nixpkgs/pkgs/build-support/build-fhs-userenv/chroot-user.rb
2015-03-09 17:29:43 +03:00

154 lines
3.9 KiB
Ruby
Executable File

#!/usr/bin/env ruby
# Bind mounts hierarchy: [from, to (relative)]
# If 'to' is nil, path will be the same
mounts = [ ['/nix/store', nil],
['/dev', nil],
['/proc', nil],
['/sys', nil],
['/etc', 'host-etc'],
['/home', nil],
['/var', nil],
['/run', nil],
['/root', nil],
].map! { |x| [ x[0], x[1].nil? ? x[0].sub(/^\/*/, '') : x[1] ] }
# Create directories
mkdirs = ['tmp',
]
require 'tmpdir'
require 'fileutils'
require 'pathname'
require 'set'
require 'fiddle'
def write_file(path, str)
File.open(path, 'w') { |file| file.write str }
end
# Import C standard library and several needed calls
$libc = Fiddle.dlopen nil
def make_fcall(name, args, output)
c = Fiddle::Function.new $libc[name], args, output
lambda do |*args|
ret = c.call *args
raise SystemCallError.new Fiddle.last_error if ret < 0
return ret
end
end
$fork = make_fcall 'fork', [], Fiddle::TYPE_INT
CLONE_NEWNS = 0x00020000
CLONE_NEWUSER = 0x10000000
$unshare = make_fcall 'unshare', [Fiddle::TYPE_INT], Fiddle::TYPE_INT
MS_BIND = 0x1000
MS_REC = 0x4000
$mount = make_fcall 'mount', [Fiddle::TYPE_VOIDP,
Fiddle::TYPE_VOIDP,
Fiddle::TYPE_VOIDP,
Fiddle::TYPE_LONG,
Fiddle::TYPE_VOIDP],
Fiddle::TYPE_INT
# Read command line args
abort "Usage: chrootenv swdir program args..." unless ARGV.length >= 2
swdir = Pathname.new ARGV[0]
execp = ARGV.drop 1
# Create temporary directory for root and chdir
root = Dir.mktmpdir 'chrootenv'
# Fork process; we need this to do a proper cleanup because
# child process will chroot into temporary directory.
# We use imported 'fork' instead of native to overcome
# CRuby's meddling with threads; this should be safe because
# we don't use threads at all.
$cpid = $fork.call
if $cpid == 0
# Save user UID and GID
uid = Process.uid
gid = Process.gid
# Create new mount and user namespaces
# CLONE_NEWUSER requires a program to be non-threaded, hence
# native fork above.
$unshare.call CLONE_NEWNS | CLONE_NEWUSER
# Map users and groups to the parent namespace
write_file '/proc/self/setgroups', 'deny'
write_file '/proc/self/uid_map', "#{uid} #{uid} 1"
write_file '/proc/self/gid_map', "#{gid} #{gid} 1"
# Do mkdirs
mkdirs.each { |x| FileUtils.mkdir_p x }
# Do rbind mounts.
mounts.each do |x|
to = "#{root}/#{x[1]}"
FileUtils.mkdir_p to
$mount.call x[0], to, nil, MS_BIND | MS_REC, nil
end
# Chroot!
Dir.chroot root
Dir.chdir '/'
# Symlink swdir hierarchy
mount_dirs = Set.new mounts.map { |x| Pathname.new x[1] }
link_swdir = lambda do |swdir, prefix|
swdir.find do |path|
rel = prefix.join path.relative_path_from(swdir)
# Don't symlink anything in binded or symlinked directories
Find.prune if mount_dirs.include? rel or rel.symlink?
if not rel.directory?
# File does not exist; make a symlink and bail out
rel.make_symlink path
Find.prune
end
# Recursively follow symlinks
link_swdir.call path.readlink, rel if path.symlink?
end
end
link_swdir.call swdir, Pathname.new('')
# New environment
ENV.replace({ 'TERM' => ENV['TERM'],
'DISPLAY' => ENV['DISPLAY'],
'HOME' => ENV['HOME'],
'XDG_RUNTIME_DIR' => ENV['XDG_RUNTIME_DIR'],
'LANG' => ENV['LANG'],
})
# Finally, exec!
exec *execp
end
# Wait for a child. If we catch a signal, resend it to child and continue
# waiting.
def wait_child
begin
Process.wait
# Return child's exit code
if $?.exited?
exit $?.exitstatus
else
exit 1
end
rescue SignalException => e
Process.kill e.signo, $cpid
wait_child
end
end
begin
wait_child
ensure
# Cleanup
FileUtils.rm_rf root, secure: true
end