M7350/oe-core/bitbake/lib/bb/utils.py

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2024-09-09 08:52:07 +00:00
# ex:ts=4:sw=4:sts=4:et
# -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*-
"""
BitBake Utility Functions
"""
# Copyright (C) 2004 Michael Lauer
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
import re, fcntl, os, string, stat, shutil, time
import sys
import errno
import logging
import bb
import bb.msg
from commands import getstatusoutput
from contextlib import contextmanager
logger = logging.getLogger("BitBake.Util")
# Version comparison
separators = ".-"
# Context used in better_exec, eval
_context = {
"os": os,
"bb": bb,
"time": time,
}
def explode_version(s):
r = []
alpha_regexp = re.compile('^([a-zA-Z]+)(.*)$')
numeric_regexp = re.compile('^(\d+)(.*)$')
while (s != ''):
if s[0] in string.digits:
m = numeric_regexp.match(s)
r.append(int(m.group(1)))
s = m.group(2)
continue
if s[0] in string.letters:
m = alpha_regexp.match(s)
r.append(m.group(1))
s = m.group(2)
continue
r.append(s[0])
s = s[1:]
return r
def vercmp_part(a, b):
va = explode_version(a)
vb = explode_version(b)
sa = False
sb = False
while True:
if va == []:
ca = None
else:
ca = va.pop(0)
if vb == []:
cb = None
else:
cb = vb.pop(0)
if ca == None and cb == None:
return 0
if isinstance(ca, basestring):
sa = ca in separators
if isinstance(cb, basestring):
sb = cb in separators
if sa and not sb:
return -1
if not sa and sb:
return 1
if ca > cb:
return 1
if ca < cb:
return -1
def vercmp(ta, tb):
(ea, va, ra) = ta
(eb, vb, rb) = tb
r = int(ea or 0) - int(eb or 0)
if (r == 0):
r = vercmp_part(va, vb)
if (r == 0):
r = vercmp_part(ra, rb)
return r
_package_weights_ = {"pre":-2, "p":0, "alpha":-4, "beta":-3, "rc":-1} # dicts are unordered
_package_ends_ = ["pre", "p", "alpha", "beta", "rc", "cvs", "bk", "HEAD" ] # so we need ordered list
def relparse(myver):
"""Parses the last elements of a version number into a triplet, that can
later be compared.
"""
number = 0
p1 = 0
p2 = 0
mynewver = myver.split('_')
if len(mynewver) == 2:
# an _package_weights_
number = float(mynewver[0])
match = 0
for x in _package_ends_:
elen = len(x)
if mynewver[1][:elen] == x:
match = 1
p1 = _package_weights_[x]
try:
p2 = float(mynewver[1][elen:])
except:
p2 = 0
break
if not match:
# normal number or number with letter at end
divider = len(myver)-1
if myver[divider:] not in "1234567890":
# letter at end
p1 = ord(myver[divider:])
number = float(myver[0:divider])
else:
number = float(myver)
else:
# normal number or number with letter at end
divider = len(myver)-1
if myver[divider:] not in "1234567890":
#letter at end
p1 = ord(myver[divider:])
number = float(myver[0:divider])
else:
number = float(myver)
return [number, p1, p2]
__vercmp_cache__ = {}
def vercmp_string(val1, val2):
"""This takes two version strings and returns an integer to tell you whether
the versions are the same, val1>val2 or val2>val1.
