platform_bionic/libc/tools/genseccomp.py
Paul Lawrence 89fa81fda3 Support all architectures in seccomp
Test: Make sure arm, x86, x86_64, mips, mips64 emulators boot
      Make sure sailfish still boots
      Ran CTS test from
      https://android-review.googlesource.com/#/c/348671/3 and it passed
      The instructions for how to run mips emulators above worked, but
      the CTS tests did not seem to actually run.

Change-Id: Iddee5acdb19ed32c7bd4657573313ca439cf6a49
2017-03-13 18:26:50 +00:00

225 lines
7.4 KiB
Python
Executable file

#!/usr/bin/env python
import collections
import os
import textwrap
from gensyscalls import SysCallsTxtParser
from subprocess import Popen, PIPE
BPF_JGE = "BPF_JUMP(BPF_JMP|BPF_JGE|BPF_K, {0}, {1}, {2})"
BPF_ALLOW = "BPF_STMT(BPF_RET|BPF_K, SECCOMP_RET_ALLOW)"
class SyscallRange(object):
def __init__(self, name, value):
self.names = [name]
self.begin = value
self.end = self.begin + 1
def __str__(self):
return "(%s, %s, %s)" % (self.begin, self.end, self.names)
def add(self, name, value):
if value != self.end:
raise ValueError
self.end += 1
self.names.append(name)
def get_names(syscall_files, architecture):
syscalls = []
for syscall_file in syscall_files:
parser = SysCallsTxtParser()
parser.parse_open_file(syscall_file)
syscalls += parser.syscalls
# Select only elements matching required architecture
syscalls = [x for x in syscalls if architecture in x and x[architecture]]
# We only want the name
names = [x["name"] for x in syscalls]
# Check for duplicates
dups = [name for name, count in collections.Counter(names).items() if count > 1]
# x86 has duplicate socketcall entries, so hard code for this
if architecture == "x86":
dups.remove("socketcall")
if len(dups) > 0:
print "Duplicate entries found - aborting ", dups
exit(-1)
# Remove remaining duplicates
return list(set(names))
def convert_names_to_NRs(names, header_dir, extra_switches):
# Run preprocessor over the __NR_syscall symbols, including unistd.h,
# to get the actual numbers
prefix = "__SECCOMP_" # prefix to ensure no name collisions
cpp = Popen(["../../prebuilts/clang/host/linux-x86/clang-stable/bin/clang",
"-E", "-nostdinc", "-I" + header_dir, "-Ikernel/uapi/"]
+ extra_switches
+ ["-"],
stdin=PIPE, stdout=PIPE)
cpp.stdin.write("#include <asm/unistd.h>\n")
for name in names:
# In SYSCALLS.TXT, there are two arm-specific syscalls whose names start
# with __ARM__NR_. These we must simply write out as is.
if not name.startswith("__ARM_NR_"):
cpp.stdin.write(prefix + name + ", __NR_" + name + "\n")
else:
cpp.stdin.write(prefix + name + ", " + name + "\n")
content = cpp.communicate()[0].split("\n")
# The input is now the preprocessed source file. This will contain a lot
# of junk from the preprocessor, but our lines will be in the format:
#
# __SECCOMP_${NAME}, (0 + value)
syscalls = []
for line in content:
if not line.startswith(prefix):
continue
# We might pick up extra whitespace during preprocessing, so best to strip.
name, value = [w.strip() for w in line.split(",")]
name = name[len(prefix):]
# Note that some of the numbers were expressed as base + offset, so we
# need to eval, not just int
value = eval(value)
syscalls.append((name, value))
return syscalls
def convert_NRs_to_ranges(syscalls):
# Sort the values so we convert to ranges and binary chop
syscalls = sorted(syscalls, lambda x, y: cmp(x[1], y[1]))
# Turn into a list of ranges. Keep the names for the comments
ranges = []
for name, value in syscalls:
if not ranges:
ranges.append(SyscallRange(name, value))
continue
last_range = ranges[-1]
if last_range.end == value:
last_range.add(name, value)
else:
ranges.append(SyscallRange(name, value))
return ranges
# Converts the sorted ranges of allowed syscalls to a binary tree bpf
# For a single range, output a simple jump to {fail} or {allow}. We can't set
# the jump ranges yet, since we don't know the size of the filter, so use a
# placeholder
# For multiple ranges, split into two, convert the two halves and output a jump
# to the correct half
def convert_to_intermediate_bpf(ranges):
if len(ranges) == 1:
# We will replace {fail} and {allow} with appropriate range jumps later
return [BPF_JGE.format(ranges[0].end, "{fail}", "{allow}") +
", //" + "|".join(ranges[0].names)]
else:
half = (len(ranges) + 1) / 2
first = convert_to_intermediate_bpf(ranges[:half])
second = convert_to_intermediate_bpf(ranges[half:])
jump = [BPF_JGE.format(ranges[half].begin, len(first), 0) + ","]
return jump + first + second
def convert_ranges_to_bpf(ranges):
bpf = convert_to_intermediate_bpf(ranges)
# Now we know the size of the tree, we can substitute the {fail} and {allow}
# placeholders
for i, statement in enumerate(bpf):
# Replace placeholder with
# "distance to jump to fail, distance to jump to allow"
# We will add a kill statement and an allow statement after the tree
# With bpfs jmp 0 means the next statement, so the distance to the end is
# len(bpf) - i - 1, which is where we will put the kill statement, and
# then the statement after that is the allow statement
if "{fail}" in statement and "{allow}" in statement:
bpf[i] = statement.format(fail=str(len(bpf) - i),
allow=str(len(bpf) - i - 1))
# Add check that we aren't off the bottom of the syscalls
bpf.insert(0, BPF_JGE.format(ranges[0].begin, 0, str(len(bpf))) + ',')
# Add the allow calls at the end. If the syscall is not matched, we will
# continue. This allows the user to choose to match further syscalls, and
# also to choose the action when we want to block
bpf.append(BPF_ALLOW + ",")
return bpf
def convert_bpf_to_output(bpf, architecture):
header = textwrap.dedent("""\
// Autogenerated file - edit at your peril!!
#include <linux/filter.h>
#include <errno.h>
#include "seccomp_bpfs.h"
const sock_filter {architecture}_filter[] = {{
""").format(architecture=architecture)
footer = textwrap.dedent("""\
}};
const size_t {architecture}_filter_size = sizeof({architecture}_filter) / sizeof(struct sock_filter);
""").format(architecture=architecture)
return header + "\n".join(bpf) + footer
def construct_bpf(syscall_files, architecture, header_dir, extra_switches):
names = get_names(syscall_files, architecture)
syscalls = convert_names_to_NRs(names, header_dir, extra_switches)
ranges = convert_NRs_to_ranges(syscalls)
bpf = convert_ranges_to_bpf(ranges)
return convert_bpf_to_output(bpf, architecture)
ANDROID_SYSCALL_FILES = ["SYSCALLS.TXT", "SECCOMP_WHITELIST.TXT"]
POLICY_CONFIGS = [("arm", "kernel/uapi/asm-arm", []),
("arm64", "kernel/uapi/asm-arm64", []),
("x86", "kernel/uapi/asm-x86", ["-D__i386__"]),
("x86_64", "kernel/uapi/asm-x86", []),
("mips", "kernel/uapi/asm-mips", ["-D_MIPS_SIM=_MIPS_SIM_ABI32"]),
("mips64", "kernel/uapi/asm-mips", ["-D_MIPS_SIM=_MIPS_SIM_ABI64"])]
def set_dir():
# Set working directory for predictable results
os.chdir(os.path.join(os.environ["ANDROID_BUILD_TOP"], "bionic/libc"))
def main():
set_dir()
for arch, header_path, switches in POLICY_CONFIGS:
files = [open(filename) for filename in ANDROID_SYSCALL_FILES]
output = construct_bpf(files, arch, header_path, switches)
# And output policy
existing = ""
output_path = "seccomp/{}_policy.cpp".format(arch)
if os.path.isfile(output_path):
existing = open(output_path).read()
if output == existing:
print "File " + output_path + " not changed."
else:
with open(output_path, "w") as output_file:
output_file.write(output)
print "Generated file " + output_path
if __name__ == "__main__":
main()