blob: 31ec2b7c9af4b787c844b492245779df2860e760 [file] [log] [blame]
# 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
import multiprocessing
import fcntl
import subprocess
import glob
import fnmatch
import traceback
import errno
import signal
from commands import getstatusoutput
from contextlib import contextmanager
from ctypes import cdll
logger = logging.getLogger("BitBake.Util")
def clean_context():
return {
"os": os,
"bb": bb,
"time": time,
}
def get_context():
return _context
def set_context(ctx):
_context = ctx
# Context used in better_exec, eval
_context = clean_context()
class VersionStringException(Exception):
"""Exception raised when an invalid version specification is found"""
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((0, int(m.group(1))))
s = m.group(2)
continue
if s[0] in string.letters:
m = alpha_regexp.match(s)
r.append((1, m.group(1)))
s = m.group(2)
continue
if s[0] == '~':
r.append((-1, s[0]))
else:
r.append((2, s[0]))
s = s[1:]
return r
def split_version(s):
"""Split a version string into its constituent parts (PE, PV, PR)"""
s = s.strip(" <>=")
e = 0
if s.count(':'):
e = int(s.split(":")[0])
s = s.split(":")[1]
r = ""
if s.count('-'):
r = s.rsplit("-", 1)[1]
s = s.rsplit("-", 1)[0]
v = s
return (e, v, r)
def vercmp_part(a, b):
va = explode_version(a)
vb = explode_version(b)
while True:
if va == []:
(oa, ca) = (0, None)
else:
(oa, ca) = va.pop(0)
if vb == []:
(ob, cb) = (0, None)
else:
(ob, cb) = vb.pop(0)
if (oa, ca) == (0, None) and (ob, cb) == (0, None):
return 0
if oa < ob:
return -1
elif oa > ob:
return 1
elif ca < cb:
return -1
elif 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
def vercmp_string(a, b):
ta = split_version(a)
tb = split_version(b)
return vercmp(ta, tb)
def vercmp_string_op(a, b, op):
"""
Compare two versions and check if the specified comparison operator matches the result of the comparison.
This function is fairly liberal about what operators it will accept since there are a variety of styles
depending on the context.
"""
res = vercmp_string(a, b)
if op in ('=', '=='):
return res == 0
elif op == '<=':
return res <= 0
elif op == '>=':
return res >= 0
elif op in ('>', '>>'):
return res > 0
elif op in ('<', '<<'):
return res < 0
elif op == '!=':
return res != 0
else:
raise VersionStringException('Unsupported comparison operator "%s"' % op)
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_versions2(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
lastcmp = ""
lastver = ""
incmp = False
inversion = False
for i in l:
if i[0] == '(':
incmp = True
i = i[1:].strip()
if not i:
continue
if incmp:
incmp = False
inversion = True
# This list is based on behavior and supported comparisons from deb, opkg and rpm.
#
# Even though =<, <<, ==, !=, =>, and >> may not be supported,
# we list each possibly valid item.
# The build system is responsible for validation of what it supports.
if i.startswith(('<=', '=<', '<<', '==', '!=', '>=', '=>', '>>')):
lastcmp = i[0:2]
i = i[2:]
elif i.startswith(('<', '>', '=')):
lastcmp = i[0:1]
i = i[1:]
else:
