# a waf tool to add autoconf-like macros to the configure section
# and for SAMBA_ macros for building libraries, binaries etc
-import Build, os, sys, Options, Utils, Task, re, fnmatch, Logs
-from TaskGen import feature, before
-from Configure import conf
+import os, sys, re, fnmatch, shlex
+from optparse import SUPPRESS_HELP
+import Build, Options, Utils, Task, Logs, Configure
+from TaskGen import feature, before, after
+from Configure import conf, ConfigurationContext
from Logs import debug
-import shlex
# TODO: make this a --option
LIB_PATH="shared"
return cache[target]
-######################################################
-# this is used as a decorator to make functions only
-# run once. Based on the idea from
-# http://stackoverflow.com/questions/815110/is-there-a-decorator-to-simply-cache-function-return-values
-runonce_ret = {}
-def runonce(function):
- def runonce_wrapper(*args):
- if args in runonce_ret:
- return runonce_ret[args]
- else:
- ret = function(*args)
- runonce_ret[args] = ret
- return ret
- return runonce_wrapper
-
-
def ADD_LD_LIBRARY_PATH(path):
'''add something to LD_LIBRARY_PATH'''
if 'LD_LIBRARY_PATH' in os.environ:
os.environ['LD_LIBRARY_PATH'] = ':'.join(newpath)
-def install_rpath(bld):
+def needs_private_lib(bld, target):
+ '''return True if a target links to a private library'''
+ for lib in getattr(target, "final_libs", []):
+ t = bld.get_tgen_by_name(lib)
+ if t and getattr(t, 'private_library', False):
+ return True
+ return False
+
+
+def install_rpath(target):
'''the rpath value for installation'''
+ bld = target.bld
bld.env['RPATH'] = []
ret = set()
if bld.env.RPATH_ON_INSTALL:
- ret.add(bld.env.LIBDIR)
- if bld.env.RPATH_ON_INSTALL_PRIVATE:
- ret.add(bld.env.PRIVATELIBDIR)
+ ret.add(bld.EXPAND_VARIABLES(bld.env.LIBDIR))
+ if bld.env.RPATH_ON_INSTALL_PRIVATE and needs_private_lib(bld, target):
+ ret.add(bld.EXPAND_VARIABLES(bld.env.PRIVATELIBDIR))
return list(ret)
def build_rpath(bld):
'''the rpath value for build'''
- rpath = os.path.normpath('%s/%s' % (bld.env.BUILD_DIRECTORY, LIB_PATH))
+ rpaths = [os.path.normpath('%s/%s' % (bld.env.BUILD_DIRECTORY, d)) for d in ("shared", "shared/private")]
bld.env['RPATH'] = []
if bld.env.RPATH_ON_BUILD:
- return [rpath]
- ADD_LD_LIBRARY_PATH(rpath)
+ return rpaths
+ for rpath in rpaths:
+ ADD_LD_LIBRARY_PATH(rpath)
return []
if t not in d1:
d1[t] = d2[t]
-
-def exec_command(self, cmd, **kw):
- '''this overrides the 'waf -v' debug output to be in a nice
- unix like format instead of a python list.
- Thanks to ita on #waf for this'''
- import Utils, Logs
- _cmd = cmd
- if isinstance(cmd, list):
- _cmd = ' '.join(cmd)
- debug('runner: %s' % _cmd)
- if self.log:
- self.log.write('%s\n' % cmd)
- kw['log'] = self.log
- try:
- if not kw.get('cwd', None):
- kw['cwd'] = self.cwd
- except AttributeError:
- self.cwd = kw['cwd'] = self.bldnode.abspath()
- return Utils.exec_command(cmd, **kw)
-Build.BuildContext.exec_command = exec_command
-
-
def ADD_COMMAND(opt, name, function):
'''add a new top level command to waf'''
Utils.g_module.__dict__[name] = function
Options.Handler.ADD_COMMAND = ADD_COMMAND
-@feature('cc', 'cshlib', 'cprogram')
+@feature('c', 'cc', 'cshlib', 'cprogram')
@before('apply_core','exec_rule')
def process_depends_on(self):
'''The new depends_on attribute for build rules
if getattr(self , 'depends_on', None):
lst = self.to_list(self.depends_on)
for x in lst:
- y = self.bld.name_to_obj(x, self.env)
+ y = self.bld.get_tgen_by_name(x)
self.bld.ASSERT(y is not None, "Failed to find dependency %s of %s" % (x, self.name))
y.post()
if getattr(y, 'more_includes', None):
if str is None:
return []
if isinstance(str, list):
- return str
+ # we need to return a new independent list...
