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mongodb/SConstruct

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2009-07-27 23:30:41 +02:00
# -*- mode: python; -*-
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# build file for MongoDB
# this requires scons
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# you can get from http://www.scons.org
# then just type scons
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# some common tasks
# build 64-bit mac and pushing to s3
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# scons --64 s3dist
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# scons --distname=0.8 s3dist
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# all s3 pushes require settings.py and simples3
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# This file, SConstruct, configures the build environment, and then delegates to
# several, subordinate SConscript files, which describe specific build rules.
import copy
import datetime
import errno
import json
import os
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import re
import shlex
import shutil
import stat
import sys
import textwrap
import uuid
from buildscripts import utils
from buildscripts import moduleconfig
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from mongo_scons_utils import default_variant_dir_generator
import libdeps
EnsureSConsVersion( 2, 3, 0 )
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def versiontuple(v):
return tuple(map(int, (v.split("."))))
# --- OS identification ---
#
# This needs to precede the options section so that we can only offer some options on certain
# operating systems.
# This function gets the running OS as identified by Python
# It should only be used to set up defaults for options/variables, because
# its value could potentially be overridden by setting TARGET_OS on the
# command-line. Treat this output as the value of HOST_OS
def get_running_os_name():
running_os = os.sys.platform
if running_os.startswith('linux'):
running_os = 'linux'
elif running_os.startswith('freebsd'):
running_os = 'freebsd'
elif running_os.startswith('openbsd'):
running_os = 'openbsd'
elif running_os == 'sunos5':
running_os = 'solaris'
elif running_os == 'win32':
running_os = 'windows'
elif running_os == 'darwin':
running_os = 'osx'
else:
running_os = 'unknown'
return running_os
def env_get_os_name_wrapper(self):
return env['TARGET_OS']
def is_os_raw(target_os, os_list_to_check):
okay = False
posix_os_list = [ 'linux', 'openbsd', 'freebsd', 'osx', 'solaris' ]
for p in os_list_to_check:
if p == 'posix' and target_os in posix_os_list:
okay = True
break
elif p == target_os:
okay = True
break
return okay
# This function tests the running OS as identified by Python
# It should only be used to set up defaults for options/variables, because
# its value could potentially be overridden by setting TARGET_OS on the
# command-line. Treat this output as the value of HOST_OS
def is_running_os(*os_list):
return is_os_raw(get_running_os_name(), os_list)
def env_os_is_wrapper(self, *os_list):
return is_os_raw(self['TARGET_OS'], os_list)
def add_option(name, **kwargs):
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if 'dest' not in kwargs:
kwargs['dest'] = name
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if 'metavar' not in kwargs and kwargs.get('type', None) == 'choice':
kwargs['metavar'] = '[' + '|'.join(kwargs['choices']) + ']'
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AddOption('--' + name, **kwargs)
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def get_option(name):
return GetOption(name)
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def has_option(name):
optval = GetOption(name)
# Options with nargs=0 are true when their value is the empty tuple. Otherwise,
# if the value is falsish (empty string, None, etc.), coerce to False.
return True if optval == () else bool(optval)
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def use_system_version_of_library(name):
return has_option('use-system-all') or has_option('use-system-' + name)
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# Returns true if we have been configured to use a system version of any C++ library. If you
# add a new C++ library dependency that may be shimmed out to the system, add it to the below
# list.
def using_system_version_of_cxx_libraries():
cxx_library_names = ["tcmalloc", "boost", "v8"]
return True in [use_system_version_of_library(x) for x in cxx_library_names]
def make_variant_dir_generator():
memoized_variant_dir = [False]
def generate_variant_dir(target, source, env, for_signature):
if not memoized_variant_dir[0]:
memoized_variant_dir[0] = env.subst('$BUILD_ROOT/$VARIANT_DIR')
return memoized_variant_dir[0]
return generate_variant_dir
# Options TODOs:
#
# - We should either alphabetize the entire list of options, or split them into logical groups
# with clear boundaries, and then alphabetize the groups. There is no way in SCons though to
# inform it of options groups.
#
# - Many of these options are currently only either present or absent. This is not good for
# scripting the build invocation because it means you need to interpolate in the presence of
# the whole option. It is better to make all options take an optional on/off or true/false
# using the nargs='const' mechanism.
#
add_option('mute',
help='do not display commandlines for compiling and linking, to reduce screen noise',
nargs=0,
)
add_option('prefix',
default='$BUILD_ROOT/install',
help='installation prefix',
)
add_option('distname',
help='dist name (0.8.0)',
)
add_option('distmod',
help='additional piece for full dist name',
)
add_option('distarch',
help='override the architecture name in dist output',
)
add_option('nostrip',
help='do not strip installed binaries',
nargs=0,
)
add_option('build-dir',
default='#build',
help='build output directory',
)
add_option('release',
help='release build',
nargs=0,
)
add_option('lto',
help='enable link time optimizations (experimental, except with MSVC)',
nargs=0,
)
add_option('dynamic-windows',
help='dynamically link on Windows',
nargs=0,
)
add_option('endian',
choices=['big', 'little', 'auto'],
default='auto',
help='endianness of target platform',
nargs=1,
type='choice',
)
add_option('disable-minimum-compiler-version-enforcement',
help='allow use of unsupported older compilers (NEVER for production builds)',
nargs=0,
)
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add_option('ssl',
help='Enable SSL',
nargs=0
)
add_option('wiredtiger',
choices=['on', 'off'],
const='on',
default='on',
help='Enable wiredtiger',
nargs='?',
type='choice',
)
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# library choices
js_engine_choices = ['v8-3.12', 'v8-3.25', 'none']
add_option('js-engine',
choices=js_engine_choices,
default=js_engine_choices[0],
help='JavaScript scripting engine implementation',
type='choice',
)
add_option('server-js',
choices=['on', 'off'],
const='on',
default='on',
help='Build mongod without JavaScript support',
type='choice',
)
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add_option('libc++',
help='use libc++ (experimental, requires clang)',
nargs=0,
)
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add_option('use-glibcxx-debug',
help='Enable the glibc++ debug implementations of the C++ standard libary',
nargs=0,
)
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add_option('noshell',
help="don't build shell",
nargs=0,
)
add_option('safeshell',
help="don't let shell scripts run programs (still, don't run untrusted scripts)",
nargs=0,
)
add_option('dbg',
choices=['on', 'off'],
const='on',
default='off',
help='Enable runtime debugging checks',
nargs='?',
type='choice',
)
add_option('opt',
choices=['on', 'off'],
const='on',
help='Enable compile-time optimization',
nargs='?',
type='choice',
)
add_option('sanitize',
help='enable selected sanitizers',
metavar='san1,san2,...sanN',
)
add_option('llvm-symbolizer',
default='llvm-symbolizer',
help='name of (or path to) the LLVM symbolizer',
)
add_option('durableDefaultOn',
help='have durable default to on',
nargs=0,
)
if is_running_os('linux') or is_running_os('windows'):
defaultAllocator = 'tcmalloc'
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else:
defaultAllocator = 'system'
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add_option('allocator',
default=defaultAllocator,
help='allocator to use (tcmalloc or system)',
)
add_option('gdbserver',
help='build in gdb server support',
nargs=0,
)
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add_option('gcov',
help='compile with flags for gcov',
nargs=0,
)
add_option('smokedbprefix',
help='prefix to dbpath et al. for smoke tests',
)
add_option('smokeauth',
help='run smoke tests with --auth',
nargs=0,
)
add_option('use-sasl-client',
help='Support SASL authentication in the client library',
nargs=0,
)
add_option('use-system-tcmalloc',
help='use system version of tcmalloc library',
nargs=0,
)
add_option('use-system-pcre',
help='use system version of pcre library',
nargs=0,
)
add_option('use-system-wiredtiger',
help='use system version of wiredtiger library',
nargs=0,
)
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boost_choices = ['1.56']
add_option('internal-boost',
choices=boost_choices,
default=boost_choices[0],
help='Specify internal boost version to use',
type='choice',
)
add_option('system-boost-lib-search-suffixes',
help='Comma delimited sequence of boost library suffixes to search',
)
add_option('use-system-boost',
help='use system version of boost libraries',
nargs=0,
)
add_option('use-system-snappy',
help='use system version of snappy library',
nargs=0,
)
add_option('use-system-zlib',
help='use system version of zlib library',
nargs=0,
)
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add_option('use-system-v8',
help='use system version of v8 library',
nargs=0,
)
add_option('use-system-stemmer',
help='use system version of stemmer',
nargs=0)
add_option('use-system-yaml',
help='use system version of yaml',
nargs=0,
)
add_option('use-system-asio',
help="use system version of ASIO",
nargs=0,
)
add_option('use-system-all',
help='use all system libraries',
nargs=0,
)
add_option('use-new-tools',
help='put new tools in the tarball',
nargs=0,
)
add_option('use-cpu-profiler',
help='Link against the google-perftools profiler library',
nargs=0,
)
add_option('build-fast-and-loose',
choices=['on', 'off'],
const='on',
default='on',
help='looser dependency checking, ignored for --release builds',
nargs='?',
type='choice',
)
add_option('disable-warnings-as-errors',
help="Don't add -Werror to compiler command line",
nargs=0,
)
add_option('variables-help',
help='Print the help text for SCons variables',
nargs=0,
)
add_option('osx-version-min',
help='minimum OS X version to support',
)
win_version_min_choices = {
'vista' : ('0600', '0000'),
'win7' : ('0601', '0000'),
'ws08r2' : ('0601', '0000'),
'win8' : ('0602', '0000'),
'win81' : ('0603', '0000'),
}
add_option('win-version-min',
choices=win_version_min_choices.keys(),
default=None,
help='minimum Windows version to support',
type='choice',
)
add_option('cache',
help='Use an object cache rather than a per-build variant directory (experimental)',
nargs=0,
)
add_option('cache-dir',
default='$BUILD_ROOT/scons/cache',
help='Specify the directory to use for caching objects if --cache is in use',
)
def find_mongo_custom_variables():
files = []
for path in sys.path:
probe = os.path.join(path, 'mongo_custom_variables.py')
if os.path.isfile(probe):
if not has_option('mute'):
print "Using mongo variable customization file {0}".format(probe)
files.append(probe)
return files
add_option('variables-files',
default=find_mongo_custom_variables(),
help="Specify variables files to load",
)
variable_parse_mode_choices=['auto', 'posix', 'other']
add_option('variable-parse-mode',
choices=variable_parse_mode_choices,
default=variable_parse_mode_choices[0],
help='Select which parsing mode is used to interpret command line variables',
type='choice',
)
add_option('modules',
help="Comma-separated list of modules to build. Empty means none. Default is all.",
)
try:
with open("version.json", "r") as version_fp:
version_data = json.load(version_fp)
if 'version' not in version_data:
print "version.json does not contain a version string"
Exit(1)
if 'githash' not in version_data:
version_data['githash'] = utils.getGitVersion()
except IOError as e:
# If the file error wasn't because the file is missing, error out
if e.errno != errno.ENOENT:
print "Error opening version.json: {0}".format(e.strerror)
Exit(1)
version_data = {
'version': utils.getGitDescribe()[1:],
'githash': utils.getGitVersion(),
}
except ValueError as e:
print "Error decoding version.json: {0}".format(e)
Exit(1)
# Setup the command-line variables
def variable_shlex_converter(val):