# This is an unsupported case!
raise VersionStringException('Invalid version specification in "(%s" - invalid or missing operator' % i)
lastcmp = (i or "")
i = ""
i.strip()
if not i:
continue
if inversion:
if i.endswith(')'):
i = i[:-1] or ""
inversion = False
if lastver and i:
lastver += " "
if i:
lastver += i
if lastdep not in r:
r[lastdep] = []
r[lastdep].append(lastcmp + " " + lastver)
continue
#if not inversion:
lastdep = i
lastver = ""
lastcmp = ""
if not (i in r and r[i]):
r[lastdep] = []
return r
def explode_dep_versions(s):
r = explode_dep_versions2(s)
for d in r:
if not r[d]:
r[d] = None
continue
if len(r[d]) > 1:
bb.warn("explode_dep_versions(): Item %s appeared in dependency string '%s' multiple times with different values. explode_dep_versions cannot cope with this." % (d, s))
r[d] = r[d][0]
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]:
if isinstance(deps[dep], list):
for v in deps[dep]:
result.append(dep + " (" + v + ")")
else:
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
"""
error = []
# print the environment of the method
min_line = max(1, line-4)
max_line = min(line + 4, len(body))
for i in range(min_line, max_line + 1):
if line == i:
error.append(' *** %.4d:%s' % (i, body[i-1].rstrip()))
else:
error.append(' %.4d:%s' % (i, body[i-1].rstrip()))
return error
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:
error = []
# split the text into lines again
body = text.split('\n')
error.append("Error in compiling python function in %s:\n" % realfile)
if e.lineno:
error.append("The code lines resulting in this error were:")
error.extend(_print_trace(body, e.lineno))
else:
error.append("The function causing this error was:")
for line in body:
error.append(line)
error.append("%s: %s" % (e.__class__.__name__, str(e)))
logger.error("\n".join(error))
e = bb.BBHandledException(e)
raise e
def _print_exception(t, value, tb, realfile, text, context):
error = []
try:
exception = traceback.format_exception_only(t, value)
error.append('Error executing a python function in %s:\n' % realfile)
# Strip 'us' from the stack (better_exec call)
tb = tb.tb_next
textarray = text.split('\n')
linefailed = tb.tb_lineno
tbextract = traceback.extract_tb(tb)
tbformat = traceback.format_list(tbextract)
error.append("The stack trace of python calls that resulted in this exception/failure was:")
error.append("File: '%s', lineno: %s, function: %s" % (tbextract[0][0], tbextract[0][1], tbextract[0][2]))
error.extend(_print_trace(textarray, linefailed))
# 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 and (level+1) < len(tbextract):
error.append("File: '%s', lineno: %s, function: %s" % (tbextract[level+1][0], tbextract[level+1][1], tbextract[level+1][2]))
if tbextract[level][0] == tbextract[level+1][0] and tbextract[level+1][2] == tbextract[level][0]:
# The code was possibly in the string we compiled ourselves
error.extend(_print_trace(textarray, tbextract[level+1][1]))
elif tbextract[level+1][0].startswith("/"):
# The code looks like it might be in a file, try and load it
try:
with open(tbextract[level+1][0], "r") as f:
text = f.readlines()
error.extend(_print_trace(text, tbextract[level+1][1]))
except:
error.append(tbformat[level+1])
elif "d" in context and tbextract[level+1][2]:
# Try and find the code in the datastore based on the functionname
d = context["d"]
functionname = tbextract[level+1][2]
text = d.getVar(functionname, True)
if text:
error.extend(_print_trace(text.split('\n'), tbextract[level+1][1]))
else:
error.append(tbformat[level+1])
else:
error.append(tbformat[level+1])
nexttb = tb.tb_next
level = level + 1
error.append("Exception: %s" % ''.join(exception))
finally:
logger.error("\n".join(error))
def better_exec(code, context, text = None, realfile = "<code>"):
"""
Similiar to better_compile, better_exec will
print the lines that are responsible for the
error.
