;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2012-2023 Ludovic Courtès ;;; Copyright © 2018 Jan (janneke) Nieuwenhuizen ;;; Copyright © 2021 Maxim Cournoyer ;;; Copyright © 2021 Maxime Devos ;;; Copyright © 2023 Simon Tournier ;;; ;;; 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 (tests packages) #:use-module (guix tests) #:use-module (guix store) #:use-module (guix monads) #:use-module (guix gexp) #:use-module (guix utils) #:use-module ((guix build utils) #:select (tarball?)) #:use-module ((guix diagnostics) ;; Rename the 'location' binding to allow proper syntax ;; matching when setting the 'location' field of a package. #:renamer (lambda (name) (cond ((eq? name 'location) 'make-location) (else name)))) #:use-module ((gcrypt hash) #:prefix gcrypt:) #:use-module (guix derivations) #:use-module (guix download) #:use-module (guix packages) #:use-module (guix grafts) #:use-module (guix search-paths) #:use-module (guix build-system) #:use-module (guix build-system trivial) #:use-module (guix build-system gnu) #:use-module (guix build-system python) #:use-module (guix memoization) #:use-module (guix profiles) #:use-module (guix scripts package) #:use-module (guix sets) #:use-module (gnu packages) #:use-module (gnu packages base) #:use-module (gnu packages guile) #:use-module (gnu packages bootstrap) #:use-module (gnu packages python) #:use-module (gnu packages version-control) #:use-module (gnu packages xml) #: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-64) #:use-module (srfi srfi-71) #:use-module (rnrs bytevectors) #:use-module (rnrs io ports) #:use-module (ice-9 vlist) #:use-module (ice-9 regex) #:use-module (ice-9 match)) ;; Test the high-level packaging layer. (define %store (open-connection-for-tests)) ;; Globally disable grafting to avoid rebuilding the world ('graft-derivation' ;; can trigger builds early.) (%graft? #f) ;; When grafting, do not add dependency on 'glibc-utf8-locales'. (%graft-with-utf8-locale? #f) (test-begin "packages") (test-assert "printer with location" (string-match "^#$" (with-output-to-string (lambda () (write (dummy-package "foo" (location (make-location "foo.scm" 42 7)))))))) (test-assert "printer without location" (string-match "^#$" (with-output-to-string (lambda () (write (dummy-package "foo" (location #f))))))) (test-equal "license type checking" 'bad-license (guard (c ((package-license-error? c) (package-error-invalid-license c))) (dummy-package "foo" (license 'bad-license)))) (test-assert "hidden-package" (and (hidden-package? (hidden-package (dummy-package "foo"))) (not (hidden-package? (dummy-package "foo"))))) (test-assert "package-superseded" (let* ((new (dummy-package "bar")) (old (deprecated-package "foo" new))) (and (eq? (package-superseded old) new) (mock ((gnu packages) find-best-packages-by-name (const (list old))) (specification->package "foo") (and (eq? new (specification->package "foo")) (eq? new (specification->package+output "foo"))))))) (test-assert "transaction-upgrade-entry, zero upgrades" (let* ((old (dummy-package "foo" (version "1"))) (tx (mock ((gnu packages) find-best-packages-by-name (const '())) (transaction-upgrade-entry #f ;no store access needed (manifest-entry (inherit (package->manifest-entry old)) (item (string-append (%store-prefix) "/" (make-string 32 #\e) "-foo-1"))) (manifest-transaction))))) (manifest-transaction-null? tx))) (test-assert "transaction-upgrade-entry, zero upgrades, equivalent package" (let* ((old (dummy-package "foo" (version "1"))) (drv (package-derivation %store old)) (tx (mock ((gnu packages) find-best-packages-by-name (const (list old))) (transaction-upgrade-entry %store (manifest-entry (inherit (package->manifest-entry old)) (item (derivation->output-path drv))) (manifest-transaction))))) (manifest-transaction-null? tx))) (test-assert "transaction-upgrade-entry, zero upgrades, propagated inputs" ;; Properly detect equivalent packages even when they have propagated ;; inputs. See . (let* ((dep (dummy-package "dep" (version "2"))) (old (dummy-package "foo" (version "1") (propagated-inputs (list dep)))) (drv (package-derivation %store old)) (tx (mock ((gnu packages) find-best-packages-by-name (const (list old))) (transaction-upgrade-entry %store (manifest-entry (inherit (package->manifest-entry old)) (item (derivation->output-path drv)) (dependencies (list (manifest-entry (inherit (package->manifest-entry dep)) (item (derivation->output-path (package-derivation %store dep))))))) (manifest-transaction))))) (manifest-transaction-null? tx))) (test-assert "transaction-upgrade-entry, one upgrade" (let* ((old (dummy-package "foo" (version "1"))) (new (dummy-package "foo" (version "2"))) (tx (mock ((gnu packages) find-best-packages-by-name (const (list new))) (transaction-upgrade-entry #f ;no store access needed (manifest-entry (inherit (package->manifest-entry old)) (item (string-append (%store-prefix) "/" (make-string 32 #\e) "-foo-1"))) (manifest-transaction))))) (and (match (manifest-transaction-install tx) ((($ "foo" "2" "out" item)) (eq? item new))) (null? (manifest-transaction-remove tx))))) (test-assert "transaction-upgrade-entry, superseded package" (let* ((old (dummy-package "foo" (version "1"))) (new (dummy-package "bar" (version "2"))) (dep (deprecated-package "foo" new)) (tx (mock ((gnu packages) find-best-packages-by-name (const (list dep))) (transaction-upgrade-entry #f ;no store access needed (manifest-entry (inherit (package->manifest-entry old)) (item (string-append (%store-prefix) "/" (make-string 32 #\e) "-foo-1"))) (manifest-transaction))))) (and (match (manifest-transaction-install tx) ((($ "bar" "2" "out" item)) (eq? item new))) (match (manifest-transaction-remove tx) (((? manifest-pattern? pattern)) (and (string=? (manifest-pattern-name pattern) "foo") (string=? (manifest-pattern-version pattern) "1") (string=? (manifest-pattern-output pattern) "out"))))))) (test-equal "transaction-upgrade-entry, transformation options preserved" (derivation-file-name (package-derivation %store grep)) (let* ((old (dummy-package "emacs" (version "1"))) (props '((transformations . ((with-input . "emacs=grep"))))) (tx (transaction-upgrade-entry %store (manifest-entry (inherit (package->manifest-entry old)) (properties props) (item (string-append (%store-prefix) "/" (make-string 32 #\e) "-foo-1"))) (manifest-transaction)))) (match (manifest-transaction-install tx) (((? manifest-entry? entry)) (and (string=? (manifest-entry-version entry) (package-version grep)) (string=? (manifest-entry-name entry) (package-name grep)) (equal? (manifest-entry-properties entry) props) (derivation-file-name (package-derivation %store (manifest-entry-item entry)))))))) (test-assert "transaction-upgrade-entry, grafts" ;; Ensure that, when grafts are enabled, 'transaction-upgrade-entry' doesn't ;; try to build stuff. (with-build-handler (const 'failed!) (parameterize ((%graft? #t)) (let* ((old (dummy-package "foo" (version "1"))) (bar (dummy-package "bar" (version "0") (replacement old))) (new (dummy-package "foo" (version "1") (inputs (list bar)))) (tx (mock ((gnu packages) find-best-packages-by-name (const (list new))) (transaction-upgrade-entry %store (manifest-entry (inherit (package->manifest-entry old)) (item (string-append (%store-prefix) "/" (make-string 32 #\e) "-foo-1"))) (manifest-transaction))))) (and (match (manifest-transaction-install tx) ((($ "foo" "1" "out" item)) (eq? item new))) (null? (manifest-transaction-remove tx))))))) (test-assert "package-definition-location" (let ((location (package-location hello)) (definition (package-definition-location hello))) ;; Check for the usual layout of (define-public hello (package ...)). (and (string=? (location-file location) (location-file definition)) (= 0 (location-column definition)) (= 2 (location-column location)) (= (location-line definition) (- (location-line location) 1))))) (test-assert "package-field-location" (let () (define (goto port line column) (unless (and (= (port-column port) (- column 1)) (= (port-line port) (- line 1))) (unless (eof-object? (get-char port)) (goto port line column)))) (define read-at (match-lambda (($ file line column) (call-with-input-file (search-path %load-path file) (lambda (port) (goto