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Mitchel Humpherys authored
`major' is a bit of a misnomer, since the variable also includes the minor version and patch version. Rename it to `kernel_version'. Change-Id: Ic567131c7f12ab03c9dea2716242e9053c17372f
51a1f3e9
ramdump.py 52.62 KiB
# Copyright (c) 2012-2015, The Linux Foundation. All rights reserved.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 and
# only version 2 as published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
import sys
import re
import os
import struct
import gzip
import functools
import string
import random
import platform
import stat
from boards import get_supported_boards, get_supported_ids
from tempfile import NamedTemporaryFile
import gdbmi
from print_out import print_out_str
from mmu import Armv7MMU, Armv7LPAEMMU, Armv8MMU
import parser_util
FP = 11
SP = 13
LR = 14
PC = 15
# The smem code is very stable and unlikely to go away or be changed.
# Rather than go through the hassel of parsing the id through gdb,
# just hard code it
SMEM_HW_SW_BUILD_ID = 0x89
BUILD_ID_LENGTH = 32
first_mem_file_names = ['EBICS0.BIN',
'EBI1.BIN', 'DDRCS0.BIN', 'ebi1_cs0.bin', 'DDRCS0_0.BIN']
extra_mem_file_names = ['EBI1CS1.BIN', 'DDRCS1.BIN', 'ebi1_cs1.bin', 'DDRCS0_1.BIN', 'DDRCS1_0.BIN', 'DDRCS1_1.BIN']
class RamDump():
class Unwinder ():
class Stackframe ():
def __init__(self, fp, sp, lr, pc):
self.fp = fp
self.sp = sp
self.lr = lr
self.pc = pc
class UnwindCtrlBlock ():
def __init__(self):
self.vrs = 16 * [0]
self.insn = 0
self.entries = -1
self.byte = -1
self.index = 0
def __init__(self, ramdump):
start = ramdump.addr_lookup('__start_unwind_idx')
end = ramdump.addr_lookup('__stop_unwind_idx')
self.ramdump = ramdump
if (start is None) or (end is None):
if ramdump.arm64:
self.unwind_frame = self.unwind_frame_generic64
else:
self.unwind_frame = self.unwind_frame_generic
return None
# addresses
self.unwind_frame = self.unwind_frame_tables
self.start_idx = start
self.stop_idx = end
self.unwind_table = []
i = 0
for addr in range(start, end, 8):
r = ramdump.read_string(addr, '<II')
if r is None:
break
(a, b) = r
self.unwind_table.append((a, b, start + 8 * i))
i += 1
ver = ramdump.version
if re.search('3.0.\d', ver) is not None:
self.search_idx = self.search_idx_3_0
else:
self.search_idx = self.search_idx_3_4
# index into the table
self.origin = self.unwind_find_origin()
def unwind_find_origin(self):
start = 0
stop = len(self.unwind_table)
while (start < stop):
mid = start + ((stop - start) >> 1)
if (self.unwind_table[mid][0] >= 0x40000000):
start = mid + 1
else:
stop = mid
return stop
def unwind_frame_generic64(self, frame, trace=False):
fp = frame.fp
low = frame.sp
mask = (self.ramdump.thread_size) - 1
high = (low + mask) & (~mask)
if (fp < low or fp > high or fp & 0xf):
return
frame.sp = fp + 0x10
frame.fp = self.ramdump.read_word(fp)
frame.pc = self.ramdump.read_word(fp + 8)
return 0
def unwind_frame_generic(self, frame, trace=False):
high = 0
fp = frame.fp
low = frame.sp
mask = (self.ramdump.thread_size) - 1
high = (low + mask) & (~mask) # ALIGN(low, THREAD_SIZE)
# /* check current frame pointer is within bounds */
if (fp < (low + 12) or fp + 4 >= high):
return -1
fp_is_at = self.ramdump.read_word(frame.fp - 12)
sp_is_at = self.ramdump.read_word(frame.fp - 8)
pc_is_at = self.ramdump.read_word(frame.fp - 4)
frame.fp = fp_is_at
frame.sp = sp_is_at
frame.pc = pc_is_at
return 0
def walk_stackframe_generic(self, frame):
while True:
symname = self.ramdump.addr_to_symbol(frame.pc)
print_out_str(symname)
ret = self.unwind_frame_generic(frame)
if ret < 0:
break
def unwind_backtrace_generic(self, sp, fp, pc):
frame = self.Stackframe()
frame.fp = fp
frame.pc = pc
frame.sp = sp
walk_stackframe_generic(frame)
def search_idx_3_4(self, addr):
start = 0
stop = len(self.unwind_table)
orig = addr
if (addr < self.start_idx):
stop = self.origin
else:
start = self.origin
if (start >= stop):
return None
addr = (addr - self.unwind_table[start][2]) & 0x7fffffff
while (start < (stop - 1)):
mid = start + ((stop - start) >> 1)
dif = (self.unwind_table[mid][2]
- self.unwind_table[start][2])
if ((addr - dif) < self.unwind_table[mid][0]):
stop = mid
else:
addr = addr - dif
start = mid
if self.unwind_table[start][0] <= addr:
return self.unwind_table[start]
else:
return None
def search_idx_3_0(self, addr):
first = 0
last = len(self.unwind_table)
while (first < last - 1):
