# ex:ts=4:sw=4:sts=4:et # -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- """ AbstractSyntaxTree classes for the Bitbake language """ # Copyright (C) 2003, 2004 Chris Larson # Copyright (C) 2003, 2004 Phil Blundell # Copyright (C) 2009 Holger Hans Peter Freyther # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. from __future__ import absolute_import from future_builtins import filter import re import string import logging import bb import itertools from bb import methodpool from bb.parse import logger _bbversions_re = re.compile(r"\[(?P[0-9]+)-(?P[0-9]+)\]") class StatementGroup(list): def eval(self, data): for statement in self: statement.eval(data) class AstNode(object): def __init__(self, filename, lineno): self.filename = filename self.lineno = lineno class IncludeNode(AstNode): def __init__(self, filename, lineno, what_file, force): AstNode.__init__(self, filename, lineno) self.what_file = what_file self.force = force def eval(self, data): """ Include the file and evaluate the statements """ s = data.expand(self.what_file) logger.debug(2, "CONF %s:%s: including %s", self.filename, self.lineno, s) # TODO: Cache those includes... maybe not here though if self.force: bb.parse.ConfHandler.include(self.filename, s, self.lineno, data, "include required") else: bb.parse.ConfHandler.include(self.filename, s, self.lineno, data, False) class ExportNode(AstNode): def __init__(self, filename, lineno, var): AstNode.__init__(self, filename, lineno) self.var = var def eval(self, data): data.setVarFlag(self.var, "export", 1, op = 'exported') class DataNode(AstNode): """ Various data related updates. For the sake of sanity we have one class doing all this. This means that all this need to be re-evaluated... we might be able to do that faster with multiple classes. """ def __init__(self, filename, lineno, groupd): AstNode.__init__(self, filename, lineno) self.groupd = groupd def getFunc(self, key, data): if 'flag' in self.groupd and self.groupd['flag'] != None: return data.getVarFlag(key, self.groupd['flag'], noweakdefault=True) else: return data.getVar(key, noweakdefault=True) def eval(self, data): groupd = self.groupd key = groupd["var"] loginfo = { 'variable': key, 'file': self.filename, 'line': self.lineno, } if "exp" in groupd and groupd["exp"] != None: data.setVarFlag(key, "export", 1, op = 'exported', **loginfo) op = "set" if "ques" in groupd and groupd["ques"] != None: val = self.getFunc(key, data) op = "set?" if val == None: val = groupd["value"] elif "colon" in groupd and groupd["colon"] != None: e = data.createCopy() bb.data.update_data(e) op = "immediate" val = e.expand(groupd["value"], key + "[:=]") elif "append" in groupd and groupd["append"] != None: op = "append" val = "%s %s" % ((self.getFunc(key, data) or ""), groupd["value"]) elif "prepend" in groupd and groupd["prepend"] != None: op = "prepend" val = "%s %s" % (groupd["value"], (self.getFunc(key, data) or "")) elif "postdot" in groupd and groupd["postdot"] != None: op = "postdot" val = "%s%s" % ((self.getFunc(key, data) or ""), groupd["value"]) elif "predot" in groupd and groupd["predot"] != None: op = "predot" val = "%s%s" % (groupd["value"], (self.getFunc(key, data) or "")) else: val = groupd["value"] flag = None if 'flag' in groupd and groupd['flag'] != None: flag = groupd['flag'] elif groupd["lazyques"]: flag = "defaultval" loginfo['op'] = op loginfo['detail'] = groupd["value"] if flag: data.setVarFlag(key, flag, val, **loginfo) else: data.setVar(key, val, **loginfo) class MethodNode(AstNode): def __init__(self, filename, lineno, func_name, body): AstNode.__init__(self, filename, lineno) self.func_name = func_name self.body = body def eval(self, data): text = '\n'.join(self.body) if self.func_name == "__anonymous": funcname = ("__anon_%s_%s" % (self.lineno, self.filename.translate(string.maketrans('/.+-@', '_____')))) text = "def %s(d):\n" % (funcname) + text bb.methodpool.insert_method(funcname, text, self.filename) anonfuncs = data.getVar('__BBANONFUNCS') or [] anonfuncs.append(funcname) data.setVar('__BBANONFUNCS', anonfuncs) data.setVar(funcname, text) else: data.setVarFlag(self.func_name, "func", 1) data.setVar(self.func_name, text) class PythonMethodNode(AstNode): def __init__(self, filename, lineno, function, modulename, body): AstNode.__init__(self, filename, lineno) self.function = function self.modulename = modulename self.body = body def eval(self, data): # Note we will add root to parsedmethods after having parse # 'this' file. This means we will not parse methods from # bb classes twice text = '\n'.join(self.body) bb.methodpool.insert_method(self.modulename, text, self.filename) data.setVarFlag(self.function, "func", 1) data.setVarFlag(self.function, "python", 1) data.setVar(self.function, text) class MethodFlagsNode(AstNode): def __init__(self, filename, lineno, key, m): AstNode.