# Copyright (c) 2017-2018, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials provided
# with the distribution.
#
# * Neither the name of The Linux Foundation nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
# WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
# BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
# OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
# IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import struct
import os
import sys
from kryo_cache_tlb_parser import main as kryo_tlb_parser_main
"""dictionary mapping from (hw_id, client_id, version) to class CacheDump"""
lookuptable = {}
def lookup_tlb_type(hwid, client_id, version):
"""defaults to CacheDump() if no match found"""
return lookuptable.get((hwid, client_id, version), TlbDump())
def formatwidth(string, limit):
if len(string) >= limit:
return string[0:limit]
formatstr = '{{0:{0}}}'.format(limit)
return formatstr.format(string)
class TableOutputFormat:
""" Not sure if using PrettyTable (python lib) is a good idea, since people
would need to install it"""
def __init__(self):
self.titlebar = []
self.datafmt = []
self.have_printed_title = False
self.separator = ' '
def addColumn(self, string, datafmt='{0}', width=0):
width = max(len(string), width)
string = formatwidth(string, width)
self.titlebar.append(string)
self.datafmt.append(datafmt)
def printline(self, array, outfile):
if (len(array) != len(self.titlebar)):
raise Exception('BadTableDataSize', array, self.titlebar)
if (not self.have_printed_title):
self.have_printed_title = True
outfile.write(self.separator.join(self.titlebar))
outfile.write('\n')
for item, title, fmt in zip(array, self.titlebar, self.datafmt):
item = fmt.format(item)
item = formatwidth(item, len(title))
outfile.write(item)
outfile.write(self.separator)
outfile.write('\n')
class TlbDump(object):
""" Class to describe a method to parse a particular type of tlbdump.
Users should not make instances of this class."""
def __init__(self):
"""do nothing"""
def parse(self, start, end, ramdump, outfile):
"""Called from debug_image_v2.py. Overriden by child classes"""
raise NotImplementedError
class TlbDumpType(TlbDump):
def __init__(self):
super(TlbDumpType, self).__init__()
self.tableformat = TableOutputFormat()
self.tableformat.addColumn('Way', '{0:01x}')
self.tableformat.addColumn('Set', '{0:03x}')
self.ramdump = None
self.linefmt = None
def add_table_data_columns(self):
for i in range(0, self.LineSize):
str = "DATA{0}".format(i)
self.tableformat.addColumn(str, '{0:08x}', 8)
def read_line(self, start):
if self.linefmt is None:
self.linefmt = '<'
self.linefmt += 'I'* self.LineSize
return self.ramdump.read_string(start, self.linefmt, virtual=False)
class TlbDumpType_v1(TlbDumpType):
def __init__(self):
super(TlbDumpType_v1, self).__init__()
def parse(self, start, end, ramdump, outfile):
self.ramdump = ramdump
self.add_table_data_columns()
offset = 0
for nway in range(self.NumWays):
for nset in range(self.NumSets):
if start > end:
raise Exception('past the end of array')
output = [nway, nset]
line = self.read_line(start)
self.parse_tag_fn(output, line, nset, nway, offset)
output.extend(line)
self.tableformat.printline(output, outfile)
start = start + self.LineSize * 0x4
offset = offset + self.LineSize * 0x4
class TlbDumpType_v2(TlbDumpType):
def __init__(self):
super(TlbDumpType_v2, self).__init__()
def parse(self, start, end, ramdump, outfile):
self.ramdump = ramdump
self.add_table_data_columns()
ram = 0
for nway in range(self.NumWaysRam0):
offset = 0
for nset in range(self.NumSetsRam0):
if start > end:
raise Exception('past the end of array')
output = [nway, nset]
line = self.read_line(start)
self.parse_tag_fn(output, line, nset, nway, ram, offset)
output.extend(line)
self.tableformat.printline(output, outfile)
start = start + self.LineSize * 0x4
offset = offset + 0x1000
ram = 1
for nway in range(self.NumWaysRam1):
offset = 0
for nset in range(self.NumSetsRam1):
if start > end:
print [nway,nset]
raise Exception('past the end of array')
output = [nway, nset]
line = self.read_line(start)
self.parse_tag_fn(output, line, nset, nway, ram, offset)
output.extend(line)
self.tableformat.printline(output, outfile)
start = start + self.LineSize * 0x4
offset = offset + 0x1000
class TlbDumpType_v3(object):
def __init__(self):
self.infile_name = "scratch.bin"
def parse(self, start, end, ramdump, outfile):
self.ramdump = ramdump
self.outfile = outfile
"""kryo tlb parser expects an input file with dump data for the tlb so
temporarily create file with dump data"""
infile_fd = ramdump.open_file(self.infile_name)
core_dump_size = end - start
buf = ramdump.read_physical(start, core_dump_size)
infile_fd.write(buf)
infile_fd.close()
self.parse_dump()
ramdump.remove_file(self.infile_name)
def parse_dump(self):
#child class should implement this method
raise NotImplementedError
def kryo_tlb_parse(self, cmd, offset, outfile_name):
#expected cmdline arguments for kryo tlb parser.
