scripts/parse_syscalls.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (c) 2017 Intel Corporation
 #
 # SPDX-License-Identifier: Apache-2.0

 import sys
 import re
 import argparse
 import os
 import json

 api_regex = re.compile(r'''
 __syscall\s+                    # __syscall attribute, must be first
 ([^(]+)                         # type and name of system call (split later)
 [(]                             # Function opening parenthesis
 ([^)]*)                         # Arg list (split later)
 [)]                             # Closing parenthesis
 ''', re.MULTILINE | re.VERBOSE)

 typename_regex = re.compile(r'(.*?)([A-Za-z0-9_]+)$')

 class SyscallParseException(Exception):
     pass


 def typename_split(item):
     if "[" in item:
         raise SyscallParseException("Please pass arrays to syscalls as pointers, unable to process '%s'"
                 % item)

     if "(" in item:
         raise SyscallParseException("Please use typedefs for function pointers")

     mo = typename_regex.match(item)
     if not mo:
         raise SyscallParseException("Malformed system call invocation")

     m = mo.groups()
     return (m[0].strip(), m[1])


 def analyze_fn(match_group, fn):
     func, args = match_group

     try:
         if args == "void":
             args = []
         else:
             args = [typename_split(a.strip()) for a in args.split(",")]

         func_type, func_name = typename_split(func)
     except SyscallParseException:
         sys.stderr.write("In declaration of %s\n" % func)
         raise

     sys_id = "K_SYSCALL_" + func_name.upper()

     if func_type == "void":
         suffix = "_VOID"
         is_void = True
     else:
         is_void = False
         if func_type in ["s64_t", "u64_t"]:
             suffix = "_RET64"
         else:
             suffix = ""

     is_void = (func_type == "void")

     # Get the proper system call macro invocation, which depends on the
     # number of arguments, the return type, and whether the implementation
     # is an inline function
     macro = "K_SYSCALL_DECLARE%d%s" % (len(args), suffix)

     # Flatten the argument lists and generate a comma separated list
     # of t0, p0, t1, p1, ... tN, pN as expected by the macros
     flat_args = [i for sublist in args for i in sublist]
     if not is_void:
         flat_args = [func_type] + flat_args
     flat_args = [sys_id, func_name] + flat_args
     argslist = ", ".join(flat_args)

     invocation = "%s(%s);" % (macro, argslist)

     handler = "_handler_" + func_name

     # Entry in _k_syscall_table
     table_entry = "[%s] = %s" % (sys_id, handler)

     return (fn, handler, invocation, sys_id, table_entry)


 def analyze_headers(base_path):
     ret = []

     for root, dirs, files in os.walk(base_path):
         for fn in files:

             # toolchain/common.h has the definition of __syscall which we
             # don't want to trip over
             path = os.path.join(root, fn)
             if not fn.endswith(".h") or path.endswith("toolchain/common.h"):
                 continue

             with open(path, "r", encoding="utf-8") as fp:
                 try:
                     result = [analyze_fn(mo.groups(), fn)
                               for mo in api_regex.finditer(fp.read())]
                 except Exception:
                     sys.stderr.write("While parsing %s\n" % fn)
                     raise

             ret.extend(result)

     return ret

 def parse_args():
     global args
     parser = argparse.ArgumentParser(description = __doc__,
             formatter_class = argparse.RawDescriptionHelpFormatter)

     parser.add_argument("-i", "--include", required=True,
             help="Base include directory")
     parser.add_argument("-j", "--json-file", required=True,
             help="Write system call prototype information as json to file")
     args = parser.parse_args()

 def main():
     parse_args()

     syscalls = analyze_headers(args.include)

     syscalls_in_json = json.dumps(
         syscalls,
         indent=4,
         sort_keys=True
     )

     # Check if the file already exists, and if there are no changes,
     # don't touch it since that will force an incremental rebuild
     path = args.json_file
     new = syscalls_in_json
     if os.path.exists(path):
         with open(path, 'r') as fp:
             old = fp.read()

         if new != old:
             with open(path, 'w') as fp:
                 fp.write(new)
     else:
         with open(path, 'w') as fp:
             fp.write(new)

 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2017 Intel Corporation
	#
	# SPDX-License-Identifier: Apache-2.0

	import sys
	import re
	import argparse
	import os
	import json

	api_regex = re.compile(r'''
	__syscall\s+ # __syscall attribute, must be first
	([^(]+) # type and name of system call (split later)
	[(] # Function opening parenthesis
	([^)]*) # Arg list (split later)
	[)] # Closing parenthesis
	''', re.MULTILINE \| re.VERBOSE)

	typename_regex = re.compile(r'(.*?)([A-Za-z0-9_]+)$')

	class SyscallParseException(Exception):
	pass


	def typename_split(item):
	if "[" in item:
	raise SyscallParseException("Please pass arrays to syscalls as pointers, unable to process '%s'"
	% item)

	if "(" in item:
	raise SyscallParseException("Please use typedefs for function pointers")

	mo = typename_regex.match(item)
	if not mo:
	raise SyscallParseException("Malformed system call invocation")

	m = mo.groups()
	return (m[0].strip(), m[1])


	def analyze_fn(match_group, fn):
	func, args = match_group

	try:
	if args == "void":
	args = []
	else:
	args = [typename_split(a.strip()) for a in args.split(",")]

	func_type, func_name = typename_split(func)
	except SyscallParseException:
	sys.stderr.write("In declaration of %s\n" % func)
	raise

	sys_id = "K_SYSCALL_" + func_name.upper()

	if func_type == "void":
	suffix = "_VOID"
	is_void = True
	else:
	is_void = False
	if func_type in ["s64_t", "u64_t"]:
	suffix = "_RET64"
	else:
	suffix = ""

	is_void = (func_type == "void")

	# Get the proper system call macro invocation, which depends on the
	# number of arguments, the return type, and whether the implementation
	# is an inline function
	macro = "K_SYSCALL_DECLARE%d%s" % (len(args), suffix)

	# Flatten the argument lists and generate a comma separated list
	# of t0, p0, t1, p1, ... tN, pN as expected by the macros
	flat_args = [i for sublist in args for i in sublist]
	if not is_void:
	flat_args = [func_type] + flat_args
	flat_args = [sys_id, func_name] + flat_args
	argslist = ", ".join(flat_args)

	invocation = "%s(%s);" % (macro, argslist)

	handler = "_handler_" + func_name

	# Entry in _k_syscall_table
	table_entry = "[%s] = %s" % (sys_id, handler)

	return (fn, handler, invocation, sys_id, table_entry)


	def analyze_headers(base_path):
	ret = []

	for root, dirs, files in os.walk(base_path):
	for fn in files:

	# toolchain/common.h has the definition of __syscall which we
	# don't want to trip over
	path = os.path.join(root, fn)
	if not fn.endswith(".h") or path.endswith("toolchain/common.h"):
	continue

	with open(path, "r", encoding="utf-8") as fp:
	try:
	result = [analyze_fn(mo.groups(), fn)
	for mo in api_regex.finditer(fp.read())]
	except Exception:
	sys.stderr.write("While parsing %s\n" % fn)
	raise

	ret.extend(result)

	return ret

	def parse_args():
	global args
	parser = argparse.ArgumentParser(description = __doc__,
	formatter_class = argparse.RawDescriptionHelpFormatter)

	parser.add_argument("-i", "--include", required=True,
	help="Base include directory")
	parser.add_argument("-j", "--json-file", required=True,
	help="Write system call prototype information as json to file")
	args = parser.parse_args()

	def main():
	parse_args()

	syscalls = analyze_headers(args.include)

	syscalls_in_json = json.dumps(
	syscalls,
	indent=4,
	sort_keys=True
	)

	# Check if the file already exists, and if there are no changes,
	# don't touch it since that will force an incremental rebuild
	path = args.json_file
	new = syscalls_in_json
	if os.path.exists(path):
	with open(path, 'r') as fp:
	old = fp.read()

	if new != old:
	with open(path, 'w') as fp:
	fp.write(new)
	else:
	with open(path, 'w') as fp:
	fp.write(new)

	if __name__ == "__main__":
	main()