# Samba automatic dependency handling and project rules
-import Build, os, re, Environment
-from samba_utils import *
-from samba_autoconf import *
+import os, sys, re, time
+
+from waflib import Build, Options, Logs, Utils, Errors
+from waflib.Logs import debug
+from waflib.Configure import conf
+from waflib import ConfigSet
+
from samba_bundled import BUILTIN_LIBRARY
+from samba_utils import LOCAL_CACHE, TO_LIST, get_tgt_list, unique_list, os_path_relpath
+from samba_autoconf import library_flags
@conf
def ADD_GLOBAL_DEPENDENCY(ctx, dep):
ctx.env.GLOBAL_DEPENDENCIES.append(dep)
-def TARGET_ALIAS(bld, target, alias):
- '''define an alias for a target name'''
- cache = LOCAL_CACHE(bld, 'TARGET_ALIAS')
- if alias in cache:
- print("Target alias %s already set to %s : newalias %s" % (alias, cache[alias], target))
- raise
- cache[alias] = target
-Build.BuildContext.TARGET_ALIAS = TARGET_ALIAS
+@conf
+def BREAK_CIRCULAR_LIBRARY_DEPENDENCIES(ctx):
+ '''indicate that circular dependencies between libraries should be broken.'''
+ ctx.env.ALLOW_CIRCULAR_LIB_DEPENDENCIES = True
@conf
cache[target] = deps
-def EXPAND_ALIAS(bld, target):
- '''expand a target name via an alias'''
- aliases = LOCAL_CACHE(bld, 'TARGET_ALIAS')
- if target in aliases:
- return aliases[target]
- return target
-Build.BuildContext.EXPAND_ALIAS = EXPAND_ALIAS
-
-
def expand_subsystem_deps(bld):
'''expand the reverse dependencies resulting from subsystem
- attributes of modules'''
- subsystems = LOCAL_CACHE(bld, 'INIT_FUNCTIONS')
- aliases = LOCAL_CACHE(bld, 'TARGET_ALIAS')
+ attributes of modules. This is walking over the complete list
+ of declared subsystems, and expands the samba_deps_extended list for any
+ module<->subsystem dependencies'''
+
+ subsystem_list = LOCAL_CACHE(bld, 'INIT_FUNCTIONS')
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
- for s in subsystems:
- if s in aliases:
- s = aliases[s]
- bld.ASSERT(s in targets, "Subsystem target %s not declared" % s)
- type = targets[s]
+ for subsystem_name in subsystem_list:
+ bld.ASSERT(subsystem_name in targets, "Subsystem target %s not declared" % subsystem_name)
+ type = targets[subsystem_name]
if type == 'DISABLED' or type == 'EMPTY':
continue
- t = bld.name_to_obj(s, bld.env)
- bld.ASSERT(t is not None, "Subsystem target %s not found" % s)
- for d in subsystems[s]:
- type = targets[d['TARGET']]
- if type != 'DISABLED' and type != 'EMPTY':
- t.samba_deps_extended.append(d['TARGET'])
- t2 = bld.name_to_obj(d['TARGET'], bld.env)
- t2.samba_includes_extended.extend(t.samba_includes_extended)
- t2.samba_deps_extended.extend(t.samba_deps_extended)
- t.samba_deps_extended = unique_list(t.samba_deps_extended)
+ # for example,
+ # subsystem_name = dcerpc_server (a subsystem)
+ # subsystem = dcerpc_server (a subsystem object)
+ # module_name = rpc_epmapper (a module within the dcerpc_server subsystem)
+ # module = rpc_epmapper (a module object within the dcerpc_server subsystem)
+
+ subsystem = bld.get_tgen_by_name(subsystem_name)
+ bld.ASSERT(subsystem is not None, "Unable to find subsystem %s" % subsystem_name)
+ for d in subsystem_list[subsystem_name]:
+ module_name = d['TARGET']
+ module_type = targets[module_name]
+ if module_type in ['DISABLED', 'EMPTY']:
+ continue
+ bld.ASSERT(subsystem is not None,
+ "Subsystem target %s for %s (%s) not found" % (subsystem_name, module_name, module_type))
+ if module_type in ['SUBSYSTEM']:
+ # if a module is a plain object type (not a library) then the
+ # subsystem it is part of needs to have it as a dependency, so targets
+ # that depend on this subsystem get the modules of that subsystem
+ subsystem.samba_deps_extended.append(module_name)
+ subsystem.samba_deps_extended = unique_list(subsystem.samba_deps_extended)
# extra link flags from pkg_config
libs = self.final_syslibs.copy()
- (ccflags, ldflags) = library_flags(self, list(libs))
- new_ldflags = getattr(self, 'ldflags', [])
+ (cflags, ldflags, cpppath) = library_flags(self, list(libs))
+ new_ldflags = getattr(self, 'samba_ldflags', [])[:]
new_ldflags.extend(ldflags)
self.ldflags = new_ldflags
+ if getattr(self, 'allow_undefined_symbols', False) and self.env.undefined_ldflags:
+ for f in self.env.undefined_ldflags:
+ self.ldflags.remove(f)
+
+ if getattr(self, 'allow_undefined_symbols', False) and self.env.undefined_ignore_ldflags:
+ for f in self.env.undefined_ignore_ldflags:
+ self.ldflags.append(f)
+
debug('deps: computed dependencies for target %s: uselib=%s uselib_local=%s add_objects=%s',
self.sname, self.uselib, self.uselib_local, self.add_objects)
if self.samba_type in ['SUBSYSTEM']:
- # this is needed for the ccflags of libs that come from pkg_config
- self.uselib = list(self.direct_syslibs)
+ # this is needed for the cflags of libs that come from pkg_config
+ self.uselib = list(self.final_syslibs)
+ self.uselib.extend(list(self.direct_syslibs))
+ for lib in self.final_libs:
+ t = self.bld.get_tgen_by_name(lib)
+ self.uselib.extend(list(t.final_syslibs))
+ self.uselib = unique_list(self.uselib)
if getattr(self, 'uselib', None):
up_list = []
up_list.append(l.upper())
self.uselib = up_list
+
def build_includes(self):
'''This builds the right set of includes for a target.