mid = first + ((last - first + 1) >> 1)
if (addr < self.unwind_table[mid][0]):
last = mid
else:
first = mid
return self.unwind_table[first]
def unwind_get_byte(self, ctrl):
if (ctrl.entries <= 0):
print_out_str('unwind: Corrupt unwind table')
return 0
val = self.ramdump.read_word(ctrl.insn)
ret = (val >> (ctrl.byte * 8)) & 0xff
if (ctrl.byte == 0):
ctrl.insn += 4
ctrl.entries -= 1
ctrl.byte = 3
else:
ctrl.byte -= 1
return ret
def unwind_exec_insn(self, ctrl, trace=False):
insn = self.unwind_get_byte(ctrl)
if ((insn & 0xc0) == 0x00):
ctrl.vrs[SP] += ((insn & 0x3f) << 2) + 4
if trace:
print_out_str(
' add {0} to stack'.format(((insn & 0x3f) << 2) + 4))
elif ((insn & 0xc0) == 0x40):
ctrl.vrs[SP] -= ((insn & 0x3f) << 2) + 4
if trace:
print_out_str(
' subtract {0} from stack'.format(((insn & 0x3f) << 2) + 4))
elif ((insn & 0xf0) == 0x80):
vsp = ctrl.vrs[SP]
reg = 4
insn = (insn << 8) | self.unwind_get_byte(ctrl)
mask = insn & 0x0fff
if (mask == 0):
print_out_str("unwind: 'Refuse to unwind' instruction")
return -1
# pop R4-R15 according to mask */
load_sp = mask & (1 << (13 - 4))
while (mask):
if (mask & 1):
ctrl.vrs[reg] = self.ramdump.read_word(vsp)
if trace:
print_out_str(
' pop r{0} from stack'.format(reg))
if ctrl.vrs[reg] is None:
return -1
vsp += 4
mask >>= 1
reg += 1
if not load_sp:
ctrl.vrs[SP] = vsp
elif ((insn & 0xf0) == 0x90 and (insn & 0x0d) != 0x0d):
if trace:
print_out_str(
' set SP with the value from {0}'.format(insn & 0x0f))
ctrl.vrs[SP] = ctrl.vrs[insn & 0x0f]
elif ((insn & 0xf0) == 0xa0):
vsp = ctrl.vrs[SP]
a = list(range(4, 4 + (insn & 7)))
a.append(4 + (insn & 7))
# pop R4-R[4+bbb] */
for reg in (a):
ctrl.vrs[reg] = self.ramdump.read_word(vsp)
if trace:
print_out_str(' pop r{0} from stack'.format(reg))
if ctrl.vrs[reg] is None:
return -1
vsp += 4
if (insn & 0x80):
if trace:
print_out_str(' set LR from the stack')
ctrl.vrs[14] = self.ramdump.read_word(vsp)
if ctrl.vrs[14] is None:
return -1
vsp += 4
ctrl.vrs[SP] = vsp
elif (insn == 0xb0):
if trace:
print_out_str(' set pc = lr')
if (ctrl.vrs[PC] == 0):
ctrl.vrs[PC] = ctrl.vrs[LR]
ctrl.entries = 0
elif (insn == 0xb1):
mask = self.unwind_get_byte(ctrl)
vsp = ctrl.vrs[SP]
reg = 0
if (mask == 0 or mask & 0xf0):
print_out_str('unwind: Spare encoding')
return -1
# pop R0-R3 according to mask
while mask:
if (mask & 1):
ctrl.vrs[reg] = self.ramdump.read_word(vsp)
if trace:
print_out_str(
' pop r{0} from stack'.format(reg))
if ctrl.vrs[reg] is None:
return -1
vsp += 4
mask >>= 1
reg += 1
ctrl.vrs[SP] = vsp
elif (insn == 0xb2):
uleb128 = self.unwind_get_byte(ctrl)
if trace:
print_out_str(
' Adjust sp by {0}'.format(0x204 + (uleb128 << 2)))
ctrl.vrs[SP] += 0x204 + (uleb128 << 2)
else:
print_out_str('unwind: Unhandled instruction')
return -1
return 0
def prel31_to_addr(self, addr):
value = self.ramdump.read_word(addr)
# offset = (value << 1) >> 1
# C wants this sign extended. Python doesn't do that.
# Sign extend manually.
if (value & 0x40000000):
offset = value | 0x80000000
else:
offset = value
# This addition relies on integer overflow
# Emulate this behavior
temp = addr + offset
return (temp & 0xffffffff) + ((temp >> 32) & 0xffffffff)
def unwind_frame_tables(self, frame, trace=False):
low = frame.sp
high = ((low + (self.ramdump.thread_size - 1)) & \
~(self.ramdump.thread_size - 1)) + self.ramdump.thread_size
idx = self.search_idx(frame.pc)
if (idx is None):
if trace:
print_out_str("can't find %x" % frame.pc)
return -1
ctrl = self.UnwindCtrlBlock()
ctrl.vrs[FP] = frame.fp
ctrl.vrs[SP] = frame.sp
ctrl.vrs[LR] = frame.lr
ctrl.vrs[PC] = 0
if (idx[1] == 1):
return -1
elif ((idx[1] & 0x80000000) == 0):
ctrl.insn = self.prel31_to_addr(idx[2] + 4)
elif (idx[1] & 0xff000000) == 0x80000000:
ctrl.insn = idx[2] + 4
else:
print_out_str('not supported')
return -1
val = self.ramdump.read_word(ctrl.insn)
if ((val & 0xff000000) == 0x80000000):
ctrl.byte = 2
ctrl.entries = 1
elif ((val & 0xff000000) == 0x81000000):
ctrl.byte = 1
ctrl.entries = 1 + ((val & 0x00ff0000) >> 16)
else:
return -1
while (ctrl.entries > 0):
urc = self.unwind_exec_insn(ctrl, trace)
if (urc < 0):
return urc
if (ctrl.vrs[SP] < low or ctrl.vrs[SP] >= high):
return -1
if (ctrl.vrs[PC] == 0):
ctrl.vrs[PC] = ctrl.vrs[LR]
# check for infinite loop */
if (frame.pc == ctrl.vrs[PC]):
return -1
frame.fp = ctrl.vrs[FP]
frame.sp = ctrl.vrs[SP]
frame.lr = ctrl.vrs[LR]
frame.pc = ctrl.vrs[PC]
return 0
def unwind_backtrace(self, sp, fp, pc, lr, extra_str='', out_file=None, trace=False):