+ return list(str)
+ if len(str) == 0:
+ return []
lst = str.split(delimiter)
# the string may have had quotes in it, now we
# check if we did have quotes, and use the slower shlex
if re.match('\$\{\w+\}', v):
vname = v[2:-1]
if not vname in env:
- Logs.error("Failed to find variable %s in %s" % (vname, string))
- sys.exit(1)
+ raise KeyError("Failed to find variable %s in %s" % (vname, string))
v = env[vname]
out.append(v)
return ''.join(out)
@feature('*')
@before('exec_rule', 'apply_core', 'collect')
def force_previous_groups(self):
- if getattr(self.bld, 'enforced_group_ordering', False) == True:
+ if getattr(self.bld, 'enforced_group_ordering', False):
return
self.bld.enforced_group_ordering = True
debug('group: Forcing up to group %s for target %s',
group_name(g), self.name or self.target)
break
- if stop != None:
+ if stop is not None:
break
if stop is None:
return
def mkdir_p(dir):
'''like mkdir -p'''
+ if not dir:
+ return
+ if dir.endswith("/"):
+ mkdir_p(dir[:-1])
+ return
if os.path.isdir(dir):
return
mkdir_p(os.path.dirname(dir))
ret.append(EXPAND_VARIABLES(ctx, s, vars=vars))
return ret
+ if not isinstance(varstr, str):
+ return varstr
+
import Environment
env = Environment.Environment()
ret = varstr
return -1
+def RUN_PYTHON_TESTS(testfiles, pythonpath=None, extra_env=None):
+ env = LOAD_ENVIRONMENT()
+ if pythonpath is None:
+ pythonpath = os.path.join(Utils.g_module.blddir, 'python')
+ result = 0
+ for interp in env.python_interpreters:
+ for testfile in testfiles:
+ cmd = "PYTHONPATH=%s %s %s" % (pythonpath, interp, testfile)
+ if extra_env:
+ for key, value in extra_env.items():
+ cmd = "%s=%s %s" % (key, value, cmd)
+ print('Running Python test with %s: %s' % (interp, testfile))
+ ret = RUN_COMMAND(cmd)
+ if ret:
+ print('Python test failed: %s' % cmd)
+ result = ret
+ return result
+
+
# make sure we have md5. some systems don't have it
try:
from hashlib import md5
+ # Even if hashlib.md5 exists, it may be unusable.
+ # Try to use MD5 function. In FIPS mode this will cause an exception
+ # and we'll get to the replacement code
+ foo = md5('abcd')
except:
try:
import md5
+ # repeat the same check here, mere success of import is not enough.
+ # Try to use MD5 function. In FIPS mode this will cause an exception
+ foo = md5.md5('abcd')
except:
import Constants
Constants.SIG_NIL = hash('abcd')
if not 'WAF_MAKE' in os.environ:
return
makeflags = os.environ.get('MAKEFLAGS')
+ if makeflags is None:
+ return
jobs_set = False
# we need to use shlex.split to cope with the escaping of spaces
# in makeflags
if Logs.verbose > 2:
Logs.zones = ['*']
elif opt[0].isupper() and opt.find('=') != -1:
+ # this allows us to set waf options on the make command line
+ # for example, if you do "make FOO=blah", then we set the
+ # option 'FOO' in Options.options, to blah. If you look in wafsamba/wscript
+ # you will see that the command line accessible options have their dest=
+ # set to uppercase, to allow for passing of options from make in this way
+ # this is also how "make test TESTS=testpattern" works, and
+ # "make VERBOSE=1" as well as things like "make SYMBOLCHECK=1"
loc = opt.find('=')
setattr(Options.options, opt[0:loc], opt[loc+1:])
elif opt[0] != '-':
if v == 'j':
jobs_set = True
elif v == 'k':
- Options.options.keep = True
+ Options.options.keep = True
elif opt == '-j':
jobs_set = True
elif opt == '-k':
- Options.options.keep = True
+ Options.options.keep = True
if not jobs_set:
# default to one job
Options.options.jobs = 1
-
+
Build.BuildContext.CHECK_MAKEFLAGS = CHECK_MAKEFLAGS
option_groups = {}
return name
(root1, ext1) = os.path.splitext(name)
if python:
- (root2, ext2) = os.path.splitext(ctx.env.pyext_PATTERN)
