from copy import copy from collections import defaultdict, OrderedDict from functools import partial from fnmatch import fnmatch, filter as fnmatch_filter, translate as fnmatch_translate from os.path import (basename, dirname, exists, isabs, isdir, isfile, islink, join, normpath, realpath, relpath, sep, splitext) import locale import re import os import shutil import stat from subprocess import call, check_output, CalledProcessError import sys try: from os import readlink except ImportError: readlink = False from conda_build.os_utils import external from conda_build.conda_interface import PY3 from conda_build.conda_interface import lchmod from conda_build.conda_interface import walk_prefix from conda_build.conda_interface import TemporaryDirectory from conda_build.conda_interface import md5_file from conda_build import utils from conda_build.os_utils.liefldd import (have_lief, get_exports_memoized, get_linkages_memoized, get_rpaths_raw, get_runpaths_raw, set_rpath) from conda_build.os_utils.pyldd import codefile_type from conda_build.os_utils.ldd import get_package_files, get_package_obj_files from conda_build.inspect_pkg import which_package from conda_build.exceptions import (OverLinkingError, OverDependingError, RunPathError) from conda_build.os_utils import macho if PY3: scandir = os.scandir else: from scandir import scandir filetypes_for_platform = { "win": ('DLLfile', 'EXEfile'), "osx": ['machofile'], "linux": ['elffile'], } def fix_shebang(f, prefix, build_python, osx_is_app=False): path = join(prefix, f) if codefile_type(path): return elif islink(path): return elif not isfile(path): return if os.stat(path).st_size == 0: return bytes_ = False os.chmod(path, 0o775) with open(path, mode='r+', encoding=locale.getpreferredencoding()) as fi: try: data = fi.read(100) fi.seek(0) except UnicodeDecodeError: # file is binary return SHEBANG_PAT = re.compile(r'^#!.+$', re.M) # regexp on the memory mapped file so we only read it into # memory if the regexp matches. try: mm = utils.mmap_mmap(fi.fileno(), 0, tagname=None, flags=utils.mmap_MAP_PRIVATE) except OSError: mm = fi.read() try: m = SHEBANG_PAT.match(mm) except TypeError: SHEBANG_PAT = re.compile(br'^#!.+$', re.M) bytes_ = True m = SHEBANG_PAT.match(mm) if m: python_pattern = (re.compile(br'\/python[w]?(?:$|\s|\Z)', re.M) if bytes_ else re.compile(r'\/python[w]?(:$|\s|\Z)', re.M)) if not re.search(python_pattern, m.group()): return else: return data = mm[:] py_exec = '#!' + ('/bin/bash ' + prefix + '/bin/pythonw' if sys.platform == 'darwin' and osx_is_app else prefix + '/bin/' + basename(build_python)) if bytes_ and hasattr(py_exec, 'encode'): py_exec = py_exec.encode() new_data = SHEBANG_PAT.sub(py_exec, data, count=1) if new_data == data: return print("updating shebang:", f) with open(path, 'w', encoding=locale.getpreferredencoding()) as fo: try: fo.write(new_data) except TypeError: fo.write(new_data.decode()) def write_pth(egg_path, config): fn = basename(egg_path) py_ver = '.'.join(config.variant['python'].split('.')[:2]) with open(join(utils.get_site_packages(config.host_prefix, py_ver), '%s.pth' % (fn.split('-')[0])), 'w') as fo: fo.write('./%s\n' % fn) def remove_easy_install_pth(files, prefix, config, preserve_egg_dir=False): """ remove the need for easy-install.pth and finally remove easy-install.pth itself """ absfiles = [join(prefix, f) for f in files] py_ver = '.'.join(config.variant['python'].split('.')[:2]) sp_dir = utils.get_site_packages(prefix, py_ver) for egg_path in utils.glob(join(sp_dir, '*-py*.egg')): if isdir(egg_path): if preserve_egg_dir or not any(join(egg_path, i) in absfiles for i in walk_prefix(egg_path, False, windows_forward_slashes=False)): write_pth(egg_path, config=config) continue print('found egg dir:', egg_path) try: shutil.move(join(egg_path, 'EGG-INFO'), egg_path + '-info') except OSError: pass utils.rm_rf(join(egg_path, 'EGG-INFO')) for fn in os.listdir(egg_path): if fn == '__pycache__': utils.rm_rf(join(egg_path, fn)) else: # this might be a name-space package # so the package directory already exists # from another installed dependency if exists(join(sp_dir, fn)): try: utils.copy_into(join(egg_path, fn), join(sp_dir, fn), config.timeout, locking=config.locking) utils.rm_rf(join(egg_path, fn)) except OSError as e: fn = basename(str(e).split()[-1]) raise OSError("Tried to merge folder {egg_path} into {sp_dir}, but {fn}" " exists in both locations. Please either add " "build/preserve_egg_dir: True to meta.yaml, or manually " "remove the file during your install process to avoid " "this conflict." .format(egg_path=egg_path, sp_dir=sp_dir, fn=fn)) else: shutil.move(join(egg_path, fn), join(sp_dir, fn)) elif isfile(egg_path): if egg_path not in absfiles: continue print('found egg:', egg_path) write_pth(egg_path, config=config) installer_files = [f for f in absfiles if f.endswith(f".dist-info{sep}INSTALLER")] for file in installer_files: with open(file, 'w') as f: f.write('conda') utils.rm_rf(join(sp_dir, 'easy-install.pth')) def rm_py_along_so(prefix): """remove .py (.pyc) files alongside .so or .pyd files""" files = list(scandir(prefix)) for fn in files: if fn.is_file() and fn.name.endswith(('.so', '.pyd')): for ext in '.py', '.pyc', '.pyo': name, _ = splitext(fn.path) name = normpath(name + ext) if any(name == normpath(f) for f in files): os.unlink(name + ext) def rm_pyo(files, prefix): """pyo considered harmful: https://www.python.org/dev/peps/pep-0488/ The build may have proceeded with: [install] optimize = 1 .. in setup.cfg in which case we can end up with some stdlib __pycache__ files ending in .opt-N.pyc on Python 3, as well as .pyo files for the package's own python. """ re_pyo = re.compile(r'.*(?:\.pyo$|\.opt-[0-9]\.pyc)') for fn in files: if re_pyo.match(fn): os.unlink(join(prefix, fn)) def rm_pyc(files, prefix): re_pyc = re.compile(r'.