"""
# quick short-circuit
if val1 == val2:
return 0
valkey = val1 + " " + val2
# cache lookup
try:
return __vercmp_cache__[valkey]
try:
return - __vercmp_cache__[val2 + " " + val1]
except KeyError:
pass
except KeyError:
pass
# consider 1_p2 vc 1.1
# after expansion will become (1_p2,0) vc (1,1)
# then 1_p2 is compared with 1 before 0 is compared with 1
# to solve the bug we need to convert it to (1,0_p2)
# by splitting _prepart part and adding it back _after_expansion
val1_prepart = val2_prepart = ''
if val1.count('_'):
val1, val1_prepart = val1.split('_', 1)
if val2.count('_'):
val2, val2_prepart = val2.split('_', 1)
# replace '-' by '.'
# FIXME: Is it needed? can val1/2 contain '-'?
val1 = val1.split("-")
if len(val1) == 2:
val1[0] = val1[0] + "." + val1[1]
val2 = val2.split("-")
if len(val2) == 2:
val2[0] = val2[0] + "." + val2[1]
val1 = val1[0].split('.')
val2 = val2[0].split('.')
# add back decimal point so that .03 does not become "3" !
for x in xrange(1, len(val1)):
if val1[x][0] == '0' :
val1[x] = '.' + val1[x]
for x in xrange(1, len(val2)):
if val2[x][0] == '0' :
val2[x] = '.' + val2[x]
# extend varion numbers
if len(val2) < len(val1):
val2.extend(["0"]*(len(val1)-len(val2)))
elif len(val1) < len(val2):
val1.extend(["0"]*(len(val2)-len(val1)))
# add back _prepart tails
if val1_prepart:
val1[-1] += '_' + val1_prepart
if val2_prepart:
val2[-1] += '_' + val2_prepart
# The above code will extend version numbers out so they
# have the same number of digits.
for x in xrange(0, len(val1)):
cmp1 = relparse(val1[x])
cmp2 = relparse(val2[x])
for y in xrange(0, 3):
myret = cmp1[y] - cmp2[y]
if myret != 0:
__vercmp_cache__[valkey] = myret
return myret
__vercmp_cache__[valkey] = 0
return 0
def explode_deps(s):
"""
Take an RDEPENDS style string of format:
"DEPEND1 (optional version) DEPEND2 (optional version) ..."
and return a list of dependencies.
Version information is ignored.
"""
r = []
l = s.split()
flag = False
for i in l:
if i[0] == '(':
flag = True
#j = []
if not flag:
r.append(i)
#else:
# j.append(i)
if flag and i.endswith(')'):
flag = False
# Ignore version
#r[-1] += ' ' + ' '.join(j)
return r
def explode_dep_versions(s):
"""
Take an RDEPENDS style string of format:
"DEPEND1 (optional version) DEPEND2 (optional version) ..."
and return a dictionary of dependencies and versions.
"""
r = {}
l = s.replace(",", "").split()
lastdep = None
lastver = ""
inversion = False
for i in l:
if i[0] == '(':
inversion = True
lastver = i[1:] or ""
#j = []
elif inversion and i.endswith(')'):
inversion = False
lastver = lastver + " " + (i[:-1] or "")
r[lastdep] = lastver
elif not inversion:
r[i] = None
lastdep = i
lastver = ""
elif inversion:
lastver = lastver + " " + i
return r
def join_deps(deps, commasep=True):
"""
Take the result from explode_dep_versions and generate a dependency string
"""
result = []
for dep in deps:
if deps[dep]:
result.append(dep + " (" + deps[dep] + ")")
else:
result.append(dep)
if commasep:
return ", ".join(result)
else:
return " ".join(result)
def _print_trace(body, line):
"""
Print the Environment of a Text Body
"""
# print the environment of the method
min_line = max(1, line-4)
max_line = min(line + 4, len(body))
for i in xrange(min_line, max_line + 1):
if line == i:
logger.error(' *** %.4d:%s', i, body[i-1])
else:
logger.error(' %.4d:%s', i, body[i-1])
def better_compile(text, file, realfile, mode = "exec"):
"""
A better compile method. This method
will print the offending lines.