includes = []
# maybe add local includes
- if getattr(self, 'local_include', True) == True and getattr(self, 'local_include_first', True):
+ if getattr(self, 'local_include', True) and getattr(self, 'local_include_first', True):
includes.append('.')
includes.extend(self.samba_includes_extended)
- if 'EXTRA_INCLUDES' in bld.env:
+ if 'EXTRA_INCLUDES' in bld.env and getattr(self, 'global_include', True):
includes.extend(bld.env['EXTRA_INCLUDES'])
includes.append('#')
inc_abs = []
for d in inc_deps:
- t = bld.name_to_obj(d, bld.env)
+ t = bld.get_tgen_by_name(d)
bld.ASSERT(t is not None, "Unable to find dependency %s for %s" % (d, self.sname))
- inclist = getattr(t, 'samba_includes_extended', [])
- if getattr(t, 'local_include', True) == True:
+ inclist = getattr(t, 'samba_includes_extended', [])[:]
+ if getattr(t, 'local_include', True):
inclist.append('.')
if inclist == []:
continue
relpath = os_path_relpath(inc, mypath)
includes.append(relpath)
- if getattr(self, 'local_include', True) == True and not getattr(self, 'local_include_first', True):
+ if getattr(self, 'local_include', True) and not getattr(self, 'local_include_first', True):
includes.append('.')
# now transform the includes list to be relative to the top directory
self.sname, self.includes)
-
-
def add_init_functions(self):
'''This builds the right set of init functions'''
if m is not None:
modules.append(m)
- if modules == []:
+ if 'pyembed' in self.features:
return
- sentinal = getattr(self, 'init_function_sentinal', 'NULL')
+ sentinel = getattr(self, 'init_function_sentinel', 'NULL')
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
-
cflags = getattr(self, 'samba_cflags', [])[:]
+
+ if modules == []:
+ sname = sname.replace('-','_')
+ sname = sname.replace('.','_')
+ sname = sname.replace('/','_')
+ cflags.append('-DSTATIC_%s_MODULES=%s' % (sname, sentinel))
+ if sentinel == 'NULL':
+ proto = "extern void __%s_dummy_module_proto(void)" % (sname)
+ cflags.append('-DSTATIC_%s_MODULES_PROTO=%s' % (sname, proto))
+ self.cflags = cflags
+ return
+
for m in modules:
bld.ASSERT(m in subsystems,
"No init_function defined for module '%s' in target '%s'" % (m, self.sname))
if targets[d['TARGET']] != 'DISABLED':
init_fn_list.append(d['INIT_FUNCTION'])
if init_fn_list == []:
- cflags.append('-DSTATIC_%s_MODULES=%s' % (m, sentinal))
+ cflags.append('-DSTATIC_%s_MODULES=%s' % (m, sentinel))
+ if sentinel == 'NULL':
+ proto = "extern void __%s_dummy_module_proto(void)" % (m)
+ cflags.append('-DSTATIC_%s_MODULES_PROTO=%s' % (m, proto))
else:
- cflags.append('-DSTATIC_%s_MODULES=%s' % (m, ','.join(init_fn_list) + ',' + sentinal))
- self.ccflags = cflags
-
+ cflags.append('-DSTATIC_%s_MODULES=%s' % (m, ','.join(init_fn_list) + ',' + sentinel))
+ proto=''
+ for f in init_fn_list:
+ proto += '_MODULE_PROTO(%s)' % f
+ proto += "extern void __%s_dummy_module_proto(void)" % (m)
+ cflags.append('-DSTATIC_%s_MODULES_PROTO=%s' % (m, proto))
+ self.cflags = cflags
def check_duplicate_sources(bld, tgt_list):
- '''see if we are compiling the same source file into multiple
- subsystem targets for the same library or binary'''
+ '''see if we are compiling the same source file more than once'''
debug('deps: checking for duplicate sources')
-
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
- ret = True
-
- seen = set()
for t in tgt_list:
- obj_sources = getattr(t, 'source', '')
- tpath = os_path_relpath(t.path.abspath(bld.env), t.env['BUILD_DIRECTORY'] + '/default')
