;;;; This file implements The MD5 Message-Digest Algorithm, as defined in ;;;; RFC 1321 by R. Rivest, published April 1992. ;;;; ;;;; It was written by Pierre R. Mai, with copious input from the ;;;; cmucl-help mailing-list hosted at cons.org, in November 2001 and ;;;; has been placed into the public domain. ;;;; ;;;; $Id$ ;;;; ;;;; While the implementation should work on all conforming Common ;;;; Lisp implementations, it has only been optimized for CMU CL, ;;;; where it achieved comparable performance to the standard md5sum ;;;; utility (within a factor of 1.5 or less on iA32 and UltraSparc ;;;; hardware). ;;;; ;;;; Since the implementation makes heavy use of arithmetic on ;;;; (unsigned-byte 32) numbers, acceptable performance is likely only ;;;; on CL implementations that support unboxed arithmetic on such ;;;; numbers in some form. For other CL implementations a 16bit ;;;; implementation of MD5 is probably more suitable. ;;;; ;;;; The code implements correct operation for files of unbounded size ;;;; as is, at the cost of having to do a single generic integer ;;;; addition for each call to update-md5-state. If you call ;;;; update-md5-state frequently with little data, this can pose a ;;;; performance problem. If you can live with a size restriction of ;;;; 512 MB, then you can enable fast fixnum arithmetic by putting ;;;; :md5-small-length onto *features* prior to compiling this file. ;;;; ;;;; This software is "as is", and has no warranty of any kind. The ;;;; authors assume no responsibility for the consequences of any use ;;;; of this software. (defpackage :SB-MD5 (:use :CL) (:export ;; Low-Level types and functions #:md5-regs #:initial-md5-regs #:md5regs-digest #:update-md5-block #:fill-block #:fill-block-ub8 #:fill-block-char ;; Mid-Level types and functions #:md5-state #:md5-state-p #:make-md5-state #:update-md5-state #:finalize-md5-state ;; High-Level functions on sequences, streams and files #:md5sum-sequence #:md5sum-string #:md5sum-stream #:md5sum-file)) (in-package :SB-MD5) #+cmu (eval-when (:compile-toplevel) (defparameter *old-expansion-limit* ext:*inline-expansion-limit*) (setq ext:*inline-expansion-limit* (max ext:*inline-expansion-limit* 1000))) #+cmu (eval-when (:compile-toplevel :execute) (defparameter *old-features* *features*) (pushnew (c:backend-byte-order c:*target-backend*) *features*)) #+sbcl (eval-when (:compile-toplevel) (defparameter *old-features* *features*) (pushnew sb-c:*backend-byte-order* *features*)) ;;; Section 2: Basic Datatypes (deftype ub32 () "Corresponds to the 32bit quantity word of the MD5 Spec" `(unsigned-byte 32)) (defmacro assemble-ub32 (a b c d) "Assemble an ub32 value from the given (unsigned-byte 8) values, where a is the intended low-order byte and d the high-order byte." `(the ub32 (logior (ash ,d 24) (ash ,c 16) (ash ,b 8) ,a))) ;;; Section 3.4: Auxilliary functions (declaim (inline f g h i) (ftype (function (ub32 ub32 ub32) ub32) f g h i)) (defun f (x y z) (declare (type ub32 x y z) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+cmu (kernel:32bit-logical-or (kernel:32bit-logical-and x y) (kernel:32bit-logical-andc1 x z)) #-cmu (logior (logand x y) (logandc1 x z))) (defun g (x y z) (declare (type ub32 x y z) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+cmu (kernel:32bit-logical-or (kernel:32bit-logical-and x z) (kernel:32bit-logical-andc2 y z)) #-cmu (logior (logand x z) (logandc2 y z))) (defun h (x y z) (declare (type ub32 x y z) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+cmu (kernel:32bit-logical-xor x (kernel:32bit-logical-xor y z)) #-cmu (logxor x y z)) (defun i (x y z) (declare (type