import sys import os import re import string debug = 0 arch = '' ldscriptbase = '' payloadfile = '' makeoptions = {} makeexpressions = [] # Key is the rule name. Value is a mkrule object. makebaserules = {} # List of targets in the order defined by makerule commands. makerule_targets = {} treetop = '' target_dir = '' sources = {} objectrules = {} # make these a hash so they will be unique. driverrules = {} ldscripts = [] userdefines = [] curpart = 0 root = 0 globalvars = {} # We will globals here parts = {} options = {} # options in order defined. These will be unique due to use of hash # for options. options_by_order = [] crt0includes = [] partinstance = 0 curdir = '' dirstack = [] config_file_list = [] local_path = re.compile(r'^\.') # ----------------------------------------------------------------------------- # Error Handling # ----------------------------------------------------------------------------- class location: class place: def __init__(self, file, line, command): self.file = file self.line = line self.command = command def next_line(self, command): self.line = self.line + 1 self.command = command def at(self): return "%s:%d" % (self.file, self.line) def __init__ (self): self.stack = [] def file(self): return self.stack[-1].file def line(self): return self.stack[-1].line def command(self): return self.stack[-1].command def push_file(self, file): self.stack.append(self.place(file, 0, "")) def pop_file(self): self.stack.pop() def next_line(self, command): self.stack[-1].next_line(command) def at(self): return self.stack[-1].at() loc = location() class makerule: def __init__ (self, target): self.target = target self.dependency = [] self.actions = [] def addaction(self, action): self.actions.append(action) def adddependency(self, dependency): self.dependency.append(dependency) def gtarget(self): return self.target def gdependency(self): return self.dependency def gaction(self): return self.actions class option: def __init__ (self, name): self.name = name # name of option self.loc = 0 # current location self.value = 0 # option value self.set = 0 # option has been set self.used = 0 # option has been set self.default = 0 # option has default value (otherwise # it is undefined) self.comment = '' # description of option self.exportable = 0 # option is able to be exported self.exported = 0 # option is exported self.defined = 0 # option has a value self.format = '%s' # option print format def setvalue(self, value, loc): if (self.set): print "Option %s: " % self.name print "Attempt to set %s at %s" % (value, loc.at()) print "Already set to %s at %s" % \ (self.value, self.loc.at()) sys.exit(1) self.set = 1 self.value = value self.defined = 1 self.loc = loc def getvalue(self, part): global curpart if (not (type(self.value) is str)): return self.value if (self.value == '' or self.value[0] != '{'): return self.value # evaluate expression a = re.sub("^{", "", self.value) a = re.sub("}$", "", a) # save curpart so we can evaluate expression # in context of part s = curpart curpart = part v = parse('value', a) curpart = s return v def setdefault(self, value, loc): if (self.default): print "%s: " % self.name print "Attempt to default %s at %s" % (value, loc) print "Already defaulted to %s at %s" % \ (self.value, self.loc.at()) print "Warning only" if (self.set): print "%s: " % self.name print "Attempt to default %s at %s" % (value, loc) print "Already set to %s at %s" % \ (self.value, self.loc.at()) print "Warning only" return self.value = value self.defined = 1 self.default = 1 self.loc = loc def setnodefault(self, loc): self.default = 1 self.defined = 0 self.loc = loc def where(self): return self.loc def setcomment(self, value, loc): if (self.comment != ''): print "%s: " % self.name print "Attempt to modify comment at %s" % loc return self.comment = value def setexportable(self): self.exportable = 1 def setexported(self): self.exportable = 1 self.exported = 1 def setnoexport(self): self.exportable = 0 self.exported = 0 def setformat(self, fmt): self.format = fmt def getformat(self): return self.format def setused(self): if (self.exportable): self.exported = 1 self.used = 1 def isexported(self): return (self.exported and self.defined) def isdefined(self): return (self.defined) def isset(self): return (self.set) def isused(self): return (self.used) class partobj: def __init__ (self, dir, parent, type): global partinstance if (debug): print "partobj dir %s parent %s type %s" %(dir,parent,type) self.children = [] self.initcode = [] self.registercode = [] self.siblings = 0 self.type = type self.objects = [] self.dir = dir self.irq = 0 self.instance = partinstance + 1 partinstance = partinstance + 1 self.devfn = 0 self.private = 0 self.options = {} if (parent): if (debug): print "add to parent" self.parent = parent parent.children.append(self) else: self.parent = self def dumpme(self, lvl): print "%d: type %s" % (lvl, self.type) print "%d: dir %s" % (lvl,self.dir) print "%d: parent %s" % (lvl,self.parent.type) print "%d: parent dir %s" % (lvl,self.parent.dir) print "%d: initcode " % lvl for i in self.initcode: print " %s" % i print "%d: registercode " % lvl for i in self.registercode: print " %s" % i def gencode(self): print "struct cdev dev%d = {" % self.instance print "/* %s %s */" % (self.type, self.dir) print " .devfn = %d" % self.devfn if (self.siblings): print " .next = &dev%d" % self.sibling.instance if (self.children): print " .children = &dev%d" % \ self.children[0].instance if (self.private): print " .private = private%d" % self.instance print "};" def irq(self, irq): self.irq = irq def addinit(self, code): self.initcode.append(code) def addregister(self, code): self.registercode.append(code) def usesoption(self, name): o = getvalue(options, name) if (o == 0): fatal("Error: can't use undefined option %s" % name) o.setused() setvalue(self.options, name, o) if (debug): print "option %s used in %s" % (name, self) class partsstack: def __init__ (self): self.stack = [] def push(self, part): self.stack.append(part) def pop(self): return self.stack.pop() def tos(self): return self.stack[-1] pstack = partsstack() def fatal(string): global loc size = len(loc.stack) i = 0 while(i < size -1): print loc.stack[i].at() i = i + 1 print "%s: %s"% (loc.at(), string) sys.exit(1) def warning(string): global loc print "===> Warning:" size = len(loc.stack) i = 0 while(i < size -1): print loc.stack[i].at() i = i + 1 print "%s: %s"% (loc.at(), string) # ----------------------------------------------------------------------------- # statements # ----------------------------------------------------------------------------- def getvalue(dict, name): if name not in dict.keys(): if (debug >1): print 'Undefined:', name return 0 v = dict.get(name, 0) if (debug > 1): print "getvalue %s returning %s" % (name, v) return v def setvalue(dict, name, value): if name in dict.keys(): print "Warning, %s previously defined" % name if (debug > 1): print "setvalue sets %s to %s" % (name, value) dict[name] = value # options. # to create an option, it has to not exist. # When an option value is fetched, the fact that it was used is # remembered. # Legal things to do: # set a default value, then set a real value before the option is used. # set a value, try to set a default, default silently fails. # Illegal: # use the value, then try to set the value def newoption(name): o = getvalue(options, name) if (o): print "option %s already defined" % name sys.exit(1) o = option(name) setvalue(options, name, o) options_by_order.append(name) # option must be declared before being used in a part # if we're not processing a part, then we must # be at the top level where all options are available def getoption(name, part): global options if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o == 0 or not o.defined): fatal( "Error: Option %s Undefined." % name) v = o.getvalue(part) if (debug > 2): print "getoption returns %s" % v print "%s" % o.where() return v # setoptionstmt only allowed at top level def setoptionstmt(name, value): global curpart if (curpart != root): fatal("Error: options can only be set in target configuration file") setoption(name, value) def setoption(name, value): global loc o = getvalue(options, name) if (o == 