guix-play/tests/derivations.scm
Ludovic Courtès 36bbbbd150 derivations: Add support for recursive fixed-output derivations.
* guix/derivations.scm (<derivation-output>): Add 'recursive?' field.
  Adjust 'make-derivation-output' callers.
  (%read-derivation) <fixed-output>: When HASH-ALGO starts with 'r:',
  set the 'recursive?' field and drop 'r:' from the hash algo name.
  (write-derivation)[write-output]: Write the algo as 'r:HASH-ALGO' when
  the RECURSIVE? field is set.
  (derivation-hash) <fixed-output>: Prepend "r:" when RECURSIVE? is set.
  (fixed-output-path): New procedure.
  (derivation): Add #:recursive? parameter.  Use 'fixed-output-path' to
  compute the output file name of a fixed output derivation.
  (build-expression->derivation): Add #:recursive? parameter.  Pass it
  to 'derivation'.
* tests/derivations.scm ("fixed-output derivation, recursive",
  "build-expression->derivation produces recursive fixed-output",
  "build-expression->derivation uses recursive fixed-output"): New
  tests.
* doc/guix.texi (Derivations): Document #:recursive? for 'derivation'.
  Add #:recursive? for 'build-expression->derivation'.
2014-02-21 23:49:52 +01:00

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;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2012, 2013, 2014 Ludovic Courtès <ludo@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
(define-module (test-derivations)
#:use-module (guix derivations)
#:use-module (guix store)
#:use-module (guix utils)
#:use-module (guix hash)
#:use-module (guix base32)
#:use-module ((guix packages) #:select (package-derivation base32))
#:use-module ((guix build utils) #:select (executable-file?))
#:use-module ((gnu packages) #:select (search-bootstrap-binary))
#:use-module (gnu packages bootstrap)
#:use-module ((gnu packages guile) #:select (guile-1.8))
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-11)
#:use-module (srfi srfi-26)
#:use-module (srfi srfi-34)
#:use-module (srfi srfi-64)
#:use-module (rnrs io ports)
#:use-module (rnrs bytevectors)
#:use-module (web uri)
#:use-module (ice-9 rdelim)
#:use-module (ice-9 regex)
#:use-module (ice-9 ftw)
#:use-module (ice-9 match))
(define %store
(false-if-exception (open-connection)))
(when %store
;; Make sure we build everything by ourselves.
(set-build-options %store #:use-substitutes? #f)
;; By default, use %BOOTSTRAP-GUILE for the current system.
(let ((drv (package-derivation %store %bootstrap-guile)))
(%guile-for-build drv)))
(define (bootstrap-binary name)
(let ((bin (search-bootstrap-binary name (%current-system))))
(and %store
(add-to-store %store name #t "sha256" bin))))
(define %bash
(bootstrap-binary "bash"))
(define %mkdir
(bootstrap-binary "mkdir"))
(define* (directory-contents dir #:optional (slurp get-bytevector-all))
"Return an alist representing the contents of DIR."
(define prefix-len (string-length dir))
(sort (file-system-fold (const #t) ; enter?
