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|
# a waf tool to extract symbols from object files or libraries
# using nm, producing a set of exposed defined/undefined symbols
import Utils, Build, subprocess, Logs
from samba_wildcard import fake_build_environment
from samba_utils import *
def symbols_extract(objfiles, dynamic=False):
'''extract symbols from objfile, returning a dictionary containing
the set of undefined and public symbols for each file'''
ret = {}
cmd = ["nm"]
if dynamic:
# needed for some .so files
cmd.append("-D")
cmd.extend(objfiles)
nmpipe = subprocess.Popen(cmd, stdout=subprocess.PIPE).stdout
if len(objfiles) == 1:
filename = objfiles[0]
ret[filename] = { "PUBLIC": set(), "UNDEFINED" : set()}
for line in nmpipe:
line = line.strip()
if line.endswith(':'):
filename = line[:-1]
ret[filename] = { "PUBLIC": set(), "UNDEFINED" : set() }
continue
cols = line.split(" ")
if cols == ['']:
continue
# see if the line starts with an address
if len(cols) == 3:
symbol_type = cols[1]
symbol = cols[2]
else:
symbol_type = cols[0]
symbol = cols[1]
if symbol_type in "BDGTRVWSi":
# its a public symbol
ret[filename]["PUBLIC"].add(symbol)
elif symbol_type in "U":
ret[filename]["UNDEFINED"].add(symbol)
return ret
def real_name(name):
if name.find(".objlist") != -1:
name = name[:-8]
return name
def find_syslib_path(bld, libname, deps):
'''find the path to the syslib we will link against'''
# the strategy is to use the targets that depend on the library, and run ldd
# on it to find the real location of the library that is used
linkpath = deps[0].link_task.outputs[0].abspath(bld.env)
if libname == "python":
libname += bld.env.PYTHON_VERSION
ret = None
lddpipe = subprocess.Popen(['ldd', linkpath], stdout=subprocess.PIPE).stdout
for line in lddpipe:
line = line.strip()
cols = line.split(" ")
if len(cols) < 3 or cols[1] != "=>":
continue
if cols[0].startswith("lib%s." % libname.lower()):
ret = cols[2]
if cols[0].startswith("libc."):
# save this one too
bld.env.libc_path = cols[2]
return ret
def build_symbol_sets(bld, tgt_list):
'''build the public_symbols and undefined_symbols attributes for each target'''
objlist = [] # list of object file
objmap = {} # map from object filename to target
for t in tgt_list:
t.public_symbols = set()
t.undefined_symbols = set()
for tsk in getattr(t, 'compiled_tasks', []):
for output in tsk.outputs:
objpath = output.abspath(bld.env)
objlist.append(objpath)
objmap[objpath] = t
symbols = symbols_extract(objlist)
for obj in objlist:
t = objmap[obj]
t.public_symbols = t.public_symbols.union(symbols[obj]["PUBLIC"])
t.undefined_symbols = t.undefined_symbols.union(symbols[obj]["UNDEFINED"])
t.undefined_symbols = t.undefined_symbols.difference(t.public_symbols)
# and the reverse map of public symbols to subsystem name
bld.env.symbol_map = {}
for t in tgt_list:
for s in t.public_symbols:
bld.env.symbol_map[s] = real_name(t.sname)
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
bld.env.public_symbols = {}
for t in tgt_list:
name = real_name(t.sname)
if name in bld.env.public_symbols:
bld.env.public_symbols[name] = bld.env.public_symbols[name].union(t.public_symbols)
else:
bld.env.public_symbols[name] = t.public_symbols
if t.samba_type == 'LIBRARY':
for dep in t.add_objects:
t2 = bld.name_to_obj(dep, bld.env)
bld.ASSERT(t2 is not None, "Library '%s' has unknown dependency '%s'" % (name, dep))
bld.env.public_symbols[name] = bld.env.public_symbols[name].union(t2.public_symbols)
def build_syslib_sets(bld, tgt_list):
'''build the public_symbols for all syslibs'''
# work out what syslibs we depend on, and what targets those are used in
syslibs = {}
objmap = {}
for t in tgt_list:
if getattr(t, 'uselib', []) and t.samba_type in [ 'LIBRARY', 'BINARY', 'PYTHON' ]:
for lib in t.uselib:
if lib in ['PYEMBED', 'PYEXT']:
lib = "python"
if not lib in syslibs:
syslibs[lib] = []
syslibs[lib].append(t)
# work out the paths to each syslib
syslib_paths = []
for lib in syslibs:
path = find_syslib_path(bld, lib, syslibs[lib])
if path is None:
print("Unable to find syslib path for %s used by %s" % lib)
if path is not None:
syslib_paths.append(path)
objmap[path] = lib.lower()
# add in libc
syslib_paths.append(bld.env.libc_path)
objmap[bld.env.libc_path] = 'c'
symbols = symbols_extract(syslib_paths, dynamic=True)
# keep a map of syslib names to public symbols
bld.env.syslib_symbols = {}
for lib in symbols:
bld.env.syslib_symbols[lib] = symbols[lib]["PUBLIC"]
# add to the map of symbols to dependencies
for lib in symbols:
for sym in symbols[lib]["PUBLIC"]:
bld.env.symbol_map[sym] = objmap[lib]
# keep the libc symbols as well, as these are useful for some of the
# sanity checks
bld.env.libc_symbols = symbols[bld.env.libc_path]["PUBLIC"]
# add to the combined map of dependency name to public_symbols
for lib in bld.env.syslib_symbols:
bld.env.public_symbols[objmap[lib]] = bld.env.syslib_symbols[lib]
def build_autodeps(bld, t):
'''build the set of dependencies for a target'''
deps = set()
name = real_name(t.sname)
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
for sym in t.undefined_symbols:
if sym in t.public_symbols:
continue
if sym in bld.env.symbol_map:
depname = bld.env.symbol_map[sym]
if depname == name:
# self dependencies aren't interesting
continue
if t.in_library == [depname]:
# no need to depend on the library we are part of
continue
if depname in ['c', 'python']:
# these don't go into autodeps
continue
if targets[depname] in [ 'SYSLIB' ]:
deps.add(depname)
continue
t2 = bld.name_to_obj(depname, bld.env)
if len(t2.in_library) != 1:
deps.add(depname)
continue
if t2.in_library == t.in_library:
# if we're part of the same library, we don't need to autodep
continue
deps.add(t2.in_library[0])
t.autodeps = deps
def build_library_names(bld, tgt_list):
'''add a in_library attribute to all targets that are part of a library'''
for t in tgt_list:
t.in_library = []
for t in tgt_list:
if t.samba_type in [ 'LIBRARY' ]:
for obj in t.samba_deps_extended:
t2 = bld.name_to_obj(obj, bld.env)
if t2 and t2.samba_type in [ 'SUBSYSTEM', 'ASN1' ]:
if not t.sname in t2.in_library:
t2.in_library.append(t.sname)
def check_library_deps(bld, t):
'''check that all the autodeps that have mutual dependency of this
target are in the same library as the target'''
name = real_name(t.sname)
if len(t.in_library) > 1:
Logs.warn("WARNING: Target '%s' in multiple libraries: %s" % (t.sname, t.in_library))
for dep in t.autodeps:
t2 = bld.name_to_obj(dep, bld.env)
if t2 is None:
continue
for dep2 in t2.autodeps:
if dep2 == name and t.in_library != t2.in_library:
Logs.warn("WARNING: mutual dependency %s <=> %s" % (name, real_name(t2.sname)))
Logs.warn("Libraries should match. %s != %s" % (t.in_library, t2.in_library))
# raise Utils.WafError("illegal mutual dependency")
def check_syslib_collisions(bld, tgt_list):
'''check if a target has any symbol collisions with a syslib
We do not want any code in Samba to use a symbol name from a
system library. The chance of that causing problems is just too
high. Note that libreplace uses a rep_XX approach of renaming
symbols via macros
'''
has_error = False
for t in tgt_list:
for lib in bld.env.syslib_symbols:
common = t.public_symbols.intersection(bld.env.syslib_symbols[lib])
if common:
Logs.error("ERROR: Target '%s' has symbols '%s' which is also in syslib '%s'" % (t.sname, common, lib))
has_error = True
if has_error:
raise Utils.WafError("symbols in common with system libraries")
def check_dependencies(bld, t):
'''check for depenencies that should be changed'''
if bld.name_to_obj(t.sname + ".objlist", bld.env):
return
targets = LOCAL_CACHE(bld, 'TARGET_TYPE')
remaining = t.undefined_symbols.copy()
remaining = remaining.difference(t.public_symbols)
sname = real_name(t.sname)
deps = set(t.samba_deps)
for d in t.samba_deps:
if targets[d] in [ 'EMPTY', 'DISABLED', 'SYSLIB' ]:
continue
bld.ASSERT(d in bld.env.public_symbols, "Failed to find symbol list for dependency '%s'" % d)
diff = remaining.intersection(bld.env.public_symbols[d])
if not diff and targets[sname] != 'LIBRARY':
Logs.info("Target '%s' has no dependency on %s" % (sname, d))
else:
remaining = remaining.difference(diff)
t.unsatisfied_symbols = set()
needed = {}
for sym in remaining:
if sym in bld.env.symbol_map:
dep = bld.env.symbol_map[sym]
if not dep in needed:
needed[dep] = set()
needed[dep].add(sym)
else:
t.unsatisfied_symbols.add(sym)
for dep in needed:
Logs.info("Target '%s' should add dep '%s' for symbols %s" % (sname, dep, " ".join(needed[dep])))
def check_syslib_dependencies(bld, t):
'''check for syslib depenencies'''
if bld.name_to_obj(t.sname + ".objlist", bld.env):
return
sname = real_name(t.sname)
remaining = set()
features = TO_LIST(t.features)
if 'pyembed' in features or 'pyext' in features:
t.unsatisfied_symbols = t.unsatisfied_symbols.difference(bld.env.public_symbols['python'])
needed = {}
for sym in t.unsatisfied_symbols:
if sym in bld.env.symbol_map:
dep = bld.env.symbol_map[sym]
if dep == 'c':
continue
if not dep in needed:
needed[dep] = set()
needed[dep].add(sym)
else:
remaining.add(sym)
for dep in needed:
Logs.info("Target '%s' should add syslib dep '%s' for symbols %s" % (sname, dep, " ".join(needed[dep])))
if remaining:
debug("deps: Target '%s' has unsatisfied symbols: %s" % (sname, " ".join(remaining)))
def symbols_symbolcheck(task):
'''check the internal dependency lists'''
bld = task.env.bld
tgt_list = get_tgt_list(bld)
build_symbol_sets(bld, tgt_list)
build_library_names(bld, tgt_list)
for t in tgt_list:
t.autodeps = set()
if getattr(t, 'source', ''):
build_autodeps(bld, t)
for t in tgt_list:
check_dependencies(bld, t)
for t in tgt_list:
check_library_deps(bld, t)
def symbols_syslibcheck(task):
'''check the syslib dependencies'''
bld = task.env.bld
tgt_list = get_tgt_list(bld)
build_syslib_sets(bld, tgt_list)
check_syslib_collisions(bld, tgt_list)
for t in tgt_list:
check_syslib_dependencies(bld, t)
def SYMBOL_CHECK(bld):
'''check our dependency lists'''
if Options.options.SYMBOLCHECK:
bld.SET_BUILD_GROUP('symbolcheck')
task = bld(rule=symbols_symbolcheck, always=True, name='symbol checking')
task.env.bld = bld
bld.SET_BUILD_GROUP('syslibcheck')
task = bld(rule=symbols_syslibcheck, always=True, name='syslib checking')
task.env.bld = bld
Build.BuildContext.SYMBOL_CHECK = SYMBOL_CHECK
|