"""
import bb.parse
if not text:
text = code
if not hasattr(code, "co_filename"):
code = better_compile(code, realfile, realfile)
try:
exec(code, get_context(), context)
except (bb.BBHandledException, bb.parse.SkipRecipe, bb.build.FuncFailed, bb.data_smart.ExpansionError):
# Error already shown so passthrough, no need for traceback
raise
except Exception as e:
(t, value, tb) = sys.exc_info()
try:
_print_exception(t, value, tb, realfile, text, context)
except Exception as e:
logger.error("Exception handler error: %s" % str(e))
e = bb.BBHandledException(e)
raise e
def simple_exec(code, context):
exec(code, get_context(), context)
def better_eval(source, locals):
return eval(source, get_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)
@contextmanager
def timeout(seconds):
def timeout_handler(signum, frame):
pass
original_handler = signal.signal(signal.SIGALRM, timeout_handler)
try:
signal.alarm(seconds)
yield
finally:
signal.alarm(0)
signal.signal(signal.SIGALRM, original_handler)
def lockfile(name, shared=False, retry=True, block=False):
"""
Use the specified file as a lock file, return when the lock has
been acquired. Returns a variable to pass to unlockfile().
Parameters:
retry: True to re-try locking if it fails, False otherwise
block: True to block until the lock succeeds, False otherwise
The retry and block parameters are kind of equivalent unless you
consider the possibility of sending a signal to the process to break
out - at which point you want block=True rather than retry=True.
"""
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 and not block:
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:
try:
lf.close()
except Exception:
pass
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()
with open(filename, "rb") as f:
for line in f:
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()
with open(filename, "rb") as f:
for line in f:
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():
"""Variables which are taken from the environment and placed in the metadata"""
v = [
'BBPATH',
'BB_PRESERVE_ENV',
'BB_ENV_WHITELIST',
'BB_ENV_EXTRAWHITE',
]
return v + preserved_envvars_exported()
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[key] = os.environ[key]
os.unsetenv(key)
del os.environ[key]
if removed_vars:
logger.debug(1, "Removed the following variables from the environment: %s", ", ".join(removed_vars.keys()))
return removed_vars
def approved_variables():
"""
Determine and return the list of whitelisted variables which are approved
to remain in the environment.
"""
if 'BB_PRESERVE_ENV' in os.environ:
return os.environ.keys()
approved = []
if 'BB_ENV_WHITELIST' in os.environ:
approved = os.environ['BB_ENV_WHITELIST'].split()
approved.extend(['BB_ENV_WHITELIST'])
else:
approved = preserved_envvars()
if 'BB_ENV_EXTRAWHITE' in os.environ:
approved.extend(os.environ['BB_ENV_EXTRAWHITE'].split())
if 'BB_ENV_EXTRAWHITE' not in approved:
approved.extend(['BB_ENV_EXTRAWHITE'])
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()
return filter_environment(good_vars)
return {}
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 _check_unsafe_delete_path(path):
"""
Basic safeguard against recursively deleting something we shouldn't. If it returns True,
the caller should raise an exception with an appropriate message.
NOTE: This is NOT meant to be a security mechanism - just a guard against silly mistakes
with potentially disastrous results.
"""
extra = ''
# HOME might not be /home/something, so in case we can get it, check against it
homedir = os.environ.get('HOME', '')
if homedir:
extra = '|%s' % homedir
if re.match('(/|//|/home|/home/[^/]*%s)$' % extra, os.path.abspath(path)):
return True
return False
def remove(path, recurse=False):
"""Equivalent to rm -f or rm -rf"""
if not path:
return
if recurse:
for name in glob.glob(path):
if _check_unsafe_delete_path(path):
raise Exception('bb.utils.remove: called with dangerous path "%s" and recurse=True, refusing to delete!' % path)
# shutil.rmtree(name) would be ideal but its too slow
subprocess.call(['rm', '-rf'] + glob.glob(path))
return
for name in glob.glob(path):
try:
os.unlink(name)
except OSError as exc:
if exc.errno != errno.ENOENT:
raise
def prunedir(topdir):