(lambda (path stat result) ; leaf
(alist-cons (string-drop path prefix-len)
(call-with-input-file path slurp)
result))
(lambda (path stat result) result) ; down
(lambda (path stat result) result) ; up
(lambda (path stat result) result) ; skip
(lambda (path stat errno result) result) ; error
'()
dir)
(lambda (e1 e2)
(string<? (car e1) (car e2)))))
(test-begin "derivations")
(test-assert "parse & export"
(let* ((f (search-path %load-path "tests/test.drv"))
(b1 (call-with-input-file f get-bytevector-all))
(d1 (read-derivation (open-bytevector-input-port b1)))
(b2 (call-with-bytevector-output-port (cut write-derivation d1 <>)))
(d2 (read-derivation (open-bytevector-input-port b2))))
(and (equal? b1 b2)
(equal? d1 d2))))
(test-skip (if %store 0 12))
(test-assert "add-to-store, flat"
(let* ((file (search-path %load-path "language/tree-il/spec.scm"))
(drv (add-to-store %store "flat-test" #f "sha256" file)))
(and (eq? 'regular (stat:type (stat drv)))
(valid-path? %store drv)
(equal? (call-with-input-file file get-bytevector-all)
(call-with-input-file drv get-bytevector-all)))))
(test-assert "add-to-store, recursive"
(let* ((dir (dirname (search-path %load-path "language/tree-il/spec.scm")))
(drv (add-to-store %store "dir-tree-test" #t "sha256" dir)))
(and (eq? 'directory (stat:type (stat drv)))
(valid-path? %store drv)
(equal? (directory-contents dir)
(directory-contents drv)))))
(test-assert "derivation with no inputs"
(let* ((builder (add-text-to-store %store "my-builder.sh"
"echo hello, world\n"
'()))
(drv (derivation %store "foo"
%bash `("-e" ,builder)
#:env-vars '(("HOME" . "/homeless")))))
(and (store-path? (derivation-file-name drv))
(valid-path? %store (derivation-file-name drv)))))
(test-assert "build derivation with 1 source"
(let* ((builder (add-text-to-store %store "my-builder.sh"
"echo hello, world > \"$out\"\n"
'()))
(drv (derivation %store "foo"
%bash `(,builder)
#:env-vars '(("HOME" . "/homeless")
("zzz" . "Z!")
("AAA" . "A!"))
#:inputs `((,%bash) (,builder))))
(succeeded?
(build-derivations %store (list drv))))
(and succeeded?
(let ((path (derivation->output-path drv)))
(and (valid-path? %store path)
(string=? (call-with-input-file path read-line)
"hello, world"))))))
(test-assert "derivation with local file as input"
(let* ((builder (add-text-to-store
%store "my-builder.sh"
"(while read line ; do echo \"$line\" ; done) < $in > $out"
'()))
(input (search-path %load-path "ice-9/boot-9.scm"))
(input* (add-to-store %store (basename input)
#t "sha256" input))
(drv (derivation %store "derivation-with-input-file"
%bash `(,builder)
;; Cheat to pass the actual file name to the
;; builder.
#:env-vars `(("in" . ,input*))
#:inputs `((,%bash)
(,builder)
(,input))))) ; ← local file name
(and (build-derivations %store (list drv))
;; Note: we can't compare the files because the above trick alters
;; the contents.
(valid-path? %store (derivation->output-path drv)))))
(test-assert "fixed-output derivation"
(let* ((builder (add-text-to-store %store "my-fixed-builder.sh"
"echo -n hello > $out" '()))
(hash (sha256 (string->utf8 "hello")))
(drv (derivation %store "fixed"
%bash `(,builder)
#:inputs `((,builder)) ; optional
#:hash hash #:hash-algo 'sha256))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((p (derivation->output-path drv)))
(and (equal? (string->utf8 "hello")
(call-with-input-file p get-bytevector-all))
(bytevector? (query-path-hash %store p)))))))
(test-assert "fixed-output derivation: output paths are equal"
(let* ((builder1 (add-text-to-store %store "fixed-builder1.sh"
"echo -n hello > $out" '()))
(builder2 (add-text-to-store %store "fixed-builder2.sh"
"echo hey; echo -n hello > $out" '()))
(hash (sha256 (string->utf8 "hello")))
(drv1 (derivation %store "fixed"
%bash `(,builder1)
#:hash hash #:hash-algo 'sha256))
(drv2 (derivation %store "fixed"
%bash `(,builder2)
#:hash hash #:hash-algo 'sha256))
(succeeded? (build-derivations %store (list drv1 drv2))))
(and succeeded?
(equal? (derivation->output-path drv1)
(derivation->output-path drv2)))))
(test-assert "fixed-output derivation, recursive"
(let* ((builder (add-text-to-store %store "my-fixed-builder.sh"
"echo -n hello > $out" '()))
(hash (sha256 (string->utf8 "hello")))
(drv (derivation %store "fixed-rec"
%bash `(,builder)
#:inputs `((,builder))
#:hash (base32 "0sg9f58l1jj88w6pdrfdpj5x9b1zrwszk84j81zvby36q9whhhqa")
#:hash-algo 'sha256
#:recursive? #t))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((p (derivation->output-path drv)))
(and (equal? (string->utf8 "hello")
(call-with-input-file p get-bytevector-all))
(bytevector? (query-path-hash %store p)))))))
(test-assert "derivation with a fixed-output input"
;; A derivation D using a fixed-output derivation F doesn't has the same
;; output path when passed F or F', as long as F and F' have the same output
;; path.