*(?:\.pyc$)') for fn in files: if re_pyc.match(fn): os.unlink(join(prefix, fn)) def rm_share_info_dir(files, prefix): if 'share/info/dir' in files: fn = join(prefix, 'share', 'info', 'dir') if isfile(fn): os.unlink(fn) def compile_missing_pyc(files, cwd, python_exe, skip_compile_pyc=()): if not isfile(python_exe): return compile_files = [] skip_compile_pyc_n = [normpath(skip) for skip in skip_compile_pyc] skipped_files = set() for skip in skip_compile_pyc_n: skipped_files.update(set(fnmatch_filter(files, skip))) unskipped_files = set(files) - skipped_files for fn in unskipped_files: # omit files in Library/bin, Scripts, and the root prefix - they are not generally imported if sys.platform == 'win32': if any([fn.lower().startswith(start) for start in ['library/bin', 'library\\bin', 'scripts']]): continue else: if fn.startswith('bin'): continue cache_prefix = ("__pycache__" + os.sep) if PY3 else "" if (fn.endswith(".py") and dirname(fn) + cache_prefix + basename(fn) + 'c' not in files): compile_files.append(fn) if compile_files: if not isfile(python_exe): print('compiling .pyc files... failed as no python interpreter was found') else: print('compiling .pyc files...') # We avoid command lines longer than 8190 if sys.platform == 'win32': limit = 8190 else: limit = 32760 limit -= len(compile_files) * 2 lower_limit = len(max(compile_files, key=len)) + 1 if limit < lower_limit: limit = lower_limit groups = [[]] args = [python_exe, '-Wi', '-m', 'py_compile'] args_len = length = len(' '.join(args)) + 1 for f in compile_files: length_this = len(f) + 1 if length_this + length > limit: groups.append([]) length = args_len else: length += length_this groups[len(groups) - 1].append(f) for group in groups: call(args + group, cwd=cwd) def check_dist_info_version(name, version, files): for f in files: if f.endswith('.dist-info' + os.sep + 'METADATA'): f_lower = basename(dirname(f).lower()) if f_lower.startswith(name + '-'): f_lower, _, _ = f_lower.rpartition('.dist-info') _, distname, f_lower = f_lower.rpartition(name + '-') if distname == name and version != f_lower: print(f"ERROR: Top level dist-info version incorrect (is {f_lower}, should be {version})") sys.exit(1) else: return def post_process(name, version, files, prefix, config, preserve_egg_dir=False, noarch=False, skip_compile_pyc=()): rm_pyo(files, prefix) if noarch: rm_pyc(files, prefix) else: python_exe = (config.build_python if isfile(config.build_python) else config.host_python) compile_missing_pyc(files, cwd=prefix, python_exe=python_exe, skip_compile_pyc=skip_compile_pyc) remove_easy_install_pth(files, prefix, config, preserve_egg_dir=preserve_egg_dir) rm_py_along_so(prefix) rm_share_info_dir(files, prefix) check_dist_info_version(name, version, files) def find_lib(link, prefix, files, path=None): if link.startswith(prefix): link = normpath(link[len(prefix) + 1:]) if not any(link == normpath(w) for w in files): sys.exit("Error: Could not find %s" % link) return link if link.startswith('/'): # but doesn't start with the build prefix return if link.startswith('@rpath/'): # Assume the rpath already points to lib, so there is no need to # change it. return if '/' not in link or link.startswith('@executable_path/'): link = basename(link) file_names = defaultdict(list) for f in files: file_names[basename(f)].append(f) if link not in file_names: sys.exit("Error: Could not find %s" % link) if len(file_names[link]) > 1: if path and basename(path) == link: # The link is for the file itself, just use it return path # Allow for the possibility of the same library appearing in # multiple places. md5s = set() for f in file_names[link]: md5s.add(md5_file(join(prefix, f))) if len(md5s) > 1: sys.exit(f"Error: Found multiple instances of {link}: {file_names[link]}") else: file_names[link].sort() print("Found multiple instances of %s (%s). " "Choosing the first one." % (link, file_names[link])) return file_names[link][0] print("Don't know how to find %s, skipping" % link) def osx_ch_link(path, link_dict, host_prefix, build_prefix, files): link = link_dict['name'] if build_prefix != host_prefix and link.startswith(build_prefix): link = link.replace(build_prefix, host_prefix) print(f"Fixing linking of {link} in {path}") print(".. seems to be linking to a compiler runtime, replacing build prefix with " "host prefix and") if not codefile_type(link): sys.exit("Error: Compiler runtime library in build prefix not found in host prefix %s" % link) else: print(f".. fixing linking of {link} in {path} instead") link_loc = find_lib(link, host_prefix, files, path) if not link_loc: return print(f"Fixing linking of {link} in {path}") print("New link location is %s" % (link_loc)) lib_to_link = relpath(dirname(link_loc), 'lib') # path_to_lib = utils.relative(path[len(prefix) + 1:]) # e.g., if # path = '/build_prefix/lib/some/stuff/libstuff.dylib' # link_loc = 'lib/things/libthings.dylib' # then # lib_to_link = 'things' # path_to_lib = '../..' # @rpath always means 'lib', link will be at # @rpath/lib_to_link/basename(link), like @rpath/things/libthings.dylib. # For when we can't use @rpath, @loader_path means the path to the library # ('path'), so from path to link is # @loader_path/path_to_lib/lib_to_link/basename(link), like # @loader_path/../../things/libthings.dylib. ret = f'@rpath/{lib_to_link}/{basename(link)}' # XXX: IF the above fails for whatever reason, the below can be used # TODO: This might contain redundant ..'s if link and path are both in # some subdirectory of lib. # ret = '@loader_path/%s/%s/%s' % (path_to_lib, lib_to_link, basename(link)) ret = ret.replace('/./', '/') return ret def mk_relative_osx(path, host_prefix, build_prefix, files, rpaths=('lib',)): prefix = build_prefix if exists(build_prefix) else host_prefix names = macho.otool(path, prefix) s = macho.install_name_change(path, prefix, partial(osx_ch_link, host_prefix=host_prefix, build_prefix=build_prefix, files=files), dylibs=names) if names: existing_rpaths = macho.get_rpaths(path, build_prefix=prefix) # Add an rpath to every executable to increase the chances of it # being found. for rpath in rpaths: # Escape hatch for when you really don't want any rpaths added. if rpath == '': continue rpath_new = join('@loader_path', relpath(join(host_prefix, rpath), dirname(path)), '').replace('/./', '/') macho.add_rpath(path, rpath_new, build_prefix=prefix, verbose=True) if join(host_prefix, rpath) in existing_rpaths: macho.delete_rpath(path, join(host_prefix, rpath), build_prefix=prefix, verbose=True) if build_prefix != host_prefix: for rpath in existing_rpaths: if rpath.startswith(build_prefix): macho.delete_rpath(path, rpath, build_prefix=prefix, verbose=True) if s: # Skip for stub files, which have to use binary_has_prefix_files to be # made relocatable. assert_relative_osx(path, host_prefix, build_prefix) ''' # Both patchelf and LIEF have bugs in them. Neither can be used on all binaries we have seen. # This code tries each and tries to keep count of which worked between the original binary and # patchelf-patched, LIEF-patched versions. # # Please do not delete it until you are sure the bugs in both projects have been fixed. # from subprocess import STDOUT def check_binary(binary, expected=None): from ctypes import cdll print("trying {}".format(binary)) # import pdb; pdb.set_trace() try: txt = check_output([sys.executable, '-c', 'from ctypes import cdll; cdll.LoadLibrary("' + binary + '")'], timeout=2) # mydll = cdll.LoadLibrary(binary) except Exception as e: print(e) return None, None try: txt = check_output(binary, stderr=STDOUT, timeout=0.1) except Exception as e: print(e) txt = e.output if expected is not None: return txt == expected, txt return True, txt worksd = {'original': 0, 'LIEF': 0, 'patchelf': 0} def check_binary_patchers(elf, prefix, rpath): patchelf = external.find_executable('patchelf', prefix) tmpname_pe = elf+'.patchelf' tmpname_le = elf+'.lief' shutil.copy(elf, tmpname_pe) shutil.copy(elf, tmpname_le) import pdb; pdb.set_trace() works, original = check_binary(elf) if works: worksd['original'] += 1 set_rpath(old_matching='*', new_rpath=rpath, file=tmpname_le) works, LIEF = check_binary(tmpname_le, original) call([patchelf, '--force-rpath', '--set-rpath', rpath, tmpname_pe]) works, pelf = check_binary(tmpname_pe, original) if original == LIEF and works: worksd['LIEF'] += 1 if original == pelf and works: worksd['patchelf'] += 1 print('\n' + str(worksd) + '\n') ''' def mk_relative_linux(f, prefix, rpaths=('lib',), method=None): 'Respects the original values and converts abs to $ORIGIN-relative' elf = join(prefix, f) origin = dirname(elf) existing_pe = None patchelf = external.find_executable('patchelf', prefix) if not patchelf: print(f"ERROR :: You should install patchelf, will proceed with LIEF for {elf} (was {method})") method = 'LIEF' else: try: existing_pe = check_output([patchelf, '--print-rpath', elf]).decode('utf-8').splitlines()[0] except CalledProcessError: if method == 'patchelf': print("ERROR :: `patchelf --print-rpath` failed for {}, but patchelf was specified".format( elf)) elif method != 'LIEF': print("WARNING :: `patchelf --print-rpath` failed for {}, will proceed with LIEF (was {})".format( elf, method)) method = 'LIEF' else: existing_pe = existing_pe.split(os.pathsep) existing = existing_pe if have_lief: existing2, _, _ = get_rpaths_raw(elf) if existing_pe and existing_pe != existing2: print('WARNING :: get_rpaths_raw()={} and patchelf={} disagree for {} :: '.format( existing2, existing_pe, elf)) # Use LIEF if method is LIEF to get the initial value? if method == 'LIEF': existing = existing2 new = [] for old in existing: if old.startswith('$ORIGIN'): new.append(old) elif old.startswith('/'): # Test if this absolute path is outside of prefix. That is fatal. rp = relpath(old, prefix) if rp.startswith('..' + os.sep): print(f'Warning: rpath {old} is outside prefix {prefix} (removing it)') else: rp = '$ORIGIN/' + relpath(old, origin) if rp not in new: new.append(rp) # Ensure that the asked-for paths are also in new. for rpath in rpaths: if rpath != '': if not rpath.startswith('/'): # IMHO utils.relative shouldn't exist, but I am too paranoid to remove # it, so instead, make sure that what I think it should be replaced by # gives the same result and assert if not. Yeah, I am a chicken. rel_ours = normpath(utils.relative(f, rpath)) rel_stdlib = normpath(relpath(rpath, dirname(f))) if not rel_ours == rel_stdlib: raise ValueError('utils.relative {} and relpath {} disagree for {}, {}'.format( rel_ours, rel_stdlib, f, rpath)) rpath = '$ORIGIN/' + rel_stdlib if rpath not in new: new.append(rpath) rpath = ':'.join(new) # check_binary_patchers(elf, prefix, rpath) if not patchelf or (method and method.upper() == 'LIEF'): set_rpath(old_matching='*', new_rpath=rpath, file=elf) else: call([patchelf, '--force-rpath', '--set-rpath', rpath, elf]) def assert_relative_osx(path, host_prefix, build_prefix): tools_prefix = build_prefix if exists(build_prefix) else host_prefix for name in macho.get_dylibs(path, tools_prefix): for prefix in (host_prefix, build_prefix): if prefix and name.startswith(prefix): raise RuntimeError("library at %s appears to have an absolute path embedded" % path) def determine_package_nature(pkg, prefix, subdir, bldpkgs_dir, output_folder, channel_urls): run_exports = None lib_prefix = pkg.name.startswith('lib') codefiles = get_package_obj_files(pkg, prefix) # get_package_obj_files already filters by extension and I'm not sure we need two. dsos = [f for f in codefiles for ext in ('.dylib', '.so', '.dll', '.pyd') if ext in f] # TODO :: Is this package not in a channel somewhere at this point? It would be good not to be special # casing like this. Clearly we aren't able to get run_exports for starters and that's not good if not isinstance(pkg, FakeDist): # we don't care about the actual run_exports value, just whether or not run_exports are present. json_file = os.path.join(prefix, 'conda-meta', pkg.dist_name + '.json') import json assert os.path.isfile(json_file), f"conda-meta :: Not a file: {json_file}" json_info = json.loads(open(json_file).read()) epd = json_info['extracted_package_dir'] run_exports_json = os.path.join(epd, 'info', 'run_exports.json') if os.path.isfile(run_exports_json): run_exports = json.loads(open(run_exports_json).read()) return (dsos, run_exports, lib_prefix) def library_nature(pkg, prefix, subdir, bldpkgs_dirs, output_folder, channel_urls): ''' Result :: "non-library", "interpreted library (Python|R|Python,R)", "plugin library (Python|R|Python,R)", "dso library", "run-exports library", "interpreter (R)" "interpreter (Python)" .. in that order, i.e. if have both dsos and run_exports, it's a run_exports_library. ''' dsos, run_exports, _ = determine_package_nature(pkg, prefix, subdir, bldpkgs_dirs, output_folder, channel_urls) if pkg.name == 'python': return "interpreter (Python)" elif pkg.name == 'r-base': return "interpreter (R)" if run_exports: return "run-exports library" elif len(dsos): # If all DSOs are under site-packages or R/lib/ python_dsos = [dso for dso in dsos if 'site-packages' in dso] r_dsos = [dso for dso in dsos if 'lib/R/library' in dso] dsos_without_plugins = [dso for dso in dsos if dso not in r_dsos + python_dsos] if len(dsos_without_plugins): return "dso library" else: if python_dsos and r_dsos: return "plugin library (Python,R)" elif python_dsos: return "plugin library (Python)" elif r_dsos: return "plugin library (R)" else: files = get_package_files(pkg, prefix) python_files = [f for f in files if 'site-packages' in f] r_files = [f for f in files if 'lib/R/library' in f] if python_files and r_files: return "interpreted library (Python,R)" elif python_files: return "interpreted library (Python)" elif r_files: return "interpreted library (R)" return "non-library" def dists_from_names(names, prefix): results = [] from conda_build.utils import linked_data_no_multichannels pkgs = linked_data_no_multichannels(prefix) for name in names: for pkg in pkgs: if pkg.quad[0] == name: results.append(pkg) return results class FakeDist: def __init__(self, name, version, build_number, build_str, channel, files): self.name = name self.quad = [name] self.version = version self.build_number = build_number self.build_string = build_str self.channel = channel self.files = files def get(self, name): if name == 'files': return self.files # This is really just a small, fixed sysroot and it is rooted at ''. `libcrypto.0.9.8.dylib` should not be in it IMHO. DEFAULT_MAC_WHITELIST = ['/opt/X11/', '/usr/lib/libSystem.B.dylib', '/usr/lib/libcrypto.0.9.8.dylib', '/usr/lib/libobjc.A.dylib', """ '/System/Library/Frameworks/Accelerate.framework/*', '/System/Library/Frameworks/AGL.framework/*', '/System/Library/Frameworks/AppKit.framework/*', '/System/Library/Frameworks/ApplicationServices.framework/*', '/System/Library/Frameworks/AudioToolbox.framework/*', '/System/Library/Frameworks/AudioUnit.framework/*', '/System/Library/Frameworks/AVFoundation.framework/*', '/System/Library/Frameworks/CFNetwork.framework/*', '/System/Library/Frameworks/Carbon.framework/*', '/System/Library/Frameworks/Cocoa.framework/*', '/System/Library/Frameworks/CoreAudio.framework/*', '/System/Library/Frameworks/CoreFoundation.framework/*', '/System/Library/Frameworks/CoreGraphics.framework/*', '/System/Library/Frameworks/CoreMedia.framework/*', '/System/Library/Frameworks/CoreBluetooth.framework/*', '/System/Library/Frameworks/CoreMIDI.framework/*', '/System/Library/Frameworks/CoreMedia.framework/*', '/System/Library/Frameworks/CoreServices.framework/*', '/System/Library/Frameworks/CoreText.framework/*', '/System/Library/Frameworks/CoreVideo.framework/*', '/System/Library/Frameworks/CoreWLAN.framework/*', '/System/Library/Frameworks/DiskArbitration.framework/*', '/System/Library/Frameworks/Foundation.framework/*', '/System/Library/Frameworks/GameController.framework/*', '/System/Library/Frameworks/GLKit.framework/*', '/System/Library/Frameworks/ImageIO.framework/*', '/System/Library/Frameworks/IOBluetooth.framework/*', '/System/Library/Frameworks/IOKit.framework/*', '/System/Library/Frameworks/IOSurface.framework/*', '/System/Library/Frameworks/OpenAL.framework/*', '/System/Library/Frameworks/OpenGL.framework/*', '/System/Library/Frameworks/Quartz.framework/*', '/System/Library/Frameworks/QuartzCore.framework/*', '/System/Library/Frameworks/Security.framework/*', '/System/Library/Frameworks/StoreKit.framework/*', '/System/Library/Frameworks/SystemConfiguration.framework/*', '/System/Library/Frameworks/WebKit.framework/*' """ ] # Should contain the System32/SysWOW64 DLLs present on a clean installation of the # oldest version of Windows that we support (or are currently) building packages for. DEFAULT_WIN_WHITELIST = ['**/ADVAPI32.dll', '**/bcrypt.dll', '**/COMCTL32.dll', '**/COMDLG32.dll', '**/CRYPT32.dll', '**/dbghelp.dll', '**/GDI32.dll', '**/IMM32.dll', '**/KERNEL32.dll', '**/NETAPI32.dll', '**/ole32.dll', '**/OLEAUT32.dll', '**/PSAPI.DLL', '**/RPCRT4.dll', '**/SHELL32.dll', '**/USER32.dll', '**/USERENV.dll', '**/WINHTTP.dll', '**/WS2_32.dll', '**/ntdll.dll', '**/msvcrt.dll'] def _collect_needed_dsos(sysroots_files, files, run_prefix, sysroot_substitution, build_prefix, build_prefix_substitution): all_needed_dsos = set() needed_dsos_for_file = dict() sysroot = '' if sysroots_files: sysroot = list(sysroots_files.keys())[0] for f in files: path = join(run_prefix, f) if not codefile_type(path): continue build_prefix = build_prefix.replace(os.sep, '/') run_prefix = run_prefix.replace(os.sep, '/') needed = get_linkages_memoized(path, resolve_filenames=True, recurse=False, sysroot=sysroot, envroot=run_prefix) for lib, res in needed.items(): resolved = res['resolved'].replace(os.sep, '/') for sysroot, sysroot_files in sysroots_files.items(): if resolved.startswith(sysroot): resolved = resolved.replace(sysroot, sysroot_substitution) elif resolved[1:] in sysroot_files: resolved = sysroot_substitution + resolved[1:] # We do not want to do this substitution when merging build and host prefixes. if build_prefix != run_prefix and resolved.startswith(build_prefix): resolved = resolved.replace(build_prefix, build_prefix_substitution) if resolved.startswith(run_prefix): resolved = relpath(resolved, run_prefix).replace(os.sep, '/') # If resolved still starts with '$RPATH' then that means we will either find it in # the whitelist or it will present as an error later. res['resolved'] = resolved needed_dsos_for_file[f] = needed all_needed_dsos = all_needed_dsos.union({info['resolved'] for f, info in needed.items()}) return all_needed_dsos, needed_dsos_for_file def _map_file_to_package(files, run_prefix, build_prefix, all_needed_dsos, pkg_vendored_dist, ignore_list_syms, sysroot_substitution, enable_static): # Form a mapping of file => package prefix_owners = {} contains_dsos = {} contains_static_libs = {} # Used for both dsos and static_libs all_lib_exports = {} all_needed_dsos_lower = [w.lower() for w in all_needed_dsos] if all_needed_dsos: for prefix in (run_prefix, build_prefix): all_lib_exports[prefix] = {} prefix_owners[prefix] = {} for