"""
try:
return compile(text, file, mode)
except Exception as e:
# split the text into lines again
body = text.split('\n')
logger.error("Error in compiling python function in %s", realfile)
logger.error(str(e))
if e.lineno:
logger.error("The lines leading to this error were:")
logger.error("\t%d:%s:'%s'", e.lineno, e.__class__.__name__, body[e.lineno-1])
_print_trace(body, e.lineno)
else:
logger.error("The function causing this error was:")
for line in body:
logger.error(line)
raise
def better_exec(code, context, text, realfile = "<code>"):
"""
Similiar to better_compile, better_exec will
print the lines that are responsible for the
error.
"""
import bb.parse
if not hasattr(code, "co_filename"):
code = better_compile(code, realfile, realfile)
try:
exec(code, _context, context)
except Exception:
(t, value, tb) = sys.exc_info()
if t in [bb.parse.SkipPackage, bb.build.FuncFailed]:
raise
import traceback
exception = traceback.format_exception_only(t, value)
logger.error('Error executing a python function in %s:\n%s',
realfile, ''.join(exception))
# Strip 'us' from the stack (better_exec call)
tb = tb.tb_next
textarray = text.split('\n')
linefailed = traceback.tb_lineno(tb)
tbextract = traceback.extract_tb(tb)
tbformat = "\n".join(traceback.format_list(tbextract))
logger.error("The stack trace of python calls that resulted in this exception/failure was:")
for line in tbformat.split('\n'):
logger.error(line)
logger.error("The code that was being executed was:")
_print_trace(textarray, linefailed)
logger.error("(file: '%s', lineno: %s, function: %s)", tbextract[0][0], tbextract[0][1], tbextract[0][2])
# See if this is a function we constructed and has calls back into other functions in
# "text". If so, try and improve the context of the error by diving down the trace
level = 0
nexttb = tb.tb_next
while nexttb is not None:
if tbextract[level][0] == tbextract[level+1][0] and tbextract[level+1][2] == tbextract[level][0]:
_print_trace(textarray, tbextract[level+1][1])
logger.error("(file: '%s', lineno: %s, function: %s)", tbextract[level+1][0], tbextract[level+1][1], tbextract[level+1][2])
else:
break
nexttb = tb.tb_next
level = level + 1
raise
def simple_exec(code, context):
exec(code, _context, context)
def better_eval(source, locals):
return eval(source, _context, locals)
@contextmanager
def fileslocked(files):
"""Context manager for locking and unlocking file locks."""
locks = []
if files:
for lockfile in files:
locks.append(bb.utils.lockfile(lockfile))
yield
for lock in locks:
bb.utils.unlockfile(lock)
def lockfile(name, shared=False, retry=True):
"""
Use the file fn as a lock file, return when the lock has been acquired.
Returns a variable to pass to unlockfile().
"""
dirname = os.path.dirname(name)
mkdirhier(dirname)
if not os.access(dirname, os.W_OK):
logger.error("Unable to acquire lock '%s', directory is not writable",
name)
sys.exit(1)
op = fcntl.LOCK_EX
if shared:
op = fcntl.LOCK_SH
if not retry:
op = op | fcntl.LOCK_NB
while True:
# If we leave the lockfiles lying around there is no problem
# but we should clean up after ourselves. This gives potential
# for races though. To work around this, when we acquire the lock
# we check the file we locked was still the lock file on disk.
# by comparing inode numbers. If they don't match or the lockfile
# no longer exists, we start again.
# This implementation is unfair since the last person to request the
# lock is the most likely to win it.
try:
lf = open(name, 'a+')
fileno = lf.fileno()
fcntl.flock(fileno, op)
statinfo = os.fstat(fileno)
if os.path.exists(lf.name):
statinfo2 = os.stat(lf.name)
if statinfo.st_ino == statinfo2.st_ino:
return lf
lf.close()
except Exception:
pass
if not retry:
return None
def unlockfile(lf):
"""
Unlock a file locked using lockfile()
"""
try:
# If we had a shared lock, we need to promote to exclusive before
# removing the lockfile. Attempt this, ignore failures.
fcntl.flock(lf.fileno(), fcntl.LOCK_EX|fcntl.LOCK_NB)
os.unlink(lf.name)
except (IOError, OSError):
pass
fcntl.flock(lf.fileno(), fcntl.LOCK_UN)
lf.close()
def md5_file(filename):
"""
Return the hex string representation of the MD5 checksum of filename.