0): fatal("Error: attempt set nonexistent option %s" % name) o.setvalue(value, loc) def setdefault(name, value): global loc o = getvalue(options, name) if (not o): return if (o.default): print "setdefault: attempt to duplicate default for %s" % name return o.setdefault(value, loc) def setnodefault(name): global loc o = getvalue(options, name) if (not o): return if (o.default): print "setdefault: attempt to duplicate default for %s" % name return o.setnodefault(loc) def setcomment(name, value): o = getvalue(options, name) if (not o): fatal("setcomment: %s not here" % name) o.setcomment(value, loc) def setexported(name): o = getvalue(options, name) if (not o): fatal("setexported: %s not here" % name) o.setexported() def setnoexport(name): o = getvalue(options, name) if (not o): fatal("setnoexport: %s not here" % name) o.setnoexport() def setexportable(name): o = getvalue(options, name) if (not o): fatal("setexportable: %s not here" % name) o.setexportable() def setformat(name, fmt): o = getvalue(options, name) if (not o): fatal("setformat: %s not here" % name) o.setformat(fmt) def getformated(name, part): global options if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o == 0 or not o.defined): fatal( "Error: Option %s Undefined." % name) v = o.getvalue(part) f = o.getformat() return (f % v) def isexported(name, part): if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o): return o.isexported() return 0 def isdefined(name, part): if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o): return o.isdefined() return 0 def isset(name, part): if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o): return o.isset() return 0 def isused(name, part): if (part): o = getvalue(part.options, name) else: o = getvalue(options, name) if (o): return o.isused() return 0 def usesoption(name): global curpart curpart.usesoption(name) def validdef(name, defval): o = getvalue(options, name) if (not o): fatal("validdef: %s not here" % name) if ((defval & 1) != 1): fatal("Error: must specify default value for option %s" % name) if ((defval & 2) != 2): fatal("Error: must specify export for option %s" % name) if ((defval & 4) != 4): fatal("Error: must specify comment for option %s" % name) def loadoptions(): global treetop optionsfile = os.path.join(treetop, 'src', 'config', 'Options.lb') loc.push_file(optionsfile) if (not parse('options', open(optionsfile, 'r').read())): fatal("Error: Could not parse file") loc.pop_file() # we do the crt0include as a dictionary, so that if needed we # can trace who added what when. Also it makes the keys # nice and unique. def addcrt0include(path): global crt0includes #fullpath = os.path.join(curdir, path) #fullpath = path #setvalue(crt0includes, fullpath, loc) # oh shoot. Order matters. All right, we'll worry about this # later. fullpath = path if (debug > 2): print "ADDCRT0: %s" % fullpath crt0includes.append(fullpath) def addldscript(path): global ldscripts if (path[0] == '/'): fullpath = treetop + '/src/' + path else: fullpath = curdir + '/' + path #fullpath = os.path.join(curdir, path) #setvalue(ldscripts, fullpath, loc) if (debug): print "fullpath :%s: curdir :%s: path :%s:" % (fullpath, curdir, path) ldscripts.append(fullpath) def payload(path): global payloadfile adduserdefine("PAYLOAD:=%s"%path) # addrule('payload') # adddep('payload', path) # addaction('payload', 'cp $< $@') # this is called with an an object name. # the easiest thing to do is add this object to the current # component. # such kludgery. If the name starts with '.' then make the # dependency be on ./thing.x gag me. def addobjectdriver(dict, object_name): suffix = object_name[-2:] if (suffix == '.o'): suffix = '.c' base = object_name[:-2] if (object_name[0] == '.'): source = base + suffix else: source = os.path.join(curdir, base + suffix) object = base + '.o' if (debug): print "add object %s source %s" % (object_name, source) setvalue(dict, base, [object, source]) def addobject(object_name): addobjectdriver(objectrules, object_name) def adddriver(driver_name): addobjectdriver(driverrules, driver_name) def target(targ_name): global target_dir global