(let* ((builder1 (add-text-to-store %store "fixed-builder1.sh"
"echo -n hello > $out" '()))
(builder2 (add-text-to-store %store "fixed-builder2.sh"
"echo hey; echo -n hello > $out" '()))
(hash (sha256 (string->utf8 "hello")))
(fixed1 (derivation %store "fixed"
%bash `(,builder1)
#:hash hash #:hash-algo 'sha256))
(fixed2 (derivation %store "fixed"
%bash `(,builder2)
#:hash hash #:hash-algo 'sha256))
(fixed-out (derivation->output-path fixed1))
(builder3 (add-text-to-store
%store "final-builder.sh"
;; Use Bash hackery to avoid Coreutils.
"echo $in ; (read -u 3 c; echo $c) 3< $in > $out" '()))
(final1 (derivation %store "final"
%bash `(,builder3)
#:env-vars `(("in" . ,fixed-out))
#:inputs `((,%bash) (,builder3) (,fixed1))))
(final2 (derivation %store "final"
%bash `(,builder3)
#:env-vars `(("in" . ,fixed-out))
#:inputs `((,%bash) (,builder3) (,fixed2))))
(succeeded? (build-derivations %store
(list final1 final2))))
(and succeeded?
(equal? (derivation->output-path final1)
(derivation->output-path final2)))))
(test-assert "multiple-output derivation"
(let* ((builder (add-text-to-store %store "my-fixed-builder.sh"
"echo one > $out ; echo two > $second"
'()))
(drv (derivation %store "fixed"
%bash `(,builder)
#:env-vars '(("HOME" . "/homeless")
("zzz" . "Z!")
("AAA" . "A!"))
#:inputs `((,%bash) (,builder))
#:outputs '("out" "second")))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((one (derivation->output-path drv "out"))
(two (derivation->output-path drv "second")))
(and (lset= equal?
(derivation->output-paths drv)
`(("out" . ,one) ("second" . ,two)))
(eq? 'one (call-with-input-file one read))
(eq? 'two (call-with-input-file two read)))))))
(test-assert "multiple-output derivation, non-alphabetic order"
;; Here, the outputs are not listed in alphabetic order. Yet, the store
;; path computation must reorder them first.
(let* ((builder (add-text-to-store %store "my-fixed-builder.sh"
"echo one > $out ; echo two > $AAA"
'()))
(drv (derivation %store "fixed"
%bash `(,builder)
#:inputs `((,%bash) (,builder))
#:outputs '("out" "AAA")))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((one (derivation->output-path drv "out"))
(two (derivation->output-path drv "AAA")))
(and (eq? 'one (call-with-input-file one read))
(eq? 'two (call-with-input-file two read)))))))
(test-assert "multiple-output derivation, derivation-path->output-path"
(let* ((builder (add-text-to-store %store "builder.sh"
"echo one > $out ; echo two > $second"
'()))
(drv (derivation %store "multiple"
%bash `(,builder)
#:outputs '("out" "second")))
(drv-file (derivation-file-name drv))
(one (derivation->output-path drv "out"))
(two (derivation->output-path drv "second"))
(first (derivation-path->output-path drv-file "out"))
(second (derivation-path->output-path drv-file "second")))
(and (not (string=? one two))
(string-suffix? "-second" two)
(string=? first one)
(string=? second two))))
(test-assert "user of multiple-output derivation"
;; Check whether specifying several inputs coming from the same
;; multiple-output derivation works.