# Delete everything reachable from the directory named in 'topdir'.
# CAUTION: This is dangerous!
if _check_unsafe_delete_path(topdir):
raise Exception('bb.utils.prunedir: called with dangerous path "%s", refusing to delete!' % topdir)
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 needs to know the dest path ending with file name
# so append the file name to a path only if it's a dir specified
srcfname = os.path.basename(src)
destpath = os.path.join(dest, srcfname) if os.path.isdir(dest) \
else dest
os.rename(src, destpath)
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:
logger.warn("copyfile: stat of %s failed (%s)" % (src, 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:
logger.warn("copyfile: failed to create symlink %s to %s (%s)" % (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:
logger.warn("copyfile: copy %s to %s failed (%s)" % (src, dest, 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:
logger.warn("copyfile: failed to copy special file %s to %s (%s)" % (src, 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:
logger.warn("copyfile: failed to chown/chmod %s (%s)" % (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, history = False):
"""
Locate a file in a PATH
"""
hist = []
paths = (path or "").split(':')
if direction != 0:
paths.reverse()
for p in paths:
next = os.path.join(p, item)
hist.append(next)
if os.path.exists(next):
if not os.path.isabs(next):
next = os.path.abspath(next)
if history:
return next, hist
return next
if history:
return "", hist
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
def contains_any(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 & val:
return truevalue
return falsevalue
def cpu_count():
return multiprocessing.cpu_count()
def nonblockingfd(fd):
fcntl.fcntl(fd, fcntl.F_SETFL, fcntl.fcntl(fd, fcntl.F_GETFL) | os.O_NONBLOCK)
def process_profilelog(fn, pout = None):
# Either call with a list of filenames and set pout or a filename and optionally pout.
if not pout:
pout = fn + '.processed'
pout = open(pout, 'w')
import pstats
if isinstance(fn, list):
p = pstats.Stats(*fn, stream=pout)
else:
p = pstats.Stats(fn, stream=pout)
p.sort_stats('time')
p.print_stats()
p.print_callers()
p.sort_stats('cumulative')
p.print_stats()
pout.flush()
pout.close()
#
# Was present to work around multiprocessing pool bugs in python < 2.7.3
#
def multiprocessingpool(*args, **kwargs):
import multiprocessing.pool
#import multiprocessing.util
#multiprocessing.util.log_to_stderr(10)
# Deal with a multiprocessing bug where signals to the processes would be delayed until the work
# completes. Putting in a timeout means the signals (like SIGINT/SIGTERM) get processed.
def wrapper(func):
def wrap(self, timeout=None):
return func(self, timeout=timeout if timeout is not None else 1e100)
return wrap
multiprocessing.pool.IMapIterator.next = wrapper(multiprocessing.pool.IMapIterator.next)
return multiprocessing.Pool(*args, **kwargs)
def exec_flat_python_func(func, *args, **kwargs):
"""Execute a flat python function (defined with def funcname(args):...)"""
# Prepare a small piece of python code which calls the requested function
# To do this we need to prepare two things - a set of variables we can use to pass
# the values of arguments into the calling function, and the list of arguments for
# the function being called
context = {}
funcargs = []
# Handle unnamed arguments
aidx = 1
for arg in args:
argname = 'arg_%s' % aidx
context[argname] = arg
funcargs.append(argname)
aidx += 1
# Handle keyword arguments
context.update(kwargs)
funcargs.extend(['%s=%s' % (arg, arg) for arg in kwargs.iterkeys()])
code = 'retval = %s(%s)' % (func, ', '.join(funcargs))
comp = bb.utils.better_compile(code, '<string>', '<string>')
bb.utils.better_exec(comp, context, code, '<string>')
return context['retval']
def edit_metadata(meta_lines, variables, varfunc, match_overrides=False):
"""Edit lines from a recipe or config file and modify one or more
specified variable values set in the file using a specified callback
function. Lines are expected to have trailing newlines.
Parameters:
meta_lines: lines from the file; can be a list or an iterable
(e.g. file pointer)
variables: a list of variable names to look for. Functions
may also be specified, but must be specified with '()' at
the end of the name. Note that the function doesn't have
any intrinsic understanding of _append, _prepend, _remove,
or overrides, so these are considered as part of the name.