# If the argument is something other than a string, propogate
# it literally.
if not isinstance(val, basestring):
return val
parse_mode = get_option('variable-parse-mode')
if parse_mode == 'auto':
parse_mode = 'other' if is_running_os('windows') else 'posix'
return shlex.split(val, posix=(parse_mode == 'posix'))
def variable_arch_converter(val):
arches = {
'x86_64': 'x86_64',
'amd64': 'x86_64',
'emt64': 'x86_64',
'x86': 'i386',
}
val = val.lower()
if val in arches:
return arches[val]
# Uname returns a bunch of possible x86's on Linux.
# Check whether the value is an i[3456]86 processor.
if re.match(r'^i[3-6]86$', val):
return 'i386'
# Return whatever val is passed in - hopefully it's legit
return val
# The Scons 'default' tool enables a lot of tools that we don't actually need to enable.
# On platforms like Solaris, it actually does the wrong thing by enabling the sunstudio
# toolchain first. As such it is simpler and more efficient to manually load the precise
# set of tools we need for each platform.
# If we aren't on a platform where we know the minimal set of tools, we fall back to loading
# the 'default' tool.
def decide_platform_tools():
if is_running_os('windows'):
# we only support MS toolchain on windows
return ['msvc', 'mslink', 'mslib']
elif is_running_os('linux', 'solaris'):
return ['gcc', 'g++', 'gnulink', 'ar']
elif is_running_os('osx'):
return ['gcc', 'g++', 'applelink', 'ar']
else:
return ["default"]
def variable_tools_converter(val):
tool_list = shlex.split(val)
return tool_list + [
"jsheader", "mergelib", "mongo_unittest", "textfile", "distsrc", "gziptool"
]
def variable_distsrc_converter(val):
if not val.endswith("/"):
return val + "/"
return val
env_vars = Variables(
files=variable_shlex_converter(get_option('variables-files')),
args=ARGUMENTS
)
env_vars.Add('ARFLAGS',
help='Sets flags for the archiver',
converter=variable_shlex_converter)
env_vars.Add('CC',
help='Select the C compiler to use')
env_vars.Add('CCFLAGS',
help='Sets flags for the C and C++ compiler',
converter=variable_shlex_converter)
env_vars.Add('CFLAGS',
help='Sets flags for the C compiler',
converter=variable_shlex_converter)
env_vars.Add('CPPDEFINES',
help='Sets pre-processor definitions for C and C++',
converter=variable_shlex_converter,
default=[])
env_vars.Add('CPPPATH',
help='Adds paths to the preprocessor search path',
converter=variable_shlex_converter)
env_vars.Add('CXX',
help='Select the C++ compiler to use')
env_vars.Add('CXXFLAGS',
help='Sets flags for the C++ compiler',
converter=variable_shlex_converter)
# Note: This probably is only really meaningful when configured via a variables file. It will
# also override whatever the SCons platform defaults would be.
env_vars.Add('ENV',
help='Sets the environment for subprocesses')
env_vars.Add('HOST_ARCH',
help='Sets the native architecture of the compiler',
converter=variable_arch_converter,
default=None)
env_vars.Add('LIBPATH',
help='Adds paths to the linker search path',
converter=variable_shlex_converter)
env_vars.Add('LIBS',
help='Adds extra libraries to link against',
converter=variable_shlex_converter)
env_vars.Add('LINKFLAGS',
help='Sets flags for the linker',
converter=variable_shlex_converter)
env_vars.Add('MONGO_DIST_SRC_PREFIX',
help='Sets the prefix for files in the source distribution archive',
converter=variable_distsrc_converter,
default="mongodb-r${MONGO_VERSION}")
env_vars.Add('MONGO_VERSION',
help='Sets the version string for MongoDB',
default=version_data['version'])
env_vars.Add('MONGO_GIT_HASH',
help='Sets the githash to store in the MongoDB version information',
default=version_data['githash'])
env_vars.Add('MSVC_USE_SCRIPT',
help='Sets the script used to setup Visual Studio.')
env_vars.Add('MSVC_VERSION',
help='Sets the version of Visual Studio to use (e.g. 12.0, 11.0, 10.0)')
env_vars.Add('OBJCOPY',
help='Sets the path to objcopy',
default=WhereIs('objcopy'))
env_vars.Add('RPATH',
help='Set the RPATH for dynamic libraries and executables',
converter=variable_shlex_converter)
env_vars.Add('SHCCFLAGS',
help='Sets flags for the C and C++ compiler when building shared libraries',
converter=variable_shlex_converter)
env_vars.Add('SHCFLAGS',
help='Sets flags for the C compiler when building shared libraries',
converter=variable_shlex_converter)
env_vars.Add('SHCXXFLAGS',
help='Sets flags for the C++ compiler when building shared libraries',
converter=variable_shlex_converter)
env_vars.Add('SHLINKFLAGS',
help='Sets flags for the linker when building shared libraries',
converter=variable_shlex_converter)
env_vars.Add('TARGET_ARCH',
help='Sets the architecture to build for',
converter=variable_arch_converter,
default=None)
env_vars.Add('TARGET_OS',
help='Sets the target OS to build for',
default=get_running_os_name())
env_vars.Add('TOOLS',
help='Sets the list of SCons tools to add to the environment',
converter=variable_tools_converter,
default=decide_platform_tools())
env_vars.Add('VARIANT_DIR',
help='Sets the name (or generator function) for the variant directory',
default=default_variant_dir_generator,
)
# don't run configure if user calls --help
if GetOption('help'):
Return()
# -- Validate user provided options --
# A dummy environment that should *only* have the variables we have set. In practice it has
# some other things because SCons isn't quite perfect about keeping variable initialization
# scoped to Tools, but it should be good enough to do validation on any Variable values that
# came from the command line or from loaded files.
variables_only_env = Environment(
# Disable platform specific variable injection
platform=(lambda x: ()),
# But do *not* load any tools, since those might actually set variables. Note that this
# causes the value of our TOOLS variable to have no effect.
tools=[],
# Use the Variables specified above.
variables=env_vars,
)
if ('CC' in variables_only_env) != ('CXX' in variables_only_env):
print('Cannot customize C compiler without customizing C++ compiler, and vice versa')
Exit(1)
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# --- environment setup ---
# If the user isn't using the # to indicate top-of-tree or $ to expand a variable, forbid
# relative paths. Relative paths don't really work as expected, because they end up relative to
# the top level SConstruct, not the invokers CWD. We could in theory fix this with
# GetLaunchDir, but that seems a step too far.
buildDir = get_option('build-dir').rstrip('/')
if buildDir[0] not in ['$', '#']:
if not os.path.isabs(buildDir):
print("Do not use relative paths with --build-dir")
Exit(1)
cacheDir = get_option('cache-dir').rstrip('/')
if cacheDir[0] not in ['$', '#']:
if not os.path.isabs(cacheDir):
print("Do not use relative paths with --cache-dir")
Exit(1)
installDir = get_option('prefix').rstrip('/')
if installDir[0] not in ['$', '#']:
if not os.path.isabs(installDir):
print("Do not use relative paths with --prefix")
Exit(1)
sconsDataDir = Dir(buildDir).Dir('scons')
SConsignFile(str(sconsDataDir.File('sconsign')))
def printLocalInfo():
import sys, SCons
print( "scons version: " + SCons.__version__ )
print( "python version: " + " ".join( [ `i` for i in sys.version_info ] ) )
printLocalInfo()
boostLibs = [ "thread" , "filesystem" , "program_options", "system" ]
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onlyServer = len( COMMAND_LINE_TARGETS ) == 0 or ( len( COMMAND_LINE_TARGETS ) == 1 and str( COMMAND_LINE_TARGETS[0] ) in [ "mongod" , "mongos" , "test" ] )
releaseBuild = has_option("release")
dbg_opt_mapping = {
# --dbg, --opt : dbg opt
( "on", None ) : ( True, False ), # special case interaction
( "on", "on" ) : ( True, True ),
( "on", "off" ) : ( True, False ),
( "off", None ) : ( False, True ),
( "off", "on" ) : ( False, True ),
( "off", "off" ) : ( False, False ),
}
debugBuild, optBuild = dbg_opt_mapping[(get_option('dbg'), get_option('opt'))]
if releaseBuild and (debugBuild or not optBuild):
print("Error: A --release build may not have debugging, and must have optimization")
Exit(1)
noshell = has_option( "noshell" )
jsEngine = get_option( "js-engine")
serverJs = get_option( "server-js" ) == "on"
usev8 = (jsEngine != 'none')
v8version = jsEngine[3:] if jsEngine.startswith('v8-') else 'none'
v8suffix = '' if v8version == '3.12' else '-' + v8version
if not serverJs and not usev8:
print("Warning: --server-js=off is not needed with --js-engine=none")
# We defer building the env until we have determined whether we want certain values. Some values
# in the env actually have semantics for 'None' that differ from being absent, so it is better
# to build it up via a dict, and then construct the Environment in one shot with kwargs.
#
# Yes, BUILD_ROOT vs BUILD_DIR is confusing. Ideally, BUILD_DIR would actually be called
# VARIANT_DIR, and at some point we should probably do that renaming. Until we do though, we
# also need an Environment variable for the argument to --build-dir, which is the parent of all
# variant dirs. For now, we call that BUILD_ROOT. If and when we s/BUILD_DIR/VARIANT_DIR/g,
# then also s/BUILD_ROOT/BUILD_DIR/g.
envDict = dict(BUILD_ROOT=buildDir,
BUILD_DIR=make_variant_dir_generator(),
DIST_ARCHIVE_SUFFIX='.tgz',
MODULE_BANNERS=[],
ARCHIVE_ADDITION_DIR_MAP={},
ARCHIVE_ADDITIONS=[],
PYTHON=utils.find_python(),
SERVER_ARCHIVE='${SERVER_DIST_BASENAME}${DIST_ARCHIVE_SUFFIX}',
UNITTEST_ALIAS='unittests',
# TODO: Move unittests.txt to $BUILD_DIR, but that requires
# changes to MCI.
UNITTEST_LIST='$BUILD_ROOT/unittests.txt',
CONFIGUREDIR=sconsDataDir.Dir('sconf_temp'),
CONFIGURELOG=sconsDataDir.File('config.log'),
INSTALL_DIR=installDir,
CONFIG_HEADER_DEFINES={},
)
env = Environment(variables=env_vars, **envDict)
del envDict
env.AddMethod(env_os_is_wrapper, 'TargetOSIs')
env.AddMethod(env_get_os_name_wrapper, 'GetTargetOSName')
def fatal_error(env, msg, *args):
print msg.format(*args)
Exit(1)
def conf_error(env, msg, *args):
print msg.format(*args)
print "See {0} for details".format(env['CONFIGURELOG'].abspath)
Exit(1)
env.AddMethod(fatal_error, 'FatalError')
env.AddMethod(conf_error, 'ConfError')
if has_option('variables-help'):
print env_vars.GenerateHelpText(env)
Exit(0)
unknown_vars = env_vars.UnknownVariables()
if unknown_vars:
env.FatalError("Unknown variables specified: {0}", ", ".join(unknown_vars.keys()))
def set_config_header_define(env, varname, varval = 1):
env['CONFIG_HEADER_DEFINES'][varname] = varval
env.AddMethod(set_config_header_define, 'SetConfigHeaderDefine')
detectEnv = env.Clone()
# Identify the toolchain in use. We currently support the following:
# These macros came from
# http://nadeausoftware.com/articles/2012/10/c_c_tip_how_detect_compiler_name_and_version_using_compiler_predefined_macros
toolchain_macros = {
'GCC': 'defined(__GNUC__) && !defined(__clang__)',
'clang': 'defined(__clang__)',
'MSVC': 'defined(_MSC_VER)'
}
def CheckForToolchain(context, toolchain, lang_name, compiler_var, source_suffix):
test_body = textwrap.dedent("""
#if {0}
/* we are using toolchain {0} */
#else
#error
#endif
""".format(toolchain_macros[toolchain]))
print_tuple = (lang_name, context.env[compiler_var], toolchain)
context.Message('Checking if %s compiler "%s" is %s... ' % print_tuple)
# Strip indentation from the test body to ensure that the newline at the end of the
# endif is the last character in the file (rather than a line of spaces with no
# newline), and that all of the preprocessor directives start at column zero. Both of
# these issues can trip up older toolchains.
result = context.TryCompile(test_body, source_suffix)
context.Result(result)
return result
# These preprocessor macros came from
# http://nadeausoftware.com/articles/2012/02/c_c_tip_how_detect_processor_type_using_compiler_predefined_macros
processor_macros = {
'x86_64': ('__x86_64', '_M_AMD64'),
'i386': ('__i386', '_M_IX86'),
'sparc': ('__sparc'),
'PowerPC': ('__powerpc__', '__PPC'),
'arm' : ('__arm__'),
'arm64' : ('__arm64__', '__aarch64__'),
}
def CheckForProcessor(context, which_arch):
def run_compile_check(arch):
full_macros = " || ".join([ "defined(%s)" % (v) for v in processor_macros[arch]])
test_body = """
#if {0}
/* Detected {1} */
#else
#error not {1}
#endif
""".format(full_macros, arch)
return context.TryCompile(textwrap.dedent(test_body), ".c")
if which_arch:
ret = run_compile_check(which_arch)
context.Message('Checking if target processor is %s ' % which_arch)
context.Result(ret)
return ret;
for k in processor_macros.keys():
ret = run_compile_check(k)
if ret:
context.Result('Detected a %s processor' % k)
return k
context.Result('Could not detect processor model/architecture')
return False
# Taken from http://nadeausoftware.com/articles/2012/01/c_c_tip_how_use_compiler_predefined_macros_detect_operating_system
os_macros = {
"windows": "_WIN32",
"solaris": "__sun",
"freebsd": "__FreeBSD__",
"openbsd": "__OpenBSD__",
"osx": "__APPLE__",
"linux": "__linux__",
}
def CheckForOS(context, which_os):
test_body = """
#if defined({0})
/* detected {1} */
#else
#error
#endif
""".format(os_macros[which_os], which_os)
context.Message('Checking if target OS {0} is supported by the toolchain '.format(which_os))
ret = context.TryCompile(textwrap.dedent(test_body), ".c")
context.Result(ret)
return ret
detectConf = Configure(detectEnv, help=False, custom_tests = {
'CheckForToolchain' : CheckForToolchain,
'CheckForProcessor': CheckForProcessor,
'CheckForOS': CheckForOS,
})
if not detectConf.CheckCXX():
env.FatalError("C++ compiler {0} doesn't work", detectEnv['CXX'])
if not detectConf.CheckCC():
env.FatalError("C compiler {0} doesn't work", detectEnv['CC'])
toolchain_search_sequence = [ "GCC", "clang" ]
if is_running_os('windows'):
toolchain_search_sequence = [ 'MSVC', 'clang', 'GCC' ]
for candidate_toolchain in toolchain_search_sequence:
if detectConf.CheckForToolchain(candidate_toolchain, "C++", "CXX", ".cpp"):
detected_toolchain = candidate_toolchain
break
if not detected_toolchain:
env.FatalError("Couldn't identity the C++ compiler")
if not detectConf.CheckForToolchain(detected_toolchain, "C", "CC", ".c"):
env.FatalError("C compiler does not match identified C++ compiler")
# Now that we've detected the toolchain, we add methods to the env
# to get the canonical name of the toolchain and to test whether
# scons is using a particular toolchain.
def get_toolchain_name(self):
return detected_toolchain.lower()
def is_toolchain(self, *args):
actual_toolchain = self.ToolchainName()
for v in args:
if v.lower() == actual_toolchain:
return True
return False
env.AddMethod(get_toolchain_name, 'ToolchainName')
env.AddMethod(is_toolchain, 'ToolchainIs')
if env['TARGET_ARCH']:
if not detectConf.CheckForProcessor(env['TARGET_ARCH']):
env.ConfError("Could not detect processor specified in TARGET_ARCH variable")
else:
detected_processor = detectConf.CheckForProcessor(None)
if not detected_processor:
Exit(1)
env['TARGET_ARCH'] = detected_processor
if env['TARGET_OS'] not in os_macros:
print "No special config for [{0}] which probably means it won't work".format(env['TARGET_OS'])
elif not detectConf.CheckForOS(env['TARGET_OS']):
env.FatalError("TARGET_OS ({0}) is not supported by compiler", env['TARGET_OS'])
detectConf.Finish()
if not env['HOST_ARCH']:
env['HOST_ARCH'] = env['TARGET_ARCH']
# In some places we have POSIX vs Windows cpp files, and so there's an additional
# env variable to interpolate their names in child sconscripts
env['TARGET_OS_FAMILY'] = 'posix' if env.TargetOSIs('posix') else env.GetTargetOSName()
if has_option("cache"):
if has_option("release"):
env.FatalError(
"Using the experimental --cache option is not permitted for --release builds")
if has_option("gcov"):
env.FatalError("Mixing --cache and --gcov doesn't work correctly yet. See SERVER-11084")
env.CacheDir(str(env.Dir(cacheDir)))
if optBuild:
env.SetConfigHeaderDefine("MONGO_CONFIG_OPTIMIZED_BUILD")
# Ignore requests to build fast and loose for release builds.
if get_option('build-fast-and-loose') == "on" and not has_option('release'):
# See http://www.scons.org/wiki/GoFastButton for details
env.Decider('MD5-timestamp')
env.SetOption('max_drift', 1)
if has_option('mute'):
env.Append( CCCOMSTR = "Compiling $TARGET" )
env.Append( CXXCOMSTR = env["CCCOMSTR"] )
env.Append( SHCCCOMSTR = "Compiling $TARGET" )
env.Append( SHCXXCOMSTR = env["SHCCCOMSTR"] )
env.Append( LINKCOMSTR = "Linking $TARGET" )
env.Append( SHLINKCOMSTR = env["LINKCOMSTR"] )
env.Append( ARCOMSTR = "Generating library $TARGET" )
endian = get_option( "endian" )
if endian == "auto":
endian = sys.byteorder
if endian == "little":
env.SetConfigHeaderDefine("MONGO_CONFIG_BYTE_ORDER", "1234")
elif endian == "big":
env.SetConfigHeaderDefine("MONGO_CONFIG_BYTE_ORDER", "4321")
env['_LIBDEPS'] = '$_LIBDEPS_OBJS'
if env['_LIBDEPS'] == '$_LIBDEPS_OBJS':