- obj_sources = bld.SUBDIR(tpath, obj_sources)
- t.samba_source_set = set(TO_LIST(obj_sources))
-
+ source_list = TO_LIST(getattr(t, 'source', ''))
+ tpath = os.path.normpath(os_path_relpath(t.path.abspath(bld.env), t.env.BUILD_DIRECTORY + '/default'))
+ obj_sources = set()
+ for s in source_list:
+ if not isinstance(s, str):
+ print('strange path in check_duplicate_sources %r' % s)
+ s = s.abspath()
+ p = os.path.normpath(os.path.join(tpath, s))
+ if p in obj_sources:
+ Logs.error("ERROR: source %s appears twice in target '%s'" % (p, t.sname))
+ sys.exit(1)
+ obj_sources.add(p)
+ t.samba_source_set = obj_sources
+
+ subsystems = {}
+
+ # build a list of targets that each source file is part of
for t in tgt_list:
if not targets[t.sname] in [ 'LIBRARY', 'BINARY', 'PYTHON' ]:
continue
-
- sources = []
for obj in t.add_objects:
- t2 = t.bld.name_to_obj(obj, bld.env)
+ t2 = t.bld.get_tgen_by_name(obj)
source_set = getattr(t2, 'samba_source_set', set())
- sources.append( { 'dep':obj, 'src':source_set} )
- for s in sources:
- for s2 in sources:
- if s['dep'] == s2['dep']: continue
- common = s['src'].intersection(s2['src'])
- if common.difference(seen):
- print("Target %s has duplicate source files in %s and %s : %s" % (t.sname,
- s['dep'], s2['dep'],
- common))
- seen = seen.union(common)
- ret = False
- return ret
+ for s in source_set:
+ if not s in subsystems:
+ subsystems[s] = {}
+ if not t.sname in subsystems[s]:
+ subsystems[s][t.sname] = []
+ subsystems[s][t.sname].append(t2.sname)
+
+ for s in subsystems:
+ if len(subsystems[s]) > 1 and Options.options.SHOW_DUPLICATES:
+ Logs.warn("WARNING: source %s is in more than one target: %s" % (s, subsystems[s].keys()))
+ for tname in subsystems[s]:
+ if len(subsystems[s][tname]) > 1:
+ raise Errors.WafError("ERROR: source %s is in more than one subsystem of target '%s': %s" % (s, tname, subsystems[s][tname]))
+
+ return True
+def check_group_ordering(bld, tgt_list):
+ '''see if we have any dependencies that violate the group ordering
-def check_orpaned_targets(bld, tgt_list):
- '''check if any build targets are orphaned'''
+ It is an error for a target to depend on a target from a later
+ build group
+ '''
- target_dict = LOCAL_CACHE(bld, 'TARGET_TYPE')
+ def group_name(g):
+ tm = bld.task_manager
+ return [x for x in tm.groups_names if id(tm.groups_names[x]) == id(g)][0]
- debug('deps: checking for orphaned targets')
+ for g in bld.task_manager.groups:
+ gname = group_name(g)
+ for t in g.tasks_gen:
+ t.samba_group = gname
+ grp_map = {}
+ idx = 0
+ for g in bld.task_manager.groups:
+ name = group_name(g)
+ grp_map[name] = idx
+ idx += 1
+
+ targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
+
+ ret = True
for t in tgt_list:
- if getattr(t, 'samba_used', False) == True:
- continue
- type = target_dict[t.sname]
- if not type in ['BINARY', 'LIBRARY', 'MODULE', 'ET', 'PYTHON']:
- if re.search('^PIDL_', t.sname) is None:
- print("Target %s of type %s is unused by any other target" % (t.sname, type))
+ tdeps = getattr(t, 'add_objects', []) + getattr(t, 'uselib_local', [])
+ for d in tdeps:
+ t2 = bld.get_tgen_by_name(d)
+ if t2 is None:
+ continue
+ map1 = grp_map[t.samba_group]
+ map2 = grp_map[t2.samba_group]
+
+ if map2 > map1:
+ Logs.error("Target %r in build group %r depends on target %r from later build group %r" % (
+ t.sname, t.samba_group, t2.sname, t2.samba_group))
+ ret = False
+ return ret
