osquery-1/tools/codegen/gentable.py

430 lines
14 KiB
Python
Executable File

#!/usr/bin/env python
# Copyright (c) 2014-present, Facebook, Inc.
# All rights reserved.
#
# This source code is licensed under the BSD-style license found in the
# LICENSE file in the root directory of this source tree. An additional grant
# of patent rights can be found in the PATENTS file in the same directory.
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals
import argparse
import ast
import jinja2
import logging
import os
import sys
SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))
sys.path.append(SCRIPT_DIR + "/../tests")
from utils import platform
# the log format for the logging module
LOG_FORMAT = "%(levelname)s [Line %(lineno)d]: %(message)s"
# Read all implementation templates
TEMPLATES = {}
# Temporary reserved column names
RESERVED = ["n", "index"]
# Set the platform in osquery-language
PLATFORM = platform()
# Supported SQL types for spec
class DataType(object):
def __init__(self, affinity, cpp_type="std::string"):
'''A column datatype is a pair of a SQL affinity to C++ type.'''
self.affinity = affinity
self.type = cpp_type
def __repr__(self):
return self.affinity
# Define column-type MACROs for the table specs
TEXT = DataType("TEXT_TYPE")
DATE = DataType("TEXT_TYPE")
DATETIME = DataType("TEXT_TYPE")
INTEGER = DataType("INTEGER_TYPE", "int")
BIGINT = DataType("BIGINT_TYPE", "long long int")
UNSIGNED_BIGINT = DataType("UNSIGNED_BIGINT_TYPE", "long long unsigned int")
DOUBLE = DataType("DOUBLE_TYPE", "double")
BLOB = DataType("BLOB_TYPE", "Blob")
# Define table-category MACROS from the table specs
UNKNOWN = "UNKNOWN"
UTILITY = "UTILITY"
SYSTEM = "SYSTEM"
NETWORK = "NETWORK"
EVENTS = "EVENTS"
APPLICATION = "APPLICATION"
# This should mimic the C++ enumeration ColumnOptions in table.h
COLUMN_OPTIONS = {
"index": "INDEX",
"additional": "ADDITIONAL",
"required": "REQUIRED",
"optimized": "OPTIMIZED",
}
# Column options that render tables uncacheable.
NON_CACHEABLE = [
"REQUIRED",
"ADDITIONAL",
"OPTIMIZED",
]
TABLE_ATTRIBUTES = {
"event_subscriber": "EVENT_BASED",
"user_data": "USER_BASED",
"cacheable": "CACHEABLE",
"utility": "UTILITY",
"kernel_required": "KERNEL_REQUIRED",
}
def to_camel_case(snake_case):
""" convert a snake_case string to camelCase """
components = snake_case.split('_')
return components[0] + "".join(x.title() for x in components[1:])
def lightred(msg):
return "\033[1;31m %s \033[0m" % str(msg)
def is_blacklisted(table_name, path=None, blacklist=None):
"""Allow blacklisting by tablename."""
if blacklist is None:
specs_path = os.path.dirname(path)
if os.path.basename(specs_path) != "specs":
specs_path = os.path.dirname(specs_path)
blacklist_path = os.path.join(specs_path, "blacklist")
if not os.path.exists(blacklist_path):
return False
try:
with open(blacklist_path, "r") as fh:
blacklist = [
line.strip() for line in fh.read().split("\n")
if len(line.strip()) > 0 and line.strip()[0] != "#"
]
except:
# Blacklist is not readable.
return False
if not blacklist:
return False
# table_name based blacklisting!
for item in blacklist:
item = item.split(":")
# If this item is restricted to a platform and the platform
# and table name match
if len(item) > 1 and PLATFORM == item[0] and table_name == item[1]:
return True
elif len(item) == 1 and table_name == item[0]:
return True
return False
def setup_templates(templates_path):
if not os.path.exists(templates_path):
templates_path = os.path.join(
os.path.dirname(tables_path), "templates")
if not os.path.exists(templates_path):
print("Cannot read templates path: %s" % (templates_path))
exit(1)
for template in os.listdir(templates_path):
template_name = template.split(".", 1)[0]
with open(os.path.join(templates_path, template), "r") as fh:
TEMPLATES[template_name] = fh.read().replace("\\\n", "")
class Singleton(object):
"""
Make sure that anything that subclasses Singleton can only be instantiated
once
"""
_instance = None
def __new__(self, *args, **kwargs):
if not self._instance:
self._instance = super(Singleton, self).__new__(
self, *args, **kwargs)
return self._instance
class TableState(Singleton):
"""
Maintain the state of of the table commands during the execution of
the config file
"""
def __init__(self):
self.table_name = ""
self.schema = []
self.header = ""
self.impl = ""
self.function = ""
self.class_name = ""
self.description = ""
self.attributes = {}
self.examples = []
self.aliases = []
self.fuzz_paths = []
self.has_options = False
self.has_column_aliases = False
self.generator = False
def columns(self):
return [i for i in self.schema if isinstance(i, Column)]
def foreign_keys(self):
return [i for i in self.schema if isinstance(i, ForeignKey)]
def generate(self, path, template="default"):
"""Generate the virtual table files"""
logging.debug("TableState.generate")
all_options = []
# Create a list of column options from the kwargs passed to the column.
for column in self.columns():
column_options = []
for option in column.options:
# Only allow explicitly-defined options.
if option in COLUMN_OPTIONS:
column_options.append("ColumnOptions::" + COLUMN_OPTIONS[option])
all_options.append(COLUMN_OPTIONS[option])
column.options_set = " | ".join(column_options)
if len(column.aliases) > 0:
self.has_column_aliases = True
if len(all_options) > 0:
self.has_options = True
if "cacheable" in self.attributes:
if len(set(all_options).intersection(NON_CACHEABLE)) > 0:
print(lightred("Table cannot be marked cacheable: %s" % (path)))
exit(1)
if self.generator:
print(lightred(
"Table cannot use a generator and be marked cacheable: %s" % (path)))
exit(1)
if self.table_name == "" or self.function == "":
print(lightred("Invalid table spec: %s" % (path)))
exit(1)
# Check for reserved column names
for column in self.columns():
if column.name in RESERVED:
print(lightred(("Cannot use column name: %s in table: %s "
"(the column name is reserved)" % (
column.name, self.table_name))))
exit(1)
path_bits = path.split("/")
for i in range(1, len(path_bits)):
dir_path = ""
for j in range(i):
dir_path += "%s/" % path_bits[j]
if not os.path.exists(dir_path):
try:
os.mkdir(dir_path)
except:
# May encounter a race when using a make jobserver.
pass
logging.debug("generating %s" % path)
self.impl_content = jinja2.Template(TEMPLATES[template]).render(
table_name=self.table_name,
table_name_cc=to_camel_case(self.table_name),
schema=self.columns(),
header=self.header,
impl=self.impl,
function=self.function,
class_name=self.class_name,
attributes=self.attributes,
examples=self.examples,
aliases=self.aliases,
has_options=self.has_options,
has_column_aliases=self.has_column_aliases,
generator=self.generator,
attribute_set=[TABLE_ATTRIBUTES[attr] for attr in self.attributes],
)
with open(path, "w+") as file_h:
file_h.write(self.impl_content)
def blacklist(self, path):
print(lightred("Blacklisting generated %s" % path))
logging.debug("blacklisting %s" % path)
self.generate(path, template="blacklist")
table = TableState()
class Column(object):
"""
Part of an osquery table schema.
Define a column by name and type with an optional description to assist
documentation generation and reference.
"""
def __init__(self, name, col_type, description="", aliases=[], **kwargs):
self.name = name
self.type = col_type
self.description = description
self.aliases = aliases
self.options = kwargs
class ForeignKey(object):
"""
Part of an osquery table schema.
Loosely define a column in a table spec as a Foreign key in another table.
"""
def __init__(self, **kwargs):
self.column = kwargs.get("column", "")
self.table = kwargs.get("table", "")
def table_name(name, aliases=[]):
"""define the virtual table name"""
logging.debug("- table_name")
logging.debug(" - called with: %s" % name)
table.table_name = name
table.description = ""
table.attributes = {}
table.examples = []
table.aliases = aliases
def schema(schema_list):
"""
define a list of Column object which represent the columns of your virtual
table
"""
logging.debug("- schema")
for it in schema_list:
if isinstance(it, Column):
logging.debug(" - column: %s (%s)" % (it.name, it.type))
if isinstance(it, ForeignKey):
logging.debug(" - foreign_key: %s (%s)" % (it.column, it.table))
table.schema = schema_list
def description(text):
table.description = text
def select_all(name=None):
if name is None:
name = table.table_name
return "select count(*) from %s;" % (name)
def examples(example_queries):
table.examples = example_queries
def attributes(**kwargs):
for attr in kwargs:
table.attributes[attr] = kwargs[attr]
def fuzz_paths(paths):
table.fuzz_paths = paths
def implementation(impl_string, generator=False):
"""
define the path to the implementation file and the function which
implements the virtual table. You should use the following format:
# the path is "osquery/table/implementations/foo.cpp"
# the function is "QueryData genFoo();"
implementation("foo@genFoo")
"""
logging.debug("- implementation")
filename, function = impl_string.split("@")
class_parts = function.split("::")[::-1]
function = class_parts[0]
class_name = class_parts[1] if len(class_parts) > 1 else ""
impl = "%s.cpp" % filename
logging.debug(" - impl => %s" % impl)
logging.debug(" - function => %s" % function)
logging.debug(" - class_name => %s" % class_name)
table.impl = impl
table.function = function
table.class_name = class_name
table.generator = generator
'''Check if the table has a subscriber attribute, if so, enforce time.'''
if "event_subscriber" in table.attributes:
columns = {}
# There is no dictionary comprehension on all supported platforms.
for column in table.schema:
if isinstance(column, Column):
columns[column.name] = column.type
if "time" not in columns:
print(lightred("Event subscriber: %s needs a 'time' column." % (
table.table_name)))
sys.exit(1)
if columns["time"] is not BIGINT:
print(lightred(
"Event subscriber: %s, 'time' column must be a %s type" % (
table.table_name, BIGINT)))
sys.exit(1)
def main(argc, argv):
parser = argparse.ArgumentParser(
"Generate C++ Table Plugin from specfile.")
parser.add_argument(
"--debug", default=False, action="store_true",
help="Output debug messages (when developing)"
)
parser.add_argument("--disable-blacklist", default=False,
action="store_true")
parser.add_argument("--foreign", default=False, action="store_true",
help="Generate a foreign table")
parser.add_argument("--templates", default=SCRIPT_DIR + "/templates",
help="Path to codegen output .cpp.in templates")
parser.add_argument("spec_file", help="Path to input .table spec file")
parser.add_argument("output", help="Path to output .cpp file")
args = parser.parse_args()
if args.debug:
logging.basicConfig(format=LOG_FORMAT, level=logging.DEBUG)
else:
logging.basicConfig(format=LOG_FORMAT, level=logging.INFO)
filename = args.spec_file
output = args.output
if filename.endswith(".table"):
# Adding a 3rd parameter will enable the blacklist
setup_templates(args.templates)
with open(filename, "rU") as file_handle:
tree = ast.parse(file_handle.read())
exec(compile(tree, "<string>", "exec"))
blacklisted = is_blacklisted(table.table_name, path=filename)
if not args.disable_blacklist and blacklisted:
table.blacklist(output)
else:
template_type = "default" if not args.foreign else "foreign"
table.generate(output, template=template_type)
if __name__ == "__main__":
SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))
main(len(sys.argv), sys.argv)