offset = 0
frame = self.Stackframe(fp, sp, lr, pc)
frame.fp = fp
frame.sp = sp
frame.lr = lr
frame.pc = pc
while True:
where = frame.pc
offset = 0
if frame.pc is None:
break
r = self.ramdump.unwind_lookup(frame.pc)
if r is None:
symname = 'UNKNOWN'
offset = 0x0
else:
symname, offset = r
pstring = (
extra_str + '[<{0:x}>] {1}+0x{2:x}'.format(frame.pc, symname, offset))
if out_file:
out_file.write(pstring + '\n')
else:
print_out_str(pstring)
urc = self.unwind_frame(frame, trace)
if urc < 0:
break
def __init__(self, options, nm_path, gdb_path, objdump_path):
self.ebi_files = []
self.phys_offset = None
self.tz_start = 0
self.ebi_start = 0
self.cpu_type = None
self.hw_id = options.force_hardware or None
self.hw_version = options.force_hardware_version or None
self.offset_table = []
self.vmlinux = options.vmlinux
self.nm_path = nm_path
self.gdb_path = gdb_path
self.objdump_path = objdump_path
self.outdir = options.outdir
self.imem_fname = None
self.gdbmi = gdbmi.GdbMI(self.gdb_path, self.vmlinux)
self.gdbmi.open()
self.arm64 = options.arm64
self.page_offset = 0xc0000000
self.thread_size = 8192
self.qtf_path = options.qtf_path
self.qtf = options.qtf
self.t32_host_system = options.t32_host_system or None
self.ipc_log_test = options.ipc_test
self.ipc_log_skip = options.ipc_skip
self.ipc_log_debug = options.ipc_debug
self.ipc_log_help = options.ipc_help
self.use_stdout = options.stdout
self.kernel_version = [0, 0, 0]
if options.ram_addr is not None:
# TODO sanity check to make sure the memory regions don't overlap
for file_path, start, end in options.ram_addr:
fd = open(file_path, 'rb')
if not fd:
print_out_str(
'Could not open {0}. Will not be part of dump'.format(file_path))
continue
self.ebi_files.append((fd, start, end, file_path))
else:
if not self.auto_parse(options.autodump):
return None
if self.ebi_start == 0:
self.ebi_start = self.ebi_files[0][1]
if self.phys_offset is None:
self.get_hw_id()
if options.phys_offset is not None:
print_out_str(
'[!!!] Phys offset was set to {0:x}'.format(\
options.phys_offset))
self.phys_offset = options.phys_offset
self.lookup_table = []
self.config = []
if self.arm64:
self.page_offset = 0xffffffc000000000
self.thread_size = 16384
if options.page_offset is not None:
print_out_str(
'[!!!] Page offset was set to {0:x}'.format(page_offset))
self.page_offset = options.page_offset
self.setup_symbol_tables()
# The address of swapper_pg_dir can be used to determine
# whether or not we're running with LPAE enabled since an
# extra 4k is needed for LPAE. If it's 0x5000 below
# PAGE_OFFSET + TEXT_OFFSET then we know we're using LPAE. For
# non-LPAE it should be 0x4000 below PAGE_OFFSET + TEXT_OFFSET
swapper_pg_dir = self.addr_lookup('swapper_pg_dir')
if swapper_pg_dir is None:
print_out_str('!!! Could not get the swapper page directory!')
print_out_str(
'!!! Your vmlinux is probably wrong for these dumps')
print_out_str('!!! Exiting now')
sys.exit(1)
self.swapper_pg_dir_addr = swapper_pg_dir - self.page_offset
self.kernel_text_offset = self.addr_lookup('stext') - self.page_offset
pg_dir_size = self.kernel_text_offset - self.swapper_pg_dir_addr
if self.arm64:
print_out_str('Using 64bit MMU')
self.mmu = Armv8MMU(self)
elif pg_dir_size == 0x4000:
print_out_str('Using non-LPAE MMU')
self.mmu = Armv7MMU(self)
elif pg_dir_size == 0x5000:
print_out_str('Using LPAE MMU')
text_offset = 0x8000
pg_dir_size = 0x5000 # 0x4000 for non-LPAE
swapper_pg_dir_addr = self.phys_offset + text_offset - pg_dir_size
# We deduce ttbr1 and ttbcr.t1sz based on the value of
# PAGE_OFFSET. This is based on v7_ttb_setup in
# arch/arm/mm/proc-v7-3level.S:
# * TTBR0/TTBR1 split (PAGE_OFFSET):
# * 0x40000000: T0SZ = 2, T1SZ = 0 (not used)
# * 0x80000000: T0SZ = 0, T1SZ = 1
# * 0xc0000000: T0SZ = 0, T1SZ = 2
if self.page_offset == 0x40000000:
t1sz = 0
elif self.page_offset == 0x80000000:
t1sz = 1
elif self.page_offset == 0xc0000000:
t1sz = 2
# need to fixup ttbr1 since we'll be skipping the
# first-level lookup (see v7_ttb_setup):
# /* PAGE_OFFSET == 0xc0000000, T1SZ == 2 */
# add \ttbr1, \ttbr1, #4096 * (1 + 3) @ only L2 used, skip
# pgd+3*pmd
swapper_pg_dir_addr += (4096 * (1 + 3))
else:
raise Exception(
'Invalid phys_offset for page_table_walk: 0x%x'
% self.page_offset)
self.mmu = Armv7LPAEMMU(self, swapper_pg_dir_addr, t1sz)
else:
print_out_str(
"!!! Couldn't determine whether or not we're using LPAE!")