+Build.BuildContext.check_group_ordering = check_group_ordering
def show_final_deps(bld, tgt_list):
'''show the final dependencies for all targets'''
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
for t in tgt_list:
- if not targets[t.sname] in ['LIBRARY', 'BINARY', 'PYTHON']:
+ if not targets[t.sname] in ['LIBRARY', 'BINARY', 'PYTHON', 'SUBSYSTEM']:
continue
debug('deps: final dependencies for target %s: uselib=%s uselib_local=%s add_objects=%s',
- t.sname, t.uselib, t.uselib_local, t.add_objects)
+ t.sname, t.uselib, getattr(t, 'uselib_local', []), getattr(t, 'add_objects', []))
def add_samba_attributes(bld, tgt_list):
t.samba_abspath = t.path.abspath(bld.env)
t.samba_deps_extended = t.samba_deps[:]
t.samba_includes_extended = TO_LIST(t.samba_includes)[:]
- t.ccflags = getattr(t, 'samba_cflags', '')
+ t.cflags = getattr(t, 'samba_cflags', '')
+
+def replace_grouping_libraries(bld, tgt_list):
+ '''replace dependencies based on grouping libraries
+
+ If a library is marked as a grouping library, then any target that
+ depends on a subsystem that is part of that grouping library gets
+ that dependency replaced with a dependency on the grouping library
+ '''
+
+ targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
+
+ grouping = {}
+
+ # find our list of grouping libraries, mapped from the subsystems they depend on
+ for t in tgt_list:
+ if not getattr(t, 'grouping_library', False):
+ continue
+ for dep in t.samba_deps_extended:
+ bld.ASSERT(dep in targets, "grouping library target %s not declared in %s" % (dep, t.sname))
+ if targets[dep] == 'SUBSYSTEM':
+ grouping[dep] = t.sname
+
+ # now replace any dependencies on elements of grouping libraries
+ for t in tgt_list:
+ for i in range(len(t.samba_deps_extended)):
+ dep = t.samba_deps_extended[i]
+ if dep in grouping:
+ if t.sname != grouping[dep]:
+ debug("deps: target %s: replacing dependency %s with grouping library %s" % (t.sname, dep, grouping[dep]))
+ t.samba_deps_extended[i] = grouping[dep]
+
def build_direct_deps(bld, tgt_list):
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
syslib_deps = LOCAL_CACHE(bld, 'SYSLIB_DEPS')
+
global_deps = bld.env.GLOBAL_DEPENDENCIES
+ global_deps_exclude = set()
+ for dep in global_deps:
+ t = bld.get_tgen_by_name(dep)
+ for d in t.samba_deps:
+ # prevent loops from the global dependencies list
+ global_deps_exclude.add(d)
+ global_deps_exclude.add(d + '.objlist')
for t in tgt_list:
t.direct_objects = set()
t.direct_libs = set()
t.direct_syslibs = set()
- deps = t.samba_deps_extended
- deps.extend(global_deps)
+ deps = t.samba_deps_extended[:]
+ if getattr(t, 'samba_use_global_deps', False) and not t.sname in global_deps_exclude:
+ deps.extend(global_deps)
for d in deps:
- d = EXPAND_ALIAS(bld, d)
if d == t.sname: continue
if not d in targets:
- print("Unknown dependency %s in %s" % (d, t.sname))
- raise
+ Logs.error("Unknown dependency '%s' in '%s'" % (d, t.sname))
+ sys.exit(1)
if targets[d] in [ 'EMPTY', 'DISABLED' ]:
continue
+ if targets[d] == 'PYTHON' and targets[t.sname] != 'PYTHON' and t.sname.find('.objlist') == -1:
+ # this check should be more restrictive, but for now we have pidl-generated python
+ # code that directly depends on other python modules
+ Logs.error('ERROR: Target %s has dependency on python module %s' % (t.sname, d))
+ sys.exit(1)
if targets[d] == 'SYSLIB':
t.direct_syslibs.add(d)
if d in syslib_deps:
for implied in TO_LIST(syslib_deps[d]):
if BUILTIN_LIBRARY(bld, implied):
