#!/usr/bin/env python3 import glob import json import os import argparse ARG_TYPES = { "string": "ARG_TYPE_STRING", "integer": "ARG_TYPE_INTEGER", "double": "ARG_TYPE_DOUBLE", "key": "ARG_TYPE_KEY", "pattern": "ARG_TYPE_PATTERN", "unix-time": "ARG_TYPE_UNIX_TIME", "pure-token": "ARG_TYPE_PURE_TOKEN", "oneof": "ARG_TYPE_ONEOF", "block": "ARG_TYPE_BLOCK", } GROUPS = { "generic": "COMMAND_GROUP_GENERIC", "string": "COMMAND_GROUP_STRING", "list": "COMMAND_GROUP_LIST", "set": "COMMAND_GROUP_SET", "sorted_set": "COMMAND_GROUP_SORTED_SET", "hash": "COMMAND_GROUP_HASH", "pubsub": "COMMAND_GROUP_PUBSUB", "transactions": "COMMAND_GROUP_TRANSACTIONS", "connection": "COMMAND_GROUP_CONNECTION", "server": "COMMAND_GROUP_SERVER", "scripting": "COMMAND_GROUP_SCRIPTING", "hyperloglog": "COMMAND_GROUP_HYPERLOGLOG", "cluster": "COMMAND_GROUP_CLUSTER", "sentinel": "COMMAND_GROUP_SENTINEL", "geo": "COMMAND_GROUP_GEO", "stream": "COMMAND_GROUP_STREAM", "bitmap": "COMMAND_GROUP_BITMAP", } def get_optional_desc_string(desc, field, force_uppercase=False): v = desc.get(field, None) if v and force_uppercase: v = v.upper() ret = "\"%s\"" % v if v else "NULL" return ret.replace("\n", "\\n") def check_command_args_key_specs(args, command_key_specs_index_set, command_arg_key_specs_index_set): if not args: return True for arg in args: if arg.key_spec_index is not None: assert isinstance(arg.key_spec_index, int) if arg.key_spec_index not in command_key_specs_index_set: print("command: %s arg: %s key_spec_index error" % (command.fullname(), arg.name)) return False command_arg_key_specs_index_set.add(arg.key_spec_index) if not check_command_args_key_specs(arg.subargs, command_key_specs_index_set, command_arg_key_specs_index_set): return False return True def check_command_key_specs(command): if not command.key_specs: return True assert isinstance(command.key_specs, list) for cmd_key_spec in command.key_specs: if "flags" not in cmd_key_spec: print("command: %s key_specs missing flags" % command.fullname()) return False if "NOT_KEY" in cmd_key_spec["flags"]: # Like SUNSUBSCRIBE / SPUBLISH / SSUBSCRIBE return True command_key_specs_index_set = set(range(len(command.key_specs))) command_arg_key_specs_index_set = set() # Collect key_spec used for each arg, including arg.subarg if not check_command_args_key_specs(command.args, command_key_specs_index_set, command_arg_key_specs_index_set): return False # Check if we have key_specs not used if command_key_specs_index_set != command_arg_key_specs_index_set: print("command: %s may have unused key_spec" % command.fullname()) return False return True # Globals subcommands = {} # container_name -> dict(subcommand_name -> Subcommand) - Only subcommands commands = {} # command_name -> Command - Only commands class KeySpec(object): def __init__(self, spec): self.spec = spec def struct_code(self): def _flags_code(): s = "" for flag in self.spec.get("flags", []): s += "CMD_KEY_%s|" % flag return s[:-1] if s else 0 def _begin_search_code(): if self.spec["begin_search"].get("index"): return "KSPEC_BS_INDEX,.bs.index={%d}" % ( self.spec["begin_search"]["index"]["pos"] ) elif self.spec["begin_search"].get("keyword"): return "KSPEC_BS_KEYWORD,.bs.keyword={\"%s\",%d}" % ( self.spec["begin_search"]["keyword"]["keyword"], self.spec["begin_search"]["keyword"]["startfrom"], ) elif "unknown" in self.spec["begin_search"]: return "KSPEC_BS_UNKNOWN,{{0}}" else: print("Invalid begin_search! value=%s" % self.spec["begin_search"]) exit(1) def _find_keys_code(): if self.spec["find_keys"].get("range"): return "KSPEC_FK_RANGE,.fk.range={%d,%d,%d}" % ( self.spec["find_keys"]["range"]["lastkey"], self.spec["find_keys"]["range"]["step"], self.spec["find_keys"]["range"]["limit"] ) elif self.spec["find_keys"].get("keynum"): return "KSPEC_FK_KEYNUM,.fk.keynum={%d,%d,%d}" % ( self.spec["find_keys"]["keynum"]["keynumidx"], self.spec["find_keys"]["keynum"]["firstkey"], self.spec["find_keys"]["keynum"]["step"] ) elif "unknown" in self.spec["find_keys"]: return "KSPEC_FK_UNKNOWN,{{0}}" else: print("Invalid find_keys! value=%s" % self.spec["find_keys"]) exit(1) return "%s,%s,%s,%s" % ( get_optional_desc_string(self.spec, "notes"), _flags_code(), _begin_search_code(), _find_keys_code() ) def verify_no_dup_names(container_fullname, args): name_list = [arg.name for arg in args] name_set = set(name_list) if len(name_list) != len(name_set): print("{}: Dup argument names: {}".format(container_fullname, name_list)) exit(1) class Argument(object): def __init__(self, parent_name, desc): self.parent_name = parent_name self.desc = desc self.name = self.desc["name"].lower() if "_" in self.name: print("{}: name ({}) should not contain underscores".format(self.fullname(), self.name)) exit(1) self.type = self.desc["type"] self.key_spec_index = self.desc.get("key_spec_index", None) self.subargs = [] if self.type in ["oneof", "block"]: self.display = None for subdesc in self.desc["arguments"]: self.subargs.append(Argument(self.fullname(), subdesc)) if len(self.subargs) < 2: print("{}: oneof or block arg contains less than two subargs".format(self.fullname())) exit(1) verify_no_dup_names(self.fullname(), self.subargs) else: self.display = self.desc.get("display") def fullname(self): return ("%s %s" % (self.parent_name, self.name)).replace("-", "_") def struct_name(self): return "%s_Arg" % (self.fullname().replace(" ", "_")) def subarg_table_name(self): assert self.subargs return "%s_Subargs" % (self.fullname().replace(" ", "_")) def struct_code(self): """ Output example: MAKE_ARG("expiration",ARG_TYPE_ONEOF,-1,NULL,NULL,NULL,CMD_ARG_OPTIONAL,5,NULL),.subargs=GETEX_expiration_Subargs """ def _flags_code(): s = "" if self.desc.get("optional", False): s += "CMD_ARG_OPTIONAL|" if self.desc.get("multiple", False): s += "CMD_ARG_MULTIPLE|" if self.desc.get("multiple_token", False): assert self.desc.get("multiple", False) # Sanity s += "CMD_ARG_MULTIPLE_TOKEN|" return s[:-1] if s else "CMD_ARG_NONE" s = "MAKE_ARG(\"%s\",%s,%d,%s,%s,%s,%s,%d,%s)" % ( self.name, ARG_TYPES[self.type], self.desc.get("key_spec_index", -1), get_optional_desc_string(self.desc, "token", force_uppercase=True), get_optional_desc_string(self.desc, "summary"), get_optional_desc_string(self.desc, "since"), _flags_code(), len(self.subargs), get_optional_desc_string(self.desc, "deprecated_since"), ) if "display" in self.desc: s += ",.display_text=\"%s\"" % self.desc["display"].lower() if self.subargs: s += ",.subargs=%s" % self.subarg_table_name() return s def write_internal_structs(self, f): if self.subargs: for subarg in self.subargs: subarg.write_internal_structs(f) f.write("/* %s argument table */\n" % self.fullname()) f.write("struct COMMAND_ARG %s[] = {\n" % self.subarg_table_name()) for subarg in self.subargs: f.write("{%s},\n" % subarg.struct_code()) f.write("};\n\n") def to_c_name(str): return str.replace(":", "").replace(".", "_").replace("$", "_")\ .replace("^", "_").replace("*", "_").replace("-", "_") \ .replace("\\", "_").replace("+", "_") class ReplySchema(object): def __init__(self, name, desc): self.name = to_c_name(name) self.schema = {} if desc.get("type") == "object": if desc.get("properties") and desc.get("additionalProperties") is None: print("%s: Any object that has properties should have the additionalProperties field" % self.name) exit(1) elif desc.get("type") == "array": if desc.get("items") and isinstance(desc["items"], list) and any([desc.get(k) is None for k in ["minItems", "maxItems"]]): print("%s: Any array that has items should have the minItems and maxItems fields" % self.name) exit(1) for k, v in desc.items(): if isinstance(v, dict): self.schema[k] = ReplySchema("%s_%s" % (self.name, k), v) elif isinstance(v, list): self.schema[k] = [] for i, subdesc in enumerate(v): self.schema[k].append(ReplySchema("%s_%s_%i" % (self.name, k,i), subdesc)) else: self.schema[k] = v def write(self, f): def struct_code(name, k, v): if isinstance(v, ReplySchema): t = "JSON_TYPE_OBJECT" vstr = ".value.object=&%s" % name elif isinstance(v, list): t = "JSON_TYPE_ARRAY" vstr = ".value.array={.objects=%s,.length=%d}" % (name, len(v)) elif isinstance(v, bool): t = "JSON_TYPE_BOOLEAN" vstr = ".value.boolean=%d" % int(v) elif isinstance(v, str): t = "JSON_TYPE_STRING" vstr = ".value.string=\"%s\"" % v elif isinstance(v, int): t = "JSON_TYPE_INTEGER" vstr = ".value.integer=%d" % v return "%s,%s,%s" % (t, json.dumps(k), vstr) for k, v in self.schema.items(): if isinstance(v, ReplySchema): v.write(f) elif isinstance(v, list): for i, schema in enumerate(v): schema.write(f) name = to_c_name("%s_%s" % (self.name, k)) f.write("/* %s array reply schema */\n" % name) f.write("struct jsonObject *%s[] = {\n" % name) for i, schema in enumerate(v): f.write("&%s,\n" % schema.name) f.write("};\n\n") f.write("/* %s reply schema */\n" % self.name) f.write("struct jsonObjectElement %s_elements[] = {\n" % self.name) for k, v in self.schema.items(): name = to_c_name("%s_%s" % (self.name, k)) f.write("{%s},\n" % struct_code(name, k, v)) f.write("};\n\n") f.write("struct jsonObject %s = {%s_elements,.length=%d};\n\n" % (self.name, self.name, len(self.schema))) class Command(object): def __init__(self, name, desc): self.name = name.upper() self.desc = desc self.group = self.desc["group"] self.key_specs = self.desc.get("key_specs", []) self.subcommands = [] self.args = [] for arg_desc in self.desc.get("arguments", []): self.args.append(Argument(self.fullname(), arg_desc)) verify_no_dup_names(self.fullname(), self.args) self.reply_schema = None if "reply_schema" in self.desc: self.reply_schema = ReplySchema(self.reply_schema_name(), self.desc["reply_schema"]) def fullname(self): return self.name.replace("-", "_").replace(":", "") def return_types_table_name(self): return "%s_ReturnInfo" % self.fullname().replace(" ", "_") def subcommand_table_name(self): assert self.subcommands return "%s_Subcommands" % self.name def history_table_name(self): return "%s_History" % (self.fullname().replace(" ", "_")) def tips_table_name(self): return "%s_Tips" % (self.fullname().replace(" ", "_")) def arg_table_name(self): return "%s_Args" % (self.fullname().replace(" ", "_")) def key_specs_table_name(self): return "%s_Keyspecs" % (self.fullname().replace(" ", "_")) def reply_schema_name(self): return "%s_ReplySchema" % (self.fullname().replace(" ", "_")) def struct_name(self): return "%s_Command" % (self.fullname().replace(" ", "_")) def history_code(self): if not self.desc.get("history"): return "" s = "" for tupl in self.desc["history"]: s += "{\"%s\",\"%s\"},\n" % (tupl[0], tupl[1]) return s def num_history(self): if not self.desc.get("history"): return 0 return len(self.desc["history"]) def tips_code(self): if not self.desc.get("command_tips"): return "" s = "" for hint in self.desc["command_tips"]: s += "\"%s\",\n" % hint.lower() return s def num_tips(self): if not self.desc.get("command_tips"): return 0 return len(self.desc["command_tips"]) def key_specs_code(self): s = "" for spec in self.key_specs: s += "{%s}," % KeySpec(spec).struct_code() return s[:-1] def struct_code(self): """ Output example: MAKE_CMD("set","Set the string value of a key","O(1)","1.0.0",CMD_DOC_NONE,NULL,NULL,"string",COMMAND_GROUP_STRING,SET_History,4,SET_Tips,0,setCommand,-3,CMD_WRITE|CMD_DENYOOM,ACL_CATEGORY_STRING,SET_Keyspecs,1,setGetKeys,5),.args=SET_Args """ def _flags_code(): s = "" for flag in self.desc.get("command_flags", []): s += "CMD_%s|" % flag return s[:-1] if s else 0 def _acl_categories_code(): s = "" for cat in self.desc.get("acl_categories", []): s += "ACL_CATEGORY_%s|" % cat return s[:-1] if s else 0 def _doc_flags_code(): s = "" for flag in self.desc.get("doc_flags", []): s += "CMD_DOC_%s|" % flag return s[:-1] if s else "CMD_DOC_NONE" s = "MAKE_CMD(\"%s\",%s,%s,%s,%s,%s,%s,%s,%s,%s,%d,%s,%d,%s,%d,%s,%s,%s,%d,%s,%d)," % ( self.name.lower(), get_optional_desc_string(self.desc, "summary"), get_optional_desc_string(self.desc, "complexity"), get_optional_desc_string(self.desc, "since"), _doc_flags_code(), get_optional_desc_string(self.desc, "replaced_by"), get_optional_desc_string(self.desc, "deprecated_since"), "\"%s\"" % self.group, GROUPS[self.group], self.history_table_name(), self.num_history(), self.tips_table_name(), self.num_tips(), self.desc.get("function", "NULL"), self.desc["arity"], _flags_code(), _acl_categories_code(), self.key_specs_table_name(), len(self.key_specs), self.desc.get("get_keys_function", "NULL"), len(self.args), ) if self.subcommands: s += ".subcommands=%s," % self.subcommand_table_name() if self.args: s += ".args=%s," % self.arg_table_name() if self.reply_schema and args.with_reply_schema: s += ".reply_schema=&%s," % self.reply_schema_name() return s[:-1] def write_internal_structs(self, f): if self.subcommands: subcommand_list = sorted(self.subcommands, key=lambda cmd: cmd.name) for subcommand in subcommand_list: subcommand.write_internal_structs(f) f.write("/* %s command table */\n" % self.fullname()) f.write("struct COMMAND_STRUCT %s[] = {\n" % self.subcommand_table_name()) for subcommand in subcommand_list: f.write("{%s},\n" % subcommand.struct_code()) f.write("{0}\n") f.write("};\n\n") f.write("/********** %s ********************/\n\n" % self.fullname()) f.write("#ifndef SKIP_CMD_HISTORY_TABLE\n") f.write("/* %s history */\n" % self.fullname()) code = self.history_code() if code: f.write("commandHistory %s[] = {\n" % self.history_table_name()) f.write("%s" % code) f.write("};\n") else: f.write("#define %s NULL\n" % self.history_table_name()) f.write("#endif\n\n") f.write("#ifndef SKIP_CMD_TIPS_TABLE\n") f.write("/* %s tips */\n" % self.fullname()) code = self.tips_code() if code: f.write("const char *%s[] = {\n" % self.tips_table_name()) f.write("%s" % code) f.write("};\n") else: f.write("#define %s NULL\n" % self.tips_table_name()) f.write("#endif\n\n") f.write("#ifndef SKIP_CMD_KEY_SPECS_TABLE\n") f.write("/* %s key specs */\n" % self.fullname()) code = self.key_specs_code() if code: f.write("keySpec %s[%d] = {\n" % (self.key_specs_table_name(), len(self.key_specs))) f.write("%s\n" % code) f.write("};\n") else: f.write("#define %s NULL\n" % self.key_specs_table_name()) f.write("#endif\n\n") if self.args: for arg in self.args: arg.write_internal_structs(f) f.write("/* %s argument table */\n" % self.fullname()) f.write("struct COMMAND_ARG %s[] = {\n" % self.arg_table_name()) for arg in self.args: f.write("{%s},\n" % arg.struct_code()) f.write("};\n\n") if self.reply_schema and args.with_reply_schema: self.reply_schema.write(f) class Subcommand(Command): def __init__(self, name, desc): self.container_name = desc["container"].upper() super(Subcommand, self).__init__(name, desc) def fullname(self): return "%s %s" % (self.container_name, self.name.replace("-", "_").replace(":", "")) def create_command(name, desc): flags = desc.get("command_flags") if flags and "EXPERIMENTAL" in flags: print("Command %s is experimental, skipping..." % name) return if desc.get("container"): cmd = Subcommand(name.upper(), desc) subcommands.setdefault(desc["container"].upper(), {})[name] = cmd else: cmd = Command(name.upper(), desc) commands[name.upper()] = cmd # MAIN # Figure out where the sources are srcdir = os.path.abspath(os.path.dirname(os.path.abspath(__file__)) + "/../src") parser = argparse.ArgumentParser() parser.add_argument('--with-reply-schema', action='store_true') args = parser.parse_args() # Create all command objects print("Processing json files...") for filename in glob.glob('%s/commands/*.json' % srcdir): with open(filename, "r") as f: try: d = json.load(f) for name, desc in d.items(): create_command(name, desc) except json.decoder.JSONDecodeError as err: print("Error processing %s: %s" % (filename, err)) exit(1) # Link subcommands to containers print("Linking container command to subcommands...") for command in commands.values(): assert command.group if command.name not in subcommands: continue for subcommand in subcommands[command.name].values(): assert not subcommand.group or subcommand.group == command.group subcommand.group = command.group command.subcommands.append(subcommand) check_command_error_counter = 0 # An error counter is used to count errors in command checking. print("Checking all commands...") for command in commands.values(): if not check_command_key_specs(command): check_command_error_counter += 1 if check_command_error_counter != 0: print("Error: There are errors in the commands check, please check the above logs.") exit(1) commands_filename = "commands_with_reply_schema" if args.with_reply_schema else "commands" print("Generating %s.def..." % commands_filename) with open("%s/%s.def" % (srcdir, commands_filename), "w") as f: f.write("/* Automatically generated by %s, do not edit. */\n\n" % os.path.basename(__file__)) f.write( """ /* We have fabulous commands from * the fantastic * Redis Command Table! */ /* Must match redisCommandGroup */ const char *COMMAND_GROUP_STR[] = { "generic", "string", "list", "set", "sorted-set", "hash", "pubsub", "transactions", "connection", "server", "scripting", "hyperloglog", "cluster", "sentinel", "geo", "stream", "bitmap", "module" }; const char *commandGroupStr(int index) { return COMMAND_GROUP_STR[index]; } """ ) command_list = sorted(commands.values(), key=lambda cmd: (cmd.group, cmd.name)) for command in command_list: command.write_internal_structs(f) f.write("/* Main command table */\n") f.write("struct COMMAND_STRUCT redisCommandTable[] = {\n") curr_group = None for command in command_list: if curr_group != command.group: curr_group = command.group f.write("/* %s */\n" % curr_group) f.write("{%s},\n" % command.struct_code()) f.write("{0}\n") f.write("};\n") print("All done, exiting.")