util/cpt_upgraders/armv8.py - public/gem5 - Git at Google

 # Add all ARMv8 state
 def upgrader(cpt):
     if cpt.get('root', 'isa', fallback='') != 'arm':
         return
     import re
     print("Warning: The size of the FP register file has changed. "
           "To get similar results you need to adjust the number of "
           "physical registers in the CPU you're restoring into by "
           "NNNN.")
     # Find the CPU context's and upgrade their registers
     for sec in cpt.sections():
         re_xc_match = re.match('^.*?sys.*?\.cpu(\d+)*\.xc\.*', sec)
         if not re_xc_match:
             continue

         # Update floating point regs
         fpr = cpt.get(sec, 'floatRegs.i').split()
         # v8 has 128 normal fp and 32 special fp regs compared
         # to v7's 64 normal fp and 8 special fp regs.
         # Insert the extra normal fp registers at end of v7 normal fp regs
         for x in range(64):
             fpr.insert(64, "0")
         # Append the extra special registers
         for x in range(24):
             fpr.append("0")
         cpt.set(sec, 'floatRegs.i', ' '.join(str(x) for x in fpr))

         ir = cpt.get(sec, 'intRegs').split()
         # Add in v8 int reg state
         # Splice in R13_HYP
         ir.insert(20, "0")
         # Splice in INTREG_DUMMY and SP0 - SP3
         ir.extend(["0", "0", "0", "0", "0"])
         cpt.set(sec, 'intRegs', ' '.join(str(x) for x in ir))

     # Update the cpu interrupt field
     for sec in cpt.sections():
         re_int_match = re.match("^.*?sys.*?\.cpu(\d+)*$", sec)
         if not re_int_match:
             continue

         irqs = cpt.get(sec, "interrupts").split()
         irqs.append("false")
         irqs.append("false")
         cpt.set(sec, "interrupts", ' '.join(str(x) for x in irqs))

     # Update the per cpu interrupt structure
     for sec in cpt.sections():
         re_int_match = re.match("^.*?sys.*?\.cpu(\d+)*\.interrupts$", sec)
         if not re_int_match:
             continue

         irqs = cpt.get(sec, "interrupts").split()
         irqs.append("false")
         irqs.append("false")
         cpt.set(sec, "interrupts", ' '.join(str(x) for x in irqs))

     # Update the misc regs and add in new isa specific fields
     for sec in cpt.sections():
         re_isa_match = re.match("^.*?sys.*?\.cpu(\d+)*\.isa$", sec)
         if not re_isa_match:
             continue

         cpt.set(sec, 'haveSecurity', 'false')
         cpt.set(sec, 'haveLPAE', 'false')
         cpt.set(sec, 'haveVirtualization', 'false')
         cpt.set(sec, 'haveLargeAsid64', 'false')
         cpt.set(sec, 'physAddrRange64', '40')

         # splice in the new misc registers, ~200 -> 605 registers,
         # ordering does not remain consistent
         mr_old = cpt.get(sec, 'miscRegs').split()
         mr_new = [ '0' for x in range(605) ]

