BB_DEFAULT_TASK ?= "build" CLASSOVERRIDE ?= "class-target" inherit patch inherit staging inherit mirrors inherit utils inherit utility-tasks inherit metadata_scm inherit logging OE_IMPORTS += "os sys time oe.path oe.utils oe.data oe.package oe.packagegroup oe.sstatesig oe.lsb oe.cachedpath" OE_IMPORTS[type] = "list" def oe_import(d): import sys bbpath = d.getVar("BBPATH", True).split(":") sys.path[0:0] = [os.path.join(dir, "lib") for dir in bbpath] def inject(name, value): """Make a python object accessible from the metadata""" if hasattr(bb.utils, "_context"): bb.utils._context[name] = value else: __builtins__[name] = value import oe.data for toimport in oe.data.typed_value("OE_IMPORTS", d): imported = __import__(toimport) inject(toimport.split(".", 1)[0], imported) return "" # We need the oe module name space early (before INHERITs get added) OE_IMPORTED := "${@oe_import(d)}" def lsb_distro_identifier(d): adjust = d.getVar('LSB_DISTRO_ADJUST', True) adjust_func = None if adjust: try: adjust_func = globals()[adjust] except KeyError: pass return oe.lsb.distro_identifier(adjust_func) die() { bbfatal_log "$*" } oe_runmake_call() { bbnote ${MAKE} ${EXTRA_OEMAKE} "$@" ${MAKE} ${EXTRA_OEMAKE} "$@" } oe_runmake() { oe_runmake_call "$@" || die "oe_runmake failed" } def base_dep_prepend(d): # # Ideally this will check a flag so we will operate properly in # the case where host == build == target, for now we don't work in # that case though. # deps = "" # INHIBIT_DEFAULT_DEPS doesn't apply to the patch command. Whether or not # we need that built is the responsibility of the patch function / class, not # the application. if not d.getVar('INHIBIT_DEFAULT_DEPS', False): if (d.getVar('HOST_SYS', True) != d.getVar('BUILD_SYS', True)): deps += " virtual/${TARGET_PREFIX}gcc virtual/${TARGET_PREFIX}compilerlibs virtual/libc " return deps BASEDEPENDS = "${@base_dep_prepend(d)}" DEPENDS_prepend="${BASEDEPENDS} " FILESPATH = "${@base_set_filespath(["${FILE_DIRNAME}/${BP}", "${FILE_DIRNAME}/${BPN}", "${FILE_DIRNAME}/files"], d)}" # THISDIR only works properly with imediate expansion as it has to run # in the context of the location its used (:=) THISDIR = "${@os.path.dirname(d.getVar('FILE', True))}" def extra_path_elements(d): path = "" elements = (d.getVar('EXTRANATIVEPATH', True) or "").split() for e in elements: path = path + "${STAGING_BINDIR_NATIVE}/" + e + ":" return path PATH_prepend = "${@extra_path_elements(d)}" def get_lic_checksum_file_list(d): filelist = [] lic_files = d.getVar("LIC_FILES_CHKSUM", True) or '' tmpdir = d.getVar("TMPDIR", True) urls = lic_files.split() for url in urls: # We only care about items that are absolute paths since # any others should be covered by SRC_URI. try: path = bb.fetch.decodeurl(url)[2] if path[0] == '/': if path.startswith(tmpdir): continue filelist.append(path + ":" + str(os.path.exists(path))) except bb.fetch.MalformedUrl: raise bb.build.FuncFailed(d.getVar('PN', True) + ": LIC_FILES_CHKSUM contains an invalid URL: " + url) return " ".join(filelist) addtask fetch do_fetch[dirs] = "${DL_DIR}" do_fetch[file-checksums] = "${@bb.fetch.get_checksum_file_list(d)}" do_fetch[file-checksums] += " ${@get_lic_checksum_file_list(d)}" do_fetch[vardeps] += "SRCREV" python base_do_fetch() { src_uri = (d.getVar('SRC_URI', True) or "").split() if len(src_uri) == 0: return try: fetcher = bb.fetch2.Fetch(src_uri, d) fetcher.download() except bb.fetch2.BBFetchException as e: raise bb.build.FuncFailed(e) } addtask unpack after do_fetch do_unpack[dirs] = "${WORKDIR}" python base_do_unpack() { src_uri = (d.getVar('SRC_URI', True) or "").split() if len(src_uri) == 0: return rootdir = d.getVar('WORKDIR', True) # Ensure that we cleanup ${S}/patches # TODO: Investigate if we can remove # the entire ${S} in this case. s_dir = d.getVar('S', True) p_dir = os.path.join(s_dir, 'patches') bb.utils.remove(p_dir, True) try: fetcher = bb.fetch2.Fetch(src_uri, d) fetcher.unpack(rootdir) except bb.fetch2.BBFetchException as e: raise bb.build.FuncFailed(e) } def pkgarch_mapping(d): # Compatibility mappings of TUNE_PKGARCH (opt in) if d.getVar("PKGARCHCOMPAT_ARMV7A", True): if d.getVar("TUNE_PKGARCH", True) == "armv7a-vfp-neon": d.setVar("TUNE_PKGARCH", "armv7a") def get_layers_branch_rev(d): layers = (d.getVar("BBLAYERS", True) or "").split() layers_branch_rev = ["%-17s = \"%s:%s\"" % (os.path.basename(i), \ base_get_metadata_git_branch(i, None).strip(), \ base_get_metadata_git_revision(i, None)) \ for i in layers] i = len(layers_branch_rev)-1 p1 = layers_branch_rev[i].find("=") s1 = layers_branch_rev[i][p1:] while i > 0: p2 = layers_branch_rev[i-1].find("=") s2= layers_branch_rev[i-1][p2:] if s1 == s2: layers_branch_rev[i-1] = layers_branch_rev[i-1][0:p2] i -= 1 else: i -= 1 p1 = layers_branch_rev[i].find("=") s1= layers_branch_rev[i][p1:] return layers_branch_rev BUILDCFG_FUNCS ??= "buildcfg_vars get_layers_branch_rev buildcfg_neededvars" BUILDCFG_FUNCS[type] = "list" def buildcfg_vars(d): statusvars = oe.data.typed_value('BUILDCFG_VARS', d) for var in statusvars: value = d.getVar(var, True) if value is not None: yield '%-17s = "%s"' % (var, value) def buildcfg_neededvars(d): needed_vars = oe.data.typed_value("BUILDCFG_NEEDEDVARS", d) pesteruser = [] for v in needed_vars: val = d.getVar(v, True) if not val or val == 'INVALID': pesteruser.append(v) if pesteruser: bb.fatal('The following variable(s) were not set: %s\nPlease set them directly, or choose a MACHINE or DISTRO that sets them.' % ', '.join(pesteruser)) addhandler base_eventhandler base_eventhandler[eventmask] = "bb.event.ConfigParsed bb.event.BuildStarted bb.event.RecipePreFinalise bb.runqueue.sceneQueueComplete" python base_eventhandler() { import bb.runqueue if isinstance(e, bb.event.ConfigParsed): if not e.data.getVar("NATIVELSBSTRING", False): e.data.setVar("NATIVELSBSTRING", lsb_distro_identifier(e.data)) e.data.setVar('BB_VERSION', bb.__version__) pkgarch_mapping(e.data) oe.utils.features_backfill("DISTRO_FEATURES", e.data) oe.utils.features_backfill("MACHINE_FEATURES", e.data) if isinstance(e, bb.event.BuildStarted): localdata = bb.data.createCopy(e.data) bb.data.update_data(localdata) statuslines = [] for func in oe.data.typed_value('BUILDCFG_FUNCS', localdata): g = globals() if func not in g: bb.warn("Build configuration function '%s' does not exist" % func) else: flines = g[func](localdata) if flines: statuslines.extend(flines) statusheader = e.data.getVar('BUILDCFG_HEADER', True) bb.plain('\n%s\n%s\n' % (statusheader, '\n'.join(statuslines))) # This code is to silence warnings where the SDK