print_out_str(
'!!! This is a BUG in the parser and should be reported.')
sys.exit(1)
if not self.get_version():
print_out_str('!!! Could not get the Linux version!')
print_out_str(
'!!! Your vmlinux is probably wrong for these dumps')
print_out_str('!!! Exiting now')
sys.exit(1)
if not self.get_config():
print_out_str('!!! Could not get saved configuration')
print_out_str(
'!!! This is really bad and probably indicates RAM corruption')
print_out_str('!!! Some features may be disabled!')
self.unwind = self.Unwinder(self)
def __del__(self):
self.gdbmi.close()
def open_file(self, file_name, mode='wb'):
file_path = os.path.join(self.outdir, file_name)
f = None
try:
f = open(file_path, mode)
except:
print_out_str('Could not open path {0}'.format(file_path))
print_out_str('Do you have write/read permissions on the path?')
sys.exit(1)
return f
def get_config(self):
kconfig_addr = self.addr_lookup('kernel_config_data')
if kconfig_addr is None:
return
kconfig_size = self.sizeof('kernel_config_data')
# size includes magic, offset from it
kconfig_size = kconfig_size - 16 - 1
zconfig = NamedTemporaryFile(mode='wb', delete=False)
# kconfig data starts with magic 8 byte string, go past that
s = self.read_cstring(kconfig_addr, 8)
if s != 'IKCFG_ST':
return
kconfig_addr = kconfig_addr + 8
for i in range(0, kconfig_size):
val = self.read_byte(kconfig_addr + i)
zconfig.write(struct.pack('<B', val))
zconfig.close()
zconfig_in = gzip.open(zconfig.name, 'rb')
try:
t = zconfig_in.readlines()
except:
return False
zconfig_in.close()
os.remove(zconfig.name)
for l in t:
self.config.append(l.rstrip().decode('ascii', 'ignore'))
return True
def is_config_defined(self, config):
s = config + '=y'
return s in self.config
def get_version(self):
banner_addr = self.addr_lookup('linux_banner')
if banner_addr is not None:
# Don't try virt to phys yet, compute manually
banner_addr = banner_addr - self.page_offset + self.phys_offset
b = self.read_cstring(banner_addr, 256, False)
if b is None:
print_out_str('!!! Could not read banner address!')
return False
v = re.search('Linux version (\d{0,2}\.\d{0,2}\.\d{0,2})', b)
if v is None:
print_out_str('!!! Could not match version! {0}'.format(b))
return False
self.version = v.group(1)
match = re.search('(\d+)\.(\d+)\.(\d+)', self.version)
if match is not None:
self.kernel_version = map(int, match.groups())
else:
print_out_str('!!! Could not extract version info! {0}'.format(self.version))
print_out_str('Linux Banner: ' + b.rstrip())
print_out_str('version = {0}'.format(self.version))
return True
else:
print_out_str('!!! Could not lookup banner address')
return False
def print_command_line(self):
command_addr = self.addr_lookup('saved_command_line')
if command_addr is not None:
command_addr = self.read_word(command_addr)
b = self.read_cstring(command_addr, 2048)
if b is None:
print_out_str('!!! could not read saved command line address')
return False
print_out_str('Command Line: ' + b)
return True
else:
print_out_str('!!! Could not lookup saved command line address')
return False
def auto_parse(self, file_path):
first_mem_path = None
for f in first_mem_file_names:
test_path = file_path + '/' + f
if os.path.exists(test_path):
first_mem_path = test_path
break
if first_mem_path is None:
print_out_str('!!! Could not open a memory file. I give up')
sys.exit(1)
first_mem = open(first_mem_path, 'rb')
# put some dummy data in for now
self.ebi_files = [(first_mem, 0, 0xffff0000, first_mem_path)]
if not self.get_hw_id(add_offset=False):
return False
first_mem_end = self.ebi_start + os.path.getsize(first_mem_path) - 1
self.ebi_files = [
(first_mem, self.ebi_start, first_mem_end, first_mem_path)]
print_out_str(
'Adding {0} {1:x}--{2:x}'.format(first_mem_path, self.ebi_start, first_mem_end))
self.ebi_start = self.ebi_start + os.path.getsize(first_mem_path)
for f in extra_mem_file_names:
extra_path = file_path + '/' + f
if os.path.exists(extra_path):
extra = open(extra_path, 'rb')
extra_start = self.ebi_start
extra_end = extra_start + os.path.getsize(extra_path) - 1
self.ebi_start = extra_end + 1
print_out_str(
'Adding {0} {1:x}--{2:x}'.format(extra_path, extra_start, extra_end))
self.ebi_files.append(
(extra, extra_start, extra_end, extra_path))
if self.imem_fname is not None:
imemc_path = file_path + '/' + self.imem_fname
if os.path.exists(imemc_path):
imemc = open(imemc_path, 'rb')
imemc_start = self.tz_start
imemc_end = imemc_start + os.path.getsize(imemc_path) - 1
print_out_str(
'Adding {0} {1:x}--{2:x}'.format(imemc_path, imemc_start, imemc_end))
self.ebi_files.append(
(imemc, imemc_start, imemc_end, imemc_path))
return True
def create_t32_launcher(self):
out_path = self.outdir
t32_host_system = self.t32_host_system or platform.system()
launch_config = open(out_path + '/t32_config.t32', 'wb')
launch_config.write('OS=\n')
launch_config.write('ID=T32_1000002\n')
if t32_host_system != 'Linux':
launch_config.write('TMP=C:\\TEMP\n')
launch_config.write('SYS=C:\\T32\n')
launch_config.write('HELP=C:\\T32\\pdf\n')
else:
launch_config.write('TMP=/tmp\n')
launch_config.write('SYS=/opt/t32\n')
launch_config.write('HELP=/opt/t32/pdf\n')
launch_config.write('\n')
launch_config.write('PBI=SIM\n')
launch_config.write('\n')
launch_config.write('SCREEN=\n')
launch_config.write('FONT=SMALL\n')
launch_config.write('HEADER=Trace32-ScorpionSimulator\n')
launch_config.write('\n')
launch_config.write('PRINTER=WINDOWS\n')
launch_config.write('\n')
launch_config.write('RCL=NETASSIST\n')
launch_config.write('PACKLEN=1024\n')
launch_config.write('PORT=%d\n' % random.randint(20000, 30000))
launch_config.write('\n')
launch_config.close()
startup_script = open(out_path + '/t32_startup_script.cmm', 'wb')
startup_script.write(('title \"' + out_path + '\"\n').encode('ascii', 'ignore'))
is_cortex_a53 = self.hw_id == 8916 or self.hw_id == 8939 or self.hw_id == 8936
if self.arm64 and is_cortex_a53:
startup_script.write('sys.cpu CORTEXA53\n'.encode('ascii', 'ignore'))
else:
startup_script.write('sys.cpu {0}\n'.format(self.cpu_type).encode('ascii', 'ignore'))
startup_script.write('sys.up\n'.encode('ascii', 'ignore'))
for ram in self.ebi_files:
ebi_path = os.path.abspath(ram[3])
startup_script.write('data.load.binary {0} 0x{1:x}\n'.format(
ebi_path, ram[1]).encode('ascii', 'ignore'))
if self.arm64:
startup_script.write('Register.Set NS 1\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30201 %Quad 0x{0:x}\n'.format(self.swapper_pg_dir_addr + self.phys_offset).encode('ascii', 'ignore'))
if is_cortex_a53:
startup_script.write('Data.Set SPR:0x30202 %Quad 0x00000012B5193519\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30A20 %Quad 0x000000FF440C0400\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30A30 %Quad 0x0000000000000000\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30100 %Quad 0x0000000034D5D91D\n'.encode('ascii', 'ignore'))
else:
startup_script.write('Data.Set SPR:0x30202 %Quad 0x00000032B5193519\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30A20 %Quad 0x000000FF440C0400\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30A30 %Quad 0x0000000000000000\n'.encode('ascii', 'ignore'))
startup_script.write('Data.Set SPR:0x30100 %Quad 0x0000000004C5D93D\n'.encode('ascii', 'ignore'))
startup_script.write('Register.Set CPSR 0x3C5\n'.encode('ascii', 'ignore'))
startup_script.write('MMU.Delete\n'.encode('ascii', 'ignore'))
startup_script.write('MMU.SCAN PT 0xFFFFFF8000000000--0xFFFFFFFFFFFFFFFF\n'.encode('ascii', 'ignore'))
startup_script.write('mmu.on\n'.encode('ascii', 'ignore'))
startup_script.write('mmu.pt.list 0xffffff8000000000\n'.encode('ascii', 'ignore'))
else:
startup_script.write(
'PER.S.F C15:0x2 %L 0x{0:x}\n'.format(self.mmu.ttbr).encode('ascii', 'ignore'))
if isinstance(self.mmu, Armv7LPAEMMU):
# TTBR1. This gets setup once and never change again even if TTBR0
# changes
startup_script.write('PER.S.F C15:0x102 %L 0x{0:x}\n'.format(
self.mmu.ttbr + 0x4000).encode('ascii', 'ignore'))
# TTBCR with EAE and T1SZ set approprately
startup_script.write(
'PER.S.F C15:0x202 %L 0x80030000\n'.encode('ascii', 'ignore'))
startup_script.write('mmu.on\n'.encode('ascii', 'ignore'))
startup_script.write('mmu.scan\n'.encode('ascii', 'ignore'))
startup_script.write(
('data.load.elf ' + os.path.abspath(self.vmlinux) + ' /nocode\n').encode('ascii', 'ignore'))
if t32_host_system != 'Linux':
if self.arm64:
startup_script.write(
'task.config C:\\T32\\demo\\arm64\\kernel\\linux\\linux-3.x\\linux3.t32\n'.encode('ascii', 'ignore'))
startup_script.write(
'menu.reprogram C:\\T32\\demo\\arm64\\kernel\\linux\\linux-3.x\\linux.men\n'.encode('ascii', 'ignore'))
else:
startup_script.write(
'task.config c:\\t32\\demo\\arm\\kernel\\linux\\linux.t32\n'.encode('ascii', 'ignore'))
startup_script.write(
'menu.reprogram c:\\t32\\demo\\arm\\kernel\\linux\\linux.men\n'.encode('ascii', 'ignore'))
else:
if self.arm64:
startup_script.write(
'task.config /opt/t32/demo/arm64/kernel/linux/linux-3.x/linux3.t32\n'.encode('ascii', 'ignore'))
startup_script.write(
'menu.reprogram /opt/t32/demo/arm64/kernel/linux/linux-3.x/linux.men\n'.encode('ascii', 'ignore'))
else:
startup_script.write(
'task.config /opt/t32/demo/arm/kernel/linux/linux.t32\n'.encode('ascii', 'ignore'))
startup_script.write(
'menu.reprogram /opt/t32/demo/arm/kernel/linux/linux.men\n'.encode('ascii', 'ignore'))
startup_script.write('task.dtask\n'.encode('ascii', 'ignore'))
startup_script.write(
'v.v %ASCII %STRING linux_banner\n'.encode('ascii', 'ignore'))
if os.path.exists(out_path + '/regs_panic.cmm'):
startup_script.write(
'do {0}\n'.format(out_path + '/regs_panic.cmm').encode('ascii', 'ignore'))
elif os.path.exists(out_path + '/core0_regs.cmm'):
startup_script.write(
'do {0}\n'.format(out_path + '/core0_regs.cmm').encode('ascii', 'ignore'))
startup_script.close()
if t32_host_system != 'Linux':
t32_bat = open(out_path + '/launch_t32.bat', 'wb')
if self.arm64:
t32_binary = 'C:\\T32\\bin\\windows64\\t32MARM64.exe'
elif is_cortex_a53:
t32_binary = 'C:\\T32\\bin\\windows64\\t32MARM.exe'
else:
t32_binary = 'c:\\t32\\t32MARM.exe'
t32_bat.write(('start '+ t32_binary + ' -c ' + out_path + '/t32_config.t32, ' +
out_path + '/t32_startup_script.cmm').encode('ascii', 'ignore'))
else:
t32_bat = open(out_path + '/launch_t32.sh', 'wb')
if self.arm64:
t32_binary = '/opt/t32/bin/pc_linux64/t32marm64-qt'
elif is_cortex_a53:
t32_binary = '/opt/t32/bin/pc_linux64/t32marm-qt'
else:
t32_binary = '/opt/t32/bin/pc_linux64/t32marm-qt'
t32_bat.write('#!/bin/sh\n\n')
t32_bat.write('cd $(dirname $0)\n')
t32_bat.write('{} -c t32_config.t32, t32_startup_script.cmm &\n'.format(t32_binary))
os.chmod(out_path + '/launch_t32.sh', stat.S_IRWXU)
t32_bat.close()
print_out_str(
'--- Created a T32 Simulator launcher (run {0}/launch_t32.bat)'.format(out_path))
def read_tz_offset(self):
if self.tz_addr == 0:
print_out_str(
'No TZ address was given, cannot read the magic value!')
return None
else:
return self.read_word(self.tz_addr, False)
def get_hw_id(self, add_offset=True):
socinfo_format = -1
socinfo_id = -1
socinfo_version = 0
socinfo_build_id = 'DUMMY'
chosen_board = None
boards = get_supported_boards()
if (self.hw_id is None):
heap_toc_offset = self.field_offset('struct smem_shared', 'heap_toc')
if heap_toc_offset is None:
print_out_str(
'!!!! Could not get a necessary offset for auto detection!')
print_out_str(
'!!!! Please check the gdb path which is used for offsets!')
print_out_str('!!!! Also check that the vmlinux is not stripped')
print_out_str('!!!! Exiting...')
sys.exit(1)
smem_heap_entry_size = self.sizeof('struct smem_heap_entry')
offset_offset = self.field_offset('struct smem_heap_entry', 'offset')
for board in boards:
trace = board.trace_soc
if trace:
print_out_str('board_num = {0}'.format(board.board_num))
print_out_str('smem_addr = {0:x}'.format(board.smem_addr))
socinfo_start_addr = board.smem_addr + heap_toc_offset + smem_heap_entry_size * SMEM_HW_SW_BUILD_ID + offset_offset
if add_offset:
socinfo_start_addr += board.ram_start
soc_start = self.read_int(socinfo_start_addr, False)
if trace is True:
print_out_str('Read from {0:x}'.format(socinfo_start_addr))
if soc_start is None:
print_out_str('Result is None! Not this!')
else:
print_out_str('soc_start {0:x}'.format(soc_start))
if soc_start is None:
continue
socinfo_start = board.smem_addr + soc_start
if add_offset:
socinfo_start += board.ram_start
if trace:
print_out_str('socinfo_start {0:x}'.format(socinfo_start))
socinfo_id = self.read_int(socinfo_start + 4, False)
if trace:
print_out_str('socinfo_id = {0} check against {1}'.format(socinfo_id, board.socid))
if socinfo_id != board.socid:
continue
socinfo_format = self.read_int(socinfo_start, False)
socinfo_version = self.read_int(socinfo_start + 8, False)
socinfo_build_id = self.read_cstring(
socinfo_start + 12, BUILD_ID_LENGTH, virtual=False)
chosen_board = board
break
if chosen_board is None:
print_out_str('!!!! Could not find hardware')
print_out_str("!!!! The SMEM didn't match anything")
print_out_str(
'!!!! You can use --force-hardware to use a specific set of values')
sys.exit(1)
else:
for board in boards:
if self.hw_id == board.board_num:
print_out_str(
'!!! Hardware id found! The socinfo values given are bogus')
print_out_str('!!! Proceed with caution!')
chosen_board = board
break
if chosen_board is None:
print_out_str(
'!!! A bogus hardware id was specified: {0}'.format(self.hw_id))
print_out_str('!!! Supported ids:')
for b in get_supported_ids():
print_out_str(' {0}'.format(b))
sys.exit(1)
print_out_str('\nHardware match: {0}'.format(board.board_num))
print_out_str('Socinfo id = {0}, version {1:x}.{2:x}'.format(
socinfo_id, socinfo_version >> 16, socinfo_version & 0xFFFF))
print_out_str('Socinfo build = {0}'.format(socinfo_build_id))
print_out_str(
'Now setting phys_offset to {0:x}'.format(board.phys_offset))
if board.wdog_addr is not None:
print_out_str(
'TZ address: {0:x}'.format(board.wdog_addr))
self.phys_offset = board.phys_offset
self.tz_addr = board.wdog_addr
self.ebi_start = board.ram_start
self.tz_start = board.imem_start
self.hw_id = board.board_num
self.cpu_type = board.cpu
self.imem_fname = board.imem_file_name
return True
def virt_to_phys(self, virt):
if isinstance(virt, basestring):
virt = self.addr_lookup(virt)
if virt is None:
return
return self.mmu.virt_to_phys(virt)
def setup_symbol_tables(self):
stream = os.popen(self.nm_path + ' -n ' + self.vmlinux)
symbols = stream.readlines()
for line in symbols:
s = line.split(' ')
if len(s) == 3:
self.lookup_table.append((int(s[0], 16), s[2].rstrip()))
stream.close()
def addr_lookup(self, symbol):
try:
return self.gdbmi.address_of(symbol)
except gdbmi.GdbMIException:
pass
def symbol_lookup(self, addr):
try:
return self.gdbmi.symbol_at(addr).symbol
except gdbmi.GdbMIException:
pass
def sizeof(self, the_type):
try:
return self.gdbmi.sizeof(the_type)
except gdbmi.GdbMIException:
pass
def array_index(self, addr, the_type, index):
"""Index into the array of type `the_type' located at `addr'.
I.e.:
Given:
int my_arr[3];
my_arr[2] = 42;
The following:
my_arr_addr = dump.addr_lookup("my_arr")
dump.read_word(dump.array_index(my_arr_addr, "int", 2))
will return 42.
"""
offset = self.gdbmi.sizeof(the_type) * index
return addr + offset
def field_offset(self, the_type, field):
try:
return self.gdbmi.field_offset(the_type, field)
except gdbmi.GdbMIException:
pass
def container_of(self, ptr, the_type, member):
try:
return self.gdbmi.container_of(ptr, the_type, member)
except gdbmi.GdbMIException:
pass
def sibling_field_addr(self, ptr, parent_type, member, sibling):
try:
return self.gdbmi.sibling_field_addr(ptr, parent_type, member, sibling)
except gdbmi.GdbMIException:
pass
def unwind_lookup(self, addr, symbol_size=0):
if (addr is None):
return ('(Invalid address)', 0x0)
# modules are not supported so just print out an address
# instead of a confusing symbol
if (addr < self.page_offset):
return ('(No symbol for address {0:x})'.format(addr), 0x0)
low = 0
high = len(self.lookup_table)
# Python now complains about division producing floats
mid = (low + high) >> 1
premid = 0
while(not(addr >= self.lookup_table[mid][0] and addr < self.lookup_table[mid + 1][0])):
if(addr < self.lookup_table[mid][0]):
high = mid - 1
if(addr > self.lookup_table[mid][0]):
low = mid + 1
mid = (high + low) >> 1
if(mid == premid):
return None
if (mid + 1) >= len(self.lookup_table) or mid < 0:
return None
premid = mid
if symbol_size == 0:
return (self.lookup_table[mid][1], addr - self.lookup_table[mid][0])
else:
return (self.lookup_table[mid][1], self.lookup_table[mid + 1][0] - self.lookup_table[mid][0])
def read_physical(self, addr, length, trace=False):
ebi = (-1, -1, -1)
for a in self.ebi_files:
fd, start, end, path = a
if addr >= start and addr <= end:
ebi = a
break
if ebi[0] is -1:
if trace:
if addr is None:
print_out_str('None was passed to read_physical')
else:
print_out_str('addr {0:x} out of bounds'.format(addr))
return None
if trace:
print_out_str('reading from {0}'.format(ebi[0]))
print_out_str('start = {0:x}'.format(ebi[1]))
print_out_str('end = {0:x}'.format(ebi[2]))
print_out_str('length = {0:x}'.format(length))
offset = addr - ebi[1]
if trace:
print_out_str('offset = {0:x}'.format(offset))
ebi[0].seek(offset)
a = ebi[0].read(length)
if trace:
print_out_str('result = {0}'.format(parser_util.cleanupString(a)))
print_out_str('lenght = {0}'.format(len(a)))
return a
def read_dword(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<Q', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# returns a word size (pointer) read from ramdump
def read_word(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
if self.arm64:
s = self.read_string(address, '<Q', virtual, trace, cpu)
else:
s = self.read_string(address, '<I', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# returns a value corresponding to half the word size
def read_halfword(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
if self.arm64:
s = self.read_string(address, '<I', virtual, trace, cpu)
else:
s = self.read_string(address, '<H', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
def read_byte(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<B', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
def read_bool(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<?', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# returns a value guaranteed to be 64 bits
def read_u64(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<Q', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# returns a value guaranteed to be 32 bits
def read_s32(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<i', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# returns a value guaranteed to be 32 bits
def read_u32(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<I', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
def read_int(self, address, virtual=True, trace=False, cpu=None):
return self.read_u32(address, virtual, trace, cpu)
# returns a value guaranteed to be 16 bits
def read_u16(self, address, virtual=True, trace=False, cpu=None):
if trace:
print_out_str('reading {0:x}'.format(address))
s = self.read_string(address, '<H', virtual, trace, cpu)
if s is None:
return None
else:
return s[0]
# reads a 4 or 8 byte field from a structure
def read_structure_field(self, address, struct_name, field):
size = self.sizeof("(({0} *)0)->{1}".format(struct_name, field))
if size == 4:
return self.read_u32(address + self.field_offset(struct_name, field))
if size == 8:
return self.read_u64(address + self.field_offset(struct_name, field))
return None
def read_cstring(self, address, max_length, virtual=True, cpu=None, trace=False):
addr = address
if virtual:
if cpu is not None:
address += pcpu_offset + self.per_cpu_offset(cpu)
addr = self.virt_to_phys(address)
if trace:
if address is None:
print_out_str('None was passed as address')
elif addr is None:
print_out_str('virt to phys failed on {0:x}'.format(address))
else:
print_out_str('addr {0:x} -> {1:x}'.format(address, addr))
s = self.read_physical(addr, max_length, trace)
if s is not None:
a = s.decode('ascii', 'ignore')
return a.split('\0')[0]
else:
return s
# returns a tuple of the result from reading from the specified fromat string
# return None on failure
def read_string(self, address, format_string, virtual=True, trace=False, cpu=None):
addr = address
per_cpu_string = ''
if virtual:
if cpu is not None:
pcpu_offset = self.per_cpu_offset(cpu)
address += pcpu_offset
per_cpu_string = ' with per-cpu offset of ' + hex(pcpu_offset)
addr = self.virt_to_phys(address)
if trace:
if addr is not None:
print_out_str('reading from phys {0:x}{1}'.format(addr,
per_cpu_string))
s = self.read_physical(addr, struct.calcsize(format_string), trace)
if (s is None) or (s == ''):
if trace and addr is not None:
print_out_str(
'address {0:x} failed hard core (v {1} t{2})'.format(addr, virtual, trace))
return None
return struct.unpack(format_string, s)
def hexdump(self, address, length, virtual=True, file_object=None):
"""Returns a string with a hexdump (in the format of `xxd').
`length' is in bytes.
Example (intentionally not in doctest format since it would require
a specific dump to be loaded to pass as a doctest):
PY>> print(dump.hexdump(dump.addr_lookup('linux_banner') - 0x100, 0x200))
c0afff6b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afff7b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afff8b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afff9b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afffab: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afffbb: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afffcb: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afffdb: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0afffeb: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0affffb: 0000 0000 0069 6e69 7463 616c 6c5f 6465 .....initcall_de
c0b0000b: 6275 6700 646f 5f6f 6e65 5f69 6e69 7463 bug.do_one_initc
c0b0001b: 616c 6c5f 6465 6275 6700 2573 2076 6572 all_debug.%s ver
c0b0002b: 7369 6f6e 2025 7320 286c 6e78 6275 696c sion %s (lnxbuil
c0b0003b: 6440 6162 6169 7431 3532 2d73 642d 6c6e d@abait152-sd-ln
c0b0004b: 7829 2028 6763 6320 7665 7273 696f 6e20 x) (gcc version
c0b0005b: 342e 3720 2847 4343 2920 2920 2573 0a00 4.7 (GCC) ) %s..
c0b0006b: 4c69 6e75 7820 7665 7273 696f 6e20 332e Linux version 3.
c0b0007b: 3130 2e30 2d67 6137 3362 3831 622d 3030 10.0-ga73b81b-00
c0b0008b: 3030 392d 6732 6262 6331 3235 2028 6c6e 009-g2bbc125 (ln
c0b0009b: 7862 7569 6c64 4061 6261 6974 3135 322d xbuild@abait152-
c0b000ab: 7364 2d6c 6e78 2920 2867 6363 2076 6572 sd-lnx) (gcc ver
c0b000bb: 7369 6f6e 2034 2e37 2028 4743 4329 2029 sion 4.7 (GCC) )
c0b000cb: 2023 3120 534d 5020 5052 4545 4d50 5420 #1 SMP PREEMPT
c0b000db: 5765 6420 4170 7220 3136 2031 333a 3037 Wed Apr 16 13:07
c0b000eb: 3a30 3420 5044 5420 3230 3134 0a00 7c2f :04 PDT 2014..|/
c0b000fb: 2d5c 0000 0000 0000 00d4 7525 c0c8 7625 -\........u%..v%
c0b0010b: c000 0000 0000 0000 0000 0000 0000 0000 ................
c0b0011b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0b0012b: 00e0 0b10 c000 0000 0094 7025 c000 0000 ..........p%....
c0b0013b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0b0014b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
c0b0015b: 0000 0000 0000 0000 0000 0000 0000 0000 ................
"""
import StringIO
sio = StringIO.StringIO()
parser_util.xxd(
address,
[self.read_byte(address + i, virtual=virtual) or 0
for i in xrange(length)],
file_object=sio)
ret = sio.getvalue()
sio.close()
return ret
def per_cpu_offset(self, cpu):
per_cpu_offset_addr = self.addr_lookup('__per_cpu_offset')
if per_cpu_offset_addr is None:
return 0
per_cpu_offset_addr_indexed = self.array_index(
per_cpu_offset_addr, 'unsigned long', cpu)
return self.read_word(per_cpu_offset_addr_indexed)
def get_num_cpus(self):
cpu_present_bits_addr = self.addr_lookup('cpu_present_bits')
cpu_present_bits = self.read_word(cpu_present_bits_addr)
return bin(cpu_present_bits).count('1')
def iter_cpus(self):
return xrange(self.get_num_cpus())
def thread_saved_field_common_32(self, task, reg_offset):
thread_info = self.read_word(task + self.field_offset('struct task_struct', 'stack'))
cpu_context_offset = self.field_offset('struct thread_info', 'cpu_context')
val = self.read_word(thread_info + cpu_context_offset + reg_offset)
return val
def thread_saved_field_common_64(self, task, reg_offset):
thread_offset = self.field_offset('struct task_struct', 'thread')
cpu_context_offset = self.field_offset('struct thread_struct', 'cpu_context')
val = self.read_word(task + thread_offset + cpu_context_offset + reg_offset)
return val
def thread_saved_pc(self, task):
if self.arm64:
return self.thread_saved_field_common_64(task, self.field_offset('struct cpu_context', 'pc'))
else:
return self.thread_saved_field_common_32(task, self.field_offset('struct cpu_context_save', 'pc'))
def thread_saved_sp(self, task):
if self.arm64:
return self.thread_saved_field_common_64(task, self.field_offset('struct cpu_context', 'sp'))
else:
return self.thread_saved_field_common_32(task, self.field_offset('struct cpu_context_save', 'sp'))
def thread_saved_fp(self, task):
if self.arm64:
return self.thread_saved_field_common_64(task, self.field_offset('struct cpu_context', 'fp'))
else:
return self.thread_saved_field_common_32(task, self.field_offset('struct cpu_context_save', 'fp'))