binutils-gdb/gdb/testsuite/gdb.python/py-send-packet.py
Tom Tromey bf4d777d39 Run 'black' on gdb
Running 'black' on gdb fixed a couple of small issues.  This patch is
the result.
2022-07-15 07:55:32 -06:00

159 lines
5.4 KiB
Python

# Copyright (C) 2021-2022 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 xml.etree.ElementTree as ET
import gdb
# Make use of gdb.RemoteTargetConnection.send_packet to fetch the
# thread list from the remote target.
#
# Sending existing serial protocol packets like this is not a good
# idea, there should be better ways to get this information using an
# official API, this is just being used as a test case.
#
# Really, the send_packet API would be used to send target
# specific packets to the target, but these are, by definition, target
# specific, so hard to test in a general testsuite.
def get_thread_list_str():
start_pos = 0
thread_desc = ""
conn = gdb.selected_inferior().connection
if not isinstance(conn, gdb.RemoteTargetConnection):
raise gdb.GdbError("connection is the wrong type")
while True:
str = conn.send_packet("qXfer:threads:read::%d,200" % start_pos).decode("ascii")
start_pos += 200
c = str[0]
str = str[1:]
thread_desc += str
if c == "l":
break
return thread_desc
# Use gdb.RemoteTargetConnection.send_packet to manually fetch the
# thread list, then extract the thread list using the gdb.Inferior and
# gdb.InferiorThread API. Compare the two results to ensure we
# managed to successfully read the thread list from the remote.
def run_send_packet_test():
# Find the IDs of all current threads.
all_threads = {}
for inf in gdb.inferiors():
for thr in inf.threads():
id = "p%x.%x" % (thr.ptid[0], thr.ptid[1])
all_threads[id] = False
# Now fetch the thread list from the remote, and parse the XML.
str = get_thread_list_str()
threads_xml = ET.fromstring(str)
# Look over all threads in the XML list and check we expected to
# find them, mark the ones we do find.
for thr in threads_xml:
id = thr.get("id")
if not id in all_threads:
raise "found unexpected thread in remote thread list"
else:
all_threads[id] = True
# Check that all the threads were found in the XML list.
for id in all_threads:
if not all_threads[id]:
raise "thread missingt from remote thread list"
# Test complete.
print("Send packet test passed")
# Convert a bytes object to a string. This follows the same rules as
# the 'maint packet' command so that the output from the two sources
# can be compared.
def bytes_to_string(byte_array):
res = ""
for b in byte_array:
b = int(b)
if b >= 32 and b <= 126:
res = res + ("%c" % b)
else:
res = res + ("\\x%02x" % b)
return res
# A very simple test for sending the packet that reads the auxv data.
# We convert the result to a string and expect to find some
# hex-encoded bytes in the output. This test will only work on
# targets that actually supply auxv data.
def run_auxv_send_packet_test(expected_result):
inf = gdb.selected_inferior()
conn = inf.connection
assert isinstance(conn, gdb.RemoteTargetConnection)
res = conn.send_packet("qXfer:auxv:read::0,1000")
assert isinstance(res, bytes)
string = bytes_to_string(res)
assert string.count("\\x") > 0
assert string == expected_result
print("auxv send packet test passed")
# Check that the value of 'global_var' is EXPECTED_VAL.
def check_global_var(expected_val):
val = int(gdb.parse_and_eval("global_var"))
val = val & 0xFFFFFFFF
if val != expected_val:
raise gdb.GdbError("global_var is 0x%x, expected 0x%x" % (val, expected_val))
# Return a bytes object representing an 'X' packet header with
# address ADDR.
def xpacket_header(addr):
return ("X%x,4:" % addr).encode("ascii")
# Set the 'X' packet to the remote target to set a global variable.
# Checks that we can send byte values.
def run_set_global_var_test():
inf = gdb.selected_inferior()
conn = inf.connection
assert isinstance(conn, gdb.RemoteTargetConnection)
addr = gdb.parse_and_eval("&global_var")
res = conn.send_packet("X%x,4:\x01\x01\x01\x01" % addr)
assert isinstance(res, bytes)
check_global_var(0x01010101)
res = conn.send_packet(xpacket_header(addr) + b"\x02\x02\x02\x02")
assert isinstance(res, bytes)
check_global_var(0x02020202)
# This first attempt will not work as we're passing a Unicode string
# containing non-ascii characters.
saw_error = False
try:
res = conn.send_packet("X%x,4:\xff\xff\xff\xff" % addr)
except UnicodeError:
saw_error = True
except:
assert False
assert saw_error
check_global_var(0x02020202)
# Now we pass a bytes object, which will work.
res = conn.send_packet(xpacket_header(addr) + b"\xff\xff\xff\xff")
check_global_var(0xFFFFFFFF)
print("set global_var test passed")
# Just to indicate the file was sourced correctly.
print("Sourcing complete.")