         # map old v7 miscRegs to new v8 miscRegs
         mr_new[0] = mr_old[0] # CPSR
         mr_new[16] = mr_old[1] # CPSR_Q
         mr_new[1] = mr_old[2] # SPSR
         mr_new[2] = mr_old[3] # SPSR_FIQ
         mr_new[3] = mr_old[4] # SPSR_IRQ
         mr_new[4] = mr_old[5] # SPSR_SVC
         mr_new[5] = mr_old[6] # SPSR_MON
         mr_new[8] = mr_old[7] # SPSR_UND
         mr_new[6] = mr_old[8] # SPSR_ABT
         mr_new[432] = mr_old[9] # FPSR
         mr_new[10] = mr_old[10] # FPSID
         mr_new[11] = mr_old[11] # FPSCR
         mr_new[18] = mr_old[12] # FPSCR_QC
         mr_new[17] = mr_old[13] # FPSCR_EXC
         mr_new[14] = mr_old[14] # FPEXC
         mr_new[13] = mr_old[15] # MVFR0
         mr_new[12] = mr_old[16] # MVFR1
         mr_new[28] = mr_old[17] # SCTLR_RST,
         mr_new[29] = mr_old[18] # SEV_MAILBOX,
         mr_new[30] = mr_old[19] # DBGDIDR
         mr_new[31] = mr_old[20] # DBGDSCR_INT,
         mr_new[33] = mr_old[21] # DBGDTRRX_INT,
         mr_new[34] = mr_old[22] # DBGTRTX_INT,
         mr_new[35] = mr_old[23] # DBGWFAR,
         mr_new[36] = mr_old[24] # DBGVCR,
         #mr_new[] = mr_old[25] # DBGECR -> UNUSED,
         #mr_new[] = mr_old[26] # DBGDSCCR -> UNUSED,
         #mr_new[] = mr_old[27] # DBGSMCR -> UNUSED,
         mr_new[37] = mr_old[28] # DBGDTRRX_EXT,
         mr_new[38] = mr_old[29] # DBGDSCR_EXT,
         mr_new[39] = mr_old[30] # DBGDTRTX_EXT,
         #mr_new[] = mr_old[31] # DBGDRCR -> UNUSED,
         mr_new[41] = mr_old[32] # DBGBVR,
         mr_new[47] = mr_old[33] # DBGBCR,
         #mr_new[] = mr_old[34] # DBGBVR_M -> UNUSED,
         #mr_new[] = mr_old[35] # DBGBCR_M -> UNUSED,
         mr_new[61] = mr_old[36] # DBGDRAR,
         #mr_new[] = mr_old[37] # DBGBXVR_M -> UNUSED,
         mr_new[64] = mr_old[38] # DBGOSLAR,
         #mr_new[] = mr_old[39] # DBGOSSRR -> UNUSED,
         mr_new[66] = mr_old[40] # DBGOSDLR,
         mr_new[67] = mr_old[41] # DBGPRCR,
         #mr_new[] = mr_old[42] # DBGPRSR -> UNUSED,
         mr_new[68] = mr_old[43] # DBGDSAR,
         #mr_new[] = mr_old[44] # DBGITCTRL -> UNUSED,
         mr_new[69] = mr_old[45] # DBGCLAIMSET,
         mr_new[70] = mr_old[46] # DBGCLAIMCLR,
         mr_new[71] = mr_old[47] # DBGAUTHSTATUS,
         mr_new[72] = mr_old[48] # DBGDEVID2,
         mr_new[73] = mr_old[49] # DBGDEVID1,
         mr_new[74] = mr_old[50] # DBGDEVID,
         mr_new[77] = mr_old[51] # TEEHBR,
         mr_new[109] = mr_old[52] # v7 SCTLR -> aarc32 SCTLR_NS
         mr_new[189] = mr_old[53] # DCCISW,
         mr_new[188] = mr_old[54] # DCCIMVAC,
         mr_new[183] = mr_old[55] # DCCMVAC,
         mr_new[271] = mr_old[56] # v7 CONTEXTIDR -> aarch32 CONTEXTIDR_NS,
         mr_new[274] = mr_old[57] # v7 TPIDRURW -> aarch32 TPIDRURW_NS,
         mr_new[277] = mr_old[58] # v7 TPIDRURO -> aarch32 TPIDRURO_NS,
         mr_new[280] = mr_old[59] # v7 TPIDRPRW -> aarch32 TPIDRPRW_NS,
         mr_new[170] = mr_old[60] # CP15ISB,
         mr_new[185] = mr_old[61] # CP15DSB,
         mr_new[186] = mr_old[62] # CP15DMB,
         mr_new[114] = mr_old[63] # CPACR,
         mr_new[101] = mr_old[64] # CLIDR,
         mr_new[100] = mr_old[65] # CCSIDR,
         mr_new[104] = mr_old[66] # v7 CSSELR -> aarch32 CSSELR_NS,
         mr_new[163] = mr_old[67] # ICIALLUIS,
         mr_new[168] = mr_old[68] # ICIALLU,
         mr_new[169] = mr_old[69] # ICIMVAU,
         mr_new[172] = mr_old[70] # BPIMVA,
         mr_new[164] = mr_old[71] # BPIALLIS,
         mr_new[171] = mr_old[72] # BPIALL,
         mr_new[80] = mr_old[73] # MIDR,
         mr_new[126] = mr_old[74] # v7 TTBR0 -> aarch32 TTBR0_NS,
         mr_new[129] = mr_old[75] # v7 TTBR1 -> aarch32 TTBR1_NS,
         mr_new[83] = mr_old[76] # TLBTR,
         mr_new[137] = mr_old[77] # v7 DACR -> aarch32 DACR_NS,
         mr_new[192] = mr_old[78] # TLBIALLIS,
         mr_new[193] = mr_old[79] # TLBIMVAIS,
         mr_new[194] = mr_old[80] # TLBIASIDIS,
         mr_new[195] = mr_old[81] # TLBIMVAAIS,
         mr_new[198] = mr_old[82] # ITLBIALL,
         mr_new[199] = mr_old[83] # ITLBIMVA,
