tests/tcg/aarch64/gdbstub/test-sve-ioctl.py - qemu - Git at Google

 from __future__ import print_function
 #
 # Test the SVE ZReg reports the right amount of data. It uses the
 # sve-ioctl test and examines the register data each time the
 # __sve_ld_done breakpoint is hit.
 #
 # This is launched via tests/guest-debug/run-test.py
 #

 import gdb
 from test_gdbstub import main, report

 initial_vlen = 0


 class TestBreakpoint(gdb.Breakpoint):
     def __init__(self, sym_name="__sve_ld_done"):
         super(TestBreakpoint, self).__init__(sym_name)
         # self.sym, ok = gdb.lookup_symbol(sym_name)

     def stop(self):
         val_i = gdb.parse_and_eval('i')
         global initial_vlen
         try:
             for i in range(0, int(val_i)):
                 val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
                 report(int(val_z) == i, "z0.b.u[%d] == %d" % (i, i))
             for i in range(i + 1, initial_vlen):
                 val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
                 report(int(val_z) == 0, "z0.b.u[%d] == 0" % (i))
         except gdb.error:
             report(False, "checking zregs (out of range)")

         # Check the aliased V registers are set and GDB has correctly
         # created them for us having recognised and handled SVE.
         try:
             for i in range(0, 16):
                 val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
                 val_v = gdb.parse_and_eval("$v0.b.u[%d]" % i)
                 report(int(val_z) == int(val_v),
                        "v0.b.u[%d] == z0.b.u[%d]" % (i, i))
         except gdb.error:
             report(False, "checking vregs (out of range)")


 def run_test():
     "Run through the tests one by one"

     print ("Setup breakpoint")
     bp = TestBreakpoint()

     global initial_vlen
     vg = gdb.parse_and_eval("$vg")
     initial_vlen = int(vg) * 8

     gdb.execute("c")


 main(run_test, expected_arch="aarch64")
	from __future__ import print_function
	#
	# Test the SVE ZReg reports the right amount of data. It uses the
	# sve-ioctl test and examines the register data each time the
	# __sve_ld_done breakpoint is hit.
	#
	# This is launched via tests/guest-debug/run-test.py
	#

	import gdb
	from test_gdbstub import main, report

	initial_vlen = 0


	class TestBreakpoint(gdb.Breakpoint):
	def __init__(self, sym_name="__sve_ld_done"):
	super(TestBreakpoint, self).__init__(sym_name)
	# self.sym, ok = gdb.lookup_symbol(sym_name)

	def stop(self):
	val_i = gdb.parse_and_eval('i')
	global initial_vlen
	try:
	for i in range(0, int(val_i)):
	val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
	report(int(val_z) == i, "z0.b.u[%d] == %d" % (i, i))
	for i in range(i + 1, initial_vlen):
	val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
	report(int(val_z) == 0, "z0.b.u[%d] == 0" % (i))
	except gdb.error:
	report(False, "checking zregs (out of range)")

	# Check the aliased V registers are set and GDB has correctly
	# created them for us having recognised and handled SVE.
	try:
	for i in range(0, 16):
	val_z = gdb.parse_and_eval("$z0.b.u[%d]" % i)
	val_v = gdb.parse_and_eval("$v0.b.u[%d]" % i)
	report(int(val_z) == int(val_v),
	"v0.b.u[%d] == z0.b.u[%d]" % (i, i))
	except gdb.error:
	report(False, "checking vregs (out of range)")


	def run_test():
	"Run through the tests one by one"

	print ("Setup breakpoint")
	bp = TestBreakpoint()

	global initial_vlen
	vg = gdb.parse_and_eval("$vg")
	initial_vlen = int(vg) * 8

	gdb.execute("c")


	main(run_test, expected_arch="aarch64")