guix/guix/build/syscalls.scm

;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2014, 2015 Ludovic Courtès <ludo@gnu.org>
;;; Copyright © 2015 David Thompson <davet@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix 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.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix.  If not, see <http://www.gnu.org/licenses/>.

(define-module (guix build syscalls)
  #:use-module (system foreign)
  #:use-module (rnrs bytevectors)
  #:use-module (srfi srfi-1)
  #:use-module (ice-9 rdelim)
  #:use-module (ice-9 regex)
  #:use-module (ice-9 match)
  #:use-module (ice-9 ftw)
  #:export (errno
            MS_RDONLY
            MS_NOSUID
            MS_NODEV
            MS_NOEXEC
            MS_REMOUNT
            MS_BIND
            MS_MOVE
            MS_STRICTATIME
            MNT_FORCE
            MNT_DETACH
            MNT_EXPIRE
            UMOUNT_NOFOLLOW
            restart-on-EINTR
            mount
            umount
            mount-points
            swapon
            swapoff
            processes
            mkdtemp!

            CLONE_NEWNS
            CLONE_NEWUTS
            CLONE_NEWIPC
            CLONE_NEWUSER
            CLONE_NEWPID
            CLONE_NEWNET
            clone

            IFF_UP
            IFF_BROADCAST
            IFF_LOOPBACK
            all-network-interfaces
            network-interfaces
            network-interface-flags
            loopback-network-interface?
            network-interface-address
            set-network-interface-flags
            set-network-interface-address
            set-network-interface-up
            configure-network-interface))

;;; Commentary:
;;;
;;; This module provides bindings to libc's syscall wrappers.  It uses the
;;; FFI, and thus requires a dynamically-linked Guile.  (For statically-linked
;;; Guile, we instead apply 'guile-linux-syscalls.patch'.)
;;;
;;; Code:

(define %libc-errno-pointer
  ;; Glibc's 'errno' pointer.
  (let ((errno-loc (dynamic-func "__errno_location" (dynamic-link))))
    (and errno-loc
         (let ((proc (pointer->procedure '* errno-loc '())))
           (proc)))))

(define errno
  (if %libc-errno-pointer
      (let ((bv (pointer->bytevector %libc-errno-pointer (sizeof int))))
        (lambda ()
          "Return the current errno."
          ;; XXX: We assume that nothing changes 'errno' while we're doing all this.
          ;; In particular, that means that no async must be running here.

          ;; Use one of the fixed-size native-ref procedures because they are
          ;; optimized down to a single VM instruction, which reduces the risk
          ;; that we fiddle with 'errno' (needed on Guile 2.0.5, libc 2.11.)
          (let-syntax ((ref (lambda (s)
                              (syntax-case s ()
                                ((_ bv)
                                 (case (sizeof int)
                                   ((4)
                                    #'(bytevector-s32-native-ref bv 0))
                                   ((8)
                                    #'(bytevector-s64-native-ref bv 0))
                                   (else
                                    (error "unsupported 'int' size"
                                           (sizeof int)))))))))
            (ref bv))))
      (lambda () 0)))

(define (call-with-restart-on-EINTR thunk)
  (let loop ()
    (catch 'system-error
      thunk
      (lambda args
        (if (= (system-error-errno args) EINTR)
            (loop)
            (apply throw args))))))

(define-syntax-rule (restart-on-EINTR expr)
  "Evaluate EXPR and restart upon EINTR.  Return the value of EXPR."
  (call-with-restart-on-EINTR (lambda () expr)))

(define (augment-mtab source target type options)
  "Augment /etc/mtab with information about the given mount point."
  (let ((port (open-file "/etc/mtab" "a")))
    (format port "~a ~a ~a ~a 0 0~%"
            source target type (or options "rw"))
    (close-port port)))