         mr_new[200] = mr_old[84] # ITLBIASID,
         mr_new[201] = mr_old[85] # DTLBIALL,
         mr_new[202] = mr_old[86] # DTLBIMVA,
         mr_new[203] = mr_old[87] # DTLBIASID,
         mr_new[204] = mr_old[88] # TLBIALL,
         mr_new[205] = mr_old[89] # TLBIMVA,
         mr_new[206] = mr_old[90] # TLBIASID,
         mr_new[207] = mr_old[91] # TLBIMVAA,
         mr_new[140] = mr_old[92] # v7 DFSR -> aarch32 DFSR_NS,
         mr_new[143] = mr_old[93] # v7 IFSR -> aarch32 IFSR_NS,
         mr_new[155] = mr_old[94] # v7 DFAR -> aarch32 DFAR_NS,
         mr_new[158] = mr_old[95] # v7 IFAR -> aarch32 IFAR_NS,
         mr_new[84] = mr_old[96] # MPIDR,
         mr_new[241] = mr_old[97] # v7 PRRR -> aarch32 PRRR_NS,
         mr_new[247] = mr_old[98] # v7 NMRR -> aarch32 NMRR_NS,
         mr_new[131] = mr_old[99] # TTBCR,
         mr_new[86] = mr_old[100] # ID_PFR0,
         mr_new[81] = mr_old[101] # CTR,
         mr_new[115] = mr_old[102] # SCR,
         # Set the non-secure bit
         scr = int(mr_new[115])
         scr = scr | 0x1
         mr_new[115] = str(scr)
         ###
         mr_new[116] = mr_old[103] # SDER,
         mr_new[165] = mr_old[104] # PAR,
         mr_new[175] = mr_old[105] # V2PCWPR -> ATS1CPR,
         mr_new[176] = mr_old[106] # V2PCWPW -> ATS1CPW,
         mr_new[177] = mr_old[107] # V2PCWUR -> ATS1CUR,
         mr_new[178] = mr_old[108] # V2PCWUW -> ATS1CUW,
         mr_new[179] = mr_old[109] # V2POWPR -> ATS12NSOPR,
         mr_new[180] = mr_old[110] # V2POWPW -> ATS12NSOPW,
         mr_new[181] = mr_old[111] # V2POWUR -> ATS12NSOUR,
         mr_new[182] = mr_old[112] # V2POWUW -> ATS12NWOUW,
         mr_new[90] = mr_old[113] # ID_MMFR0,
         mr_new[92] = mr_old[114] # ID_MMFR2,
         mr_new[93] = mr_old[115] # ID_MMFR3,
         mr_new[112] = mr_old[116] # v7 ACTLR -> aarch32 ACTLR_NS
         mr_new[222] = mr_old[117] # PMCR,
         mr_new[230] = mr_old[118] # PMCCNTR,
         mr_new[223] = mr_old[119] # PMCNTENSET,
         mr_new[224] = mr_old[120] # PMCNTENCLR,
         mr_new[225] = mr_old[121] # PMOVSR,
         mr_new[226] = mr_old[122] # PMSWINC,
         mr_new[227] = mr_old[123] # PMSELR,
         mr_new[228] = mr_old[124] # PMCEID0,
         mr_new[229] = mr_old[125] # PMCEID1,
         mr_new[231] = mr_old[126] # PMXEVTYPER,
         mr_new[233] = mr_old[127] # PMXEVCNTR,
         mr_new[234] = mr_old[128] # PMUSERENR,
         mr_new[235] = mr_old[129] # PMINTENSET,
         mr_new[236] = mr_old[130] # PMINTENCLR,
         mr_new[94] = mr_old[131] # ID_ISAR0,
         mr_new[95] = mr_old[132] # ID_ISAR1,
         mr_new[96] = mr_old[133] # ID_ISAR2,
         mr_new[97] = mr_old[134] # ID_ISAR3,
         mr_new[98] = mr_old[135] # ID_ISAR4,
         mr_new[99] = mr_old[136] # ID_ISAR5,
         mr_new[20] = mr_old[137] # LOCKFLAG,
         mr_new[19] = mr_old[138] # LOCKADDR,
         mr_new[87] = mr_old[139] # ID_PFR1,
         # Set up the processor features register
         pfr = int(mr_new[87])
         pfr = pfr | 0x1011
         mr_new[87] = str(pfr)
         ###
         mr_new[238] = mr_old[140] # L2CTLR,
         mr_new[82] = mr_old[141] # TCMTR
         mr_new[88] = mr_old[142] # ID_DFR0,
         mr_new[89] = mr_old[143] # ID_AFR0,
         mr_new[91] = mr_old[144] # ID_MMFR1,
         mr_new[102] = mr_old[145] # AIDR,
         mr_new[146] = mr_old[146] # v7 ADFSR -> aarch32 ADFSR_NS,
         mr_new[148] = mr_old[147] # AIFSR,
         mr_new[173] = mr_old[148] # DCIMVAC,
         mr_new[174] = mr_old[149] # DCISW,
         mr_new[184] = mr_old[150] # MCCSW -> DCCSW,
         mr_new[187] = mr_old[151] # DCCMVAU,
         mr_new[117] = mr_old[152] # NSACR,
         mr_new[262] = mr_old[153] # VBAR,
         mr_new[265] = mr_old[154] # MVBAR,
         mr_new[267] = mr_old[155] # ISR,
         mr_new[269] = mr_old[156] # FCEIDR -> FCSEIDR,
         #mr_new[] = mr_old[157] # L2LATENCY -> UNUSED,
         #mr_new[] = mr_old[158] # CRN15 -> UNUSED,
         mr_new[599] = mr_old[159] # NOP
         mr_new[600] = mr_old[160] # RAZ,

