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# Copyright 2024 Helmut Grohne <helmut@subdivi.de>
# SPDX-License-Identifier: GPL-3
"""Provide plumbing-layer functionality for working with Linux namespaces in
Python.
"""
import bisect
import dataclasses
import os
import pathlib
import stat
import subprocess
import sys
import typing
from .atlocation import *
from .syscalls import *
def subidranges(
kind: typing.Literal["uid", "gid"], login: str | None = None
) -> typing.Iterator[tuple[int, int]]:
"""Parse a `/etc/sub?id` file for ranges allocated to the given or current
user. Return all ranges as (start, count) pairs.
"""
if login is None:
login = os.getlogin()
with open(f"/etc/sub{kind}") as filelike:
for line in filelike:
parts = line.strip().split(":")
if parts[0] == login:
yield (int(parts[1]), int(parts[2]))
@dataclasses.dataclass(frozen=True)
class IDMapping:
"""Represent one range in a user or goup id mapping."""
innerstart: int
outerstart: int
count: int
def __post_init__(self) -> None:
if self.outerstart < 0:
raise ValueError("outerstart must not be negative")
if self.innerstart < 0:
raise ValueError("innerstart must not be negative")
if self.count <= 0:
raise ValueError("count must be positive")
if self.outerstart + self.count >= 1 << 64:
raise ValueError("outerstart + count exceed 64bits")
if self.innerstart + self.count >= 1 << 64:
raise ValueError("innerstart + count exceed 64bits")
class IDAllocation:
"""This represents a subset of IDs (user or group). It can be used to
allocate a continguous range for use with a user namespace.
"""
def __init__(self) -> None:
self.ranges: list[tuple[int, int]] = []
def add_range(self, start: int, count: int) -> None:
"""Add count ids starting from start to this allocation."""
if start < 0 or count <= 0:
raise ValueError("invalid range")
index = bisect.bisect_right(self.ranges, (start, 0))
prevrange = None
if index > 0:
prevrange = self.ranges[index - 1]
if prevrange[0] + prevrange[1] > start:
raise ValueError("attempt to add overlapping range")
nextrange = None
if index < len(self.ranges):
nextrange = self.ranges[index]
if nextrange[0] < start + count:
raise ValueError("attempt to add overlapping range")
if prevrange and prevrange[0] + prevrange[1] == start:
if nextrange and nextrange[0] == start + count:
self.ranges[index - 1] = (
prevrange[0],
prevrange[1] + count + nextrange[1],
)
del self.ranges[index]
else:
self.ranges[index - 1] = (prevrange[0], prevrange[1] + count)
elif nextrange and nextrange[0] == start + count:
self.ranges[index] = (start, count + nextrange[1])
else:
self.ranges.insert(index, (start, count))
@classmethod
def loadsubid(
cls, kind: typing.Literal["uid", "gid"], login: str | None = None,
) -> "IDAllocation":
"""Load a `/etc/sub?id` file and return ids allocated to the given
login or current user.
"""
self = cls()
for start, count in subidranges(kind, login):
self.add_range(start, count)
return self
def find(self, count: int) -> int:
"""Locate count continguous ids from this allocation. The start of
the allocation is returned. The allocation object is left unchanged.
"""
for start, available in self.ranges:
if available >= count:
return start
raise ValueError("could not satisfy allocation request")
def allocate(self, count: int) -> int:
"""Allocate count contiguous ids from this allocation. The start of
the allocation is returned and the ids are removed from this
IDAllocation object.
"""
for index, (start, available) in enumerate(self.ranges):
if available > count:
self.ranges[index] = (start + count, available - count)
return start
if available == count:
del self.ranges[index]
return start
raise ValueError("could not satisfy allocation request")
def allocatemap(self, count: int, target: int = 0) -> IDMapping:
"""Allocate count contiguous ids from this allocation. An IDMapping
with its innerstart set to target is returned. The allocation is
removed from this IDAllocation object.
"""
return IDMapping(target, self.allocate(count), count)
def newidmap(
kind: typing.Literal["uid", "gid"],
pid: int,
mapping: list[IDMapping],
helper: bool | None = None,
) -> None:
"""Apply the given uid or gid mapping to the given process. A positive pid
identifies a process, other values identify the currently running process.
Whether setuid binaries newuidmap and newgidmap are used is determined via
the helper argument. A None value indicate automatic detection of whether
a helper is required for setting up the given mapping.
"""
assert kind in ("uid", "gid")
if pid <= 0:
pid = os.getpid()
if helper is None:
# We cannot reliably test whether we have the right EUID and we don't
# implement checking whether setgroups has been denied either. Please
# be explicit about the helper choice in such cases.
helper = len(mapping) > 1 or mapping[0].count > 1
if helper:
argv = [f"new{kind}map", str(pid)]
for idblock in mapping:
argv.extend(map(str, dataclasses.astuple(idblock)))
subprocess.check_call(argv)
else:
pathlib.Path(f"/proc/{pid}/{kind}_map").write_text(
"".join(
"%d %d %d\n" % dataclasses.astuple(idblock)
for idblock in mapping
),
encoding="ascii",
)
def newuidmap(pid: int, mapping: list[IDMapping], helper: bool = True) -> None:
"""Apply a given uid mapping to the given process. Refer to newidmap for
details.
"""
newidmap("uid", pid, mapping, helper)
def newgidmap(pid: int, mapping: list[IDMapping], helper: bool = True) -> None:
"""Apply a given gid mapping to the given process. Refer to newidmap for
details.
"""
newidmap("gid", pid, mapping, helper)
def newidmaps(
pid: int,
uidmapping: list[IDMapping],
gidmapping: list[IDMapping],
helper: bool = True,
) -> None:
"""Appply a given uid and gid mapping to the given process. Refer to
newidmap for details.
"""
newgidmap(pid, gidmapping, helper)
newuidmap(pid, uidmapping, helper)
class run_in_fork:
"""Decorator for running the decorated function once in a separate process.
"""
def __init__(self, function: typing.Callable[[], None]):
"""Fork a new process that will eventually run the given function and
then exit.
"""
self.efd = EventFD()
self.pid = os.fork()
if self.pid == 0:
self.efd.read()
self.efd.close()
function()
os._exit(0)
def start(self) -> None:
"""Start the decorated function. It can only be started once."""
if not self.efd:
raise ValueError("this function can only be called once")
self.efd.write(1)
self.efd.close()
def wait(self) -> None:
"""Wait for the process running the decorated function to finish."""
if self.efd:
raise ValueError("start must be called before wait")
ret = os.waitpid(self.pid, 0)
if ret != (self.pid, 0):
raise ValueError("something failed")
def __call__(self) -> None:
"""Start the decorated function and wait for its process to finish."""
self.start()
self.wait()
def bind_mount(
source: AtLocationLike,
target: AtLocationLike,
recursive: bool = False,
readonly: bool = False,
) -> None:
"""Create a bind mount from source to target. Depending on whether one of
the locations involves a file descriptor or not, the new or old mount API
will be used.
"""
source = AtLocation(source)
target = AtLocation(target)
try:
# mypy does not know that os.fspath accepts AtLocation
srcloc: str | bytes
srcloc = os.fspath(source) # type: ignore
tgtloc: str | bytes
tgtloc = os.fspath(target) # type: ignore
except ValueError:
otflags = OpenTreeFlags.OPEN_TREE_CLONE
if recursive:
otflags |= OpenTreeFlags.AT_RECURSIVE
with open_tree(source, otflags) as srcfd:
if readonly:
mount_setattr(srcfd, recursive, MountAttrFlags.RDONLY)
return move_mount(srcfd, target)
else:
mflags = MountFlags.BIND
if recursive:
mflags |= MountFlags.REC
if readonly:
mflags |= MountFlags.RDONLY
return mount(srcloc, tgtloc, None, mflags)
def populate_dev(
origroot: AtLocationLike,
newroot: PathConvertible,
*,
fuse: bool = True,
pidns: bool = True,
tun: bool = True,
) -> None:
"""Mount a tmpfs to the dev directory beneath newroot and populate it with
basic devices by bind mounting them from the dev directory beneath
origroot. Also mount a new pts instance.
"""
origdev = AtLocation(origroot) / "dev"
newdev = AtLocation(newroot) / "dev"
mount(
"devtmpfs",
newdev,
"tmpfs",
MountFlags.NOSUID | MountFlags.NOEXEC,
"mode=0755",
)
bind_devices = "null zero full random urandom tty".split()
bind_directories = []
if fuse:
bind_devices.append("fuse")
if pidns:
(newdev / "pts").mkdir()
mount(
"devpts",
newdev / "pts",
"devpts",
MountFlags.NOSUID | MountFlags.NOEXEC,
"gid=5,mode=620,ptmxmode=666",
)
(newdev / "ptmx").symlink("pts/ptmx")
else:
bind_devices.append("ptmx")
bind_directories.append("pts")
if tun:
(newdev / "net").mkdir()
bind_devices.append("net/tun")
for node in bind_devices:
(newdev / node).mknod(stat.S_IFREG)
bind_mount(origdev / node, newdev / node, True)
for node in bind_directories:
(newdev / node).mkdir()
bind_mount(origdev / node, newdev / node, True)
def unshare_user_idmap(
uidmap: list[IDMapping],
gidmap: list[IDMapping],
flags: CloneFlags = CloneFlags.NEWUSER,
) -> None:
"""Unshare the given namespaces (must include user) and set up the given
id mappings.
"""
pid = os.getpid()
@run_in_fork
def setup_idmaps() -> None:
newidmaps(pid, uidmap, gidmap)
unshare(flags)
setup_idmaps()
def unshare_user_idmap_nohelper(
uid: int, gid: int, flags: CloneFlags = CloneFlags.NEWUSER
) -> None:
"""Unshare the given namespaces (must include user) and
map the current user and group to the given uid and gid
without using the setuid helpers.
"""
uidmap = IDMapping(uid, os.getuid(), 1)
gidmap = IDMapping(gid, os.getgid(), 1)
unshare(flags)
pathlib.Path("/proc/self/setgroups").write_bytes(b"deny")
newidmaps(-1, [uidmap], [gidmap], False)
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