src/riscv-tests/debug/targets.py - public/gem5-resources - Git at Google

 import importlib
 import os.path
 import re
 import sys
 import tempfile

 import testlib

 class Hart:
     # XLEN of the hart. May be overridden with --32 or --64 command line
     # options.
     xlen = 0

     # Will be autodetected (by running ExamineTarget) if left unset. Set to
     # save a little time.
     misa = None

     # Path to linker script relative to the .py file where the target is
     # defined. Defaults to <name>.lds.
     link_script_path = None

     # Implements dmode in tdata1 as described in the spec. Harts that need
     # this value set to False are not compliant with the spec (but still usable
     # as long as running code doesn't try to mess with triggers set by an
     # external debugger).
     honors_tdata1_hmode = True

     # Address where a r/w/x block of RAM starts, together with its size.
     ram = None
     ram_size = None

     # Address where we expect memory accesses to fail, usually because there is
     # no device mapped to that location.
     bad_address = None

     # Number of instruction triggers the hart supports.
     instruction_hardware_breakpoint_count = 0

     # Defaults to target-<index>
     name = None

     # When reset, the PC must be at one of the values listed here.
     # This is a list because on some boards the reset vector depends on
     # jumpers.
     reset_vectors = []

     # system is set to an identifier of the system this hart belongs to.  Harts
     # within the same system are assumed to share memory, and to have unique
     # hartids within that system.  So for most cases the default value of None
     # is fine.
     system = None

     def __init__(self, misa=None, system=None, link_script_path=None):
         if misa:
             self.misa = misa
         if system:
             self.system = system
         if link_script_path:
             self.link_script_path = link_script_path

     def extensionSupported(self, letter):
         # target.misa is set by testlib.ExamineTarget
         if self.misa:
             return self.misa & (1 << (ord(letter.upper()) - ord('A')))
         return False

 class Target:
     # pylint: disable=too-many-instance-attributes

     # List of Hart object instances, one for each hart in the target.
     harts = []

     # Name of the target. Defaults to the name of the class.
     name = None

     # GDB remotetimeout setting.
     timeout_sec = 2

     # Timeout waiting for the server to start up. This is different than the
     # GDB timeout, which is how long GDB waits for commands to execute.
     # The server_timeout is how long this script waits for the server to be
     # ready for GDB connections.
     server_timeout_sec = 60

     # Path to OpenOCD configuration file relative to the .py file where the
     # target is defined. Defaults to <name>.cfg.
     openocd_config_path = None

     # List of commands that should be executed in gdb after connecting but
     # before starting the test.
     gdb_setup = []

     # Supports mtime at 0x2004000
     supports_clint_mtime = True

     # Implements custom debug registers like spike does. It seems unlikely any
     # hardware will every do that.
     implements_custom_test = False

     # When true it indicates that reading invalid memory doesn't return an error
     invalid_memory_returns_zero = False

     # Supports simultaneous resume through hasel.
     support_hasel = True

     # Tests whose names are mentioned in this list will be skipped and marked
     # as not applicable. This is a crude mechanism that can be handy, but in
     # general it's better to define some property like those above that
     # describe behavior of this target, and tests can use that to decide
     # whether they are applicable or not.
     skip_tests = []

     # Set False if semihosting should not be tested in this configuration,
     # because it doesn't work and isn't expected to work.
     test_semihosting = True

     # Set False if manual hwbps (breakpoints set by directly writing tdata*)
     # isn't supposed to work.
     support_manual_hwbp = True

     # Set False if memory sampling is not supported due to OpenOCD
     # limitation/hardware support.
     support_memory_sampling = True

     # Relative path to a FreeRTOS binary compiled from the spike demo project
     # in https://github.com/FreeRTOS/FreeRTOS.
     freertos_binary = None

     # Internal variables:
     directory = None
     temporary_files = []

     def __init__(self, path, parsed):
         # Path to module.
         self.path = path
         self.directory = os.path.dirname(path)
         self.server_cmd = parsed.server_cmd
         self.sim_cmd = parsed.sim_cmd
         self.temporary_binary = None
         self.compiler_supports_v = True
         Target.isolate = parsed.isolate
         if not self.name:
             self.name = type(self).__name__
         # Default OpenOCD config file to <name>.cfg
         if not self.openocd_config_path:
             self.openocd_config_path = "%s.cfg" % self.name
         self.openocd_config_path = os.path.join(self.directory,
                 self.openocd_config_path)
         for i, hart in enumerate(self.harts):
             hart.index = i
             if not hasattr(hart, 'id'):
                 hart.id = i
             if not hart.name:
                 hart.name = "%s-%d" % (self.name, i)
             # Default link script to <name>.lds
             if not hart.link_script_path:
                 hart.link_script_path = "%s.lds" % self.name
             hart.link_script_path = os.path.join(self.directory,
                     hart.link_script_path)

     def create(self):
         """Create the target out of thin air, eg. start a simulator."""