         # Set the new miscRegs structure
         cpt.set(sec, 'miscRegs', ' '.join(str(x) for x in mr_new))

     cpu_prefix = {}
     # Add in state for ITB/DTB
     for sec in cpt.sections():
         re_tlb_match = re.match('(^.*?sys.*?\.cpu(\d+)*)\.(dtb|itb)$', sec)
         if not re_tlb_match:
             continue

         cpu_prefix[re_tlb_match.group(1)] = True # Save off prefix to add
         # Set the non-secure bit (bit 9) to 1 for attributes
         attr = int(cpt.get(sec, '_attr'))
         attr = attr | 0x200
         cpt.set(sec, '_attr', str(attr))
         cpt.set(sec, 'haveLPAE', 'false')
         cpt.set(sec, 'directToStage2', 'false')
         cpt.set(sec, 'stage2Req', 'false')
         cpt.set(sec, 'bootUncacheability', 'true')

     # Add in extra state for the new TLB Entries
     for sec in cpt.sections():
         re_tlbentry_match = re.match('(^.*?sys.*?\.cpu(\d+)*)\.(dtb|itb).TlbEntry\d+$', sec)
         if not re_tlbentry_match:
             continue

         # Add in the new entries
         cpt.set(sec, 'longDescFormat', 'false')
         cpt.set(sec, 'vmid', '0')
         cpt.set(sec, 'isHyp', 'false')
         valid = cpt.get(sec, 'valid')
         if valid == 'true':
             cpt.set(sec, 'ns', 'true')
             cpt.set(sec, 'nstid', 'true')
             cpt.set(sec, 'pxn', 'true')
             cpt.set(sec, 'hap', '3')
             # All v7 code used 2 level page tables
             cpt.set(sec, 'lookupLevel', '2')
             attr = int(cpt.get(sec, 'attributes'))
             # set the non-secure bit (bit 9) to 1
             # as no previous v7 code used secure code
             attr = attr | 0x200
             cpt.set(sec, 'attributes', str(attr))
         else:
             cpt.set(sec, 'ns', 'false')
             cpt.set(sec, 'nstid', 'false')
             cpt.set(sec, 'pxn', 'false')
             cpt.set(sec, 'hap', '0')
             cpt.set(sec, 'lookupLevel', '0')
         cpt.set(sec, 'outerShareable', 'false')

     # Add d/istage2_mmu and d/istage2_mmu.stage2_tlb
     for key in cpu_prefix:
         for suffix in ['.istage2_mmu', '.dstage2_mmu']:
             new_sec = key + suffix
             cpt.add_section(new_sec)
             new_sec = key + suffix + ".stage2_tlb"
             cpt.add_section(new_sec)
             # Fill in tlb info with some defaults
             cpt.set(new_sec, '_attr', '0')
             cpt.set(new_sec, 'haveLPAE', 'false')
             cpt.set(new_sec, 'directToStage2', 'false')
             cpt.set(new_sec, 'stage2Req', 'false')
             cpt.set(new_sec, 'bootUncacheability', 'false')
             cpt.set(new_sec, 'num_entries', '0')

 legacy_version = 9
	# Add all ARMv8 state
	def upgrader(cpt):
	if cpt.get('root', 'isa', fallback='') != 'arm':
	return
	import re
	print("Warning: The size of the FP register file has changed. "
	"To get similar results you need to adjust the number of "
	"physical registers in the CPU you're restoring into by "
	"NNNN.")
	# Find the CPU context's and upgrade their registers
	for sec in cpt.sections():
	re_xc_match = re.match('^.?sys.?\.cpu(\d+)\.xc\.', sec)
	if not re_xc_match:
	continue