+ return ctx.env.pyext_PATTERN % root1
else:
(root2, ext2) = os.path.splitext(ctx.env.shlib_PATTERN)
return root1+ext2
Build.BuildContext.map_shlib_extension = map_shlib_extension
+def apply_pattern(filename, pattern):
+ '''apply a filename pattern to a filename that may have a directory component'''
+ dirname = os.path.dirname(filename)
+ if not dirname:
+ return pattern % filename
+ basename = os.path.basename(filename)
+ return os.path.join(dirname, pattern % basename)
def make_libname(ctx, name, nolibprefix=False, version=None, python=False):
"""make a library filename
python : if we should use python module name conventions"""
if python:
- libname = ctx.env.pyext_PATTERN % name
+ libname = apply_pattern(name, ctx.env.pyext_PATTERN)
else:
- libname = ctx.env.shlib_PATTERN % name
+ libname = apply_pattern(name, ctx.env.shlib_PATTERN)
if nolibprefix and libname[0:3] == 'lib':
libname = libname[3:]
if version:
type = targets[tgt]
if not type in ['SUBSYSTEM', 'MODULE', 'BINARY', 'LIBRARY', 'ASN1', 'PYTHON']:
continue
- t = bld.name_to_obj(tgt, bld.env)
+ t = bld.get_tgen_by_name(tgt)
if t is None:
Logs.error("Target %s of type %s has no task generator" % (tgt, type))
sys.exit(1)
tgt_list.append(t)
return tgt_list
+
+from Constants import WSCRIPT_FILE
+def PROCESS_SEPARATE_RULE(self, rule):
+ ''' cause waf to process additional script based on `rule'.
+ You should have file named wscript_<stage>_rule in the current directory
+ where stage is either 'configure' or 'build'
+ '''
+ stage = ''
+ if isinstance(self, Configure.ConfigurationContext):
+ stage = 'configure'
+ elif isinstance(self, Build.BuildContext):
+ stage = 'build'
+ file_path = os.path.join(self.curdir, WSCRIPT_FILE+'_'+stage+'_'+rule)
+ txt = load_file(file_path)
+ if txt:
+ dc = {'ctx': self}
+ if getattr(self.__class__, 'pre_recurse', None):
+ dc = self.pre_recurse(txt, file_path, self.curdir)
+ exec(compile(txt, file_path, 'exec'), dc)
+ if getattr(self.__class__, 'post_recurse', None):
+ dc = self.post_recurse(txt, file_path, self.curdir)
+
+Build.BuildContext.PROCESS_SEPARATE_RULE = PROCESS_SEPARATE_RULE
+ConfigurationContext.PROCESS_SEPARATE_RULE = PROCESS_SEPARATE_RULE
+
+def AD_DC_BUILD_IS_ENABLED(self):
+ if self.CONFIG_SET('AD_DC_BUILD_IS_ENABLED'):
+ return True
+ return False
+
+Build.BuildContext.AD_DC_BUILD_IS_ENABLED = AD_DC_BUILD_IS_ENABLED
+
+@feature('cprogram', 'cshlib', 'cstaticlib')
+@after('apply_lib_vars')
+@before('apply_obj_vars')
+def samba_before_apply_obj_vars(self):
+ """before apply_obj_vars for uselib, this removes the standard paths"""
+
+ def is_standard_libpath(env, path):
+ for _path in env.STANDARD_LIBPATH:
+ if _path == os.path.normpath(path):
+ return True
+ return False
+
+ v = self.env
+
+ for i in v['RPATH']:
+ if is_standard_libpath(v, i):
+ v['RPATH'].remove(i)
+
+ for i in v['LIBPATH']:
+ if is_standard_libpath(v, i):
+ v['LIBPATH'].remove(i)
+
+def samba_add_onoff_option(opt, option, help=(), dest=None, default=True,
+ with_name="with", without_name="without"):
+ if default is None:
+ default_str = "auto"
+ elif default is True:
+ default_str = "yes"
+ elif default is False:
+ default_str = "no"
+ else:
+ default_str = str(default)
+
+ if help == ():
+ help = ("Build with %s support (default=%s)" % (option, default_str))
+ if dest is None:
+ dest = "with_%s" % option.replace('-', '_')
+
+ with_val = "--%s-%s" % (with_name, option)
+ without_val = "--%s-%s" % (without_name, option)
+
+ opt.add_option(with_val, help=help, action="store_true", dest=dest,
+ default=default)
+ opt.add_option(without_val, help=SUPPRESS_HELP, action="store_false",
+ dest=dest)
+Options.Handler.samba_add_onoff_option = samba_add_onoff_option