gdb/testsuite/gdb.python/py-inferior-leak.py - binutils-gdb - Git at Google

 # Copyright (C) 2021 Free Software Foundation, Inc.

 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 3 of the License, or
 # (at your option) any later version.
 #
 # This program is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 # GNU General Public License for more details.
 #
 # You should have received a copy of the GNU General Public License
 # along with this program.  If not, see <http://www.gnu.org/licenses/>.

 import tracemalloc
 import gdb
 import re

 # A global variable in which we store a reference to the gdb.Inferior
 # object sent to us in the new_inferior event.
 inf = None

 # Register the new_inferior event handler.
 def new_inferior_handler(event):
     global inf
     inf = event.inferior


 gdb.events.new_inferior.connect(new_inferior_handler)

 # A global filters list, we only care about memory allocations
 # originating from this script.
 filters = [tracemalloc.Filter(True, "*py-inferior-leak.py")]

 # Add a new inferior, and return the number of the new inferior.
 def add_inferior():
     output = gdb.execute("add-inferior", False, True)
     m = re.search(r"Added inferior (\d+)", output)
     if m:
         num = int(m.group(1))
     else:
         raise RuntimeError("no match")
     return num


 # Run the test.  When CLEAR is True we clear the global INF variable
 # before comparing the before and after memory allocation traces.
 # When CLEAR is False we leave INF set to reference the gdb.Inferior
 # object, thus preventing the gdb.Inferior from being deallocated.
 def test(clear):
     global filters, inf

     # Start tracing, and take a snapshot of the current allocations.
     tracemalloc.start()
     snapshot1 = tracemalloc.take_snapshot()

     # Create an inferior, this triggers the new_inferior event, which
     # in turn holds a reference to the new gdb.Inferior object in the
     # global INF variable.
     num = add_inferior()
     gdb.execute("remove-inferiors %s" % num)

     # Possibly clear the global INF variable.
     if clear:
         inf = None

     # Now grab a second snapshot of memory allocations, and stop
     # tracing memory allocations.
     snapshot2 = tracemalloc.take_snapshot()
     tracemalloc.stop()

     # Filter the snapshots; we only care about allocations originating
     # from this file.
     snapshot1 = snapshot1.filter_traces(filters)
     snapshot2 = snapshot2.filter_traces(filters)

     # Compare the snapshots, this leaves only things that were
     # allocated, but not deallocated since the first snapshot.
     stats = snapshot2.compare_to(snapshot1, "traceback")

     # Total up all the deallocated things.
     total = 0
     for stat in stats:
         total += stat.size_diff
     return total


 # The first time we run this some global state will be allocated which
 # shows up as memory that is allocated, but not released.  So, run the
 # test once and discard the result.
 test(True)

 # Now run the test twice, the first time we clear our global reference
 # to the gdb.Inferior object, which should allow Python to deallocate
 # the object.  The second time we hold onto the global reference,
 # preventing Python from performing the deallocation.
 bytes_with_clear = test(True)
 bytes_without_clear = test(False)

 # The bug that used to exist in GDB was that even when we released the
 # global reference the gdb.Inferior object would not be deallocated.
 if bytes_with_clear > 0:
     raise gdb.GdbError("memory leak when gdb.Inferior should be released")
 if bytes_without_clear == 0:
     raise gdb.GdbError("gdb.Inferior object is no longer allocated")

 # Print a PASS message that the test script can see.
 print("PASS")
	# Copyright (C) 2021 Free Software Foundation, Inc.

	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 3 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program. If not, see <http://www.gnu.org/licenses/>.

	import tracemalloc
	import gdb
	import re

	# A global variable in which we store a reference to the gdb.Inferior
	# object sent to us in the new_inferior event.
	inf = None

	# Register the new_inferior event handler.
	def new_inferior_handler(event):
	global inf
	inf = event.inferior


	gdb.events.new_inferior.connect(new_inferior_handler)

	# A global filters list, we only care about memory allocations
	# originating from this script.
	filters = [tracemalloc.Filter(True, "*py-inferior-leak.py")]

	# Add a new inferior, and return the number of the new inferior.
	def add_inferior():
	output = gdb.execute("add-inferior", False, True)
	m = re.search(r"Added inferior (\d+)", output)
	if m:
	num = int(m.group(1))
	else:
	raise RuntimeError("no match")
	return num


	# Run the test. When CLEAR is True we clear the global INF variable
	# before comparing the before and after memory allocation traces.
	# When CLEAR is False we leave INF set to reference the gdb.Inferior
	# object, thus preventing the gdb.Inferior from being deallocated.
	def test(clear):
	global filters, inf

	# Start tracing, and take a snapshot of the current allocations.
	tracemalloc.start()
	snapshot1 = tracemalloc.take_snapshot()

	# Create an inferior, this triggers the new_inferior event, which
	# in turn holds a reference to the new gdb.Inferior object in the
	# global INF variable.
	num = add_inferior()
	gdb.execute("remove-inferiors %s" % num)

	# Possibly clear the global INF variable.
	if clear:
	inf = None

	# Now grab a second snapshot of memory allocations, and stop
	# tracing memory allocations.
	snapshot2 = tracemalloc.take_snapshot()
	tracemalloc.stop()

	# Filter the snapshots; we only care about allocations originating
	# from this file.
	snapshot1 = snapshot1.filter_traces(filters)
	snapshot2 = snapshot2.filter_traces(filters)

	# Compare the snapshots, this leaves only things that were
	# allocated, but not deallocated since the first snapshot.
	stats = snapshot2.compare_to(snapshot1, "traceback")

	# Total up all the deallocated things.
	total = 0
	for stat in stats:
	total += stat.size_diff
	return total


	# The first time we run this some global state will be allocated which
	# shows up as memory that is allocated, but not released. So, run the
	# test once and discard the result.
	test(True)

	# Now run the test twice, the first time we clear our global reference
	# to the gdb.Inferior object, which should allow Python to deallocate
	# the object. The second time we hold onto the global reference,
	# preventing Python from performing the deallocation.
	bytes_with_clear = test(True)
	bytes_without_clear = test(False)

	# The bug that used to exist in GDB was that even when we released the
	# global reference the gdb.Inferior object would not be deallocated.
	if bytes_with_clear > 0:
	raise gdb.GdbError("memory leak when gdb.Inferior should be released")
	if bytes_without_clear == 0:
	raise gdb.GdbError("gdb.Inferior object is no longer allocated")

	# Print a PASS message that the test script can see.
	print("PASS")