"""
try:
import hashlib
m = hashlib.md5()
except ImportError:
import md5
m = md5.new()
for line in open(filename):
m.update(line)
return m.hexdigest()
def sha256_file(filename):
"""
Return the hex string representation of the 256-bit SHA checksum of
filename. On Python 2.4 this will return None, so callers will need to
handle that by either skipping SHA checks, or running a standalone sha256sum
binary.
"""
try:
import hashlib
except ImportError:
return None
s = hashlib.sha256()
for line in open(filename):
s.update(line)
return s.hexdigest()
def preserved_envvars_exported():
"""Variables which are taken from the environment and placed in and exported
from the metadata"""
return [
'BB_TASKHASH',
'HOME',
'LOGNAME',
'PATH',
'PWD',
'SHELL',
'TERM',
'USER',
]
def preserved_envvars_exported_interactive():
"""Variables which are taken from the environment and placed in and exported
from the metadata, for interactive tasks"""
return [
'COLORTERM',
'DBUS_SESSION_BUS_ADDRESS',
'DESKTOP_SESSION',
'DESKTOP_STARTUP_ID',
'DISPLAY',
'GNOME_KEYRING_PID',
'GNOME_KEYRING_SOCKET',
'GPG_AGENT_INFO',
'GTK_RC_FILES',
'SESSION_MANAGER',
'KRB5CCNAME',
'SSH_AUTH_SOCK',
'XAUTHORITY',
'XDG_DATA_DIRS',
'XDG_SESSION_COOKIE',
]
def preserved_envvars():
"""Variables which are taken from the environment and placed in the metadata"""
v = [
'BBPATH',
'BB_PRESERVE_ENV',
'BB_ENV_WHITELIST',
'BB_ENV_EXTRAWHITE',
'LANG',
'_',
]
return v + preserved_envvars_exported() + preserved_envvars_exported_interactive()
def filter_environment(good_vars):
"""
Create a pristine environment for bitbake. This will remove variables that
are not known and may influence the build in a negative way.
"""
removed_vars = []
for key in os.environ.keys():
if key in good_vars:
continue
removed_vars.append(key)
os.unsetenv(key)
del os.environ[key]
if len(removed_vars):
logger.debug(1, "Removed the following variables from the environment: %s", ", ".join(removed_vars))
return removed_vars
def create_interactive_env(d):
for k in preserved_envvars_exported_interactive():
os.setenv(k, d.getVar(k, True))
def approved_variables():
"""
Determine and return the list of whitelisted variables which are approved
to remain in the envrionment.
"""
approved = []
if 'BB_ENV_WHITELIST' in os.environ:
approved = os.environ['BB_ENV_WHITELIST'].split()
else:
approved = preserved_envvars()
if 'BB_ENV_EXTRAWHITE' in os.environ:
approved.extend(os.environ['BB_ENV_EXTRAWHITE'].split())
return approved
def clean_environment():
"""
Clean up any spurious environment variables. This will remove any
variables the user hasn't chosen to preserve.
"""
if 'BB_PRESERVE_ENV' not in os.environ:
good_vars = approved_variables()
filter_environment(good_vars)
def empty_environment():
"""
Remove all variables from the environment.
"""
for s in os.environ.keys():
os.unsetenv(s)
del os.environ[s]
def build_environment(d):
"""
Build an environment from all exported variables.
