def preferred_ml_updates(d): # If any PREFERRED_PROVIDER or PREFERRED_VERSION are set, # we need to mirror these variables in the multilib case; multilibs = d.getVar('MULTILIBS') or "" if not multilibs: return prefixes = [] for ext in multilibs.split(): eext = ext.split(':') if len(eext) > 1 and eext[0] == 'multilib': prefixes.append(eext[1]) versions = [] providers = [] for v in d.keys(): if v.startswith("PREFERRED_VERSION_"): versions.append(v) if v.startswith("PREFERRED_PROVIDER_"): providers.append(v) for v in versions: val = d.getVar(v, False) pkg = v.replace("PREFERRED_VERSION_", "") if pkg.endswith("-native") or "-crosssdk-" in pkg or pkg.startswith(("nativesdk-", "virtual/nativesdk-")): continue if '-cross-' in pkg and '${' in pkg: for p in prefixes: localdata = bb.data.createCopy(d) override = ":virtclass-multilib-" + p localdata.setVar("OVERRIDES", localdata.getVar("OVERRIDES", False) + override) bb.data.update_data(localdata) if "-canadian-" in pkg: newname = localdata.expand(v) else: newname = localdata.expand(v).replace("PREFERRED_VERSION_", "PREFERRED_VERSION_" + p + '-') if newname != v: newval = localdata.expand(val) d.setVar(newname, newval) # Avoid future variable key expansion vexp = d.expand(v) if v != vexp and d.getVar(v, False): d.renameVar(v, vexp) continue for p in prefixes: newname = "PREFERRED_VERSION_" + p + "-" + pkg if not d.getVar(newname, False): d.setVar(newname, val) for prov in providers: val = d.getVar(prov, False) pkg = prov.replace("PREFERRED_PROVIDER_", "") if pkg.endswith("-native") or "-crosssdk-" in pkg or pkg.startswith(("nativesdk-", "virtual/nativesdk-")): continue if 'cross-canadian' in pkg: for p in prefixes: localdata = bb.data.createCopy(d) override = ":virtclass-multilib-" + p localdata.setVar("OVERRIDES", localdata.getVar("OVERRIDES", False) + override) bb.data.update_data(localdata) newname = localdata.expand(prov) if newname != prov: newval = localdata.expand(val) d.setVar(newname, newval) # Avoid future variable key expansion provexp = d.expand(prov) if prov != provexp and d.getVar(prov, False): d.renameVar(prov, provexp) continue virt = "" if pkg.startswith("virtual/"): pkg = pkg.replace("virtual/", "") virt = "virtual/" for p in prefixes: newval = None if pkg != "kernel": newval = p + "-" + val # implement variable keys localdata = bb.data.createCopy(d) override = ":virtclass-multilib-" + p localdata.setVar("OVERRIDES", localdata.getVar("OVERRIDES", False) + override) bb.data.update_data(localdata) newname = localdata.expand(prov) if newname != prov and not d.getVar(newname, False): d.setVar(newname, localdata.expand(newval)) # implement alternative multilib name newname = localdata.expand("PREFERRED_PROVIDER_" + virt + p + "-" + pkg) if not d.getVar(newname, False) and newval != None: d.setVar(newname, localdata.expand(newval)) # Avoid future variable key expansion provexp = d.expand(prov) if prov != provexp and d.getVar(prov, False): d.renameVar(prov, provexp) def translate_provide(prefix, prov): if not prov.startswith("virtual/"): return prefix + "-" + prov if prov == "virtual/kernel": return prov prov = prov.replace("virtual/", "") return "virtual/" + prefix + "-" + prov mp = (d.getVar("MULTI_PROVIDER_WHITELIST") or "").split() extramp = [] for p in mp: if p.endswith("-native") or "-crosssdk-" in p or p.startswith(("nativesdk-", "virtual/nativesdk-")) or 'cross-canadian' in p: continue for pref in prefixes: extramp.append(translate_provide(pref, p)) d.setVar("MULTI_PROVIDER_WHITELIST", " ".join(mp + extramp)) abisafe = (d.getVar("SIGGEN_EXCLUDERECIPES_ABISAFE") or "").split() extras = [] for p in prefixes: for a in abisafe: extras.append(p + "-" + a) d.appendVar("SIGGEN_EXCLUDERECIPES_ABISAFE", " " + " ".join(extras)) siggen_exclude = (d.getVar("SIGGEN_EXCLUDE_SAFE_RECIPE_DEPS") or "").split() extras = [] for p in prefixes: for a in siggen_exclude: a1, a2 = a.split("->") extras.append(translate_provide(p, a1) + "->" + translate_provide(p, a2)) d.appendVar("SIGGEN_EXCLUDE_SAFE_RECIPE_DEPS", " " + " ".join(extras)) python multilib_virtclass_handler_vendor () { if isinstance(e, bb.event.ConfigParsed): for v in e.data.getVar("MULTILIB_VARIANTS").split(): if e.data.getVar("TARGET_VENDOR_virtclass-multilib-" + v, False) is None: e.data.setVar("TARGET_VENDOR_virtclass-multilib-" + v, e.data.getVar("TARGET_VENDOR", False) + "ml" + v) preferred_ml_updates(e.data) } addhandler multilib_virtclass_handler_vendor multilib_virtclass_handler_vendor[eventmask] = "bb.event.ConfigParsed" python multilib_virtclass_handler_global () { if not e.data: return variant = e.data.getVar("BBEXTENDVARIANT") if isinstance(e, bb.event.RecipeParsed) and not variant: if bb.data.inherits_class('kernel', e.data) or \ bb.data.inherits_class('module-base', e.data) or \ (bb.data.inherits_class('allarch', e.data) and\ not bb.data.inherits_class('packagegroup', e.data)): variants = (e.data.getVar("MULTILIB_VARIANTS") or "").split() import oe.classextend clsextends = [] for variant in variants: clsextends.append(oe.classextend.ClassExtender(variant, e.data)) # Process PROVIDES origprovs = provs = e.data.getVar("PROVIDES") or "" for clsextend in clsextends: provs = provs + " " + clsextend.map_variable("PROVIDES", setvar=False) e.data.setVar("PROVIDES", provs) # Process RPROVIDES origrprovs = rprovs = e.data.getVar("RPROVIDES") or "" for clsextend in clsextends: rprovs = rprovs + " " + clsextend.map_variable("RPROVIDES", setvar=False) if rprovs.strip(): e.data.setVar("RPROVIDES", rprovs) # Process RPROVIDES_${PN}... for pkg in (e.data.getVar("PACKAGES") or "").split(): origrprovs = rprovs = e.data.getVar("RPROVIDES_%s" % pkg) or "" for clsextend in clsextends: rprovs = rprovs + " " + clsextend.map_variable("RPROVIDES_%s" % pkg, setvar=False) rprovs = rprovs + " " + clsextend.extname + "-" + pkg e.data.setVar("RPROVIDES_%s" % pkg, rprovs) } addhandler multilib_virtclass_handler_global multilib_virtclass_handler_global[eventmask] = "bb.event.RecipePreFinalise bb.event.RecipeParsed"