     def server(self, test):
         """Start the debug server that gdb connects to, eg. OpenOCD."""
         return testlib.Openocd(server_cmd=self.server_cmd,
                 config=self.openocd_config_path,
                 timeout=self.server_timeout_sec,
                 freertos=test.freertos())

     def do_compile(self, hart, *sources):
         binary_name = "%s_%s-%x" % (
                 self.name,
                 os.path.basename(os.path.splitext(sources[0])[0]),
                 hart.misa)
         if Target.isolate:
             self.temporary_binary = tempfile.NamedTemporaryFile(
                     prefix=binary_name + "_")
             binary_name = self.temporary_binary.name
             Target.temporary_files.append(self.temporary_binary)

         args = list(sources) + [
                 "programs/entry.S", "programs/init.c",
                 "-DNHARTS=%d" % len(self.harts),
                 "-I", "../env",
                 "-T", hart.link_script_path,
                 "-nostartfiles",
                 "-mcmodel=medany",
                 "-DXLEN=%d" % hart.xlen,
                 "-o", binary_name]

         if hart.extensionSupported('e'):
             args.append("-march=rv32e")
             args.append("-mabi=ilp32e")
             args.append("-DRV32E")
         else:
             march = "rv%dima" % hart.xlen
             for letter in "fdc":
                 if hart.extensionSupported(letter):
                     march += letter
             if hart.extensionSupported("v") and self.compiler_supports_v:
                 march += "v"
             args.append("-march=%s" % march)
             if hart.xlen == 32:
                 args.append("-mabi=ilp32")
             else:
                 args.append("-mabi=lp%d" % hart.xlen)

         testlib.compile(args)
         return binary_name

     def compile(self, hart, *sources):
         for _ in range(2):
             try:
                 return self.do_compile(hart, *sources)
             except testlib.CompileError as e:
                 # If the compiler doesn't support V, disable it from the
                 # current configuration. Eventually all gcc branches will
                 # support V, but we're not there yet.
                 m = re.search(r"Error: cannot find default versions of the "
                         r"ISA extension `(\w)'", e.stderr.decode())
                 if m and m.group(1) in "v":
                     extension = m.group(1)
                     print("Disabling extension %r because the "
                             "compiler doesn't support it." % extension)
                     self.compiler_supports_v = False
                 else:
                     raise

 def add_target_options(parser):
     parser.add_argument("target", help=".py file that contains definition for "
             "the target to test with.")
     parser.add_argument("--sim_cmd",
             help="The command to use to start the actual target (e.g. "
             "simulation)", default="spike")
     parser.add_argument("--server_cmd",
             help="The command to use to start the debug server (e.g. OpenOCD)")

     xlen_group = parser.add_mutually_exclusive_group()
     xlen_group.add_argument("--32", action="store_const", const=32,
             dest="xlen", default=0, help="Force the target to be 32-bit.")
     xlen_group.add_argument("--64", action="store_const", const=64,
             dest="xlen", default=0, help="Force the target to be 64-bit.")

     parser.add_argument("--isolate", action="store_true",
             help="Try to run in such a way that multiple instances can run at "
             "the same time. This may make it harder to debug a failure if it "
             "does occur.")

 def target(parsed):
     directory = os.path.dirname(parsed.target)
     filename = os.path.basename(parsed.target)
     module_name = os.path.splitext(filename)[0]

     sys.path.append(directory)
     module = importlib.import_module(module_name)
     found = []
     for name in dir(module):
         definition = getattr(module, name)
         if isinstance(definition, type) and issubclass(definition, Target):
             found.append(definition)
     assert len(found) == 1, "%s does not define exactly one subclass of " \
             "targets.Target" % parsed.target

     t = found[0](parsed.target, parsed)
     assert t.harts, "%s doesn't have any harts defined!" % t.name
     if parsed.xlen > 0:
         for h in t.harts:
             if h.xlen == 0:
                 h.xlen = parsed.xlen
             elif h.xlen != parsed.xlen:
                 raise Exception("The target hart specified an XLEN of %d, but "\
                         "the command line specified an XLEN of %d. They must "\
                         "match." % (h.xlen, parsed.xlen))

     return t
	import importlib
	import os.path
	import re
	import sys
	import tempfile

	import testlib

	class Hart:
	# XLEN of the hart. May be overridden with --32 or --64 command line
	# options.
	xlen = 0

	# Will be autodetected (by running ExamineTarget) if left unset. Set to
	# save a little time.
	misa = None

	# Path to linker script relative to the .py file where the target is
	# defined. Defaults to <name>.lds.
	link_script_path = None

	# Implements dmode in tdata1 as described in the spec. Harts that need
	# this value set to False are not compliant with the spec (but still usable
	# as long as running code doesn't try to mess with triggers set by an
	# external debugger).
	honors_tdata1_hmode = True

	# Address where a r/w/x block of RAM starts, together with its size.
	ram = None
	ram_size = None

	# Address where we expect memory accesses to fail, usually because there is
	# no device mapped to that location.
	bad_address = None

	# Number of instruction triggers the hart supports.
	instruction_hardware_breakpoint_count = 0

	# Defaults to target-<index>
	name = None

	# When reset, the PC must be at one of the values listed here.
	# This is a list because on some boards the reset vector depends on
	# jumpers.
	reset_vectors = []

	# system is set to an identifier of the system this hart belongs to. Harts
	# within the same system are assumed to share memory, and to have unique
	# hartids within that system. So for most cases the default value of None
	# is fine.
	system = None

	def __init__(self, misa=None, system=None, link_script_path=None):
	if misa:
	self.misa = misa
	if system:
	self.system = system
	if link_script_path:
	self.link_script_path = link_script_path

	def extensionSupported(self, letter):
	# target.misa is set by testlib.ExamineTarget
	if self.misa:
	return self.misa & (1 << (ord(letter.upper()) - ord('A')))
	return False

	class Target:
	# pylint: disable=too-many-instance-attributes

	# List of Hart object instances, one for each hart in the target.
	harts = []

	# Name of the target. Defaults to the name of the class.
	name = None

	# GDB remotetimeout setting.
	timeout_sec = 2

	# Timeout waiting for the server to start up. This is different than the
	# GDB timeout, which is how long GDB waits for commands to execute.
	# The server_timeout is how long this script waits for the server to be
	# ready for GDB connections.
	server_timeout_sec = 60

	# Path to OpenOCD configuration file relative to the .py file where the
	# target is defined. Defaults to <name>.cfg.
	openocd_config_path = None

	# List of commands that should be executed in gdb after connecting but
	# before starting the test.
	gdb_setup = []

	# Supports mtime at 0x2004000
	supports_clint_mtime = True

	# Implements custom debug registers like spike does. It seems unlikely any
	# hardware will every do that.
	implements_custom_test = False

	# When true it indicates that reading invalid memory doesn't return an error
	invalid_memory_returns_zero = False

	# Supports simultaneous resume through hasel.
	support_hasel = True

	# Tests whose names are mentioned in this list will be skipped and marked
	# as not applicable. This is a crude mechanism that can be handy, but in
	# general it's better to define some property like those above that
	# describe behavior of this target, and tests can use that to decide
	# whether they are applicable or not.
	skip_tests = []

	# Set False if semihosting should not be tested in this configuration,
	# because it doesn't work and isn't expected to work.
	test_semihosting = True

	# Set False if manual hwbps (breakpoints set by directly writing tdata*)
	# isn't supposed to work.
	support_manual_hwbp = True

	# Set False if memory sampling is not supported due to OpenOCD
	# limitation/hardware support.
	support_memory_sampling = True

	# Relative path to a FreeRTOS binary compiled from the spike demo project
	# in https://github.com/FreeRTOS/FreeRTOS.
	freertos_binary = None

	# Internal variables:
	directory = None
	temporary_files = []

	def __init__(self, path, parsed):
	# Path to module.
	self.path = path
	self.directory = os.path.dirname(path)
	self.server_cmd = parsed.server_cmd
	self.sim_cmd = parsed.sim_cmd
	self.temporary_binary = None
	self.compiler_supports_v = True
	Target.isolate = parsed.isolate
	if not self.name:
	self.name = type(self).__name__
	# Default OpenOCD config file to <name>.cfg
	if not self.openocd_config_path:
	self.openocd_config_path = "%s.cfg" % self.name
	self.openocd_config_path = os.path.join(self.directory,
	self.openocd_config_path)
	for i, hart in enumerate(self.harts):
	hart.index = i
	if not hasattr(hart, 'id'):
	hart.id = i
	if not hart.name:
	hart.name = "%s-%d" % (self.name, i)
	# Default link script to <name>.lds
	if not hart.link_script_path:
	hart.link_script_path = "%s.lds" % self.name
	hart.link_script_path = os.path.join(self.directory,
	hart.link_script_path)

	def create(self):
	"""Create the target out of thin air, eg. start a simulator."""