ub32 x y z) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+cmu (kernel:32bit-logical-xor y (kernel:32bit-logical-orc2 x z)) #-cmu (ldb (byte 32 0) (logxor y (logorc2 x z)))) (declaim (inline mod32+) (ftype (function (ub32 ub32) ub32) mod32+)) (defun mod32+ (a b) (declare (type ub32 a b) (optimize (speed 3) (safety 0) (space 0) (debug 0))) (ldb (byte 32 0) (+ a b))) #+cmu (define-compiler-macro mod32+ (a b) `(ext:truly-the ub32 (+ ,a ,b))) ;;; Dunno why we need this, but without it MOD32+ wasn't being ;;; inlined. Oh well. -- CSR, 2003-09-14 #+sbcl (define-compiler-macro mod32+ (a b) `(ldb (byte 32 0) (+ ,a ,b))) (declaim (inline rol32) (ftype (function (ub32 (unsigned-byte 5)) ub32) rol32)) (defun rol32 (a s) (declare (type ub32 a) (type (unsigned-byte 5) s) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+cmu (kernel:32bit-logical-or #+little-endian (kernel:shift-towards-end a s) #+big-endian (kernel:shift-towards-start a s) (ash a (- s 32))) #+sbcl (sb-rotate-byte:rotate-byte s (byte 32 0) a) #-(or cmu sbcl) (logior (ldb (byte 32 0) (ash a s)) (ash a (- s 32)))) ;;; Section 3.4: Table T (eval-when (:compile-toplevel :load-toplevel :execute) (defparameter *t* (make-array 64 :element-type 'ub32 :initial-contents (loop for i from 1 to 64 collect (truncate (* 4294967296 (abs (sin (float i 0.0d0))))))))) ;;; Section 3.4: Helper Macro for single round definitions (defmacro with-md5-round ((op block) &rest clauses) (loop for (a b c d k s i) in clauses collect `(setq ,a (mod32+ ,b (rol32 (mod32+ (mod32+ ,a (,op ,b ,c ,d)) (mod32+ (aref ,block ,k) ,(aref *t* (1- i)))) ,s))) into result finally (return `(progn ,@result)))) ;;; Section 3.3: (Initial) MD5 Working Set (deftype md5-regs () "The working state of the MD5 algorithm, which contains the 4 32-bit registers A, B, C and D." `(simple-array (unsigned-byte 32) (4))) (defmacro md5-regs-a (regs) `(aref ,regs 0)) (defmacro md5-regs-b (regs) `(aref ,regs 1)) (defmacro md5-regs-c (regs) `(aref ,regs 2)) (defmacro md5-regs-d (regs) `(aref ,regs 3)) (defconstant +md5-magic-a+ (assemble-ub32 #x01 #x23 #x45 #x67) "Initial value of Register A of the MD5 working state.") (defconstant +md5-magic-b+ (assemble-ub32 #x89 #xab #xcd #xef) "Initial value of Register B of the MD5 working state.") (defconstant +md5-magic-c+ (assemble-ub32 #xfe #xdc #xba #x98) "Initial value of Register C of the MD5 working state.") (defconstant +md5-magic-d+ (assemble-ub32 #x76 #x54 #x32 #x10) "Initial value of Register D of the MD5 working state.") (declaim (inline initial-md5-regs)) (defun initial-md5-regs () "Create the initial working state of an MD5 run." (declare (optimize (speed 3) (safety 0) (space 0) (debug 0))) (let ((regs (make-array 4 :element-type '(unsigned-byte 32)))) (declare (type md5-regs regs)) (setf (md5-regs-a regs) +md5-magic-a+ (md5-regs-b regs) +md5-magic-b+ (md5-regs-c regs) +md5-magic-c+ (md5-regs-d regs) +md5-magic-d+) regs)) ;;; Section 3.4: Operation on 16-Word Blocks (defun update-md5-block (regs block) "This is the core part of the MD5 algorithm. It takes a complete 16 word block of input, and updates the working state in A, B, C, and D accordingly." (declare (type md5-regs regs) (type (simple-array ub32 (16)) block) (optimize (speed 3) (safety 0) (space 0) (debug 0))) (let ((a (md5-regs-a regs)) (b (md5-regs-b regs)) (c (md5-regs-c regs)) (d (md5-regs-d regs))) (declare (type ub32 a b c d)) ;; Round 1 (with-md5-round (f block) (A B C D 0 7 1)(D A B C 1 12 2)(C D A B 2 17 3)(B C D A 3 22 4) (A B C D 4 7 5)(D A B C 5 12 6)(C D A B 6 17 7)(B C D A 7 22 8) (A B C D 8 7 9)(D A B C 9 12 10)(C D A B 10 17 11)(B C D A 11 22 12) (A B C D 12 7 13)(D A B C 13 12 14)(C D A B 14 17 15)(B C D A 15 22 16)) ;; Round 2 (with-md5-round (g block) (A B C D 1 5 17)(D A B C 6 9 18)(C D A B 11 14 19)(B C D A 0 20 20) (A B C D 5 5 21)(D A B C 10 9 22)(C D A B 15 14 23)(B C D A 4 20 24) (A B C D 9 5 25)(D A B C 14 9 26)(C D A B 3 14 27)(B C D A 8 20 28) (A B C D 13 5 29)(D A B C 2 9 30)(C D A B 7 14 31)(B C D A 12 20 32)) ;; Round 3 (with-md5-round (h block) (A B C D 5 4 33)(D A B C 8 11 34)(C D A B 11 16 35)(B C D A 14 23 36) (A B C D 1 4 37)(D A B C 4 11 38)(C D A B 7 16 39)(B C D A 10 23 40) (A B C D 13 4 41)(D A B C 0 11 42)(C D A B 3 16 43)(B C D A 6 23 44) (A B C D 9 4 45)(D A B C 12 11 46)(C D A B 15 16 47)(B C D A 2 23 48)) ;; Round 4 (with-md5-round (i block) (A B C D 0 6 49)(D A B C 7 10 50)(C D A B 14 15 51)(B C D A 5 21 52) (A B C D 12 6 53)(D A B C 3 10 54)(C D A B 10 15 55)(B C D A 1 21 56) (A B C D 8 6 57)(D A B C 15 10 58)(C D A B 6 15 59)(B C D A 13 21 60) (A B C D 4 6 61)(D A B C 11 10 62)(C D A B 2 15 63)(B C D A 9 21 64)) ;; Update and return (setf (md5-regs-a regs) (mod32+ (md5-regs-a regs) a) (md5-regs-b regs) (mod32+ (md5-regs-b regs) b) (md5-regs-c regs) (mod32+ (md5-regs-c regs) c) (md5-regs-d regs) (mod32+ (md5-regs-d regs) d)) regs)) ;;; Section 3.4: Converting 8bit-vectors into 16-Word Blocks (declaim (inline fill-block fill-block-ub8 fill-block-char)) (defun fill-block (block buffer offset) "Convert a complete 64 byte input vector segment into the given 16 word MD5 block. This currently works on (unsigned-byte 8) and character simple-arrays, via the functions `fill-block-ub8' and `fill-block-char' respectively." (declare (type (integer 0 #.(- most-positive-fixnum 64)) offset) (type (simple-array ub32 (16)) block) (type (simple-array * (*)) buffer) (optimize (speed 3) (safety 0) (space 0) (debug 0))) (etypecase buffer ((simple-array (unsigned-byte 8) (*)) (fill-block-ub8 block buffer offset)) (simple-string (fill-block-char block buffer offset)))) (defun fill-block-ub8 (block buffer offset) "Convert a complete 64 (unsigned-byte 8) input vector segment starting from offset into the given 16 word MD5 block." (declare (type (integer 0 #.(- most-positive-fixnum 64)) offset) (type (simple-array ub32 (16)) block) (type (simple-array (unsigned-byte 8) (*)) buffer) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+(and :cmu :little-endian) (kernel:bit-bash-copy buffer (+ (* vm:vector-data-offset vm:word-bits) (* offset vm:byte-bits)) block (* vm:vector-data-offset vm:word-bits) (* 64 vm:byte-bits)) #+(and :sbcl :little-endian) (sb-kernel:ub8-bash-copy buffer offset block 0 64) #-(or (and :sbcl :little-endian) (and :cmu :little-endian)) (loop for i of-type (integer 0 16) from 0 for j of-type (integer 0 #.most-positive-fixnum) from offset to (+ offset 63) by 4 do (setf (aref block i) (assemble-ub32 (aref buffer j) (aref buffer (+ j 1)) (aref buffer (+ j 2)) (aref buffer (+ j 3)))))) (defun fill-block-char (block buffer offset) "Convert a complete 64 character input string segment starting from offset into the given 16 word MD5 block." (declare (type (integer 0 #.(- most-positive-fixnum 64)) offset) (type (simple-array ub32 (16)) block) (type simple-string buffer) (optimize (speed 3) (safety 0) (space 0) (debug 0))) #+(and :cmu :little-endian) (kernel:bit-bash-copy buffer (+ (* vm:vector-data-offset vm:word-bits) (* offset vm:byte-bits)) block (* vm:vector-data-offset vm:word-bits) (* 64 vm:byte-bits)) #+(and :sbcl :little-endian) (sb-kernel:ub8-bash-copy buffer offset block 0 64) #-(or (and :sbcl :little-endian) (and :cmu :little-endian)) (loop for i of-type (integer 0 16) from 0 for j of-type (integer 0 #.most-positive-fixnum) from offset to (+ offset 63) by 4 do (setf (aref block i) (assemble-ub32 (char-code (schar buffer j)) (char-code (schar buffer (+ j 1))) (char-code (schar buffer (+ j 2))) (char-code (schar buffer (+ j 3))))))) ;;; Section 3.5: Message Digest Output (declaim (inline md5regs-digest)) (defun md5regs-digest (regs) "Create the final 16 byte message-digest from the MD5 working state in regs. Returns a (simple-array (unsigned-byte 8) (16))." (declare (optimize (speed 3) (safety 0) (space 0) (debug 0)) (type md5-regs regs)) (let ((result (make-array 16 :element-type '(unsigned-byte 8)))) (declare (type (simple-array (unsigned-byte 8) (16)) result)) (macrolet ((frob (reg offset) (let ((var (gensym))) `(let ((,var ,reg)) (declare (type ub32 ,var)) (setf (aref result ,offset) (ldb (byte 8 0) ,var) (aref result ,(+ offset 1)) (ldb (byte 8 8) ,var) (aref result ,(+ offset 2)) (ldb (byte 8 16) ,var) (aref result ,(+ offset 3)) (ldb (byte 8 24) ,var)))))) (frob (md5-regs-a regs) 0) (frob (md5-regs-b regs) 4) (frob (md5-regs-c regs) 8) (frob (md5-regs-d regs) 12)) result)) ;;; Mid-Level Drivers (defstruct (md5-state (:constructor make-md5-state ()) (:copier)) (regs (initial-md5-regs) :type md5-regs :read-only t) (amount 0 :type #-md5-small-length (integer 0 *) #+md5-small-length (unsigned-byte 29)) (block (make-array 16 :element-type '(unsigned-byte 32)) :read-only t :type (simple-array (unsigned-byte 32) (16))) (buffer (make-array 64 :element-type '(unsigned-byte 8)) :read-only t :type (simple-array (unsigned-byte 8) (64))) (buffer-index 0 :type (integer 0 63)) (finalized-p nil)) (declaim (inline copy-to-buffer)) (defun copy-to-buffer (from from-offset count buffer buffer-offset) "Copy a partial segment from input vector from starting at from-offset and copying count elements into the 64 byte buffer starting at buffer-offset." (declare (optimize (speed 3) (safety 0) (space 0) (debug 0)) (type (unsigned-byte 29) from-offset) (type (integer 0 63) count buffer-offset) (type (simple-array * (*)) from) (type (simple-array (unsigned-byte 8) (64)) buffer)) #+cmu (kernel:bit-bash-copy from (+ (* vm:vector-data-offset vm:word-bits) (* from-offset vm:byte-bits)) buffer (+ (* vm:vector-data-offset vm:word-bits) (* buffer-offset vm:byte-bits)) (* count vm:byte-bits)) #+sbcl (sb-kernel:ub8-bash-copy from from-offset buffer buffer-offset count) #-(or cmu sbcl) (etypecase from (simple-string (loop for buffer-index of-type (integer 0 64) from buffer-offset for from-index of-type fixnum from from-offset below (+ from-offset count) do (setf (aref buffer buffer-index) (char-code (schar (the simple-string from) from-index))))) ((simple-array (unsigned-byte 8) (*)) (loop for buffer-index of-type (integer 0 64) from buffer-offset for from-index of-type fixnum from from-offset below (+ from-offset count) do (setf (aref buffer buffer-index) (aref (the (simple-array (unsigned-byte 8) (*)) from) from-index)))))) (defun update-md5-state (state sequence &key (start 0) (end (length sequence))) "Update the given md5-state from sequence, which is either a simple-string or a simple-array with element-type (unsigned-byte 8), bounded by start and end, which must be numeric bounding-indices." (declare (type md5-state state) (type (simple-array * (*)) sequence) (type fixnum start end) (optimize (speed 3) #+(or cmu sbcl) (safety 0) (space 0) (debug 0)) #+cmu (ext:optimize-interface (safety 1) (debug 1))) (let ((regs (md5-state-regs state)) (block (md5-state-block state)) (buffer (md5-state-buffer state)) (buffer-index (md5-state-buffer-index state)) (length (- end start))) (declare (type md5-regs regs) (type fixnum length) (type (integer 0 63) buffer-index) (type (simple-array (unsigned-byte 32) (16)) block) (type (simple-array (unsigned-byte 8) (64)) buffer)) ;; Handle old rest (unless (zerop buffer-index) (let ((amount (min (- 64 buffer-index) length))) (declare (type (integer 0 63) amount)) (copy-to-buffer sequence start amount buffer buffer-index) (setq start (the fixnum (+ start amount))) (let ((new-index (mod (+ buffer-index amount) 64))) (when (zerop new-index) (fill-block-ub8 block buffer 0) (update-md5-block regs block)) (when (>= start end) (setf (md5-state-buffer-index state) new-index) (incf (md5-state-amount state) length) (return-from update-md5-state state))))) ;; Handle main-part and new-rest (etypecase sequence ((simple-array (unsigned-byte 8) (*)) (locally (declare (type (simple-array (unsigned-byte 8) (*)) sequence)) (loop for offset of-type (unsigned-byte 29) from start below end by 64 until (< (- end offset) 64) do (fill-block-ub8 block sequence offset) (update-md5-block regs block) finally (let ((amount (- end offset))) (unless (zerop amount) (copy-to-buffer sequence offset amount buffer 0)) (setf (md5-state-buffer-index state) amount))))) (simple-string (locally (declare (type simple-string sequence)) (loop for offset of-type (unsigned-byte 29) from start below end by 64 until (< (- end offset) 64) do (fill-block-char block sequence offset) (update-md5-block regs block) finally (let ((amount (- end offset))) (unless (zerop amount) (copy-to-buffer sequence offset amount buffer 0)) (setf (md5-state-buffer-index state) amount)))))) (setf (md5-state-amount state) #-md5-small-length (+ (md5-state-amount state) length) #+md5-small-length (the (unsigned-byte 29) (+ (md5-state-amount state) length))) state)) (defun finalize-md5-state (state) "If the given md5-state has not already been finalized, finalize it, by processing any remaining input in its buffer, with suitable padding and appended bit-length, as specified by the MD5 standard. The resulting MD5 message-digest is returned as an array of sixteen (unsigned-byte 8) values. Calling `update-md5-state' after a call to `finalize-md5-state' results in unspecified behaviour." (declare (type md5-state state) (optimize (speed 3) #+(or cmu sbcl) (safety 0) (space 0) (debug 0)) #+cmu (ext:optimize-interface (safety 1) (debug 1))) (or (md5-state-finalized-p state) (let ((regs (md5-state-regs state)) (block (md5-state-block state)) (buffer (md5-state-buffer state)) (buffer-index (md5-state-buffer-index state)) (total-length (* 8 (md5-state-amount state)))) (declare (type md5-regs regs) (type (integer 0 63) buffer-index) (type (simple-array ub32 (16)) block) (type (simple-array (unsigned-byte 8) (*)) buffer)) ;; Add mandatory bit 1 padding (setf (aref buffer buffer-index) #x80) ;; Fill with 0 bit padding (loop for index of-type (integer 0 64) from (1+ buffer-index) below 64 do (setf (aref buffer index) #x00)) (fill-block-ub8 block buffer 0) ;; Flush block first if length wouldn't fit (when (>= buffer-index 56) (update-md5-block regs block) ;; Create new fully 0 padded block (loop for index of-type (integer 0 16) from 0 below 16 do (setf (aref block index) #x00000000))) ;; Add 64bit message bit length (setf (aref block 14) (ldb (byte 32 0) total-length)) #-md5-small-length (setf (aref block 15) (ldb (byte 32 32) total-length)) ;; Flush last block (update-md5-block regs block) ;; Done, remember digest for later calls (setf (md5-state-finalized-p state) (md5regs-digest regs))))) ;;; High-Level Drivers (defun md5sum-sequence (sequence &key (start 0) end) "Calculate the MD5 message-digest of data