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authorAndrew Tridgell <tridge@samba.org>2011-04-12 21:20:41 +1000
committerAndrew Tridgell <tridge@samba.org>2011-04-13 04:37:33 +0200
commit380bd493bb02744dfd4e88a875d3beabb3c784f8 (patch)
treea90de8c22045c499bdb92641aad40e09237f4907 /buildtools/wafsamba/symbols.py
parentcec7c53da955ade9a218fdf0aaa44568d2417eb7 (diff)
downloadsamba-380bd493bb02744dfd4e88a875d3beabb3c784f8.tar.gz
build: use readelf as a replacement for ldd
using readelf allows us to do a non-recursive library listing, which is important to remove false positive symbol duplication Autobuild-User: Andrew Tridgell <tridge@samba.org> Autobuild-Date: Wed Apr 13 04:37:33 CEST 2011 on sn-devel-104
Diffstat (limited to 'buildtools/wafsamba/symbols.py')
-rw-r--r--buildtools/wafsamba/symbols.py110
1 files changed, 77 insertions, 33 deletions
diff --git a/buildtools/wafsamba/symbols.py b/buildtools/wafsamba/symbols.py
index 280e160b075..ed195176e65 100644
--- a/buildtools/wafsamba/symbols.py
+++ b/buildtools/wafsamba/symbols.py
@@ -1,7 +1,7 @@
# 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
+import Utils, Build, subprocess, Logs, re
from samba_wildcard import fake_build_environment
from samba_utils import *
@@ -94,45 +94,102 @@ def real_name(name):
return name
-def get_ldd_libs(bld, binname):
+def find_ldd_path(bld, libname, binary):
+ '''find the path to the syslib we will link against'''
+ ret = None
+ if not bld.env.syslib_paths:
+ bld.env.syslib_paths = {}
+ if libname in bld.env.syslib_paths:
+ return bld.env.syslib_paths[libname]
+
+ lddpipe = subprocess.Popen(['ldd', binary], 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("libc."):
+ # save this one too
+ bld.env.libc_path = cols[2]
+ if cols[0].startswith(libname):
+ ret = cols[2]
+ bld.env.syslib_paths[libname] = ret
+ return ret
+
+
+# some regular expressions for parsing readelf output
+re_sharedlib = re.compile('Shared library: \[(.*)\]')
+re_rpath = re.compile('Library rpath: \[(.*)\]')
+
+def get_libs(bld, binname):
'''find the list of linked libraries for any binary or library
binname is the path to the binary/library on disk
+
+ We do this using readelf instead of ldd as we need to avoid recursing
+ into system libraries
'''
# see if we can get the result from the ldd cache
- if not bld.env.ldd_cache:
- bld.env.ldd_cache = {}
- if binname in bld.env.ldd_cache:
- return bld.env.ldd_cache[binname].copy()
+ if not bld.env.lib_cache:
+ bld.env.lib_cache = {}
+ if binname in bld.env.lib_cache:
+ return bld.env.lib_cache[binname].copy()
+
+ rpath = []
+ libs = set()
+
+ elfpipe = subprocess.Popen(['readelf', '--dynamic', binname], stdout=subprocess.PIPE).stdout
+ for line in elfpipe:
+ m = re_sharedlib.search(line)
+ if m:
+ libs.add(m.group(1))
+ m = re_rpath.search(line)
+ if m:
+ rpath.extend(m.group(1).split(":"))
ret = set()
- lddpipe = subprocess.Popen(['ldd', binname], stdout=subprocess.PIPE).stdout
- for line in lddpipe:
- line = line.strip()
- cols = line.split(" ")
- if len(cols) < 3 or cols[1] != "=>" or cols[2] == '':
- continue
- ret.add(os.path.realpath(cols[2]))
-
- bld.env.ldd_cache[binname] = ret.copy()
+ for lib in libs:
+ found = False
+ for r in rpath:
+ path = os.path.join(r, lib)
+ if os.path.exists(path):
+ ret.add(os.path.realpath(path))
+ found = True
+ break
+ if not found:
+ # we didn't find this lib using rpath. It is probably a system
+ # library, so to find the path to it we either need to use ldd
+ # or we need to start parsing /etc/ld.so.conf* ourselves. We'll
+ # use ldd for now, even though it is slow
+ path = find_ldd_path(bld, lib, binname)
+ if path:
+ ret.add(os.path.realpath(path))
+
+ bld.env.lib_cache[binname] = ret.copy()
return ret
-def get_ldd_libs_recursive(bld, binname, seen):
+def get_libs_recursive(bld, binname, seen):
'''find the recursive list of linked libraries for any binary or library
binname is the path to the binary/library on disk. seen is a set used
to prevent loops
'''
if binname in seen:
return set()
- ret = get_ldd_libs(bld, binname)
+ ret = get_libs(bld, binname)
seen.add(binname)
for lib in ret:
- ret = ret.union(get_ldd_libs_recursive(bld, lib, seen))
+ # we don't want to recurse into system libraries. If a system
+ # library that we use (eg. libcups) happens to use another library
+ # (such as libkrb5) which contains common symbols with our own
+ # libraries, then that is not an error
+ if lib in bld.env.library_dict:
+ ret = ret.union(get_libs_recursive(bld, lib, seen))
return ret
+
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
@@ -143,20 +200,7 @@ def find_syslib_path(bld, libname, deps):
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
+ return find_ldd_path(bld, "lib%s" % libname.lower(), linkpath)
def build_symbol_sets(bld, tgt_list):
@@ -538,8 +582,8 @@ def report_duplicate(bld, binname, sym, libs):
def symbols_dupcheck_binary(bld, binname):
'''check for duplicated symbols in one binary'''
- libs = get_ldd_libs_recursive(bld, binname, set())
+ libs = get_libs_recursive(bld, binname, set())
symlist = symbols_extract(bld, libs, dynamic=True)
symmap = {}