	def server(self, test):
	"""Start the debug server that gdb connects to, eg. OpenOCD."""
	return testlib.Openocd(server_cmd=self.server_cmd,
	config=self.openocd_config_path,
	timeout=self.server_timeout_sec,
	freertos=test.freertos())

	def do_compile(self, hart, *sources):
	binary_name = "%s_%s-%x" % (
	self.name,
	os.path.basename(os.path.splitext(sources[0])[0]),
	hart.misa)
	if Target.isolate:
	self.temporary_binary = tempfile.NamedTemporaryFile(
	prefix=binary_name + "_")
	binary_name = self.temporary_binary.name
	Target.temporary_files.append(self.temporary_binary)

	args = list(sources) + [
	"programs/entry.S", "programs/init.c",
	"-DNHARTS=%d" % len(self.harts),
	"-I", "../env",
	"-T", hart.link_script_path,
	"-nostartfiles",
	"-mcmodel=medany",
	"-DXLEN=%d" % hart.xlen,
	"-o", binary_name]

	if hart.extensionSupported('e'):
	args.append("-march=rv32e")
	args.append("-mabi=ilp32e")
	args.append("-DRV32E")
	else:
	march = "rv%dima" % hart.xlen
	for letter in "fdc":
	if hart.extensionSupported(letter):
	march += letter
	if hart.extensionSupported("v") and self.compiler_supports_v:
	march += "v"
	args.append("-march=%s" % march)
	if hart.xlen == 32:
	args.append("-mabi=ilp32")
	else:
	args.append("-mabi=lp%d" % hart.xlen)

	testlib.compile(args)
	return binary_name

	def compile(self, hart, *sources):
	for _ in range(2):
	try:
	return self.do_compile(hart, *sources)
	except testlib.CompileError as e:
	# If the compiler doesn't support V, disable it from the
	# current configuration. Eventually all gcc branches will
	# support V, but we're not there yet.
	m = re.search(r"Error: cannot find default versions of the "
	r"ISA extension `(\w)'", e.stderr.decode())
	if m and m.group(1) in "v":
	extension = m.group(1)
	print("Disabling extension %r because the "
	"compiler doesn't support it." % extension)
	self.compiler_supports_v = False
	else:
	raise

	def add_target_options(parser):
	parser.add_argument("target", help=".py file that contains definition for "
	"the target to test with.")
	parser.add_argument("--sim_cmd",
	help="The command to use to start the actual target (e.g. "
	"simulation)", default="spike")
	parser.add_argument("--server_cmd",
	help="The command to use to start the debug server (e.g. OpenOCD)")

	xlen_group = parser.add_mutually_exclusive_group()
	xlen_group.add_argument("--32", action="store_const", const=32,
	dest="xlen", default=0, help="Force the target to be 32-bit.")
	xlen_group.add_argument("--64", action="store_const", const=64,
	dest="xlen", default=0, help="Force the target to be 64-bit.")

	parser.add_argument("--isolate", action="store_true",
	help="Try to run in such a way that multiple instances can run at "
	"the same time. This may make it harder to debug a failure if it "
	"does occur.")

	def target(parsed):
	directory = os.path.dirname(parsed.target)
	filename = os.path.basename(parsed.target)
	module_name = os.path.splitext(filename)[0]

	sys.path.append(directory)
	module = importlib.import_module(module_name)
	found = []
	for name in dir(module):
	definition = getattr(module, name)
	if isinstance(definition, type) and issubclass(definition, Target):
	found.append(definition)
	assert len(found) == 1, "%s does not define exactly one subclass of " \
	"targets.Target" % parsed.target

	t = found[0](parsed.target, parsed)
	assert t.harts, "%s doesn't have any harts defined!" % t.name
	if parsed.xlen > 0:
	for h in t.harts:
	if h.xlen == 0:
	h.xlen = parsed.xlen
	elif h.xlen != parsed.xlen:
	raise Exception("The target hart specified an XLEN of %d, but "\
	"the command line specified an XLEN of %d. They must "\
	"match." % (h.xlen, parsed.xlen))

	return t