;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2012, 2013, 2014, 2015 Ludovic Courtès <ludo@gnu.org> ;;; Copyright © 2013 Andreas Enge <andreas@enge.fr> ;;; Copyright © 2013 Nikita Karetnikov <nikita@karetnikov.org> ;;; Copyright © 2015 Mark H Weaver <mhw@netris.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 utils) #:use-module (srfi srfi-1) #:use-module (srfi srfi-11) #:use-module (srfi srfi-26) #:use-module (srfi srfi-60) #:use-module (ice-9 ftw) #:use-module (ice-9 match) #:use-module (ice-9 regex) #:use-module (ice-9 rdelim) #:use-module (ice-9 format) #:use-module (rnrs bytevectors) #:use-module (rnrs io ports) #:re-export (alist-cons alist-delete) #:export (%store-directory store-file-name? strip-store-file-name package-name->name+version parallel-job-count directory-exists? executable-file? symbolic-link? call-with-ascii-input-file elf-file? ar-file? with-directory-excursion mkdir-p install-file copy-recursively delete-file-recursively file-name-predicate find-files search-path-as-list set-path-environment-variable search-path-as-string->list list->search-path-as-string which every* alist-cons-before alist-cons-after alist-replace modify-phases with-atomic-file-replacement substitute substitute* dump-port set-file-time patch-shebang patch-makefile-SHELL patch-/usr/bin/file fold-port-matches remove-store-references wrap-program locale-category->string)) ;;; ;;; Directories. ;;; (define (%store-directory) "Return the directory name of the store." (or (getenv "NIX_STORE") "/gnu/store")) (define (store-file-name? file) "Return true if FILE is in the store." (string-prefix? (%store-directory) file)) (define (strip-store-file-name file) "Strip the '/gnu/store' and hash from FILE, a store file name. The result is typically a \"PACKAGE-VERSION\" string." (string-drop file (+ 34 (string-length (%store-directory))))) (define (package-name->name+version name) "Given NAME, a package name like \"foo-0.9.1b\", return two values: \"foo\" and \"0.9.1b\". When the version part is unavailable, NAME and #f are returned. The first hyphen followed by a digit is considered to introduce the version part." ;; See also `DrvName' in Nix. (define number? (cut char-set-contains? char-set:digit <>)) (let loop ((chars (string->list name)) (prefix '())) (match chars (() (values name #f)) ((#\- (? number? n) rest ...) (values (list->string (reverse prefix)) (list->string (cons n rest)))) ((head tail ...) (loop tail (cons head prefix)))))) (define parallel-job-count ;; Number of processes to be passed next to GNU Make's `-j' argument. (make-parameter (match (getenv "NIX_BUILD_CORES") ;set by the daemon (#f 1) ("0" (current-processor-count)) (x (or (string->number x) 1))))) (define (directory-exists? dir) "Return #t if DIR exists and is a directory." (let ((s (stat dir #f))) (and s (eq? 'directory (stat:type s))))) (define (executable-file? file) "Return #t if FILE exists and is executable." (let ((s (stat file #f))) (and s (not (zero? (logand (stat:mode s) #o100)))))) (define (symbolic-link? file) "Return #t if FILE is a symbolic link (aka. \"symlink\".)" (eq? (stat:type (lstat file)) 'symlink)) (define (call-with-ascii-input-file file proc) "Open FILE as an ASCII or binary file, and pass the resulting port to PROC. FILE is closed when PROC's dynamic extent is left. Return the return values of applying PROC to the port." (let ((port (with-fluids ((%default-port-encoding #f)) ;; Use "b" so that `open-file' ignores `coding:' cookies. (open-file file "rb")))) (dynamic-wind (lambda () #t) (lambda () (proc port)) (lambda () (close-input-port port))))) (define (file-header-match header) "Return a procedure that returns true when its argument is a file starting with the bytes in HEADER, a bytevector." (define len (bytevector-length header)) (lambda (file) "Return true if FILE starts with the right magic bytes." (define (get-header) (call-with-input-file file (lambda (port) (get-bytevector-n port len)) #:binary #t #:guess-encoding #f)) (catch 'system-error (lambda () (equal? (get-header) header)) (lambda args (if (= EISDIR (system-error-errno args)) #f ;FILE is a directory (apply throw args)))))) (define %elf-magic-bytes ;; Magic bytes of ELF files. See <elf.h>. (u8-list->bytevector (map char->integer (string->list "\x7FELF")))) (define elf-file? (file-header-match %elf-magic-bytes)) (define %ar-magic-bytes ;; Magic bytes of archives created by 'ar'. See <ar.h>. (u8-list->bytevector (map char->integer (string->list "!