"""
import bb.data
for var in bb.data.keys(d):
export = d.getVarFlag(var, "export")
if export:
os.environ[var] = d.getVar(var, True) or ""
def remove(path, recurse=False):
"""Equivalent to rm -f or rm -rf"""
if not path:
return
import os, errno, shutil, glob
for name in glob.glob(path):
try:
os.unlink(name)
except OSError as exc:
if recurse and exc.errno == errno.EISDIR:
shutil.rmtree(name)
elif exc.errno != errno.ENOENT:
raise
def prunedir(topdir):
# Delete everything reachable from the directory named in 'topdir'.
# CAUTION: This is dangerous!
for root, dirs, files in os.walk(topdir, topdown = False):
for name in files:
os.remove(os.path.join(root, name))
for name in dirs:
if os.path.islink(os.path.join(root, name)):
os.remove(os.path.join(root, name))
else:
os.rmdir(os.path.join(root, name))
os.rmdir(topdir)
#
# Could also use return re.compile("(%s)" % "|".join(map(re.escape, suffixes))).sub(lambda mo: "", var)
# but thats possibly insane and suffixes is probably going to be small
#
def prune_suffix(var, suffixes, d):
# See if var ends with any of the suffixes listed and
# remove it if found
for suffix in suffixes:
if var.endswith(suffix):
return var.replace(suffix, "")
return var
def mkdirhier(directory):
"""Create a directory like 'mkdir -p', but does not complain if
directory already exists like os.makedirs
"""
try:
os.makedirs(directory)
except OSError as e:
if e.errno != errno.EEXIST:
raise e
def movefile(src, dest, newmtime = None, sstat = None):
"""Moves a file from src to dest, preserving all permissions and
attributes; mtime will be preserved even when moving across
filesystems. Returns true on success and false on failure. Move is
atomic.
"""
#print "movefile(" + src + "," + dest + "," + str(newmtime) + "," + str(sstat) + ")"
try:
if not sstat:
sstat = os.lstat(src)
except Exception as e:
print("movefile: Stating source file failed...", e)
return None
destexists = 1
try:
dstat = os.lstat(dest)
except:
dstat = os.lstat(os.path.dirname(dest))
destexists = 0
if destexists:
if stat.S_ISLNK(dstat[stat.ST_MODE]):
try:
os.unlink(dest)
destexists = 0
except Exception as e:
pass
if stat.S_ISLNK(sstat[stat.ST_MODE]):
try:
target = os.readlink(src)
if destexists and not stat.S_ISDIR(dstat[stat.ST_MODE]):
os.unlink(dest)
os.symlink(target, dest)
#os.lchown(dest,sstat[stat.ST_UID],sstat[stat.ST_GID])
os.unlink(src)
return os.lstat(dest)
except Exception as e:
print("movefile: failed to properly create symlink:", dest, "->", target, e)
return None
renamefailed = 1
if sstat[stat.ST_DEV] == dstat[stat.ST_DEV]:
try:
os.rename(src, dest)
renamefailed = 0
except Exception as e:
if e[0] != errno.EXDEV:
# Some random error.
print("movefile: Failed to move", src, "to", dest, e)
return None
# Invalid cross-device-link 'bind' mounted or actually Cross-Device
if renamefailed:
didcopy = 0
if stat.S_ISREG(sstat[stat.ST_MODE]):
try: # For safety copy then move it over.
shutil.copyfile(src, dest + "#new")
os.rename(dest + "#new", dest)
didcopy = 1
except Exception as e:
print('movefile: copy', src, '->', dest, 'failed.', e)
return None
else:
#we don't yet handle special, so we need to fall back to /bin/mv
a = getstatusoutput("/bin/mv -f " + "'" + src + "' '" + dest + "'")
if a[0] != 0:
print("movefile: Failed to move special file:" + src + "' to '" + dest + "'", a)
return None # failure
try:
if didcopy:
os.lchown(dest, sstat[stat.ST_UID], sstat[stat.ST_GID])
os.chmod(dest, stat.S_IMODE(sstat[stat.ST_MODE])) # Sticky is reset on chown
os.unlink(src)
except Exception as e:
print("movefile: Failed to chown/chmod/unlink", dest, e)
return None
if newmtime:
os.utime(dest, (newmtime, newmtime))
else:
os.utime(dest, (sstat[stat.ST_ATIME], sstat[stat.ST_MTIME]))
newmtime = sstat[stat.ST_MTIME]
return newmtime
def copyfile(src, dest, newmtime = None, sstat = None):
"""
Copies a file from src to dest, preserving all permissions and
attributes; mtime will be preserved even when moving across
filesystems. Returns true on success and false on failure.
