#!/usr/bin/python3 import xml.parsers.expat import sys import os class Error(Exception): def __init__(self, message): self.message = message class Enum(object): def __init__(self, name): self.name = name self.values = [] def dump(self): prev = 0 use_hex = False for (name, value) in self.values: if value > 0x1000: use_hex = True print("enum %s {" % self.name) for (name, value) in self.values: if use_hex: print("\t%s = 0x%08x," % (name, value)) else: print("\t%s = %d," % (name, value)) print("};\n") def dump_pack_struct(self): pass class Field(object): def __init__(self, name, low, high, shr, type, parser): self.name = name self.low = low self.high = high self.shr = shr self.type = type builtin_types = [ None, "a3xx_regid", "boolean", "uint", "hex", "int", "fixed", "ufixed", "float", "address", "waddress" ] if low < 0 or low > 31: raise parser.error("low attribute out of range: %d" % low) if high < 0 or high > 31: raise parser.error("high attribute out of range: %d" % high) if high < low: raise parser.error("low is greater than high: low=%d, high=%d" % (low, high)) if self.type == "boolean" and not low == high: raise parser.error("booleans should be 1 bit fields"); elif self.type == "float" and not (high - low == 31 or high - low == 15): raise parser.error("floats should be 16 or 32 bit fields") elif not self.type in builtin_types and not self.type in parser.enums: raise parser.error("unknown type '%s'" % self.type); def ctype(self, var_name): if self.type == None: type = "uint32_t" val = var_name elif self.type == "boolean": type = "bool" val = var_name elif self.type == "uint" or self.type == "hex" or self.type == "a3xx_regid": type = "uint32_t" val = var_name elif self.type == "int": type = "int32_t" val = var_name elif self.type == "fixed": type = "float" val = "((int32_t)(%s * %d.0))" % (var_name, 1 << self.radix) elif self.type == "ufixed": type = "float" val = "((uint32_t)(%s * %d.0))" % (var_name, 1 << self.radix) elif self.type == "float" and self.high - self.low == 31: type = "float" val = "fui(%s)" % var_name elif self.type == "float" and self.high - self.low == 15: type = "float" val = "util_float_to_half(%s)" % var_name elif self.type in [ "address", "waddress" ]: type = "uint64_t" val = var_name else: type = "enum %s" % self.type val = var_name if self.shr > 0: val = "(%s >> %d)" % (val, self.shr) return (type, val) def tab_to(name, value): tab_count = (68 - (len(name) & ~7)) // 8 if tab_count == 0: tab_count = 1 print(name + ('\t' * tab_count) + value) def mask(low, high): return ((0xffffffff >> (32 - (high + 1 - low))) << low) class Bitset(object): def __init__(self, name, template): self.name = name self.inline = False if template: self.fields = template.fields else: self.fields = [] def dump_pack_struct(self, prefix=None, array=None): def field_name(prefix, name): if f.name: name = f.name.lower() else: name = prefix.lower() if (name in [ "double", "float", "int" ]) or not (name[0].isalpha()): name = "_" + name return name if not prefix: return if prefix == None: prefix = self.name print("struct %s {" % prefix) for f in self.fields: if f.type in [ "address", "waddress" ]: tab_to(" __bo_type", "bo;") tab_to(" uint32_t", "bo_offset;") continue name = field_name(prefix, f.name) type, val = f.ctype("var") tab_to(" %s" % type, "%s;" % name) tab_to(" uint32_t", "unknown;") tab_to(" uint32_t", "dword;") print("};\n") address = None; for f in self.fields: if f.type in [ "address", "waddress" ]: address = f if array: print("static inline struct fd_reg_pair\npack_%s(uint32_t i, struct %s fields)\n{" % (prefix, prefix)); else: print("static inline struct fd_reg_pair\npack_%s(struct %s fields)\n{" % (prefix, prefix)); print("#ifndef NDEBUG") known_mask = 0 for f in self.fields: known_mask |= mask(f.low, f.high) if f.type in [ "boolean", "address", "waddress" ]: continue type, val = f.ctype("fields.