# The libraries we build in LIBDEPS_OBJS mode are just placeholders for tracking dependencies.
# This avoids wasting time and disk IO on them.
def write_uuid_to_file(env, target, source):
with open(env.File(target[0]).abspath, 'w') as fake_lib:
fake_lib.write(str(uuid.uuid4()))
fake_lib.write('\n')
def noop_action(env, target, source):
pass
env['ARCOM'] = write_uuid_to_file
env['ARCOMSTR'] = 'Generating placeholder library $TARGET'
env['RANLIBCOM'] = noop_action
env['RANLIBCOMSTR'] = 'Skipping ranlib for $TARGET'
libdeps.setup_environment( env )
if env.TargetOSIs('linux', 'freebsd'):
env['LINK_LIBGROUP_START'] = '-Wl,--start-group'
env['LINK_LIBGROUP_END'] = '-Wl,--end-group'
elif env.TargetOSIs('osx'):
env['LINK_LIBGROUP_START'] = ''
env['LINK_LIBGROUP_END'] = ''
elif env.TargetOSIs('solaris'):
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env['LINK_LIBGROUP_START'] = '-z rescan'
env['LINK_LIBGROUP_END'] = ''
# ---- other build setup -----
if debugBuild:
env.SetConfigHeaderDefine("MONGO_CONFIG_DEBUG_BUILD")
if env.TargetOSIs('linux'):
env.Append( LIBS=['m'] )
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elif env.TargetOSIs('solaris'):
env.Append( LIBS=["socket","resolv","lgrp"] )
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elif env.TargetOSIs('freebsd'):
env.Append( LIBS=[ "kvm" ] )
env.Append( CCFLAGS=[ "-fno-omit-frame-pointer" ] )
elif env.TargetOSIs('openbsd'):
env.Append( LIBS=[ "kvm" ] )
elif env.TargetOSIs('windows'):
dynamicCRT = has_option("dynamic-windows")
env['DIST_ARCHIVE_SUFFIX'] = '.zip'
# If tools configuration fails to set up 'cl' in the path, fall back to importing the whole
# shell environment and hope for the best. This will work, for instance, if you have loaded
# an SDK shell.
for pathdir in env['ENV']['PATH'].split(os.pathsep):
if os.path.exists(os.path.join(pathdir, 'cl.exe')):
break
else:
print("NOTE: Tool configuration did not find 'cl' compiler, falling back to os environment")
env['ENV'] = dict(os.environ)
env.Append(CPPDEFINES=[
# This tells the Windows compiler not to link against the .lib files
# and to use boost as a bunch of header-only libraries
"BOOST_ALL_NO_LIB",
])
env.Append( CPPDEFINES=[ "_UNICODE" ] )
env.Append( CPPDEFINES=[ "UNICODE" ] )
2010-06-01 23:25:25 +02:00
# /EHsc exception handling style for visual studio
# /W3 warning level
env.Append(CCFLAGS=["/EHsc","/W3"])
2010-06-01 23:25:25 +02:00
# some warnings we don't like:
# c4355
# 'this' : used in base member initializer list
# The this pointer is valid only within nonstatic member functions. It cannot be used in the initializer list for a base class.
# c4800
# 'type' : forcing value to bool 'true' or 'false' (performance warning)
# This warning is generated when a value that is not bool is assigned or coerced into type bool.
# c4267
# 'var' : conversion from 'size_t' to 'type', possible loss of data
# When compiling with /Wp64, or when compiling on a 64-bit operating system, type is 32 bits but size_t is 64 bits when compiling for 64-bit targets. To fix this warning, use size_t instead of a type.
# c4244
# 'conversion' conversion from 'type1' to 'type2', possible loss of data
# An integer type is converted to a smaller integer type.
# c4290
# C++ exception specification ignored except to indicate a function is not __declspec(nothrow
# A function is declared using exception specification, which Visual C++ accepts but does not
# implement
# c4068
# unknown pragma -- added so that we can specify unknown pragmas for other compilers
# c4351
# on extremely old versions of MSVC (pre 2k5), default constructing an array member in a
# constructor's initialization list would not zero the array members "in some cases".
# since we don't target MSVC versions that old, this warning is safe to ignore.
env.Append( CCFLAGS=["/wd4355", "/wd4800", "/wd4267", "/wd4244",
"/wd4290", "/wd4068", "/wd4351"] )
# some warnings we should treat as errors:
# c4013
# 'function' undefined; assuming extern returning int
# This warning occurs when files compiled for the C language use functions not defined
# in a header file.
# c4099
# identifier' : type name first seen using 'objecttype1' now seen using 'objecttype2'
# This warning occurs when classes and structs are declared with a mix of struct and class
# which can cause linker failures
# c4930
# 'identifier': prototyped function not called (was a variable definition intended?)
# This warning indicates a most-vexing parse error, where a user declared a function that
# was probably intended as a variable definition. A common example is accidentally
# declaring a function called lock that takes a mutex when one meant to create a guard
# object called lock on the stack.
env.Append( CCFLAGS=["/we4013", "/we4099", "/we4930"] )
env.Append( CPPDEFINES=["_CONSOLE","_CRT_SECURE_NO_WARNINGS"] )
2009-01-08 00:05:22 +01:00
2011-05-30 06:30:10 +02:00
# this would be for pre-compiled headers, could play with it later
#env.Append( CCFLAGS=['/Yu"pch.h"'] )
2011-05-30 06:30:10 +02:00
# docs say don't use /FD from command line (minimal rebuild)
2012-03-07 21:43:50 +01:00
# /Gy function level linking (implicit when using /Z7)
# /Z7 debug info goes into each individual .obj file -- no .pdb created
env.Append( CCFLAGS= ["/Z7", "/errorReport:none"] )
# /DEBUG will tell the linker to create a .pdb file
# which WinDbg and Visual Studio will use to resolve
# symbols if you want to debug a release-mode image.
# Note that this means we can't do parallel links in the build.
#
# Please also note that this has nothing to do with _DEBUG or optimization.
env.Append( LINKFLAGS=["/DEBUG"] )
# /MD: use the multithreaded, DLL version of the run-time library (MSVCRT.lib/MSVCR###.DLL)
# /MT: use the multithreaded, static version of the run-time library (LIBCMT.lib)
# /MDd: Defines _DEBUG, _MT, _DLL, and uses MSVCRTD.lib/MSVCRD###.DLL
# /MTd: Defines _DEBUG, _MT, and causes your application to use the
# debug multithread version of the run-time library (LIBCMTD.lib)
winRuntimeLibMap = {
#dyn #dbg
( False, False ) : "/MT",
( False, True ) : "/MTd",
( True, False ) : "/MD",
( True, True ) : "/MDd",
}
env.Append(CCFLAGS=[winRuntimeLibMap[(dynamicCRT, debugBuild)]])
if optBuild:
# /O2: optimize for speed (as opposed to size)
# /Oy-: disable frame pointer optimization (overrides /O2, only affects 32-bit)
# /INCREMENTAL: NO - disable incremental link - avoid the level of indirection for function
# calls
env.Append( CCFLAGS=["/O2", "/Oy-"] )
env.Append( LINKFLAGS=["/INCREMENTAL:NO"])
2009-02-10 21:12:15 +01:00
else:
env.Append( CCFLAGS=["/Od"] )
if debugBuild and not optBuild:
# /RTC1: - Enable Stack Frame Run-Time Error Checking; Reports when a variable is used
# without having been initialized (implies /Od: no optimizations)
env.Append( CCFLAGS=["/RTC1"] )
# Support large object files since some unit-test sources contain a lot of code
env.Append( CCFLAGS=["/bigobj"] )
# This gives 32-bit programs 4 GB of user address space in WOW64, ignored in 64-bit builds
env.Append( LINKFLAGS=["/LARGEADDRESSAWARE"] )
env.Append(LIBS=['ws2_32.lib',
'kernel32.lib',
'advapi32.lib',
'Psapi.lib',
'DbgHelp.lib',
'shell32.lib',
'Iphlpapi.lib',
'version.lib'])
# v8 calls timeGetTime()
if usev8:
env.Append(LIBS=['winmm.lib'])
# When building on visual studio, this sets the name of the debug symbols file
if env.ToolchainIs('msvc'):
env['PDB'] = '${TARGET.base}.pdb'
env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1
if env.TargetOSIs('posix'):
# -Winvalid-pch Warn if a precompiled header (see Precompiled Headers) is found in the search path but can't be used.
env.Append( CCFLAGS=["-fPIC",
"-fno-strict-aliasing",
"-ggdb",
"-pthread",
"-Wall",
"-Wsign-compare",
"-Wno-unknown-pragmas",
"-Winvalid-pch"] )
2010-11-30 04:09:07 +01:00
# env.Append( " -Wconversion" ) TODO: this doesn't really work yet
if env.TargetOSIs('linux', 'osx'):
if not has_option("disable-warnings-as-errors"):
env.Append( CCFLAGS=["-Werror"] )
2011-03-11 23:06:41 +01:00
env.Append( CXXFLAGS=["-Wnon-virtual-dtor", "-Woverloaded-virtual"] )
env.Append( LINKFLAGS=["-fPIC", "-pthread"] )