These values go into a regular expression, so regular
expression syntax is allowed.
varfunc: callback function called for every variable matching
one of the entries in the variables parameter. The function
should take four arguments:
varname: name of variable matched
origvalue: current value in file
op: the operator (e.g. '+=')
newlines: list of lines up to this point. You can use
this to prepend lines before this variable setting
if you wish.
and should return a three-element tuple:
newvalue: new value to substitute in, or None to drop
the variable setting entirely. (If the removal
results in two consecutive blank lines, one of the
blank lines will also be dropped).
newop: the operator to use - if you specify None here,
the original operation will be used.
indent: number of spaces to indent multi-line entries,
or -1 to indent up to the level of the assignment
and opening quote, or a string to use as the indent.
minbreak: True to allow the first element of a
multi-line value to continue on the same line as
the assignment, False to indent before the first
element.
match_overrides: True to match items with _overrides on the end,
False otherwise
Returns a tuple:
updated:
True if changes were made, False otherwise.
newlines:
Lines after processing
"""
var_res = {}
if match_overrides:
override_re = '(_[a-zA-Z0-9-_$(){}]+)?'
else:
override_re = ''
for var in variables:
if var.endswith('()'):
var_res[var] = re.compile('^(%s%s)[ \\t]*\([ \\t]*\)[ \\t]*{' % (var[:-2].rstrip(), override_re))
else:
var_res[var] = re.compile('^(%s%s)[ \\t]*[?+:.]*=[+.]*[ \\t]*(["\'])' % (var, override_re))
updated = False
varset_start = ''
varlines = []
newlines = []
in_var = None
full_value = ''
var_end = ''
def handle_var_end():
prerun_newlines = newlines[:]
op = varset_start[len(in_var):].strip()
(newvalue, newop, indent, minbreak) = varfunc(in_var, full_value, op, newlines)
changed = (prerun_newlines != newlines)
if newvalue is None:
# Drop the value
return True
elif newvalue != full_value or (newop not in [None, op]):
if newop not in [None, op]:
# Callback changed the operator
varset_new = "%s %s" % (in_var, newop)
else:
varset_new = varset_start
if isinstance(indent, (int, long)):
if indent == -1:
indentspc = ' ' * (len(varset_new) + 2)
else:
indentspc = ' ' * indent
else:
indentspc = indent
if in_var.endswith('()'):
# A function definition
if isinstance(newvalue, list):
newlines.append('%s {\n%s%s\n}\n' % (varset_new, indentspc, ('\n%s' % indentspc).join(newvalue)))
else:
if not newvalue.startswith('\n'):
newvalue = '\n' + newvalue
if not newvalue.endswith('\n'):
newvalue = newvalue + '\n'
newlines.append('%s {%s}\n' % (varset_new, newvalue))
else:
# Normal variable
if isinstance(newvalue, list):
if not newvalue:
# Empty list -> empty string
newlines.append('%s ""\n' % varset_new)
elif minbreak:
# First item on first line
if len(newvalue) == 1:
newlines.append('%s "%s"\n' % (varset_new, newvalue[0]))
else:
newlines.append('%s "%s \\\n' % (varset_new, newvalue[0]))
for item in newvalue[1:]:
newlines.append('%s%s \\\n' % (indentspc, item))
newlines.append('%s"\n' % indentspc)
else:
# No item on first line
newlines.append('%s " \\\n' % varset_new)
for item in newvalue:
newlines.append('%s%s \\\n' % (indentspc, item))
newlines.append('%s"\n' % indentspc)
else:
newlines.append('%s "%s"\n' % (varset_new, newvalue))
return True
else:
# Put the old lines back where they were
newlines.extend(varlines)
# If newlines was touched by the function, we'll need to return True
return changed
checkspc = False
for line in meta_lines:
if in_var:
value = line.rstrip()
varlines.append(line)
if in_var.endswith('()'):
full_value += '\n' + value
else:
full_value += value[:-1]
if value.endswith(var_end):
if in_var.endswith('()'):
if full_value.count('{') - full_value.count('}') >= 0:
continue
full_value = full_value[:-1]
if handle_var_end():
updated = True
checkspc = True
in_var = None
else:
skip = False
for (varname, var_re) in var_res.iteritems():
res = var_re.match(line)
if res:
isfunc = varname.endswith('()')
if isfunc:
splitvalue = line.split('{', 1)
var_end = '}'
else:
var_end = res.groups()[-1]
splitvalue = line.split(var_end, 1)
varset_start = splitvalue[0].rstrip()
value = splitvalue[1].rstrip()
if not isfunc and value.endswith('\\'):
value = value[:-1]
full_value = value
varlines = [line]
in_var = res.group(1)
if isfunc:
in_var += '()'
if value.endswith(var_end):
full_value = full_value[:-1]
if handle_var_end():
updated = True
checkspc = True
in_var = None
skip = True
break
if not skip:
if checkspc:
checkspc = False
if newlines and newlines[-1] == '\n' and line == '\n':
# Squash blank line if there are two consecutive blanks after a removal
continue
newlines.append(line)
return (updated, newlines)
def edit_metadata_file(meta_file, variables, varfunc):
"""Edit a recipe or config file and modify one or more specified
variable values set in the file using a specified callback function.
The file is only written to if the value(s) actually change.
This is basically the file version of edit_metadata(), see that
function's description for parameter/usage information.
Returns True if the file was written to, False otherwise.
"""
with open(meta_file, 'r') as f:
(updated, newlines) = edit_metadata(f, variables, varfunc)
if updated:
with open(meta_file, 'w') as f:
f.writelines(newlines)
return updated
def edit_bblayers_conf(bblayers_conf, add, remove):
"""Edit bblayers.conf, adding and/or removing layers
Parameters:
bblayers_conf: path to bblayers.conf file to edit
add: layer path (or list of layer paths) to add; None or empty
list to add nothing
remove: layer path (or list of layer paths) to remove; None or
empty list to remove nothing
Returns a tuple:
notadded: list of layers specified to be added but weren't
(because they were already in the list)
notremoved: list of layers that were specified to be removed
but weren't (because they weren't in the list)
"""
import fnmatch
def remove_trailing_sep(pth):
if pth and pth[-1] == os.sep:
pth = pth[:-1]
return pth
approved = bb.utils.approved_variables()
def canonicalise_path(pth):
pth = remove_trailing_sep(pth)
if 'HOME' in approved and '~' in pth:
pth = os.path.expanduser(pth)
return pth
def layerlist_param(value):
if not value:
return []
elif isinstance(value, list):
return [remove_trailing_sep(x) for x in value]
else:
return [remove_trailing_sep(value)]
addlayers = layerlist_param(add)
removelayers = layerlist_param(remove)
# Need to use a list here because we can't set non-local variables from a callback in python 2.x
bblayercalls = []
removed = []
plusequals = False
orig_bblayers = []
def handle_bblayers_firstpass(varname, origvalue, op, newlines):
bblayercalls.append(op)
if op == '=':
del orig_bblayers[:]
orig_bblayers.extend([canonicalise_path(x) for x in origvalue.split()])
return (origvalue, None, 2, False)
def handle_bblayers(varname, origvalue, op, newlines):
updated = False
bblayers = [remove_trailing_sep(x) for x in origvalue.split()]
if removelayers:
for removelayer in removelayers:
for layer in bblayers:
if fnmatch.fnmatch(canonicalise_path(layer), canonicalise_path(removelayer)):
updated = True
bblayers.remove(layer)
removed.append(removelayer)
break
if addlayers and not plusequals:
for addlayer in addlayers:
if addlayer not in bblayers:
updated = True
bblayers.append(addlayer)
del addlayers[:]
if updated:
if op == '+=' and not bblayers:
bblayers = None
return (bblayers, None, 2, False)
else:
return (origvalue, None, 2, False)
with open(bblayers_conf, 'r') as f:
(_, newlines) = edit_metadata(f, ['BBLAYERS'], handle_bblayers_firstpass)
if not bblayercalls:
raise Exception('Unable to find BBLAYERS in %s' % bblayers_conf)
# Try to do the "smart" thing depending on how the user has laid out
# their bblayers.conf file
if bblayercalls.count('+=') > 1:
plusequals = True
removelayers_canon = [canonicalise_path(layer) for layer in removelayers]
notadded = []
for layer in addlayers:
layer_canon = canonicalise_path(layer)
if layer_canon in orig_bblayers and not layer_canon in removelayers_canon:
notadded.append(layer)
notadded_canon = [canonicalise_path(layer) for layer in notadded]
addlayers[:] = [layer for layer in addlayers if canonicalise_path(layer) not in notadded_canon]
(updated, newlines) = edit_metadata(newlines, ['BBLAYERS'], handle_bblayers)
if addlayers:
# Still need to add these
for addlayer in addlayers:
newlines.append('BBLAYERS += "%s"\n' % addlayer)
updated = True
if updated:
with open(bblayers_conf, 'w') as f:
f.writelines(newlines)
notremoved = list(set(removelayers) - set(removed))
return (notadded, notremoved)
def get_file_layer(filename, d):
"""Determine the collection (as defined by a layer's layer.conf file) containing the specified file"""
collections = (d.getVar('BBFILE_COLLECTIONS', True) or '').split()
collection_res = {}
for collection in collections:
collection_res[collection] = d.getVar('BBFILE_PATTERN_%s' % collection, True) or ''
def path_to_layer(path):
# Use longest path so we handle nested layers
matchlen = 0
match = None
for collection, regex in collection_res.iteritems():
if len(regex) > matchlen and re.match(regex, path):
matchlen = len(regex)
match = collection
return match
result = None
bbfiles = (d.getVar('BBFILES', True) or '').split()
bbfilesmatch = False
for bbfilesentry in bbfiles:
if fnmatch.fnmatch(filename, bbfilesentry):
bbfilesmatch = True
result = path_to_layer(bbfilesentry)
if not bbfilesmatch:
# Probably a bbclass
result = path_to_layer(filename)
return result
# Constant taken from http://linux.die.net/include/linux/prctl.h
PR_SET_PDEATHSIG = 1
class PrCtlError(Exception):
pass
def signal_on_parent_exit(signame):
"""
Trigger signame to be sent when the parent process dies
"""
signum = getattr(signal, signame)
# http://linux.die.net/man/2/prctl
result = cdll['libc.so.6'].prctl(PR_SET_PDEATHSIG, signum)
if result != 0:
raise PrCtlError('prctl failed with error code %s' % result)
#
# Manually call the ioprio syscall. We could depend on other libs like psutil
# however this gets us enough of what we need to bitbake for now without the
# dependency
#
_unamearch = os.uname()[4]
IOPRIO_WHO_PROCESS = 1
IOPRIO_CLASS_SHIFT = 13
def ioprio_set(who, cls, value):
NR_ioprio_set = None
if _unamearch == "x86_64":
NR_ioprio_set = 251
elif _unamearch[0] == "i" and _unamearch[2:3] == "86":
NR_ioprio_set = 289
if NR_ioprio_set:
ioprio = value | (cls << IOPRIO_CLASS_SHIFT)
rc = cdll['libc.so.6'].syscall(NR_ioprio_set, IOPRIO_WHO_PROCESS, who, ioprio)
if rc != 0:
raise ValueError("Unable to set ioprio, syscall returned %s" % rc)
else:
bb.warn("Unable to set IO Prio for arch %s" % _unamearch)