scripts/gen_kobject_list.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 argparse
 import math
 import os
 import struct
 from elf_helper import ElfHelper, kobject_to_enum

 # Keys in this dictionary are structs which should be recognized as kernel
 # objects. Values should either be None, or the name of a Kconfig that
 # indicates the presence of this object's definition in case it is not
 # available in all configurations.

 kobjects = {
     "k_mem_slab": None,
     "k_msgq": None,
     "k_mutex": None,
     "k_pipe": None,
     "k_queue": None,
     "k_poll_signal": None,
     "k_sem": None,
     "k_stack": None,
     "k_thread": None,
     "k_timer": None,
     "_k_thread_stack_element": None,
     "net_context": "CONFIG_NETWORKING",
     "device": None
 }

 subsystems = [
     "adc_driver_api",
     "aio_cmp_driver_api",
     "counter_driver_api",
     "crypto_driver_api",
     "dma_driver_api",
     "flash_driver_api",
     "gpio_driver_api",
     "i2c_driver_api",
     "i2s_driver_api",
     "ipm_driver_api",
     "led_driver_api",
     "pinmux_driver_api",
     "pwm_driver_api",
     "entropy_driver_api",
     "rtc_driver_api",
     "sensor_driver_api",
     "spi_driver_api",
     "uart_driver_api",
 ]


 header = """%compare-lengths
 %define lookup-function-name _k_object_lookup
 %language=ANSI-C
 %global-table
 %struct-type
 %{
 #include <kernel.h>
 #include <toolchain.h>
 #include <syscall_handler.h>
 #include <string.h>
 %}
 struct _k_object;
 %%
 """


 # Different versions of gperf have different prototypes for the lookup
 # function, best to implement the wrapper here. The pointer value itself is
 # turned into a string, we told gperf to expect binary strings that are not
 # NULL-terminated.
 footer = """%%
 struct _k_object *_k_object_gperf_find(void *obj)
 {
     return _k_object_lookup((const char *)obj, sizeof(void *));
 }

 void _k_object_gperf_wordlist_foreach(_wordlist_cb_func_t func, void *context)
 {
     int i;

     for (i = MIN_HASH_VALUE; i <= MAX_HASH_VALUE; i++) {
         if (wordlist[i].name != NULL) {
             func(&wordlist[i], context);
         }
     }
 }

 #ifndef CONFIG_DYNAMIC_OBJECTS
 struct _k_object *_k_object_find(void *obj)
 	ALIAS_OF(_k_object_gperf_find);

 void _k_object_wordlist_foreach(_wordlist_cb_func_t func, void *context)
 	ALIAS_OF(_k_object_gperf_wordlist_foreach);
 #endif
 """


 def write_gperf_table(fp, eh, objs, static_begin, static_end):
     fp.write(header)

     # Setup variables for mapping thread indexes
     syms = eh.get_symbols()
     thread_max_bytes = syms["CONFIG_MAX_THREAD_BYTES"]
     thread_idx_map = {}

     for i in range(0, thread_max_bytes):
         thread_idx_map[i] = 0xFF

     for obj_addr, ko in objs.items():
         obj_type = ko.type_name
         # pre-initialized objects fall within this memory range, they are
         # either completely initialized at build time, or done automatically
         # at boot during some PRE_KERNEL_* phase
         initialized = obj_addr >= static_begin and obj_addr < static_end

         byte_str = struct.pack("<I" if eh.little_endian else ">I", obj_addr)
         fp.write("\"")
         for byte in byte_str:
             val = "\\x%02x" % byte
             fp.write(val)

         fp.write(
             "\",{},%s,%s,%d\n" %
             (obj_type,
              "K_OBJ_FLAG_INITIALIZED" if initialized else "0",
              ko.data))

         if obj_type == "K_OBJ_THREAD":
             idx = math.floor(ko.data / 8)
             bit = ko.data % 8
             thread_idx_map[idx] = thread_idx_map[idx] & ~(2**bit)

     fp.write(footer)

     # Generate the array of already mapped thread indexes
     fp.write('\n')
     fp.write('u8_t _thread_idx_map[%d] = {' % (thread_max_bytes))

     for i in range(0, thread_max_bytes):
         fp.write(' 0x%x, ' % (thread_idx_map[i]))

     fp.write('};\n')


 driver_macro_tpl = """
 #define Z_SYSCALL_DRIVER_%(driver_upper)s(ptr, op) Z_SYSCALL_DRIVER_GEN(ptr, op, %(driver_lower)s, %(driver_upper)s)
 """


 def write_validation_output(fp):
     fp.write("#ifndef DRIVER_VALIDATION_GEN_H\n")
     fp.write("#define DRIVER_VALIDATION_GEN_H\n")

     fp.write("""#define Z_SYSCALL_DRIVER_GEN(ptr, op, driver_lower_case, driver_upper_case) \\
 		(Z_SYSCALL_OBJ(ptr, K_OBJ_DRIVER_##driver_upper_case) || \\
 		 Z_SYSCALL_DRIVER_OP(ptr, driver_lower_case##_driver_api, op))
                 """)

     for subsystem in subsystems:
         subsystem = subsystem.replace("_driver_api", "")

         fp.write(driver_macro_tpl % {
             "driver_lower": subsystem.lower(),
             "driver_upper": subsystem.upper(),
         })

     fp.write("#endif /* DRIVER_VALIDATION_GEN_H */\n")


 def write_kobj_types_output(fp):
     fp.write("/* Core kernel objects */\n")
     for kobj, dep in kobjects.items():
         if kobj == "device":
             continue

         if dep:
             fp.write("#ifdef %s\n" % dep)

         fp.write("%s,\n" % kobject_to_enum(kobj))

         if dep:
             fp.write("#endif\n")

     fp.write("/* Driver subsystems */\n")
     for subsystem in subsystems:
         subsystem = subsystem.replace("_driver_api", "").upper()
         fp.write("K_OBJ_DRIVER_%s,\n" % subsystem)


 def write_kobj_otype_output(fp):
     fp.write("/* Core kernel objects */\n")
     for kobj, dep in kobjects.items():
         if kobj == "device":
             continue

         if dep:
             fp.write("#ifdef %s\n" % dep)

         fp.write('case %s: ret = "%s"; break;\n' %
                  (kobject_to_enum(kobj), kobj))
         if dep:
             fp.write("#endif\n")

     fp.write("/* Driver subsystems */\n")
     for subsystem in subsystems:
         subsystem = subsystem.replace("_driver_api", "")
         fp.write('case K_OBJ_DRIVER_%s: ret = "%s driver"; break;\n' % (
             subsystem.upper(),
             subsystem
         ))


 def write_kobj_size_output(fp):
     fp.write("/* Non device/stack objects */\n")
     for kobj, dep in kobjects.items():
         # device handled by default case. Stacks are not currently handled,
         # if they eventually are it will be a special case.
         if kobj == "device" or kobj == "_k_thread_stack_element":
             continue

         if dep:
             fp.write("#ifdef %s\n" % dep)

         fp.write('case %s: ret = sizeof(struct %s); break;\n' %
                  (kobject_to_enum(kobj), kobj))
         if dep:
             fp.write("#endif\n")


 def parse_args():
     global args

     parser = argparse.ArgumentParser(
         description=__doc__,
         formatter_class=argparse.RawDescriptionHelpFormatter)

     parser.add_argument("-k", "--kernel", required=False,
                         help="Input zephyr ELF binary")
     parser.add_argument(
         "-g", "--gperf-output", required=False,
         help="Output list of kernel object addresses for gperf use")
     parser.add_argument(
         "-V", "--validation-output", required=False,
         help="Output driver validation macros")
     parser.add_argument(
         "-K", "--kobj-types-output", required=False,
         help="Output k_object enum values")
     parser.add_argument(
         "-S", "--kobj-otype-output", required=False,
         help="Output case statements for otype_to_str()")
     parser.add_argument(
         "-Z", "--kobj-size-output", required=False,
         help="Output case statements for obj_size_get()")
     parser.add_argument("-v", "--verbose", action="store_true",
                         help="Print extra debugging information")
     args = parser.parse_args()
     if "VERBOSE" in os.environ:
         args.verbose = 1


 def main():
     parse_args()

     if args.gperf_output:
         eh = ElfHelper(args.kernel, args.verbose, kobjects, subsystems)
         syms = eh.get_symbols()
         max_threads = syms["CONFIG_MAX_THREAD_BYTES"] * 8
         objs = eh.find_kobjects(syms)

         thread_counter = eh.get_thread_counter()
         if thread_counter > max_threads:
             sys.stderr.write("Too many thread objects (%d)\n" % thread_counter)
             sys.stderr.write("Increase CONFIG_MAX_THREAD_BYTES to %d\n",
                              -(-thread_counter // 8))
             sys.exit(1)

         with open(args.gperf_output, "w") as fp:
             write_gperf_table(fp, eh, objs,
                               syms["_static_kernel_objects_begin"],
                               syms["_static_kernel_objects_end"])

     if args.validation_output:
         with open(args.validation_output, "w") as fp:
             write_validation_output(fp)

     if args.kobj_types_output:
         with open(args.kobj_types_output, "w") as fp:
             write_kobj_types_output(fp)

     if args.kobj_otype_output:
         with open(args.kobj_otype_output, "w") as fp:
             write_kobj_otype_output(fp)

     if args.kobj_size_output:
         with open(args.kobj_size_output, "w") as fp:
             write_kobj_size_output(fp)


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

	import sys
	import argparse
	import math
	import os
	import struct
	from elf_helper import ElfHelper, kobject_to_enum

	# Keys in this dictionary are structs which should be recognized as kernel
	# objects. Values should either be None, or the name of a Kconfig that
	# indicates the presence of this object's definition in case it is not
	# available in all configurations.

	kobjects = {
	"k_mem_slab": None,
	"k_msgq": None,
	"k_mutex": None,
	"k_pipe": None,
	"k_queue": None,
	"k_poll_signal": None,
	"k_sem": None,
	"k_stack": None,
	"k_thread": None,
	"k_timer": None,
	"_k_thread_stack_element": None,
	"net_context": "CONFIG_NETWORKING",
	"device": None
	}

	subsystems = [
	"adc_driver_api",
	"aio_cmp_driver_api",
	"counter_driver_api",
	"crypto_driver_api",
	"dma_driver_api",
	"flash_driver_api",
	"gpio_driver_api",
	"i2c_driver_api",
	"i2s_driver_api",
	"ipm_driver_api",
	"led_driver_api",
	"pinmux_driver_api",
	"pwm_driver_api",
	"entropy_driver_api",
	"rtc_driver_api",
	"sensor_driver_api",
	"spi_driver_api",
	"uart_driver_api",
	]


	header = """%compare-lengths
	%define lookup-function-name _k_object_lookup
	%language=ANSI-C
	%global-table
	%struct-type
	%{
	#include <kernel.h>
	#include <toolchain.h>
	#include <syscall_handler.h>
	#include <string.h>
	%}
	struct _k_object;
	%%
	"""


	# Different versions of gperf have different prototypes for the lookup
	# function, best to implement the wrapper here. The pointer value itself is
	# turned into a string, we told gperf to expect binary strings that are not
	# NULL-terminated.
	footer = """%%
	struct _k_object _k_object_gperf_find(void obj)
	{
	return _k_object_lookup((const char )obj, sizeof(void ));
	}

	void _k_object_gperf_wordlist_foreach(_wordlist_cb_func_t func, void *context)
	{
	int i;

	for (i = MIN_HASH_VALUE; i <= MAX_HASH_VALUE; i++) {
	if (wordlist[i].name != NULL) {
	func(&wordlist[i], context);
	}
	}
	}

	#ifndef CONFIG_DYNAMIC_OBJECTS
	struct _k_object _k_object_find(void obj)
	ALIAS_OF(_k_object_gperf_find);

	void _k_object_wordlist_foreach(_wordlist_cb_func_t func, void *context)
	ALIAS_OF(_k_object_gperf_wordlist_foreach);
	#endif
	"""


	def write_gperf_table(fp, eh, objs, static_begin, static_end):
	fp.write(header)

	# Setup variables for mapping thread indexes
	syms = eh.get_symbols()
	thread_max_bytes = syms["CONFIG_MAX_THREAD_BYTES"]
	thread_idx_map = {}

	for i in range(0, thread_max_bytes):
	thread_idx_map[i] = 0xFF

	for obj_addr, ko in objs.items():
	obj_type = ko.type_name
	# pre-initialized objects fall within this memory range, they are
	# either completely initialized at build time, or done automatically
	# at boot during some PRE_KERNEL_* phase
	initialized = obj_addr >= static_begin and obj_addr < static_end

	byte_str = struct.pack("<I" if eh.little_endian else ">I", obj_addr)
	fp.write("\"")
	for byte in byte_str:
	val = "\\x%02x" % byte
	fp.write(val)

	fp.write(
	"\",{},%s,%s,%d\n" %
	(obj_type,
	"K_OBJ_FLAG_INITIALIZED" if initialized else "0",
	ko.data))

	if obj_type == "K_OBJ_THREAD":
	idx = math.floor(ko.data / 8)
	bit = ko.data % 8
	thread_idx_map[idx] = thread_idx_map[idx] & ~(2**bit)

	fp.write(footer)

	# Generate the array of already mapped thread indexes
	fp.write('\n')
	fp.write('u8_t _thread_idx_map[%d] = {' % (thread_max_bytes))

	for i in range(0, thread_max_bytes):
	fp.write(' 0x%x, ' % (thread_idx_map[i]))

	fp.write('};\n')


	driver_macro_tpl = """
	#define Z_SYSCALL_DRIVER_%(driver_upper)s(ptr, op) Z_SYSCALL_DRIVER_GEN(ptr, op, %(driver_lower)s, %(driver_upper)s)
	"""


	def write_validation_output(fp):
	fp.write("#ifndef DRIVER_VALIDATION_GEN_H\n")
	fp.write("#define DRIVER_VALIDATION_GEN_H\n")