# SERVER-9761: Ensure early detection of missing symbols in dependent libraries at program
# startup.
#
# TODO: Is it necessary to add to both linkflags and shlinkflags, or are LINKFLAGS
# propagated to SHLINKFLAGS?
if env.TargetOSIs('osx'):
env.Append( LINKFLAGS=["-Wl,-bind_at_load"] )
env.Append( SHLINKFLAGS=["-Wl,-bind_at_load"] )
else:
env.Append( LINKFLAGS=["-Wl,-z,now"] )
env.Append( SHLINKFLAGS=["-Wl,-z,now"] )
env.Append( LINKFLAGS=["-rdynamic"] )
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env.Append( LIBS=[] )
2009-01-08 00:05:22 +01:00
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#make scons colorgcc friendly
for key in ('HOME', 'TERM'):
try:
env['ENV'][key] = os.environ[key]
except KeyError:
pass
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if env.TargetOSIs('linux') and has_option( "gcov" ):
env.Append( CXXFLAGS=" -fprofile-arcs -ftest-coverage " )
env.Append( LINKFLAGS=" -fprofile-arcs -ftest-coverage " )
if optBuild:
env.Append( CCFLAGS=["-O2"] )
else:
env.Append( CCFLAGS=["-O0"] )
if debugBuild:
if not optBuild:
env.Append( CCFLAGS=["-fstack-protector"] )
env.Append( LINKFLAGS=["-fstack-protector"] )
env.Append( SHLINKFLAGS=["-fstack-protector"] )
2009-01-30 16:29:07 +01:00
if has_option( "ssl" ):
env.SetConfigHeaderDefine("MONGO_CONFIG_SSL")
env.Append( MONGO_CRYPTO=["openssl"] )
if env.TargetOSIs('windows'):
env.Append( LIBS=["libeay32"] )
env.Append( LIBS=["ssleay32"] )
else:
env.Append( LIBS=["ssl"] )
env.Append( LIBS=["crypto"] )
else:
env.Append( MONGO_CRYPTO=["tom"] )
wiredtiger = False
if get_option('wiredtiger') == 'on':
# Wiredtiger only supports 64-bit architecture, and will fail to compile on 32-bit
# so disable WiredTiger automatically on 32-bit since wiredtiger is on by default
if env['TARGET_ARCH'] == 'i386':
env.FatalError("WiredTiger is not supported on 32-bit platforms\n"
"Re-run scons with --wiredtiger=off to build on 32-bit platforms")
else:
wiredtiger = True
if env['TARGET_ARCH'] == 'i386':
# If we are using GCC or clang to target 32 bit, set the ISA minimum to 'nocona',
# and the tuning to 'generic'. The choice of 'nocona' is selected because it
# -- includes MMX extenions which we need for tcmalloc on 32-bit
# -- can target 32 bit
# -- is at the time of this writing a widely-deployed 10 year old microarchitecture
# -- is available as a target architecture from GCC 4.0+
# However, we only want to select an ISA, not the nocona specific scheduling, so we
# select the generic tuning. For installations where hardware and system compiler rev are
# contemporaries, the generic scheduling should be appropriate for a wide range of
# deployed hardware.
if env.ToolchainIs('GCC', 'clang'):
env.Append( CCFLAGS=['-march=nocona', '-mtune=generic'] )
# Needed for auth tests since key files are stored in git with mode 644.
if not env.TargetOSIs('windows'):
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for keysuffix in [ "1" , "2" ]:
keyfile = "jstests/libs/key%s" % keysuffix
os.chmod( keyfile , stat.S_IWUSR|stat.S_IRUSR )
# boostSuffixList is used when using system boost to select a search sequence
# for boost libraries.
boostSuffixList = ["-mt", ""]
if get_option("system-boost-lib-search-suffixes") is not None:
if not use_system_version_of_library("boost"):
env.FatalError("The --system-boost-lib-search-suffixes option is only valid "
"with --use-system-boost")
boostSuffixList = get_option("system-boost-lib-search-suffixes")
if boostSuffixList == "":
boostSuffixList = []
else:
boostSuffixList = boostSuffixList.split(',')
# boostSuffix is used when using internal boost to select which version
# of boost is in play.
boostSuffix = "";
if not use_system_version_of_library("boost"):
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# Boost release numbers are x.y.z, where z is usually 0 which we do not include in
# the internal-boost option
boostSuffix = "-%s.0" % get_option( "internal-boost")
# discover modules, and load the (python) module for each module's build.py
mongo_modules = moduleconfig.discover_modules('src/mongo/db/modules', get_option('modules'))
env['MONGO_MODULES'] = [m.name for m in mongo_modules]
# --- check system ---
def doConfigure(myenv):
global wiredtiger
# Check that the compilers work.
#
# TODO: Currently, we have some flags already injected. Eventually, this should test the
# bare compilers, and we should re-check at the very end that TryCompile and TryLink still
# work with the flags we have selected.
if myenv.ToolchainIs('msvc'):
compiler_minimum_string = "Microsoft Visual Studio 2013 Update 4"
compiler_test_body = textwrap.dedent(
"""
#if !defined(_MSC_VER)
#error
#endif
#if _MSC_VER < 1800 || (_MSC_VER == 1800 && _MSC_FULL_VER < 180031101)
#error %s or newer is required to build MongoDB
#endif
int main(int argc, char* argv[]) {
return 0;
}
""" % compiler_minimum_string)
elif myenv.ToolchainIs('gcc'):
compiler_minimum_string = "GCC 4.8.2"
compiler_test_body = textwrap.dedent(
"""
#if !defined(__GNUC__) || defined(__clang__)
#error
#endif
#if (__GNUC__ < 4) || (__GNUC__ == 4 && __GNUC_MINOR__ < 8) || (__GNUC__ == 4 && __GNUC_MINOR__ == 8 && __GNUC_PATCHLEVEL__ < 2)
#error %s or newer is required to build MongoDB
#endif
int main(int argc, char* argv[]) {
return 0;
}
""" % compiler_minimum_string)
elif myenv.ToolchainIs('clang'):
compiler_minimum_string = "clang 3.4 (or Apple XCode 5.1.1)"
compiler_test_body = textwrap.dedent(
"""
#if !defined(__clang__)
#error
#endif
#if defined(__apple_build_version__)
#if __apple_build_version__ < 5030040
#error %s or newer is required to build MongoDB
#endif
#elif (__clang_major__ < 3) || (__clang_major__ == 3 && __clang_minor__ < 4)
#error %s or newer is required to build MongoDB
#endif
int main(int argc, char* argv[]) {
return 0;
}
""" % (compiler_minimum_string, compiler_minimum_string))
else:
myenv.ConfError("Error: can't check compiler minimum; don't know this compiler...")
def CheckForMinimumCompiler(context, language):
extension_for = {
"C" : ".c",
"C++" : ".cpp",
}
context.Message("Checking if %s compiler is %s or newer..." %
(language, compiler_minimum_string))
result = context.TryCompile(compiler_test_body, extension_for[language])
context.Result(result)
return result;
conf = Configure(myenv, help=False, custom_tests = {
'CheckForMinimumCompiler' : CheckForMinimumCompiler,
})
c_compiler_validated = conf.CheckForMinimumCompiler('C')
cxx_compiler_validated = conf.CheckForMinimumCompiler('C++')
suppress_invalid = has_option("disable-minimum-compiler-version-enforcement")
if releaseBuild and suppress_invalid:
env.FatalError("--disable-minimum-compiler-version-enforcement is forbidden with --release")
if not (c_compiler_validated and cxx_compiler_validated):
if not suppress_invalid:
env.ConfError("ERROR: Refusing to build with compiler that does not meet requirements")
print("WARNING: Ignoring failed compiler version check per explicit user request.")
print("WARNING: The build may fail, binaries may crash, or may run but corrupt data...")
# Figure out what our minimum windows version is. If the user has specified, then use
# that.
if env.TargetOSIs('windows'):
if has_option('win-version-min'):
win_version_min = get_option('win-version-min')
else:
# If no minimum version has beeen specified, use our default
win_version_min = 'vista'
env['WIN_VERSION_MIN'] = win_version_min
win_version_min = win_version_min_choices[win_version_min]
env.Append( CPPDEFINES=[("_WIN32_WINNT", "0x" + win_version_min[0])] )
env.Append( CPPDEFINES=[("NTDDI_VERSION", "0x" + win_version_min[0] + win_version_min[1])] )
conf.Finish()
def AddFlagIfSupported(env, tool, extension, flag, **mutation):
def CheckFlagTest(context, tool, extension, flag):
test_body = ""
context.Message('Checking if %s compiler supports %s... ' % (tool, flag))
ret = context.TryCompile(test_body, extension)
context.Result(ret)
return ret
if env.ToolchainIs('msvc'):
env.FatalError("AddFlagIfSupported is not currently supported with MSVC")
test_mutation = mutation
if env.ToolchainIs('gcc'):
test_mutation = copy.deepcopy(mutation)
# GCC helpfully doesn't issue a diagnostic on unknown flags of the form -Wno-xxx
# unless other diagnostics are triggered. That makes it tough to check for support
# for -Wno-xxx. To work around, if we see that we are testing for a flag of the
# form -Wno-xxx (but not -Wno-error=xxx), we also add -Wxxx to the flags. GCC does
# warn on unknown -Wxxx style flags, so this lets us probe for availablity of
# -Wno-xxx.
for kw in test_mutation.keys():
test_flags = test_mutation[kw]
for test_flag in test_flags:
if test_flag.startswith("-Wno-") and not test_flag.startswith("-Wno-error="):
test_flags.append(re.sub("^-Wno-", "-W", test_flag))
cloned = env.Clone()
cloned.Append(**test_mutation)
# For GCC, we don't need anything since bad flags are already errors, but
# adding -Werror won't hurt. For clang, bad flags are only warnings, so we need -Werror
# to make them real errors.
cloned.Append(CCFLAGS=['-Werror'])
conf = Configure(cloned, help=False, custom_tests = {
'CheckFlag' : lambda(ctx) : CheckFlagTest(ctx, tool, extension, flag)
})
available = conf.CheckFlag()
conf.Finish()
if available:
env.Append(**mutation)
return available
def AddToCFLAGSIfSupported(env, flag):
return AddFlagIfSupported(env, 'C', '.c', flag, CFLAGS=[flag])
def AddToCCFLAGSIfSupported(env, flag):
return AddFlagIfSupported(env, 'C', '.c', flag, CCFLAGS=[flag])
def AddToCXXFLAGSIfSupported(env, flag):
return AddFlagIfSupported(env, 'C++', '.cpp', flag, CXXFLAGS=[flag])
if myenv.ToolchainIs('clang', 'gcc'):