(define (read-mtab port)
  "Read an mtab-formatted file from PORT, returning a list of tuples."
  (let loop ((result '()))
    (let ((line (read-line port)))
      (if (eof-object? line)
          (reverse result)
          (loop (cons (string-tokenize line) result))))))

(define (remove-from-mtab target)
  "Remove mount point TARGET from /etc/mtab."
  (define entries
    (remove (match-lambda
             ((device mount-point type options freq passno)
              (string=? target mount-point))
             (_ #f))
            (call-with-input-file "/etc/mtab" read-mtab)))

  (call-with-output-file "/etc/mtab"
    (lambda (port)
      (for-each (match-lambda
                 ((device mount-point type options freq passno)
                  (format port "~a ~a ~a ~a ~a ~a~%"
                          device mount-point type options freq passno)))
                entries))))

;; Linux mount flags, from libc's <sys/mount.h>.
(define MS_RDONLY             1)
(define MS_NOSUID             2)
(define MS_NODEV              4)
(define MS_NOEXEC             8)
(define MS_REMOUNT           32)
(define MS_BIND            4096)
(define MS_MOVE            8192)
(define MS_STRICTATIME 16777216)

(define MNT_FORCE       1)
(define MNT_DETACH      2)
(define MNT_EXPIRE      4)
(define UMOUNT_NOFOLLOW 8)

(define mount
  (let* ((ptr  (dynamic-func "mount" (dynamic-link)))
         (proc (pointer->procedure int ptr `(* * * ,unsigned-long *))))
    (lambda* (source target type #:optional (flags 0) options
                     #:key (update-mtab? #f))
      "Mount device SOURCE on TARGET as a file system TYPE.  Optionally, FLAGS
may be a bitwise-or of the MS_* <sys/mount.h> constants, and OPTIONS may be a
string.  When FLAGS contains MS_REMOUNT, SOURCE and TYPE are ignored.  When
UPDATE-MTAB? is true, update /etc/mtab.  Raise a 'system-error' exception on
error."
      (let ((ret (proc (if source
                           (string->pointer source)
                           %null-pointer)
                       (string->pointer target)
                       (if type
                           (string->pointer type)
                           %null-pointer)
                       flags
                       (if options
                           (string->pointer options)
                           %null-pointer)))
            (err (errno)))
        (unless (zero? ret)
          (throw 'system-error "mount" "mount ~S on ~S: ~A"
                 (list source target (strerror err))
                 (list err)))
        (when update-mtab?
          (augment-mtab source target type options))))))

(define umount
  (let* ((ptr  (dynamic-func "umount2" (dynamic-link)))
         (proc (pointer->procedure int ptr `(* ,int))))
    (lambda* (target #:optional (flags 0)
                     #:key (update-mtab? #f))
      "Unmount TARGET.  Optionally FLAGS may be one of the MNT_* or UMOUNT_*
constants from <sys/mount.h>."
      (let ((ret (proc (string->pointer target) flags))
            (err (errno)))
        (unless (zero? ret)
          (throw 'system-error "umount" "~S: ~A"
                 (list target (strerror err))
                 (list err)))
        (when update-mtab?
          (remove-from-mtab target))))))

(define (mount-points)
  "Return the mounts points for currently mounted file systems."
  (call-with-input-file "/proc/mounts"
    (lambda (port)
      (let loop ((result '()))
        (let ((line (read-line port)))
          (if (eof-object? line)
              (reverse result)
              (match (string-tokenize line)
                ((source mount-point _ ...)
                 (loop (cons mount-point result))))))))))

(define swapon
  (let* ((ptr  (dynamic-func "swapon" (dynamic-link)))
         (proc (pointer->procedure int ptr (list '* int))))
    (lambda* (device #:optional (flags 0))
      "Use the block special device at DEVICE for swapping."
      (let ((ret (proc (string->pointer device) flags))
            (err (errno)))
        (unless (zero? ret)
          (throw 'system-error "swapon" "~S: ~A"
                 (list device (strerror err))
                 (list err)))))))

(define swapoff
  (let* ((ptr  (dynamic-func "swapoff" (dynamic-link)))
         (proc (pointer->procedure int ptr '(*))))
    (lambda (device)
      "Stop using block special device DEVICE for swapping."
      (let ((ret (proc (string->pointer device)))
            (err (errno)))
        (unless (zero? ret)
          (throw 'system-error "swapoff" "~S: ~A"
                 (list device (strerror err))
                 (list err)))))))

(define (kernel? pid)
  "Return #t if PID designates a \"kernel thread\" rather than a normal
user-land process."
  (let ((stat (call-with-input-file (format #f "/proc/~a/stat" pid)
                (compose string-tokenize read-string))))
    ;; See proc.txt in Linux's documentation for the list of fields.
    (match stat
      ((pid tcomm state ppid pgrp sid tty_nr tty_pgrp flags min_flt
            cmin_flt maj_flt cmaj_flt utime stime cutime cstime
            priority nice num_thread it_real_value start_time
            vsize rss rsslim
            (= string->number start_code) (= string->number end_code) _ ...)
       ;; Got this obscure trick from sysvinit's 'killall5' program.
       (and (zero? start_code) (zero? end_code))))))

(define (processes)
  "Return the list of live processes."
  (sort (filter-map (lambda (file)
                      (let ((pid (string->number file)))
                        (and pid
                             (not (kernel? pid))
                             pid)))
                    (scandir "/proc"))
        <))

(define mkdtemp!
  (let* ((ptr  (dynamic-func "mkdtemp" (dynamic-link)))
         (proc (pointer->procedure '* ptr '(*))))
    (lambda (tmpl)
      "Create a new unique directory in the file system using the template
string TMPL and return its file name.  TMPL must end with 'XXXXXX'."
      (let ((result (proc (string->pointer tmpl)))
            (err    (errno)))
        (when (null-pointer? result)
          (throw 'system-error "mkdtemp!" "~S: ~A"
                 (list tmpl (strerror err))
                 (list err)))
        (pointer->string result)))))

;; Linux clone flags, from linux/sched.h
(define CLONE_NEWNS   #x00020000)
(define CLONE_NEWUTS  #x04000000)
(define CLONE_NEWIPC  #x08000000)
(define CLONE_NEWUSER #x10000000)
(define CLONE_NEWPID  #x20000000)
(define CLONE_NEWNET  #x40000000)

;; The libc interface to sys_clone is not useful for Scheme programs, so the
;; low-level system call is wrapped instead.
(define clone
  (let* ((ptr        (dynamic-func "syscall" (dynamic-link)))
         (proc       (pointer->procedure int ptr (list int int '*)))
         ;; TODO: Don't do this.
         (syscall-id (match (utsname:machine (uname))
                       ("i686"   120)
                       ("x86_64" 56)
                       ("mips64" 5055)
                       ("armv7l" 120))))
    (lambda (flags)
      "Create a new child process by duplicating the current parent process.
Unlike the fork system call, clone accepts FLAGS that specify which resources
are shared between the parent and child processes."
      (proc syscall-id flags %null-pointer))))


;;;
;;; Packed structures.
;;;

(define-syntax sizeof*
  ;; XXX: This duplicates 'compile-time-value'.
  (syntax-rules (int128)
    ((_ int128)
     16)
    ((_ type)
     (let-syntax ((v (lambda (s)
                       (let ((val (sizeof type)))
                         (syntax-case s ()
                           (_ val))))))
       v))))

(define-syntax type-size
  (syntax-rules (~)
    ((_ (type ~ order))
     (sizeof* type))
    ((_ type)
     (sizeof* type))))

(define-syntax write-type
  (syntax-rules (~)
    ((_ bv offset (type ~ order) value)
     (bytevector-uint-set! bv offset value
                           (endianness order) (sizeof* type)))
    ((_ bv offset type value)
     (bytevector-uint-set! bv offset value
                           (native-endianness) (sizeof* type)))))

(define-syntax write-types
  (syntax-rules ()
    ((_ bv offset () ())
     #t)
    ((_ bv offset (type0 types ...) (field0 fields ...))
     (begin
       (write-type bv offset type0 field0)
       (write-types bv (+ offset (type-size type0))
                    (types ...) (fields ...))))))

(define-syntax read-type
  (syntax-rules (~)
    ((_ bv offset (type ~ order))
     (bytevector-uint-ref bv offset
                          (endianness order) (sizeof* type)))
    ((_ bv offset type)
     (bytevector-uint-ref bv offset
                          (native-endianness) (sizeof* type)))))

(define-syntax read-types
  (syntax-rules ()
    ((_ bv offset ())
     '())
    ((_ bv offset (type0 types ...))
     (cons (read-type bv offset type0)
           (read-types bv (+ offset (type-size type0)) (types ...))))))

(define-syntax define-c-struct
  (syntax-rules ()
    "Define READ as an optimized serializer and WRITE! as a deserializer for
the C structure with the given TYPES."
    ((_ name read write! (fields types) ...)
     (begin
       (define (write! bv offset fields ...)
         (write-types bv offset (types ...) (fields ...)))
       (define (read bv offset)
         (read-types bv offset (types ...)))))))


;;;
;;; Network interfaces.
;;;

(define SIOCGIFCONF                               ;from <bits/ioctls.h>
  (if (string-contains %host-type "linux")
      #x8912                                      ;GNU/Linux
      #xf00801a4))                                ;GNU/Hurd
(define SIOCGIFFLAGS
  (if (string-contains %host-type "linux")
      #x8913                                      ;GNU/Linux
      #xc4804191))                                ;GNU/Hurd
(define SIOCSIFFLAGS
  (if (string-contains %host-type "linux")
      #x8914                                      ;GNU/Linux
      -1))                                        ;FIXME: GNU/Hurd?
(define SIOCGIFADDR
  (if (string-contains %host-type "linux")
      #x8915                                      ;GNU/Linux
      -1))                                        ;FIXME: GNU/Hurd?
(define SIOCSIFADDR
  (if (string-contains %host-type "linux")
      #x8916                                      ;GNU/Linux
      -1))                                        ;FIXME: GNU/Hurd?

;; Flags and constants from <net/if.h>.

(define IFF_UP #x1)                               ;Interface is up
(define IFF_BROADCAST #x2)                        ;Broadcast address valid.
(define IFF_LOOPBACK #x8)                         ;Is a loopback net.

(define IF_NAMESIZE 16)                           ;maximum interface name size

(define ifconf-struct
  ;; 'struct ifconf', from <net/if.h>.
  (list int                                       ;int ifc_len
        '*))                                      ;struct ifreq *ifc_ifcu

(define ifreq-struct-size
  ;; 'struct ifreq' begins with an array of IF_NAMESIZE bytes containing the
  ;; interface name (nul-terminated), followed by a bunch of stuff.  This is
  ;; its size in bytes.
  (if (= 8 (sizeof '*))
      40
      32))

(define-c-struct sockaddr-in                      ;<linux/in.h>
  read-sockaddr-in
  write-sockaddr-in!
  (family    unsigned-short)
  (port      (int16 ~ big))
  (address   (int32 ~ big)))

(define-c-struct sockaddr-in6                     ;<linux/in6.h>
  read-sockaddr-in6
  write-sockaddr-in6!
  (family    unsigned-short)
  (port      (int16 ~ big))
  (flowinfo  (int32 ~ big))
  (address   (int128 ~ big))
  (scopeid   int32))

(define (write-socket-address! sockaddr bv index)
  "Write SOCKADDR, a socket address as returned by 'make-socket-address', to
bytevector BV at INDEX."
  (let ((family (sockaddr:fam sockaddr)))
    (cond ((= family AF_INET)
           (write-sockaddr-in! bv index
                               family
                               (sockaddr:port sockaddr)
                               (sockaddr:addr sockaddr)))
          ((= family AF_INET6)
           (write-sockaddr-in6! bv index
                                family
                                (sockaddr:port sockaddr)
                                (sockaddr:flowinfo sockaddr)
                                (sockaddr:addr sockaddr)
                                (sockaddr:scopeid sockaddr)))
          (else
           (error "unsupported socket address" sockaddr)))))

(define (read-socket-address bv index)
  "Read a socket address from bytevector BV at INDEX."
  (let ((family (bytevector-u16-native-ref bv index)))
    (cond ((= family AF_INET)
           (match (read-sockaddr-in bv index)
             ((family port address)
              (make-socket-address family address port))))
          ((= family AF_INET6)
           (match (read-sockaddr-in6 bv index)
             ((family port flowinfo address scopeid)
              (make-socket-address family address port
                                   flowinfo scopeid))))
          (else
           "unsupported socket address family" family))))

(define %ioctl
  ;; The most terrible interface, live from Scheme.
  (pointer->procedure int
                      (dynamic-func "ioctl" (dynamic-link))
                      (list int unsigned-long '*)))

(define (bytevector->string-list bv stride len)
  "Return the null-terminated strings found in BV every STRIDE bytes.  Read at
most LEN bytes from BV."
  (let loop ((bytes  (take (bytevector->u8-list bv)
                           (min len (bytevector-length bv))))
             (result '()))
    (match bytes
      (()
       (reverse result))
      (_
       (loop (drop bytes stride)
             (cons (list->string (map integer->char
                                      (take-while (negate zero?) bytes)))
                   result))))))

(define* (network-interfaces #:optional sock)
  "Return the list of existing network interfaces.  This is typically limited
to interfaces that are currently up."
  (let* ((close? (not sock))
         (sock   (or sock (socket SOCK_STREAM AF_INET 0)))
         (len    (* ifreq-struct-size 10))
         (reqs   (make-bytevector len))
         (conf   (make-c-struct ifconf-struct
                                (list len (bytevector->pointer reqs))))
         (ret    (%ioctl (fileno sock) SIOCGIFCONF conf))
         (err    (errno)))
    (when close?
      (close-port sock))
    (if (zero? ret)
        (bytevector->string-list reqs ifreq-struct-size
                                 (match (parse-c-struct conf ifconf-struct)
                                   ((len . _) len)))
        (throw 'system-error "network-interface-list"
               "network-interface-list: ~A"
               (list (strerror err))
               (list err)))))

(define %interface-line
  ;; Regexp matching an interface line in Linux's /proc/net/dev.
  (make-regexp "^[[:blank:]]*([[:alnum:]]+):.*$"))

(define (all-network-interfaces)
  "Return all the registered network interfaces, including those that are not
up."
  (call-with-input-file "/proc/net/dev"           ;XXX: Linux-specific
    (lambda (port)
      (let loop ((interfaces '()))
        (let ((line (read-line port)))
          (cond ((eof-object? line)
                 (reverse interfaces))
                ((regexp-exec %interface-line line)
                 =>
                 (lambda (match)
                   (loop (cons (match:substring match 1) interfaces))))
                (else
                 (loop interfaces))))))))

(define (network-interface-flags socket name)
  "Return a number that is the bit-wise or of 'IFF*' flags for network
interface NAME."
  (let ((req (make-bytevector ifreq-struct-size)))
    (bytevector-copy! (string->utf8 name) 0 req 0
                      (min (string-length name) (- IF_NAMESIZE 1)))
    (let* ((ret (%ioctl (fileno socket) SIOCGIFFLAGS
                        (bytevector->pointer req)))
           (err (errno)))
      (if (zero? ret)

          ;; The 'ifr_flags' field is IF_NAMESIZE bytes after the beginning of
          ;; 'struct ifreq', and it's a short int.
          (bytevector-sint-ref req IF_NAMESIZE (native-endianness)
                               (sizeof short))

          (throw 'system-error "network-interface-flags"
                 "network-interface-flags on ~A: ~A"
                 (list name (strerror err))
                 (list err))))))

(define (loopback-network-interface? name)
  "Return true if NAME designates a loopback network interface."
  (let* ((sock  (socket SOCK_STREAM AF_INET 0))
         (flags (network-interface-flags sock name)))
    (close-port sock)
    (not (zero? (logand flags IFF_LOOPBACK)))))

(define (set-network-interface-flags socket name flags)
  "Set the flag of network interface NAME to FLAGS."
  (let ((req (make-bytevector ifreq-struct-size)))
    (bytevector-copy! (string->utf8 name) 0 req 0
                      (min (string-length name) (- IF_NAMESIZE 1)))
    ;; Set the 'ifr_flags' field.
    (bytevector-uint-set! req IF_NAMESIZE flags (native-endianness)
                          (sizeof short))
    (let* ((ret (%ioctl (fileno socket) SIOCSIFFLAGS
                        (bytevector->pointer req)))
           (err (errno)))
      (unless (zero? ret)
        (throw 'system-error "set-network-interface-flags"
               "set-network-interface-flags on ~A: ~A"
               (list name (strerror err))
               (list err))))))

(define (set-network-interface-address socket name sockaddr)
  "Set the address of network interface NAME to SOCKADDR."
  (let ((req (make-bytevector ifreq-struct-size)))
    (bytevector-copy! (string->utf8 name) 0 req 0
                      (min (string-length name) (- IF_NAMESIZE 1)))
    ;; Set the 'ifr_addr' field.
    (write-socket-address! sockaddr req IF_NAMESIZE)
    (let* ((ret (%ioctl (fileno socket) SIOCSIFADDR
                        (bytevector->pointer req)))
           (err (errno)))
      (unless (zero? ret)
        (throw 'system-error "set-network-interface-address"
               "set-network-interface-address on ~A: ~A"
               (list name (strerror err))
               (list err))))))

(define (network-interface-address socket name)
  "Return the address of network interface NAME.  The result is an object of
the same type as that returned by 'make-socket-address'."
  (let ((req (make-bytevector ifreq-struct-size)))
    (bytevector-copy! (string->utf8 name) 0 req 0
                      (min (string-length name) (- IF_NAMESIZE 1)))
    (let* ((ret (%ioctl (fileno socket) SIOCGIFADDR
                        (bytevector->pointer req)))
           (err (errno)))
      (if (zero? ret)
          (read-socket-address req IF_NAMESIZE)
          (throw 'system-error "network-interface-address"
                 "network-interface-address on ~A: ~A"
                 (list name (strerror err))
                 (list err))))))

(define (configure-network-interface name sockaddr flags)
  "Configure network interface NAME to use SOCKADDR, an address as returned by
'make-socket-address', and FLAGS, a bitwise-or of IFF_* constants."
  (let ((sock (socket (sockaddr:fam sockaddr) SOCK_STREAM 0)))
    (dynamic-wind
      (const #t)
      (lambda ()
        (set-network-interface-address sock name sockaddr)
        (set-network-interface-flags sock name flags))
      (lambda ()
        (close-port sock)))))

(define* (set-network-interface-up name
                                   #:key (family AF_INET))
  "Turn up the interface NAME."
  (let ((sock (socket family SOCK_STREAM 0)))
    (dynamic-wind
      (const #t)
      (lambda ()
        (let ((flags (network-interface-flags sock name)))
          (set-network-interface-flags sock name
                                       (logior flags IFF_UP))))
      (lambda ()
        (close-port sock)))))

;;; syscalls.scm ends here