;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017, 2018 Ludovic Courtès ;;; Copyright © 2014 Andreas Enge ;;; Copyright © 2012 Nikita Karetnikov ;;; Copyright © 2014, 2015, 2017 Mark H Weaver ;;; Copyright © 2017, 2018 Efraim Flashner ;;; Copyright © 2018 Tobias Geerinckx-Rice ;;; ;;; This file is part of GNU Guix. ;;; ;;; GNU Guix is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; GNU Guix is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with GNU Guix. If not, see . (define-module (gnu packages commencement) #:use-module ((guix licenses) #:select (gpl3+ lgpl2.0+ public-domain)) #:use-module (gnu packages) #:use-module (gnu packages bootstrap) #:use-module (gnu packages base) #:use-module (gnu packages bash) #:use-module (gnu packages gcc) #:use-module (gnu packages m4) #:use-module (gnu packages code) #:use-module (gnu packages file) #:use-module (gnu packages gawk) #:use-module (gnu packages bison) #:use-module (gnu packages flex) #:use-module (gnu packages guile) #:use-module (gnu packages gettext) #:use-module (gnu packages multiprecision) #:use-module (gnu packages compression) #:use-module (gnu packages perl) #:use-module (gnu packages linux) #:use-module (gnu packages hurd) #:use-module (gnu packages texinfo) #:use-module (gnu packages pkg-config) #:use-module (guix packages) #:use-module (guix download) #:use-module (guix build-system gnu) #:use-module (guix build-system trivial) #:use-module (guix memoization) #:use-module (guix utils) #:use-module (srfi srfi-1) #:use-module (srfi srfi-26) #:use-module (ice-9 vlist) #:use-module (ice-9 match) #:use-module (ice-9 regex)) ;;; Commentary: ;;; ;;; This is the commencement, this is where things start. Before the ;;; commencement, of course, there's the 'bootstrap' module, which provides us ;;; with the initial binaries. This module uses those bootstrap binaries to ;;; actually build up the whole tool chain that make up the implicit inputs of ;;; 'gnu-build-system'. ;;; ;;; To avoid circular dependencies, this module should not be imported ;;; directly from anywhere. ;;; ;;; Below, we frequently use "inherit" to create modified packages. The ;;; reason why we use "inherit" instead of "package/inherit" is because we do ;;; not want these commencement packages to inherit grafts. By definition, ;;; these packages are not depended on at run time by any of the packages we ;;; use. Thus it does not make sense to inherit grafts. Furthermore, those ;;; grafts would often lead to extra overhead for users who would end up ;;; downloading those "-boot0" packages just to build package replacements ;;; that are in fact not going to be used. ;;; ;;; Code: (define gnu-make-boot0 (package-with-bootstrap-guile (package (inherit gnu-make) (name "make-boot0") (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:tests? #f ; cannot run "make check" ,@(substitute-keyword-arguments (package-arguments gnu-make) ((#:phases phases) `(modify-phases ,phases (replace 'build (lambda _ (invoke "./build.sh") #t)) (replace 'install (lambda* (#:key outputs #:allow-other-keys) (let* ((out (assoc-ref outputs "out")) (bin (string-append out "/bin"))) (install-file "make" bin) #t)))))))) (native-inputs '()) ; no need for 'pkg-config' (inputs %bootstrap-inputs)))) (define diffutils-boot0 (package-with-bootstrap-guile (let ((p (package-with-explicit-inputs diffutils `(("make" ,gnu-make-boot0) ,@%bootstrap-inputs) #:guile %bootstrap-guile))) (package (inherit p) (name "diffutils-boot0") (arguments `(#:tests? #f ; the test suite needs diffutils ,@(package-arguments p))))))) (define findutils-boot0 (package-with-bootstrap-guile (package-with-explicit-inputs (package (inherit findutils) (name "findutils-boot0")) `(("make" ,gnu-make-boot0) ("diffutils" ,diffutils-boot0) ; for tests ,@%bootstrap-inputs) (current-source-location) #:guile %bootstrap-guile))) (define file-boot0 (package-with-bootstrap-guile (package-with-explicit-inputs (package (inherit file) (name "file-boot0")) `(("make" ,gnu-make-boot0) ,@%bootstrap-inputs) (current-source-location) #:guile %bootstrap-guile))) (define %boot0-inputs `(("make" ,gnu-make-boot0) ("diffutils" ,diffutils-boot0) ("findutils" ,findutils-boot0) ("file" ,file-boot0) ,@%bootstrap-inputs)) (define* (boot-triplet #:optional (system (%current-system))) ;; Return the triplet used to create the cross toolchain needed in the ;; first bootstrapping stage. (nix-system->gnu-triplet system "guix")) ;; Following Linux From Scratch, build a cross-toolchain in stage 0. That ;; toolchain actually targets the same OS and arch, but it has the advantage ;; of being independent of the libc and tools in %BOOTSTRAP-INPUTS, since ;; GCC-BOOT0 (below) is built without any reference to the target libc. (define binutils-boot0 (package-with-bootstrap-guile (package (inherit binutils) (name "binutils-cross-boot0") (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:modules ((guix build gnu-build-system) (guix build utils) (ice-9 ftw)) ; for 'scandir' #:phases (modify-phases %standard-phases (add-after 'install 'add-symlinks (lambda* (#:key outputs #:allow-other-keys) ;; The cross-gcc invokes 'as', 'ld', etc, without the ;; triplet prefix, so add symlinks. (let ((out (assoc-ref outputs "out")) (triplet-prefix (string-append ,(boot-triplet) "-"))) (define (has-triplet-prefix? name) (string-prefix? triplet-prefix name)) (define (remove-triplet-prefix name) (substring name (string-length triplet-prefix))) (with-directory-excursion (string-append out "/bin") (for-each (lambda (name) (symlink name (remove-triplet-prefix name))) (scandir "." has-triplet-prefix?))) #t)))) ,@(substitute-keyword-arguments (package-arguments binutils) ((#:configure-flags cf) `(cons ,(string-append "--target=" (boot-triplet)) ,cf))))) (inputs %boot0-inputs)))) ;; Use a "fixed" package source for this early libstdc++ variant so we can ;; update GCC 4.9 without triggering a full rebuild. (define gcc-for-libstdc++ (package (inherit gcc-4.9) (source (origin (inherit (package-source gcc-4.9)) (patches (search-patches "gcc-4.9-libsanitizer-fix.patch" "gcc-arm-bug-71399.patch" "gcc-asan-missing-include.patch" "gcc-libvtv-runpath.patch" "gcc-fix-texi2pod.patch")))))) (define libstdc++-boot0 ;; GCC's libcc1 is always built as a shared library (the top-level ;; 'Makefile.def' forcefully adds --enable-shared) and thus needs to refer ;; to libstdc++.so. We cannot build libstdc++-5.3 because it relies on ;; C++14 features missing in some of our bootstrap compilers. (let ((lib (package-with-bootstrap-guile (make-libstdc++ gcc-for-libstdc++)))) (package (inherit lib) (name "libstdc++-boot0") (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f ;; XXX: libstdc++.so NEEDs ld.so for some reason. #:validate-runpath? #f ,@(package-arguments lib))) (inputs %boot0-inputs) (native-inputs '())))) (define gcc-boot0 (package-with-bootstrap-guile (package (inherit gcc) (name "gcc-cross-boot0") (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:modules ((guix build gnu-build-system) (guix build utils) (ice-9 regex) (srfi srfi-1) (srfi srfi-26)) ,@(substitute-keyword-arguments (package-arguments gcc) ((#:configure-flags flags) `(append (list ,(string-append "--target=" (boot-triplet)) ;; No libc yet. "--without-headers" ;; Disable features not needed at this stage. "--disable-shared" "--enable-languages=c,c++" ;; libstdc++ cannot be built at this stage ;; ("Link tests are not allowed after ;; GCC_NO_EXECUTABLES."). "--disable-libstdc++-v3" "--disable-threads" "--disable-libmudflap" "--disable-libatomic" "--disable-libsanitizer" "--disable-libitm" "--disable-libgomp" "--disable-libcilkrts" "--disable-libvtv" "--disable-libssp" "--disable-libquadmath" "--disable-decimal-float") (remove (cut string-match "--(with-system-zlib|enable-languages.