# This warning was added in g++-4.8.
AddToCCFLAGSIfSupported(myenv, '-Wno-unused-local-typedefs')
# Clang likes to warn about unused functions, which seems a tad aggressive and breaks
# -Werror, which we want to be able to use.
AddToCCFLAGSIfSupported(myenv, '-Wno-unused-function')
# TODO: Note that the following two flags are added to CCFLAGS even though they are
# really C++ specific. We need to do this because SCons passes CXXFLAGS *before*
# CCFLAGS, but CCFLAGS contains -Wall, which re-enables the warnings we are trying to
# suppress. In the future, we should move all warning flags to CCWARNFLAGS and
# CXXWARNFLAGS and add these to CCOM and CXXCOM as appropriate.
#
# Clang likes to warn about unused private fields, but some of our third_party
# libraries have such things.
AddToCCFLAGSIfSupported(myenv, '-Wno-unused-private-field')
# Prevents warning about using deprecated features (such as auto_ptr in c++11)
# Using -Wno-error=deprecated-declarations does not seem to work on some compilers,
# including at least g++-4.6.
AddToCCFLAGSIfSupported(myenv, "-Wno-deprecated-declarations")
# As of clang-3.4, this warning appears in v8, and gets escalated to an error.
AddToCCFLAGSIfSupported(myenv, "-Wno-tautological-constant-out-of-range-compare")
# New in clang-3.4, trips up things mostly in third_party, but in a few places in the
# primary mongo sources as well.
AddToCCFLAGSIfSupported(myenv, "-Wno-unused-const-variable")
# Prevents warning about unused but set variables found in boost version 1.49
# in boost/date_time/format_date_parser.hpp which does not work for compilers
# GCC >= 4.6. Error explained in https://svn.boost.org/trac/boost/ticket/6136 .
AddToCCFLAGSIfSupported(myenv, "-Wno-unused-but-set-variable")
# This has been suppressed in gcc 4.8, due to false positives, but not in clang. So
# we explicitly disable it here.
AddToCCFLAGSIfSupported(myenv, "-Wno-missing-braces")
# Suppress warnings about not consistently using override everywhere in a class. It seems
# very pedantic, and we have a fair number of instances.
AddToCCFLAGSIfSupported(myenv, "-Wno-inconsistent-missing-override")
# Don't issue warnings about potentially evaluated expressions
AddToCCFLAGSIfSupported(myenv, "-Wno-potentially-evaluated-expression")
# Check if we need to disable null-conversion warnings
if myenv.ToolchainIs('clang'):
def CheckNullConversion(context):
test_body = """
#include <boost/shared_ptr.hpp>
struct TestType { int value; bool boolValue; };
bool foo() {
boost::shared_ptr<TestType> sp(new TestType);
return NULL != sp;
}
"""
context.Message('Checking if implicit boost::shared_ptr null conversion is supported... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckNullConversion' : CheckNullConversion,
})
if conf.CheckNullConversion() == False:
env.Append( CCFLAGS="-Wno-null-conversion" )
conf.Finish()
# This needs to happen before we check for libc++, since it affects whether libc++ is available.
if env.TargetOSIs('osx') and has_option('osx-version-min'):
min_version = get_option('osx-version-min')
min_version_flag = '-mmacosx-version-min=%s' % (min_version)
if not AddToCCFLAGSIfSupported(myenv, min_version_flag):
myenv.ConfError("Can't set minimum OS X version with this compiler")
myenv.AppendUnique(LINKFLAGS=[min_version_flag])
usingLibStdCxx = False
if has_option('libc++'):
if not myenv.ToolchainIs('clang'):
myenv.ConfError('libc++ is currently only supported for clang')
if env.TargetOSIs('osx') and has_option('osx-version-min') and versiontuple(min_version) < versiontuple('10.7'):
print("Warning: You passed option 'libc++'. You probably want to also pass 'osx-version-min=10.7' or higher for libc++ support.")
if AddToCXXFLAGSIfSupported(myenv, '-stdlib=libc++'):
myenv.Append(LINKFLAGS=['-stdlib=libc++'])
else:
myenv.ConfError('libc++ requested, but compiler does not support -stdlib=libc++' )
else:
def CheckLibStdCxx(context):
test_body = """
#include <vector>
#if !defined(__GLIBCXX__)
#error
#endif
"""
context.Message('Checking if we are using libstdc++... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckLibStdCxx' : CheckLibStdCxx,
})
usingLibStdCxx = conf.CheckLibStdCxx()
conf.Finish()
if not myenv.ToolchainIs('msvc'):
if not AddToCXXFLAGSIfSupported(myenv, '-std=c++11'):
myenv.ConfError('Compiler does not honor -std=c++11')
if not AddToCFLAGSIfSupported(myenv, '-std=c99'):
myenv.ConfError("C++11 mode selected for C++ files, but can't enable C99 for C files")
if using_system_version_of_cxx_libraries():
print( 'WARNING: System versions of C++ libraries must be compiled with C++11 support' )
# We appear to have C++11, or at least a flag to enable it. Check that the declared C++
# language level is not less than C++11, and that we can at least compile an 'auto'
# expression. We don't check the __cplusplus macro when using MSVC because as of our
# current required MS compiler version (MSVS 2013 Update 4), they don't set it. If
# MSFT ever decides (in MSVS 2015?) to define __cplusplus >= 201103L, remove the exception
# here for _MSC_VER
def CheckCxx11(context):
test_body = """
#ifndef _MSC_VER
#if __cplusplus < 201103L
#error
#endif
#endif
auto not_an_empty_file = 0;
"""
context.Message('Checking for C++11... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckCxx11' : CheckCxx11,
})
if not conf.CheckCxx11():
myenv.ConfError('C++11 support is required to build MongoDB')
conf.Finish()
# If we are using libstdc++, check to see if we are using a libstdc++ that is older than
# our GCC minimum of 4.8.2. This is primarly to help people using clang on OS X but
# forgetting to use --libc++ (or set the target OS X version high enough to get it as the
# default). We would, ideally, check the __GLIBCXX__ version, but for various reasons this
# is not workable. Instead, we switch on the fact that _GLIBCXX_PROFILE_UNORDERED wasn't
# introduced until libstdc++ 4.8.2. Yes, this is a terrible hack.
if usingLibStdCxx:
def CheckModernLibStdCxx(context):
test_body = """
#define _GLIBCXX_PROFILE
#include <unordered_map>
#if !defined(_GLIBCXX_PROFILE_UNORDERED)
#error libstdc++ older than 4.8.2
#endif
"""
context.Message('Checking for libstdc++ 4.8.2 or better... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckModernLibStdCxx' : CheckModernLibStdCxx,
})
if not conf.CheckModernLibStdCxx():
myenv.ConfError("When using libstdc++, MongoDB requires libstdc++ 4.8.2 or newer")
conf.Finish()
if has_option("use-glibcxx-debug"):
# If we are using a modern libstdc++ and this is a debug build and we control all C++
# dependencies, then turn on the debugging features in libstdc++.
# TODO: Need a new check here.
if not debugBuild:
myenv.ConfError("--use-glibcxx-debug requires --dbg=on")
if not usingLibStdCxx:
myenv.ConfError("--use-glibcxx-debug is only compatible with the GNU implementation "
"of the C++ standard libary")
if using_system_version_of_cxx_libraries():
myenv.ConfError("--use-glibcxx-debug not compatible with system versions of "
"C++ libraries.")
myenv.Append(CPPDEFINES=["_GLIBCXX_DEBUG"]);
# Check if we have a modern Windows SDK
if env.TargetOSIs('windows'):
def CheckWindowsSDKVersion(context):
test_body = """
#include <windows.h>
#if !defined(NTDDI_WINBLUE)
#error Need Windows SDK Version 8.1 or higher
#endif
"""
context.Message('Checking Windows SDK is 8.1 or newer... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".c")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckWindowsSDKVersion' : CheckWindowsSDKVersion,
})
if not conf.CheckWindowsSDKVersion():
myenv.ConfError('Windows SDK Version 8.1 or higher is required to build MongoDB')
conf.Finish()
# Check if we are on a POSIX system by testing if _POSIX_VERSION is defined.
def CheckPosixSystem(context):
test_body = """
// POSIX requires the existence of unistd.h, so if we can't include unistd.h, we
// are definitely not a POSIX system.
#include <unistd.h>
#if !defined(_POSIX_VERSION)
#error not a POSIX system
#endif
"""
context.Message('Checking if we are on a POSIX system... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".c")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckPosixSystem' : CheckPosixSystem,
})
posix_system = conf.CheckPosixSystem()
conf.Finish()
# Check if we are on a system that support the POSIX clock_gettime function
# and the "monotonic" clock.
posix_monotonic_clock = False
if posix_system:
def CheckPosixMonotonicClock(context):
test_body = """
#include <unistd.h>
#if !(defined(_POSIX_TIMERS) && _POSIX_TIMERS > 0)
#error POSIX clock_gettime not supported
#elif !(defined(_POSIX_MONOTONIC_CLOCK) && _POSIX_MONOTONIC_CLOCK >= 0)
#error POSIX monotonic clock not supported
#endif
"""
context.Message('Checking if the POSIX monotonic clock is supported... ')
ret = context.TryCompile(textwrap.dedent(test_body), ".c")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckPosixMonotonicClock' : CheckPosixMonotonicClock,
})
posix_monotonic_clock = conf.CheckPosixMonotonicClock()
# On 32-bit systems, we need to define this in order to get access to
# the 64-bit versions of fseek, etc.
if not conf.CheckTypeSize('off_t', includes="#include <sys/types.h>", expect=8):
myenv.Append(CPPDEFINES=["_FILE_OFFSET_BITS=64"])
conf.Finish()
if has_option('sanitize'):
if not myenv.ToolchainIs('clang', 'gcc'):
env.FatalError('sanitize is only supported with clang or gcc')
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if get_option('allocator') == 'tcmalloc':
# There are multiply defined symbols between the sanitizer and
# our vendorized tcmalloc.
env.FatalError("Cannot use --sanitize with tcmalloc")
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sanitizer_list = get_option('sanitize').split(',')
using_lsan = 'leak' in sanitizer_list
using_asan = 'address' in sanitizer_list or using_lsan
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using_tsan = 'thread' in sanitizer_list
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# If the user asked for leak sanitizer, turn on the detect_leaks