__init__(self, filename, lineno) self.key = key self.m = m def eval(self, data): if data.getVar(self.key): # clean up old version of this piece of metadata, as its # flags could cause problems data.setVarFlag(self.key, 'python', None) data.setVarFlag(self.key, 'fakeroot', None) if self.m.group("py") is not None: data.setVarFlag(self.key, "python", "1") else: data.delVarFlag(self.key, "python") if self.m.group("fr") is not None: data.setVarFlag(self.key, "fakeroot", "1") else: data.delVarFlag(self.key, "fakeroot") class ExportFuncsNode(AstNode): def __init__(self, filename, lineno, fns, classname): AstNode.__init__(self, filename, lineno) self.n = fns.split() self.classname = classname def eval(self, data): for func in self.n: calledfunc = self.classname + "_" + func if data.getVar(func) and not data.getVarFlag(func, 'export_func'): continue if data.getVar(func): data.setVarFlag(func, 'python', None) data.setVarFlag(func, 'func', None) for flag in [ "func", "python" ]: if data.getVarFlag(calledfunc, flag): data.setVarFlag(func, flag, data.getVarFlag(calledfunc, flag)) for flag in [ "dirs" ]: if data.getVarFlag(func, flag): data.setVarFlag(calledfunc, flag, data.getVarFlag(func, flag)) if data.getVarFlag(calledfunc, "python"): data.setVar(func, " bb.build.exec_func('" + calledfunc + "', d)\n") else: data.setVar(func, " " + calledfunc + "\n") data.setVarFlag(func, 'export_func', '1') class AddTaskNode(AstNode): def __init__(self, filename, lineno, func, before, after): AstNode.__init__(self, filename, lineno) self.func = func self.before = before self.after = after def eval(self, data): var = self.func if self.func[:3] != "do_": var = "do_" + self.func data.setVarFlag(var, "task", 1) bbtasks = data.getVar('__BBTASKS') or [] if not var in bbtasks: bbtasks.append(var) data.setVar('__BBTASKS', bbtasks) existing = data.getVarFlag(var, "deps") or [] if self.after is not None: # set up deps for function for entry in self.after.split(): if entry not in existing: existing.append(entry) data.setVarFlag(var, "deps", existing) if self.before is not None: # set up things that depend on this func for entry in self.before.split(): existing = data.getVarFlag(entry, "deps") or [] if var not in existing: data.setVarFlag(entry, "deps", [var] + existing) class DelTaskNode(AstNode): def __init__(self, filename, lineno, func): AstNode.__init__(self, filename, lineno) self.func = func def eval(self, data): var = self.func if self.func[:3] != "do_": var = "do_" + self.func bbtasks = data.getVar('__BBDELTASKS') or [] if not var in bbtasks: bbtasks.append(var) data.setVar('__BBDELTASKS', bbtasks) class BBHandlerNode(AstNode): def __init__(self, filename, lineno, fns): AstNode.__init__(self, filename, lineno) self.hs = fns.split() def eval(self, data): bbhands = data.getVar('__BBHANDLERS') or [] for h in self.hs: bbhands.append(h) data.setVarFlag(h, "handler", 1) data.setVar('__BBHANDLERS', bbhands) class InheritNode(AstNode): def __init__(self, filename, lineno, classes): AstNode.__init__(self, filename, lineno) self.classes = classes def eval(self, data): bb.parse.BBHandler.inherit(self.classes, self.filename, self.lineno, data) def handleInclude(statements, filename, lineno, m, force): statements.append(IncludeNode(filename, lineno, m.group(1), force)) def handleExport(statements, filename, lineno, m): statements.append(ExportNode(filename, lineno, m.group(1))) def handleData(statements, filename, lineno, groupd): statements.append(DataNode(filename, lineno, groupd)) def handleMethod(statements, filename, lineno, func_name, body): statements.append(MethodNode(filename, lineno, func_name, body)) def handlePythonMethod(statements, filename, lineno, funcname, modulename, body): statements.append(PythonMethodNode(filename, lineno, funcname, modulename, body)) def handleMethodFlags(statements, filename, lineno, key, m): statements.append(MethodFlagsNode(filename, lineno, key, m)) def handleExportFuncs(statements, filename, lineno, m, classname): statements.append(ExportFuncsNode(filename, lineno, m.group(1), classname)) def handleAddTask(statements, filename, lineno, m): func = m.group("func") before = m.group("before") after = m.group("after") if func is None: return statements.append(AddTaskNode(filename, lineno, func, before, after)) def handleDelTask(statements, filename, lineno, m): func = m.group("func") if func is None: return