# Map of host os and allowed target os (host: allowed target os)
host_target_map = {
- 'linux': ['linux', 'android', 'arduino'],
+ 'linux': ['linux', 'android', 'arduino', 'yocto', 'tizen'],
'windows': ['windows', 'winrt', 'android', 'arduino'],
'darwin': ['darwin', 'ios', 'android', 'arduino'],
}
# Map of os and allowed archs (os: allowed archs)
os_arch_map = {
'linux': ['x86', 'x86_64', 'arm', 'arm64'],
+ 'tizen': ['x86', 'x86_64', 'arm', 'arm64', 'armeabi-v7a'],
'android': ['x86', 'x86_64', 'armeabi', 'armeabi-v7a', 'armeabi-v7a-hard', 'arm64-v8a'],
'windows': ['x86', 'amd64', 'arm'],
'winrt': ['arm'],
'darwin': ['i386', 'x86_64'],
'ios': ['i386', 'x86_64', 'armv7', 'armv7s', 'arm64'],
'arduino': ['avr', 'arm'],
+ 'yocto': ['i586', 'x86_64', 'arm', 'powerpc', 'powerpc64', 'mips', 'mipsel'],
}
host = platform.system().lower()
print "\nError: Unknown target os: %s (Allow values: %s)\n" % (target_os, host_target_map[host])
Exit(1)
-default_arch = platform.machine()
+if target_os == 'android':
+ default_arch = 'x86'
+else:
+ default_arch = platform.machine()
+
if default_arch not in os_arch_map[target_os]:
default_arch = os_arch_map[target_os][0].lower()
target_arch = ARGUMENTS.get('TARGET_ARCH', default_arch) # target arch
+# True if binary needs to be installed on board. (Might need root permissions)
+# set to 'no', 'false' or 0 for only compilation
+require_upload = ARGUMENTS.get('UPLOAD', False)
+
+# Get the device name. This name can be used as network display name wherever possible
+device_name = ARGUMENTS.get('DEVICE_NAME', "OIC-DEVICE")
+
+if ARGUMENTS.get('TEST'):
+ logging_default = False
+else:
+ release_mode = False
+ if ARGUMENTS.get('RELEASE', True) in ['y', 'yes', 'true', 't', '1', 'on', 'all', True]:
+ release_mode = True
+ logging_default = (release_mode == False)
+
+
+
######################################################################
# Common build options (release, target os, target arch)
######################################################################
+targets_disallow_multitransport = ['arduino', 'android']
+
help_vars = Variables()
+help_vars.Add(BoolVariable('VERBOSE', 'Show compilation', False))
help_vars.Add(BoolVariable('RELEASE', 'Build for release?', True)) # set to 'no', 'false' or 0 for debug
help_vars.Add(EnumVariable('TARGET_OS', 'Target platform', host, host_target_map[host]))
+
+
+help_vars.Add(BoolVariable('WITH_RA', 'Build with Remote Access module', False))
+
+if target_os in targets_disallow_multitransport:
+ help_vars.Add(ListVariable('TARGET_TRANSPORT', 'Target transport', 'IP', ['BT', 'BLE', 'IP', 'CI']))
+else:
+ help_vars.Add(ListVariable('TARGET_TRANSPORT', 'Target transport', 'ALL', ['ALL', 'BT', 'BLE', 'IP', 'CI']))
+
help_vars.Add(EnumVariable('TARGET_ARCH', 'Target architecture', default_arch, os_arch_map[target_os]))
+help_vars.Add(EnumVariable('SECURED', 'Build with DTLS', '0', allowed_values=('0', '1')))
+help_vars.Add(EnumVariable('TEST', 'Run unit tests', '0', allowed_values=('0', '1')))
+help_vars.Add(BoolVariable('LOGGING', 'Enable stack logging', logging_default))
+help_vars.Add(BoolVariable('UPLOAD', 'Upload binary ? (For Arduino)', require_upload))
+help_vars.Add(EnumVariable('BUILD_SAMPLE', 'Build with sample', 'ON', allowed_values=('ON', 'OFF')))