(let* ((builder1 (add-text-to-store %store "my-mo-builder.sh"
"echo one > $out ; echo two > $two"
'()))
(mdrv (derivation %store "multiple-output"
%bash `(,builder1)
#:inputs `((,%bash) (,builder1))
#:outputs '("out" "two")))
(builder2 (add-text-to-store %store "my-mo-user-builder.sh"
"read x < $one;
read y < $two;
echo \"($x $y)\" > $out"
'()))
(udrv (derivation %store "multiple-output-user"
%bash `(,builder2)
#:env-vars `(("one"
. ,(derivation->output-path
mdrv "out"))
("two"
. ,(derivation->output-path
mdrv "two")))
#:inputs `((,%bash)
(,builder2)
;; two occurrences of MDRV:
(,mdrv)
(,mdrv "two")))))
(and (build-derivations %store (list (pk 'udrv udrv)))
(let ((p (derivation->output-path udrv)))
(and (valid-path? %store p)
(equal? '(one two) (call-with-input-file p read)))))))
(test-assert "derivation with #:references-graphs"
(let* ((input1 (add-text-to-store %store "foo" "hello"
(list %bash)))
(input2 (add-text-to-store %store "bar"
(number->string (random 7777))
(list input1)))
(builder (add-text-to-store %store "build-graph"
(format #f "
~a $out
(while read l ; do echo $l ; done) < bash > $out/bash
(while read l ; do echo $l ; done) < input1 > $out/input1
(while read l ; do echo $l ; done) < input2 > $out/input2"
%mkdir)
(list %mkdir)))
(drv (derivation %store "closure-graphs"
%bash `(,builder)
#:references-graphs
`(("bash" . ,%bash)
("input1" . ,input1)
("input2" . ,input2))
#:inputs `((,%bash) (,builder))))
(out (derivation->output-path drv)))
(define (deps path . deps)
(let ((count (length deps)))
(string-append path "\n\n" (number->string count) "\n"
(string-join (sort deps string<?) "\n")
(if (zero? count) "" "\n"))))
(and (build-derivations %store (list drv))
(equal? (directory-contents out get-string-all)
`(("/bash" . ,(string-append %bash "\n\n0\n"))
("/input1" . ,(if (string>? input1 %bash)
(string-append (deps %bash)
(deps input1 %bash))
(string-append (deps input1 %bash)
(deps %bash))))
("/input2" . ,(string-concatenate
(map cdr
(sort
(map (lambda (p d)
(cons p (apply deps p d)))
(list %bash input1 input2)
(list '() (list %bash) (list input1)))
(lambda (x y)
(match x
((p1 . _)
(match y
((p2 . _)
(string<? p1 p2)))))))))))))))
(define %coreutils
(false-if-exception
(and (getaddrinfo "www.gnu.org" "80" AI_NUMERICSERV)
(or (package-derivation %store %bootstrap-coreutils&co)
(nixpkgs-derivation "coreutils")))))
(test-skip (if %coreutils 0 1))
(test-assert "build derivation with coreutils"
(let* ((builder
(add-text-to-store %store "build-with-coreutils.sh"
"echo $PATH ; mkdir --version ; mkdir $out ; touch $out/good"
'()))
(drv
(derivation %store "foo"
%bash `(,builder)
#:env-vars `(("PATH" .
,(string-append
(derivation->output-path %coreutils)
"/bin")))
#:inputs `((,builder)
(,%coreutils))))
(succeeded?
(build-derivations %store (list drv))))
(and succeeded?
(let ((p (derivation->output-path drv)))
(and (valid-path? %store p)
(file-exists? (string-append p "/good")))))))
(test-skip (if (%guile-for-build) 0 8))
(test-assert "build-expression->derivation and derivation-prerequisites"
(let ((drv (build-expression->derivation %store "fail" #f)))
(any (match-lambda
(($ <derivation-input> path)
(string=? path (derivation-file-name (%guile-for-build)))))
(derivation-prerequisites drv))))
(test-assert "build-expression->derivation without inputs"
(let* ((builder '(begin
(mkdir %output)
(call-with-output-file (string-append %output "/test")
(lambda (p)
(display '(hello guix) p)))))
(drv (build-expression->derivation %store "goo" builder))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((p (derivation->output-path drv)))
(equal? '(hello guix)
(call-with-input-file (string-append p "/test") read))))))
(test-assert "build-expression->derivation and max-silent-time"
(let* ((store (let ((s (open-connection)))
(set-build-options s #:max-silent-time 1)
s))
(builder '(begin (sleep 100) (mkdir %output) #t))
(drv (build-expression->derivation store "silent" builder))
(out-path (derivation->output-path drv)))
(guard (c ((nix-protocol-error? c)
(and (string-contains (nix-protocol-error-message c)
"failed")
(not (valid-path? store out-path)))))
(build-derivations store (list drv))
#f)))
(test-assert "build-expression->derivation and derivation-prerequisites-to-build"
(let ((drv (build-expression->derivation %store "fail" #f)))
;; The only direct dependency is (%guile-for-build) and it's already
;; built.