t.direct_objects.add(implied)
- else:
+ elif targets[implied] == 'SYSLIB':
+ t.direct_syslibs.add(implied)
+ elif targets[implied] in ['LIBRARY', 'MODULE']:
t.direct_libs.add(implied)
+ else:
+ Logs.error('Implied dependency %s in %s is of type %s' % (
+ implied, t.sname, targets[implied]))
+ sys.exit(1)
continue
- t2 = bld.name_to_obj(d, bld.env)
+ t2 = bld.get_tgen_by_name(d)
if t2 is None:
- print("no task %s type %s" % (d, targets[d]))
+ Logs.error("no task %s of type %s in %s" % (d, targets[d], t.sname))
+ sys.exit(1)
if t2.samba_type in [ 'LIBRARY', 'MODULE' ]:
t.direct_libs.add(d)
elif t2.samba_type in [ 'SUBSYSTEM', 'ASN1', 'PYTHON' ]:
dependency_loop(loops, t, obj)
continue
chain.add(obj)
- t2 = bld.name_to_obj(obj, bld.env)
+ t2 = bld.get_tgen_by_name(obj)
r2 = indirect_libs(bld, t2, chain, loops)
chain.remove(obj)
ret = ret.union(t2.direct_libs)
dependency_loop(loops, t, obj)
continue
chain.add(obj)
- t2 = bld.name_to_obj(obj, bld.env)
+ t2 = bld.get_tgen_by_name(obj)
r2 = indirect_libs(bld, t2, chain, loops)
chain.remove(obj)
ret = ret.union(t2.direct_libs)
dependency_loop(loops, t, lib)
continue
chain.add(lib)
- t2 = bld.name_to_obj(lib, bld.env)
+ t2 = bld.get_tgen_by_name(lib)
r2 = indirect_objects(bld, t2, chain, loops)
chain.remove(lib)
ret = ret.union(t2.direct_objects)
for lib in t.final_libs:
if lib in chain:
continue
- t2 = bld.name_to_obj(lib, bld.env)
+ t2 = bld.get_tgen_by_name(lib)
chain.add(lib)
r2 = extended_objects(bld, t2, chain)
chain.remove(lib)
dependency_loop(inc_loops, t, obj)
continue
chain.add(obj)
- t2 = bld.name_to_obj(obj, bld.env)
+ t2 = bld.get_tgen_by_name(obj)
r2 = includes_objects(bld, t2, chain, inc_loops)
chain.remove(obj)
ret = ret.union(t2.direct_objects)
dependency_loop(inc_loops, t, lib)
continue
chain.add(lib)
- t2 = bld.name_to_obj(lib, bld.env)
+ t2 = bld.get_tgen_by_name(lib)
+ if t2 is None:
+ targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
+ Logs.error('Target %s of type %s not found in direct_libs for %s' % (
+ lib, targets[lib], t.sname))
+ sys.exit(1)
r2 = includes_objects(bld, t2, chain, inc_loops)
chain.remove(lib)
ret = ret.union(t2.direct_objects)
# expand indirect subsystem and library loops
for loop in loops.copy():
- t = bld.name_to_obj(loop, bld.env)
+ t = bld.get_tgen_by_name(loop)
if t.samba_type in ['SUBSYSTEM']:
loops[loop] = loops[loop].union(t.indirect_objects)
loops[loop] = loops[loop].union(t.direct_objects)
# expand indirect includes loops
for loop in inc_loops.copy():
- t = bld.name_to_obj(loop, bld.env)
+ t = bld.get_tgen_by_name(loop)
inc_loops[loop] = inc_loops[loop].union(t.includes_objects)
if loop in inc_loops[loop]:
inc_loops[loop].remove(loop)
# add in the replacement dependencies
for t in tgt_list:
for loop in loops:
- for attr in ['direct_objects', 'indirect_objects', 'direct_libs', 'indirect_libs']:
+ for attr in ['indirect_objects', 'indirect_libs']:
objs = getattr(t, attr, set())
if loop in objs:
diff = loops[loop].difference(objs)
# if we will indirectly link to a target then we don't need it
new = t.final_objects.copy()
for l in t.final_libs:
- t2 = bld.name_to_obj(l, bld.env)
+ t2 = bld.get_tgen_by_name(l)
t2_obj = extended_objects(bld, t2, set())
dup = new.intersection(t2_obj)
+ if t.sname in rely_on:
+ dup = dup.difference(rely_on[t.sname])
if dup:
debug('deps: removing dups from %s of type %s: %s also in %s %s',
t.sname, t.samba_type, dup, t2.samba_type, l)