<arch>\n")))) (define ar-file? (file-header-match %ar-magic-bytes)) (define-syntax-rule (with-directory-excursion dir body ...) "Run BODY with DIR as the process's current directory." (let ((init (getcwd))) (dynamic-wind (lambda () (chdir dir)) (lambda () body ...) (lambda () (chdir init))))) (define (mkdir-p dir) "Create directory DIR and all its ancestors." (define absolute? (string-prefix? "/" dir)) (define not-slash (char-set-complement (char-set #\/))) (let loop ((components (string-tokenize dir not-slash)) (root (if absolute? "" "."))) (match components ((head tail ...) (let ((path (string-append root "/" head))) (catch 'system-error (lambda () (mkdir path) (loop tail path)) (lambda args (if (= EEXIST (system-error-errno args)) (loop tail path) (apply throw args)))))) (() #t)))) (define (install-file file directory) "Create DIRECTORY if it does not exist and copy FILE in there under the same name." (mkdir-p directory) (copy-file file (string-append directory "/" (basename file)))) (define* (copy-recursively source destination #:key (log (current-output-port)) (follow-symlinks? #f) keep-mtime?) "Copy SOURCE directory to DESTINATION. Follow symlinks if FOLLOW-SYMLINKS? is true; otherwise, just preserve them. When KEEP-MTIME? is true, keep the modification time of the files in SOURCE on those of DESTINATION. Write verbose output to the LOG port." (define strip-source (let ((len (string-length source))) (lambda (file) (substring file len)))) (file-system-fold (const #t) ; enter? (lambda (file stat result) ; leaf (let ((dest (string-append destination (strip-source file)))) (format log "`~a' -> `~a'~%" file dest) (case (stat:type stat) ((symlink) (let ((target (readlink file))) (symlink target dest))) (else (copy-file file dest) (when keep-mtime? (set-file-time dest stat)))))) (lambda (dir stat result) ; down (let ((target (string-append destination (strip-source dir)))) (mkdir-p target) (when keep-mtime? (set-file-time target stat)))) (lambda (dir stat result) ; up result) (const #t) ; skip (lambda (file stat errno result) (format (current-error-port) "i/o error: ~a: ~a~%" file (strerror errno)) #f) #t source (if follow-symlinks? stat lstat))) (define* (delete-file-recursively dir #:key follow-mounts?) "Delete DIR recursively, like `rm -rf', without following symlinks. Don't follow mount points either, unless FOLLOW-MOUNTS? is true. Report but ignore errors." (let ((dev (stat:dev (lstat dir)))) (file-system-fold (lambda (dir stat result) ; enter? (or follow-mounts? (= dev (stat:dev stat)))) (lambda (file stat result) ; leaf (delete-file file)) (const #t) ; down (lambda (dir stat result) ; up (rmdir dir)) (const #t) ; skip (lambda (file stat errno result) (format (current-error-port) "warning: failed to delete ~a: ~a~%" file (strerror errno))) #t dir ;; Don't follow symlinks. lstat))) (define (file-name-predicate regexp) "Return a predicate that returns true when passed a file name whose base name matches REGEXP." (let ((file-rx (if (regexp? regexp) regexp (make-regexp regexp)))) (lambda (file stat) (regexp-exec file-rx (basename file))))) (define* (find-files dir #:optional (pred (const #t)) #:key (stat lstat) directories? fail-on-error?) "Return the lexicographically sorted list of files under DIR for which PRED returns true. PRED is passed two arguments: the absolute file name, and its stat buffer; the default predicate always returns true. PRED can also be a regular expression, in which case it is equivalent to (file-name-predicate PRED). STAT is used to obtain file information; using 'lstat' means that symlinks are not followed. If DIRECTORIES? is true, then directories will also be included. If FAIL-ON-ERROR? is true, raise an exception upon