curpart global root print "Configuring TARGET %s" % targ_name target_dir = os.path.join(os.path.dirname(loc.file()), targ_name) if not os.path.isdir(target_dir): print "Creating directory %s" % target_dir os.makedirs(target_dir) print "Will place Makefile, crt0.S, etc. in %s" % target_dir root = partobj(target_dir, 0, 'board') curpart = root def part(name, path, file): global curpart,curdir,treetop dirstack.append(curdir) curdir = os.path.join(treetop, 'src', name, path) newpart = partobj(curdir, curpart, name) print "Configuring PART %s" % name if (debug): print "PUSH part %s %s" % (name, curpart.dir) pstack.push(curpart) curpart = newpart doconfigfile(curdir, file) def partpop(): global curpart,curdir print "End PART %s" % curpart.type # Warn if options are used without being set in this part for i in curpart.options.keys(): if (not isset(i, curpart)): print "WARNING: Option %s using default value %s" % (i, getformated(i, curpart)) curpart = pstack.pop() curdir = dirstack.pop() # dodir is like part but there is no new part def dodir(path, file): global curdir, treetop # if the first char is '/', it is relative to treetop, # else relative to curdir # os.path.join screws up if the name starts with '/', sigh. if (path[0] == '/'): fullpath = treetop + '/src/' + path else: fullpath = os.path.join(curdir, path) if (debug): print "DODIR: path %s, fullpath %s" % (path, fullpath) print "DODIR: curdis %s treetop %s" % (curdir, treetop) print "Configuring DIR %s" % os.path.join(path, file) dirstack.append(curdir) curdir = fullpath file = os.path.join(fullpath, file) config_file_list.append(path) doconfigfile(fullpath, file) curdir = dirstack.pop() def ternary(expr, yes, no): if (debug): print "ternary %s" % expr a = tohex(expr) # expr # eval(expr) if (debug): print "expr %s a %d yes %d no %d"% (expr, a, yes, no) if (a == 0): if (debug): print "Ternary returns %d" % yes return yes else: if (debug): print "Ternary returns %d" % no return no # atoi is in the python library, but not strtol? Weird! def tohex(name): return eval('int(%s)' % name) def IsInt( str ): """ Is the given string an integer?""" try: num = int(str) return 1 except ValueError: return 0 def addrule(id): o = makerule(id) setvalue(makebaserules, id, o) def adduserdefine(str): userdefines.append(str) def dequote(str): a = re.sub("^\"", "", str) a = re.sub("\"$", "", a) # highly un-intuitive, need four \! a = re.sub("\\\\\"", "\"", a) return a def addaction(id, str): o = getvalue(makebaserules, id) a = dequote(str) o.addaction(a) def adddep(id, str): o = getvalue(makebaserules, id) a = dequote(str) o.adddependency(a) # If the first part of matches treetop, replace that part with "$(TOP)" def topify(path): global treetop if path[0:len(treetop)] == treetop: path = path[len(treetop):len(path)] if (path[0:1] == "/"): path = path[1:len(path)] path = "$(TOP)/" + path return path # arch is 'different' ... darn it. def set_arch(my_arch): global arch global curdir arch = my_arch setoption('ARCH', my_arch) part('arch', my_arch, 'config/make.base.lb') def mainboard(path): global mainboard_dir, treetop mainboard_dir = path full_mainboard_dir = os.path.join(treetop, 'src/mainboard', path) setoption('MAINBOARD', full_mainboard_dir) vendor = re.sub("/.*", "", path) mainboard_part_number = re.sub("[^/]/", "", path) setoption('MAINBOARD_VENDOR', vendor) setoption('MAINBOARD_PART_NUMBER', mainboard_part_number) part('mainboard', path, 'Config.lb') #============================================================================= # FILE OUTPUT #============================================================================= def writemakefileheader(file, fname): file.write("# File: %s\n" % fname) file.write("# This file was generated by '%s %s %s'\n\n" % (sys.argv[0], sys.argv[1], sys.argv[2])) def writemakefilesettings(path): global treetop, arch, mainboard_dir, target_dir, options_by_order, root # Write Makefile.settings to seperate the settings # from the actual makefile creation # In practice you need to rerun NLBConfig.py to change # these but in theory you shouldn't need to. filename = os.path.join(path, "Makefile.settings") print "Creating", filename file = open(filename, 'w+') writemakefileheader(file, filename) file.write("TOP:=%s\n" % (treetop)) #file.write("ARCH:=%s\n" % (arch)) #file.write("MAINBOARD:=%s\n" % (mainboard_dir)) file.write("TARGET_DIR:=%s\n" % (target_dir)) for i in options_by_order: if (isexported(i, 0)): file.write("export %s:=%s\n" % (i, getformated(i, 0))) file.write("export VARIABLES := ") for i in options.keys(): if (isexported(i, 0)): file.write("%s " % i) file.write("\n") # file.write("CPUFLAGS := ") # for i in options.keys(): # o = options[i] # file.write("-D%s=%s " % (i, o.getvalue())) # file.write("\n") file.close() # write the makefile # let's try the Makefile # first, dump all the -D stuff def writemakefile(path): global root makefilepath = os.path.join(path, "Makefile") print "Creating", makefilepath file = open(makefilepath, 'w+') writemakefileheader(file, makefilepath) # file.write("include Makefile.settings\n") # file.write("include cpuflags\n") # Putting "include cpuflags" in the Makefile has the problem that the # cpuflags file would be generated _after_ we want to include it. # Instead, let make do the work of computing CPUFLAGS: file.write("""\ # Get the value of TOP, VARIABLES, and several other variables. include Makefile.settings # Function to create an item like -Di586 or -DMAX_CPUS='1' or -Ui686 D_item = $(if $(subst undefined,,$(origin $1)),-D$1$(if $($1),='$($1)',),-U$1) # Compute the value of CPUFLAGS here during make's first pass. CPUFLAGS := $(foreach _var_,$(VARIABLES),$(call D_item,$(_var_))) """) for i in userdefines: file.write("%s\n" %i) file.write("\n") # print out all the object dependencies file.write("\n# object dependencies (objectrules:)\n") file.write("OBJECTS :=\n") file.write("DRIVERS :=\n") for objrule in objectrules.keys(): obj = objectrules[objrule] obj_name = obj[0] obj_source = obj[1] file.write("OBJECTS-1 += %s\n" % (obj_name)) for driverrule in driverrules.keys(): driver = driverrules[driverrule] obj_name = driver[0] obj_source = driver[1] file.write("DRIVER += %s\n" % (obj_name)) # Print out all ldscript.ld dependencies. file.write("\n# ldscript.ld dependencies:\n") file.write("LDSUBSCRIPTS-1 := \n" ) for script in ldscripts: file.write("LDSUBSCRIPTS-1 += %s\n" % topify(script)) # Print out the dependencies for crt0_includes.h file.write("\n# Dependencies for crt0_includes.h\n") file.write("CRT0_INCLUDES:=\n") for i in crt0includes: if (local_path.match(i)): file.write("CRT0_INCLUDES += %s\n" % i) else: file.write("CRT0_INCLUDES += $(TOP)/src/%s\n" % i) file.write("\nSOURCES=\n") #for source in sources: #file.write("SOURCES += %s\n" % source) # Print out the user defines. file.write("\n# userdefines:\n") #for udef in userdefines: #file.write("%s\n" % udef) # Print out the base rules. # Need to have a rule that counts on 'all'. file.write("\n# mainrulelist:") #file.write("\nmainrule: %s\n" % mainrulelist) # Print out any user rules. file.write("\n# From makerule or docipl commands:\n") # Old way (hash order): for target in makebaserules.keys(): # New way (config file order): #for target in makerule_targets: #makebaserules[target].write(file) file.write("\n# objectrules:\n") for objrule in objectrules.keys(): obj = objectrules[objrule] source = topify(obj[1]) file.write("%s: %s\n" % (obj[0], source)) file.write("\t$(CC) -c $(CFLAGS) -o $@ $<\n") #file.write("%s\n" % objrule[2]) for driverrule in driverrules.keys(): driver = driverrules[driverrule] source = topify(driver[1]) file.write("%s: %s\n" % (driver[0], source)) #file.write("%s\n" % objrule[2]) # Print out the rules that will make cause the files # generated by NLBConfig.py to be remade if any dependencies change. file.write("\n# Remember the automatically generated files\n") file.write("GENERATED:=\n") for genfile in [ 'Makefile', 'Makefile.settings', 'crt0_includes.h', 'nsuperio.c', 'chip.c', 'LinuxBIOSDoc.config' ]: file.write("GENERATED += %s\n" % genfile) file.write("\n# Remake Makefile (and the other files generated by\n") file.write("# NLBConfig.py) if any config dependencies change.