# ASAN_OPTION. If they asked for address sanitizer as well, drop
# 'leak', because -fsanitize=leak means no address.
#
# --sanitize=leak: -fsanitize=leak, detect_leaks=1
# --sanitize=address,leak: -fsanitize=address, detect_leaks=1
# --sanitize=address: -fsanitize=address
#
if using_lsan:
if using_asan:
myenv['ENV']['ASAN_OPTIONS'] = "detect_leaks=1"
myenv['ENV']['LSAN_OPTIONS'] = "suppressions=%s" % myenv.File("#etc/lsan.suppressions").abspath
if 'address' in sanitizer_list:
sanitizer_list.remove('leak')
sanitizer_option = '-fsanitize=' + ','.join(sanitizer_list)
if AddToCCFLAGSIfSupported(myenv, sanitizer_option):
myenv.Append(LINKFLAGS=[sanitizer_option])
myenv.Append(CCFLAGS=['-fno-omit-frame-pointer'])
else:
myenv.ConfError('Failed to enable sanitizers with flag: {0}', sanitizer_option )
blackfiles_map = {
"address" : myenv.File("#etc/asan.blacklist"),
"leak" : myenv.File("#etc/asan.blacklist"),
"thread" : myenv.File("#etc/tsan.blacklist"),
"undefined" : myenv.File("#etc/ubsan.blacklist"),
}
blackfiles = set([v for (k, v) in blackfiles_map.iteritems() if k in sanitizer_list])
blacklist_options=["-fsanitize-blacklist=%s" % blackfile for blackfile in blackfiles]
for blacklist_option in blacklist_options:
if AddToCCFLAGSIfSupported(myenv, blacklist_option):
myenv.Append(LINKFLAGS=[blacklist_option])
llvm_symbolizer = get_option('llvm-symbolizer')
if os.path.isabs(llvm_symbolizer):
if not myenv.File(llvm_symbolizer).exists():
print("WARNING: Specified symbolizer '%s' not found" % llvm_symbolizer)
llvm_symbolizer = None
else:
llvm_symbolizer = myenv.WhereIs(llvm_symbolizer)
tsan_options = ""
if llvm_symbolizer:
myenv['ENV']['ASAN_SYMBOLIZER_PATH'] = llvm_symbolizer
myenv['ENV']['LSAN_SYMBOLIZER_PATH'] = llvm_symbolizer
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tsan_options = "external_symbolizer_path=\"%s\" " % llvm_symbolizer
elif using_lsan:
myenv.ConfError("Using the leak sanitizer requires a valid symbolizer")
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if using_tsan:
tsan_options += "suppressions=\"%s\" " % myenv.File("#etc/tsan.suppressions").abspath
myenv['ENV']['TSAN_OPTIONS'] = tsan_options
if myenv.ToolchainIs('msvc') and optBuild:
# http://blogs.msdn.com/b/vcblog/archive/2013/09/11/introducing-gw-compiler-switch.aspx
#
myenv.Append( CCFLAGS=["/Gw", "/Gy"] )
myenv.Append( LINKFLAGS=["/OPT:REF"])
# http://blogs.msdn.com/b/vcblog/archive/2014/03/25/linker-enhancements-in-visual-studio-2013-update-2-ctp2.aspx
#
myenv.Append( CCFLAGS=["/Zc:inline"])
# Apply any link time optimization settings as selected by the 'lto' option.
if has_option('lto'):
if myenv.ToolchainIs('msvc'):
# Note that this is actually more aggressive than LTO, it is whole program
# optimization due to /GL. However, this is historically what we have done for
# windows, so we are keeping it.
#
# /GL implies /LTCG, so no need to say it in CCFLAGS, but we do need /LTCG on the
# link flags.
myenv.Append(CCFLAGS=['/GL'])
myenv.Append(LINKFLAGS=['/LTCG'])
myenv.Append(ARFLAGS=['/LTCG'])
elif myenv.ToolchainIs('gcc', 'clang'):
# For GCC and clang, the flag is -flto, and we need to pass it both on the compile
# and link lines.
if AddToCCFLAGSIfSupported(myenv, '-flto'):
myenv.Append(LINKFLAGS=['-flto'])
def LinkHelloWorld(context, adornment = None):
test_body = """
#include <iostream>
int main() {
std::cout << "Hello, World!" << std::endl;
return 0;
}
"""
message = "Trying to link with LTO"
if adornment:
message = message + " " + adornment
message = message + "..."
context.Message(message)
ret = context.TryLink(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'LinkHelloWorld' : LinkHelloWorld,
})
# Some systems (clang, on a system with the BFD linker by default) may need to
# explicitly request the gold linker for LTO to work. If we can't LTO link a
# simple program, see if -fuse=ld=gold helps.
if not conf.LinkHelloWorld():
conf.env.Append(LINKFLAGS=["-fuse-ld=gold"])
if not conf.LinkHelloWorld("(with -fuse-ld=gold)"):
myenv.ConfError("Error: Couldn't link with LTO")
myenv = conf.Finish()
else:
myenv.ConfError("Link time optimization requested, "
"but selected compiler does not honor -flto" )
else:
myenv.ConfError("Don't know how to enable --lto on current toolchain")
# We set this to work around https://gcc.gnu.org/bugzilla/show_bug.cgi?id=43052
if not myenv.ToolchainIs('msvc'):
AddToCCFLAGSIfSupported(myenv, "-fno-builtin-memcmp")
def CheckStorageClass(context, storage_class):
test_body = """
{0} int tsp_int = 1;
int main(int argc, char** argv) {{
return !(tsp_int == argc);
}}
""".format(storage_class)
context.Message('Checking for storage class {0} '.format(storage_class))
ret = context.TryLink(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf = Configure(myenv, help=False, custom_tests = {
'CheckStorageClass': CheckStorageClass
})
haveTriviallyConstructibleThreadLocals = False
for storage_class, macro_name in [
('thread_local', 'MONGO_CONFIG_HAVE_THREAD_LOCAL'),
('__thread', 'MONGO_CONFIG_HAVE___THREAD'),
('__declspec(thread)', 'MONGO_CONFIG_HAVE___DECLSPEC_THREAD')]:
if conf.CheckStorageClass(storage_class):
haveTriviallyConstructibleThreadLocals = True
myenv.SetConfigHeaderDefine(macro_name)
conf.Finish()
if not haveTriviallyConstructibleThreadLocals:
print "Compiler must support a thread local storage class for trivially constructible types"
Exit(1)
# not all C++11-enabled gcc versions have type properties
def CheckCXX11IsTriviallyCopyable(context):
test_body = """
#include <type_traits>
int main(int argc, char **argv) {
class Trivial {
int trivial1;
double trivial2;
struct {
float trivial3;
short trivial4;
} trivial_member;
};
class NotTrivial {
int x, y;
NotTrivial(const NotTrivial& o) : x(o.y), y(o.x) {}
};
static_assert(std::is_trivially_copyable<Trivial>::value,
"I should be trivially copyable");
static_assert(!std::is_trivially_copyable<NotTrivial>::value,
"I should not be trivially copyable");
return 0;
}
"""
context.Message('Checking for C++11 is_trivially_copyable support... ')
ret = context.TryCompile(textwrap.dedent(test_body), '.cpp')
context.Result(ret)
return ret
# Some GCC's don't have std::is_trivially_copyable
conf = Configure(myenv, help=False, custom_tests = {
'CheckCXX11IsTriviallyCopyable': CheckCXX11IsTriviallyCopyable,
})
if conf.CheckCXX11IsTriviallyCopyable():
conf.env.SetConfigHeaderDefine("MONGO_CONFIG_HAVE_STD_IS_TRIVIALLY_COPYABLE")
myenv = conf.Finish()
def CheckCXX14MakeUnique(context):
test_body = """
#include <memory>
int main(int argc, char **argv) {
auto foo = std::make_unique<int>(5);
return 0;
}
"""
context.Message('Checking for C++14 std::make_unique support... ')
ret = context.TryCompile(textwrap.dedent(test_body), '.cpp')
context.Result(ret)
return ret
# Check for std::make_unique support without using the __cplusplus macro
conf = Configure(myenv, help=False, custom_tests = {
'CheckCXX14MakeUnique': CheckCXX14MakeUnique,
})
if conf.CheckCXX14MakeUnique():
conf.env.SetConfigHeaderDefine('MONGO_CONFIG_HAVE_STD_MAKE_UNIQUE')
myenv = conf.Finish()
def CheckBoostMinVersion(context):
compile_test_body = textwrap.dedent("""
#include <boost/version.hpp>
#if BOOST_VERSION < 104900
#error
#endif
""")
context.Message("Checking if system boost version is 1.49 or newer...")
