#!/usr/bin/env python # ex:ts=4:sw=4:sts=4:et # -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- """class for handling .bb files Reads a .bb file and obtains its metadata Copyright (C) 2003, 2004 Chris Larson Copyright (C) 2003, 2004 Phil Blundell This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.""" import re, bb, os, sys import bb.fetch, bb.build from bb import debug, data, fetch, fatal from bb.parse.ConfHandler import include, localpath, obtain, init from bb.parse import ParseError __func_start_regexp__ = re.compile( r"(((?Ppython)|(?Pfakeroot))\s*)*(?P[\w\-\+]+)?\s*\(\s*\)\s*{$" ) __inherit_regexp__ = re.compile( r"inherit\s+(.+)" ) __export_func_regexp__ = re.compile( r"EXPORT_FUNCTIONS\s+(.+)" ) __addtask_regexp__ = re.compile("addtask\s+(?P\w+)\s*((before\s*(?P((.*(?=after))|(.*))))|(after\s*(?P((.*(?=before))|(.*)))))*") __addhandler_regexp__ = re.compile( r"addhandler\s+(.+)" ) __def_regexp__ = re.compile( r"def\s+(\w+).*:" ) __python_func_regexp__ = re.compile( r"(\s+.*)|(^$)" ) __word__ = re.compile(r"\S+") __infunc__ = "" __inpython__ = False __body__ = [] __bbpath_found__ = 0 __classname__ = "" classes = [ None, ] def supports(fn, d): localfn = localpath(fn, d) return localfn[-3:] == ".bb" or localfn[-8:] == ".bbclass" or localfn[-4:] == ".inc" def inherit(files, d): __inherit_cache = data.getVar('__inherit_cache', d) or "" fn = "" lineno = 0 for f in files: file = data.expand(f, d) if file[0] != "/" and file[-8:] != ".bbclass": file = os.path.join('classes', '%s.bbclass' % file) if not file in __inherit_cache.split(): debug(2, "BB %s:%d: inheriting %s" % (fn, lineno, file)) __inherit_cache += " %s" % file include(fn, file, d) data.setVar('__inherit_cache', __inherit_cache, d) def handle(fn, d, include = 0): global __func_start_regexp__, __inherit_regexp__, __export_func_regexp__, __addtask_regexp__, __addhandler_regexp__, __infunc__, __body__, __bbpath_found__, __residue__ __body__ = [] __bbpath_found__ = 0 __infunc__ = "" __classname__ = "" __residue__ = [] if include == 0: debug(2, "BB " + fn + ": handle(data)") else: debug(2, "BB " + fn + ": handle(data, include)") (root, ext) = os.path.splitext(os.path.basename(fn)) init(d) if ext == ".bbclass": __classname__ = root classes.append(__classname__) if include != 0: oldfile = data.getVar('FILE', d) else: oldfile = None fn = obtain(fn, d) bbpath = (data.getVar('BBPATH', d, 1) or '').split(':') if not os.path.isabs(fn): f = None for p in bbpath: p = data.expand(p, d) j = os.path.join(p, fn) if os.access(j, os.R_OK): abs_fn = j f = open(j, 'r') break if f is None: raise IOError("file not found") else: f = open(fn,'r') abs_fn = fn if ext != ".bbclass": bbpath.insert(0, os.path.dirname(abs_fn)) data.setVar('BBPATH', ":".join(bbpath), d) if include: bb.parse.mark_dependency(d, abs_fn) if ext != ".bbclass": data.setVar('FILE', fn, d) i = (data.getVar("INHERIT", d, 1) or "").split() if not "base" in i and __classname__ != "base": i[0:0] = ["base"] inherit(i, d) lineno = 0 while 1: lineno = lineno + 1 s = f.readline() if not s: break s = s.rstrip() feeder(lineno, s, fn, d) if __inpython__: # add a blank line to close out any python definition feeder(lineno + 1, "", fn, d) if ext == ".bbclass": classes.remove(__classname__) else: if include == 0: data.expandKeys(d) data.update_data(d) anonqueue = data.getVar("__anonqueue", d, 1) or [] for anon in anonqueue: data.setVar("__anonfunc", anon["content"], d) data.setVarFlags("__anonfunc", anon["flags"], d) from bb import build try: t = data.getVar('T', d) data.setVar('T', '${TMPDIR}/', d) build.exec_func("__anonfunc", d) data.delVar('T', d) if t: data.setVar('T', t, d) except Exception, e: bb.debug(1, "executing anonymous function: %s" % e) raise data.delVar("__anonqueue", d) data.delVar("__anonfunc", d) set_additional_vars(fn, d, include) data.update_data(d) for var in data.keys(d): if data.getVarFlag(var, 'handler', d): bb.event.register(data.getVar(var, d)) continue if not data.getVarFlag(var, 'task', d): continue deps = data.getVarFlag(var, 'deps', d) or [] postdeps = data.getVarFlag(var, 'postdeps', d) or [] bb.build.add_task(var, deps, d) for p in postdeps: pdeps = data.getVarFlag(p, 'deps', d) or [] pdeps.append(var) data.setVarFlag(p, 'deps', pdeps, d) bb.build.add_task(p, pdeps, d) bbpath.pop(0) if oldfile: bb.data.setVar("FILE", oldfile, d) return d def feeder(lineno, s, fn, d): global __func_start_regexp__, __inherit_regexp__, __export_func_regexp__, __addtask_regexp__, __addhandler_regexp__, __def_regexp__, __python_func_regexp__, __inpython__,__infunc__, __body__, __bbpath_found__, classes, bb, __residue__ if __infunc__: if s == '}': __body__.append('') data.setVar(__infunc__, '\n'.join(__body__), d) data.setVarFlag(__infunc__, "func", 1, d) if __infunc__ == "__anonymous": anonqueue = bb.data.getVar("__anonqueue", d) or [] anonitem = {} anonitem["content"] = bb.data.getVar("__anonymous", d) anonitem["flags"] = bb.data.getVarFlags("__anonymous", d) anonqueue.append(anonitem) bb.data.setVar("__anonqueue", anonqueue, d) bb.data.delVarFlags("__anonymous", d) bb.data.delVar("__anonymous", d) __infunc__ = "" __body__ = [] else: __body__.append(s) return if __inpython__: m = __python_func_regexp__.match(s) if m: __body__.append(s) return else: text = '\n'.join(__body__) comp = compile(text, "", "exec") exec comp in __builtins__ __body__ = [] __inpython__ = False funcs = data.getVar('__functions__', d) or "" data.setVar('__functions__', "%s\n%s" % (funcs, text), d) # fall through if s == '' or s[0] == '#': return # skip comments and empty lines if s[-1] == '\\': __residue__.append(s[:-1]) return s = "".join(__residue__) + s __residue__ = [] m = __func_start_regexp__.match(s) if m: __infunc__ = m.group("func") or "__anonymous" key = __infunc__ if data.getVar(key, d): # clean up old version of this piece of metadata, as its # flags could cause problems data.setVarFlag(key, 'python', None, d) data.setVarFlag(key, 'fakeroot', None, d) if m.group("py") is not None: data.setVarFlag(key, "python", "1", d) else: data.delVarFlag(key, "python", d) if m.group("fr") is not None: data.setVarFlag(key, "fakeroot", "1", d) else: data.delVarFlag(key, "fakeroot", d) return m = __def_regexp__.match(s) if m: __body__.append(s) __inpython__ = True return m = __export_func_regexp__.match(s) if m: fns = m.group(1) n = __word__.findall(fns) for f in n: allvars = [] allvars.append(f) allvars.append(classes[-1] + "_" + f) vars = [[ allvars[0], allvars[1] ]] if len(classes) > 1 and classes[-2] is not None: allvars.append(classes[-2] + "_" + f) vars = [] vars.append([allvars[2], allvars[1]]) vars.append([allvars[0], allvars[2]]) for (var, calledvar) in vars: if data.getVar(var, d) and not data.getVarFlag(var, 'export_func', d): continue if data.getVar(var, d): data.setVarFlag(var, 'python', None, d) data.setVarFlag(var, 'func', None, d) for flag in [ "func", "python" ]: if data.getVarFlag(calledvar, flag, d): data.setVarFlag(var, flag, data.getVarFlag(calledvar, flag, d), d) for flag in [ "dirs" ]: if data.getVarFlag(var, flag, d): data.setVarFlag(calledvar, flag, data.getVarFlag(var, flag, d), d) if data.getVarFlag(calledvar, "python", d): data.setVar(var, "\tbb.build.exec_func('" + calledvar + "', d)\n", d) else: data.setVar(var, "\t" + calledvar + "\n", d) data.setVarFlag(var, 'export_func', '1', d) return m = __addtask_regexp__.match(s) if m: func = m.group("func") before = m.group("before") after = m.group("after") if func is None: return var = "do_" + func data.setVarFlag(var, "task", 1, d) if after is not None: # set up deps for function data.setVarFlag(var, "deps", after.split(), d) if before is not None: # set up things that depend on this func data.setVarFlag(var, "postdeps", before.split(), d) return m = __addhandler_regexp__.match(s) if m: fns = m.group(1) hs = __word__.findall(fns) for h in hs: data.setVarFlag(h, "handler", 1, d) return m = __inherit_regexp__.match(s) if m: files = m.group(1) n = __word__.findall(files) inherit(n, d) return from bb.parse import ConfHandler return ConfHandler.feeder(lineno, s, fn, d) __pkgsplit_cache__={} def vars_from_file(mypkg, d): if not mypkg: return (None, None, None) if mypkg in __pkgsplit_cache__: return __pkgsplit_cache__[mypkg] myfile = os.path.splitext(os.path.basename(mypkg)) parts = myfile[0].split('_') __pkgsplit_cache__[mypkg] = parts exp = 3 - len(parts) tmplist = [] while exp != 0: exp -= 1 tmplist.append(None) parts.extend(tmplist) return parts def set_additional_vars(file, d, include): """Deduce rest of variables, e.g. ${A} out of ${SRC_URI}""" debug(2,"BB %s: set_additional_vars" % file) src_uri = data.getVar('SRC_URI', d) if not src_uri: return src_uri = data.expand(src_uri, d) a = data.getVar('A', d) if a: a = data.expand(a, d).split() else: a = [] from bb import fetch try: fetch.init(src_uri.split(), d) except fetch.NoMethodError: pass except bb.MalformedUrl,e: raise ParseError("Unable to generate local paths for SRC_URI due to malformed uri: %s" % e) a += fetch.localpaths(d) del fetch data.setVar('A', " ".join(a), d) # Add us to the handlers list from bb.parse import handlers handlers.append({'supports': supports, 'handle': handle, 'init': init}) del handlers