%s" % field_name(prefix, f.name)) print(" assert((%-40s & 0x%08x) == 0);" % (val, 0xffffffff ^ mask(0 , f.high - f.low))) print(" assert((%-40s & 0x%08x) == 0);" % ("fields.unknown", known_mask)) print("#endif\n") print(" return (struct fd_reg_pair) {") if array: print(" .reg = REG_%s(i)," % prefix) else: print(" .reg = REG_%s," % prefix) print(" .value =") for f in self.fields: if f.type in [ "address", "waddress" ]: continue else: type, val = f.ctype("fields.%s" % field_name(prefix, f.name)) print(" (%-40s << %2d) |" % (val, f.low)) print(" fields.unknown | fields.dword,") if address: print(" .is_address = true,") print(" .bo = fields.bo,") if f.type == "waddress": print(" .bo_write = true,") print(" .bo_offset = fields.bo_offset,") print(" .bo_shift = %d" % address.shr) print(" };\n}\n") if address: skip = ", { .reg = 0 }" else: skip = "" if array: print("#define %s(i, ...) pack_%s(i, (struct %s) { __VA_ARGS__ })%s\n" % (prefix, prefix, prefix, skip)) else: print("#define %s(...) pack_%s((struct %s) { __VA_ARGS__ })%s\n" % (prefix, prefix, prefix, skip)) def dump(self, prefix=None): if prefix == None: prefix = self.name for f in self.fields: if f.name: name = prefix + "_" + f.name else: name = prefix if not f.name and f.low == 0 and f.shr == 0 and not f.type in ["float", "fixed", "ufixed"]: pass elif f.type == "boolean" or (f.type == None and f.low == f.high): tab_to("#define %s" % name, "0x%08x" % (1 << f.low)) else: tab_to("#define %s__MASK" % name, "0x%08x" % mask(f.low, f.high)) tab_to("#define %s__SHIFT" % name, "%d" % f.low) type, val = f.ctype("val") print("static inline uint32_t %s(%s val)\n{" % (name, type)) if f.shr > 0: print("\tassert(!(val & 0x%x));" % mask(0, f.shr - 1)) print("\treturn ((%s) << %s__SHIFT) & %s__MASK;\n}" % (val, name, name)) print() class Array(object): def __init__(self, attrs, domain): self.name = attrs["name"] self.domain = domain self.offset = int(attrs["offset"], 0) self.stride = int(attrs["stride"], 0) self.length = int(attrs["length"], 0) def dump(self): print("static inline uint32_t REG_%s_%s(uint32_t i0) { return 0x%08x + 0x%x*i0; }\n" % (self.domain, self.name, self.offset, self.stride)) def dump_pack_struct(self): pass class Reg(object): def __init__(self, attrs, domain, array, bit_size): self.name = attrs["name"] self.domain = domain self.array = array self.offset = int(attrs["offset"], 0) self.type = None self.bit_size = bit_size if self.array: self.full_name = self.domain + "_" + self.array.name + "_" + self.name else: self.full_name = self.domain + "_" + self.name def dump(self): if self.array: offset = self.array.offset + self.offset print("static inline uint32_t REG_%s(uint32_t i0) { return 0x%08x + 0x%x*i0; }" % (self.full_name, offset, self.array.stride)) else: tab_to("#define REG_%s" % self.full_name, "0x%08x" % self.offset) if self.bitset.inline: self.bitset.dump(self.full_name) print("") def dump_pack_struct(self): if self.bitset.inline: self.bitset.dump_pack_struct(self.full_name, not self.array == None) def parse_variants(attrs): if not "variants" in attrs: return None variant = attrs["variants"].split(",")[0] if "-" in variant: variant = variant[:variant.index("-")] return variant class Parser(object): def __init__(self): self.current_array = None self.current_domain = None self.current_prefix = None self.current_stripe = None self.current_bitset = None self.bitsets = {} self.enums = {} self.file = [] def error(self, message): parser, filename = self.stack[-1] return Error("%s:%d:%d: %s" % (filename, parser.CurrentLineNumber, parser.CurrentColumnNumber, message)) def prefix(self): if self.current_stripe: return self.current_stripe + "_" + self.current_domain elif self.current_prefix: return self.current_prefix + "_" + self.current_domain else: return self.current_domain def parse_field(self, name, attrs): try: if "pos" in attrs: high = low = int(attrs["pos"], 0) elif "high" in attrs and "low" in attrs: high = int(attrs["high"], 0) low = int(attrs["low"], 0) else: low = 0 high = 31 if "type" in attrs: type = attrs["type"] else: type = None if "shr" in attrs: shr = int(attrs["shr"], 0) else: shr = 0 b = Field(name, low, high, shr, type, self) if type == "fixed" or type == "ufixed": b.radix = int(attrs["radix"], 0) self.current_bitset.fields.append(b) except ValueError as e: raise self.error(e); def do_parse(self, filename): file = open(filename, "rb") parser = xml.parsers.expat.ParserCreate() self.stack.append((parser, filename)) parser.StartElementHandler = self.start_element parser.EndElementHandler = self.end_element parser.ParseFile(file) self.stack.pop() file.close() def parse(self, filename): self.path = os.path.dirname(filename) self.stack = [] self.do_parse(filename) def parse_reg(self, attrs, bit_size): if "type" in attrs and attrs["type"] in self.bitsets: self.current_bitset = self.bitsets[attrs["type"]] else: self.current_bitset = Bitset(attrs["name"], None) self.current_bitset.inline = True if "type" in attrs: self.parse_field(None, attrs) self.current_reg = Reg(attrs, self.prefix(), self.current_array, bit_size) self.current_reg.bitset = self.current_bitset if len(self.stack) == 1: self.file.append(self.current_reg) def start_element(self, name, attrs): if name == "import": filename = os.path.basename(attrs["file"]) self.do_parse(os.path.join(self.path, filename)) elif name == "domain": self.current_domain = attrs["name"] if "prefix" in attrs and attrs["prefix"] == "chip": self.current_prefix = parse_variants(attrs) elif name == "stripe": self.current_stripe = parse_variants(attrs) elif name == "enum": self.current_enum_value = 0 self.current_enum = Enum(attrs["name"]) self.enums[attrs["name"]] = self.current_enum if len(self.stack) == 1: self.file.append(self.current_enum) elif name == "value": if "value" in attrs: value = int(attrs["value"], 0) else: value = self.current_enum_value self.current_enum.values.append((attrs["name"], value)) # self.current_enum_value = value + 1 elif name == "reg32": self.parse_reg(attrs, 32) elif name == "reg64": self.parse_reg(attrs, 64) elif name == "array": self.current_array = Array(attrs, self.prefix()) if len(self.stack) == 1: self.file.append(self.current_array) elif name == "bitset": self.current_bitset = Bitset(attrs["name"], None) if "inline" in attrs and attrs["inline"] == "yes": self.current_bitset.inline = True self.bitsets[self.current_bitset.name] = self.current_bitset if len(self.stack) == 1 and not self.current_bitset.inline: self.file.append(self.current_bitset) elif name == "bitfield" and self.current_bitset: self.parse_field(attrs["name"], attrs) def end_element(self, name): if name == "domain": self.current_domain = None self.current_prefix = None elif name == "stripe": self.current_stripe = None elif name == "bitset": self.current_bitset = None elif name == "reg32": self.current_reg = None elif name == "array": self.current_array = None; elif name == "enum": self.current_enum = None def dump(self): enums = [] bitsets = [] regs = [] for e in self.file: if isinstance(e, Enum): enums.append(e) elif isinstance(e, Bitset): bitsets.append(e) else: regs.append(e) for e in enums + bitsets + regs: e.dump() def dump_structs(self): for e in self.file: e.dump_pack_struct() def main(): p = Parser() xml_file = sys.argv[1] if len(sys.argv) > 2 and sys.argv[2] == '--pack-structs': do_structs = True guard = str.replace(os.path.basename(xml_file), '.', '_').upper() + '_STRUCTS' else: do_structs = False guard = str.replace(os.path.basename(xml_file), '.', '_').upper() print("#ifndef %s\n#define %s\n" % (guard, guard)) try: p.parse(xml_file) except Error as e: print(e) exit(1) if do_structs: p.dump_structs() else: p.dump() print("\n#endif /* %s */" % guard) if __name__ == '__main__': main()