(null? (derivation-prerequisites-to-build %store drv))))
(test-assert "derivation-prerequisites-to-build when outputs already present"
(let* ((builder '(begin (mkdir %output) #t))
(input-drv (build-expression->derivation %store "input" builder))
(input-path (derivation-output-path
(assoc-ref (derivation-outputs input-drv)
"out")))
(drv (build-expression->derivation %store "something" builder
#:inputs
`(("i" ,input-drv))))
(output (derivation->output-path drv)))
;; Make sure these things are not already built.
(when (valid-path? %store input-path)
(delete-paths %store (list input-path)))
(when (valid-path? %store output)
(delete-paths %store (list output)))
(and (equal? (map derivation-input-path
(derivation-prerequisites-to-build %store drv))
(list (derivation-file-name input-drv)))
;; Build DRV and delete its input.
(build-derivations %store (list drv))
(delete-paths %store (list input-path))
(not (valid-path? %store input-path))
;; Now INPUT-PATH is missing, yet it shouldn't be listed as a
;; prerequisite to build because DRV itself is already built.
(null? (derivation-prerequisites-to-build %store drv)))))
(test-skip (if (getenv "GUIX_BINARY_SUBSTITUTE_URL") 0 1))
(test-assert "derivation-prerequisites-to-build and substitutes"
(let* ((store (open-connection))
(drv (build-expression->derivation store "prereq-subst"
(random 1000)))
(output (derivation->output-path drv))
(dir (and=> (getenv "GUIX_BINARY_SUBSTITUTE_URL")
(compose uri-path string->uri))))
;; Create fake substituter data, to be read by `substitute-binary'.
(call-with-output-file (string-append dir "/nix-cache-info")
(lambda (p)
(format p "StoreDir: ~a\nWantMassQuery: 0\n"
(%store-prefix))))
(call-with-output-file (string-append dir "/" (store-path-hash-part output)
".narinfo")
(lambda (p)
(format p "StorePath: ~a
URL: ~a
Compression: none
NarSize: 1234
References:
System: ~a
Deriver: ~a~%"
output ; StorePath
(string-append dir "/example.nar") ; URL
(%current-system) ; System
(basename
(derivation-file-name drv))))) ; Deriver
(let-values (((build download)
(derivation-prerequisites-to-build store drv))
((build* download*)
(derivation-prerequisites-to-build store drv
#:use-substitutes? #f)))
(pk build download build* download*)
(and (null? build)
(equal? download (list output))
(null? download*)
(null? build*)))))
(test-assert "build-expression->derivation with expression returning #f"
(let* ((builder '(begin
(mkdir %output)
#f)) ; fail!
(drv (build-expression->derivation %store "fail" builder))
(out-path (derivation->output-path drv)))
(guard (c ((nix-protocol-error? c)
;; Note that the output path may exist at this point, but it
;; is invalid.
(and (string-match "build .* failed"
(nix-protocol-error-message c))
(not (valid-path? %store out-path)))))
(build-derivations %store (list drv))
#f)))
(test-assert "build-expression->derivation with two outputs"
(let* ((builder '(begin
(call-with-output-file (assoc-ref %outputs "out")
(lambda (p)
(display '(hello) p)))
(call-with-output-file (assoc-ref %outputs "second")
(lambda (p)
(display '(world) p)))))
(drv (build-expression->derivation %store "double" builder
#:outputs '("out"
"second")))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((one (derivation->output-path drv))
(two (derivation->output-path drv "second")))
(and (equal? '(hello) (call-with-input-file one read))
(equal? '(world) (call-with-input-file two read)))))))
(test-skip (if %coreutils 0 1))
(test-assert "build-expression->derivation with one input"
(let* ((builder '(call-with-output-file %output
(lambda (p)
(let ((cu (assoc-ref %build-inputs "cu")))
(close 1)
(dup2 (port->fdes p) 1)
(execl (string-append cu "/bin/uname")
"uname" "-a")))))
(drv (build-expression->derivation %store "uname" builder
#:inputs
`(("cu" ,%coreutils))))
(succeeded? (build-derivations %store (list drv))))
(and succeeded?