subdir2, _, filez in os.walk(prefix): for file in filez: fp = join(subdir2, file) dynamic_lib = any(fnmatch(fp, ext) for ext in ('*.so*', '*.dylib*', '*.dll')) and \ codefile_type(fp, skip_symlinks=False) is not None static_lib = any(fnmatch(fp, ext) for ext in ('*.a', '*.lib')) # Looking at all the files is very slow. if not dynamic_lib and not static_lib: continue rp = normpath(relpath(fp, prefix)).replace('\\', '/') if dynamic_lib and not any(rp.lower() == w for w in all_needed_dsos_lower): continue if any(rp == normpath(w) for w in all_lib_exports[prefix]): continue rp_po = rp.replace('\\', '/') owners = prefix_owners[prefix][rp_po] if rp_po in prefix_owners[prefix] else [] # Self-vendoring, not such a big deal but may as well report it? if not len(owners): if any(rp == normpath(w) for w in files): owners.append(pkg_vendored_dist) new_pkgs = list(which_package(rp, prefix, avoid_canonical_channel_name=True)) # Cannot filter here as this means the DSO (eg libomp.dylib) will not be found in any package # [owners.append(new_pkg) for new_pkg in new_pkgs if new_pkg not in owners # and not any([fnmatch(new_pkg.name, i) for i in ignore_for_statics])] for new_pkg in new_pkgs: if new_pkg not in owners: owners.append(new_pkg) prefix_owners[prefix][rp_po] = owners if len(prefix_owners[prefix][rp_po]): exports = {e for e in get_exports_memoized(fp, enable_static=enable_static) if not any(fnmatch(e, pattern) for pattern in ignore_list_syms)} all_lib_exports[prefix][rp_po] = exports # Check codefile_type to filter out linker scripts. if dynamic_lib: contains_dsos[prefix_owners[prefix][rp_po][0]] = True elif static_lib: if sysroot_substitution in fp: if (prefix_owners[prefix][rp_po][0].name.startswith('gcc_impl_linux') or prefix_owners[prefix][rp_po][0].name == 'llvm'): continue print(f"sysroot in {fp}, owner is {prefix_owners[prefix][rp_po][0]}") # Hmm, not right, muddies the prefixes again. contains_static_libs[prefix_owners[prefix][rp_po][0]] = True return prefix_owners, contains_dsos, contains_static_libs, all_lib_exports def _get_fake_pkg_dist(pkg_name, pkg_version, build_str, build_number, channel, files): pkg_vendoring_name = pkg_name pkg_vendoring_version = str(pkg_version) pkg_vendoring_build_str = build_str pkg_vendoring_build_number = build_number pkg_vendoring_key = '-'.join([pkg_vendoring_name, pkg_vendoring_version, pkg_vendoring_build_str]) return FakeDist(pkg_vendoring_name, pkg_vendoring_version, pkg_vendoring_build_number, pkg_vendoring_build_str, channel, files), pkg_vendoring_key def _print_msg(errors, text, verbose): if text.startswith(" ERROR"): errors.append(text) if verbose: print(text) def caseless_sepless_fnmatch(paths, pat): pat = pat.replace('\\', '/') match = re.compile("(?i)" + fnmatch_translate(pat)).match matches = [path for path in paths if (path.replace('\\', '/') == pat) or match(path.replace('\\', '/'))] return matches def _lookup_in_sysroots_and_whitelist(errors, whitelist, needed_dso, sysroots_files, msg_prelude, info_prelude, sysroot_prefix, sysroot_substitution, subdir, verbose): # A system or ignored dependency. We should be able to find it in one of the CDT or # compiler packages on linux or in a sysroot folder on other OSes. These usually # start with '$RPATH/' which indicates pyldd did not find them, so remove that now. if needed_dso.startswith(sysroot_substitution): replacements = [sysroot_substitution] + [sysroot for sysroot, _ in sysroots_files.items()] else: replacements = [needed_dso] in_whitelist = False in_sysroots = False if len(sysroots_files): # Check if we have a CDT package or a file in a sysroot. sysroot_files = [] for sysroot, files in sysroots_files.items(): sysroot_os = sysroot.replace('\\', os.sep) if needed_dso.startswith(sysroot_substitution): # Do we want to do this replace? sysroot_files.append(needed_dso.replace(sysroot_substitution, sysroot_os)) else: found = caseless_sepless_fnmatch(files, needed_dso[1:]) sysroot_files.extend(found) if len(sysroot_files): in_sysroots = True if subdir.startswith('osx-') or 'win' in subdir: in_prefix_dso = sysroot_files[0] n_dso_p = f"Needed DSO {in_prefix_dso}" _print_msg(errors, '{}: {} found in $SYSROOT'. format(info_prelude, n_dso_p), verbose=verbose) else: # Removing sysroot_prefix is only for Linux, though we could # use CONDA_BUILD_SYSROOT for macOS. We should figure out what to do about # /opt/X11 too. pkgs = [] for idx in range(len(sysroot_files)): # in_prefix_dso = normpath(sysroot_files[idx].replace( # sysroot_prefix + os.sep, '')) in_prefix_dso = sysroot_files[idx][len(sysroot_prefix) + 1:] n_dso_p = f"Needed DSO {in_prefix_dso}" _pkgs = list(which_package(in_prefix_dso, sysroot_prefix)) if len(_pkgs) > 0: pkgs.extend(_pkgs) break if len(pkgs): _print_msg(errors, '{}: {} found in CDT/compiler package {}'. format(info_prelude, n_dso_p, pkgs[0]), verbose=verbose) else: _print_msg(errors, '{}: {} not found in any CDT/compiler package,' ' nor the whitelist?!'. format(msg_prelude, n_dso_p), verbose=verbose) if not in_sysroots: # It takes a very long time to glob in C:/Windows so we do not do that. for replacement in replacements: needed_dso_w = needed_dso.replace(sysroot_substitution, replacement + '/') # We should pass in multiple paths at once to this, but the code isn't structured for that. in_whitelist = any([caseless_sepless_fnmatch([needed_dso_w], w) for w in whitelist]) if in_whitelist: n_dso_p = f"Needed DSO {needed_dso_w}" _print_msg(errors, '{}: {} found in the whitelist'. format(info_prelude, n_dso_p), verbose=verbose) break if not in_whitelist and not in_sysroots: _print_msg(errors, "{}: {} not found in packages, sysroot(s) nor the missing_dso_whitelist.