@@ -93,12 +93,21 @@ run-gdbstub-thread-breakpoint: testthread
--qemu $(QEMU) --qargs "$(QEMU_OPTS)" \
--bin $< --test $(MULTIARCH_SRC)/gdbstub/test-thread-breakpoint.py, \
hitting a breakpoint on non-main thread)
+
+run-gdbstub-registers: sha512
+ $(call run-test, $@, $(GDB_SCRIPT) \
+ --gdb $(GDB) \
+ --qemu $(QEMU) --qargs "$(QEMU_OPTS)" \
+ --bin $< --test $(MULTIARCH_SRC)/gdbstub/registers.py, \
+ checking register enumeration)
+
else
run-gdbstub-%:
$(call skip-test, "gdbstub test $*", "need working gdb with $(patsubst -%,,$(TARGET_NAME)) support")
endif
EXTRA_RUNS += run-gdbstub-sha1 run-gdbstub-qxfer-auxv-read \
- run-gdbstub-proc-mappings run-gdbstub-thread-breakpoint
+ run-gdbstub-proc-mappings run-gdbstub-thread-breakpoint \
+ run-gdbstub-registers
# ARM Compatible Semi Hosting Tests
#
new file mode 100644
@@ -0,0 +1,196 @@
+# Exercise the register functionality by exhaustively iterating
+# through all supported registers on the system.
+#
+# This is launched via tests/guest-debug/run-test.py but you can also
+# call it directly if using it for debugging/introspection:
+#
+# SPDX-License-Identifier: GPL-2.0-or-later
+
+import gdb
+import sys
+import xml.etree.ElementTree as ET
+
+initial_vlen = 0
+failcount = 0
+
+def report(cond, msg):
+ "Report success/fail of test."
+ if cond:
+ print("PASS: %s" % (msg))
+ else:
+ print("FAIL: %s" % (msg))
+ global failcount
+ failcount += 1
+
+
+def fetch_xml_regmap():
+ """
+ Iterate through the XML descriptions and validate.
+
+ We check for any duplicate registers and report them. Return a
+ reg_map hash containing the names, regnums and initial values of
+ all registers.
+ """
+
+ # First check the XML descriptions we have sent. Most arches
+ # support XML but a few of the ancient ones don't in which case we
+ # need to gracefully fail.
+
+ try:
+ xml = gdb.execute("maint print xml-tdesc", False, True)
+ except (gdb.error):
+ print("SKIP: target does not support XML")
+ return None
+
+ total_regs = 0
+ reg_map = {}
+ frame = gdb.selected_frame()
+
+ tree = ET.fromstring(xml)
+ for f in tree.findall("feature"):
+ name = f.attrib["name"]
+ regs = f.findall("reg")
+
+ total = len(regs)
+ total_regs += total
+ base = int(regs[0].attrib["regnum"])
+ top = int(regs[-1].attrib["regnum"])
+
+ print(f"feature: {name} has {total} registers from {base} to {top}")
+
+ for r in regs:
+ name = r.attrib["name"]
+ regnum = int(r.attrib["regnum"])
+ try:
+ value = frame.read_register(name)
+ except ValueError:
+ report(False, f"failed to read reg: {name}")
+
+ entry = { "name": name, "initial": value, "regnum": regnum }
+
+ if name in reg_map:
+ report(False, f"duplicate register {entry} vs {reg_map[name]}")
+ continue
+
+ reg_map[name] = entry
+
+ # Validate we match
+ report(total_regs == len(reg_map.keys()),
+ f"counted all {total_regs} registers in XML")
+
+ return reg_map
+
+def crosscheck_remote_xml(reg_map):
+ """
+ Cross-check the list of remote-registers with the XML info.
+ """
+
+ remote = gdb.execute("maint print remote-registers", False, True)
+ r_regs = remote.split("\n")
+
+ total_regs = len(reg_map.keys())
+ total_r_regs = 0
+
+ for r in r_regs:
+ fields = r.split()
+ # Some of the registers reported here are "pseudo" registers that
+ # gdb invents based on actual registers so we need to filter them
+ # out.
+ if len(fields) == 8:
+ r_name = fields[0]
+ r_regnum = int(fields[6])
+
+ # check in the XML
+ try:
+ x_reg = reg_map[r_name]
+ except KeyError:
+ report(False, f"{r_name} not in XML description")
+ continue
+
+ x_reg["seen"] = True
+ x_regnum = x_reg["regnum"]
+ if r_regnum != x_regnum:
+ report(False, f"{r_name} {r_regnum} == {x_regnum} (xml)")
+ else:
+ total_r_regs += 1
+
+ # Just print a mismatch in totals as gdb will filter out 64 bit
+ # registers on a 32 bit machine. Also print what is missing to
+ # help with debug.
