;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017 Ludovic Courtès ;;; Copyright © 2013 Mark H Weaver ;;; Copyright © 2014 Eric Bavier ;;; Copyright © 2016, 2017 Alex Kost ;;; Copyright © 2016 Mathieu Lirzin ;;; ;;; 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 . (define-module (gnu packages) #:use-module (guix packages) #:use-module (guix ui) #:use-module (guix utils) #:use-module (guix memoization) #:use-module (guix combinators) #:use-module ((guix build utils) #:select ((package-name->name+version . hyphen-separated-name->name+version))) #:use-module (ice-9 ftw) #:use-module (ice-9 vlist) #:use-module (ice-9 match) #:use-module (srfi srfi-1) #:use-module (srfi srfi-11) #:use-module (srfi srfi-26) #:use-module (srfi srfi-34) #:use-module (srfi srfi-35) #:use-module (srfi srfi-39) #:export (search-patch search-patches search-auxiliary-file search-bootstrap-binary %patch-path %auxiliary-files-path %bootstrap-binaries-path %package-module-path fold-packages scheme-modules ;XXX: for lack of a better place find-packages-by-name find-best-packages-by-name find-newest-available-packages specification->package specification->package+output find-package-binding)) ;;; Commentary: ;;; ;;; General utilities for the software distribution---i.e., the modules under ;;; (gnu packages ...). ;;; ;;; Code: ;; By default, we store patches, auxiliary files and bootstrap binaries ;; alongside Guile modules. This is so that these extra files can be ;; found without requiring a special setup, such as a specific ;; installation directory and an extra environment variable. One ;; advantage of this setup is that everything just works in an ;; auto-compilation setting. (define %bootstrap-binaries-path (make-parameter (map (cut string-append <> "/gnu/packages/bootstrap") %load-path))) (define %auxiliary-files-path (make-parameter (map (cut string-append <> "/gnu/packages/aux-files") %load-path))) (define (search-auxiliary-file file-name) "Search the auxiliary FILE-NAME. Return #f if not found." (search-path (%auxiliary-files-path) file-name)) (define (search-patch file-name) "Search the patch FILE-NAME. Raise an error if not found." (or (search-path (%patch-path) file-name) (raise (condition (&message (message (format #f (_ "~a: patch not found") file-name))))))) (define-syntax-rule (search-patches file-name ...) "Return the list of absolute file names corresponding to each FILE-NAME found in %PATCH-PATH." (list (search-patch file-name) ...)) (define (search-bootstrap-binary file-name system) "Search the bootstrap binary FILE-NAME for SYSTEM. Raise an error if not found." (or (search-path (%bootstrap-binaries-path) (string-append system "/" file-name)) (raise (condition (&message (message (format #f (_ "could not find bootstrap binary '~a' \ for system '~a'") file-name system))))))) (define %distro-root-directory ;; Absolute file name of the module hierarchy. (dirname (search-path %load-path "guix.scm"))) (define %package-module-path ;; Search path for package modules. Each item must be either a directory ;; name or a pair whose car is a directory and whose cdr is a sub-directory ;; to narrow the search. (let* ((not-colon (char-set-complement (char-set #\:))) (environment (string-tokenize (or (getenv "GUIX_PACKAGE_PATH") "") not-colon))) ;; Automatically add items from $GUIX_PACKAGE_PATH to Guile's search path. (for-each (lambda (directory) (set! %load-path (cons directory %load-path)) (set! %load-compiled-path (cons directory %load-compiled-path))) environment) (make-parameter (append environment `((,%distro-root-directory . "gnu/packages")))))) (define %patch-path ;; Define it after '%package-module-path' so that '%load-path' contains user ;; directories, allowing patches in $GUIX_PACKAGE_PATH to be found. (make-parameter (map (lambda (directory) (if (string=? directory %distro-root-directory) (string-append directory "/gnu/packages/patches") directory)) %load-path))) (define* (scheme-files directory) "Return the list of Scheme files found under DIRECTORY, recursively. The returned list is sorted in alphabetical order." ;; Sort entries so that 'fold-packages' works in a deterministic