# vim: set sts=2 ts=8 sw=2 tw=99 et ft=python : import os import subprocess import locale class AMXXConfig(object): def __init__(self): self.binaries = [] self.modules = [] self.plugins = {} self.libpc300 = None self.amxxpc = None self.metamod_path = None self.hlsdk_path = None self.mysql_path = None self.generated_headers = None self.csx_app = None self.stdcxx_path = None def detectProductVersion(self): builder.AddConfigureFile('product.version') builder.AddConfigureFile('.git/HEAD') # For OS X dylib versioning import re with open(os.path.join(builder.sourcePath, 'product.version'), 'r') as fp: productContents = fp.read() m = re.match('(\d+)\.(\d+)\.(\d+).*', productContents) if m == None: self.productVersion = '1.0.0' else: major, minor, release = m.groups() self.productVersion = '{0}.{1}.{2}'.format(major, minor, release) def detectMetamod(self): metamod_path = builder.options.metamod_path if not len(metamod_path): metamod_path = os.getenv('METAMOD', '') if len(metamod_path): self.metamod_path = os.path.join(builder.originalCwd, metamod_path) if not os.path.exists(os.path.join(self.metamod_path, 'metamod')): raise Exception('Metamod path does not exist: {0}'.format(metamod_path)) else: try_paths = [ os.path.join(builder.sourcePath, '..', 'metamod'), os.path.join(builder.sourcePath, '..', 'metamod-am'), ] for try_path in try_paths: if os.path.exists(os.path.join(try_path, 'metamod')): self.metamod_path = os.path.normpath(try_path) break if not self.metamod_path: raise Exception('Could not find the source code to Metamod! Try passing --metamod to configure.py.') def detectHlsdk(self): hlsdk_path = builder.options.hlsdk_path if not len(hlsdk_path): hlsdk_path = os.getenv('HLSDK', '') if len(hlsdk_path): self.hlsdk_path = os.path.join(builder.originalCwd, hlsdk_path) if not os.path.exists(self.hlsdk_path): raise Exception('Metamod path does not exist: {0}'.format(hlsdk_path)) else: try_paths = [ os.path.join(builder.sourcePath, '..', 'hlsdk'), ] for try_path in try_paths: if os.path.exists(try_path): self.hlsdk_path = os.path.normpath(try_path) break if not self.hlsdk_path: raise Exception('Could not find the HLSDK! Try passing --hlsdk to configure.py.') def detectMysql(self): if builder.options.disable_mysql: return mysql_path = builder.options.mysql_path if not len(mysql_path): mysql_path = os.getenv('MYSQL5', '') if len(mysql_path): self.mysql_path = os.path.join(builder.originalCwd, mysql_path) if not os.path.exists(self.mysql_path): raise Exception('Metamod path does not exist: {0}'.format(mysql_path)) else: try_paths = [ os.path.join(builder.sourcePath, '..', 'mysql-5.0'), ] for try_path in try_paths: if os.path.exists(try_path): self.mysql_path = os.path.normpath(try_path) break if not self.mysql_path: raise Exception('Could not find MySQL! Try passing --mysql to configure.py.') # Returns list of lines of output from the compiler @staticmethod def invokeCompiler(args): if builder.compiler: p = subprocess.Popen(builder.compiler.argv + args, stdout=subprocess.PIPE) output = p.communicate()[0] if hasattr(output,'encoding') and output.encoding is not None: encoding = output.encoding else: encoding = locale.getpreferredencoding() return output.decode(encoding, 'replace').split('\n') return None def