(let ((p (derivation->output-path drv)))
(string-contains (call-with-input-file p read-line) "GNU")))))
(test-assert "imported-files"
(let* ((files `(("x" . ,(search-path %load-path "ice-9/q.scm"))
("a/b/c" . ,(search-path %load-path
"guix/derivations.scm"))
("p/q" . ,(search-path %load-path "guix.scm"))
("p/z" . ,(search-path %load-path "guix/store.scm"))))
(drv (imported-files %store files)))
(and (build-derivations %store (list drv))
(let ((dir (derivation->output-path drv)))
(every (match-lambda
((path . source)
(equal? (call-with-input-file (string-append dir "/" path)
get-bytevector-all)
(call-with-input-file source
get-bytevector-all))))
files)))))
(test-assert "build-expression->derivation with modules"
(let* ((builder `(begin
(use-modules (guix build utils))
(let ((out (assoc-ref %outputs "out")))
(mkdir-p (string-append out "/guile/guix/nix"))
#t)))
(drv (build-expression->derivation %store "test-with-modules"
builder
#:modules
'((guix build utils)))))
(and (build-derivations %store (list drv))
(let* ((p (derivation->output-path drv))
(s (stat (string-append p "/guile/guix/nix"))))
(eq? (stat:type s) 'directory)))))
(test-assert "build-expression->derivation: same fixed-output path"
(let* ((builder1 '(call-with-output-file %output
(lambda (p)
(write "hello" p))))
(builder2 '(call-with-output-file (pk 'difference-here! %output)
(lambda (p)
(write "hello" p))))
(hash (sha256 (string->utf8 "hello")))
(input1 (build-expression->derivation %store "fixed" builder1
#:hash hash
#:hash-algo 'sha256))
(input2 (build-expression->derivation %store "fixed" builder2
#:hash hash
#:hash-algo 'sha256))
(succeeded? (build-derivations %store (list input1 input2))))
(and succeeded?
(not (string=? (derivation-file-name input1)
(derivation-file-name input2)))
(string=? (derivation->output-path input1)
(derivation->output-path input2)))))
(test-assert "build-expression->derivation with a fixed-output input"
(let* ((builder1 '(call-with-output-file %output
(lambda (p)
(write "hello" p))))
(builder2 '(call-with-output-file (pk 'difference-here! %output)
(lambda (p)
(write "hello" p))))
(hash (sha256 (string->utf8 "hello")))
(input1 (build-expression->derivation %store "fixed" builder1
#:hash hash
#:hash-algo 'sha256))
(input2 (build-expression->derivation %store "fixed" builder2
#:hash hash
#:hash-algo 'sha256))
(builder3 '(let ((input (assoc-ref %build-inputs "input")))
(call-with-output-file %output
(lambda (out)
(format #f "My input is ~a.~%" input)))))
(final1 (build-expression->derivation %store "final" builder3
#:inputs
`(("input" ,input1))))
(final2 (build-expression->derivation %store "final" builder3
#:inputs
`(("input" ,input2)))))
(and (string=? (derivation->output-path final1)
(derivation->output-path final2))
(string=? (derivation->output-path final1)
(derivation-path->output-path
(derivation-file-name final1)))
(build-derivations %store (list final1 final2)))))
(test-assert "build-expression->derivation produces recursive fixed-output"
(let* ((builder '(begin
(use-modules (srfi srfi-26))
(mkdir %output)
(chdir %output)
(call-with-output-file "exe"
(cut display "executable" <>))
(chmod "exe" #o777)
(symlink "exe" "symlink")
(mkdir "subdir")))
(drv (build-expression->derivation %store "fixed-rec" builder
#:hash-algo 'sha256
#:hash (base32
"10k1lw41wyrjf9mxydi0is5nkpynlsvgslinics4ppir13g7d74p")
#:recursive? #t)))
(and (build-derivations %store (list drv))