+help_vars.AddVariables(('DEVICE_NAME', 'Network display name for device (For Arduino)', device_name, None, None),)
+help_vars.Add(PathVariable('ANDROID_NDK', 'Android NDK path', None, PathVariable.PathAccept))
+help_vars.Add(PathVariable('ANDROID_HOME', 'Android SDK path', None, PathVariable.PathAccept))
+help_vars.Add(PathVariable('ANDROID_GRADLE', 'Gradle binary file', None, PathVariable.PathIsFile))
+
+AddOption('--prefix',
+ dest='prefix',
+ type='string',
+ nargs=1,
+ action='store',
+ metavar='DIR',
+ help='installation prefix')
######################################################################
# Platform(build target) specific options: SDK/NDK & toolchain
######################################################################
-targets_support_cc = ['linux', 'arduino']
+targets_support_cc = ['linux', 'arduino', 'tizen']
if target_os in targets_support_cc:
# Set cross compile toolchain
tools = ['gnulink', 'gcc', 'g++', 'ar', 'as']
)
else:
- env = Environment(variables = help_vars, TARGET_ARCH = target_arch, TARGET_OS = target_os)
+ env = Environment(variables = help_vars, TARGET_ARCH = target_arch, TARGET_OS = target_os, PREFIX = GetOption('prefix'))
Help(help_vars.GenerateHelpText(env))
* cause inexplicable errors. *
*******************************************************************************
'''
+if env.get('VERBOSE') == False:
+ env['CCCOMSTR'] = "Compiling $TARGET"
+ env['SHCCCOMSTR'] = "Compiling $TARGET"
+ env['CXXCOMSTR'] = "Compiling $TARGET"
+ env['SHCXXCOMSTR'] = "Compiling $TARGET"
+ env['LINKCOMSTR'] = "Linking $TARGET"
+ env['SHLINKCOMSTR'] = "Linking $TARGET"
+ env['ARCOMSTR'] = "Archiving $TARGET"
+ env['RANLIBCOMSTR'] = "Indexing Archive $TARGET"
if target_os in targets_support_cc:
prefix = env.get('TC_PREFIX')
tc_path = env.get('TC_PATH')
if prefix:
- env.Replace(CC = prefix + 'gcc')
- env.Replace(CXX = prefix + 'g++')
- env.Replace(AR = prefix + 'ar')
- env.Replace(AS = prefix + 'as')
- env.Replace(LINK = prefix + 'ld')
- env.Replace(RANLIB = prefix + 'ranlib')
+ env.Replace(CC = prefix + env.get('CC', 'gcc'))
+ env.Replace(CXX = prefix + env.get('CXX', 'g++'))
+ env.Replace(AR = prefix + env.get('AR', 'ar'))
+ env.Replace(AS = prefix + env.get('AS', 'as'))
+ env.Replace(RANLIB = prefix + env.get('RANLIB', 'ranlib'))
if tc_path:
env.PrependENVPath('PATH', tc_path)
Alias(name, i_n)
env.AppendUnique(TS = [name])
-def __append_target(ienv, target):
- env.AppendUnique(TS = [target])
+def __installlib(ienv, targets, name):
+ user_prefix = env.get('PREFIX')
+ if user_prefix:
+ i_n = ienv.Install(user_prefix + '/lib', targets)
+ else:
+ i_n = ienv.Install(env.get('BUILD_DIR'), targets)
+ ienv.Alias("install", i_n)
+
+def __installbin(ienv, targets, name):
+ user_prefix = env.get('PREFIX')
+ if user_prefix:
+ i_n = ienv.Install(user_prefix + '/bin', targets)
+ else:
+ i_n = ienv.Install(env.get('BUILD_DIR'), targets)
+ ienv.Alias("install", i_n)
+
+def __append_target(ienv, name, targets = None):
+ if targets:
+ env.Alias(name, targets)
+ env.AppendUnique(TS = [name])
def __print_targets(env):
Help('''
env.AddMethod(__src_to_obj, 'SrcToObj')
env.AddMethod(__append_target, 'AppendTarget')
env.AddMethod(__install, 'InstallTarget')
+env.AddMethod(__installlib, 'UserInstallTargetLib')
+env.AddMethod(__installbin, 'UserInstallTargetBin')
env.SetDir(env.GetLaunchDir())
+env['ROOT_DIR']=env.GetLaunchDir()+'/..'