	# Update floating point regs
	fpr = cpt.get(sec, 'floatRegs.i').split()
	# v8 has 128 normal fp and 32 special fp regs compared
	# to v7's 64 normal fp and 8 special fp regs.
	# Insert the extra normal fp registers at end of v7 normal fp regs
	for x in range(64):
	fpr.insert(64, "0")
	# Append the extra special registers
	for x in range(24):
	fpr.append("0")
	cpt.set(sec, 'floatRegs.i', ' '.join(str(x) for x in fpr))

	ir = cpt.get(sec, 'intRegs').split()
	# Add in v8 int reg state
	# Splice in R13_HYP
	ir.insert(20, "0")
	# Splice in INTREG_DUMMY and SP0 - SP3
	ir.extend(["0", "0", "0", "0", "0"])
	cpt.set(sec, 'intRegs', ' '.join(str(x) for x in ir))

	# Update the cpu interrupt field
	for sec in cpt.sections():
	re_int_match = re.match("^.?sys.?\.cpu(\d+)*$", sec)
	if not re_int_match:
	continue

	irqs = cpt.get(sec, "interrupts").split()
	irqs.append("false")
	irqs.append("false")
	cpt.set(sec, "interrupts", ' '.join(str(x) for x in irqs))

	# Update the per cpu interrupt structure
	for sec in cpt.sections():
	re_int_match = re.match("^.?sys.?\.cpu(\d+)*\.interrupts$", sec)
	if not re_int_match:
	continue

	irqs = cpt.get(sec, "interrupts").split()
	irqs.append("false")
	irqs.append("false")
	cpt.set(sec, "interrupts", ' '.join(str(x) for x in irqs))

	# Update the misc regs and add in new isa specific fields
	for sec in cpt.sections():
	re_isa_match = re.match("^.?sys.?\.cpu(\d+)*\.isa$", sec)
	if not re_isa_match:
	continue

	cpt.set(sec, 'haveSecurity', 'false')
	cpt.set(sec, 'haveLPAE', 'false')
	cpt.set(sec, 'haveVirtualization', 'false')
	cpt.set(sec, 'haveLargeAsid64', 'false')
	cpt.set(sec, 'physAddrRange64', '40')

	# splice in the new misc registers, ~200 -> 605 registers,
	# ordering does not remain consistent
	mr_old = cpt.get(sec, 'miscRegs').split()
	mr_new = [ '0' for x in range(605) ]