error." (let ((pred (if (procedure? pred) pred (file-name-predicate pred)))) ;; Sort the result to get deterministic results. (sort (file-system-fold (const #t) (lambda (file stat result) ; leaf (if (pred file stat) (cons file result) result)) (lambda (dir stat result) ; down (if (and directories? (pred dir stat)) (cons dir result) result)) (lambda (dir stat result) ; up result) (lambda (file stat result) ; skip result) (lambda (file stat errno result) (format (current-error-port) "find-files: ~a: ~a~%" file (strerror errno)) (when fail-on-error? (error "find-files failed")) result) '() dir stat) string<?))) ;;; ;;; Search paths. ;;; (define* (search-path-as-list files input-dirs #:key (type 'directory) pattern) "Return the list of directories among FILES of the given TYPE (a symbol as returned by 'stat:type') that exist in INPUT-DIRS. Example: (search-path-as-list '(\"share/emacs/site-lisp\" \"share/emacs/24.1\") (list \"/package1\" \"/package2\" \"/package3\")) => (\"/package1/share/emacs/site-lisp\" \"/package3/share/emacs/site-lisp\") When PATTERN is true, it is a regular expression denoting file names to look for under the directories designated by FILES. For example: (search-path-as-list '(\"xml\") (list docbook-xml docbook-xsl) #:type 'regular #:pattern \"^catalog\\\\.xml$\") => (\"/…/xml/dtd/docbook/catalog.xml\" \"/…/xml/xsl/docbook-xsl-1.78.1/catalog.xml\") " (append-map (lambda (input) (append-map (lambda (file) (let ((file (string-append input "/" file))) ;; XXX: By using 'find-files', we implicitly ;; assume #:type 'regular. (if pattern (find-files file pattern) (let ((stat (stat file #f))) (if (and stat (eq? type (stat:type stat))) (list file) '()))))) files)) (delete-duplicates input-dirs))) (define (list->search-path-as-string lst separator) (string-join lst separator)) (define* (search-path-as-string->list path #:optional (separator #\:)) (string-tokenize path (char-set-complement (char-set separator)))) (define* (set-path-environment-variable env-var files input-dirs #:key (separator ":") (type 'directory) pattern) "Look for each of FILES of the given TYPE (a symbol as returned by 'stat:type') in INPUT-DIRS. Set ENV-VAR to a SEPARATOR-separated path accordingly. Example: (set-path-environment-variable \"PKG_CONFIG\" '(\"lib/pkgconfig\") (list package1 package2)) When PATTERN is not #f, it must be a regular expression (really a string) denoting file names to look for under the directories designated by FILES: (set-path-environment-variable \"XML_CATALOG_FILES\" '(\"xml\") (list docbook-xml docbook-xsl) #:type 'regular #:pattern \"^catalog\\\\.xml$\") " (let* ((path (search-path-as-list files input-dirs #:type type #:pattern pattern)) (value (list->search-path-as-string path separator))) (if (string-null? value) (begin ;; Never set ENV-VAR to an empty string because often, the empty ;; string is equivalent to ".". This is the case for ;; GUILE_LOAD_PATH in Guile 2.0, for instance. (unsetenv env-var) (format #t "environment variable `~a' unset~%" env-var)) (begin (setenv env-var value) (format #t "environment variable `~a' set to `~a'~%" env-var value))))) (define (which program) "Return the complete file name for PROGRAM as found in $PATH, or #f if PROGRAM could not be found." (search-path (search-path-as-string->list (getenv "PATH")) program)) ;;; ;;; Phases. ;;; ;;; In (guix build gnu-build-system), there are separate phases (configure, ;;; build, test, install). They are represented as a list of name/procedure ;;; pairs. The following procedures make it easy to change the list of ;;; phases. ;;; (define (every* pred lst) "This is like 'every', but process all the elements of LST instead of stopping as soon as PRED returns false. This is useful when PRED has side effects, such as displaying warnings or error messages." (let loop ((lst lst) (result #t)) (match lst (() result) ((head . tail) (loop tail (and (pred head) result)))))) (define* (alist-cons-before reference key value alist #:optional (key=? equal?)) "Insert the KEY/VALUE pair before the first occurrence of a pair whose key is REFERENCE in