port line column) (read port)))))) ;; Until Guile 2.0.6 included, source properties were added only to pairs. ;; Thus, check against both VALUE and (FIELD VALUE). (and (member (read-at (package-field-location %bootstrap-guile 'name)) (let ((name (package-name %bootstrap-guile))) (list name `(name ,name)))) (member (read-at (package-field-location %bootstrap-guile 'version)) (let ((version (package-version %bootstrap-guile))) (list version `(version ,version)))) (not (package-field-location %bootstrap-guile 'does-not-exist))))) ;; Make sure we don't change the file name to an absolute file name. (test-equal "package-field-location, relative file name" (location-file (package-location %bootstrap-guile)) (with-fluids ((%file-port-name-canonicalization 'absolute)) (location-file (package-field-location %bootstrap-guile 'version)))) (test-assert "package-transitive-inputs" (let* ((a (dummy-package "a")) (b (dummy-package "b" (propagated-inputs (list a)))) (c (dummy-package "c" (inputs (list a)))) (d (dummy-package "d" (propagated-inputs `(("x" "something.drv"))))) (e (dummy-package "e" (inputs (list b c d))))) (and (null? (package-transitive-inputs a)) (equal? `(("a" ,a)) (package-transitive-inputs b)) (equal? `(("a" ,a)) (package-transitive-inputs c)) (equal? (package-propagated-inputs d) (package-transitive-inputs d)) (equal? `(("b" ,b) ("c" ,c) ("d" ,d) ("a" ,a) ("x" "something.drv")) (pk 'x (package-transitive-inputs e)))))) (test-assert "package-transitive-inputs, no duplicates" (let* ((a (dummy-package "a")) (b (dummy-package "b" (inputs `(("a+" ,a))) (native-inputs `(("a*" ,a))) (propagated-inputs `(("a" ,a))))) (c (dummy-package "c" (propagated-inputs `(("b" ,b))))) (d (dummy-package "d" (inputs `(("a" ,a) ("c" ,c))))) (e (dummy-package "e" (inputs `(("b" ,b) ("c" ,c)))))) (and (null? (package-transitive-inputs a)) (equal? `(("a*" ,a) ("a+" ,a) ("a" ,a)) ;here duplicates are kept (package-transitive-inputs b)) (equal? `(("b" ,b) ("a" ,a)) (package-transitive-inputs c)) (equal? `(("a" ,a) ("c" ,c) ("b" ,b)) ;duplicate A removed (package-transitive-inputs d)) (equal? `(("b" ,b) ("c" ,c) ("a" ,a)) (package-transitive-inputs e))))) ;ditto (test-equal "package-transitive-supported-systems" '(("x" "y" "z") ;a ("x" "y") ;b ("y") ;c ("y") ;d ("y")) ;e ;; Use TRIVIAL-BUILD-SYSTEM because it doesn't add implicit inputs and thus ;; doesn't restrict the set of supported systems. (let* ((a (dummy-package "a" (build-system trivial-build-system) (supported-systems '("x" "y" "z")))) (b (dummy-package "b" (build-system trivial-build-system) (supported-systems '("x" "y")) (inputs (list a)))) (c (dummy-package "c" (build-system trivial-build-system) (supported-systems '("y" "z")) (inputs (list b)))) (d (dummy-package "d" (build-system trivial-build-system) (supported-systems '("x" "y" "z")) (inputs (list b c)))) (e (dummy-package "e" (build-system trivial-build-system) (supported-systems '("x" "y" "z")) (inputs (list d))))) (list (package-transitive-supported-systems a) (package-transitive-supported-systems b) (package-transitive-supported-systems c) (package-transitive-supported-systems d) (package-transitive-supported-systems e)))) (test-equal "package-transitive-supported-systems detects cycles" '("c" "a" "b" "c") (letrec* ((a (dummy-package "a" (build-system trivial-build-system) (native-inputs (list c)))) (b (dummy-package "b" (build-system trivial-build-system) (inputs (list a)))) (c (dummy-package "c" (build-system trivial-build-system) (inputs (list b))))) (guard (c ((package-cyclic-dependency-error? c) (map package-name (cons (package-error-package c) (package-error-dependency-cycle c))))) (package-transitive-supported-systems c)))) (test-assert "package-development-inputs" ;; Note: Due to propagated inputs, 'package-development-inputs' returns a ;; couple more inputs, such as 'linux-libre-headers'. (lset<= equal? `(("source" ,(package-source hello)) ,@(standard-packages)) (package-development-inputs hello))) (test-assert "package-development-inputs, cross-compilation" (lset<= equal? `(("source" ,(package-source hello)) ,@(standard-cross-packages "mips64el-linux-gnu" 'host) ,@(standard-cross-packages "mips64el-linux-gnu" 'target)) (package-development-inputs hello #:target "mips64el-linux-gnu"))) (test-assert "package-closure" (let-syntax ((dummy-package/no-implicit (syntax-rules () ((_ name rest ...) (package (inherit (dummy-package name rest ...)) (build-system trivial-build-system)))))) (let* ((a (dummy-package/no-implicit "a")) (b (dummy-package/no-implicit "b" (propagated-inputs (list a)))) (c (dummy-package/no-implicit "c" (inputs (list a)))) (d (dummy-package/no-implicit "d" (native-inputs (list b)))) (e (dummy-package/no-implicit "e" (inputs (list c d))))) (lset= eq? (list a b c d e) (package-closure (list e)) (package-closure (list e d)) (package-closure (list e c b)))))) (test-equal "origin-actual-file-name" "foo-1.tar.gz" (let ((o (dummy-origin (uri "http://www.example.com/foo-1.tar.gz")))) (origin-actual-file-name o))) (test-equal "origin-actual-file-name, file-name" "foo-1.tar.gz" (let ((o (dummy-origin (uri "http://www.example.com/tarball") (file-name "foo-1.tar.gz")))) (origin-actual-file-name o))) (let* ((o (dummy-origin)) (u (dummy-origin)) (i (dummy-origin)) (j (dummy-origin (patches (list o)))) (a (dummy-package "a")) (b (dummy-package "b" (inputs (list a i)))) (c (package (inherit b) (source o))) (d (dummy-package "d" (build-system trivial-build-system) (source u) (inputs (list c)))) (e (dummy-package "e" (source j))) (f (package (inherit e) (inputs (list u))))) (test-assert "package-direct-sources, no source" (null? (package-direct-sources a))) (test-equal "package-direct-sources, #f source" (list i) (package-direct-sources b)) (test-equal "package-direct-sources, not input source" (list u) (package-direct-sources d)) (test-assert "package-direct-sources" (let ((s (package-direct-sources c))) (and (= (length (pk 's-sources s)) 2) (member o s) (member i s)))) (test-assert "package-direct-sources, with patches" (let ((s (package-direct-sources e))) (and (= (length (pk 's-sources s)) 2) (member o s) (member j s)))) (test-assert "package-direct-sources, with patches and inputs" (let ((s (package-direct-sources f))) (and (= (length (pk 's-sources s)) 3) (member o s) (member j s) (member u s)))) (test-assert "package-transitive-sources" (let ((s (package-transitive-sources d))) (and (= (length (pk 'd-sources s)) 3) (member o s) (member i s) (member u s))))) (test-assert "transitive-input-references" (let* ((a (dummy-package "a")) (b (dummy-package "b")) (c (dummy-package "c" (inputs `(("a" ,a))) (propagated-inputs `(("boo" ,b))))) (d (dummy-package "d" (inputs `(("c*" ,c))))) (keys (map (match-lambda (('assoc-ref 'l key) key)) (pk 'refs (transitive-input-references 'l (package-inputs d)))))) (and (= (length keys) 2) (member "c*" keys) (member "boo" keys)))) (test-equal "package-transitive-supported-systems, implicit inputs" (filter target-linux? %supported-systems) ;; Here GNU-BUILD-SYSTEM adds implicit inputs that build only on ;; %SUPPORTED-SYSTEMS. Thus the others must be ignored. (let ((p (dummy-package "foo" (build-system gnu-build-system) (supported-systems `("does-not-exist" "foobar" ,@%supported-systems))))) (parameterize ((%current-system "armhf-linux")) ; a traditionally-bootstrapped architecture (package-transitive-supported-systems p)))) (test-equal "package-transitive-supported-systems: reduced binary seed, implicit inputs" '("x86_64-linux" "i686-linux") ;; Here GNU-BUILD-SYSTEM adds implicit inputs that build only on ;; %SUPPORTED-SYSTEMS. Thus the others must be ignored. (let ((p (dummy-package "foo" (build-system gnu-build-system) (supported-systems `("does-not-exist" "foobar" ,@%supported-systems))))) (parameterize ((%current-system "x86_64-linux")) (package-transitive-supported-systems p)))) (test-assert "supported-package?" (let* ((d (dummy-package "dep" (build-system trivial-build-system) (supported-systems '("x86_64-linux")))) (p (dummy-package "foo" (build-system gnu-build-system) (inputs (list d)) (supported-systems '("x86_64-linux" "armhf-linux"))))) (and (supported-package? p "x86_64-linux") (not (supported-package? p "i686-linux")) (not (supported-package? p "armhf-linux"))))) (test-assert "supported-package? vs. system-dependent graph" ;; The inputs of a package can depend on (%current-system). Thus, ;; 'supported-package?' must make sure that it binds (%current-system) ;; appropriately before traversing the dependency graph. In the example ;; below, 'supported-package?' must thus return true for both systems. (let* ((p0a (dummy-package "foo-arm" (build-system trivial-build-system) (supported-systems '("armhf-linux")))) (p0b (dummy-package "foo-x86_64" (build-system trivial-build-system) (supported-systems '("x86_64-linux")))) (p (dummy-package "bar" (build-system trivial-build-system) (inputs (if (string=? (%current-system) "armhf-linux") `(("foo" ,p0a)) `(("foo" ,p0b))))))) (and (supported-package? p "x86_64-linux") (supported-package? p "armhf-linux")))) (test-assert "supported-package? vs. %current-target-system" ;; The %CURRENT-TARGET-SYSTEM value should have no influence. (parameterize ((%current-target-system "arm-linux-gnueabihf")) (let ((p (dummy-package "foo" (build-system gnu-build-system) (supported-systems '("x86_64-linux" "armhf-linux"))))) (and (supported-package? p "x86_64-linux") (not (supported-package? p "i686-linux")) (supported-package? p "armhf-linux"))))) (test-skip (if (not %store) 8 0)) (test-assert "package-source-derivation, file" (let* ((file (search-path %load-path "guix.scm")) (package (package (inherit (dummy-package "p")) (source file))) (source (package-source-derivation %store (package-source package)))) (and (store-path? source) (valid-path? %store source) (equal? (call-with-input-file source get-bytevector-all) (call-with-input-file file get-bytevector-all))))) (test-assert "package-source-derivation, store path" (let* ((file (add-to-store %store "guix.scm" #t "sha256" (search-path %load-path "guix.scm"))) (package (package (inherit (dummy-package "p")) (source file))) (source (package-source-derivation %store (package-source package)))) (string=? file source))) (test-assert "package-source-derivation, indirect store path" (let* ((dir (add-to-store %store "guix-build" #t "sha256" (dirname (search-path %load-path "guix/build/utils.scm")))) (package (package (inherit (dummy-package "p")) (source (string-append dir "/utils.scm")))) (source (package-source-derivation %store (package-source package)))) (and (direct-store-path? source) (string-suffix? "utils.scm" source)))) (test-assert "package-source-derivation, local-file" (let* ((file (local-file "../guix/base32.scm")) (package (package (inherit (dummy-package "p")) (source file))) (source (package-source-derivation %store (package-source package)))) (and (store-path? source) (string-suffix? "base32.scm" source) (valid-path? %store source) (equal? (call-with-input-file source get-bytevector-all) (call-with-input-file (search-path %load-path "guix/base32.scm") get-bytevector-all))))) (test-equal "package-source-derivation, origin, sha512" "hello" (let* ((bash (search-bootstrap-binary "bash" (%current-system))) (builder (add-text-to-store %store "my-fixed-builder.sh" "echo -n hello > $out" '())) (method (lambda* (url hash-algo hash #:optional name #:rest rest) (and (eq? hash-algo 'sha512) (raw-derivation name bash (list builder) #:sources (list builder) #:hash hash #:hash-algo hash-algo)))) (source (origin (method method) (uri "unused://") (file-name "origin-sha512") (hash (content-hash (gcrypt:bytevector-hash (string->utf8 "hello") (gcrypt:lookup-hash-algorithm 'sha512)) sha512)))) (drv (package-source-derivation %store source)) (output (derivation->output-path drv))) (build-derivations %store (list drv)) (call-with-input-file output get-string-all))) (test-equal "package-source-derivation, origin, sha3-512" "hello, sha3" (let* ((bash (search-bootstrap-binary "bash" (%current-system))) (builder (add-text-to-store %store "my-fixed-builder.sh" "echo -n hello, sha3 > $out" '())) (method (lambda* (url hash-algo hash #:optional name #:rest rest) (and (eq? hash-algo 'sha3-512) (raw-derivation name bash (list builder) #:sources (list builder) #:hash hash #:hash-algo hash-algo)))) (source (origin (method method) (uri "unused://") (file-name "origin-sha3") (hash (content-hash (gcrypt:bytevector-hash (string->utf8 "hello, sha3") (gcrypt:lookup-hash-algorithm 'sha3-512)) sha3-512)))) (drv (package-source-derivation %store source)) (output (derivation->output-path drv))) (build-derivations %store (list drv)) (call-with-input-file output get-string-all))) (test-equal "package-upstream-name*" (package-upstream-name* (specification->package "guile-gcrypt")) "gcrypt") ;;; ;;; Source derivation with snippets. ;;; (unless (network-reachable?) (test-skip 1)) (test-equal "package-source-derivation, snippet" "OK" (let* ((source (bootstrap-origin (origin (inherit (bootstrap-guile-origin (%current-system))) (patch-inputs `(("tar" ,%bootstrap-coreutils&co) ("xz" ,%bootstrap-coreutils&co) ("patch" ,%bootstrap-coreutils&co))) (patch-guile %bootstrap-guile) (modules '((guix build utils))) (snippet '(begin ;; We end up in 'bin', because it's the first ;; directory, alphabetically. Not a very good ;; example but hey. (chmod "." #o777) (symlink "guile" "guile-rocks") (copy-recursively "../share/guile/2.0/scripts" "scripts") ;; Make sure '.file_list' can be created. (chmod ".." #o777)))))) (package (package (inherit (dummy-package "with-snippet")) (source source) (build-system trivial-build-system) (inputs `(("tar" ,(search-bootstrap-binary "tar" (%current-system))) ("xz" ,(search-bootstrap-binary "xz" (%current-system))))) (arguments `(#:guile ,%bootstrap-guile #:modules ((guix build utils)) #:builder (begin (use-modules (guix build utils)) (let ((tar (assoc-ref %build-inputs "tar")) (xz (assoc-ref %build-inputs "xz")) (source (assoc-ref %build-inputs "source"))) (invoke tar "xvf" source "--use-compress-program" xz) (unless (and (string=? "guile" (readlink "bin/guile-rocks")) (file-exists? "bin/scripts/compile.scm")) (error "the snippet apparently failed")) (let ((out (assoc-ref %outputs "out"))) (call-with-output-file out (lambda (p) (display "OK" p)))) #t)))))) (drv (package-derivation %store package)) (out (derivation->output-path drv))) (and (build-derivations %store (list (pk 'snippet-drv drv))) (call-with-input-file out get-string-all)))) ;; Note: lzip is not part of bootstrap-coreutils&co, so is not included to ;; avoid having to rebuild the world. (define compressors '(("gzip" . "gz") ("xz" . "xz") ("bzip2" . "bz2") (#f . #f))) (for-each (match-lambda ((comp . ext) (unless (network-reachable?) (test-skip 1)) (test-equal (string-append "origin->derivation, single file with snippet " "(compression: " (if comp comp "None") ")") "2 + 2 = 4" (let*-values (((name) "maths") ((compressed-name) (if comp (string-append name "." ext) name)) ((file hash) (test-file %store compressed-name "2 + 2 = 5")) ;; Create an origin using the above computed file and its hash. ((source) (origin (method url-fetch) (uri (string-append "file://" file)) (file-name compressed-name) (patch-inputs `(("tar" ,%bootstrap-coreutils&co) ("xz" ,%bootstrap-coreutils&co) ("bzip2" ,%bootstrap-coreutils&co) ("gzip" ,%bootstrap-coreutils&co))) (patch-guile %bootstrap-guile) (modules '((guix build utils))) (snippet `(substitute* ,name (("5") "4"))) (hash (content-hash hash)))) ;; Build origin. ((drv) (run-with-store %store (origin->derivation source))) ((out) (derivation->output-path drv))) ;; Decompress the resulting tar.xz and return its content. (and (build-derivations %store (list drv)) (if (tarball? out) (let* ((bin #~(string-append #+%bootstrap-coreutils&co "/bin")) (f (computed-file name (with-imported-modules '((guix build utils)) #~(begin (use-modules (guix build utils)) (setenv "PATH" #+bin) (invoke "tar" "xvf" #+out) (copy-file #+name #$output))) #:guile %bootstrap-guile)) (drv (run-with-store %store (lower-object f))) (_ (build-derivations %store (list drv)))) (call-with-input-file (derivation->output-path drv) get-string-all)) (call-with-input-file out get-string-all))))))) compressors) (test-assert "return value" (let ((drv (package-derivation %store (dummy-package "p")))) (and (derivation? drv) (file-exists? (derivation-file-name drv))))) (test-assert "package-derivation, inputs deduplicated" (let* ((dep (dummy-package "dep")) (p0 (dummy-package "p" (inputs (list dep)))) (p1 (package (inherit p0) (inputs `(("dep" ,(package (inherit dep))) ,@(package-inputs p0)))))) ;; Here P1 ends up with two non-eq? copies of DEP, under the same label. ;; They should be deduplicated so that P0 and P1 lead to the same ;; derivation rather than P1 ending up with duplicate entries in its ;; '%build-inputs' variable. (string=? (derivation-file-name (package-derivation %store p0)) (derivation-file-name (package-derivation %store p1))))) (test-assert "package-derivation, different system" ;; Make sure the 'system' argument of 'package-derivation' is respected. (let* ((system (if (string=? (%current-system) "x86_64-linux") "aarch64-linux" "x86_64-linux")) (drv (package-derivation %store (dummy-package "p") system #:graft? #f))) (define right-system? (mlambdaq (drv) (and (string=? (derivation-system drv) system) (every (compose right-system? derivation-input-derivation) (derivation-inputs drv))))) (right-system? drv))) (test-assert "package-output" (let* ((package (dummy-package "p")) (drv (package-derivation %store package))) (and (derivation? drv) (string=? (derivation->output-path drv) (package-output %store package "out"))))) (test-equal "patch not found yields a run-time error" '("~a: patch not found\n" "does-not-exist.patch") (guard (c ((formatted-message? c) (cons (formatted-message-string c) (formatted-message-arguments c)))) (let ((p (package (inherit (dummy-package "p")) (source (origin (method (const #f)) (uri "http://whatever") (patches (list (search-patch "does-not-exist.patch"))) (sha256 (base32 "0amn0bbwqvsvvsh6drfwz20ydc2czk374lzw5kksbh6bf78k4ks4"))))))) (package-derivation %store p) #f))) (let ((dummy (dummy-package "foo" (inputs `(("x" ,(current-module))))))) (test-equal "&package-input-error" (list dummy `("x" ,(current-module))) (guard (c ((package-input-error? c) (list (package-error-package c) (package-error-invalid-input c)))) (package-derivation %store dummy)))) (test-assert "reference to non-existent output" ;; See . (parameterize ((%graft? #f)) (let* ((dep (dummy-package "dep")) (p (dummy-package "p" (inputs (list `(,dep "non-existent")))))) (guard (c ((derivation-missing-output-error? c) (and (string=? (derivation-missing-output c) "non-existent") (equal? (package-derivation %store dep) (derivation-error-derivation c))))) (package-derivation %store p))))) (test-assert "trivial" (let* ((p (package (inherit (dummy-package "trivial")) (build-system trivial-build-system) (source #f) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (mkdir %output) (call-with-output-file (string-append %output "/test") (lambda (p) (display '(hello guix) p))) #t))))) (d (package-derivation %store p))) (and (build-derivations %store (list d)) (let ((p (pk 'drv d (derivation->output-path d)))) (equal? '(hello guix) (call-with-input-file (string-append p "/test") read)))))) (test-assert "trivial with local file as input" (let* ((i (search-path %load-path "ice-9/boot-9.scm")) (p (package (inherit (dummy-package "trivial-with-input-file")) (build-system trivial-build-system) (source #f) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (copy-file (assoc-ref %build-inputs "input") %output) #t))) (inputs `(("input" ,i))))) (d (package-derivation %store p))) (and (build-derivations %store (list d)) (let ((p (pk 'drv d (derivation->output-path d)))) (equal? (call-with-input-file p get-bytevector-all) (call-with-input-file i get-bytevector-all)))))) (test-assert "trivial with source" (let* ((i (search-path %load-path "ice-9/boot-9.scm")) (p (package (inherit (dummy-package "trivial-with-source")) (build-system trivial-build-system) (source i) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (copy-file (assoc-ref %build-inputs "source") %output) #t))))) (d (package-derivation %store p))) (and (build-derivations %store (list d)) (let ((p (derivation->output-path d))) (equal? (call-with-input-file p get-bytevector-all) (call-with-input-file i get-bytevector-all)))))) (test-assert "trivial with system-dependent input" (let* ((p (package (inherit (dummy-package "trivial-system-dependent-input")) (build-system trivial-build-system) (source #f) (arguments `(#:guile ,%bootstrap-guile #:modules ((guix build utils)) #:builder (begin (use-modules (guix build utils)) (let ((out (assoc-ref %outputs "out")) (bash (assoc-ref %build-inputs "bash"))) (invoke bash "-c" (format #f "echo hello > ~a" out)))))) (inputs `(("bash" ,(search-bootstrap-binary "bash" (%current-system))))))) (d (package-derivation %store p))) (and (build-derivations %store (list d)) (let ((p (pk 'drv d (derivation->output-path d)))) (eq? 'hello (call-with-input-file p read)))))) (test-assert "trivial with #:allowed-references" (let* ((p (package (inherit (dummy-package "trivial")) (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:allowed-references (,%bootstrap-guile) #:builder (begin (mkdir %output) ;; The reference to itself isn't allowed so building it ;; should fail. (symlink %output (string-append %output "/self")) #t))))) (d (package-derivation %store p))) (guard (c ((store-protocol-error? c) #t)) (build-derivations %store (list d)) #f))) (test-assert "trivial with #:allowed-references + grafts" (let* ((g (package (inherit %bootstrap-guile) (replacement (package (inherit %bootstrap-guile) (version "9.9"))))) (p (package (inherit (dummy-package "trivial")) (build-system trivial-build-system) (inputs (list g)) (arguments `(#:guile ,g #:allowed-references (,g) #:builder (mkdir %output))))) (d0 (package-derivation %store p #:graft? #f)) (d1 (parameterize ((%graft? #t)) (package-derivation %store p #:graft? #t)))) ;; D1 should be equal to D2 because there's nothing to graft. In ;; particular, its #:disallowed-references should be lowered in the same ;; way (ungrafted) whether or not #:graft? is true. (string=? (derivation-file-name d1) (derivation-file-name d0)))) (test-assert "search paths" (let* ((p (make-prompt-tag "return-search-paths")) (t (make-parameter "guile-0")) (s (build-system (name 'raw) (description "Raw build system with direct store access") (lower (lambda* (name #:key source inputs system target #:allow-other-keys) (bag (name name) (system system) (target target) (build-inputs inputs) (build (lambda* (name inputs #:key outputs system search-paths) (if (string=? name (t)) (abort-to-prompt p search-paths) (gexp->derivation name #~(mkdir #$output)))))))))) (x (list (search-path-specification (variable "GUILE_LOAD_PATH") (files '("share/guile/site/2.0"))) (search-path-specification (variable "GUILE_LOAD_COMPILED_PATH") (files '("share/guile/site/2.0"))))) (a (package (inherit (dummy-package "guile")) (build-system s) (native-search-paths x))) (b (package (inherit (dummy-package "guile-foo")) (build-system s) (inputs `(("guile" ,a))))) (c (package (inherit (dummy-package "guile-bar")) (build-system s) (inputs `(("guile" ,a) ("guile-foo" ,b)))))) (let-syntax ((collect (syntax-rules () ((_ body ...) (call-with-prompt p (lambda () body ...) (lambda (k search-paths) search-paths)))))) (and (null? (collect (package-derivation %store a))) (parameterize ((t "guile-foo-0")) (equal? x (collect (package-derivation %store b)))) (parameterize ((t "guile-bar-0")) (equal? x (collect (package-derivation %store c)))))))) (test-assert "package-transitive-native-search-paths" (let* ((sp (lambda (name) (list (search-path-specification (variable name) (files '("foo/bar")))))) (p0 (dummy-package "p0" (native-search-paths (sp "PATH0")))) (p1 (dummy-package "p1" (native-search-paths (sp "PATH1")))) (p2 (dummy-package "p2" (native-search-paths (sp "PATH2")) (inputs (list p0)) (propagated-inputs (list p1)))) (p3 (dummy-package "p3" (native-search-paths (sp "PATH3")) (native-inputs (list p0)) (propagated-inputs (list p2))))) (lset= string=? '("PATH1" "PATH2" "PATH3") (map search-path-specification-variable (package-transitive-native-search-paths p3))))) (test-assert "package-cross-derivation" (let ((drv (package-cross-derivation %store (dummy-package "p") "mips64el-linux-gnu"))) (and (derivation? drv) (file-exists? (derivation-file-name drv))))) (test-assert "package-cross-derivation, trivial-build-system" (let ((p (package (inherit (dummy-package "p")) (build-system trivial-build-system) (arguments '(#:builder (exit 1)))))) (let ((drv (package-cross-derivation %store p "mips64el-linux-gnu"))) (derivation? drv)))) (test-assert "package-cross-derivation, no cross builder" (let* ((b (build-system (inherit trivial-build-system) (lower (const #f)))) (p (package (inherit (dummy-package "p")) (build-system b)))) (guard (c ((package-cross-build-system-error? c) (eq? (package-error-package c) p))) (package-cross-derivation %store p "mips64el-linux-gnu") #f))) ;; XXX: The next two tests can trigger builds when the distro defines ;; replacements on core packages, so they're disable for lack of a better ;; solution. ;; (test-equal "package-derivation, direct graft" ;; (package-derivation %store gnu-make #:graft? #f) ;; (let ((p (package (inherit coreutils) ;; (replacement gnu-make)))) ;; (package-derivation %store p #:graft? #t))) ;; (test-equal "package-cross-derivation, direct graft" ;; (package-cross-derivation %store gnu-make "mips64el-linux-gnu" ;; #:graft? #f) ;; (let ((p (package (inherit coreutils) ;; (replacement gnu-make)))) ;; (package-cross-derivation %store p "mips64el-linux-gnu" ;; #:graft? #t))) (test-assert "package-grafts, indirect grafts" (let* ((new (dummy-package "dep" (arguments '(#:implicit-inputs? #f)))) (dep (package (inherit new) (version "0.0"))) (dep* (package (inherit dep) (replacement new))) (dummy (dummy-package "dummy" (arguments '(#:implicit-inputs? #f)) (inputs (list dep*))))) (equal? (package-grafts %store dummy) (list (graft (origin (package-derivation %store dep)) (replacement (package-derivation %store new))))))) ;; XXX: This test would require building the cross toolchain just to see if it ;; needs grafting, which is obviously too expensive, and thus disabled. ;; ;; (test-assert "package-grafts, indirect grafts, cross" ;; (let* ((new (dummy-package "dep" ;; (arguments '(#:implicit-inputs? #f)))) ;; (dep (package (inherit new) (version "0.0"))) ;; (dep* (package (inherit dep) (replacement new))) ;; (dummy (dummy-package "dummy" ;; (arguments '(#:implicit-inputs? #f)) ;; (inputs `(("dep" ,dep*))))) ;; (target "mips64el-linux-gnu")) ;; ;; XXX: There might be additional grafts, for instance if the distro ;; ;; defines replacements for core packages like Perl. ;; (member (graft ;; (origin (package-cross-derivation %store dep target)) ;; (replacement ;; (package-cross-derivation %store new target))) ;; (package-grafts %store dummy #:target target)))) (test-assert "package-grafts, indirect grafts, propagated inputs" (let* ((new (dummy-package "dep" (arguments '(#:implicit-inputs? #f)))) (dep (package (inherit new) (version "0.0"))) (dep* (package (inherit dep) (replacement new))) (prop (dummy-package "propagated" (propagated-inputs (list dep*)) (arguments '(#:implicit-inputs? #f)))) (dummy (dummy-package "dummy" (arguments '(#:implicit-inputs? #f)) (inputs (list prop))))) (equal? (package-grafts %store dummy) (list (graft (origin (package-derivation %store dep)) (replacement (package-derivation %store new))))))) (test-assert "package-grafts, same replacement twice" (let* ((new (dummy-package "dep" (version "1") (arguments '(#:implicit-inputs? #f)))) (dep (package (inherit new) (version "0") (replacement new))) (p1 (dummy-package "intermediate1" (arguments '(#:implicit-inputs? #f)) (inputs (list dep)))) (p2 (dummy-package "intermediate2" (arguments '(#:implicit-inputs? #f)) ;; Here we copy DEP to have an equivalent package that is not ;; 'eq?' to DEP. This is similar to what happens with ;; 'package-with-explicit-inputs' & co. (inputs (list (package (inherit dep)))))) (p3 (dummy-package "final" (arguments '(#:implicit-inputs? #f)) (inputs (list p1 p2))))) (equal? (package-grafts %store p3) (list (graft (origin (package-derivation %store (package (inherit dep) (replacement #f)))) (replacement (package-derivation %store new))))))) (test-assert "package-grafts, dependency on several outputs" ;; Make sure we get one graft per output; see . (letrec* ((p0 (dummy-package "p0" (version "1.0") (replacement p0*) (arguments '(#:implicit-inputs? #f)) (outputs '("out" "lib")))) (p0* (package (inherit p0) (version "1.1"))) (p1 (dummy-package "p1" (arguments '(#:implicit-inputs? #f)) (inputs (list p0 `(,p0 "lib")))))) (lset= equal? (pk (package-grafts %store p1)) (list (graft (origin (package-derivation %store p0)) (origin-output "out") (replacement (package-derivation %store p0*)) (replacement-output "out")) (graft (origin (package-derivation %store p0)) (origin-output "lib") (replacement (package-derivation %store p0*)) (replacement-output "lib")))))) (test-assert "replacement also grafted" ;; We build a DAG as below, where dotted arrows represent replacements and ;; solid arrows represent dependencies: ;; ;; P1 ·············> P1R ;; |\__________________. ;; v v ;; P2 ·············> P2R ;; | ;; v ;; P3 ;; ;; We want to make sure that: ;; grafts(P3) = (P1,P1R) + (P2, grafted(P2R, (P1,P1R))) ;; where: ;; (A,B) is a graft to replace A by B ;; grafted(DRV,G) denoted DRV with graft G applied (let* ((p1r (dummy-package "P1" (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:builder (let ((out (assoc-ref %outputs "out"))) (mkdir out) (call-with-output-file (string-append out "/replacement") (const #t))))))) (p1 (package (inherit p1r) (name "p1") (replacement p1r) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (mkdir (assoc-ref %outputs "out")) #t))))) (p2r (dummy-package "P2" (build-system trivial-build-system) (inputs (list p1)) (arguments `(#:guile ,%bootstrap-guile #:builder (let ((out (assoc-ref %outputs "out"))) (mkdir out) (chdir out) (symlink (assoc-ref %build-inputs "p1") "p1") (call-with-output-file (string-append out "/replacement") (const #t))))))) (p2 (package (inherit p2r) (name "p2") (replacement p2r) (arguments `(#:guile ,%bootstrap-guile #:builder (let ((out (assoc-ref %outputs "out"))) (mkdir out) (chdir out) (symlink (assoc-ref %build-inputs "p1") "p1") #t))))) (p3 (dummy-package "p3" (build-system trivial-build-system) (inputs (list p2)) (arguments `(#:guile ,%bootstrap-guile #:builder (let ((out (assoc-ref %outputs "out"))) (mkdir out) (chdir out) (symlink (assoc-ref %build-inputs "p2") "p2") #t)))))) (lset= equal? (package-grafts %store p3) (list (graft (origin (package-derivation %store p1 #:graft? #f)) (replacement (package-derivation %store p1r))) (graft (origin (package-derivation %store p2 #:graft? #f)) (replacement (package-derivation %store p2r #:graft? #t))))))) ;;; XXX: Nowadays 'graft-derivation' needs to build derivations beforehand to ;;; find out about their run-time dependencies, so this test is no longer ;;; applicable since it would trigger a full rebuild. ;; ;; (test-assert "package-derivation, indirect grafts" ;; (let* ((new (dummy-package "dep" ;; (arguments '(#:implicit-inputs? #f)))) ;; (dep (package (inherit new) (version "0.0"))) ;; (dep* (package (inherit dep) (replacement new))) ;; (dummy (dummy-package "dummy" ;; (arguments '(#:implicit-inputs? #f)) ;; (inputs `(("dep" ,dep*))))) ;; (guile (package-derivation %store (canonical-package guile-2.0) ;; #:graft? #f))) ;; (equal? (package-derivation %store dummy) ;; (graft-derivation %store ;; (package-derivation %store dummy #:graft? #f) ;; (package-grafts %store dummy) ;; ;; Use the same Guile as 'package-derivation'. ;; #:guile guile)))) (test-equal "package->bag" (parameterize ((%current-system "foo86-hurd")) `("foo86-hurd" #f (,(package-source gnu-make)) (,(canonical-package glibc)) (,(canonical-package coreutils)))) (let ((bag (package->bag gnu-make "foo86-hurd"))) (list (bag-system bag) (bag-target bag) (assoc-ref (bag-build-inputs bag) "source") (assoc-ref (bag-build-inputs bag) "libc") (assoc-ref (bag-build-inputs bag) "coreutils")))) (test-assert "package->bag, sensitivity to %current-target-system" ;; https://bugs.gnu.org/41713 (let* ((lower (lambda* (name #:key system target inputs native-inputs #:allow-other-keys) (and (not target) (bag (name name) (system system) (target target) (build-inputs native-inputs) (host-inputs inputs) (build (lambda* (name inputs #:key system target #:allow-other-keys) (gexp->derivation "foo" #~(mkdir #$output)))))))) (bs (build-system (name 'build-system-without-cross-compilation) (description "Does not support cross compilation.") (lower lower))) (dep (dummy-package "dep" (build-system bs))) (pkg (dummy-package "example" (native-inputs (list dep)))) (do-not-build (lambda (continue store lst . _) lst))) (equal? (with-build-handler do-not-build (parameterize ((%current-target-system "powerpc64le-linux-gnu") (%graft? #t)) (package-cross-derivation %store pkg (%current-target-system) #:graft? #t))) (with-build-handler do-not-build (package-cross-derivation %store (package (inherit pkg)) "powerpc64le-linux-gnu" #:graft? #t))))) (test-equal "package->bag, cross-compilation" `(,(%current-system) "foo86-hurd" (,(package-source gnu-make)) (,(canonical-package glibc)) (,(canonical-package coreutils))) (let ((bag (package->bag gnu-make (%current-system) "foo86-hurd"))) (list (bag-system bag) (bag-target bag) (assoc-ref (bag-build-inputs bag) "source") (assoc-ref (bag-build-inputs bag) "libc") (assoc-ref (bag-build-inputs bag) "coreutils")))) (test-assert "package->bag, propagated inputs" (let* ((dep (dummy-package "dep")) (prop (dummy-package "prop" (propagated-inputs (list dep)))) (dummy (dummy-package "dummy" (inputs (list prop)))) (inputs (bag-transitive-inputs (package->bag dummy #:graft? #f)))) (match (assoc "dep" inputs) (("dep" package) (eq? package dep))))) (test-assert "package->bag, sensitivity to %current-system" (let* ((dep (dummy-package "dep" (propagated-inputs (if (string=? (%current-system) "i586-gnu") `(("libxml2" ,libxml2)) '())))) (pkg (dummy-package "foo" (native-inputs (list dep)))) (bag (package->bag pkg (%current-system) "i586-gnu"))) (equal? (parameterize ((%current-system "x86_64-linux")) (bag-transitive-inputs bag)) (parameterize ((%current-system "i586-gnu")) (bag-transitive-inputs bag))))) (test-assert "package->bag, sensitivity to %current-target-system" (let* ((dep (dummy-package "dep" (propagated-inputs (if (%current-target-system) `(("libxml2" ,libxml2)) '())))) (pkg (dummy-package "foo" (native-inputs (list dep)))) (bag (package->bag pkg (%current-system) "foo86-hurd"))) (equal? (parameterize ((%current-target-system "foo64-gnu")) (bag-transitive-inputs bag)) (parameterize ((%current-target-system #f)) (bag-transitive-inputs bag))))) (test-assertm "bag->derivation" (parameterize ((%graft? #f)) (let ((bag (package->bag gnu-make)) (drv (package-derivation %store gnu-make))) (parameterize ((%current-system "foox86-hurd")) ;should have no effect (mlet %store-monad ((bag-drv (bag->derivation bag))) (return (equal? drv bag-drv))))))) (test-assert "bag->derivation, cross-compilation" (parameterize ((%graft? #f)) (let* ((target "mips64el-linux-gnu") (bag (package->bag gnu-make (%current-system) target)) (drv (package-cross-derivation %store gnu-make target))) (parameterize ((%current-system "foox86-hurd") ;should have no effect (%current-target-system "foo64-linux-gnu")) (mlet %store-monad ((bag-drv (bag->derivation bag))) (return (equal? drv bag-drv))))))) (when (or (not (network-reachable?)) (shebang-too-long?)) (test-skip 1)) (test-assert "GNU Make, bootstrap" ;; GNU-MAKE-FOR-TESTS can be built cheaply; we choose it here so that the ;; test doesn't last for too long. (let ((gnu-make gnu-make-for-tests)) (and (package? gnu-make) (or (location? (package-location gnu-make)) (not (package-location gnu-make))) (let* ((drv (package-derivation %store gnu-make)) (out (derivation->output-path drv))) (and (build-derivations %store (list drv)) (file-exists? (string-append out "/bin/make"))))))) (test-equal "package-mapping" 42 (let* ((dep (dummy-package "chbouib" (native-inputs `(("x" ,grep))))) (p0 (dummy-package "example" (source 77) (inputs `(("foo" ,coreutils) ("bar" ,grep) ("baz" ,dep))))) (transform (lambda (p) (package (inherit p) (source 42)))) (rewrite (package-mapping transform)) (p1 (rewrite p0)) (bag0 (package->bag p0)) (bag1 (package->bag p1))) (and (eq? p1 (rewrite p0)) (eqv? 42 (package-source p1)) ;; Implicit inputs should be left unchanged (skip "source", "foo", ;; "bar", and "baz" in this comparison). (equal? (drop (bag-direct-inputs bag0) 4) (drop (bag-direct-inputs bag1) 4)) (match (package-inputs p1) ((("foo" dep1) ("bar" dep2) ("baz" dep3)) (and (eq? dep1 (rewrite coreutils)) ;memoization (eq? dep2 (rewrite grep)) (eq? dep3 (rewrite dep)) (eqv? 42 (package-source dep1) (package-source dep2) (package-source dep3)) (match (package-native-inputs dep3) ((("x" dep)) (and (eq? dep (rewrite grep)) (package-source dep)))))))))) (test-equal "package-mapping, deep" '(42) (let* ((p0 (dummy-package "example" (inputs `(("foo" ,coreutils) ("bar" ,grep))))) (transform (lambda (p) (package (inherit p) (source 42)))) (rewrite (package-mapping transform #:deep? #t)) (p1 (rewrite p0)) (bag (package->bag p1))) (and (eq? p1 (rewrite p0)) (match (bag-direct-inputs bag) ((("source" 42) ("foo" dep1) ("bar" dep2) rest ..1) (and (eq? dep1 (rewrite coreutils)) ;memoization (eq? dep2 (rewrite grep)) (= 42 (package-source dep1)) (= 42 (package-source dep2)) ;; Check that implicit inputs of P0 also got rewritten. (delete-duplicates (map (match-lambda ((_ package . _) (package-source package))) rest)))))))) (test-assert "package-input-rewriting" (let* ((dep (dummy-package "chbouib" (native-inputs `(("x" ,grep))))) (p0 (dummy-package "example" (inputs `(("foo" ,coreutils) ("bar" ,grep) ("baz" ,dep))))) (rewrite (package-input-rewriting `((,coreutils . ,sed) (,grep . ,findutils)) (cut string-append "r-" <>) #:deep? #f)) (p1 (rewrite p0)) (p2 (rewrite p0))) (and (not (eq? p1 p0)) (eq? p1 p2) ;memoization (string=? "r-example" (package-name p1)) (match (package-inputs p1) ((("foo" dep1) ("bar" dep2) ("baz" dep3)) (and (eq? dep1 sed) (eq? dep2 findutils) (string=? (package-name dep3) "r-chbouib") (eq? dep3 (rewrite dep)) ;memoization (match (package-native-inputs dep3) ((("x" dep)) (eq? dep findutils)))))) ;; Make sure implicit inputs were left unchanged. (equal? (drop (bag-direct-inputs (package->bag p1)) 3) (drop (bag-direct-inputs (package->bag p0)) 3))))) (test-eq "package-input-rewriting, deep" (derivation-file-name (package-derivation %store sed)) (let* ((p0 (dummy-package "chbouib" (build-system python-build-system) (arguments `(#:python ,python)))) (rewrite (package-input-rewriting `((,python . ,sed)))) (p1 (rewrite p0))) (match (bag-direct-inputs (package->bag p1)) ((("python" python) _ ...) (derivation-file-name (package-derivation %store python)))))) (test-assert "package-input-rewriting/spec" (let* ((dep (dummy-package "chbouib" (native-inputs `(("x" ,grep))))) (p0 (dummy-package "example" (inputs `(("foo" ,coreutils) ("bar" ,grep) ("baz" ,dep))))) (rewrite (package-input-rewriting/spec `(("coreutils" . ,(const sed)) ("grep" . ,(const findutils))) #:deep? #f)) (p1 (rewrite p0)) (p2 (rewrite p0))) (and (not (eq? p1 p0)) (eq? p1 p2) ;memoization (string=? "example" (package-name p1)) (match (package-inputs p1) ((("foo" dep1) ("bar" dep2) ("baz" dep3)) (and (string=? (package-full-name dep1) (package-full-name sed)) (string=? (package-full-name dep2) (package-full-name findutils)) (string=? (package-name dep3) "chbouib") (eq? dep3 (rewrite dep)) ;memoization (match (package-native-inputs dep3) ((("x" dep)) (string=? (package-full-name dep) (package-full-name findutils))))))) ;; Make sure implicit inputs were left unchanged. (equal? (drop (bag-direct-inputs (package->bag p1)) 3) (drop (bag-direct-inputs (package->bag p0)) 3))))) (test-assert "package-input-rewriting/spec, partial match" (let* ((dep (dummy-package "chbouib" (version "1") (native-inputs `(("x" ,grep))))) (p0 (dummy-package "example" (inputs `(("foo" ,coreutils) ("bar" ,dep))))) (rewrite (package-input-rewriting/spec `(("chbouib@123" . ,(const sed)) ;not matched ("grep" . ,(const findutils))) #:deep? #f)) (p1 (rewrite p0))) (and (not (eq? p1 p0)) (string=? "example" (package-name p1)) (match (package-inputs p1) ((("foo" dep1) ("bar" dep2)) (and (string=? (package-full-name dep1) (package-full-name coreutils)) (eq? dep2 (rewrite dep)) ;memoization (match (package-native-inputs dep2) ((("x" dep)) (string=? (package-full-name dep) (package-full-name findutils)))))))))) (test-assert "package-input-rewriting/spec, deep" (let* ((dep (dummy-package "chbouib")) (p0 (dummy-package "example" (build-system gnu-build-system) (inputs `(("dep" ,dep))))) (rewrite (package-input-rewriting/spec `(("tar" . ,(const sed)) ("gzip" . ,(const findutils))))) (p1 (rewrite p0)) (p2 (rewrite p0))) (and (not (eq? p1 p0)) (eq? p1 p2) ;memoization (string=? "example" (package-name p1)) (match (package-inputs p1) ((("dep" dep1)) (and (string=? (package-full-name dep1) (package-full-name dep)) (eq? dep1 (rewrite dep))))) ;memoization ;; Make sure implicit inputs were replaced. (match (bag-direct-inputs (package->bag p1)) ((("dep" dep1) ("tar" tar) ("gzip" gzip) _ ...) (and (eq? dep1 (rewrite dep)) (string=? (package-full-name tar) (package-full-name sed)) (string=? (package-full-name gzip) (package-full-name findutils)))))))) (test-assert "package-input-rewriting/spec, no duplicates" ;; Ensure that deep input rewriting does not forget implicit inputs. Doing ;; so could lead to duplicates in a package's inputs: in the example below, ;; P0's transitive inputs would contain one rewritten "python" and one ;; original "python". These two "python" packages are thus not 'eq?' but ;; they lower to the same derivation. See , ;; which can be reproduced by passing #:deep? #f. (let* ((dep0 (dummy-package "dep0" (build-system trivial-build-system) (propagated-inputs `(("python" ,python))))) (p0 (dummy-package "chbouib" (build-system python-build-system) (arguments `(#:python ,python)) (inputs `(("dep0" ,dep0))))) (rewrite (package-input-rewriting/spec '() #:deep? #t)) (p1 (rewrite p0)) (bag1 (package->bag p1)) (pythons (filter-map (match-lambda (("python" python) python) (_ #f)) (bag-transitive-inputs bag1)))) (match (delete-duplicates pythons eq?) ((p) (eq? p (rewrite python)))))) (test-assert "package-input-rewriting/spec, hidden package" ;; Hidden packages are not subject to rewriting. (let* ((python (hidden-package python)) (p0 (dummy-package "chbouib" (build-system trivial-build-system) (inputs (list python)))) (rewrite (package-input-rewriting/spec `(("python" . ,(const sed))) #:deep? #t)) (p1 (rewrite p0)) (bag1 (package->bag p1)) (pythons (filter-map (match-lambda (("python" python) python) (_ #f)) (bag-transitive-inputs bag1)))) (match (delete-duplicates pythons eq?) ((p) (eq? p python))))) (test-assert "package-input-rewriting/spec, replace hidden package" ;; Rewrite hidden packages when requested. (let* ((python (hidden-package python)) (p0 (dummy-package "chbouib" (build-system trivial-build-system) (inputs (list python)))) (rewrite (package-input-rewriting/spec `(("python" . ,(const sed))) #:replace-hidden? #t)) (p1 (rewrite p0))) (match (package-inputs p1) ((("python" python)) (and (string=? (package-full-name python) (package-full-name sed))))))) (test-equal "package-input-rewriting/spec, graft" (derivation-file-name (package-derivation %store sed)) ;; Make sure replacements are rewritten. (let* ((dep0 (dummy-package "dep" (version "1") (build-system trivial-build-system) (inputs `(("coreutils" ,coreutils))))) (dep1 (dummy-package "dep" (version "0") (build-system trivial-build-system) (replacement dep0))) (p0 (dummy-package "p" (build-system trivial-build-system) (inputs `(("dep" ,dep1))))) (rewrite (package-input-rewriting/spec `(("coreutils" . ,(const sed))))) (p1 (rewrite p0))) (match (package-inputs p1) ((("dep" dep)) (match (package-inputs (package-replacement dep)) ((("coreutils" coreutils)) ;; COREUTILS is not 'eq?' to SED, so the most reliable way to check ;; for equality is to lower to a derivation. (derivation-file-name (package-derivation %store coreutils)))))))) (test-assert "package-with-c-toolchain" (let* ((dep (dummy-package "chbouib" (build-system gnu-build-system) (native-inputs `(("x" ,grep))))) (p0 (dummy-package "thingie" (build-system gnu-build-system) (inputs `(("foo" ,grep) ("bar" ,dep))))) (tc (dummy-package "my-toolchain")) (p1 (package-with-c-toolchain p0 `(("toolchain" ,tc))))) (define toolchain-packages '("gcc" "binutils" "glibc" "ld-wrapper")) (match (bag-build-inputs (package->bag p1)) ((("foo" foo) ("bar" bar) (_ (= package-name packages) . _) ...) (and (not (any (cut member <> packages) toolchain-packages)) (member "my-toolchain" packages) (eq? foo grep) (eq? bar dep)))))) (test-assert "package-input-rewriting/spec, identity" ;; Make sure that 'package-input-rewriting/spec' doesn't gratuitously ;; introduce variants. In this case, the LIBFFI propagated input should not ;; be duplicated when passing GOBJECT through REWRITE. ;; See . (let* ((libffi (dummy-package "libffi" (build-system trivial-build-system))) (glib (dummy-package "glib" (build-system trivial-build-system) (propagated-inputs (list libffi)))) (gobject (dummy-package "gobject-introspection" (build-system trivial-build-system) (inputs (list glib)) (propagated-inputs (list libffi)))) (rewrite (package-input-rewriting/spec `(("glib" . ,identity))))) (and (= (length (package-transitive-inputs gobject)) (length (package-transitive-inputs (rewrite gobject)))) (string=? (derivation-file-name (package-derivation %store (rewrite gobject))) (derivation-file-name (package-derivation %store gobject)))))) (test-assert "package-input-rewriting, identity" ;; Similar to the test above, but with 'package-input-rewriting'. ;; See . (let* ((libffi (dummy-package "libffi" (build-system trivial-build-system))) (glib (dummy-package "glib" (build-system trivial-build-system) (propagated-inputs (list libffi)))) (gobject (dummy-package "gobject-introspection" (build-system trivial-build-system) (inputs (list glib)) (propagated-inputs (list libffi)))) (rewrite (package-input-rewriting `((,glib . ,glib))))) (and (= (length (package-transitive-inputs gobject)) (length (package-transitive-inputs (rewrite gobject)))) (string=? (derivation-file-name (package-derivation %store (rewrite gobject))) (derivation-file-name (package-derivation %store gobject)))))) (test-equal "package-patched-vulnerabilities" '(("CVE-2015-1234") ("CVE-2016-1234" "CVE-2018-4567") ()) (let ((p1 (dummy-package "pi" (source (dummy-origin (patches (list "/a/b/pi-CVE-2015-1234.patch")))))) (p2 (dummy-package "pi" (source (dummy-origin (patches (list "/a/b/pi-CVE-2016-1234-CVE-2018-4567.patch")))))) (p3 (dummy-package "pi" (source (dummy-origin))))) (map package-patched-vulnerabilities (list p1 p2 p3)))) (test-eq "fold-packages" hello (fold-packages (lambda (p r) (if (string=? (package-name p) "hello") p r)) #f)) (test-assert "fold-packages, hidden package" ;; There are two public variables providing "guile@2.0" ('guile-final' in ;; commencement.scm and 'guile-2.0' in guile.scm), but only the latter ;; should show up. (match (fold-packages (lambda (p r) (if (and (string=? (package-name p) "guile") (string-prefix? "2.0" (package-version p))) (cons p r) r)) '()) ((one) (eq? one guile-2.0)))) (test-assert "fold-available-packages with/without cache" (let () (define no-cache (fold-available-packages (lambda* (name version result #:rest rest) (cons (cons* name version rest) result)) '())) (define from-cache (call-with-temporary-directory (lambda (cache) (generate-package-cache cache) (mock ((guix describe) current-profile (const cache)) (mock ((gnu packages) cache-is-authoritative? (const #t)) (fold-available-packages (lambda* (name version result #:rest rest) (cons (cons* name version rest) result)) '())))))) (define (list->set* lst) ;; Return two values: LST represented as a set and the list of ;; duplicates in LST. (let loop ((lst lst) (duplicates '()) (seen (set))) (match lst (() (values seen duplicates)) ((head . tail) (if (set-contains? seen head) (loop tail (cons head duplicates) seen) (loop tail duplicates (set-insert head seen))))))) ;; Compare FROM-CACHE and NO-CACHE but avoid 'lset=', which exhibits ;; exponential behavior. (let ((set1 duplicates1 (list->set* from-cache)) (set2 duplicates2 (list->set* no-cache))) ;; For easier debugging. (pk 'from-cache-duplicates: duplicates1) (pk 'no-cache-duplicates: duplicates2) (and (null? duplicates1) (null? duplicates2) (every (cut set-contains? set1 <>) no-cache) (every (cut set-contains? set2 <>) from-cache))))) (test-assert "find-packages-by-name" (match (find-packages-by-name "hello") (((? (cut eq? hello <>))) #t) (wrong (pk 'find-packages-by-name wrong #f)))) (test-assert "find-packages-by-name with version" (match (find-packages-by-name "hello" (package-version hello)) (((? (cut eq? hello <>))) #t) (wrong (pk 'find-packages-by-name wrong #f)))) (test-equal "find-packages-by-name with cache" (find-packages-by-name "guile") (call-with-temporary-directory (lambda (cache) (generate-package-cache cache) (mock ((guix describe) current-profile (const cache)) (mock ((gnu packages) cache-is-authoritative? (const #t)) (find-packages-by-name "guile")))))) (test-equal "find-packages-by-name + version, with cache" (find-packages-by-name "guile" "2") (call-with-temporary-directory (lambda (cache) (generate-package-cache cache) (mock ((guix describe) current-profile (const cache)) (mock ((gnu packages) cache-is-authoritative? (const #t)) (find-packages-by-name "guile" "2")))))) (test-assert "--search-paths with pattern" ;; Make sure 'guix package --search-paths' correctly reports environment ;; variables when file patterns are used (in particular, it must follow ;; symlinks when looking for 'catalog.xml'.) To do that, we rely on the ;; libxml2 package specification, which contains such a definition. (let* ((p1 (package (name "foo") (version "0") (source #f) (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:modules ((guix build utils)) #:builder (begin (use-modules (guix build utils)) (let ((out (assoc-ref %outputs "out"))) (mkdir-p (string-append out "/xml/bar/baz")) (call-with-output-file (string-append out "/xml/bar/baz/catalog.xml") (lambda (port) (display "xml? wat?!" port))) #t)))) (synopsis #f) (description #f) (home-page #f) (license #f))) (p2 (package ;; Provide a fake libxml2 to avoid building the real one. This ;; is OK because 'guix package' gets search path specifications ;; from the same-named package found in the distro. (name "libxml2") (version "0.0.0") (source #f) (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (mkdir (assoc-ref %outputs "out")) #t))) (native-search-paths (package-native-search-paths libxml2)) (synopsis #f) (description #f) (home-page #f) (license #f))) (prof (run-with-store %store (profile-derivation (manifest (map package->manifest-entry (list p1 p2))) #:hooks '() #:locales? #f) #:guile-for-build (%guile-for-build)))) (build-derivations %store (list prof)) (string-match (format #f "^export XML_CATALOG_FILES=\"~a/xml/+bar/baz/catalog\\.xml\"\n" (regexp-quote (derivation->output-path prof))) (with-output-to-string (lambda () (guix-package "-p" (derivation->output-path prof) "--search-paths")))))) (test-assert "--search-paths with single-item search path" ;; Make sure 'guix package --search-paths' correctly reports environment ;; variables for things like 'GIT_SSL_CAINFO' that have #f as their ;; separator, meaning that the first match wins. (let* ((p1 (dummy-package "foo" (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:modules ((guix build utils)) #:builder (begin (use-modules (guix build utils)) (let ((out (assoc-ref %outputs "out"))) (mkdir-p (string-append out "/etc/ssl/certs")) (call-with-output-file (string-append out "/etc/ssl/certs/ca-certificates.crt") (const #t)))))))) (p2 (package (inherit p1) (name "bar"))) (p3 (dummy-package "git" ;; Provide a fake Git to avoid building the real one. (build-system trivial-build-system) (arguments `(#:guile ,%bootstrap-guile #:builder (begin (mkdir (assoc-ref %outputs "out")) #t))) (native-search-paths (package-native-search-paths git)))) (prof1 (run-with-store %store (profile-derivation (packages->manifest (list p1 p3)) #:hooks '() #:locales? #f) #:guile-for-build (%guile-for-build))) (prof2 (run-with-store %store (profile-derivation (packages->manifest (list p2 p3)) #:hooks '() #:locales? #f) #:guile-for-build (%guile-for-build)))) (build-derivations %store (list prof1 prof2)) (string-match (format #f "^export GIT_SSL_CAINFO=\"~a/etc/ssl/certs/ca-certificates.crt" (regexp-quote (derivation->output-path prof1))) (with-output-to-string (lambda () (guix-package "-p" (derivation->output-path prof1) "-p" (derivation->output-path prof2) "--search-paths")))))) (test-equal "specification->package when not found" 'quit (catch 'quit (lambda () ;; This should call 'leave', producing an error message. (specification->package "this-package-does-not-exist")) (lambda (key . args) key))) (test-equal "specification->package+output" `((,coreutils "out") (,coreutils "debug")) (list (call-with-values (lambda () (specification->package+output "coreutils")) list) (call-with-values (lambda () (specification->package+output "coreutils:debug")) list))) (test-equal "specification->package+output invalid output" 'error (catch 'quit (lambda () (specification->package+output "coreutils:does-not-exist")) (lambda _ 'error))) (test-equal "specification->package+output no default output" `(,coreutils #f) (call-with-values (lambda () (specification->package+output "coreutils" #f)) list)) (test-equal "specification->package+output invalid output, no default" 'error (catch 'quit (lambda () (specification->package+output "coreutils:does-not-exist" #f)) (lambda _ 'error))) (test-equal "find-package-locations" (map (lambda (package) (cons (package-version package) (package-location package))) (find-packages-by-name "guile")) (find-package-locations "guile")) (test-equal "find-package-locations with cache" (map (lambda (package) (cons (package-version package) (package-location package))) (find-packages-by-name "guile")) (call-with-temporary-directory (lambda (cache) (generate-package-cache cache) (mock ((guix describe) current-profile (const cache)) (mock ((gnu packages) cache-is-authoritative? (const #t)) (find-package-locations "guile")))))) (test-equal "specification->location" (package-location (specification->package "guile@2")) (specification->location "guile@2")) (test-equal "package-unique-version-prefix, gcc@8" "8" (let ((gcc (specification->package "gcc-toolchain@8"))) (package-unique-version-prefix (package-name gcc) (package-version gcc)))) (test-equal "package-unique-version-prefix, grep" "" (let ((grep (specification->package "grep"))) (package-unique-version-prefix (package-name grep) (package-version grep)))) (test-eq "this-package-input, exists" hello (package-arguments (dummy-package "a" (inputs `(("hello" ,hello))) (arguments (this-package-input "hello"))))) (test-eq "this-package-input, exists in propagated-inputs" hello (package-arguments (dummy-package "a" (propagated-inputs `(("hello" ,hello))) (arguments (this-package-input "hello"))))) (test-eq "this-package-input, does not exist" #f (package-arguments (dummy-package "a" (arguments (this-package-input "hello"))))) (test-eq "this-package-native-input, exists" hello (package-arguments (dummy-package "a" (native-inputs `(("hello" ,hello))) (arguments (this-package-native-input "hello"))))) (test-eq "this-package-native-input, does not exists" #f (package-arguments (dummy-package "a" (arguments (this-package-native-input "hello"))))) (test-eq "modify-inputs, replace" coreutils ;; Replace an input; notice that the label in unchanged. (let* ((p1 (dummy-package "p" (inputs (list hello)))) (p2 (package (inherit p1) (version "1") (inputs (modify-inputs (package-inputs p1) (replace "hello" coreutils)))))) (lookup-package-input p2 "hello"))) (test-eq "modify-inputs, replace, change output" guile-3.0 ;; Replace an input and choose a different output. (let* ((p1 (dummy-package "p" (inputs (list `(,coreutils "debug"))))) (p2 (package (inherit p1) (version "1") (inputs (modify-inputs (package-inputs p1) (replace "coreutils" `(,guile-3.0 "out"))))))) (match (package-inputs p2) ((("coreutils" input "out")) input)))) (test-eq "modify-inputs, replace, extra output" guile-3.0 ;; Replace an input; notice that its output is preserved. ;; See . (let* ((p1 (dummy-package "p" (inputs (list `(,coreutils "debug"))))) (p2 (package (inherit p1) (version "1") (inputs (modify-inputs (package-inputs p1) (replace "coreutils" guile-3.0)))))) (match (package-inputs p2) ((("coreutils" input "debug")) input)))) (test-end "packages") ;;; Local Variables: ;;; eval: (put 'dummy-package 'scheme-indent-function 1) ;;; eval: (put 'dummy-package/no-implicit 'scheme-indent-function 1) ;;; End: