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"""Extension to SCons providing advanced static library dependency tracking.
These modifications to a build environment, which can be attached to
StaticLibrary and Program builders via a call to setup_environment(env),
cause the build system to track library dependencies through static libraries,
and to add them to the link command executed when building programs.
For example, consider a program 'try' that depends on a lib 'tc', which in
turn uses a symbol from a lib 'tb' which in turn uses a library from 'ta'.
Without this package, the Program declaration for "try" looks like this:
Program('try', ['try.c', 'path/to/${LIBPREFIX}tc${LIBSUFFIX}',
'path/to/${LIBPREFIX}tc${LIBSUFFIX}',
'path/to/${LIBPREFIX}tc${LIBSUFFIX}',])
With this library, we can instead write the following
Program('try', ['try.c'], LIBDEPS=['path/to/tc'])
StaticLibrary('tc', ['c.c'], LIBDEPS=['path/to/tb'])
StaticLibrary('tb', ['b.c'], LIBDEPS=['path/to/ta'])
StaticLibrary('ta', ['a.c'])
And the build system will figure out that it needs to link libta.a and libtb.a
when building 'try'.
A StaticLibrary S may also declare programs or libraries, [L1, ...] to be dependent
upon S by setting LIBDEPS_DEPENDENTS=[L1, ...], using the same syntax as is used
for LIBDEPS, except that the libraries and programs will not have LIBPREFIX/LIBSUFFIX
automatically added when missing.
"""
# Copyright (c) 2010, Corensic Inc., All Rights Reserved.
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
# KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
# WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
import os
import SCons.Errors
import SCons.Scanner
import SCons.Util
libdeps_env_var = 'LIBDEPS'
syslibdeps_env_var = 'SYSLIBDEPS'
missing_syslibdep = 'MISSING_LIBDEP_'
def sorted_by_str(iterable):
"""Shorthand for sorting an iterable according to its string representation.
We use this instead of sorted(), below, because SCons.Node objects are
compared on object identity, rather than value, so sorts aren't stable
across invocations of SCons. Since dependency order changes force rebuilds,
we use this sort to create stable dependency orders.
"""
return sorted(iterable, cmp=lambda lhs, rhs: cmp(str(lhs), str(rhs)))
class DependencyCycleError(SCons.Errors.UserError):
"""Exception representing a cycle discovered in library dependencies."""
def __init__(self, first_node ):
super(DependencyCycleError, self).__init__()
self.cycle_nodes = [first_node]
def __str__(self):
return " => ".join(str(n) for n in self.cycle_nodes)
def __get_libdeps(node):
"""Given a SCons Node, return its library dependencies.
Computes the dependencies if they're not already cached.
"""
cached_var_name = libdeps_env_var + '_cached'
if not hasattr(node.attributes, cached_var_name):
setattr(node.attributes, cached_var_name, __compute_libdeps(node))
return getattr(node.attributes, cached_var_name)
def __compute_libdeps(node):
"""Recursively identify all library dependencies for a node."""
if getattr(node.attributes, 'libdeps_exploring', False):
raise DependencyCycleError(node)
env = node.get_env()
deps = set()
node.attributes.libdeps_exploring = True
try:
try:
for child in env.Flatten(getattr(node.attributes, 'libdeps_direct', [])):
if not child:
continue
deps.add(child)
deps.update(__get_libdeps(child))
except DependencyCycleError, e:
if len(e.cycle_nodes) == 1 or e.cycle_nodes[0] != e.cycle_nodes[-1]:
e.cycle_nodes.append(node)
raise
finally:
node.attributes.libdeps_exploring = False
return deps
def __get_syslibdeps(node):
""" Given a SCons Node, return its system library dependencies.
These are the depencencies listed with SYSLIBDEPS, and are linked using -l.
"""
cached_var_name = syslibdeps_env_var + '_cached'
if not hasattr(node.attributes, cached_var_name):
syslibdeps = []
for lib in __get_libdeps(node):
for syslib in node.get_env().Flatten(lib.get_env().get(syslibdeps_env_var, [])):
if syslib:
if type(syslib) in (str, unicode) and syslib.startswith(missing_syslibdep):
print("Target '%s' depends on the availability of a "
"system provided library for '%s', "
"but no suitable library was found during configuration." %
(str(node), syslib[len(missing_syslibdep):]))
node.get_env().Exit(1)
syslibdeps.append(syslib)
setattr(node.attributes, cached_var_name, syslibdeps)
return getattr(node.attributes, cached_var_name)
def __missing_syslib(name):
return missing_syslibdep + name
def update_scanner(builder):
"""Update the scanner for "builder" to also scan library dependencies."""
old_scanner = builder.target_scanner
if old_scanner:
path_function = old_scanner.path_function
def new_scanner(node, env, path=()):
result = set(old_scanner.function(node, env, path))
result.update(__get_libdeps(node))
return sorted_by_str(result)
else:
path_function = None
def new_scanner(node, env, path=()):
result = set(__get_libdeps(node))
return sorted_by_str(result)
builder.target_scanner = SCons.Scanner.Scanner(function=new_scanner,
path_function=path_function)
def get_libdeps(source, target, env, for_signature):
"""Implementation of the special _LIBDEPS environment variable.
Expands to the library dependencies for a target.
"""
target = env.Flatten([target])
return sorted_by_str(__get_libdeps(target[0]))
def get_libdeps_objs(source, target, env, for_signature):
objs = set()
for lib in get_libdeps(source, target, env, for_signature):
objs.update(lib.sources_set)
return sorted_by_str(objs)
def get_libdeps_special_sun(source, target, env, for_signature):
x = get_libdeps(source, target, env, for_signature )
return x + x + x
def get_syslibdeps(source, target, env, for_signature):
deps = __get_syslibdeps(target[0])
lib_link_prefix = env.subst('$LIBLINKPREFIX')
lib_link_suffix = env.subst('$LIBLINKSUFFIX')
result = []
for d in deps:
# Elements of syslibdeps are either strings (str or unicode), or they're File objects.
# If they're File objects, they can be passed straight through. If they're strings,
# they're believed to represent library short names, that should be prefixed with -l
# or the compiler-specific equivalent. I.e., 'm' becomes '-lm', but 'File("m.a") is passed
# through whole cloth.
if type(d) in (str, unicode):
result.append('%s%s%s' % (lib_link_prefix, d, lib_link_suffix))
else:
result.append(d)
return result
def __append_direct_libdeps(node, prereq_nodes):
# We do not bother to decorate nodes that are not actual Objects
if type(node) == str:
return
if getattr(node.attributes, 'libdeps_direct', None) is None:
node.attributes.libdeps_direct = []
node.attributes.libdeps_direct.extend(prereq_nodes)
def libdeps_emitter(target, source, env):
"""SCons emitter that takes values from the LIBDEPS environment variable and
converts them to File node objects, binding correct path information into
those File objects.
Emitters run on a particular "target" node during the initial execution of
the SConscript file, rather than during the later build phase. When they
run, the "env" environment's working directory information is what you
expect it to be -- that is, the working directory is considered to be the
one that contains the SConscript file. This allows specification of
relative paths to LIBDEPS elements.
This emitter also adds LIBSUFFIX and LIBPREFIX appropriately.
NOTE: For purposes of LIBDEPS_DEPENDENTS propagation, only the first member
of the "target" list is made a prerequisite of the elements of LIBDEPS_DEPENDENTS.
"""
libdep_files = []
lib_suffix = env.subst('$LIBSUFFIX', target=target, source=source)
lib_prefix = env.subst('$LIBPREFIX', target=target, source=source)
for prereq in env.Flatten([env.get(libdeps_env_var, [])]):
full_path = env.subst(str(prereq), target=target, source=source)
dir_name = os.path.dirname(full_path)
file_name = os.path.basename(full_path)
if not file_name.startswith(lib_prefix):
file_name = '${LIBPREFIX}' + file_name
if not file_name.endswith(lib_suffix):
file_name += '${LIBSUFFIX}'
libdep_files.append(env.File(os.path.join(dir_name, file_name)))
for t in target:
# target[0] must be a Node and not a string, or else libdeps will fail to
# work properly.
__append_direct_libdeps(t, libdep_files)
for dependent in env.Flatten([env.get('LIBDEPS_DEPENDENTS', [])]):
__append_direct_libdeps(env.File(dependent), [target[0]])
return target, source
def setup_environment(env):
"""Set up the given build environment to do LIBDEPS tracking."""
try:
env['_LIBDEPS']
except KeyError:
env['_LIBDEPS'] = '$_LIBDEPS_LIBS'
# TODO: remove this
# this is a horrible horrible hack for
# for 32-bit solaris
if "uname" in dir(os) and os.uname()[1] == "sun32b":
env['_LIBDEPS_LIBS'] = get_libdeps_special_sun
else:
env['_LIBDEPS_LIBS'] = get_libdeps
env['_LIBDEPS_OBJS'] = get_libdeps_objs
env['_SYSLIBDEPS'] = get_syslibdeps
env['_SHLIBDEPS'] = '$SHLIBDEP_GROUP_START ${_concat(SHLIBDEPPREFIX, __env__.subst(_LIBDEPS, target=TARGET, source=SOURCE), SHLIBDEPSUFFIX, __env__, target=TARGET, source=SOURCE)} $SHLIBDEP_GROUP_END'
env[libdeps_env_var] = SCons.Util.CLVar()
env[syslibdeps_env_var] = SCons.Util.CLVar()
env.Append(LIBEMITTER=libdeps_emitter,
PROGEMITTER=libdeps_emitter,
SHLIBEMITTER=libdeps_emitter)
env.Prepend(_LIBFLAGS=' $LINK_LIBGROUP_START $_LIBDEPS $LINK_LIBGROUP_END $_SYSLIBDEPS ')
for builder_name in ('Program', 'SharedLibrary', 'LoadableModule'):
try:
update_scanner(env['BUILDERS'][builder_name])
except KeyError:
pass
def setup_conftests(conf):
def FindSysLibDep(context, name, libs, **kwargs):
var = "LIBDEPS_" + name.upper() + "_SYSLIBDEP"
kwargs['autoadd'] = False
for lib in libs:
result = context.sconf.CheckLib(lib, **kwargs)
context.did_show_result = 1
if result:
context.env[var] = lib
return context.Result(result)
context.env[var] = __missing_syslib(name)
return context.Result(result)
conf.AddTest('FindSysLibDep', FindSysLibDep)
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