variables overwrite the # target ones and we'd see dulpicate key names overwriting each other # for various PREFERRED_PROVIDERS if isinstance(e, bb.event.RecipePreFinalise): if e.data.getVar("TARGET_PREFIX", True) == e.data.getVar("SDK_PREFIX", True): e.data.delVar("PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}binutils") e.data.delVar("PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}gcc-initial") e.data.delVar("PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}gcc") e.data.delVar("PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}g++") e.data.delVar("PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}compilerlibs") if isinstance(e, bb.runqueue.sceneQueueComplete): completions = e.data.expand("${STAGING_DIR}/sstatecompletions") if os.path.exists(completions): cmds = set() with open(completions, "r") as f: cmds = set(f) e.data.setVar("completion_function", "\n".join(cmds)) e.data.setVarFlag("completion_function", "func", "1") bb.debug(1, "Executing SceneQueue Completion commands: %s" % "\n".join(cmds)) bb.build.exec_func("completion_function", e.data) os.remove(completions) } CONFIGURESTAMPFILE = "${WORKDIR}/configure.sstate" CLEANBROKEN = "0" addtask configure after do_patch do_configure[dirs] = "${B}" do_configure[deptask] = "do_populate_sysroot" base_do_configure() { if [ -n "${CONFIGURESTAMPFILE}" -a -e "${CONFIGURESTAMPFILE}" ]; then if [ "`cat ${CONFIGURESTAMPFILE}`" != "${BB_TASKHASH}" ]; then cd ${B} if [ "${CLEANBROKEN}" != "1" -a \( -e Makefile -o -e makefile -o -e GNUmakefile \) ]; then oe_runmake clean fi find ${B} -ignore_readdir_race -name \*.la -delete fi fi if [ -n "${CONFIGURESTAMPFILE}" ]; then echo ${BB_TASKHASH} > ${CONFIGURESTAMPFILE} fi } addtask compile after do_configure do_compile[dirs] = "${B}" base_do_compile() { if [ -e Makefile -o -e makefile -o -e GNUmakefile ]; then oe_runmake || die "make failed" else bbnote "nothing to compile" fi } addtask install after do_compile do_install[dirs] = "${D} ${B}" # Remove and re-create ${D} so that is it guaranteed to be empty do_install[cleandirs] = "${D}" base_do_install() { : } base_do_package() { : } addtask build after do_populate_sysroot do_build[noexec] = "1" do_build[recrdeptask] += "do_deploy" do_build () { : } def set_packagetriplet(d): archs = [] tos = [] tvs = [] archs.append(d.getVar("PACKAGE_ARCHS", True).split()) tos.append(d.getVar("TARGET_OS", True)) tvs.append(d.getVar("TARGET_VENDOR", True)) def settriplet(d, varname, archs, tos, tvs): triplets = [] for i in range(len(archs)): for arch in archs[i]: triplets.append(arch + tvs[i] + "-" + tos[i]) triplets.reverse() d.setVar(varname, " ".join(triplets)) settriplet(d, "PKGTRIPLETS", archs, tos, tvs) variants = d.getVar("MULTILIB_VARIANTS", True) or "" for item in variants.split(): localdata = bb.data.createCopy(d) overrides = localdata.getVar("OVERRIDES", False) + ":virtclass-multilib-" + item localdata.setVar("OVERRIDES", overrides) bb.data.update_data(localdata) archs.append(localdata.getVar("PACKAGE_ARCHS", True).split()) tos.append(localdata.getVar("TARGET_OS", True)) tvs.append(localdata.getVar("TARGET_VENDOR", True)) settriplet(d, "PKGMLTRIPLETS", archs, tos, tvs) python () { import string, re # Handle PACKAGECONFIG # # These take the form: # # PACKAGECONFIG ??