fashion ;; regardless of details of the underlying file system. (sort (file-system-fold (const #t) ; enter? (lambda (path stat result) ; leaf (if (string-suffix? ".scm" path) (cons path result) result)) (lambda (path stat result) ; down result) (lambda (path stat result) ; up result) (const #f) ; skip (lambda (path stat errno result) (warning (_ "cannot access `~a': ~a~%") path (strerror errno)) result) '() directory stat) stringmodule-name (let ((not-slash (char-set-complement (char-set #\/)))) (lambda (file) "Return the module name (a list of symbols) corresponding to FILE." (map string->symbol (string-tokenize (string-drop-right file 4) not-slash))))) (define* (scheme-modules directory #:optional sub-directory) "Return the list of Scheme modules available under DIRECTORY. Optionally, narrow the search to SUB-DIRECTORY." (define prefix-len (string-length directory)) (filter-map (lambda (file) (let* ((file (substring file prefix-len)) (module (file-name->module-name file))) (catch #t (lambda () (resolve-interface module)) (lambda args ;; Report the error, but keep going. (warn-about-load-error module args) #f)))) (scheme-files (if sub-directory (string-append directory "/" sub-directory) directory)))) (define* (all-package-modules #:optional (path (%package-module-path))) "Return the list of package modules found in PATH, a list of directories to search." (fold-right (lambda (spec result) (match spec ((? string? directory) (append (scheme-modules directory) result)) ((directory . sub-directory) (append (scheme-modules directory sub-directory) result)))) '() path)) (define (fold-packages proc init) "Call (PROC PACKAGE RESULT) for each available package, using INIT as the initial value of RESULT. It is guaranteed to never traverse the same package twice." (identity ; discard second return value (fold2 (lambda (module result seen) (fold2 (lambda (var result seen) (if (and (package? var) (not (vhash-assq var seen)) (not (hidden-package? var))) (values (proc var result) (vhash-consq var #t seen)) (values result seen))) result seen (module-map (lambda (sym var) (false-if-exception (variable-ref var))) module))) init vlist-null (all-package-modules)))) (define find-packages-by-name (let ((packages (delay (fold-packages (lambda (p r) (vhash-cons (package-name p) p r)) vlist-null))) (version>? (lambda (p1 p2) (version>? (package-version p1) (package-version p2))))) (lambda* (name #:optional version) "Return the list of packages with the given NAME. If VERSION is not #f, then only return packages whose version is prefixed by VERSION, sorted in decreasing version order." (let ((matching (sort (vhash-fold* cons '() name (force packages)) version>?))) (if version (filter (lambda (package) (string-prefix? version (package-version package))) matching) matching))))) (define find-newest-available-packages (mlambda () "Return a vhash keyed by package names, and with associated values of the form (newest-version newest-package ...) where the preferred package is listed first." ;; FIXME: Currently, the preferred package is whichever one ;; was found last by 'fold-packages'. Find a better solution. (fold-packages (lambda (p r) (let ((name (package-name p)) (version (package-version p))) (match (vhash-assoc name r) ((_ newest-so-far . pkgs) (case (version-compare version newest-so-far) ((>) (vhash-cons name `(,version ,p) r)) ((=) (vhash-cons name `(,version ,p ,@pkgs) r)) ((<) r))) (#f (vhash-cons name `(,version ,p) r))))) vlist-null))) (define (find-best-packages-by-name name version) "If version is #f, return the list of packages named NAME with the highest version numbers; otherwise, return the list of packages named NAME and at VERSION." (if version (find-packages-by-name name version) (match (vhash-assoc name (find-newest-available-packages)) ((_ version pkgs ...) pkgs) (#f '())))) (define %sigint-prompt ;; The prompt to jump to upon SIGINT. (make-prompt-tag "interruptible")) (define (call-with-sigint-handler thunk handler) "Call THUNK and return its value. Upon SIGINT, call HANDLER with the signal number in the context of the continuation of the call to this function, and return its return value." (call-with-prompt %sigint-prompt (lambda () (sigaction SIGINT (lambda (signum) (sigaction SIGINT SIG_DFL) (abort-to-prompt %sigint-prompt signum))) (dynamic-wind (const #t) thunk (cut sigaction SIGINT SIG_DFL))) (lambda (k signum) (handler signum)))) ;;; ;;; Package specification. ;;; (define* (%find-package spec name version #:key fallback?) (match (find-best-packages-by-name name version) ((pkg . pkg*) (unless (null? pkg*) (warning (_ "ambiguous package specification `~a'~%") spec) (warning (_ "choosing ~a@~a from ~a~%") (package-name pkg) (package-version pkg) (location->string (package-location pkg)))) (when fallback? (warning (_ "deprecated NAME-VERSION syntax; \ use NAME@VERSION instead~%"))) (match (package-superseded pkg) ((? package? new) (info (_ "package '~a' has been superseded by '~a'~%") (package-name pkg) (package-name new)) new) (#f pkg))) (x (if version (leave (_ "~A: package not found for version ~a~%") name version) (if (not fallback?) ;; XXX: Fallback to the older specification style with an hyphen ;; between NAME and VERSION, for backward compatibility. (call-with-values (lambda () (hyphen-separated-name->name+version name)) (cut %find-package spec <> <> #:fallback? #t)) ;; The fallback case didn't find anything either, so bail out. (leave (_ "~A: unknown package~%") name)))))) (define (specification->package spec) "Return a package matching SPEC. SPEC may be a package name, or a package name followed by an at-sign and a version number. If the version number is not present, return the preferred newest version." (let-values (((name version) (package-name->name+version spec))) (%find-package spec name version))) (define* (specification->package+output spec #:optional (output "out")) "Return the package and output specified by SPEC, or #f and #f; SPEC may optionally contain a version number and an output name, as in these examples: guile guile@2.0.9 guile:debug guile@2.0.9:debug If SPEC does not specify a version number, return the preferred newest version; if SPEC does not specify an output, return OUTPUT." (let-values (((name version sub-drv) (package-specification->name+version+output spec output))) (match (%find-package spec name version) (#f (values #f #f)) (package (if (member sub-drv (package-outputs package)) (values package sub-drv) (leave (_ "package `~a' lacks output `~a'~%") (package-full-name package) sub-drv)))))) (define (find-package-binding package) "Find the module that exports PACKAGE. Return two values, an interface name and a symbol that can be used to import PACKAGE. Signal an error if no public variable binds PACKAGE." (define (strip-extension file exts) (or (or-map (lambda (ext) (and (string-suffix? ext file) (substring file 0 (- (string-length file) (string-length ext))))) exts) file)) (define (file-name->module-name file) (and (not (absolute-file-name? file)) (map string->symbol (string-split (strip-extension file %load-extensions) #\/)))) ;; Instead of building a table and always doing a search, first just see if ;; we can use the package's location to find its module and look in that ;; module. (define (global-search) (let search ((modules (all-package-modules))) (match modules (() (raise (condition (&message (message (format #f (_ "~a@~a: binding not found") (package-name package) (package-version package))))))) ((mod . modules) (let ((next (lambda () (search modules)))) (local-search (module-name mod) mod next)))))) (define (local-search module-name iface k) (let lp ((bindings (module-map cons iface))) (match bindings (() (k)) (((sym . var) . bindings) (if (eq? (variable-ref var) package) (values module-name sym) (lp bindings)))))) (cond ((package-location package) => (lambda (loc) (cond ((file-name->module-name (location-file loc)) => (lambda (module-name) (cond ((false-if-exception (resolve-interface module-name)) => (lambda (iface) (let ((def (string->symbol (package-name package)))) (cond ((and (module-variable iface def) (eq? (module-ref iface def) package)) (values module-name def)) (else (local-search module-name iface global-search)))))) (else (global-search))))) (else (global-search))))) (else (global-search))))