ALIST. Use KEY=? to compare keys." (let-values (((before after) (break (match-lambda ((k . _) (key=? k reference))) alist))) (append before (alist-cons key value after)))) (define* (alist-cons-after reference key value alist #:optional (key=? equal?)) "Insert the KEY/VALUE pair after the first occurrence of a pair whose key is REFERENCE in ALIST. Use KEY=? to compare keys." (let-values (((before after) (break (match-lambda ((k . _) (key=? k reference))) alist))) (match after ((reference after ...) (append before (cons* reference `(,key . ,value) after))) (() (append before `((,key . ,value))))))) (define* (alist-replace key value alist #:optional (key=? equal?)) "Replace the first pair in ALIST whose car is KEY with the KEY/VALUE pair. An error is raised when no such pair exists." (let-values (((before after) (break (match-lambda ((k . _) (key=? k key))) alist))) (match after ((_ after ...) (append before (alist-cons key value after)))))) (define-syntax-rule (modify-phases phases mod-spec ...) "Modify PHASES sequentially as per each MOD-SPEC, which may have one of the following forms: (delete <old-phase-name>) (replace <old-phase-name> <new-phase>) (add-before <old-phase-name> <new-phase-name> <new-phase>) (add-after <old-phase-name> <new-phase-name> <new-phase>) Where every <*-phase-name> is an automatically quoted symbol, and <new-phase> an expression evaluating to a procedure." (let* ((phases* phases) (phases* (%modify-phases phases* mod-spec)) ...) phases*)) (define-syntax %modify-phases (syntax-rules (delete replace add-before add-after) ((_ phases (delete old-phase-name)) (alist-delete old-phase-name phases)) ((_ phases (replace old-phase-name new-phase)) (alist-replace old-phase-name new-phase phases)) ((_ phases (add-before old-phase-name new-phase-name new-phase)) (alist-cons-before old-phase-name new-phase-name new-phase phases)) ((_ phases (add-after old-phase-name new-phase-name new-phase)) (alist-cons-after old-phase-name new-phase-name new-phase phases)))) ;;; ;;; Text substitution (aka. sed). ;;; (define (with-atomic-file-replacement file proc) "Call PROC with two arguments: an input port for FILE, and an output port for the file that is going to replace FILE. Upon success, FILE is atomically replaced by what has been written to the output port, and PROC's result is returned." (let* ((template (string-append file ".XXXXXX")) (out (mkstemp! template)) (mode (stat:mode (stat file)))) (with-throw-handler #t (lambda () (call-with-input-file file (lambda (in) (let ((result (proc in out))) (close out) (chmod template mode) (rename-file template file) result)))) (lambda (key . args) (false-if-exception (delete-file template)))))) (define (substitute file pattern+procs) "PATTERN+PROCS is a list of regexp/two-argument-procedure pairs. For each line of FILE, and for each PATTERN that it matches, call the corresponding PROC as (PROC LINE MATCHES); PROC must return the line that will be written as a substitution of the original line. Be careful about using '$' to match the end of a line; by itself it won't match the terminating newline of a line." (let ((rx+proc (map (match-lambda (((? regexp? pattern) . proc) (cons pattern proc)) ((pattern . proc) (cons (make-regexp pattern regexp/extended) proc))) pattern+procs))) (with-atomic-file-replacement file (lambda (in out) (let loop ((line (read-line in 'concat))) (if (eof-object? line) #t (let ((line (fold (lambda (r+p line) (match r+p ((regexp . proc) (match (list-matches regexp line) ((and m+ (_ _ ...)) (proc line m+)) (_ line))))) line rx+proc))) (display line out) (loop (read-line in 'concat))))))))) (define-syntax let-matches ;; Helper macro for `substitute*'. (syntax-rules (_) ((let-matches index match (_ vars ...) body ...) (let-matches (+ 1 index) match (vars ...) body ...)) ((let-matches index match (var vars ...) body ...) (let ((var (match:substring match index))) (let-matches (+ 1 index) match (vars ...) body ...))) ((let-matches index match () body ...) (begin body ...)))) (define-syntax substitute* (syntax-rules () "Substitute REGEXP in FILE by the string returned by BODY. BODY is evaluated with each MATCH-VAR bound to the corresponding positional regexp sub-expression. For example: (substitute* file ((\"hello\") \"good morning\\n\") ((\"foo([a-z]+)bar(.