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|
from __future__ import print_function
from collections import namedtuple
import functools
import logging
import os
import re
import struct
import termios
from future.utils import viewitems
from miasm.core.interval import interval
from miasm.jitter.csts import PAGE_READ, PAGE_WRITE
REGEXP_T = type(re.compile(r''))
StatInfo = namedtuple("StatInfo", [
"st_dev", "st_ino", "st_nlink", "st_mode", "st_uid", "st_gid", "st_rdev",
"st_size", "st_blksize", "st_blocks", "st_atime", "st_atimensec",
"st_mtime", "st_mtimensec", "st_ctime", "st_ctimensec"
])
StatFSInfo = namedtuple("StatFSInfo", [
"f_type", "f_bsize", "f_blocks", "f_bfree", "f_bavail", "f_files",
"f_ffree", "f_fsid", "f_namelen", "f_frsize", "f_flags", "f_spare",
])
log = logging.getLogger("environment")
console_handler = logging.StreamHandler()
console_handler.setFormatter(logging.Formatter("[%(levelname)-8s]: %(message)s"))
log.addHandler(console_handler)
log.setLevel(logging.WARNING)
class FileDescriptor(object):
"""Stand for a file descriptor on a system
According to inode(7), following types are possibles:
- socket
- symbolic link
- regular file
- block device
- directory
- character device
- FIFO
"""
# st_mode's file type
file_type = None
# st_mode's file mode (9 least bits are file permission bits)
file_mode = 0o0777
# st_dev / st_rdev
cont_device_id = None
device_id = 0
# inode number (st_ino)
inode = None
# Number of hardlink (st_nlink)
nlink = 0
# Owner / group
uid = None
gid = None
# Size (st_size / st_blksize / st_blocks)
size = 0
blksize = 0
blocks = 0
# Times
atime = 0
atimensec = 0
mtime = 0
mtimensec = 0
ctime = 0
ctimensec = 0
def __init__(self, number):
self.number = number
self.is_closed = False
def stat(self):
mode = self.file_type | self.file_mode
return StatInfo(
st_dev=self.cont_device_id, st_ino=self.inode,
st_nlink=self.nlink, st_mode=mode,
st_uid=self.uid, st_gid=self.gid,
st_rdev=self.device_id, st_size=self.size,
st_blksize=self.blksize, st_blocks=self.blocks,
st_atime=self.atime, st_atimensec=self.atimensec,
st_mtime=self.mtime, st_mtimensec=self.mtimensec,
st_ctime=self.ctime, st_ctimensec=self.ctimensec
)
def close(self):
self.is_closed = True
class FileDescriptorCharDevice(FileDescriptor):
file_type = 0o0020000 # S_IFCHR
file_mode = 0o0620
cont_device_id = 1
device_id = 1
class FileDescriptorSTDIN(FileDescriptorCharDevice):
"""Special file descriptor standinf for STDIN"""
inode = 0
def read(self, count):
raise RuntimeError("Not implemented")
class FileDescriptorSTDOUT(FileDescriptorCharDevice):
"""Special file descriptor standinf for STDOUT"""
inode = 1
def write(self, data):
print("[STDOUT] %s" % data.rstrip())
class FileDescriptorSTDERR(FileDescriptorCharDevice):
"""Special file descriptor standinf for STDERR"""
inode = 2
def write(self, data):
print("[STDERR] %s" % data.rstrip())
class FileDescriptorDirectory(FileDescriptor):
"""FileDescription designing a directory"""
file_type = 0o0040000 # S_IFDIR
def __init__(self, number, flags, filesystem, real_path):
super(FileDescriptorDirectory, self).__init__(number)
self.filesystem = filesystem
self.real_path = real_path
self.cur_listdir = None
self.flags = flags
def listdir(self):
if self.cur_listdir is None:
self.cur_listdir = os.listdir(self.real_path)
while self.cur_listdir:
yield self.cur_listdir.pop()
class FileDescriptorRegularFile(FileDescriptor):
"""FileDescriptor designing a regular file"""
file_type = 0o0100000 # S_IFREG
def __init__(self, number, flags, filesystem, real_fd):
super(FileDescriptorRegularFile, self).__init__(number)
self.flags = flags
self.filesystem = filesystem
self.real_fd = real_fd
def write(self, data):
raise RuntimeError("Not implemented")
def read(self, count):
return os.read(self.real_fd, count)
def close(self):
super(FileDescriptorRegularFile, self).close()
return os.close(self.real_fd)
def lseek(self, offset, whence):
return os.lseek(self.real_fd, offset, whence) # SEEK_SET
def tell(self):
return self.lseek(0, 1) # SEEK_CUR
def seek(self, offset):
return self.lseek(offset, 0) # SEEK_SET
class FileDescriptorSocket(FileDescriptor):
"""FileDescription standing for a socket"""
file_type = 0o0140000 # S_IFSOCK
def __init__(self, number, family, type_, protocol):
super(FileDescriptorSocket, self).__init__(number)
self.family = family
self.type_ = type_
self.protocol = protocol
class FileSystem(object):
"""File system abstraction
Provides standard operations on the filesystem, (a bit like FUSE)
API using FileSystem only used sandbox-side path. FileSystem should be the
only object able to interact with real path, outside the sandbox.
Thus, if `resolve_path` is correctly implemented and used, it should not be
possible to modify files outside the sandboxed path
"""
device_id = 0x1234 # ID of device containing file (stat.st_dev)
blocksize = 0x1000 # Size of block on this filesystem
f_type = 0xef53 # (Type of filesystem) EXT4_SUPER_MAGIC
nb_total_block = 0x1000
nb_free_block = 0x100
nb_avail_block = nb_free_block # Available to unprivileged user
nb_total_fnode = 100 # Total file nodes in filesystem
nb_free_fnode = 50
max_filename_len = 256
fragment_size = 0
mount_flags = 0
def __init__(self, base_path, linux_env):
self.base_path = base_path
self.linux_env = linux_env
self.passthrough = []
self.path_to_inode = {} # Real path (post-resolution) -> inode number
def resolve_path(self, path, follow_link=True):
"""Resolve @path to the corresponding sandboxed path"""
# path_bytes is used for Python 2 / Python 3 compatibility
path_bytes = not isinstance(path, str)
path_sep = os.path.sep.encode() if path_bytes else os.path.sep
if path_bytes:
def _convert(subpath):
if not isinstance(subpath, str):
return subpath
return subpath.encode()
def _convert_re(expr):
if isinstance(expr.pattern, str):
try:
return re.compile(
expr.pattern.encode(),
flags=expr.flags & ~re.UNICODE
)
except UnicodeEncodeError:
# Will never match
log.warning(
'Cannot convert regexp to bytes %r %r',
expr.pattern,
expr.flags,
exc_info=True,
)
return re.compile(b'$X')
return expr
else:
def _convert(subpath):
if not isinstance(subpath, str):
return subpath.decode()
return subpath
def _convert_re(expr):
if not isinstance(expr.pattern, str):
try:
return re.compile(
expr.pattern.decode(),
flags=expr.flags & re.UNICODE
)
except UnicodeDecodeError:
# Will never match
log.warning(
'Cannot convert regexp to str %r %r',
expr.pattern,
expr.flags,
exc_info=True,
)
return re.compile(r'$X')
return expr
# Remove '../', etc.
path = os.path.normpath(path)
# Passthrough
for passthrough in self.passthrough:
if isinstance(passthrough, REGEXP_T):
if _convert_re(passthrough).match(path):
return path
elif _convert(passthrough) == path:
return path
# Remove leading '/' if any
path = path.lstrip(path_sep)
base_path = os.path.abspath(_convert(self.base_path))
out_path = os.path.join(base_path, path)
assert out_path.startswith(base_path + path_sep)
if os.path.islink(out_path):
link_target = os.readlink(out_path)
# Link can be absolute or relative -> absolute
link = os.path.normpath(os.path.join(os.path.dirname(path), link_target))
if follow_link:
out_path = self.resolve_path(link)
else:
out_path = link
return out_path
def get_path_inode(self, real_path):
inode = self.path_to_inode.setdefault(real_path, len(self.path_to_inode))
return inode
def exists(self, path):
sb_path = self.resolve_path(path)
return os.path.exists(sb_path)
def readlink(self, path):
sb_path = self.resolve_path(path, follow_link=False)
if not os.path.islink(sb_path):
return None
return os.readlink(sb_path)
def statfs(self):
return StatFSInfo(
f_type=self.f_type, f_bsize=self.blocksize,
f_blocks=self.nb_total_block, f_bfree=self.nb_free_block,
f_bavail=self.nb_avail_block, f_files=self.nb_total_fnode,
f_ffree=self.nb_free_fnode, f_fsid=self.device_id,
f_namelen=self.max_filename_len,
f_frsize=self.fragment_size, f_flags=self.mount_flags, f_spare=0)
def getattr_(self, path, follow_link=True):
sb_path = self.resolve_path(path, follow_link=follow_link)
flags = self.linux_env.O_RDONLY
if os.path.isdir(sb_path):
flags |= self.linux_env.O_DIRECTORY
fd = self.open_(path, flags, follow_link=follow_link)
info = self.linux_env.fstat(fd)
self.linux_env.close(fd)
return info
def open_(self, path, flags, follow_link=True):
path = self.resolve_path(path, follow_link=follow_link)
if not os.path.exists(path):
# ENOENT (No such file or directory)
return -1
fd = self.linux_env.next_fd()
acc_mode = flags & self.linux_env.O_ACCMODE
if os.path.isdir(path):
assert flags & self.linux_env.O_DIRECTORY == self.linux_env.O_DIRECTORY
if acc_mode == self.linux_env.O_RDONLY:
fdesc = FileDescriptorDirectory(fd, flags, self, path)
else:
raise RuntimeError("Not implemented")
elif os.path.isfile(path):
if acc_mode == os.O_RDONLY:
# Read only
real_fd = os.open(path, os.O_RDONLY)
else:
raise RuntimeError("Not implemented")
fdesc = FileDescriptorRegularFile(fd, flags, self, real_fd)
elif os.path.islink(path):
raise RuntimeError("Not implemented")
else:
raise RuntimeError("Unknown file type for %r" % path)
self.linux_env.file_descriptors[fd] = fdesc
# Set stat info
fdesc.cont_device_id = self.device_id
fdesc.inode = self.get_path_inode(path)
fdesc.uid = self.linux_env.user_uid
fdesc.gid = self.linux_env.user_gid
size = os.path.getsize(path)
fdesc.size = size
fdesc.blksize = self.blocksize
fdesc.blocks = (size + ((512 - (size % 512)) % 512)) // 512
return fd
class Networking(object):
"""Network abstraction"""
def __init__(self, linux_env):
self.linux_env = linux_env
def socket(self, family, type_, protocol):
fd = self.linux_env.next_fd()
fdesc = FileDescriptorSocket(fd, family, type_, protocol)
self.linux_env.file_descriptors[fd] = fdesc
return fd
class LinuxEnvironment(object):
"""A LinuxEnvironment regroups information to simulate a Linux-like
environment"""
# To be overridden
platform_arch = None
# User information
user_uid = 1000
user_euid = 1000
user_gid = 1000
user_egid = 1000
user_name = b"user"
# Memory mapping information
brk_current = 0x74000000
mmap_current = 0x75000000
# System information
sys_sysname = b"Linux"
sys_nodename = b"user-pc"
sys_release = b"4.13.0-19-generic"
sys_version = b"#22-Ubuntu"
sys_machine = None
# Filesystem
filesystem_base = "file_sb"
file_descriptors = None
# Current process
process_tid = 1000
process_pid = 1000
# Syscall restrictions
ioctl_allowed = None # list of (fd, cmd), None value for wildcard
ioctl_disallowed = None # list of (fd, cmd), None value for wildcard
# Time
base_time = 1531900000
# Arch specific constant
O_ACCMODE = None
O_CLOEXEC = None
O_DIRECTORY = None
O_LARGEFILE = None
O_NONBLOCK = None
O_RDONLY = None
def __init__(self):
stdin = FileDescriptorSTDIN(0)
stdout = FileDescriptorSTDOUT(1)
stderr = FileDescriptorSTDERR(2)
for std in [stdin, stdout, stderr]:
std.uid = self.user_uid
std.gid = self.user_gid
self.file_descriptors = {
0: stdin,
1: stdout,
2: stderr,
}
self.ioctl_allowed = [
(0, termios.TCGETS),
(0, termios.TIOCGWINSZ),
(0, termios.TIOCSWINSZ),
(1, termios.TCGETS),
(1, termios.TIOCGWINSZ),
(1, termios.TIOCSWINSZ),
]
self.ioctl_disallowed = [
(2, termios.TCGETS),
(0, termios.TCSETSW),
]
self.filesystem = FileSystem(self.filesystem_base, self)
self.network = Networking(self)
def next_fd(self):
return len(self.file_descriptors)
def clock_gettime(self):
out = self.base_time
self.base_time += 1
return out
def open_(self, path, flags, follow_link=True):
"""Stub for 'open' syscall"""
return self.filesystem.open_(path, flags, follow_link=follow_link)
def socket(self, family, type_, protocol):
"""Stub for 'socket' syscall"""
return self.network.socket(family, type_, protocol)
def fstat(self, fd):
"""Get file status through fd"""
fdesc = self.file_descriptors.get(fd)
if fdesc is None:
return None
return fdesc.stat()
def stat(self, path):
"""Get file status through path"""
return self.filesystem.getattr_(path)
def lstat(self, path):
"""Get file status through path (not following links)"""
return self.filesystem.getattr_(path, follow_link=False)
def close(self, fd):
"""Stub for 'close' syscall"""
fdesc = self.file_descriptors.get(fd)
if fdesc is None:
return None
return fdesc.close()
def write(self, fd, data):
"""Stub for 'write' syscall"""
fdesc = self.file_descriptors.get(fd)
if fdesc is None:
return None
fdesc.write(data)
return len(data)
def read(self, fd, count):
"""Stub for 'read' syscall"""
fdesc = self.file_descriptors.get(fd)
if fdesc is None:
return None
return fdesc.read(count)
def getdents(self, fd, count, packing_callback):
"""Stub for 'getdents' syscall
'getdents64' must be handled by caller (only the structure layout is
modified)
@fd: getdents' fd argument
@count: getdents' count argument
@packing_callback(cur_len, d_ino, d_type, name) -> entry
"""
fdesc = self.file_descriptors[fd]
if not isinstance(fdesc, FileDescriptorDirectory):
raise RuntimeError("Not implemented")
out = b""
# fdesc.listdir continues from where it stopped
for name in fdesc.listdir():
d_ino = 1 # Not the real one
d_type = 0 # DT_UNKNOWN (getdents(2) "All applications must properly
# handle a return of DT_UNKNOWN.")
entry = packing_callback(len(out), d_ino, d_type, name)
if len(out) + len(entry) > count:
# Report to a further call
fdesc.cur_listdir.append(name)
break
out = out + entry
return out
def ioctl(self, fd, cmd, arg):
"""Stub for 'ioctl' syscall
Return the list of element to pack back depending on target ioctl
If the ioctl is disallowed, return False
"""
allowed = False
disallowed = False
for test in [(fd, cmd), (None, cmd), (fd, None)]:
if test in self.ioctl_allowed:
allowed = True
if test in self.ioctl_disallowed:
disallowed = True
if allowed and disallowed:
raise ValueError("fd: %x, cmd: %x is allowed and disallowed" % (fd, cmd))
if allowed:
if cmd == termios.TCGETS:
return 0, 0, 0, 0
elif cmd == termios.TIOCGWINSZ:
# struct winsize
# {
# unsigned short ws_row; /* rows, in characters */
# unsigned short ws_col; /* columns, in characters */
# unsigned short ws_xpixel; /* horizontal size, pixels */
# unsigned short ws_ypixel; /* vertical size, pixels */
# };
return 1000, 360, 1000, 1000
elif cmd == termios.TIOCSWINSZ:
# Ignore it
return
else:
raise RuntimeError("Not implemented")
elif disallowed:
return False
else:
raise KeyError("Unknown ioctl fd:%x cmd:%x" % (fd, cmd))
def mmap(self, addr, len_, prot, flags, fd, off, vmmngr):
"""Stub for 'mmap' syscall
'mmap2' must be implemented by calling this function with off * 4096
"""
if addr == 0:
addr = self.mmap_current
self.mmap_current += (len_ + 0x1000) & ~0xfff
all_mem = vmmngr.get_all_memory()
mapped = interval(
[
(start, start + info["size"] - 1)
for start, info in viewitems(all_mem)
]
)
MAP_FIXED = 0x10
if flags & MAP_FIXED:
# Alloc missing and override
missing = interval([(addr, addr + len_ - 1)]) - mapped
for start, stop in missing:
vmmngr.add_memory_page(
start,
PAGE_READ|PAGE_WRITE,
b"\x00" * (stop - start + 1),
"mmap allocated"
)
else:
# Find first candidate segment nearby addr
for start, stop in mapped:
if stop < addr:
continue
rounded = (stop + 1 + 0x1000) & ~0xfff
if (interval([(rounded, rounded + len_)]) & mapped).empty:
addr = rounded
break
else:
assert (interval([(addr, addr + len_)]) & mapped).empty
vmmngr.add_memory_page(
addr,
PAGE_READ|PAGE_WRITE,
b"\x00" * len_,
"mmap allocated"
)
if fd == 0xffffffff:
MAP_ANONYMOUS = 0x20 # mman.h
# fd and offset are ignored if MAP_ANONYMOUS flag is present
if not(flags & MAP_ANONYMOUS) and off != 0:
raise RuntimeError("Not implemented")
data = b"\x00" * len_
else:
fdesc = self.file_descriptors[fd]
cur_pos = fdesc.tell()
fdesc.seek(off)
data = fdesc.read(len_)
fdesc.seek(cur_pos)
vmmngr.set_mem(addr, data)
return addr
def brk(self, addr, vmmngr):
"""Stub for 'brk' syscall"""
if addr == 0:
addr = self.brk_current
else:
all_mem = vmmngr.get_all_memory()
mapped = interval(
[
(start, start + info["size"] - 1)
for start, info in viewitems(all_mem)
]
)
# Alloc missing and override
missing = interval([(self.brk_current, addr)]) - mapped
for start, stop in missing:
vmmngr.add_memory_page(
start,
PAGE_READ|PAGE_WRITE,
b"\x00" * (stop - start + 1),
"BRK"
)
self.brk_current = addr
return addr
class LinuxEnvironment_x86_32(LinuxEnvironment):
platform_arch = b"x86_32"
sys_machine = b"x86_32"
# TODO FIXME
## O_ACCMODE = 0x3
## O_CLOEXEC = 0x80000
## O_DIRECTORY = 0x10000
## O_LARGEFILE = 0x8000
## O_NONBLOCK = 0x800
## O_RDONLY = 0
class LinuxEnvironment_x86_64(LinuxEnvironment):
platform_arch = b"x86_64"
sys_machine = b"x86_64"
O_ACCMODE = 0x3
O_CLOEXEC = 0x80000
O_DIRECTORY = 0x10000
O_LARGEFILE = 0x8000
O_NONBLOCK = 0x800
O_RDONLY = 0
class LinuxEnvironment_arml(LinuxEnvironment):
platform_arch = b"arml"
sys_machine = b"arml"
O_ACCMODE = 0x3
O_CLOEXEC = 0x80000
O_DIRECTORY = 0x4000
O_LARGEFILE = 0x20000
O_NONBLOCK = 0x800
O_RDONLY = 0
# ARM specific
tls = 0
# get_tls: __kuser_helper_version >= 1
# cmpxchg: __kuser_helper_version >= 2
# memory_barrier: __kuser_helper_version >= 3
kuser_helper_version = 3
class LinuxEnvironment_mips32b(LinuxEnvironment):
platform_arch = b"mips32b"
sys_machine = b"mips32b"
class AuxVec(object):
"""Auxiliary vector abstraction, filled with default values
(mainly based on https://lwn.net/Articles/519085)
# Standard usage
>>> auxv = AuxVec(elf_base_addr, cont_target.entry_point, linux_env)
# Enable AT_SECURE
>>> auxv = AuxVec(..., AuxVec.AT_SECURE=1)
# Modify AT_RANDOM
>>> auxv = AuxVec(..., AuxVec.AT_RANDOM="\x00"*0x10)
# Using AuxVec instance for stack preparation
# First, fill memory with vectors data
>>> for AT_number, data in auxv.data_to_map():
dest_ptr = ...
copy_to_dest(data, dest_ptr)
auxv.ptrs[AT_number] = dest_ptr
# Then, get the key: value (with value being sometime a pointer)
>>> for auxid, auxval in auxv.iteritems():
...
"""
AT_PHDR = 3
AT_PHNUM = 5
AT_PAGESZ = 6
AT_ENTRY = 9
AT_UID = 11
AT_EUID = 12
AT_GID = 13
AT_EGID = 14
AT_PLATFORM = 15
AT_HWCAP = 16
AT_SECURE = 23
AT_RANDOM = 25
AT_SYSINFO_EHDR = 33
def __init__(self, elf_phdr_vaddr, entry_point, linux_env, **kwargs):
"""Instantiate an AuxVec, with required elements:
- elf_phdr_vaddr: virtual address of the ELF's PHDR in memory
- entry_point: virtual address of the ELF entry point
- linux_env: LinuxEnvironment instance, used to provides some of the
option values
Others options can be overridden by named arguments
"""
self.info = {
self.AT_PHDR: elf_phdr_vaddr,
self.AT_PHNUM: 9,
self.AT_PAGESZ: 0x1000,
self.AT_ENTRY: entry_point,
self.AT_UID: linux_env.user_uid,
self.AT_EUID: linux_env.user_euid,
self.AT_GID: linux_env.user_gid,
self.AT_EGID: linux_env.user_egid,
self.AT_PLATFORM: linux_env.platform_arch,
self.AT_HWCAP: 0,
self.AT_SECURE: 0,
self.AT_RANDOM: b"\x00" * 0x10,
# vDSO is not mandatory
self.AT_SYSINFO_EHDR: None,
}
self.info.update(kwargs)
self.ptrs = {} # info key -> corresponding virtual address
def data_to_map(self):
"""Iterator on (AT_number, data)
Once the data has been mapped, the corresponding ptr must be set in
'self.ptrs[AT_number]'
"""
for AT_number in [self.AT_PLATFORM, self.AT_RANDOM]:
yield (AT_number, self.info[AT_number])
def iteritems(self):
"""Iterator on auxiliary vector id and values"""
for AT_number, value in viewitems(self.info):
if AT_number in self.ptrs:
value = self.ptrs[AT_number]
if value is None:
# AT to ignore
continue
yield (AT_number, value)
items = iteritems
def prepare_loader_x86_64(jitter, argv, envp, auxv, linux_env,
hlt_address=0x13371acc):
"""Fill the environment with enough information to run a linux loader
@jitter: Jitter instance
@argv: list of strings
@envp: dict of environment variables names to their values
@auxv: AuxVec instance
@hlt_address (default to 0x13371acc): stopping address
Example of use:
>>> jitter = machine.jitter()
>>> jitter.init_stack()
>>> linux_env = LinuxEnvironment_x86_64()
>>> argv = ["/bin/ls", "-lah"]
>>> envp = {"PATH": "/usr/local/bin", "USER": linux_env.user_name}
>>> auxv = AuxVec(elf_base_addr, entry_point, linux_env)
>>> prepare_loader_x86_64(jitter, argv, envp, auxv, linux_env)
# One may want to enable syscall handling here
# The program can now run from the loader
>>> jitter.init_run(ld_entry_point)
>>> jitter.continue_run()
"""
# Stack layout looks like
# [data]
# - auxv values
# - envp name=value
# - argv arguments
# [auxiliary vector]
# [environment pointer]
# [argument vector]
for AT_number, data in auxv.data_to_map():
data += b"\x00"
jitter.cpu.RSP -= len(data)
ptr = jitter.cpu.RSP
jitter.vm.set_mem(ptr, data)
auxv.ptrs[AT_number] = ptr
env_ptrs = []
for name, value in viewitems(envp):
env = b"%s=%s\x00" % (name, value)
jitter.cpu.RSP -= len(env)
ptr = jitter.cpu.RSP
jitter.vm.set_mem(ptr, env)
env_ptrs.append(ptr)
argv_ptrs = []
for arg in argv:
arg += b"\x00"
jitter.cpu.RSP -= len(arg)
ptr = jitter.cpu.RSP
jitter.vm.set_mem(ptr, arg)
argv_ptrs.append(ptr)
jitter.push_uint64_t(hlt_address)
jitter.push_uint64_t(0)
jitter.push_uint64_t(0)
for auxid, auxval in viewitems(auxv):
jitter.push_uint64_t(auxval)
jitter.push_uint64_t(auxid)
jitter.push_uint64_t(0)
for ptr in reversed(env_ptrs):
jitter.push_uint64_t(ptr)
jitter.push_uint64_t(0)
for ptr in reversed(argv_ptrs):
jitter.push_uint64_t(ptr)
jitter.push_uint64_t(len(argv))
def _arml__kuser_get_tls(linux_env, jitter):
# __kuser_get_tls
jitter.pc = jitter.cpu.LR
jitter.cpu.R0 = linux_env.tls
return True
def _arml__kuser_cmpxchg(jitter):
oldval = jitter.cpu.R0
newval = jitter.cpu.R1
ptr = jitter.cpu.R2
value = struct.unpack("<I", jitter.vm.get_mem(ptr, 4))[0]
if value == oldval:
jitter.vm.set_mem(ptr, struct.pack("<I", newval))
jitter.cpu.R0 = 0
jitter.cpu.cf = 1
else:
jitter.cpu.R0 = -1
jitter.cpu.cf = 0
jitter.pc = jitter.cpu.LR
return True
def _arml__kuser_memory_barrier(jitter):
# __kuser_memory_barrier
jitter.pc = jitter.cpu.LR
return True
def _arml__kuser_helper_version(linux_env, jitter):
jitter.pc = jitter.cpu.LR
jitter.cpu.R0 = linux_env.kuser_helper_version
return True
def prepare_loader_arml(jitter, argv, envp, auxv, linux_env,
hlt_address=0x13371acc):
"""Fill the environment with enough information to run a linux loader
@jitter: Jitter instance
@argv: list of strings
@envp: dict of environment variables names to their values
@auxv: AuxVec instance
@hlt_address (default to 0x13371acc): stopping address
Example of use:
>>> jitter = machine.jitter()
>>> jitter.init_stack()
>>> linux_env = LinuxEnvironment_arml()
>>> argv = ["/bin/ls", "-lah"]
>>> envp = {"PATH": "/usr/local/bin", "USER": linux_env.user_name}
>>> auxv = AuxVec(elf_base_addr, entry_point, linux_env)
>>> prepare_loader_arml(jitter, argv, envp, auxv, linux_env)
# One may want to enable syscall handling here
# The program can now run from the loader
>>> jitter.init_run(ld_entry_point)
>>> jitter.continue_run()
"""
# Stack layout looks like
# [data]
# - auxv values
# - envp name=value
# - argv arguments
# [auxiliary vector]
# [environment pointer]
# [argument vector]
for AT_number, data in auxv.data_to_map():
data += b"\x00"
jitter.cpu.SP -= len(data)
ptr = jitter.cpu.SP
jitter.vm.set_mem(ptr, data)
auxv.ptrs[AT_number] = ptr
env_ptrs = []
for name, value in viewitems(envp):
env = b"%s=%s\x00" % (name, value)
jitter.cpu.SP -= len(env)
ptr = jitter.cpu.SP
jitter.vm.set_mem(ptr, env)
env_ptrs.append(ptr)
argv_ptrs = []
for arg in argv:
arg += b"\x00"
jitter.cpu.SP -= len(arg)
ptr = jitter.cpu.SP
jitter.vm.set_mem(ptr, arg)
argv_ptrs.append(ptr)
jitter.push_uint32_t(hlt_address)
jitter.push_uint32_t(0)
jitter.push_uint32_t(0)
for auxid, auxval in viewitems(auxv):
jitter.push_uint32_t(auxval)
jitter.push_uint32_t(auxid)
jitter.push_uint32_t(0)
for ptr in reversed(env_ptrs):
jitter.push_uint32_t(ptr)
jitter.push_uint32_t(0)
for ptr in reversed(argv_ptrs):
jitter.push_uint32_t(ptr)
jitter.push_uint32_t(len(argv))
# Add kernel user helpers
# from Documentation/arm/kernel_user_helpers.txt
if linux_env.kuser_helper_version >= 1:
jitter.add_breakpoint(
0xFFFF0FE0,
functools.partial(_arml__kuser_get_tls, linux_env)
)
if linux_env.kuser_helper_version >= 2:
jitter.add_breakpoint(0XFFFF0FC0, _arml__kuser_cmpxchg)
if linux_env.kuser_helper_version >= 3:
jitter.add_breakpoint(0xFFFF0FA0, _arml__kuser_memory_barrier)
jitter.add_breakpoint(0xffff0ffc, _arml__kuser_helper_version)
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