opts_flgs = ["-i", "-o", "-t", "-c", "-s"]
infile_path = os.path.join(self.ramdump.outdir, self.infile_name)
outfile_path = os.path.join(self.ramdump.outdir, outfile_name)
cpu_name = self.cpu_name
offset_str = str(offset)
opts_params = [infile_path, outfile_path, cmd, cpu_name, offset_str]
argv = [None] * (2 * len(opts_flgs))
for i in xrange(len(opts_flgs)):
argv[2 * i] = opts_flgs[i]
argv[(2 * i) + 1] = opts_params[i]
"""Since the kryo tlb parser expects the data to be parsed and output
to be redirected to the outfile, and we're not calling it from the
command line to redirect the output, we can do it like this"""
outfile_fd = self.ramdump.open_file(outfile_name)
sys.stdout.flush()
sys.stdout = outfile_fd
kryo_tlb_parser_main(argv)
sys.stdout.flush()
sys.stdout = sys.__stdout__
outfile_fd.close()
def post_process(self, datafile_name, tagfile_name=None):
if(tagfile_name is not None and datafile_name is not None):
tagfd = self.ramdump.open_file(tagfile_name, 'r')
datafd = self.ramdump.open_file(datafile_name, 'r')
#discard first line since it's just a header
tagfd.readline()
datafd.readline()
tag_line = tagfd.readline()
data_line = datafd.readline()
while(tag_line != "" and data_line != ""):
tag_line = tag_line.strip(" ")
data_line = data_line.strip(" ")
output_arr = []
tag_line_arr = tag_line.split()
data_line_arr = data_line.split()
#always skip set and ways in the second file, since you already
#have it
data_line_arr = data_line_arr[2:]
for entry in tag_line_arr:
output_arr.append(int(entry.strip("\n"), 16))
for entry in data_line_arr:
output_arr.append(int(entry.strip("\n"), 16))
self.tableformat.printline(output_arr, self.outfile)
tag_line = tagfd.readline()
data_line = datafd.readline()
tagfd.close()
datafd.close()
self.ramdump.remove_file(tagfile_name)
self.ramdump.remove_file(datafile_name)
elif(tagfile_name is None and datafile_name is not None):
datafd = self.ramdump.open_file(datafile_name, 'r')
#discard first line since it's just a header
datafd.readline()
data_line = datafd.readline()
while(data_line != ""):
data_line = data_line.strip(" ")
output_arr = []
data_line_arr = data_line.split()
for entry in data_line_arr:
output_arr.append(int(entry.strip("\n"), 16))
self.tableformat.printline(output_arr, self.outfile)
data_line = datafd.readline()
datafd.close()
self.ramdump.remove_file(datafile_name)
class L1_TLB_KRYO2XX_GOLD(TlbDumpType_v2):
def __init__(self):
super(L1_TLB_KRYO2XX_GOLD, self).__init__()
self.tableformat.addColumn('RAM')
self.tableformat.addColumn('TYPE')
self.tableformat.addColumn('PA', '{0:016x}', 16)
self.tableformat.addColumn('VA', '{0:016x}', 16)
self.tableformat.addColumn('VALID')
self.tableformat.addColumn('VMID', '{0:02x}', 4)
self.tableformat.addColumn('ASID', '{0:04x}', 4)
self.tableformat.addColumn('S1_MODE', '{0:01x}', 7)
self.tableformat.addColumn('S1_LEVEL', '{0:01x}', 8)
self.tableformat.addColumn('SIZE')
self.unsupported_header_offset = 0
self.LineSize = 4
self.NumSetsRam0 = 0x100
self.NumSetsRam1 = 0x3c
self.NumWaysRam0 = 4
self.NumWaysRam1 = 2
def parse_tag_fn(self, output, data, nset, nway, ram, offset):
tlb_type = self.parse_tlb_type(data)
s1_mode = (data[0] >> 2) & 0x3
s1_level = data[0] & 0x3
pa = (data[2] >> 4) * 0x1000
pa = pa + offset
va_l = (data[1] >> 2)
va_h = (data[2]) & 0x7
va = (va_h << 45) | (va_l << 16)
va = va + offset
if ((va >> 40) & 0xff )== 0xff:
va = va + 0xffff000000000000
valid = (data[2] >> 3) & 0x1
vmid_1 = (data[0] >> 26) & 0x3f
vmid_2 = data[1] & 0x3
vmid = (vmid_2 << 6) | vmid_1
asid = (data[0] >> 10) & 0xffff
size = self.parse_size(data, ram, tlb_type)
output.append(ram)
output.append(tlb_type)
output.append(pa)
output.append(va)
output.append(valid)
output.append(vmid)
output.append(asid)
output.append(s1_mode)
output.append(s1_level)
output.append(size)
def parse_tlb_type(self, data):
type_num = (data[3] >> 20) & 0x1
if type_num == 0x0:
s1_level = data[0] & 0x3
if s1_level == 0x3:
return "IPA"
else:
return "REG"
else:
return "WALK"
def parse_size(self, data, ram, tlb_type):
size = (data[0] >> 6) & 0x7
if tlb_type == "REG":
if ram == 0:
if size == 0x0:
return "4KB"
elif size == 0x1:
return "16KB"
else:
return "64KB"
else:
if size == 0x0:
return "1MB"
elif size == 0x1:
return "2MB"
elif size == 0x2:
return "16MB"
elif size == 0x3:
return "32MB"
elif size == 0x4:
return "512MB"
else:
return "1GB"
else:
if size == 0x1:
return "4KB"
elif size == 0x3:
return "16KB"
elif size == 0x4:
return "64KB"
class L1_TLB_A53(TlbDumpType_v1):
def __init__(self):
super(L1_TLB_A53, self).__init__()
self.unsupported_header_offset = 0
self.LineSize = 4
self.NumSets = 0x100
self.NumWays = 4
class L2_TLB_KRYO3XX_GOLD(TlbDumpType_v2):
def __init__(self):
super(L2_TLB_KRYO3XX_GOLD, self).__init__()
self.tableformat.addColumn('RAM')
self.tableformat.addColumn('TYPE')
self.tableformat.addColumn('VA/IPA[48:16]', '{0:016x}', 16)
self.tableformat.addColumn('PA[43:12]', '{0:016x}', 16)
self.tableformat.addColumn('VALID')
self.tableformat.addColumn('NS')
self.tableformat.addColumn('VMID', '{0:02x}', 4)
self.tableformat.addColumn('ASID', '{0:04x}', 4)
self.tableformat.addColumn('S1_MODE', '{0:01x}', 7)
self.tableformat.addColumn('S1_LEVEL', '{0:01x}', 8)
self.tableformat.addColumn('TRANS_REGIME', '{0:01x}', 2)
self.tableformat.addColumn('SIZE')
self.unsupported_header_offset = 0
self.LineSize = 5
self.NumSetsRam0 = 0x100
self.NumSetsRam1 = 0x80
self.NumWaysRam0 = 4
self.NumWaysRam1 = 2
def parse_tag_fn(self, output, data, nset, nway, ram, offset):
tlb_type = self.parse_tlb_type(data)
if ram == 0:
tlb_type = "REG"
s1_mode = (data[0] >> 2) & 0x3
s1_level = data[0] & 0x3
pa = data[3] & 0xffffffff
pa = pa << 12
va_l = (data[1] >> 10)
va_h = data[2] & 0x3ff
va = (va_h << 22) | va_l
#Add set to the VA
if ram == 0:
va = va >> 4
va = va << 8
va = va + nset
va = va << 12
else:
va = va >> 3
va = va << 3
va = va << 4
va = va + nset
va = va << 12
if (va >> 40) == 0xff:
va = va + 0xffff000000000000
valid = (data[2] >> 11) & 0x1
ns = data[4] & 0x1
vmid_1 = (data[0] >> 26)
vmid_2 = data[1] & 0x3ff
vmid = (vmid_2 << 6) | vmid_1
asid = (data[0] >> 10) & 0xffff
regime = (data[0] >> 4) & 0x3
size = self.parse_size(data, ram, tlb_type)
output.append(ram)
output.append(tlb_type)
output.append(va)
output.append(pa)
output.append(valid)
output.append(ns)
output.append(vmid)
output.append(asid)
output.append(s1_mode)
output.append(s1_level)
output.append(regime)
output.append(size)
def parse_tlb_type(self, data):
type_num = (data[4] >> 17) & 0x1
if type_num == 0x0:
s1_level = data[0] & 0x3
s1_mode = (data[0] >> 2) & 0x3
if s1_mode == 0x1 and s1_level == 0x2:
return "IPA"
else:
return "REG"
else:
return "WALK"
def parse_size(self, data, ram, tlb_type):
size = (data[0] >> 6) & 0x7
if ram == 0:
if size == 0x0:
return "4KB"
elif size == 0x1:
return "16KB"
else:
return "64KB"
else:
if size == 0x0:
return "1MB"
elif size == 0x1:
return "2MB"
elif size == 0x2:
return "16MB"
elif size == 0x3:
return "32MB"
elif size == 0x4:
return "512MB"
else:
return "1GB"
class L2_TLB_KRYO3XX_SILVER(TlbDumpType_v1):
def __init__(self):
super(L2_TLB_KRYO3XX_SILVER, self).__init__()
self.tableformat.addColumn('Type')
self.tableformat.addColumn('Valid')
self.tableformat.addColumn('NS')
self.tableformat.addColumn('ASID')
self.tableformat.addColumn('VMID')
self.tableformat.addColumn('VA/IPA', '{0:016x}', 16)
self.tableformat.addColumn('PA', '{0:016x}', 16)
self.tableformat.addColumn('DBM')
self.unsupported_header_offset = 0
self.LineSize = 5
self.NumSets = 0x120
self.NumWays = 4
def parse_tag_fn(self, output, data, nset, nway, offset):
# data[0-2] is tag
# data[3-4] is data
if offset >= 0x5500:
type = "IPA"
elif offset >= 0x5000:
type = "WALK"
else:
type = "MAIN"
valid = data[0] & 0x1
ns = (data[0] >> 1) & 0x1
asid = (data[0] >> 2) & 0xffff
vmid = (data[0] >> 18) & 0xffff
if type is "MAIN":
size = (data[1] >> 2) & 0x7
nG = (data[1] >> 5) & 0x1