Export('env')
-# Load config of target os
-env.SConscript(target_os + '/SConscript')
+######################################################################
+# Link scons to Yocto cross-toolchain ONLY when target_os is yocto
+######################################################################
+if target_os == "yocto":
+ '''
+ This code injects Yocto cross-compilation tools+flags into scons'
+ build environment in order to invoke the relevant tools while
+ performing a build.
+ '''
+ import os.path
+ try:
+ CC = os.environ['CC']
+ target_prefix = CC.split()[0]
+ target_prefix = target_prefix[:len(target_prefix)-3]
+ tools = {"CC" : target_prefix+"gcc",
+ "CXX" : target_prefix+"g++",
+ "AS" : target_prefix+"as",
+ "LD" : target_prefix+"ld",
+ "GDB" : target_prefix+"gdb",
+ "STRIP" : target_prefix+"strip",
+ "RANLIB" : target_prefix+"ranlib",
+ "OBJCOPY" : target_prefix+"objcopy",
+ "OBJDUMP" : target_prefix+"objdump",
+ "AR" : target_prefix+"ar",
+ "NM" : target_prefix+"nm",
+ "M4" : "m4",
+ "STRINGS": target_prefix+"strings"}
+ PATH = os.environ['PATH'].split(os.pathsep)
+ for tool in tools:
+ if tool in os.environ:
+ for path in PATH:
+ if os.path.isfile(os.path.join(path, tools[tool])):
+ env[tool] = os.path.join(path, os.environ[tool])
+ break
+ env['CROSS_COMPILE'] = target_prefix[:len(target_prefix) - 1]
+ except:
+ print "ERROR in Yocto cross-toolchain environment"
+ Exit(1)
+ '''
+ Now reset TARGET_OS to linux so that all linux specific build configurations
+ hereupon apply for the entirety of the build process.
+ '''
+ env['TARGET_OS'] = 'linux'
+ '''
+ We want to preserve debug symbols to allow BitBake to generate both DEBUG and
+ RELEASE packages for OIC.
+ '''
+ env.AppendUnique(CCFLAGS = ['-g'])
+ '''
+ Additional flags to pass to the Yocto toolchain.
+ '''
+ if env.get('RELEASE'):
+ env.AppendUnique(CPPDEFINES = ['NDEBUG'])
+ if env.get('LOGGING'):
+ env.AppendUnique(CPPDEFINES = ['TB_LOG'])
+ env.AppendUnique(CPPDEFINES = ['WITH_POSIX', '__linux__', '_GNU_SOURCE'])
+ env.AppendUnique(CFLAGS = ['-std=gnu99'])
+ env.AppendUnique(CCFLAGS = ['-Wall', '-Wextra', '-fPIC'])
+ env.AppendUnique(LINKFLAGS = ['-ldl', '-lpthread'])
+ env.AppendUnique(LIBS = ['uuid'])
+ Export('env')
+else:
+ '''
+ If target_os is not Yocto, continue with the regular build process
+ '''
+ # Load config of target os
+ env.SConscript(target_os + '/SConscript')
# Delete the temp files of configuration
if env.GetOption('clean'):
if os.path.exists(dir + '/config.log'):
Execute(Delete(dir + '/config.log'))
+ if os.path.exists(dir + '/.sconsign.dblite'):
Execute(Delete(dir + '/.sconsign.dblite'))
+ if os.path.exists(dir + '/.sconf_temp'):
Execute(Delete(dir + '/.sconf_temp'))
+######################################################################
+# Check for PThreads support
+######################################################################
+import iotivityconfig
+from iotivityconfig import *
+
+conf = Configure(env,
+ custom_tests =
+ {
+ 'CheckPThreadsSupport' : iotivityconfig.check_pthreads
+ } )
+
+# Identify whether we have pthreads support, which is necessary for
+# threading and mutexes. This will set the environment variable
+# POSIX_SUPPORTED, 1 if it is supported, 0 otherwise
+conf.CheckPThreadsSupport()
+
+env = conf.Finish()
+######################################################################
+
+env.SConscript('external_libs.scons')
Return('env')