	fp.write("""#define Z_SYSCALL_DRIVER_GEN(ptr, op, driver_lower_case, driver_upper_case) \\
	(Z_SYSCALL_OBJ(ptr, K_OBJ_DRIVER_##driver_upper_case) \|\| \\
	Z_SYSCALL_DRIVER_OP(ptr, driver_lower_case##_driver_api, op))
	""")

	for subsystem in subsystems:
	subsystem = subsystem.replace("_driver_api", "")

	fp.write(driver_macro_tpl % {
	"driver_lower": subsystem.lower(),
	"driver_upper": subsystem.upper(),
	})

	fp.write("#endif /* DRIVER_VALIDATION_GEN_H */\n")


	def write_kobj_types_output(fp):
	fp.write("/* Core kernel objects */\n")
	for kobj, dep in kobjects.items():
	if kobj == "device":
	continue

	if dep:
	fp.write("#ifdef %s\n" % dep)

	fp.write("%s,\n" % kobject_to_enum(kobj))

	if dep:
	fp.write("#endif\n")

	fp.write("/* Driver subsystems */\n")
	for subsystem in subsystems:
	subsystem = subsystem.replace("_driver_api", "").upper()
	fp.write("K_OBJ_DRIVER_%s,\n" % subsystem)


	def write_kobj_otype_output(fp):
	fp.write("/* Core kernel objects */\n")
	for kobj, dep in kobjects.items():
	if kobj == "device":
	continue

	if dep:
	fp.write("#ifdef %s\n" % dep)

	fp.write('case %s: ret = "%s"; break;\n' %
	(kobject_to_enum(kobj), kobj))
	if dep:
	fp.write("#endif\n")

	fp.write("/* Driver subsystems */\n")
	for subsystem in subsystems:
	subsystem = subsystem.replace("_driver_api", "")
	fp.write('case K_OBJ_DRIVER_%s: ret = "%s driver"; break;\n' % (
	subsystem.upper(),
	subsystem
	))


	def write_kobj_size_output(fp):
	fp.write("/* Non device/stack objects */\n")
	for kobj, dep in kobjects.items():
	# device handled by default case. Stacks are not currently handled,
	# if they eventually are it will be a special case.
	if kobj == "device" or kobj == "_k_thread_stack_element":
	continue

	if dep:
	fp.write("#ifdef %s\n" % dep)

	fp.write('case %s: ret = sizeof(struct %s); break;\n' %
	(kobject_to_enum(kobj), kobj))
	if dep:
	fp.write("#endif\n")


	def parse_args():
	global args

	parser = argparse.ArgumentParser(
	description=__doc__,
	formatter_class=argparse.RawDescriptionHelpFormatter)

	parser.add_argument("-k", "--kernel", required=False,
	help="Input zephyr ELF binary")
	parser.add_argument(
	"-g", "--gperf-output", required=False,
	help="Output list of kernel object addresses for gperf use")
	parser.add_argument(
	"-V", "--validation-output", required=False,
	help="Output driver validation macros")
	parser.add_argument(
	"-K", "--kobj-types-output", required=False,
	help="Output k_object enum values")
	parser.add_argument(
	"-S", "--kobj-otype-output", required=False,
	help="Output case statements for otype_to_str()")
	parser.add_argument(
	"-Z", "--kobj-size-output", required=False,
	help="Output case statements for obj_size_get()")
	parser.add_argument("-v", "--verbose", action="store_true",
	help="Print extra debugging information")
	args = parser.parse_args()
	if "VERBOSE" in os.environ:
	args.verbose = 1


	def main():
	parse_args()

	if args.gperf_output:
	eh = ElfHelper(args.kernel, args.verbose, kobjects, subsystems)
	syms = eh.get_symbols()
	max_threads = syms["CONFIG_MAX_THREAD_BYTES"] * 8
	objs = eh.find_kobjects(syms)

	thread_counter = eh.get_thread_counter()
	if thread_counter > max_threads:
	sys.stderr.write("Too many thread objects (%d)\n" % thread_counter)
	sys.stderr.write("Increase CONFIG_MAX_THREAD_BYTES to %d\n",
	-(-thread_counter // 8))
	sys.exit(1)

	with open(args.gperf_output, "w") as fp:
	write_gperf_table(fp, eh, objs,
	syms["_static_kernel_objects_begin"],
	syms["_static_kernel_objects_end"])

	if args.validation_output:
	with open(args.validation_output, "w") as fp:
	write_validation_output(fp)

	if args.kobj_types_output:
	with open(args.kobj_types_output, "w") as fp:
	write_kobj_types_output(fp)

	if args.kobj_otype_output:
	with open(args.kobj_otype_output, "w") as fp:
	write_kobj_otype_output(fp)

	if args.kobj_size_output:
	with open(args.kobj_size_output, "w") as fp:
	write_kobj_size_output(fp)


	if __name__ == "__main__":
	main()