= "" # PACKAGECONFIG[foo] = "--enable-foo,--disable-foo,foo_depends,foo_runtime_depends" pkgconfigflags = d.getVarFlags("PACKAGECONFIG") or {} if pkgconfigflags: pkgconfig = (d.getVar('PACKAGECONFIG', True) or "").split() pn = d.getVar("PN", True) mlprefix = d.getVar("MLPREFIX", True) def expandFilter(appends, extension, prefix): appends = bb.utils.explode_deps(d.expand(" ".join(appends))) newappends = [] for a in appends: if a.endswith("-native") or ("-cross-" in a): newappends.append(a) elif a.startswith("virtual/"): subs = a.split("/", 1)[1] newappends.append("virtual/" + prefix + subs + extension) else: if a.startswith(prefix): newappends.append(a + extension) else: newappends.append(prefix + a + extension) return newappends def appendVar(varname, appends): if not appends: return if varname.find("DEPENDS") != -1: if pn.startswith("nativesdk-"): appends = expandFilter(appends, "", "nativesdk-") if pn.endswith("-native"): appends = expandFilter(appends, "-native", "") if mlprefix: appends = expandFilter(appends, "", mlprefix) varname = d.expand(varname) d.appendVar(varname, " " + " ".join(appends)) extradeps = [] extrardeps = [] extraconf = [] for flag, flagval in sorted(pkgconfigflags.items()): items = flagval.split(",") num = len(items) if num > 4: bb.error("%s: PACKAGECONFIG[%s] Only enable,disable,depend,rdepend can be specified!" % (d.getVar('PN', True), flag)) if flag in pkgconfig: if num >= 3 and items[2]: extradeps.append(items[2]) if num >= 4 and items[3]: extrardeps.append(items[3]) if num >= 1 and items[0]: extraconf.append(items[0]) elif num >= 2 and items[1]: extraconf.append(items[1]) appendVar('DEPENDS', extradeps) appendVar('RDEPENDS_${PN}', extrardeps) if bb.data.inherits_class('cmake', d): appendVar('EXTRA_OECMAKE', extraconf) else: appendVar('EXTRA_OECONF', extraconf) pn = d.getVar('PN', True) license = d.getVar('LICENSE', True) if license == "INVALID": bb.fatal('This recipe does not have the LICENSE field set (%s)' % pn) if bb.data.inherits_class('license', d): check_license_format(d) unmatched_license_flag = check_license_flags(d) if unmatched_license_flag: bb.debug(1, "Skipping %s because it has a restricted license not" " whitelisted in LICENSE_FLAGS_WHITELIST" % pn) raise bb.parse.SkipPackage("because it has a restricted license not" " whitelisted in LICENSE_FLAGS_WHITELIST") # If we're building a target package we need to use fakeroot (pseudo) # in order to capture permissions, owners, groups and special files if not bb.data.inherits_class('native', d) and not bb.data.inherits_class('cross', d): d.setVarFlag('do_unpack', 'umask', '022') d.setVarFlag('do_configure', 'umask', '022') d.setVarFlag('do_compile', 'umask', '022') d.appendVarFlag('do_install', 'depends', ' virtual/fakeroot-native:do_populate_sysroot') d.setVarFlag('do_install', 'fakeroot', '1') d.setVarFlag('do_install', 'umask', '022') d.appendVarFlag('do_package', 'depends', ' virtual/fakeroot-native:do_populate_sysroot') d.setVarFlag('do_package', 'fakeroot', '1') d.setVarFlag('do_package', 'umask', '022') d.setVarFlag('do_package_setscene', 'fakeroot', '1') d.appendVarFlag('do_package_setscene', 'depends', ' virtual/fakeroot-native:do_populate_sysroot') d.setVarFlag('do_devshell', 'fakeroot', '1') d.appendVarFlag('do_devshell', 'depends', ' virtual/fakeroot-native:do_populate_sysroot') source_mirror_fetch = d.getVar('SOURCE_MIRROR_FETCH', 0) if not source_mirror_fetch: need_host = d.getVar('COMPATIBLE_HOST', True) if need_host: import re this_host = d.getVar('HOST_SYS', True) if not re.match(need_host, this_host): raise bb.parse.SkipPackage("incompatible with host %s (not in COMPATIBLE_HOST)" % this_host) need_machine = d.getVar('COMPATIBLE_MACHINE', True) if need_machine: import re compat_machines = (d.getVar('MACHINEOVERRIDES', True) or "").split(":") for m in compat_machines: if re.match(need_machine, m): break else: raise bb.parse.SkipPackage("incompatible with machine %s (not in COMPATIBLE_MACHINE)" % d.getVar('MACHINE', True)) bad_licenses = (d.getVar('INCOMPATIBLE_LICENSE', True) or "").split() check_license = False if pn.startswith("nativesdk-") else True for t in ["-native", "-cross-${TARGET_ARCH}", "-cross-initial-${TARGET_ARCH}", "-crosssdk-${SDK_ARCH}", "-crosssdk-initial-${SDK_ARCH}", "-cross-canadian-${TRANSLATED_TARGET_ARCH}"]: if pn.endswith(d.expand(t)): check_license = False if pn.startswith("gcc-source-"): check_license = False if check_license and bad_licenses: bad_licenses = expand_wildcard_licenses(d, bad_licenses) whitelist = [] incompatwl = [] htincompatwl = [] for lic in bad_licenses: spdx_license = return_spdx(d, lic) for w in ["HOSTTOOLS_WHITELIST_", "LGPLv2_WHITELIST_", "WHITELIST_"]: whitelist.extend((d.getVar(w + lic, True) or "").split()) if spdx_license: whitelist.extend((d.getVar(w + spdx_license, True) or "").split()) ''' We need to track what we are whitelisting and why. If pn is incompatible and is not HOSTTOOLS_WHITELIST_ we need to be able to note that the image that is created may infact contain incompatible licenses despite INCOMPATIBLE_LICENSE being set. ''' if "HOSTTOOLS" in w: htincompatwl.extend((d.getVar(w + lic, True) or "").split()) if spdx_license: htincompatwl.extend((d.getVar(w + spdx_license, True) or "").split()) else: incompatwl.extend((d.getVar(w + lic, True) or "").split()) if spdx_license: incompatwl.extend((d.getVar(w + spdx_license, True) or "").split()) if not pn in whitelist: recipe_license = d.getVar('LICENSE', True) pkgs = d.getVar('PACKAGES', True).split() skipped_pkgs = [] unskipped_pkgs = [] for pkg in pkgs: if incompatible_license(d, bad_licenses, pkg): skipped_pkgs.append(pkg) else: unskipped_pkgs.append(pkg) all_skipped = skipped_pkgs and not unskipped_pkgs if unskipped_pkgs: for pkg in skipped_pkgs: bb.debug(1, "SKIPPING the package " + pkg + " at do_rootfs because it's " + recipe_license) mlprefix = d.getVar('MLPREFIX', True) d.setVar('LICENSE_EXCLUSION-' + mlprefix + pkg, 1) for pkg in unskipped_pkgs: bb.debug(1, "INCLUDING the package " + pkg) elif all_skipped or incompatible_license(d, bad_licenses): bb.debug(1, "SKIPPING recipe %s because it's %s" % (pn, recipe_license)) raise bb.parse.SkipPackage("incompatible with license %s" % recipe_license) elif pn in whitelist: if pn in incompatwl: bb.note("INCLUDING " + pn + " as buildable despite INCOMPATIBLE_LICENSE because it has been whitelisted") elif pn in htincompatwl: bb.note("INCLUDING " + pn + " as buildable despite INCOMPATIBLE_LICENSE because it has been whitelisted for HOSTTOOLS") srcuri = d.getVar('SRC_URI', True) # Svn packages should DEPEND on subversion-native if "svn://" in srcuri: d.appendVarFlag('do_fetch', 'depends', ' subversion-native:do_populate_sysroot') # Git packages should DEPEND on git-native if "git://" in srcuri: d.appendVarFlag('do_fetch', 'depends', ' git-native:do_populate_sysroot') # Mercurial packages should DEPEND on mercurial-native elif "hg://" in srcuri: d.appendVarFlag('do_fetch', 'depends', ' mercurial-native:do_populate_sysroot') # OSC packages should DEPEND on osc-native elif "osc://" in srcuri: d.appendVarFlag('do_fetch', 'depends', ' osc-native:do_populate_sysroot') # *.lz4 should depends on lz4-native for unpacking # Not endswith because of "*.patch.lz4;patch=1". Need bb.fetch.decodeurl in future if '.lz4' in srcuri: d.appendVarFlag('do_unpack', 'depends', ' lz4-native:do_populate_sysroot') # *.xz should depends on xz-native for unpacking # Not endswith because of "*.patch.xz;patch=1". Need bb.fetch.decodeurl in future if '.xz' in srcuri: d.appendVarFlag('do_unpack', 'depends', ' xz-native:do_populate_sysroot') # unzip-native should already be staged before unpacking ZIP recipes if ".zip" in srcuri: d.appendVarFlag('do_unpack', 'depends', ' unzip-native:do_populate_sysroot') # file is needed by rpm2cpio.sh if ".src.rpm" in srcuri: d.appendVarFlag('do_unpack', 'depends', ' file-native:do_populate_sysroot') set_packagetriplet(d) # 'multimachine' handling mach_arch = d.getVar('MACHINE_ARCH', True) pkg_arch = d.getVar('PACKAGE_ARCH', True) if (pkg_arch == mach_arch): # Already machine specific - nothing further to do return # # We always try to scan SRC_URI for urls with machine overrides # unless the package sets SRC_URI_OVERRIDES_PACKAGE_ARCH=0 # override = d.getVar('SRC_URI_OVERRIDES_PACKAGE_ARCH', True) if override != '0': paths = [] fpaths = (d.getVar('FILESPATH', True) or '').split(':') machine = d.getVar('MACHINE', True) for p in fpaths: if os.path.basename(p) == machine and os.path.isdir(p): paths.append(p) if len(paths) != 0: for s in srcuri.split(): if not s.startswith("file://"): continue fetcher = bb.fetch2.Fetch([s], d) local = fetcher.localpath(s) for mp in paths: if local.startswith(mp): #bb.note("overriding PACKAGE_ARCH from %s to %s for %s" % (pkg_arch, mach_arch, pn)) d.setVar('PACKAGE_ARCH', "${MACHINE_ARCH}") return packages = d.getVar('PACKAGES', True).split() for pkg in packages: pkgarch = d.getVar("PACKAGE_ARCH_%s" % pkg, True) # We could look for != PACKAGE_ARCH here but how to choose # if multiple differences are present? # Look through PACKAGE_ARCHS for the priority order? if pkgarch and pkgarch == mach_arch: d.setVar('PACKAGE_ARCH', "${MACHINE_ARCH}") bb.warn("Recipe %s is marked as only being architecture specific but seems to have machine specific packages?! The recipe may as well mark itself as machine specific directly." % d.getVar("PN", True)) } addtask cleansstate after do_clean python do_cleansstate() { sstate_clean_cachefiles(d) } addtask cleanall after do_cleansstate python do_cleanall() { src_uri = (d.getVar('SRC_URI', True) or "").split() if len(src_uri) == 0: return try: fetcher = bb.fetch2.Fetch(src_uri, d) fetcher.clean() except bb.fetch2.BBFetchException, e: raise bb.build.FuncFailed(e) } do_cleanall[nostamp] = "1" EXPORT_FUNCTIONS do_fetch do_unpack do_configure do_compile do_install do_package