result = context.TryCompile(compile_test_body, ".cpp")
context.Result(result)
return result
conf = Configure(myenv, custom_tests = {
'CheckBoostMinVersion': CheckBoostMinVersion,
})
libdeps.setup_conftests(conf)
2009-05-28 19:16:03 +02:00
if use_system_version_of_library("pcre"):
conf.FindSysLibDep("pcre", ["pcre"])
conf.FindSysLibDep("pcrecpp", ["pcrecpp"])
else:
env.Prepend(CPPDEFINES=['PCRE_STATIC'])
if use_system_version_of_library("snappy"):
conf.FindSysLibDep("snappy", ["snappy"])
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if use_system_version_of_library("zlib"):
conf.FindSysLibDep("zlib", ["zdll" if conf.env.TargetOSIs('windows') else "z"])
2014-11-03 23:15:00 +01:00
if use_system_version_of_library("stemmer"):
conf.FindSysLibDep("stemmer", ["stemmer"])
if use_system_version_of_library("yaml"):
conf.FindSysLibDep("yaml", ["yaml-cpp"])
if wiredtiger and use_system_version_of_library("wiredtiger"):
if not conf.CheckCXXHeader( "wiredtiger.h" ):
myenv.ConfError("Cannot find wiredtiger headers")
conf.FindSysLibDep("wiredtiger", ["wiredtiger"])
if use_system_version_of_library("boost"):
if not conf.CheckCXXHeader( "boost/filesystem/operations.hpp" ):
myenv.ConfError("can't find boost headers")
if not conf.CheckBoostMinVersion():
myenv.ConfError("system's version of boost is too old. version 1.49 or better required")
conf.env.Append(CPPDEFINES=[("BOOST_THREAD_VERSION", "2")])
# Note that on Windows with using-system-boost builds, the following
# FindSysLibDep calls do nothing useful (but nothing problematic either)
#
# NOTE: Pass --system-boost-lib-search-suffixes= to suppress these checks, which you
# might want to do if using autolib linking on Windows, for example.
if boostSuffixList:
for b in boostLibs:
boostlib = "boost_" + b
conf.FindSysLibDep(
boostlib,
[boostlib + suffix for suffix in boostSuffixList],
language='C++')
else:
# For the built in boost, we can set these without risking ODR violations, so do so.
conf.env.Append(
CPPDEFINES=[
# We don't want interruptions because we don't use
# them and they have a performance cost.
"BOOST_THREAD_DONT_PROVIDE_INTERRUPTIONS",
# We believe that none of our platforms are affected
# by the EINTR bug. Setting this avoids a retry loop
# in boosts mutex.hpp that we don't want to pay for.
"BOOST_THREAD_HAS_NO_EINTR_BUG",
],
)
if posix_system:
conf.env.SetConfigHeaderDefine("MONGO_CONFIG_HAVE_HEADER_UNISTD_H")
conf.CheckLib('rt')
conf.CheckLib('dl')
if posix_monotonic_clock:
conf.env.SetConfigHeaderDefine("MONGO_CONFIG_HAVE_POSIX_MONOTONIC_CLOCK")
if (conf.CheckCXXHeader( "execinfo.h" ) and
conf.CheckDeclaration('backtrace', includes='#include <execinfo.h>') and
conf.CheckDeclaration('backtrace_symbols', includes='#include <execinfo.h>') and
conf.CheckDeclaration('backtrace_symbols_fd', includes='#include <execinfo.h>')):
conf.env.SetConfigHeaderDefine("MONGO_CONFIG_HAVE_EXECINFO_BACKTRACE")
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conf.env["_HAVEPCAP"] = conf.CheckLib( ["pcap", "wpcap"], autoadd=False )
if env.TargetOSIs('solaris'):
2009-08-28 17:50:20 +02:00
conf.CheckLib( "nsl" )
if usev8 and use_system_version_of_library("v8"):
if debugBuild:
v8_lib_choices = ["v8_g", "v8"]
else:
v8_lib_choices = ["v8"]
conf.FindSysLibDep( "v8", v8_lib_choices )
2009-10-10 07:30:00 +02:00
conf.env['MONGO_BUILD_SASL_CLIENT'] = bool(has_option("use-sasl-client"))
if conf.env['MONGO_BUILD_SASL_CLIENT'] and not conf.CheckLibWithHeader(
"sasl2",
["stddef.h","sasl/sasl.h"],
"C",
"sasl_version_info(0, 0, 0, 0, 0, 0);",
autoadd=False ):
myenv.ConfError("Couldn't find SASL header/libraries")
# requires ports devel/libexecinfo to be installed
if env.TargetOSIs('freebsd', 'openbsd'):
if not conf.CheckLib("execinfo"):
myenv.ConfError("Cannot find libexecinfo, please install devel/libexecinfo.")
# 'tcmalloc' needs to be the last library linked. Please, add new libraries before this
# point.
if get_option('allocator') == 'tcmalloc':
if use_system_version_of_library('tcmalloc'):
conf.FindSysLibDep("tcmalloc", ["tcmalloc"])
elif get_option('allocator') == 'system':
pass
else:
myenv.ConfError("Invalid --allocator parameter: \"{0}\"", get_option('allocator'))
def CheckStdAtomic(context, base_type, extra_message):
test_body = """
#include <atomic>
int main() {{
std::atomic<{0}> x;
x.store(0);
{0} y = 1;
x.fetch_add(y);
x.fetch_sub(y);
x.exchange(y);
x.compare_exchange_strong(y, x);
return x.load();
}}
""".format(base_type)
context.Message(
"Checking if std::atomic<{0}> works{1}... ".format(
base_type, extra_message
)
)
ret = context.TryLink(textwrap.dedent(test_body), ".cpp")
context.Result(ret)
return ret
conf.AddTest("CheckStdAtomic", CheckStdAtomic)
def check_all_atomics(extra_message=''):
for t in ('int64_t', 'uint64_t', 'int32_t', 'uint32_t'):
if not conf.CheckStdAtomic(t, extra_message):
return False
return True
if not check_all_atomics():
if not conf.CheckLib('atomic', symbol=None, header=None, language='C', autoadd=1):
myenv.ConfError("Some atomic ops are not intrinsically supported, but "
"no libatomic found")
if not check_all_atomics(' with libatomic'):
myenv.ConfError("The toolchain does not support std::atomic, cannot continue")
# ask each module to configure itself and the build environment.
moduleconfig.configure_modules(mongo_modules, conf)
def CheckLinkSSL(context):
test_body = """
#include <openssl/err.h>
#include <openssl/ssl.h>
#include <stdlib.h>
int main() {
SSL_library_init();
SSL_load_error_strings();
ERR_load_crypto_strings();
OpenSSL_add_all_algorithms();
ERR_free_strings();
return EXIT_SUCCESS;
}
"""
context.Message("Checking if OpenSSL is available...")
ret = context.TryLink(textwrap.dedent(test_body), ".c")
context.Result(ret)
return ret
conf.AddTest("CheckLinkSSL", CheckLinkSSL)
if has_option("ssl"):
if not conf.CheckLinkSSL():
conf.env.ConfError("SSL is enabled, but is unavailable")
if conf.CheckDeclaration(
"FIPS_mode_set",
includes="""
#include <openssl/crypto.h>
#include <openssl/evp.h>
"""):
conf.env.SetConfigHeaderDefine('MONGO_CONFIG_HAVE_FIPS_MODE_SET')
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return conf.Finish()
env = doConfigure( env )
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# Load the compilation_db tool. We want to do this after configure so we don't end up with
# compilation database entries for the configure tests, which is weird.
env.Tool("compilation_db")
def checkErrorCodes():
import buildscripts.errorcodes as x
if x.checkErrorCodes() == False:
env.FatalError("next id to use: {0}", x.getNextCode())
checkErrorCodes()
# --- lint ----
def doLint( env , target , source ):
import buildscripts.clang_format
if not buildscripts.clang_format.lint(None, []):
raise Exception("clang-format lint errors")
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import buildscripts.lint
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if not buildscripts.lint.run_lint( [ "src/mongo/" ] ):
raise Exception( "lint errors" )
env.Alias( "lint" , [] , [ doLint ] )
env.AlwaysBuild( "lint" )
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# ---- INSTALL -------
def getSystemInstallName():
dist_arch = GetOption("distarch")
arch_name = env['TARGET_ARCH'] if not dist_arch else dist_arch
n = env.GetTargetOSName() + "-" + arch_name
if len(mongo_modules):
n += "-" + "-".join(m.name for m in mongo_modules)
dn = GetOption("distmod")
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if dn and len(dn) > 0:
n = n + "-" + dn
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return n
# This function will add the version.txt file to the source tarball
# so that versioning will work without having the git repo available.
def add_version_to_distsrc(env, archive):
version_file_path = env.subst("$MONGO_DIST_SRC_PREFIX") + "version.json"
if version_file_path not in archive:
version_data = {
'version': env['MONGO_VERSION'],
'githash': env['MONGO_GIT_HASH'],
}
archive.append_file_contents(
version_file_path,
json.dumps(
version_data,
sort_keys=True,
indent=4,
separators=(',', ': ')
)
)
env.AddDistSrcCallback(add_version_to_distsrc)
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if has_option('distname'):
distName = GetOption( "distname" )
else:
distName = env['MONGO_VERSION']
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env['SERVER_DIST_BASENAME'] = 'mongodb-%s-%s' % (getSystemInstallName(), distName)
module_sconscripts = moduleconfig.get_module_sconscripts(mongo_modules)
# The following symbols are exported for use in subordinate SConscript files.
# Ideally, the SConscript files would be purely declarative. They would only
# import build environment objects, and would contain few or no conditional
# statements or branches.
#
# Currently, however, the SConscript files do need some predicates for
# conditional decision making that hasn't been moved up to this SConstruct file,
# and they are exported here, as well.
Export("env")
Export("get_option")
Export("has_option use_system_version_of_library")
Export("serverJs")
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Export("usev8")
Export("v8version v8suffix")
Export("boostSuffix")
Export('module_sconscripts')
Export("debugBuild optBuild")
Export("wiredtiger")
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def injectMongoIncludePaths(thisEnv):
thisEnv.AppendUnique(CPPPATH=['$BUILD_DIR'])
env.AddMethod(injectMongoIncludePaths, 'InjectMongoIncludePaths')
compileDb = env.Alias("compiledb", env.CompilationDatabase('compile_commands.json'))
env.Alias("distsrc-tar", env.DistSrc("mongodb-src-${MONGO_VERSION}.tar"))
env.Alias("distsrc-tgz", env.GZip(
target="mongodb-src-${MONGO_VERSION}.tgz",
source=["mongodb-src-${MONGO_VERSION}.tar"])
)
env.Alias("distsrc-zip", env.DistSrc("mongodb-src-${MONGO_VERSION}.zip"))
env.Alias("distsrc", "distsrc-tgz")
env.SConscript('src/SConscript', variant_dir='$BUILD_DIR', duplicate=False)
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env.Alias('all', ['core', 'tools', 'dbtest', 'unittests'])