#!/usr/bin/python # IBM_PROLOG_BEGIN_TAG # This is an automatically generated prolog. # # $Source: src/test/testcases/testExecutorPutRing.py $ # # OpenPOWER sbe Project # # Contributors Listed Below - COPYRIGHT 2016 # [+] International Business Machines Corp. # # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or # implied. See the License for the specific language governing # permissions and limitations under the License. # # IBM_PROLOG_END_TAG import testPSUUtil import testRegistry as reg import testUtil #------------------------------- # This is a Test Expected Data #------------------------------- ''' This data are the values or strings that needs to be validated for the test. ''' ''' #------------------------------------------------------------------------------------------------------------------------------ # SBE side test data - Target - Pervasive(Core), Chiplet Id - 32, Ring ID - ec_func(224), mode - 0x0020(RING_MODE_HEADER_CHECK) #------------------------------------------------------------------------------------------------------------------------------ ''' sbe_test_data1 = ( #----------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #----------------------------------------------------------------------------------------------------- ["write", reg.REG_MBOX0, "0000010000F0D301", 8, "None", "Writing to MBOX0 address"], ["write", reg.REG_MBOX1, "0002002000E00020", 8, "None", "Writing to MBOX1 address"], ["write", reg.PSU_SBE_DOORBELL_REG_WO_OR, "8000000000000000", 8, "None", "Update SBE Doorbell register to interrupt SBE"], ) ''' #------------------------------------------------------------------------------------------------------------------------------ # SBE side test data - Target - Pervasive(Perv), Chiplet Id - 1, Ring ID - perv_fure(00), mode - 0x0020(RING_MODE_HEADER_CHECK) #------------------------------------------------------------------------------------------------------------------------------ ''' sbe_test_data2 = ( #-------------------------------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #-------------------------------------------------------------------------------------------------------------------------- ["write", reg.REG_MBOX0, "0000010000F0D301", 8, "None", "Writing to MBOX0 address"], ["write", reg.REG_MBOX1, "0002000100000020", 8, "None", "Writing to MBOX1 address"], ["write", reg.PSU_SBE_DOORBELL_REG_WO_OR, "8000000000000000", 8, "None", "Update SBE Doorbell register to interrupt SBE"], ) ''' #--------------------- # SBE side test data - Target - PROC CHIP, Chiplet Id - x, Ring ID - ob0_fure(118), mode - 0x0020(RING_MODE_HEADER_CHECK) #--------------------- ''' sbe_test_data3 = ( #-------------------------------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #-------------------------------------------------------------------------------------------------------------------------- ["write", reg.REG_MBOX0, "0000010000F0D301", 8, "None", "Writing to MBOX0 address"], ["write", reg.REG_MBOX1, "0000000600760020", 8, "None", "Writing to MBOX1 address"], ["write", reg.PSU_SBE_DOORBELL_REG_WO_OR, "8000000000000000", 8, "None", "Update SBE Doorbell register to interrupt SBE"], ) ''' #------------------------------------------------------------------------------------------------------------------------------ # SBE side test data - Target - EX, Chiplet Id - 32, Ring ID - ex_l3_fure(176), mode - 0x0020(RING_MODE_HEADER_CHECK) #------------------------------------------------------------------------------------------------------------------------------ ''' sbe_test_data4 = ( #----------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #----------------------------------------------------------------------------------------------------- ["write", reg.REG_MBOX0, "0000010000F0D301", 8, "None", "Writing to MBOX0 address"], ["write", reg.REG_MBOX1, "0001002000B00020", 8, "None", "Writing to MBOX1 address"], ["write", reg.PSU_SBE_DOORBELL_REG_WO_OR, "8000000000000000", 8, "None", "Update SBE Doorbell register to interrupt SBE"], ) ''' #------------------------------------------------------------------------------------------------------------------------------ # SBE side test data - Target - Invalid target 0x10, Chiplet Id - 32, Ring ID - ex_l3_refr_repr(248), mode - 0x0020(RING_MODE_HEADER_CHECK) #------------------------------------------------------------------------------------------------------------------------------ ''' sbe_test_data5 = ( #----------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #----------------------------------------------------------------------------------------------------- ["write", reg.REG_MBOX0, "0000010000F0D301", 8, "None", "Writing to MBOX0 address"], ["write", reg.REG_MBOX1, "0010002000F80020", 8, "None", "Writing to MBOX1 address"], ["write", reg.PSU_SBE_DOORBELL_REG_WO_OR, "8000000000000000", 8, "None", "Update SBE Doorbell register to interrupt SBE"], ) ''' #--------------------- # Host side test data - SUCCESS #--------------------- ''' host_test_data_success = ( #---------------------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #---------------------------------------------------------------------------------------------------------------- ["read", reg.REG_MBOX4, "0", 8, "0000000000F0D301", "Reading Host MBOX4 data to Validate"], ) ''' #--------------------- # Host side test data - FAILURE #--------------------- ''' host_test_data_failure5 = ( #---------------------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #---------------------------------------------------------------------------------------------------------------- ["read", reg.REG_MBOX4, "0", 8, "0002000400F0D301", "Reading Host MBOX4 data to Validate"], ) ''' #----------------------------------------------------------------------- # Do not modify - Used to simulate interrupt on Ringing Doorbell on Host #----------------------------------------------------------------------- ''' host_polling_data = ( #---------------------------------------------------------------------------------------------------------------- # OP Reg ValueToWrite size Test Expected Data Description #---------------------------------------------------------------------------------------------------------------- ["read", reg.PSU_HOST_DOORBELL_REG_WO_OR, "0", 8, "8000000000000000", "Reading Host Doorbell for Interrupt"], ) #------------------------- # Main Function #------------------------- def main(): # Run Simics initially testUtil.runCycles( 10000000 ); # Intialize the class obj instances regObj = testPSUUtil.registry() # Registry obj def for operation print "\n Execute SBE Test set1 [ Put Ring ] ...\n" ''' Test Case 1 ''' # HOST->SBE data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, sbe_test_data1 ) print "\n Poll on Host side for INTR ...\n" #Poll on HOST DoorBell Register for interrupt regObj.pollingOn( testPSUUtil.simSbeObj, host_polling_data, 5 ) #SBE->HOST data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, host_test_data_success ) # Commenting out test cases for perv and proc chiplets, as there is no # way to stop cloks for these chiplets from the test framework # print "\n Execute SBE Test set2 [ Put Ring ] ...\n" # ''' # Test Case 2 # ''' # # HOST->SBE data set execution # regObj.ExecuteTestOp( testPSUUtil.simSbeObj, sbe_test_data2 ) # # print "\n Poll on Host side for INTR ...\n" # #Poll on HOST DoorBell Register for interrupt # regObj.pollingOn( testPSUUtil.simSbeObj, host_polling_data, 5 ) # # #SBE->HOST data set execution # regObj.ExecuteTestOp( testPSUUtil.simSbeObj, host_test_data_success ) # # print "\n Execute SBE Test set3 [ Put Ring ] ...\n" # ''' # Test Case 3 # ''' # # HOST->SBE data set execution # regObj.ExecuteTestOp( testPSUUtil.simSbeObj, sbe_test_data3 ) # # print "\n Poll on Host side for INTR ...\n" # #Poll on HOST DoorBell Register for interrupt # regObj.pollingOn( testPSUUtil.simSbeObj, host_polling_data, 5 ) # # #SBE->HOST data set execution # regObj.ExecuteTestOp( testPSUUtil.simSbeObj, host_test_data_success ) # print "\n Execute SBE Test set4 [ Put Ring ] ...\n" ''' Test Case 4 ''' # HOST->SBE data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, sbe_test_data4 ) print "\n Poll on Host side for INTR ...\n" #Poll on HOST DoorBell Register for interrupt regObj.pollingOn( testPSUUtil.simSbeObj, host_polling_data, 5 ) #SBE->HOST data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, host_test_data_success ) print "\n Execute SBE Test set5 [ Put Ring ] ...\n" ''' Test Case 5 ''' # HOST->SBE data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, sbe_test_data5 ) print "\n Poll on Host side for INTR ...\n" #Poll on HOST DoorBell Register for interrupt regObj.pollingOn( testPSUUtil.simSbeObj, host_polling_data, 5 ) #SBE->HOST data set execution regObj.ExecuteTestOp( testPSUUtil.simSbeObj, host_test_data_failure5 ) if __name__ == "__main__": main() if err: print ( "\nTest Suite completed with error(s)" ) #sys.exit(1) else: print ( "\nTest Suite completed with no errors" ) #sys.exit(0);