\n" ".. is this binary repackaging?". format(msg_prelude, needed_dso), verbose=verbose) def _lookup_in_prefix_packages(errors, needed_dso, files, run_prefix, whitelist, info_prelude, msg_prelude, warn_prelude, verbose, requirements_run, lib_packages, lib_packages_used): in_prefix_dso = normpath(needed_dso) n_dso_p = "Needed DSO {}".format(in_prefix_dso.replace('\\', '/')) and_also = " (and also in this package)" if in_prefix_dso in files else "" pkgs = list(which_package(in_prefix_dso, run_prefix, avoid_canonical_channel_name=True)) in_pkgs_in_run_reqs = [pkg for pkg in pkgs if pkg.quad[0] in requirements_run] # TODO :: metadata build/inherit_child_run_exports (for vc, mro-base-impl). for pkg in in_pkgs_in_run_reqs: if pkg in lib_packages: lib_packages_used.add(pkg) in_whitelist = any([fnmatch(in_prefix_dso, w) for w in whitelist]) if len(in_pkgs_in_run_reqs) == 1: _print_msg(errors, '{}: {} found in {}{}'.format(info_prelude, n_dso_p, in_pkgs_in_run_reqs[0], and_also), verbose=verbose) elif in_whitelist: _print_msg(errors, '{}: {} found in the whitelist'. format(info_prelude, n_dso_p), verbose=verbose) elif len(in_pkgs_in_run_reqs) == 0 and len(pkgs) > 0: _print_msg(errors, '{}: {} found in {}{}'.format(msg_prelude, n_dso_p, [p.quad[0] for p in pkgs], and_also), verbose=verbose) _print_msg(errors, '{}: .. but {} not in reqs/run, (i.e. it is overlinking)' ' (likely) or a missing dependency (less likely)'. format(msg_prelude, [p.quad[0] for p in pkgs]), verbose=verbose) elif len(in_pkgs_in_run_reqs) > 1: _print_msg(errors, '{}: {} found in multiple packages in run/reqs: {}{}' .format(warn_prelude, in_prefix_dso, in_pkgs_in_run_reqs, and_also), verbose=verbose) else: if not any(in_prefix_dso == normpath(w) for w in files): _print_msg(errors, '{}: {} not found in any packages'.format(msg_prelude, in_prefix_dso), verbose=verbose) elif verbose: _print_msg(errors, '{}: {} found in this package'.format(info_prelude, in_prefix_dso), verbose=verbose) def _show_linking_messages(files, errors, needed_dsos_for_file, build_prefix, run_prefix, pkg_name, error_overlinking, runpath_whitelist, verbose, requirements_run, lib_packages, lib_packages_used, whitelist, sysroots, sysroot_prefix, sysroot_substitution, subdir): if len(sysroots): for sysroot, sr_files in sysroots.items(): _print_msg(errors, " INFO: sysroot: '{}' files: '{}'".format(sysroot, sorted(list(sr_files), reverse=True)[1:5]), verbose=verbose) for f in files: path = join(run_prefix, f) filetype = codefile_type(path) if not filetype or filetype not in filetypes_for_platform[subdir.split('-')[0]]: continue warn_prelude = "WARNING ({},{})".format(pkg_name, f.replace(os.sep, '/')) err_prelude = " ERROR ({},{})".format(pkg_name, f.replace(os.sep, '/')) info_prelude = " INFO ({},{})".format(pkg_name, f.replace(os.sep, '/')) msg_prelude = err_prelude if error_overlinking else warn_prelude # TODO :: Determine this much earlier, storing in needed_dsos_for_file in _collect_needed_dsos() try: runpaths, _, _ = get_runpaths_raw(path) except: _print_msg(errors, f'{warn_prelude}: pyldd.py failed to process', verbose=verbose) continue if runpaths and not (runpath_whitelist or any(fnmatch(f, w) for w in runpath_whitelist)): _print_msg(errors, '{}: runpaths {} found in {}'.format(msg_prelude, runpaths, path), verbose=verbose) needed = needed_dsos_for_file[f] for needed_dso, needed_dso_info in needed.items(): needed_dso = needed_dso.replace('/', os.sep) # Should always be the case, even when we fail to resolve the original value is stored here # as it is still a best attempt and informative. if 'resolved' in needed_dso_info: needed_dso = needed_dso_info['resolved'] if not needed_dso.startswith(os.sep) and not needed_dso.startswith('$'): _lookup_in_prefix_packages(errors, needed_dso, files, run_prefix, whitelist, info_prelude, msg_prelude, warn_prelude, verbose, requirements_run, lib_packages, lib_packages_used) elif needed_dso.startswith('$PATH'): _print_msg(errors, "{}: {} found in build prefix; should never happen".format( err_prelude, needed_dso), verbose=verbose) else: _lookup_in_sysroots_and_whitelist(errors, whitelist, needed_dso, sysroots, msg_prelude, info_prelude, sysroot_prefix, sysroot_substitution, subdir, verbose) def check_overlinking_impl(pkg_name, pkg_version, build_str, build_number, subdir, ignore_run_exports, requirements_run, requirements_build, requirements_host, run_prefix, build_prefix, missing_dso_whitelist, runpath_whitelist, error_overlinking, error_overdepending, verbose, exception_on_error, files, bldpkgs_dirs, output_folder, channel_urls, enable_static=False, variants={}): verbose = True errors = [] files_to_inspect = [] filesu = [] for f in files: path = join(run_prefix, f) filetype = codefile_type(path) if filetype and filetype in filetypes_for_platform[subdir.split('-')[0]]: files_to_inspect.append(f) filesu.append(f.replace('\\', '/')) if not files_to_inspect: return dict() sysroot_substitution = '$SYSROOT' build_prefix_substitution = '$PATH' # Used to detect overlinking (finally) requirements_run = [req.split(' ')[0] for req in requirements_run] packages = dists_from_names(requirements_run, run_prefix) local_channel = dirname(bldpkgs_dirs).replace('\\', '/') if utils.on_win else dirname(bldpkgs_dirs)[1:] pkg_vendored_dist, pkg_vendoring_key = _get_fake_pkg_dist(pkg_name, pkg_version, build_str, build_number, local_channel, files) packages.append(pkg_vendored_dist) ignore_list = utils.ensure_list(ignore_run_exports) if subdir.startswith('linux'): ignore_list.append('libgcc-ng') package_nature = {package: library_nature(package, run_prefix, subdir, bldpkgs_dirs, output_folder, channel_urls) for package in packages} lib_packages = {package for package in packages if package.quad[0] not in ignore_list and [package] != 'non-library'} lib_packages_used = {pkg_vendored_dist} ignore_list_syms = ['main', '_main', '*get_pc_thunk*', '___clang_call_terminate', '_timeout'] # ignore_for_statics = ['gcc_impl_linux*', 'compiler-rt*', 'llvm-openmp*', 'gfortran_osx*'] # sysroots and whitelists are similar, but the subtle distinctions are important. CONDA_BUILD_SYSROOT = variants.get('CONDA_BUILD_SYSROOT', None) if CONDA_BUILD_SYSROOT and os.path.exists(CONDA_BUILD_SYSROOT): # When on macOS and CBS not set, sysroots should probably be '/' # is everything in the sysroot allowed? I suppose so! sysroot_prefix = '' sysroots = [CONDA_BUILD_SYSROOT] else: # The linux case. sysroot_prefix = build_prefix sysroots = [sysroot + os.sep for sysroot in utils.glob(join(sysroot_prefix, '**', 'sysroot'))] whitelist = [] vendoring_record = dict() # When build_is_host is True we perform file existence checks for files in the sysroot (e.g. C:\Windows) # When build_is_host is False we must skip things that match the whitelist from the prefix_owners (we