*)$\" all letters end) (string-append \"baz\" letter end))) Here, anytime a line of FILE contains \"hello\", it is replaced by \"good morning\". Anytime a line of FILE matches the second regexp, ALL is bound to the complete match, LETTERS is bound to the first sub-expression, and END is bound to the last one. When one of the MATCH-VAR is `_', no variable is bound to the corresponding match substring. Alternatively, FILE may be a list of file names, in which case they are all subject to the substitutions. Be careful about using '$' to match the end of a line; by itself it won't match the terminating newline of a line." ((substitute* file ((regexp match-var ...) body ...) ...) (let () (define (substitute-one-file file-name) (substitute file-name (list (cons regexp (lambda (l m+) ;; Iterate over matches M+ and return the ;; modified line based on L. (let loop ((m* m+) ; matches (o 0) ; offset in L (r '())) ; result (match m* (() (let ((r (cons (substring l o) r))) (string-concatenate-reverse r))) ((m . rest) (let-matches 0 m (match-var ...) (loop rest (match:end m) (cons* (begin body ...) (substring l o (match:start m)) r)))))))) ...))) (match file ((files (... ...)) (for-each substitute-one-file files)) ((? string? f) (substitute-one-file f))))))) ;;; ;;; Patching shebangs---e.g., /bin/sh -> /gnu/store/xyz...-bash/bin/sh. ;;; (define* (dump-port in out #:key (buffer-size 16384) (progress (lambda (t k) (k)))) "Read as much data as possible from IN and write it to OUT, using chunks of BUFFER-SIZE bytes. Call PROGRESS at the beginning and after each successful transfer of BUFFER-SIZE bytes or less, passing it the total number of bytes transferred and the continuation of the transfer as a thunk." (define buffer (make-bytevector buffer-size)) (define (loop total bytes) (or (eof-object? bytes) (let ((total (+ total bytes))) (put-bytevector out buffer 0 bytes) (progress total (lambda () (loop total (get-bytevector-n! in buffer 0 buffer-size))))))) ;; Make sure PROGRESS is called when we start so that it can measure ;; throughput. (progress 0 (lambda () (loop 0 (get-bytevector-n! in buffer 0 buffer-size))))) (define (set-file-time file stat) "Set the atime/mtime of FILE to that specified by STAT." (utime file (stat:atime stat) (stat:mtime stat) (stat:atimensec stat) (stat:mtimensec stat))) (define (get-char* p) ;; We call it `get-char', but that's really a binary version ;; thereof. (The real `get-char' cannot be used here because our ;; bootstrap Guile is hacked to always use UTF-8.) (match (get-u8 p) ((? integer? x) (integer->char x)) (x x))) (define patch-shebang (let ((shebang-rx (make-regexp "^[[:blank:]]*([[:graph:]]+)[[:blank:]]*([[:graph:]]*)(.*)$"))) (lambda* (file #:optional (path (search-path-as-string->list (getenv "PATH"))) #:key (keep-mtime? #t)) "Replace the #! interpreter file name in FILE by a valid one found in PATH, when FILE actually starts with a shebang. Return #t when FILE was patched, #f otherwise. When KEEP-MTIME? is true, the atime/mtime of FILE are kept unchanged." (define (patch p interpreter rest-of-line) (let* ((template (string-append file ".XXXXXX")) (out (mkstemp! template)) (st (stat file)) (mode (stat:mode st))) (with-throw-handler #t (lambda () (format out "#!~a~a~%" interpreter rest-of-line) (dump-port p out) (close out) (chmod template mode) (rename-file template file) (when keep-mtime? (set-file-time file st)) #t) (lambda (key . args) (format (current-error-port) "patch-shebang: ~a: error: ~a ~s~%" file key args) (false-if-exception (delete-file template)) #f)))) (call-with-ascii-input-file file (lambda (p) (and (eq? #\# (get-char* p)) (eq? #\! (get-char* p)) (let ((line (false-if-exception (read-line p)))) (and=> (and line (regexp-exec shebang-rx line)) (lambda (m) (let* ((interp (match:substring m 1)) (arg1 (match:substring m 2)) (rest (match:substring m 3)) (has-env (string-suffix? "/env" interp)) (cmd (if has-env arg1 (basename interp))) (bin (search-path path cmd))) (if bin (if (string=? bin interp) #f ; nothing to do (if has-env (begin (format (current-error-port) "patch-shebang: ~a: changing `~a' to `~a'~%" file (string-append interp " " arg1) bin) (patch p bin rest)) (begin (format (current-error-port) "patch-shebang: ~a: changing `~a' to `~a'~%" file interp bin) (patch p bin (if (string-null? arg1) "" (string-append " " arg1 rest)))))) (begin (format (current-error-port) "patch-shebang: ~a: warning: no binary for interpreter `~a' found in $PATH~%" file (basename cmd)) #f)))))))))))) (define* (patch-makefile-SHELL file #:key (keep-mtime? #t)) "Patch the `SHELL' variable in FILE, which is supposedly a makefile. When KEEP-MTIME? is true, the atime/mtime of FILE are kept unchanged." ;; For instance, Gettext-generated po/Makefile.in.in do not honor $SHELL. ;; XXX: Unlike with `patch-shebang', FILE is always touched. (define (find-shell name) (let ((shell (which name))) (unless shell (format (current-error-port) "patch-makefile-SHELL: warning: no binary for shell `~a' found in $PATH~%" name)) shell)) (let ((st (stat file))) ;; Consider FILE is using an 8-bit encoding to avoid errors. (with-fluids ((%default-port-encoding #f)) (substitute* file (("^ *SHELL[[:blank:]]*:?=[[:blank:]]*([[:graph:]]*/)([[:graph:]]+)(.*)$" _ dir shell args) (let* ((old (string-append dir shell)) (new (or (find-shell shell) old))) (unless (string=? new old) (format (current-error-port) "patch-makefile-SHELL: ~a: changing `SHELL' from `~a' to `~a'~%" file old new)) (string-append "SHELL = " new args))))) (when keep-mtime? (set-file-time file st)))) (define* (patch-/usr/bin/file file #:key (file-command (which "file")) (keep-mtime? #t)) "Patch occurrences of \"/usr/bin/file\" in FILE, replacing them with FILE-COMMAND. When KEEP-MTIME? is true, keep FILE's modification time unchanged." (if (not file-command) (format (current-error-port) "patch-/usr/bin/file: warning: \ no replacement 'file' command, doing nothing~%") (let ((st (stat file))) ;; Consider FILE is using an 8-bit encoding to avoid errors. (with-fluids ((%default-port-encoding #f)) (substitute* file (("/usr/bin/file") (begin (format (current-error-port) "patch-/usr/bin/file: ~a: changing `~a' to `~a'~%" file "/usr/bin/file" file-command) file-command)))) (when keep-mtime? (set-file-time file st))))) (define* (fold-port-matches proc init pattern port #:optional (unmatched (lambda (_ r) r))) "Read from PORT character-by-character; for each match against PATTERN, call (PROC MATCH RESULT), where RESULT is seeded with INIT. PATTERN is a list of SRFI-14 char-sets. Call (UNMATCHED CHAR RESULT) for each unmatched character." (define initial-pattern ;; The poor developer's regexp. (if (string? pattern) (map char-set (string->list pattern)) pattern)) ;; Note: we're not really striving for performance here... (let loop ((chars '()) (pattern initial-pattern) (matched '()) (result init)) (cond ((null? chars) (loop (list (get-char* port)) pattern matched result)) ((null? pattern) (loop chars initial-pattern '() (proc (list->string (reverse matched)) result))) ((eof-object? (car chars)) (fold-right unmatched result matched)) ((char-set-contains? (car pattern) (car chars)) (loop (cdr chars) (cdr pattern) (cons (car chars) matched) result)) ((null? matched) ; common case (loop (cdr chars) pattern matched (unmatched (car chars) result))) (else (let ((matched (reverse matched))) (loop (append (cdr matched) chars) initial-pattern '() (unmatched (car matched) result))))))) (define* (remove-store-references file #:optional (store (%store-directory))) "Remove from FILE occurrences of file names in STORE; return #t when store paths were encountered in FILE, #f otherwise. This procedure is known as `nuke-refs' in Nixpkgs." (define pattern (let ((nix-base32-chars '(#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\a #\b #\c #\d #\f #\g #\h #\i #\j #\k #\l #\m #\n #\p #\q #\r #\s #\v #\w #\x #\y #\z))) `(,@(map char-set (string->list store)) ,(char-set #\/) ,@(make-list 32 (list->char-set nix-base32-chars)) ,(char-set #\-)))) (with-fluids ((%default-port-encoding #f)) (with-atomic-file-replacement file (lambda (in out) ;; We cannot use `regexp-exec' here because it cannot deal with ;; strings containing NUL characters. (format #t "removing store references from `~a'...~%" file) (setvbuf in _IOFBF 65536) (setvbuf out _IOFBF 65536) (fold-port-matches (lambda (match result) (put-bytevector out (string->utf8 store)) (put-u8 out (char->integer #\/)) (put-bytevector out (string->utf8 "eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee-")) #t) #f pattern in (lambda (char result) (put-u8 out (char->integer char)) result)))))) (define* (wrap-program prog #:rest vars) "Make a wrapper for PROG. VARS should look like this: '(VARIABLE DELIMITER POSITION LIST-OF-DIRECTORIES) where DELIMITER is optional. ':' will be used if DELIMITER is not given. For example, this command: (wrap-program \"foo\" '(\"PATH\" \":\" = (\"/gnu/.../bar/bin\")) '(\"CERT_PATH\" suffix (\"/gnu/.../baz/certs\" \"/qux/certs\"))) will copy 'foo' to '.foo-real' and create the file 'foo' with the following contents: #!location/of/bin/bash export PATH=\"/gnu/.../bar/bin\" export CERT_PATH=\"$CERT_PATH${CERT_PATH:+:}/gnu/.../baz/certs:/qux/certs\" exec -a $0 location/of/.foo-real \"$@\" This is useful for scripts that expect particular programs to be in $PATH, for programs that expect particular shared libraries to be in $LD_LIBRARY_PATH, or modules in $GUILE_LOAD_PATH, etc. If PROG has previously been wrapped by wrap-program the wrapper will point to the previous wrapper." (define (wrapper-file-name number) (format #f "~a/.~a-wrap-~2'0d" (dirname prog) (basename prog) number)) (define (next-wrapper-number) (let ((wrappers (find-files (dirname prog) (string-append "\\." (basename prog) "-wrap-.*")))) (if (null? wrappers) 0 (string->number (string-take-right (last wrappers) 2))))) (define (wrapper-target number) (if (zero? number) (let ((prog-real (string-append (dirname prog) "/." (basename prog) "-real"))) (rename-file prog prog-real) prog-real) (wrapper-file-name number))) (let* ((number (next-wrapper-number)) (target (wrapper-target number)) (wrapper (wrapper-file-name (1+ number))) (prog-tmp (string-append target "-tmp"))) (define (export-variable lst) ;; Return a string that exports an environment variable. (match lst ((var sep '= rest) (format #f "export ~a=\"~a\"" var (string-join rest sep))) ((var sep 'prefix rest) (format #f "export ~a=\"~a${~a~a+~a}$~a\"" var (string-join rest sep) var sep sep var)) ((var sep 'suffix rest) (format #f "export ~a=\"$~a${~a~a+~a}~a\"" var var var sep sep (string-join rest sep))) ((var '= rest) (format #f "export ~a=\"~a\"" var (string-join rest ":"))) ((var 'prefix rest) (format #f "export ~a=\"~a${~a:+:}$~a\"" var (string-join rest ":") var var)) ((var 'suffix rest) (format #f "export ~a=\"$~a${~a:+:}~a\"" var var var (string-join rest ":"))))) (with-output-to-file prog-tmp (lambda () (format #t "#!~a~%~a~%exec -a \"$0\" \"~a\" \"$@\"~%" (which "bash") (string-join (map export-variable vars) "\n") (canonicalize-path target)))) (chmod prog-tmp #o755) (rename-file prog-tmp wrapper) (symlink wrapper prog-tmp) (rename-file prog-tmp prog))) ;;; ;;; Locales. ;;; (define (locale-category->string category) "Return the name of locale category CATEGORY, one of the 'LC_' constants. If CATEGORY is a bitwise or of several 'LC_' constants, an approximation is returned." (letrec-syntax ((convert (syntax-rules () ((_) (number->string category)) ((_ first rest ...) (if (= first category) (symbol->string 'first) (convert rest ...)))))) (convert LC_ADDRESS LC_ALL LC_COLLATE LC_CTYPE LC_IDENTIFICATION LC_MEASUREMENT LC_MESSAGES LC_MONETARY LC_NAME LC_NUMERIC LC_PAPER LC_TELEPHONE LC_TIME))) ;;; Local Variables: ;;; eval: (put 'call-with-output-file/atomic 'scheme-indent-function 1) ;;; eval: (put 'call-with-ascii-input-file 'scheme-indent-function 1) ;;; eval: (put 'with-throw-handler 'scheme-indent-function 1) ;;; eval: (put 'let-matches 'scheme-indent-function 3) ;;; eval: (put 'with-atomic-file-replacement 'scheme-indent-function 1) ;;; End: