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|
#!/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("-", "_")
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, 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):
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.")
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