# add back in any objects that were relied upon by the reduction rules
for r in rely_on:
- t = bld.name_to_obj(r, bld.env)
+ t = bld.get_tgen_by_name(r)
t.final_objects = t.final_objects.union(rely_on[r])
return True
+def show_library_loop(bld, lib1, lib2, path, seen):
+ '''show the detailed path of a library loop between lib1 and lib2'''
+
+ t = bld.get_tgen_by_name(lib1)
+ if not lib2 in getattr(t, 'final_libs', set()):
+ return
+
+ for d in t.samba_deps_extended:
+ if d in seen:
+ continue
+ seen.add(d)
+ path2 = path + '=>' + d
+ if d == lib2:
+ Logs.warn('library loop path: ' + path2)
+ return
+ show_library_loop(bld, d, lib2, path2, seen)
+ seen.remove(d)
+
+
def calculate_final_deps(bld, tgt_list, loops):
'''calculate the final library and object dependencies'''
for t in tgt_list:
if t.sname in t.final_objects:
t.final_objects.remove(t.sname)
+ # handle any non-shared binaries
+ for t in tgt_list:
+ if t.samba_type == 'BINARY' and bld.NONSHARED_BINARY(t.sname):
+ subsystem_list = LOCAL_CACHE(bld, 'INIT_FUNCTIONS')
+ targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
+
+ # replace lib deps with objlist deps
+ for l in t.final_libs:
+ objname = l + '.objlist'
+ t2 = bld.get_tgen_by_name(objname)
+ if t2 is None:
+ Logs.error('ERROR: subsystem %s not found' % objname)
+ sys.exit(1)
+ t.final_objects.add(objname)
+ t.final_objects = t.final_objects.union(extended_objects(bld, t2, set()))
+ if l in subsystem_list:
+ # its a subsystem - we also need the contents of any modules
+ for d in subsystem_list[l]:
+ module_name = d['TARGET']
+ if targets[module_name] == 'LIBRARY':
+ objname = module_name + '.objlist'
+ elif targets[module_name] == 'SUBSYSTEM':
+ objname = module_name
+ else:
+ continue
+ t2 = bld.get_tgen_by_name(objname)
+ if t2 is None:
+ Logs.error('ERROR: subsystem %s not found' % objname)
+ sys.exit(1)
+ t.final_objects.add(objname)
+ t.final_objects = t.final_objects.union(extended_objects(bld, t2, set()))
+ t.final_libs = set()
# find any library loops
for t in tgt_list:
if t.samba_type in ['LIBRARY', 'PYTHON']:
for l in t.final_libs.copy():
- t2 = bld.name_to_obj(l, bld.env)
+ t2 = bld.get_tgen_by_name(l)
if t.sname in t2.final_libs:
- # we could break this in either direction. If one of the libraries
- # has a version number, and will this be distributed publicly, then
- # we should make it the lower level library in the DAG
- debug('deps: removing library loop %s from %s', t.sname, t2.sname)
- dependency_loop(loops, t, t2.sname)
- t2.final_libs.remove(t.sname)
-
+ if getattr(bld.env, "ALLOW_CIRCULAR_LIB_DEPENDENCIES", False):
+ # we could break this in either direction. If one of the libraries
+ # has a version number, and will this be distributed publicly, then
+ # we should make it the lower level library in the DAG
+ Logs.warn('deps: removing library loop %s from %s' % (t.sname, t2.sname))
+ dependency_loop(loops, t, t2.sname)
+ t2.final_libs.remove(t.sname)
+ else:
+ Logs.error('ERROR: circular library dependency between %s and %s'
+ % (t.sname, t2.sname))
+ show_library_loop(bld, t.sname, t2.sname, t.sname, set())
+ show_library_loop(bld, t2.sname, t.sname, t2.sname, set())
+ sys.exit(1)
for loop in loops:
debug('deps: Found dependency loops for target %s : %s', loop, loops[loop])
diff = loops[loop].difference(t.final_libs)
if t.sname in diff:
diff.remove(t.sname)
+ if t.sname in diff:
+ diff.remove(t.sname)
+ # make sure we don't recreate the loop again!