	# map old v7 miscRegs to new v8 miscRegs
	mr_new[0] = mr_old[0] # CPSR
	mr_new[16] = mr_old[1] # CPSR_Q
	mr_new[1] = mr_old[2] # SPSR
	mr_new[2] = mr_old[3] # SPSR_FIQ
	mr_new[3] = mr_old[4] # SPSR_IRQ
	mr_new[4] = mr_old[5] # SPSR_SVC
	mr_new[5] = mr_old[6] # SPSR_MON
	mr_new[8] = mr_old[7] # SPSR_UND
	mr_new[6] = mr_old[8] # SPSR_ABT
	mr_new[432] = mr_old[9] # FPSR
	mr_new[10] = mr_old[10] # FPSID
	mr_new[11] = mr_old[11] # FPSCR
	mr_new[18] = mr_old[12] # FPSCR_QC
	mr_new[17] = mr_old[13] # FPSCR_EXC
	mr_new[14] = mr_old[14] # FPEXC
	mr_new[13] = mr_old[15] # MVFR0
	mr_new[12] = mr_old[16] # MVFR1
	mr_new[28] = mr_old[17] # SCTLR_RST,
	mr_new[29] = mr_old[18] # SEV_MAILBOX,
	mr_new[30] = mr_old[19] # DBGDIDR
	mr_new[31] = mr_old[20] # DBGDSCR_INT,
	mr_new[33] = mr_old[21] # DBGDTRRX_INT,
	mr_new[34] = mr_old[22] # DBGTRTX_INT,
	mr_new[35] = mr_old[23] # DBGWFAR,
	mr_new[36] = mr_old[24] # DBGVCR,
	#mr_new[] = mr_old[25] # DBGECR -> UNUSED,
	#mr_new[] = mr_old[26] # DBGDSCCR -> UNUSED,
	#mr_new[] = mr_old[27] # DBGSMCR -> UNUSED,
	mr_new[37] = mr_old[28] # DBGDTRRX_EXT,
	mr_new[38] = mr_old[29] # DBGDSCR_EXT,
	mr_new[39] = mr_old[30] # DBGDTRTX_EXT,
	#mr_new[] = mr_old[31] # DBGDRCR -> UNUSED,
	mr_new[41] = mr_old[32] # DBGBVR,
	mr_new[47] = mr_old[33] # DBGBCR,
	#mr_new[] = mr_old[34] # DBGBVR_M -> UNUSED,
	#mr_new[] = mr_old[35] # DBGBCR_M -> UNUSED,
	mr_new[61] = mr_old[36] # DBGDRAR,
	#mr_new[] = mr_old[37] # DBGBXVR_M -> UNUSED,
	mr_new[64] = mr_old[38] # DBGOSLAR,
	#mr_new[] = mr_old[39] # DBGOSSRR -> UNUSED,
	mr_new[66] = mr_old[40] # DBGOSDLR,
	mr_new[67] = mr_old[41] # DBGPRCR,
	#mr_new[] = mr_old[42] # DBGPRSR -> UNUSED,
	mr_new[68] = mr_old[43] # DBGDSAR,
	#mr_new[] = mr_old[44] # DBGITCTRL -> UNUSED,
	mr_new[69] = mr_old[45] # DBGCLAIMSET,
	mr_new[70] = mr_old[46] # DBGCLAIMCLR,
	mr_new[71] = mr_old[47] # DBGAUTHSTATUS,
	mr_new[72] = mr_old[48] # DBGDEVID2,
	mr_new[73] = mr_old[49] # DBGDEVID1,
	mr_new[74] = mr_old[50] # DBGDEVID,
	mr_new[77] = mr_old[51] # TEEHBR,
	mr_new[109] = mr_old[52] # v7 SCTLR -> aarc32 SCTLR_NS
	mr_new[189] = mr_old[53] # DCCISW,
	mr_new[188] = mr_old[54] # DCCIMVAC,
	mr_new[183] = mr_old[55] # DCCMVAC,
	mr_new[271] = mr_old[56] # v7 CONTEXTIDR -> aarch32 CONTEXTIDR_NS,
	mr_new[274] = mr_old[57] # v7 TPIDRURW -> aarch32 TPIDRURW_NS,
	mr_new[277] = mr_old[58] # v7 TPIDRURO -> aarch32 TPIDRURO_NS,
	mr_new[280] = mr_old[59] # v7 TPIDRPRW -> aarch32 TPIDRPRW_NS,
	mr_new[170] = mr_old[60] # CP15ISB,
	mr_new[185] = mr_old[61] # CP15DSB,
	mr_new[186] = mr_old[62] # CP15DMB,
	mr_new[114] = mr_old[63] # CPACR,
	mr_new[101] = mr_old[64] # CLIDR,
	mr_new[100] = mr_old[65] # CCSIDR,
	mr_new[104] = mr_old[66] # v7 CSSELR -> aarch32 CSSELR_NS,
	mr_new[163] = mr_old[67] # ICIALLUIS,
	mr_new[168] = mr_old[68] # ICIALLU,
	mr_new[169] = mr_old[69] # ICIMVAU,
	mr_new[172] = mr_old[70] # BPIMVA,
	mr_new[164] = mr_old[71] # BPIALLIS,
	mr_new[171] = mr_old[72] # BPIALL,
	mr_new[80] = mr_old[73] # MIDR,
	mr_new[126] = mr_old[74] # v7 TTBR0 -> aarch32 TTBR0_NS,
	mr_new[129] = mr_old[75] # v7 TTBR1 -> aarch32 TTBR1_NS,
	mr_new[83] = mr_old[76] # TLBTR,
	mr_new[137] = mr_old[77] # v7 DACR -> aarch32 DACR_NS,
	mr_new[192] = mr_old[78] # TLBIALLIS,
	mr_new[193] = mr_old[79] # TLBIMVAIS,
	mr_new[194] = mr_old[80] # TLBIASIDIS,
	mr_new[195] = mr_old[81] # TLBIMVAAIS,
	mr_new[198] = mr_old[82] # ITLBIALL,
	mr_new[199] = mr_old[83] # ITLBIMVA,
	mr_new[200] = mr_old[84] # ITLBIASID,
	mr_new[201] = mr_old[85] # DTLBIALL,
	mr_new[202] = mr_old[86] # DTLBIMVA,
	mr_new[203] = mr_old[87] # DTLBIASID,
	mr_new[204] = mr_old[88] # TLBIALL,
	mr_new[205] = mr_old[89] # TLBIMVA,
	mr_new[206] = mr_old[90] # TLBIASID,
	mr_new[207] = mr_old[91] # TLBIMVAA,
	mr_new[140] = mr_old[92] # v7 DFSR -> aarch32 DFSR_NS,
	mr_new[143] = mr_old[93] # v7 IFSR -> aarch32 IFSR_NS,
	mr_new[155] = mr_old[94] # v7 DFAR -> aarch32 DFAR_NS,
	mr_new[158] = mr_old[95] # v7 IFAR -> aarch32 IFAR_NS,
	mr_new[84] = mr_old[96] # MPIDR,
	mr_new[241] = mr_old[97] # v7 PRRR -> aarch32 PRRR_NS,
	mr_new[247] = mr_old[98] # v7 NMRR -> aarch32 NMRR_NS,
	mr_new[131] = mr_old[99] # TTBCR,
	mr_new[86] = mr_old[100] # ID_PFR0,
	mr_new[81] = mr_old[101] # CTR,
	mr_new[115] = mr_old[102] # SCR,
	# Set the non-secure bit
	scr = int(mr_new[115])
	scr = scr \| 0x1
	mr_new[115] = str(scr)
	###
	mr_new[116] = mr_old[103] # SDER,
	mr_new[165] = mr_old[104] # PAR,
	mr_new[175] = mr_old[105] # V2PCWPR -> ATS1CPR,
	mr_new[176] = mr_old[106] # V2PCWPW -> ATS1CPW,
	mr_new[177] = mr_old[107] # V2PCWUR -> ATS1CUR,
	mr_new[178] = mr_old[108] # V2PCWUW -> ATS1CUW,
	mr_new[179] = mr_old[109] # V2POWPR -> ATS12NSOPR,
	mr_new[180] = mr_old[110] # V2POWPW -> ATS12NSOPW,
	mr_new[181] = mr_old[111] # V2POWUR -> ATS12NSOUR,
	mr_new[182] = mr_old[112] # V2POWUW -> ATS12NWOUW,
	mr_new[90] = mr_old[113] # ID_MMFR0,
	mr_new[92] = mr_old[114] # ID_MMFR2,
	mr_new[93] = mr_old[115] # ID_MMFR3,
	mr_new[112] = mr_old[116] # v7 ACTLR -> aarch32 ACTLR_NS
	mr_new[222] = mr_old[117] # PMCR,
	mr_new[230] = mr_old[118] # PMCCNTR,
	mr_new[223] = mr_old[119] # PMCNTENSET,
	mr_new[224] = mr_old[120] # PMCNTENCLR,
	mr_new[225] = mr_old[121] # PMOVSR,
	mr_new[226] = mr_old[122] # PMSWINC,
	mr_new[227] = mr_old[123] # PMSELR,
	mr_new[228] = mr_old[124] # PMCEID0,
	mr_new[229] = mr_old[125] # PMCEID1,
	mr_new[231] = mr_old[126] # PMXEVTYPER,
	mr_new[233] = mr_old[127] # PMXEVCNTR,
	mr_new[234] = mr_old[128] # PMUSERENR,
	mr_new[235] = mr_old[129] # PMINTENSET,
	mr_new[236] = mr_old[130] # PMINTENCLR,
	mr_new[94] = mr_old[131] # ID_ISAR0,
	mr_new[95] = mr_old[132] # ID_ISAR1,
	mr_new[96] = mr_old[133] # ID_ISAR2,
	mr_new[97] = mr_old[134] # ID_ISAR3,
	mr_new[98] = mr_old[135] # ID_ISAR4,
	mr_new[99] = mr_old[136] # ID_ISAR5,
	mr_new[20] = mr_old[137] # LOCKFLAG,
	mr_new[19] = mr_old[138] # LOCKADDR,
	mr_new[87] = mr_old[139] # ID_PFR1,
	# Set up the processor features register
	pfr = int(mr_new[87])
	pfr = pfr \| 0x1011
	mr_new[87] = str(pfr)
	###
	mr_new[238] = mr_old[140] # L2CTLR,
	mr_new[82] = mr_old[141] # TCMTR
	mr_new[88] = mr_old[142] # ID_DFR0,
	mr_new[89] = mr_old[143] # ID_AFR0,
	mr_new[91] = mr_old[144] # ID_MMFR1,
	mr_new[102] = mr_old[145] # AIDR,
	mr_new[146] = mr_old[146] # v7 ADFSR -> aarch32 ADFSR_NS,
	mr_new[148] = mr_old[147] # AIFSR,
	mr_new[173] = mr_old[148] # DCIMVAC,
	mr_new[174] = mr_old[149] # DCISW,
	mr_new[184] = mr_old[150] # MCCSW -> DCCSW,
	mr_new[187] = mr_old[151] # DCCMVAU,
	mr_new[117] = mr_old[152] # NSACR,
	mr_new[262] = mr_old[153] # VBAR,
	mr_new[265] = mr_old[154] # MVBAR,
	mr_new[267] = mr_old[155] # ISR,
	mr_new[269] = mr_old[156] # FCEIDR -> FCSEIDR,
	#mr_new[] = mr_old[157] # L2LATENCY -> UNUSED,
	#mr_new[] = mr_old[158] # CRN15 -> UNUSED,
	mr_new[599] = mr_old[159] # NOP
	mr_new[600] = mr_old[160] # RAZ,

	# Set the new miscRegs structure
	cpt.set(sec, 'miscRegs', ' '.join(str(x) for x in mr_new))

	cpu_prefix = {}
	# Add in state for ITB/DTB
	for sec in cpt.sections():
	re_tlb_match = re.match('(^.?sys.?\.cpu(\d+)*)\.(dtb\|itb)$', sec)
	if not re_tlb_match:
	continue

	cpu_prefix[re_tlb_match.group(1)] = True # Save off prefix to add
	# Set the non-secure bit (bit 9) to 1 for attributes
	attr = int(cpt.get(sec, '_attr'))
	attr = attr \| 0x200
	cpt.set(sec, '_attr', str(attr))
	cpt.set(sec, 'haveLPAE', 'false')
	cpt.set(sec, 'directToStage2', 'false')
	cpt.set(sec, 'stage2Req', 'false')
	cpt.set(sec, 'bootUncacheability', 'true')

	# Add in extra state for the new TLB Entries
	for sec in cpt.sections():
	re_tlbentry_match = re.match('(^.?sys.?\.cpu(\d+)*)\.(dtb\|itb).TlbEntry\d+$', sec)
	if not re_tlbentry_match:
	continue

	# Add in the new entries
	cpt.set(sec, 'longDescFormat', 'false')
	cpt.set(sec, 'vmid', '0')
	cpt.set(sec, 'isHyp', 'false')
	valid = cpt.get(sec, 'valid')
	if valid == 'true':
	cpt.set(sec, 'ns', 'true')
	cpt.set(sec, 'nstid', 'true')
	cpt.set(sec, 'pxn', 'true')
	cpt.set(sec, 'hap', '3')
	# All v7 code used 2 level page tables
	cpt.set(sec, 'lookupLevel', '2')
	attr = int(cpt.get(sec, 'attributes'))
	# set the non-secure bit (bit 9) to 1
	# as no previous v7 code used secure code
	attr = attr \| 0x200
	cpt.set(sec, 'attributes', str(attr))
	else:
	cpt.set(sec, 'ns', 'false')
	cpt.set(sec, 'nstid', 'false')
	cpt.set(sec, 'pxn', 'false')
	cpt.set(sec, 'hap', '0')
	cpt.set(sec, 'lookupLevel', '0')
	cpt.set(sec, 'outerShareable', 'false')

	# Add d/istage2_mmu and d/istage2_mmu.stage2_tlb
	for key in cpu_prefix:
	for suffix in ['.istage2_mmu', '.dstage2_mmu']:
	new_sec = key + suffix
	cpt.add_section(new_sec)
	new_sec = key + suffix + ".stage2_tlb"
	cpt.add_section(new_sec)
	# Fill in tlb info with some defaults
	cpt.set(new_sec, '_attr', '0')
	cpt.set(new_sec, 'haveLPAE', 'false')
	cpt.set(new_sec, 'directToStage2', 'false')
	cpt.set(new_sec, 'stage2Req', 'false')
	cpt.set(new_sec, 'bootUncacheability', 'false')
	cpt.set(new_sec, 'num_entries', '0')

	legacy_version = 9