configure(self): builder.AddConfigureFile('pushbuild.txt') cfg = builder.DetectCompilers() cxx = cfg.cxx if cxx.behavior == 'gcc': cfg.cflags += [ '-pipe', '-fno-strict-aliasing', '-Wall', '-Werror', '-Wno-uninitialized', '-Wno-unused', '-Wno-switch', '-m32', ] cfg.cxxflags += [ '-Wno-invalid-offsetof', ] cfg.linkflags += ['-m32'] have_gcc = cxx.name == 'gcc' have_clang = cxx.name == 'clang' if have_clang or (have_gcc and cxx.majorVersion >= 4): cfg.cflags += ['-fvisibility=hidden'] cfg.cxxflags += ['-fvisibility-inlines-hidden'] if (have_gcc and cxx.minorVersion >= 7) or (have_clang and cxx.majorVersion >= 3): cfg.cxxflags += ['-Wno-delete-non-virtual-dtor'] if have_gcc: cfg.cflags += ['-Wno-parentheses'] elif have_clang: cfg.cflags += ['-Wno-logical-op-parentheses'] cfg.cxxflags += [ '-fno-exceptions', '-fno-rtti', ] elif cxx.name == 'msvc': if builder.options.debug == '1': cfg.cflags += ['/MTd'] cfg.linkflags += ['/NODEFAULTLIB:libcmt'] else: cfg.cflags += ['/MT'] cfg.defines += [ '_CRT_SECURE_NO_DEPRECATE', '_CRT_SECURE_NO_WARNINGS', '_CRT_NONSTDC_NO_DEPRECATE', '_ITERATOR_DEBUG_LEVEL=0', ] cfg.cflags += [ '/W3', ] cfg.cxxflags += [ '/EHsc', '/GR-', '/TP', ] cfg.linkflags += [ '/MACHINE:X86', '/SUBSYSTEM:WINDOWS', 'kernel32.lib', 'user32.lib', 'gdi32.lib', 'winspool.lib', 'comdlg32.lib', 'advapi32.lib', 'shell32.lib', 'ole32.lib', 'oleaut32.lib', 'uuid.lib', 'odbc32.lib', 'odbccp32.lib', ] # Optimization if builder.options.opt == '1': cfg.defines += ['NDEBUG'] if cxx.behavior == 'gcc': cfg.cflags += ['-O2'] elif cxx.behavior == 'msvc': cfg.cflags += ['/Ox'] cfg.linkflags += ['/OPT:ICF', '/OPT:REF'] # Debugging if builder.options.debug == '1': cfg.defines += ['DEBUG', '_DEBUG'] if cxx.behavior == 'msvc': cfg.cflags += ['/Od', '/RTC1'] # This needs to be after our optimization flags which could otherwise disable it. if cxx.name == 'msvc': # Don't omit the frame pointer. cfg.cflags += ['/Oy-'] # Platform-specifics if builder.target_platform == 'linux': cfg.defines += ['_LINUX', 'POSIX', 'LINUX'] cfg.postlink += ['-ldl'] if cxx.name == 'gcc': cfg.postlink += ['-static-libgcc'] elif cxx.name == 'clang': cfg.postlink += ['-lgcc_eh'] if cxx.behavior == 'gcc': self.stdcxx_path = self.invokeCompiler(['-m32', '-print-file-name=' + 'libstdc++.a'])[0] elif builder.target_platform == 'mac': cfg.defines += ['OSX', '_OSX', 'POSIX'] cfg.cflags += ['-mmacosx-version-min=10.5'] cfg.postlink += [ '-mmacosx-version-min=10.5', '-arch', 'i386', '-lstdc++', '-stdlib=libstdc++', ] cfg.cxxflags += ['-stdlib=libstdc++'] elif builder.target_platform == 'windows': cfg.defines += ['WIN32', '_WINDOWS'] # Finish up. cfg.defines += [ 'AMX_NOPROPLIST', 'PAWN_CELL_SIZE=32', 'AMBUILD', ] cfg.includes += [os.path.join(builder.buildPath, 'includes')] cfg.includes += [os.path.join(builder.sourcePath, 'public', 'amtl')] return # # Low-level compiler and binary construction. # def MMCompiler(self, context): compiler = context.compiler.clone() compiler.cxxincludes += [ os.path.join(self.metamod_path, 'metamod'), os.path.join(self.hlsdk_path, 'common'), os.path.join(self.hlsdk_path, 'dlls'), os.path.join(self.hlsdk_path, 'engine'), os.path.join(self.hlsdk_path, 'game_shared'), os.path.join(self.hlsdk_path, 'public'), os.path.join(self.hlsdk_path, 