = constraints
if not domain:
self.trace("no domain while processing constraint %r from %r %r" % (domain, pkgname, pkgver))
return (n_packages_to_versions, n_packages_to_constraints)
# next package on the todo list
if not todo:
return (n_packages_to_versions, n_packages_to_constraints)
n_pkgname = todo[0]
n_pkgver = n_packages_to_versions[n_pkgname][0]
tmp = dict(n_packages_to_versions)
tmp[n_pkgname] = [n_pkgver]
self.trace("fixed point %s" % n_pkgname)
return self.solve(tmp, n_packages_to_constraints, n_pkgname, n_pkgver, todo[1:], done)
def get_results(self):
return '\n'.join([str(c) for c in self.constraints])
def solution_to_constraints(self, versions, constraints):
solution = []
for p in versions:
c = constraint()
solution.append(c)
c.pkgname = p
if versions[p]:
c.required_version = versions[p][0]
else:
c.required_version = ''
for (from_pkgname, from_pkgver, c2) in constraints.get(p, ''):
c.add_reason(c2.human_display(from_pkgname, from_pkgver))
return solution
def local_resolve(self, text):
self.cache_constraints[(self.myproject, self.myversion)] = parse_constraints(text)
p2v = OrderedDict({self.myproject: [self.myversion]})
(versions, constraints) = self.solve(p2v, {}, self.myproject, self.myversion, [])
return self.solution_to_constraints(versions, constraints)
def download_to_file(self, pkgname, pkgver, subdir, tmp):
data = safe_urlencode([('pkgname', pkgname), ('pkgver', pkgver), ('pkgfile', subdir)])
req = urlopen(get_download_url(), data, timeout=TIMEOUT)
with open(tmp, 'wb') as f:
while True:
buf = req.read(8192)
if not buf:
break
f.write(buf)
def extract_tar(self, subdir, pkgdir, tmpfile):
with tarfile.open(tmpfile) as f:
temp = tempfile.mkdtemp(dir=pkgdir)
try:
if hasattr(tarfile, 'data_filter'):
f.extractall(temp, filter='data')
else:
f.extractall(temp)
os.rename(temp, os.path.join(pkgdir, subdir))
finally:
try:
shutil.rmtree(temp)
except Exception:
pass
def get_pkg_dir(self, pkgname, pkgver, subdir):
pkgdir = os.path.join(get_distnet_cache(), pkgname, pkgver)
if not os.path.isdir(pkgdir):
os.makedirs(pkgdir)
target = os.path.join(pkgdir, subdir)
if os.path.exists(target):
return target
(fd, tmp) = tempfile.mkstemp(dir=pkgdir)
try:
os.close(fd)
self.download_to_file(pkgname, pkgver, subdir, tmp)
if subdir == REQUIRES:
os.rename(tmp, target)
else:
self.extract_tar(subdir, pkgdir, tmp)
finally:
try:
os.remove(tmp)
except OSError:
pass
return target
def __iter__(self):
if not self.constraints:
self.compute_dependencies()
for x in self.constraints:
if x.pkgname == self.myproject:
continue
yield x
def execute(self):
self.compute_dependencies()
packages = package_reader()
def load_tools(ctx, extra):
global packages
for c in packages:
packages.get_pkg_dir(c.pkgname, c.required_version, extra)
noarchdir = packages.get_pkg_dir(c.pkgname, c.required_version, 'noarch')
for x in os.listdir(noarchdir):
if x.startswith('waf_') and x.endswith('.py'):
ctx.load([x.rstrip('.py')], tooldir=[noarchdir])
def options(opt):
opt.add_option('--offline', action='store_true')
packages.execute()
load_tools(opt, REQUIRES)
def configure(conf):
load_tools(conf, conf.variant)
def build(bld):
load_tools(bld, bld.variant)