Index: test/python_api/value/change_values/TestChangeValueAPI.py =================================================================== --- test/python_api/value/change_values/TestChangeValueAPI.py +++ test/python_api/value/change_values/TestChangeValueAPI.py @@ -138,13 +138,22 @@ # Finally, change the stack pointer to 0, and we should not make it to our end breakpoint. frame0 = thread.GetFrameAtIndex(0) self.assertTrue (frame0.IsValid(), "Second time: got a valid frame.") - sp_value = frame0.FindValue ("sp", lldb.eValueTypeRegister); + sp_value = frame0.FindValue ("sp", lldb.eValueTypeRegister) self.assertTrue (sp_value.IsValid(), "Got a stack pointer value") - result = sp_value.SetValueFromCString("1") + arch = self.getArchitecture() + + #To get invalid address in case of MIPS Architecture when sp value is changed. + if arch == "mips" or arch == "mips64" or arch == "mips32el" or arch == "mips64el": + result = sp_value.SetValueFromCString("100") + else: + result = sp_value.SetValueFromCString("1") self.assertTrue (result, "Setting sp returned true.") actual_value = sp_value.GetValueAsUnsigned (error, 0) self.assertTrue (error.Success(), "Got a changed value for sp") - self.assertTrue (actual_value == 1, "Got the right changed value for sp.") + if arch == "mips" or arch == "mips64" or arch == "mips32el" or arch == "mips64el": + self.assertTrue (actual_value == 100, "Got the right changed value for sp.") + else: + self.assertTrue (actual_value == 1, "Got the right changed value for sp.") # Boundary condition test the SBValue.CreateValueFromExpression() API. # LLDB should not crash! Index: test/tools/lldb-server/gdbremote_testcase.py =================================================================== --- test/tools/lldb-server/gdbremote_testcase.py +++ test/tools/lldb-server/gdbremote_testcase.py @@ -1258,25 +1258,31 @@ args["expected_g_c2"] = "1" (state_reached, step_count) = self.count_single_steps_until_true(main_thread_id, self.g_c1_c2_contents_are, args, max_step_count=25, use_Hc_packet=use_Hc_packet, step_instruction=step_instruction) self.assertTrue(state_reached) + expected_step_count = 1 + arch = self.getArchitecture() + + #MIPS required "3" (ADDIU, SB, LD) machine instructions for updation of variable value + if arch == "mips" or arch == "mips64" or arch == "mips32el" or arch == "mips64el": + expected_step_count = 3 # Verify we hit the next state. args["expected_g_c1"] = "1" args["expected_g_c2"] = "0" (state_reached, step_count) = self.count_single_steps_until_true(main_thread_id, self.g_c1_c2_contents_are, args, max_step_count=5, use_Hc_packet=use_Hc_packet, step_instruction=step_instruction) self.assertTrue(state_reached) - self.assertEquals(step_count, 1) + self.assertEquals(step_count, expected_step_count) # Verify we hit the next state. args["expected_g_c1"] = "0" args["expected_g_c2"] = "0" (state_reached, step_count) = self.count_single_steps_until_true(main_thread_id, self.g_c1_c2_contents_are, args, max_step_count=5, use_Hc_packet=use_Hc_packet, step_instruction=step_instruction) self.assertTrue(state_reached) - self.assertEquals(step_count, 1) + self.assertEquals(step_count, expected_step_count) # Verify we hit the next state. args["expected_g_c1"] = "0" args["expected_g_c2"] = "1" (state_reached, step_count) = self.count_single_steps_until_true(main_thread_id, self.g_c1_c2_contents_are, args, max_step_count=5, use_Hc_packet=use_Hc_packet, step_instruction=step_instruction) self.assertTrue(state_reached) - self.assertEquals(step_count, 1) + self.assertEquals(step_count, expected_step_count)