'pm_shared'), ] return compiler def LibraryBuilder(self, context, compiler, name): binary = compiler.Library(name) binary.compiler.cxxincludes += [os.path.join(context.currentSourcePath)] if builder.target_platform == 'windows': binary.compiler.rcdefines += [ 'BINARY_NAME="{0}"'.format(binary.outputFile), 'AMBUILD', 'RC_COMPILE', ] elif builder.target_platform == 'mac': binary.compiler.postlink += [ '-compatibility_version', '1.0.0', '-current_version', self.productVersion ] #binary.compiler.linkflags += [self.versionlib] binary.compiler.sourcedeps += AMXX.generated_headers return binary def ModuleBuilder(self, context, compiler, name): compiler.cxxincludes += [ os.path.join(context.currentSourcePath, 'sdk'), ] if builder.target_platform == 'mac' or builder.target_platform == 'windows': name = name + '_amxx' elif builder.target_platform == 'linux': name = name + '_amxx_i386' return self.LibraryBuilder(context, compiler, name) def ProgramBuilder(self, context, compiler, name): binary = compiler.Program(name) binary.compiler.cxxincludes += [os.path.join(context.currentSourcePath)] if builder.target_platform == 'windows': binary.compiler.rcdefines += [ 'BINARY_NAME="{0}"'.format(binary.outputFile), 'AMBUILD', 'RC_COMPILE', ] binary.compiler.sourcedeps += AMXX.generated_headers return binary # # High level job construction for libraries, metamod plugins, modules, and # executables. # def Library(self, context, name): compiler = context.compiler.clone() return self.LibraryBuilder(context, compiler, name) def MetaPlugin(self, context, name): compiler = self.MMCompiler(context) if builder.target_platform == 'mac' or builder.target_platform == 'windows': name = name + '_mm' elif builder.target_platform == 'linux': name = name + '_mm_i386' return self.LibraryBuilder(context, compiler, name) def Module(self, context, name): compiler = context.compiler.clone() return self.ModuleBuilder(context, compiler, name) def MetaModule(self, context, name): compiler = self.MMCompiler(context) return self.ModuleBuilder(context, compiler, name) def Program(self, context, name): compiler = context.compiler.clone() return self.ProgramBuilder(context, compiler, name) AMXX = AMXXConfig() AMXX.detectProductVersion() AMXX.detectMetamod() AMXX.detectHlsdk() AMXX.detectMysql() AMXX.configure() AMXX.generated_headers = builder.RunScript( 'support/Versioning', { 'AMXX': AMXX } ) builder.RunBuildScripts( [ 'amxmodx/AMBuilder', 'compiler/amxxpc/AMBuilder', 'compiler/libpc300/AMBuilder', 'dlls/cstrike/cstrike/AMBuilder', 'dlls/cstrike/csx/AMBuilder', 'dlls/dod/dodfun/AMBuilder', 'dlls/dod/dodx/AMBuilder', 'dlls/engine/AMBuilder', 'dlls/fakemeta/AMBuilder', 'dlls/fun/AMBuilder', 'dlls/geoip/AMBuilder', 'dlls/hamsandwich/AMBuilder', 'dlls/mysqlx/AMBuilder', 'dlls/ns/AMBuilder', 'dlls/nvault/AMBuilder', 'dlls/regex/AMBuilder', 'dlls/sockets/AMBuilder', 'dlls/sqlite/AMBuilder', 'dlls/tfcx/AMBuilder', 'dlls/ts/tsfun/AMBuilder', 'dlls/ts/tsx/AMBuilder', 'plugins/AMBuilder', ], { 'AMXX': AMXX } ) # The csstats.dat reader is Windows-only. if builder.target_platform == 'windows': builder.RunScript('dlls/cstrike/csx/WinCSX/AMBuilder', { 'AMXX': AMXX }) # Finally, do packaging. builder.RunScript('support/PackageScript', { 'AMXX': AMXX })