+ for d in diff.copy():
+ t2 = bld.get_tgen_by_name(d)
+ if t2.samba_type == 'LIBRARY':
+ if t.sname in t2.final_libs:
+ debug('deps: removing expansion %s from %s', d, t.sname)
+ diff.remove(d)
if diff:
- debug('deps: Expanded target %s by loop %s libraries %s', t.sname, loop, diff)
+ debug('deps: Expanded target %s by loop %s libraries (loop %s) %s', t.sname, loop,
+ loops[loop], diff)
t.final_libs = t.final_libs.union(diff)
# remove objects that are also available in linked libs
while reduce_objects(bld, tgt_list):
count += 1
if count > 100:
- print("WARNING: Unable to remove all inter-target object duplicates")
+ Logs.warn("WARNING: Unable to remove all inter-target object duplicates")
break
debug('deps: Object reduction took %u iterations', count)
# add in any syslib dependencies
for t in tgt_list:
- if not t.samba_type in ['BINARY','PYTHON','LIBRARY']:
+ if not t.samba_type in ['BINARY','PYTHON','LIBRARY','SUBSYSTEM']:
continue
syslibs = set()
for d in t.final_objects:
- t2 = bld.name_to_obj(d, bld.env)
+ t2 = bld.get_tgen_by_name(d)
syslibs = syslibs.union(t2.direct_syslibs)
# this adds the indirect syslibs as well, which may not be needed
# depending on the linker flags
for d in t.final_libs:
- t2 = bld.name_to_obj(d, bld.env)
+ t2 = bld.get_tgen_by_name(d)
syslibs = syslibs.union(t2.direct_syslibs)
t.final_syslibs = syslibs
+
+ # find any unresolved library loops
+ lib_loop_error = False
+ for t in tgt_list:
+ if t.samba_type in ['LIBRARY', 'PYTHON']:
+ for l in t.final_libs.copy():
+ t2 = bld.get_tgen_by_name(l)
+ if t.sname in t2.final_libs:
+ Logs.error('ERROR: Unresolved library loop %s from %s' % (t.sname, t2.sname))
+ lib_loop_error = True
+ if lib_loop_error:
+ sys.exit(1)
+
debug('deps: removed duplicate dependencies')
+def show_dependencies(bld, target, seen):
+ '''recursively show the dependencies of target'''
+
+ if target in seen:
+ return
+
+ t = bld.get_tgen_by_name(target)
+ if t is None:
+ Logs.error("ERROR: Unable to find target '%s'" % target)
+ sys.exit(1)
+
+ Logs.info('%s(OBJECTS): %s' % (target, t.direct_objects))
+ Logs.info('%s(LIBS): %s' % (target, t.direct_libs))
+ Logs.info('%s(SYSLIBS): %s' % (target, t.direct_syslibs))
+
+ seen.add(target)
+
+ for t2 in t.direct_objects:
+ show_dependencies(bld, t2, seen)
+
+
+def show_object_duplicates(bld, tgt_list):
+ '''show a list of object files that are included in more than
+ one library or binary'''
+
+ targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
+
+ used_by = {}
+
+ Logs.info("showing duplicate objects")
+
+ for t in tgt_list:
+ if not targets[t.sname] in [ 'LIBRARY', 'PYTHON' ]:
+ continue
+ for n in getattr(t, 'final_objects', set()):
+ t2 = bld.get_tgen_by_name(n)
+ if not n in used_by:
+ used_by[n] = set()
+ used_by[n].add(t.sname)
+
+ for n in used_by:
+ if len(used_by[n]) > 1:
+ Logs.info("target '%s' is used by %s" % (n, used_by[n]))
+
+ Logs.info("showing indirect dependency counts (sorted by count)")
+
+ def indirect_count(t1, t2):
+ return len(t2.indirect_objects) - len(t1.indirect_objects)
+
+ sorted_list = sorted(tgt_list, cmp=indirect_count)
+ for t in sorted_list:
+ if len(t.indirect_objects) > 1:
+ Logs.info("%s depends on %u indirect objects" % (t.sname, len(t.indirect_objects)))
+
+
######################################################################
# this provides a way to save our dependency calculations between runs
savedeps_version = 3
-savedeps_inputs = ['samba_deps', 'samba_includes', 'local_include', 'local_include_first', 'samba_cflags', 'source']
-savedeps_outputs = ['uselib', 'uselib_local', 'add_objects', 'includes', 'ccflags']
+savedeps_inputs = ['samba_deps', 'samba_includes', 'local_include', 'local_include_first', 'samba_cflags',
+ 'source', 'grouping_library', 'samba_ldflags', 'allow_undefined_symbols',
+ 'use_global_deps', 'global_include' ]
+savedeps_outputs = ['uselib', 'uselib_local', 'add_objects', 'includes',
+ 'cflags', 'ldflags', 'samba_deps_extended', 'final_libs']
savedeps_outenv = ['INC_PATHS']
-savedeps_caches = ['GLOBAL_DEPENDENCIES', 'TARGET_ALIAS', 'TARGET_TYPE', 'INIT_FUNCTIONS', 'SYSLIB_DEPS']
+savedeps_envvars = ['NONSHARED_BINARIES', 'GLOBAL_DEPENDENCIES', 'EXTRA_CFLAGS', 'EXTRA_LDFLAGS', 'EXTRA_INCLUDES' ]
+savedeps_caches = ['GLOBAL_DEPENDENCIES', 'TARGET_TYPE', 'INIT_FUNCTIONS', 'SYSLIB_DEPS']
savedeps_files = ['buildtools/wafsamba/samba_deps.py']
def save_samba_deps(bld, tgt_list):
'''save the dependency calculations between builds, to make
further builds faster'''
- denv = Environment.Environment()
+ denv = ConfigSet.ConfigSet()
denv.version = savedeps_version
denv.savedeps_inputs = savedeps_inputs
denv.output = {}
denv.outenv = {}
denv.caches = {}
+ denv.envvar = {}
denv.files = {}
for f in savedeps_files:
for c in savedeps_caches:
denv.caches[c] = LOCAL_CACHE(bld, c)
+ for e in savedeps_envvars:
+ denv.envvar[e] = bld.env[e]
+
for t in tgt_list:
# save all the input attributes for each target
tdeps = {}
denv.outenv[t.sname] = tdeps
depsfile = os.path.join(bld.bdir, "sambadeps")
- denv.store(depsfile)
+ denv.store_fast(depsfile)
def load_samba_deps(bld, tgt_list):
'''load a previous set of build dependencies if possible'''
- depsfile = os.path.join(bld.bdir, "sambadeps")
- denv = Environment.Environment()
+ depsfile = os.path.join(bld.bldnode.abspath(), "sambadeps")
+ denv = ConfigSet.ConfigSet()
try:
debug('deps: checking saved dependencies')
- denv.load(depsfile)
+ denv.load_fast(depsfile)
if (denv.version != savedeps_version or
denv.savedeps_inputs != savedeps_inputs or
denv.savedeps_outputs != savedeps_outputs):
return False
- except:
+ except Exception:
return False
# check if critical files have changed
if c not in denv.caches or denv.caches[c] != LOCAL_CACHE(bld, c):
return False
+ # check if caches are the same
+ for e in savedeps_envvars:
+ if e not in denv.envvar or denv.envvar[e] != bld.env[e]:
+ return False
+
# check inputs are the same
for t in tgt_list:
tdeps = {}
def check_project_rules(bld):
'''check the project rules - ensuring the targets are sane'''
- targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
loops = {}
inc_loops = {}
- # build a list of task generators we are interested in
- tgt_list = []
- for tgt in targets:
- type = targets[tgt]
- if not type in ['SUBSYSTEM', 'MODULE', 'BINARY', 'LIBRARY', 'ASN1', 'PYTHON']:
- continue
- t = bld.name_to_obj(tgt, bld.env)
- if t is None:
- print("Target %s of type %s has no task generator" % (tgt, type))
- raise
- tgt_list.append(t)
+ tgt_list = get_tgt_list(bld)
add_samba_attributes(bld, tgt_list)
- if load_samba_deps(bld, tgt_list):
+ force_project_rules = (Options.options.SHOWDEPS or
+ Options.options.SHOW_DUPLICATES)
+
+ if not force_project_rules and load_samba_deps(bld, tgt_list):
return
- print("Checking project rules ...")
+ global tstart
+ tstart = time.clock()
+
+ bld.new_rules = True
+ Logs.info("Checking project rules ...")
debug('deps: project rules checking started')
expand_subsystem_deps(bld)
+
+ debug("deps: expand_subsystem_deps: %f" % (time.clock() - tstart))
+
+ replace_grouping_libraries(bld, tgt_list)
+
+ debug("deps: replace_grouping_libraries: %f" % (time.clock() - tstart))
+
build_direct_deps(bld, tgt_list)
+
+ debug("deps: build_direct_deps: %f" % (time.clock() - tstart))
+
break_dependency_loops(bld, tgt_list)
+
+ debug("deps: break_dependency_loops: %f" % (time.clock() - tstart))
+
+ if Options.options.SHOWDEPS:
+ show_dependencies(bld, Options.options.SHOWDEPS, set())
+
calculate_final_deps(bld, tgt_list, loops)
+ debug("deps: calculate_final_deps: %f" % (time.clock() - tstart))
+
+ if Options.options.SHOW_DUPLICATES:
+ show_object_duplicates(bld, tgt_list)
+
# run the various attribute generators
for f in [ build_dependencies, build_includes, add_init_functions ]:
debug('deps: project rules checking %s', f)
for t in tgt_list: f(t)
+ debug("deps: %s: %f" % (f, time.clock() - tstart))
debug('deps: project rules stage1 completed')
- #check_orpaned_targets(bld, tgt_list)
-
if not check_duplicate_sources(bld, tgt_list):
- print("Duplicate sources present - aborting")
+ Logs.error("Duplicate sources present - aborting")
+ sys.exit(1)
+
+ debug("deps: check_duplicate_sources: %f" % (time.clock() - tstart))
+
+ if not bld.check_group_ordering(tgt_list):
+ Logs.error("Bad group ordering - aborting")
sys.exit(1)
+ debug("deps: check_group_ordering: %f" % (time.clock() - tstart))
+
show_final_deps(bld, tgt_list)
+ debug("deps: show_final_deps: %f" % (time.clock() - tstart))
+
debug('deps: project rules checking completed - %u targets checked',
len(tgt_list))
- save_samba_deps(bld, tgt_list)
+ if not bld.is_install:
+ save_samba_deps(bld, tgt_list)
+
+ debug("deps: save_samba_deps: %f" % (time.clock() - tstart))
- print("Project rules pass")
+ Logs.info("Project rules pass")
def CHECK_PROJECT_RULES(bld):