could # create some packages for the Windows System DLLs as an alternative?) build_is_host = False if not len(sysroots): if subdir.startswith('osx-'): # This is a bit confused! A sysroot shouldn't contain /usr/lib (it's the bit before that) # what we are really specifying here are subtrees of sysroots to search in and it may be # better to store each element of this as a tuple with a string and a nested tuple, e.g. # [('/', ('/usr/lib', '/opt/X11', '/System/Library/Frameworks'))] # Here we mean that we have a sysroot at '/' (could be a tokenized value like '$SYSROOT'?) # .. and in that sysroot there are 3 suddirs in which we may search for DSOs. sysroots = ['/usr/lib', '/opt/X11', '/System/Library/Frameworks'] whitelist = DEFAULT_MAC_WHITELIST build_is_host = True if sys.platform == 'darwin' else False elif subdir.startswith('win'): sysroots = ['C:/Windows'] whitelist = DEFAULT_WIN_WHITELIST build_is_host = True if sys.platform == 'win-32' else False whitelist += missing_dso_whitelist or [] # Sort the sysroots by the number of files in them so things can assume that # the first sysroot is more important than others. sysroots_files = dict() for sysroot in sysroots: from conda_build.utils import prefix_files srs = sysroot if sysroot.endswith('/') else sysroot + '/' sysroot_files = prefix_files(sysroot) sysroot_files = [p.replace('\\', '/') for p in sysroot_files] sysroots_files[srs] = sysroot_files if subdir.startswith('osx-'): orig_sysroot_files = copy(sysroot_files) sysroot_files = [] for f in orig_sysroot_files: replaced = f if f.endswith('.tbd'): # For now, look up the line containing: # install-name: /System/Library/Frameworks/CoreFoundation.framework/Versions/A/CoreFoundation with open(os.path.join(sysroot, f), 'rb') as tbd_fh: lines = [line for line in tbd_fh.read().decode('utf-8').splitlines() if line.startswith('install-name:')] if lines: install_names = [re.match(r'^install-name:\s+(.*)$', line) for line in lines] install_names = [insname.groups(1)[0] for insname in install_names] replaced = install_names[0][1:] if replaced.endswith("'"): # Some SDKs have install name surrounded by single qoutes replaced = replaced[1:-1] sysroot_files.append(replaced) diffs = set(orig_sysroot_files) - set(sysroot_files) if diffs: log = utils.get_logger(__name__) log.warning("Partially parsed some '.tbd' files in sysroot {}, pretending .tbds are their install-names\n" "Adding support to 'conda-build' for parsing these in 'liefldd.py' would be easy and useful:\n" "{} ..." .format(sysroot, list(diffs)[1:3])) sysroots_files[srs] = sysroot_files sysroots_files = OrderedDict(sorted(sysroots_files.items(), key=lambda x: -len(x[1]))) all_needed_dsos, needed_dsos_for_file = _collect_needed_dsos(sysroots_files, files, run_prefix, sysroot_substitution, build_prefix, build_prefix_substitution) prefix_owners, _, _, all_lib_exports = _map_file_to_package( files, run_prefix, build_prefix, all_needed_dsos, pkg_vendored_dist, ignore_list_syms, sysroot_substitution, enable_static) for f in files_to_inspect: needed = needed_dsos_for_file[f] for needed_dso, needed_dso_info in needed.items(): orig = needed_dso resolved = needed_dso_info['resolved'] if (not resolved.startswith('/') and not resolved.startswith(sysroot_substitution) and not resolved.startswith(build_prefix_substitution) and resolved.lower() not in [o.lower() for o in prefix_owners[run_prefix]] and resolved not in filesu): in_whitelist = False if not build_is_host: in_whitelist = any([caseless_sepless_fnmatch([orig], w) for w in whitelist]) if not in_whitelist: if resolved in prefix_owners[build_prefix]: print(f" ERROR :: {needed_dso} in prefix_owners[build_prefix]") elif not needed_dso.startswith('$PATH'): # DSOs with '$RPATH' in them at this stage are 'unresolved'. Though instead of # letting them through through like this, I should detect that they were not # resolved and change them back to how they were stored in the consumer DSO/elf # e.g. an elf will have a DT_NEEDED of just 'zlib.so.1' and to standardize # processing across platforms I prefixed them all with $RPATH. That should be # un-done so that this error message is more clearly related to the consumer.. # print("WARNING :: For consumer: '{}' with rpaths: '{}'\n" # "WARNING :: .. the package containing '{}' could not be found in the run prefix".format( # f, rpaths, needed_dso)) pass _show_linking_messages(files, errors, needed_dsos_for_file, build_prefix, run_prefix, pkg_name, error_overlinking, runpath_whitelist, verbose, requirements_run, lib_packages, lib_packages_used, whitelist, sysroots_files, sysroot_prefix, sysroot_substitution, subdir) if lib_packages_used != lib_packages: info_prelude = f" INFO ({pkg_name})" warn_prelude = f"WARNING ({pkg_name})" err_prelude = f" ERROR ({pkg_name})" for lib in lib_packages - lib_packages_used: if package_nature[lib] in ('run-exports library', 'dso library'): msg_prelude = err_prelude if error_overdepending else warn_prelude elif package_nature[lib] == 'plugin library': msg_prelude = info_prelude else: msg_prelude = warn_prelude found_interpreted_and_interpreter = False if 'interpreter' in package_nature[lib] and 'interpreted' in package_nature[pkg_vendored_dist]: found_interpreted_and_interpreter = True if found_interpreted_and_interpreter: _print_msg(errors, "{}: Interpreted package '{}' is interpreted by '{}'".format( info_prelude, pkg_vendored_dist.name, lib.name), verbose=verbose) elif package_nature[lib] != 'non-library': _print_msg(errors, "{}: {} package {} in requirements/run but it is not used " "(i.e. it is overdepending or perhaps statically linked? " "If that is what you want then add it to `build/ignore_run_exports`)" .format(msg_prelude, package_nature[lib], lib), verbose=verbose) if len(errors): if exception_on_error: runpaths_errors = [error for error in errors if re.match(r".*runpaths.*found in.*", error)] if len(runpaths_errors): raise RunPathError(runpaths_errors) overlinking_errors = [error for error in errors if re.match(r".*(overlinking|not found in|did not find).*", error)] if len(overlinking_errors): raise OverLinkingError(overlinking_errors) overdepending_errors = [error for error in errors if "overdepending" in error] if len(overdepending_errors): raise OverDependingError(overdepending_errors) else: sys.exit(1) if pkg_vendoring_key in vendoring_record: imports = vendoring_record[pkg_vendoring_key] return imports else: return dict() def check_overlinking(m, files, host_prefix=None): if not host_prefix: host_prefix = m.config.host_prefix return check_overlinking_impl(m.get_value('package/name'), m.get_value('package/version'), m.get_value('build/string'), m.get_value('build/number'), m.config.target_subdir, m.get_value('build/ignore_run_exports'), [req.split(' ')[0] for req in m.meta.get('requirements', {}).get('run', [])], [req.split(' ')[0] for req in m.meta.get('requirements', {}).get('build', [])], [req.split(' ')[0] for req in m.meta.get('requirements', {}).get('host', [])], host_prefix, m.config.build_prefix, m.meta.get('build', {}).get('missing_dso_whitelist', []), m.meta.get('build', {}).get('runpath_whitelist', []), m.config.error_overlinking, m.config.error_overdepending, m.config.verbose, True, files, m.config.bldpkgs_dir, m.config.output_folder, list(m.config.channel_urls) + ['local'], m.config.enable_static, m.config.variant) def post_process_shared_lib(m, f, files, host_prefix=None): if not host_prefix: host_prefix = m.config.host_prefix path = join(host_prefix, f) codefile_t = codefile_type(path) if not codefile_t or path.endswith('.debug'): return rpaths = m.get_value('build/rpaths', ['lib']) if codefile_t == 'elffile': mk_relative_linux(f, host_prefix, rpaths=rpaths, method=m.get_value('build/rpaths_patcher', None)) elif codefile_t == 'machofile': if m.config.host_platform != 'osx': log = utils.get_logger(__name__) log.warn("Found Mach-O file but patching is only supported on macOS, skipping: %s", path) return mk_relative_osx(path, host_prefix, m.config.build_prefix, files=files, rpaths=rpaths) def fix_permissions(files, prefix): print("Fixing permissions") for path in scandir(prefix): if path.is_dir(): lchmod(path.path, 0o775) for f in files: path = join(prefix, f) st = os.lstat(path) old_mode = stat.S_IMODE(st.st_mode) new_mode = old_mode # broadcast execute if old_mode & stat.S_IXUSR: new_mode = new_mode | stat.S_IXGRP | stat.S_IXOTH # ensure user and group can write and all can read new_mode = new_mode | stat.S_IWUSR | stat.S_IWGRP | stat.S_IRUSR | stat.S_IRGRP | stat.S_IROTH # noqa if old_mode != new_mode: try: lchmod(path, new_mode) except (OSError, utils.PermissionError) as e: log = utils.get_logger(__name__) log.warn(str(e)) def post_build(m, files, build_python, host_prefix=None, is_already_linked=False): print('number of files:', len(files)) if not host_prefix: host_prefix = m.config.host_prefix if not is_already_linked: for f in files: make_hardlink_copy(f, host_prefix) if not m.config.target_subdir.startswith('win'): binary_relocation = m.binary_relocation() if not binary_relocation: print("Skipping binary relocation logic") osx_is_app = (m.config.target_subdir.startswith('osx-') and bool(m.get_value('build/osx_is_app', False))) check_symlinks(files, host_prefix, m.config.croot) prefix_files = utils.prefix_files(host_prefix) for f in files: if f.startswith('bin/'): fix_shebang(f, prefix=host_prefix, build_python=build_python, osx_is_app=osx_is_app) if binary_relocation is True or (isinstance(binary_relocation, list) and f in binary_relocation): post_process_shared_lib(m, f, prefix_files, host_prefix) check_overlinking(m, files, host_prefix) def check_symlinks(files, prefix, croot): if readlink is False: return # Not on Unix system msgs = [] real_build_prefix = realpath(prefix) for f in files: path = join(real_build_prefix, f) if islink(path): link_path = readlink(path) real_link_path = realpath(path) # symlinks to binaries outside of the same dir don't work. RPATH stuff gets confused # because ld.so follows symlinks in RPATHS # If condition exists, then copy the file rather than symlink it. if (not dirname(link_path) == dirname(real_link_path) and codefile_type(f)): os.remove(path) utils.copy_into(real_link_path, path) elif real_link_path.startswith(real_build_prefix): # If the path is in the build prefix, this is fine, but # the link needs to be relative relative_path = relpath(real_link_path, dirname(path)) if not link_path.startswith('.') and link_path != relative_path: # Don't change the link structure if it is already a # relative link. It's possible that ..'s later in the path # can result in a broken link still, but we'll assume that # such crazy things don't happen. print(f"Making absolute symlink relative ({f} -> {link_path} :-> {relative_path})") os.unlink(path) os.symlink(relative_path, path) else: # Symlinks to absolute paths on the system (like /usr) are fine. if real_link_path.startswith(croot): msgs.append("%s is a symlink to a path that may not " "exist after the build is completed (%s)" % (f, link_path)) if msgs: for msg in msgs: print("Error: %s" % msg, file=sys.stderr) sys.exit(1) def make_hardlink_copy(path, prefix): """Hardlinks create invalid packages. Copy files to break the link. Symlinks are OK, and unaffected here.""" if not isabs(path): path = normpath(join(prefix, path)) fn = basename(path) if os.lstat(path).st_nlink > 1: with TemporaryDirectory() as dest: # copy file to new name utils.copy_into(path, dest) # remove old file utils.rm_rf(path) # rename copy to original filename # It is essential here to use copying (as opposed to os.rename), so that # crossing volume boundaries works utils.copy_into(join(dest, fn), path) def get_build_metadata(m): src_dir = m.config.work_dir if exists(join(src_dir, '__conda_version__.txt')): raise ValueError("support for __conda_version__ has been removed as of Conda-build 3.0." "Try Jinja templates instead: " "http://conda.pydata.org/docs/building/meta-yaml.html#templating-with-jinja") if exists(join(src_dir, '__conda_buildnum__.txt')): raise ValueError("support for __conda_buildnum__ has been removed as of Conda-build 3.0." "Try Jinja templates instead: " "http://conda.pydata.org/docs/building/meta-yaml.html#templating-with-jinja") if exists(join(src_dir, '__conda_buildstr__.txt')): raise ValueError("support for __conda_buildstr__ has been removed as of Conda-build 3.0." "Try Jinja templates instead: " "http://conda.pydata.org/docs/building/meta-yaml.html#templating-with-jinja")