ap = (data[1] >> 6) & 0x7
s2ap = (data[1] >> 9) & 0x3
domain = (data[1] >> 11) & 0xf
s1_size = (data[1] >> 15) & 0x7
addr_sign = (data[1] >> 18) & 0x1
va_l = (data[1] >> 19) & 0x1fff
va_h = data[2] & 0x7FFF
va = (va_h << 13) | va_l
dbm = (data[2] >> 15) & 0x1
parity = (data[2] >> 16) & 0x3
pa_l = data[3] >> 17
pa_h = data[4] & 0x1fff
pa = (pa_h << 15) | pa_l
elif type is "WALK":
dbm = 0
va_l = (data[1] >> 14)
va_h = (data[2]) & 0x3f
va = (va_h << 18) | va_l
pa_l = data[3] >> 13
pa_h = data[4] & 0x7ff
pa = (pa_h << 19) | pa_l
else:
asid = 0
dbm = (data[0] >> 9) & 0x1
va = (data[1] >> 2) & 0xffffff
pa_l = (data[3] >> 10)
pa_h = data[4] & 0x3f
pa = (pa_h << 22) | pa_l
output.append(type)
output.append(valid)
output.append(ns)
output.append(asid)
output.append(vmid)
output.append(va)
output.append(pa)
output.append(dbm)
class L1_ITLB_KRYO4XX_GOLD(TlbDumpType_v3):
def __init__(self):
super(L1_ITLB_KRYO4XX_GOLD, self).__init__()
#name must match expected name from kryo tlb parser
self.cpu_name = "KRYO4GOLD"
self.tableformat = TableOutputFormat()
self.tableformat.addColumn('Set', '{0:03x}', 3)
self.tableformat.addColumn('Way', '{0:01x}', 1)
self.tableformat.addColumn('Valid', '{0:01x}', 1)
self.tableformat.addColumn('Attr1', '{0:01x}', 1)
self.tableformat.addColumn('TxlnRegime', '{0:01x}', 1)
self.tableformat.addColumn('VMID', '{0:04x}', 4)
self.tableformat.addColumn('ASID', '{0:04x}', 4)
self.tableformat.addColumn('Attr2', '{0:02x}', 2)
self.tableformat.addColumn('InnerShared', '{0:01x}', 1)
self.tableformat.addColumn('OuterShared', '{0:01x}', 1)
self.tableformat.addColumn('Attr3', '{0:01x}', 1)
self.tableformat.addColumn('PageSize', '{0:01x}', 1)
self.tableformat.addColumn('MemAttr', '{0:01x}', 1)
self.tableformat.addColumn('Attr4', '{0:01x}', 1)
self.tableformat.addColumn('PBHA', '{0:01x}', 1)
self.tableformat.addColumn('VA', '{0:016x}', 16)
self.tableformat.addColumn('PA', '{0:08x}', 8)
self.tableformat.addColumn('NS', '{0:01x}', 1)
def parse_dump(self):
datafile_name = "data_scratch"
self.kryo_tlb_parse("L1ITLB", 0, datafile_name)
self.post_process(datafile_name)
class L1_DTLB_KRYO4XX_GOLD(TlbDumpType_v3):
def __init__(self):
super(L1_DTLB_KRYO4XX_GOLD, self).__init__()
#name must match expected name from kryo tlb parser
self.cpu_name = "KRYO4GOLD"
self.tableformat = TableOutputFormat()
self.tableformat.addColumn('Set', '{0:03x}', 3)
self.tableformat.addColumn('Way', '{0:01x}', 1)
self.tableformat.addColumn('Valid', '{0:01x}', 1)
self.tableformat.addColumn('VMID', '{0:04x}', 4)
self.tableformat.addColumn('ASID', '{0:04x}', 4)
self.tableformat.addColumn('TxlnRegime', '{0:01x}', 1)
self.tableformat.addColumn('NS', '{0:01x}', 1)
self.tableformat.addColumn('PageSize', '{0:01x}', 1)
self.tableformat.addColumn('MemAttr', '{0:01x}', 1)
self.tableformat.addColumn('InnerShared', '{0:01x}', 1)
self.tableformat.addColumn('OuterShared', '{0:01x}', 1)
self.tableformat.addColumn('VA', '{0:016x}', 16)
self.tableformat.addColumn('PA', '{0:08x}', 8)
self.tableformat.addColumn('PBHA', '{0:01x}', 1)
def parse_dump(self):
datafile_name = "data_scratch"
self.kryo_tlb_parse("L1DTLB", 0, datafile_name)
self.post_process(datafile_name)
class L2_TLB_KRYO4XX_SILVER(TlbDumpType_v3):
def __init__(self):
super(L2_TLB_KRYO4XX_SILVER, self).__init__()
self.cpu_name = "KRYO4SILVER"
self.tableformat = TableOutputFormat()
self.tableformat.addColumn('Set', '{0:03x}', 3)
self.tableformat.addColumn('Way', '{0:01x}', 1)
self.tableformat.addColumn('Valid', '{0:01x}', 1)
self.tableformat.addColumn('NS', '{0:01x}', 1)
self.tableformat.addColumn('ASID', '{0:04x}', 4)
self.tableformat.addColumn('VMID', '{0:04x}', 4)
self.tableformat.addColumn('size', '{0:01x}', 1)
self.tableformat.addColumn('nG', '{0:01x}', 1)
self.tableformat.addColumn('APHyp', '{0:01x}', 1)
self.tableformat.addColumn('S2AP', '{0:01x}', 1)
self.tableformat.addColumn('Dom', '{0:01x}', 1)
self.tableformat.addColumn('S1Size', '{0:01x}', 1)
self.tableformat.addColumn('AddrSignBit', '{0:01x}', 1)
self.tableformat.addColumn('VA', '{0:08x}', 8)
self.tableformat.addColumn('DBM', '{0:01x}', 1)
self.tableformat.addColumn('Parity', '{0:01x}', 1)
self.tableformat.addColumn('XS1Usr', '{0:01x}', 1)
self.tableformat.addColumn('XS1NonUsr', '{0:01x}', 1)
self.tableformat.addColumn('XS2Usr', '{0:01x}', 1)
self.tableformat.addColumn('XS2NonUsr', '{0:01x}', 1)
self.tableformat.addColumn('MemTypeAndShareability', '{0:02x}', 2)
self.tableformat.addColumn('S2Level', '{0:01x}', 1)
self.tableformat.addColumn('NS', '{0:01x}', 1)
self.tableformat.addColumn('PA', '{0:08x}', 8)
self.tableformat.addColumn('Parity', '{0:01x}', 1)
#refer to section A5.2.2 in TRM
self.NumWays = 4
self.NumSets = 0x100
#refer to new src for dumping tag data to see number of tag entries
self.NumTagRegs = 3
#refer to new src for dumping tag data to see size. Use bytes
self.RegSize = 4
def parse_dump(self):
tagfile_name = "tag_scratch"
self.kryo_tlb_parse("TLBT", 0, tagfile_name)
datafile_name = "data_scratch"
"""the input file is the dump for this TLB, and this is divided into
two parts: the tag contents for all of the TLB, followed by the data
contents for all of the TLB. As such, you must calculate the size of
the tag content for the TLB to get the offset into the dump where the
data contents start."""
data_offset = self.NumWays * self.NumSets * self.RegSize *\
self.NumTagRegs
self.kryo_tlb_parse("TLBD", data_offset, datafile_name)
self.post_process(datafile_name, tagfile_name)
class L2_TLB_KRYO4XX_GOLD(TlbDumpType_v3):
def __init__(self):
super(L2_TLB_KRYO4XX_GOLD, self).__init__()
#name must match expected name from kryo tlb parser
self.cpu_name = "KRYO4GOLD"
self.tableformat = TableOutputFormat()
self.tableformat.addColumn('Set', '{0:03x}', 3)
self.tableformat.addColumn('Way', '{0:01x}', 1)
self.tableformat.addColumn('Valid(0x)', '{0:01x}', 1)
self.tableformat.addColumn('Coalesced', '{0:01x}', 1)
self.tableformat.addColumn('PageSize(0x)', '{0:01x}', 1)
self.tableformat.addColumn('PA(0x)', '{0:08x}', 8)
self.tableformat.addColumn('MemAttr', '{0:01x}', 1)
self.tableformat.addColumn('InnerShared', '{0:01x}', 1)
self.tableformat.addColumn('OuterShared', '{0:01x}', 1)
self.tableformat.addColumn('nonGlobal', '{0:01x}', 1)
self.tableformat.addColumn('NS', '{0:01x}', 1)
self.tableformat.addColumn('VA(0x)', '{0:08x}', 8)
self.tableformat.addColumn('Prefetched(0x)', '{0:01x}', 1)
self.tableformat.addColumn('walkCache(0x)', '{0:01x}', 1)
self.tableformat.addColumn('PBHA(0x)', '{0:01x}', 1)
self.tableformat.addColumn('ASID(0x)', '{0:04x}', 4)
self.tableformat.addColumn('VMID(0x)', '{0:04x}', 4)
self.tableformat.addColumn('TxlnRegime(0x)', '{0:01x}', 1)
def parse_dump(self):
datafile_name = "data_scratch"
self.kryo_tlb_parse("TLBD", 0, datafile_name)
self.post_process(datafile_name)
#sm8150
lookuptable[("sm8150", 0x24, 0x14)] = L1_ITLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x25, 0x14)] = L1_ITLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x26, 0x14)] = L1_ITLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x27, 0x14)] = L1_ITLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x44, 0x14)] = L1_DTLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x45, 0x14)] = L1_DTLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x46, 0x14)] = L1_DTLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x47, 0x14)] = L1_DTLB_KRYO4XX_GOLD()
lookuptable[("sm8150", 0x120, 0x14)] = L2_TLB_KRYO4XX_SILVER()
lookuptable[("sm8150", 0x121, 0x14)] = L2_TLB_KRYO4XX_SILVER()
lookuptable[("sm8150", 0x122, 0x14)] = L2_TLB_KRYO4XX_SILVER()
lookuptable[("sm8150", 0x123, 0x14)] = L2_TLB_KRYO4XX_SILVER()
lookuptable[("sm8150", 0x124, 0x14)] = L2_TLB_KRYO4XX_GOLD();
lookuptable[("sm8150", 0x125, 0x14)] = L2_TLB_KRYO4XX_GOLD();
lookuptable[("sm8150", 0x126, 0x14)] = L2_TLB_KRYO4XX_GOLD();
lookuptable[("sm8150", 0x127, 0x14)] = L2_TLB_KRYO4XX_GOLD();
# "sdm845"
lookuptable[("sdm845", 0x120, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm845", 0x121, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm845", 0x122, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm845", 0x123, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm845", 0x124, 0x14)] = L2_TLB_KRYO3XX_GOLD()
lookuptable[("sdm845", 0x125, 0x14)] = L2_TLB_KRYO3XX_GOLD()
lookuptable[("sdm845", 0x126, 0x14)] = L2_TLB_KRYO3XX_GOLD()
lookuptable[("sdm845", 0x127, 0x14)] = L2_TLB_KRYO3XX_GOLD()
# "sdm710"
lookuptable[("sdm710", 0x120, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x121, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x122, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x123, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x124, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x125, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("sdm710", 0x126, 0x14)] = L2_TLB_KRYO3XX_GOLD()
lookuptable[("sdm710", 0x127, 0x14)] = L2_TLB_KRYO3XX_GOLD()
# "qcs605"
lookuptable[("qcs605", 0x120, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x121, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x122, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x123, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x124, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x125, 0x14)] = L2_TLB_KRYO3XX_SILVER()
lookuptable[("qcs605", 0x126, 0x14)] = L2_TLB_KRYO3XX_GOLD()
lookuptable[("qcs605", 0x127, 0x14)] = L2_TLB_KRYO3XX_GOLD()
# "msm8998"
lookuptable[("8998", 0x20, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x21, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x22, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x23, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x24, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x25, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x26, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x27, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x40, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x41, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x42, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x43, 0x14)] = L1_TLB_A53()
lookuptable[("8998", 0x44, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x45, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x46, 0x14)] = L1_TLB_KRYO2XX_GOLD()
lookuptable[("8998", 0x47, 0x14)] = L1_TLB_KRYO2XX_GOLD()