statements.append(DelTaskNode(filename, lineno, func)) def handleBBHandlers(statements, filename, lineno, m): statements.append(BBHandlerNode(filename, lineno, m.group(1))) def handleInherit(statements, filename, lineno, m): classes = m.group(1) statements.append(InheritNode(filename, lineno, classes)) def finalize(fn, d, variant = None): all_handlers = {} for var in d.getVar('__BBHANDLERS') or []: # try to add the handler bb.event.register(var, d.getVar(var), (d.getVarFlag(var, "eventmask", True) or "").split()) bb.event.fire(bb.event.RecipePreFinalise(fn), d) bb.data.expandKeys(d) bb.data.update_data(d) code = [] for funcname in d.getVar("__BBANONFUNCS") or []: code.append("%s(d)" % funcname) bb.utils.better_exec("\n".join(code), {"d": d}) bb.data.update_data(d) tasklist = d.getVar('__BBTASKS') or [] deltasklist = d.getVar('__BBDELTASKS') or [] bb.build.add_tasks(tasklist, deltasklist, d) bb.parse.siggen.finalise(fn, d, variant) d.setVar('BBINCLUDED', bb.parse.get_file_depends(d)) bb.event.fire(bb.event.RecipeParsed(fn), d) def _create_variants(datastores, names, function): def create_variant(name, orig_d, arg = None): new_d = bb.data.createCopy(orig_d) function(arg or name, new_d) datastores[name] = new_d for variant, variant_d in datastores.items(): for name in names: if not variant: # Based on main recipe create_variant(name, variant_d) else: create_variant("%s-%s" % (variant, name), variant_d, name) def _expand_versions(versions): def expand_one(version, start, end): for i in xrange(start, end + 1): ver = _bbversions_re.sub(str(i), version, 1) yield ver versions = iter(versions) while True: try: version = next(versions) except StopIteration: break range_ver = _bbversions_re.search(version) if not range_ver: yield version else: newversions = expand_one(version, int(range_ver.group("from")), int(range_ver.group("to"))) versions = itertools.chain(newversions, versions) def multi_finalize(fn, d): appends = (d.getVar("__BBAPPEND", True) or "").split() for append in appends: logger.debug(2, "Appending .bbappend file %s to %s", append, fn) bb.parse.BBHandler.handle(append, d, True) onlyfinalise = d.getVar("__ONLYFINALISE", False) safe_d = d d = bb.data.createCopy(safe_d) try: finalize(fn, d) except bb.parse.SkipPackage as e: d.setVar("__SKIPPED", e.args[0]) datastores = {"": safe_d} versions = (d.getVar("BBVERSIONS", True) or "").split() if versions: pv = orig_pv = d.getVar("PV", True) baseversions = {} def verfunc(ver, d, pv_d = None): if pv_d is None: pv_d = d overrides = d.getVar("OVERRIDES", True).split(":") pv_d.setVar("PV", ver) overrides.append(ver) bpv = baseversions.get(ver) or orig_pv pv_d.setVar("BPV", bpv) overrides.append(bpv) d.setVar("OVERRIDES", ":".join(overrides)) versions = list(_expand_versions(versions)) for pos, version in enumerate(list(versions)): try: pv, bpv = version.split(":", 2) except ValueError: pass else: versions[pos] = pv baseversions[pv] = bpv if pv in versions and not baseversions.get(pv): versions.remove(pv) else: pv = versions.pop() # This is necessary because our existing main datastore # has already been finalized with the old PV, we need one # that's been finalized with the new PV. d = bb.data.createCopy(safe_d) verfunc(pv, d, safe_d) try: finalize(fn, d) except bb.parse.SkipPackage as e: d.setVar("__SKIPPED", e.args[0]) _create_variants(datastores, versions, verfunc) extended = d.getVar("BBCLASSEXTEND", True) or "" if extended: # the following is to support bbextends with arguments, for e.g. multilib # an example is as follows: # BBCLASSEXTEND = "multilib:lib32" # it will create foo-lib32, inheriting multilib.bbclass and set # BBEXTENDCURR to "multilib" and BBEXTENDVARIANT to "lib32" extendedmap = {} variantmap = {} for ext in extended.split(): eext = ext.split(':', 2) if len(eext) > 1: extendedmap[ext] = eext[0] variantmap[ext] = eext[1] else: extendedmap[ext] = ext pn = d.getVar("PN", True) def extendfunc(name, d): if name != extendedmap[name]: d.setVar("BBEXTENDCURR", extendedmap[name]) d.setVar("BBEXTENDVARIANT", variantmap[name]) else: d.setVar("PN", "%s-%s" % (pn, name)) bb.parse.BBHandler.inherit(extendedmap[name], fn, 0, d) safe_d.setVar("BBCLASSEXTEND", extended) _create_variants(datastores, extendedmap.keys(), extendfunc) for variant, variant_d in datastores.iteritems(): if variant: try: if not onlyfinalise or variant in onlyfinalise: finalize(fn, variant_d, variant) except bb.parse.SkipPackage as e: variant_d.setVar("__SKIPPED", e.args[0]) if len(datastores) > 1: variants = filter(None, datastores.iterkeys()) safe_d.setVar("__VARIANTS", " ".join(variants)) datastores[""] = d return datastores