+ if total_regs != total_r_regs:
+ print(f"xml-tdesc ({total_regs}) and remote-registers ({total_r_regs}) do not agree")
+
+ for x_key in reg_map.keys():
+ x_reg = reg_map[x_key]
+ if "seen" not in x_reg:
+ print(f"{x_reg} wasn't seen in remote-registers")
+
+def complete_and_diff(reg_map):
+ """
+ Let the program run to (almost) completion and then iterate
+ through all the registers we know about and report which ones have
+ changed.
+ """
+ # Let the program get to the end and we can check what changed
+ b = gdb.Breakpoint("_exit")
+ if b.pending: # workaround Microblaze weirdness
+ b.delete()
+ gdb.Breakpoint("_Exit")
+
+ gdb.execute("continue")
+
+ frame = gdb.selected_frame()
+ changed = 0
+
+ for e in reg_map.values():
+ name = e["name"]
+ old_val = e["initial"]
+
+ try:
+ new_val = frame.read_register(name)
+ except:
+ report(False, f"failed to read {name} at end of run")
+ continue
+
+ if new_val != old_val:
+ print(f"{name} changes from {old_val} to {new_val}")
+ changed += 1
+
+ # as long as something changed we can be confident its working
+ report(changed > 0, f"{changed} registers were changed")
+
+
+def run_test():
+ "Run through the tests"
+
+ reg_map = fetch_xml_regmap()
+
+ if reg_map is not None:
+ crosscheck_remote_xml(reg_map)
+ complete_and_diff(reg_map)
+
+
+#
+# This runs as the script it sourced (via -x, via run-test.py)
+#
+try:
+ inferior = gdb.selected_inferior()
+ arch = inferior.architecture()
+ print("ATTACHED: %s" % arch.name())
+except (gdb.error, AttributeError):
+ print("SKIPPING (not connected)", file=sys.stderr)
+ exit(0)
+
+if gdb.parse_and_eval('$pc') == 0:
+ print("SKIP: PC not set")
+ exit(0)
+
+try:
+ run_test()
+except (gdb.error):
+ print ("GDB Exception: %s" % (sys.exc_info()[0]))
+ failcount += 1
+ pass
+
+print("All tests complete: %d failures" % failcount)
+exit(failcount)
@@ -48,9 +48,20 @@ run-gdbstub-untimely-packet: hello
$(call quiet-command, \
(! grep -Fq 'Packet instead of Ack, ignoring it' untimely-packet.gdb.err), \
"GREP", file untimely-packet.gdb.err)
+
+run-gdbstub-registers: memory
+ $(call run-test, $@, $(GDB_SCRIPT) \
+ --gdb $(GDB) \
+ --qemu $(QEMU) \
+ --output $<.registers.gdb.out \
+ --qargs \
+ "-monitor none -display none -chardev file$(COMMA)path=$<.out$(COMMA)id=output $(QEMU_OPTS)" \
+ --bin $< --test $(MULTIARCH_SRC)/gdbstub/registers.py, \
+ softmmu gdbstub support)
else
run-gdbstub-%:
$(call skip-test, "gdbstub test $*", "need working gdb with $(patsubst -%,,$(TARGET_NAME)) support")
endif
-MULTIARCH_RUNS += run-gdbstub-memory run-gdbstub-interrupt run-gdbstub-untimely-packet
+MULTIARCH_RUNS += run-gdbstub-memory run-gdbstub-interrupt \
+ run-gdbstub-untimely-packet run-gdbstub-registers
We already do a couple of "info registers" for specific tests but this is a more comprehensive multiarch test. It also has some output helpful for debugging the gdbstub by showing which XML features are advertised and what the underlying register numbers are. My initial motivation was to see if there are any duplicate register names exposed via the gdbstub while I was reviewing the proposed register interface for TCG plugins. Mismatches between the xml and remote-desc are reported for debugging but do not fail the test. Cc: Akihiko Odaki <akihiko.odaki@daynix.com> Cc: Luis Machado <luis.machado@linaro.org> Message-Id: <20231012170426.1335442-1-alex.bennee@linaro.org> Signed-off-by: Alex Bennée <alex.bennee@linaro.org> Message-Id: <20231103195956.1998255-7-alex.bennee@linaro.org> --- v3 - don't __str__ values when we don't need to - handle _exit/_Exit disparity on Microblaze - move seen test outside try/except - report failed register reads --- tests/tcg/multiarch/Makefile.target | 11 +- tests/tcg/multiarch/gdbstub/registers.py | 196 ++++++++++++++++++ .../multiarch/system/Makefile.softmmu-target | 13 +- 3 files changed, 218 insertions(+), 2 deletions(-) create mode 100644 tests/tcg/multiarch/gdbstub/registers.py