\n") for cfile in config_file_list: file.write("$(GENERATED): %s\n" % topify(cfile)) for depfile in [ '%s' % top_config_file, # This a duplicate, remove? '$(TOP)/util/config/NLBConfig.py', '$(TOP)/src/arch/$(ARCH)/config/make.base' ]: file.write("$(GENERATED): %s\n" % depfile) file.write("$(GENERATED):\n") file.write("\tpython $(TOP)/util/config/NLBConfig.py %s $(TOP)\n" % top_config_file) keys = root.options.keys() keys.sort() file.write("\necho:\n") for key in keys: file.write("\t@echo %s='$(%s)'\n"% (key,key)) for i in makebaserules.keys(): m = makebaserules[i] file.write("%s: " %i) for i in m.dependency: file.write("%s " % i) file.write("\n") for i in m.actions: file.write("\t%s\n" % i) file.close() # Write out crt0_includes.h (top-level assembly language) include file. def writecrt0_includes(path): crt0filepath = os.path.join(path, "crt0_includes.h") print "Creating", crt0filepath file = open(crt0filepath, 'w+') for i in crt0includes: file.write("#include <%s>\n" % i) file.close() %% parser Config: ignore: r'\s+' ignore: "#.*?\r?\n" # less general tokens should come first, otherwise they get matched # by the re's token ACT: 'act' token ADDACTION: 'addaction' token ALWAYS: 'always' token ARCH: 'arch' token COMMENT: 'comment' token CPU: 'cpu' token DEFAULT: 'default' token DEFINE: 'define' token DEP: 'dep' token DIR: 'dir' token DRIVER: 'driver' token END: '$|end' token EQ: '=' token EXPORT: 'export' token FORMAT: 'format' token IF: 'if' token INIT: 'init' token LDSCRIPT: 'ldscript' token LOADOPTIONS: 'loadoptions' token MAINBOARD: 'mainboard' token MAINBOARDINIT: 'mainboardinit' token MAKEDEFINE: 'makedefine' token MAKERULE: 'makerule' token NEVER: 'never' token NONE: 'none' token NORTHBRIDGE: 'northbridge' token OBJECT: 'object' token OPTION: 'option' token PAYLOAD: 'payload' token PMC: 'pmc' token REGISTER: 'register' token SOUTHBRIDGE: 'southbridge' token SUPERIO: 'superio' token TARGET: 'target' token USED: 'used' token USES: 'uses' token NUM: r'[0-9]+' token XNUM: r'0x[0-9a-fA-F]+' # Why is path separate? Because paths to resources have to at least # have a slash, we thinks token PATH: r'[a-zA-Z0-9_.][a-zA-Z0-9/_.]+[a-zA-Z0-9_.]+' # Dir's on the other hand are abitrary # this may all be stupid. token DIRPATH: r'[a-zA-Z0-9_$()./]+' token ID: r'[a-zA-Z_.]+[a-zA-Z0-9_.]*' token DELEXPR: r'{([^}]+|\\.)*}' token STR: r'"([^\\"]+|\\.)*"' token RAWTEXT: r'.*' rule expr<>: logical<> {{ l = logical }} ( "&&" logical<> {{ l = l and logical }} | "||" logical<> {{ l = l or logical }} )* {{ return l }} rule logical<>: factor<> {{ n = factor }} ( "[+]" factor<> {{ n = n+factor }} | "-" factor<> {{ n = n-factor }} )* {{ return n }} rule factor<>: term<> {{ v = term }} ( "[*]" term<> {{ v = v*term }} | "/" term<> {{ v = v/term }} | "<<" term<> {{ v = v << term }} | ">=" term<> {{ v = (v < term)}} )* {{ return v }} rule unop<>: "!" ID {{ return ternary(getoption(ID, curpart), 1, 0)}} # A term is a number, variable, or an expression surrounded by parentheses rule term<>: NUM {{ return atoi(NUM) }} | XNUM {{ return tohex(XNUM) }} | ID {{ return tohex(getoption(ID, curpart)) }} | unop<> {{ return unop }} | "\\(" expr<> "\\)" {{ return expr }} rule partend<>: (stmt<>)* END {{ partpop()}} rule mainboard: MAINBOARD PATH {{ mainboard(PATH) }} partend<<1>> rule northbridge<>: NORTHBRIDGE PATH {{ if (C): part('northbridge', PATH, 'Config.lb') }} partend<> rule superio<>: SUPERIO PATH {{ if (C): part('superio', PATH, 'Config.lb') }} partend<> rule cpu<>: CPU ID {{ if (C): part('cpu', ID, 'Config.lb') }} partend<> rule pmc<>: PMC PATH {{ if (C): part('pmc', PATH, 'Config.lb') }} partend<> rule arch<>: ARCH ID {{ if (C): set_arch(ID) }} partend<> rule southbridge<>: SOUTHBRIDGE PATH {{ if (C): part('southbridge', PATH, 'Config.lb')}} partend<> rule mainboardinit<>: MAINBOARDINIT DIRPATH {{ if (C): addcrt0include(DIRPATH)}} rule object<>: OBJECT DIRPATH {{ if (C): addobject(DIRPATH)}} rule driver<>: DRIVER DIRPATH {{ if (C): adddriver(DIRPATH)}} rule dir<>: DIR DIRPATH {{ if (C): dodir(DIRPATH, 'Config.lb') }} rule ldscript<>: LDSCRIPT DIRPATH {{ if (C): addldscript(DIRPATH) }} rule payload<>: PAYLOAD DIRPATH {{ if (C): payload(DIRPATH) }} # if is a bad id .... # needs to be C and ID, but nested if's are, we hope, not going to # happen. IF so, possibly ID && C could be used. rule iif<>: IF ID {{ c = tohex(getoption(ID, curpart)) }} (stmt<>)* END rule depsacts<>: ( DEP STR {{ if (C): adddep(ID, STR) }} | ACT STR {{ if (C): addaction(ID, STR) }} )* rule makerule<>: MAKERULE DIRPATH {{ if (C): addrule(DIRPATH) }} depsacts<> rule makedefine<>: MAKEDEFINE RAWTEXT {{ if (C): adduserdefine(RAWTEXT) }} rule addaction<>: ADDACTION ID STR {{ if (C): addaction(ID, STR) }} rule init<>: INIT STR {{ if (C): curpart.addinit(STR) }} rule register<>: REGISTER STR {{ if (C): curpart.addregister(STR) }} # to make if work without 2 passses, we use an old hack from SIMD, the # context bit. If the bit is 1, then ops get done, otherwise # ops don't get done. From the top level, context is always # 1. In an if, context depends on eval of the if condition rule stmt<>: cpu<> {{ return cpu}} | pmc<> {{ return pmc}} | arch<> {{ return arch}} | northbridge<> {{ return northbridge }} | southbridge<> {{ return southbridge }} | superio<> {{ return superio }} | object<> {{ return object }} | driver<> {{ return driver }} | mainboardinit<> {{ return mainboardinit }} | makerule<> {{ return makerule }} | makedefine<> {{ return makedefine }} | addaction<> {{ return addaction }} | init<> {{ return init }} | register<> {{ return register}} | iif<> {{ return iif }} | dir<> {{ return dir}} | ldscript<> {{ return ldscript}} | payload<> {{ return payload}} # ENTRY for parsing Config.lb file rule cfgfile: (uses<<1>>)* (stmt<<1>>)* {{ return 1 }} rule usesid<>: ID {{ if (C): usesoption(ID) }} rule uses<>: USES (usesid<>)+ # ENTRY for parsing a value rule value: STR {{ return dequote(STR) }} | term<<[]>> {{ return term }} | DELEXPR {{ return DELEXPR }} rule option: OPTION ID EQ value {{ setoptionstmt(ID, value) }} # ENTRY for parsing root part rule board: LOADOPTIONS {{ loadoptions() }} TARGET DIRPATH {{ target(DIRPATH) }} (uses<<1>>)* (option)* mainboard {{ return 1 }} rule defstmts<>: {{ d = 0 }} ( DEFAULT ( value {{ setdefault(ID, value) }} | NONE {{ setnodefault(ID) }} ) {{ d = d | 1 }} | FORMAT STR {{ setformat(ID, dequote(STR)) }} | EXPORT ( ALWAYS {{ setexported(ID) }} | USED {{ setexportable(ID) }} | NEVER {{ setnoexport(ID) }} ) {{ d = d | 2 }} | COMMENT STR {{ setcomment(ID, dequote(STR)); d = d | 4 }} )+ {{ return d }} rule define: DEFINE ID {{ newoption(ID) }} defstmts<> END {{ validdef(ID, defstmts) }} # ENTRY for parsing Options.lb file rule options: (define)* END {{ return 1 }} %% def dumptree(part, lvl): if (debug): print "DUMPTREE ME is" part.dumpme(lvl) # dump the siblings -- actually are there any? not sure # dump the kids if (debug): print "DUMPTREE KIDS are" for kid in part.children: dumptree(kid, lvl+1) if (debug): print "DONE DUMPTREE" def gencode(part): if (debug): print "GENCODE ME is" if (debug): part.gencode() # dump the siblings -- actually are there any? not sure # dump the kids if (debug): print "GENCODE KIDS are" for kid in part.children: gencode(kid) if (debug): print "DONE GENCODE" def doconfigfile(path, file): filename = os.path.join(path, file) loc.push_file(filename) if (not parse('cfgfile', open(filename, 'r').read())): fatal("Error: Could not parse file") if __name__=='__main__': from sys import argv if (len(argv) < 3): print 'Args: ' sys.exit(1) top_config_file = os.path.abspath(sys.argv[1]) treetop = os.path.abspath(sys.argv[2]) # Now read in the customizing script... loc.push_file(argv[1]) if (not parse('board', open(argv[1], 'r').read())): fatal("Error: Could not parse file") if (debug): print "DEVICE TREE:" dumptree(root, 0) gencode(root) # crt0 includes if (debug): for i in crt0includes: print "crt0include file %s" % (i) for i in driverrules.keys(): print "driver file %s" % (i) for i in ldscripts: print "ldscript file %s" % (i) for i in makebaserules.keys(): m = makebaserules[i] print " makerule %s dep %s act %s" % (i, m.dependency, m.actions) writemakefilesettings(target_dir) writecrt0_includes(target_dir) writemakefile(target_dir)