(let* ((dir (derivation->output-path drv))
(exe (string-append dir "/exe"))
(link (string-append dir "/symlink"))
(subdir (string-append dir "/subdir")))
(and (executable-file? exe)
(string=? "executable"
(call-with-input-file exe get-string-all))
(string=? "exe" (readlink link))
(file-is-directory? subdir))))))
(test-assert "build-expression->derivation uses recursive fixed-output"
(let* ((builder '(call-with-output-file %output
(lambda (port)
(display "hello" port))))
(fixed (build-expression->derivation %store "small-fixed-rec"
builder
#:hash-algo 'sha256
#:hash (base32
"0sg9f58l1jj88w6pdrfdpj5x9b1zrwszk84j81zvby36q9whhhqa")
#:recursive? #t))
(in (derivation->output-path fixed))
(builder `(begin
(mkdir %output)
(chdir %output)
(symlink ,in "symlink")))
(drv (build-expression->derivation %store "fixed-rec-user"
builder
#:inputs `(("fixed" ,fixed)))))
(and (build-derivations %store (list drv))
(let ((out (derivation->output-path drv)))
(string=? (readlink (string-append out "/symlink")) in)))))
(test-assert "build-expression->derivation with #:references-graphs"
(let* ((input (add-text-to-store %store "foo" "hello"
(list %bash %mkdir)))
(builder '(copy-file "input" %output))
(drv (build-expression->derivation %store "references-graphs"
builder
#:references-graphs
`(("input" . ,input))))
(out (derivation->output-path drv)))
(define (deps path . deps)
(let ((count (length deps)))
(string-append path "\n\n" (number->string count) "\n"
(string-join (sort deps string<?) "\n")
(if (zero? count) "" "\n"))))
(and (build-derivations %store (list drv))
(equal? (call-with-input-file out get-string-all)
(string-concatenate
(map cdr
(sort (map (lambda (p d)
(cons p (apply deps p d)))
(list input %bash %mkdir)
(list (list %bash %mkdir)
'() '()))
(lambda (x y)
(match x
((p1 . _)
(match y
((p2 . _)
(string<? p1 p2)))))))))))))
(test-equal "map-derivation"
"hello"
(let* ((joke (package-derivation %store guile-1.8))
(good (package-derivation %store %bootstrap-guile))
(drv1 (build-expression->derivation %store "original-drv1"
#f ; systematically fail
#:guile-for-build joke))
(drv2 (build-expression->derivation %store "original-drv2"
'(call-with-output-file %output
(lambda (p)
(display "hello" p)))))
(drv3 (build-expression->derivation %store "drv-to-remap"
'(let ((in (assoc-ref
%build-inputs "in")))
(copy-file in %output))
#:inputs `(("in" ,drv1))
#:guile-for-build joke))
(drv4 (map-derivation %store drv3 `((,drv1 . ,drv2)
(,joke . ,good))))
(out (derivation->output-path drv4)))
(and (build-derivations %store (list (pk 'remapped drv4)))
(call-with-input-file out get-string-all))))
(test-equal "map-derivation, sources"
"hello"
(let* ((script1 (add-text-to-store %store "fail.sh" "exit 1"))
(script2 (add-text-to-store %store "hi.sh" "echo -n hello > $out"))
(bash-full (package-derivation %store (@ (gnu packages bash) bash)))
(drv1 (derivation %store "drv-to-remap"
;; XXX: This wouldn't work in practice, but if
;; we append "/bin/bash" then we can't replace
;; it with the bootstrap bash, which is a
;; single file.
(derivation->output-path bash-full)
`("-e" ,script1)
#:inputs `((,bash-full) (,script1))))
(drv2 (map-derivation %store drv1
`((,bash-full . ,%bash)
(,script1 . ,script2))))
(out (derivation->output-path drv2)))
(and (build-derivations %store (list (pk 'remapped* drv2)))
(call-with-input-file out get-string-all))))
(test-end)
(exit (= (test-runner-fail-count (test-runner-current)) 0))