bounded by START and END in SEQUENCE , which must be a vector with element-type (UNSIGNED-BYTE 8)." (declare (optimize (speed 3) (safety 3) (space 0) (debug 1)) (type (vector (unsigned-byte 8)) sequence) (type fixnum start)) (locally (declare (optimize (safety 1) (debug 0))) (let ((state (make-md5-state))) (declare (type md5-state state)) #+cmu ;; respect the fill pointer (let ((end (or end (length sequence)))) (lisp::with-array-data ((data sequence) (real-start start) (real-end end)) (declare (ignore real-end)) (update-md5-state state data :start real-start :end (+ real-start (- end start))))) #+sbcl ;; respect the fill pointer (let ((end (or end (length sequence)))) (sb-kernel:with-array-data ((data sequence) (real-start start) (real-end end) :check-fill-pointer t) (declare (ignore real-end)) (update-md5-state state data :start real-start :end (+ real-start (- end start))))) #-(or cmu sbcl) (let ((real-end (or end (length sequence)))) (declare (type fixnum real-end)) (update-md5-state state sequence :start start :end real-end)) (finalize-md5-state state)))) (defun md5sum-string (string &key (external-format :default) (start 0) end) "Calculate the MD5 message-digest of the binary representation of STRING (as octets) in EXTERNAL-FORMAT. The boundaries START and END refer to character positions in the string, not to octets in the resulting binary representation." (declare (optimize (speed 3) (safety 3) (space 0) (debug 1)) (type string string) (type fixnum start)) (locally (declare (optimize (safety 1) (debug 0))) (md5sum-sequence (sb-ext:string-to-octets string :external-format external-format :start start :end end)))) (defconstant +buffer-size+ (* 128 1024) "Size of internal buffer to use for md5sum-stream and md5sum-file operations. This should be a multiple of 64, the MD5 block size.") (deftype buffer-index () `(integer 0 ,+buffer-size+)) (defun md5sum-stream (stream) "Calculate an MD5 message-digest of the contents of STREAM, whose element-type has to be (UNSIGNED-BYTE 8)." (declare (optimize (speed 3) (safety 3) (space 0) (debug 1))) (declare (type stream stream)) (locally (declare (optimize (safety 1) (debug 0))) (let ((state (make-md5-state))) (declare (type md5-state state)) (cond ((equal (stream-element-type stream) '(unsigned-byte 8)) (let ((buffer (make-array +buffer-size+ :element-type '(unsigned-byte 8)))) (declare (type (simple-array (unsigned-byte 8) (#.+buffer-size+)) buffer)) (loop for bytes of-type buffer-index = (read-sequence buffer stream) do (update-md5-state state buffer :end bytes) until (< bytes +buffer-size+) finally (return (finalize-md5-state state))))) #+(or) ((equal (stream-element-type stream) 'character) (let ((buffer (make-string +buffer-size+))) (declare (type (simple-string #.+buffer-size+) buffer)) (loop for bytes of-type buffer-index = (read-sequence buffer stream) do (update-md5-state state buffer :end bytes) until (< bytes +buffer-size+) finally (return (finalize-md5-state state))))) (t (error "Unsupported stream element-type ~S for stream ~S." (stream-element-type stream) stream)))))) (defun md5sum-file (pathname) "Calculate the MD5 message-digest of the file designated by pathname." (declare (optimize (speed 3) (safety 3) (space 0) (debug 1))) (locally (declare (optimize (safety 1) (debug 0))) (with-open-file (stream pathname :element-type '(unsigned-byte 8)) (md5sum-stream stream)))) #+cmu (eval-when (:compile-toplevel :execute) (setq *features* *old-features*)) #+cmu (eval-when (:compile-toplevel) (setq ext:*inline-expansion-limit* *old-expansion-limit*)) #+sbcl (eval-when (:compile-toplevel) (setq *features* *old-features*))