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author | Andrew Tridgell <tridge@samba.org> | 2011-02-22 10:47:27 +1100 |
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committer | Andrew Tridgell <tridge@samba.org> | 2011-02-22 02:51:10 +0100 |
commit | 0e0ea4efe3c7e7b503ec8529bacacdb8377b44f8 (patch) | |
tree | 2fe47fb3d4785709b8bd3cb493e6e9ab57df162e | |
parent | 949427c208159f4ac580f547dd5465a70b4751b7 (diff) | |
download | samba-0e0ea4efe3c7e7b503ec8529bacacdb8377b44f8.tar.gz samba-0e0ea4efe3c7e7b503ec8529bacacdb8377b44f8.tar.bz2 samba-0e0ea4efe3c7e7b503ec8529bacacdb8377b44f8.zip |
build: enhanced the symbolcheck code
we can now work out why a binary needs a library, and we can find all
the duplicate symbols (we currently have 1087 symbols defined in more
than one place in Samba).
-rw-r--r-- | buildtools/wafsamba/symbols.py | 100 |
1 files changed, 86 insertions, 14 deletions
diff --git a/buildtools/wafsamba/symbols.py b/buildtools/wafsamba/symbols.py index 5681440246..9427485077 100644 --- a/buildtools/wafsamba/symbols.py +++ b/buildtools/wafsamba/symbols.py @@ -5,6 +5,21 @@ import Utils, Build, subprocess, Logs from samba_wildcard import fake_build_environment from samba_utils import * +# these are the data structures used in symbols.py: +# +# bld.env.symbol_map : dictionary mapping public symbol names to list of +# subsystem names where that symbol exists +# +# t.in_library : list of libraries that t is in +# +# bld.env.public_symbols: set of public symbols for each subsystem +# bld.env.used_symbols : set of used symbols for each subsystem +# +# bld.env.syslib_symbols: dictionary mapping system library name to set of symbols +# for that library +# +# LOCAL_CACHE(bld, 'TARGET_TYPE') : dictionary mapping subsystem name to target type + def symbols_extract(objfiles, dynamic=False): '''extract symbols from objfile, returning a dictionary containing the set of undefined and public symbols for each file''' @@ -83,12 +98,13 @@ 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 + objmap = {} # map from object filename to target (subsystem) name for t in tgt_list: t.public_symbols = set() t.undefined_symbols = set() + t.used_symbols = set() for tsk in getattr(t, 'compiled_tasks', []): for output in tsk.outputs: objpath = output.abspath(bld.env) @@ -100,6 +116,7 @@ def build_symbol_sets(bld, tgt_list): t = objmap[obj] t.public_symbols = t.public_symbols.union(symbols[obj]["PUBLIC"]) t.undefined_symbols = t.undefined_symbols.union(symbols[obj]["UNDEFINED"]) + t.used_symbols = t.used_symbols.union(symbols[obj]["UNDEFINED"]) t.undefined_symbols = t.undefined_symbols.difference(t.public_symbols) @@ -108,7 +125,9 @@ def build_symbol_sets(bld, tgt_list): for t in tgt_list: for s in t.public_symbols: - bld.env.symbol_map[s] = real_name(t.sname) + if not s in bld.env.symbol_map: + bld.env.symbol_map[s] = [] + bld.env.symbol_map[s].append(real_name(t.sname)) targets = LOCAL_CACHE(bld, 'TARGET_TYPE') @@ -125,6 +144,19 @@ def build_symbol_sets(bld, tgt_list): 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) + bld.env.used_symbols = {} + for t in tgt_list: + name = real_name(t.sname) + if name in bld.env.used_symbols: + bld.env.used_symbols[name] = bld.env.used_symbols[name].union(t.used_symbols) + else: + bld.env.used_symbols[name] = t.used_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.used_symbols[name] = bld.env.used_symbols[name].union(t2.used_symbols) + def build_syslib_sets(bld, tgt_list): '''build the public_symbols for all syslibs''' @@ -165,7 +197,9 @@ def build_syslib_sets(bld, tgt_list): # 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] + if not sym in bld.env.symbol_map: + bld.env.symbol_map[sym] = [] + bld.env.symbol_map[sym].append(objmap[lib]) # keep the libc symbols as well, as these are useful for some of the # sanity checks @@ -187,21 +221,21 @@ def build_autodeps(bld, t): continue if sym in bld.env.symbol_map: depname = bld.env.symbol_map[sym] - if depname == name: + if depname == [ name ]: # self dependencies aren't interesting continue - if t.in_library == [depname]: + if t.in_library == depname: # no need to depend on the library we are part of continue - if depname in ['c', 'python']: + if depname[0] in ['c', 'python']: # these don't go into autodeps continue - if targets[depname] in [ 'SYSLIB' ]: - deps.add(depname) + if targets[depname[0]] in [ 'SYSLIB' ]: + deps.add(depname[0]) continue - t2 = bld.name_to_obj(depname, bld.env) + t2 = bld.name_to_obj(depname[0], bld.env) if len(t2.in_library) != 1: - deps.add(depname) + deps.add(depname[0]) continue if t2.in_library == t.in_library: # if we're part of the same library, we don't need to autodep @@ -293,9 +327,9 @@ def check_dependencies(bld, t): 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) + if not dep[0] in needed: + needed[dep[0]] = set() + needed[dep[0]].add(sym) else: t.unsatisfied_symbols.add(sym) @@ -321,7 +355,7 @@ def check_syslib_dependencies(bld, t): needed = {} for sym in t.unsatisfied_symbols: if sym in bld.env.symbol_map: - dep = bld.env.symbol_map[sym] + dep = bld.env.symbol_map[sym][0] if dep == 'c': continue if not dep in needed: @@ -369,6 +403,39 @@ def symbols_syslibcheck(task): check_syslib_dependencies(bld, t) +def check_why_needed(bld, target, subsystem): + """check why 'target' needs to link to 'subsystem'""" + Logs.info("Checking why %s needs to link to %s" % (target, subsystem)) + if not target in bld.env.used_symbols: + Logs.warn("unable to find target %s in used_symbols dict" % target) + return + if not subsystem in bld.env.public_symbols: + Logs.warn("unable to find subsystem %s in public_symbols dict" % subsystem) + return + overlap = bld.env.used_symbols[target].intersection(bld.env.public_symbols[subsystem]) + if not overlap: + Logs.info("target %s doesn't use any public symbols from %s" % (target, subsystem)) + else: + Logs.info("target %s uses %s from %s" % (target, overlap, subsystem)) + + + +def symbols_dupcheck(task): + '''check for symbols defined in two different subsystems''' + bld = task.env.bld + tgt_list = get_tgt_list(bld) + + Logs.info("Checking for duplicate symbols") + for sym in bld.env.symbol_map: + subsystems = bld.env.symbol_map[sym] + if len(subsystems) == 1: + continue + Logs.info("symbol %s appears in %s" % (sym, subsystems)) + + # use this type of call to find why a library is needed + check_why_needed(bld, 'smbd/smbd', 'gensec') + + def SYMBOL_CHECK(bld): '''check our dependency lists''' if Options.options.SYMBOLCHECK: @@ -379,4 +446,9 @@ def SYMBOL_CHECK(bld): bld.SET_BUILD_GROUP('syslibcheck') task = bld(rule=symbols_syslibcheck, always=True, name='syslib checking') task.env.bld = bld + + bld.SET_BUILD_GROUP('syslibcheck') + task = bld(rule=symbols_dupcheck, always=True, name='symbol duplicate checking') + task.env.bld = bld + Build.BuildContext.SYMBOL_CHECK = SYMBOL_CHECK |