"""
#print "copyfile(" + src + "," + dest + "," + str(newmtime) + "," + str(sstat) + ")"
try:
if not sstat:
sstat = os.lstat(src)
except Exception as e:
print("copyfile: Stating source file failed...", e)
return False
destexists = 1
try:
dstat = os.lstat(dest)
except:
dstat = os.lstat(os.path.dirname(dest))
destexists = 0
if destexists:
if stat.S_ISLNK(dstat[stat.ST_MODE]):
try:
os.unlink(dest)
destexists = 0
except Exception as e:
pass
if stat.S_ISLNK(sstat[stat.ST_MODE]):
try:
target = os.readlink(src)
if destexists and not stat.S_ISDIR(dstat[stat.ST_MODE]):
os.unlink(dest)
os.symlink(target, dest)
#os.lchown(dest,sstat[stat.ST_UID],sstat[stat.ST_GID])
return os.lstat(dest)
except Exception as e:
print("copyfile: failed to properly create symlink:", dest, "->", target, e)
return False
if stat.S_ISREG(sstat[stat.ST_MODE]):
try:
srcchown = False
if not os.access(src, os.R_OK):
# Make sure we can read it
srcchown = True
os.chmod(src, sstat[stat.ST_MODE] | stat.S_IRUSR)
# For safety copy then move it over.
shutil.copyfile(src, dest + "#new")
os.rename(dest + "#new", dest)
except Exception as e:
print('copyfile: copy', src, '->', dest, 'failed.', e)
return False
finally:
if srcchown:
os.chmod(src, sstat[stat.ST_MODE])
os.utime(src, (sstat[stat.ST_ATIME], sstat[stat.ST_MTIME]))
else:
#we don't yet handle special, so we need to fall back to /bin/mv
a = getstatusoutput("/bin/cp -f " + "'" + src + "' '" + dest + "'")
if a[0] != 0:
print("copyfile: Failed to copy special file:" + src + "' to '" + dest + "'", a)
return False # failure
try:
os.lchown(dest, sstat[stat.ST_UID], sstat[stat.ST_GID])
os.chmod(dest, stat.S_IMODE(sstat[stat.ST_MODE])) # Sticky is reset on chown
except Exception as e:
print("copyfile: Failed to chown/chmod/unlink", dest, e)
return False
if newmtime:
os.utime(dest, (newmtime, newmtime))
else:
os.utime(dest, (sstat[stat.ST_ATIME], sstat[stat.ST_MTIME]))
newmtime = sstat[stat.ST_MTIME]
return newmtime
def which(path, item, direction = 0):
"""
Locate a file in a PATH
"""
paths = (path or "").split(':')
if direction != 0:
paths.reverse()
for p in paths:
next = os.path.join(p, item)
if os.path.exists(next):
return next
return ""
def to_boolean(string, default=None):
if not string:
return default
normalized = string.lower()
if normalized in ("y", "yes", "1", "true"):
return True
elif normalized in ("n", "no", "0", "false"):
return False
else:
raise ValueError("Invalid value for to_boolean: %s" % string)
def contains(variable, checkvalues, truevalue, falsevalue, d):
val = d.getVar(variable, True)
if not val:
return falsevalue
val = set(val.split())
if isinstance(checkvalues, basestring):
checkvalues = set(checkvalues.split())
else:
checkvalues = set(checkvalues)
if checkvalues.issubset(val):
return truevalue
return falsevalue