*)" <>) ,flags))) ((#:phases phases) `(modify-phases ,phases (add-after 'unpack 'unpack-gmp&co (lambda* (#:key inputs #:allow-other-keys) (let ((gmp (assoc-ref %build-inputs "gmp-source")) (mpfr (assoc-ref %build-inputs "mpfr-source")) (mpc (assoc-ref %build-inputs "mpc-source"))) ;; To reduce the set of pre-built bootstrap inputs, build ;; GMP & co. from GCC. (for-each (lambda (source) (invoke "tar" "xvf" source)) (list gmp mpfr mpc)) ;; Create symlinks like `gmp' -> `gmp-x.y.z'. ,@(map (lambda (lib) ;; Drop trailing letters, as gmp-6.0.0a unpacks ;; into gmp-6.0.0. `(symlink ,(string-trim-right (package-full-name lib "-") char-set:letter) ,(package-name lib))) (list gmp-6.0 mpfr mpc)) #t))) (add-after 'install 'symlink-libgcc_eh (lambda* (#:key outputs #:allow-other-keys) (let ((out (assoc-ref outputs "lib"))) ;; Glibc wants to link against libgcc_eh, so provide ;; it. (with-directory-excursion (string-append out "/lib/gcc/" ,(boot-triplet) "/" ,(package-version gcc)) (symlink "libgcc.a" "libgcc_eh.a")) #t)))))))) (inputs `(("gmp-source" ,(package-source gmp-6.0)) ("mpfr-source" ,(package-source mpfr)) ("mpc-source" ,(package-source mpc)) ("binutils-cross" ,binutils-boot0) ;; The libstdc++ that libcc1 links against. ("libstdc++" ,libstdc++-boot0) ;; Call it differently so that the builder can check whether ;; the "libc" input is #f. ("libc-native" ,@(assoc-ref %boot0-inputs "libc")) ,@(alist-delete "libc" %boot0-inputs))) ;; No need for the native-inputs to build the documentation at this stage. (native-inputs `())))) (define perl-boot0 (let ((perl (package (inherit perl) (name "perl-boot0") (arguments ;; At the very least, this must not depend on GCC & co. (let ((args `(#:disallowed-references ,(list %bootstrap-binutils)))) (substitute-keyword-arguments (package-arguments perl) ((#:phases phases) `(modify-phases ,phases ;; Pthread support is missing in the bootstrap compiler ;; (broken spec file), so disable it. (add-before 'configure 'disable-pthreads (lambda _ (substitute* "Configure" (("^libswanted=(.*)pthread" _ before) (string-append "libswanted=" before))) #t)))) ;; Do not configure with '-Dusethreads' since pthread ;; support is missing. ((#:configure-flags configure-flags) `(delete "-Dusethreads" ,configure-flags)))))))) (package-with-bootstrap-guile (package-with-explicit-inputs perl %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define bison-boot0 ;; This Bison is needed to build MiG so we need it early in the process. ;; It is also needed to rebuild Bash's parser, which is modified by ;; its CVE patches. Remove it when it's no longer needed. (let* ((m4 (package-with-bootstrap-guile (package-with-explicit-inputs m4 %boot0-inputs (current-source-location) #:guile %bootstrap-guile))) (bison (package (inherit bison) (propagated-inputs `(("m4" ,m4))) (inputs '()) ;remove Flex... (arguments '(#:tests? #f ;... and thus disable tests ;; Zero timestamps in liby.a; this must be done ;; explicitly here because the bootstrap Binutils don't ;; do that (default is "cru".) #:make-flags '("ARFLAGS=crD" "RANLIB=ranlib -D" "V=1")))))) (package (inherit (package-with-bootstrap-guile (package-with-explicit-inputs bison %boot0-inputs (current-source-location) #:guile %bootstrap-guile))) (native-inputs `(("perl" ,perl-boot0)))))) (define flex-boot0 ;; This Flex is needed to build MiG. (let* ((flex (package (inherit flex) (native-inputs `(("bison" ,bison-boot0))) (propagated-inputs `(("m4" ,m4))) (inputs `(("indent" ,indent))) (arguments '(#:tests? #f))))) (package-with-bootstrap-guile (package-with-explicit-inputs flex %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define linux-libre-headers-boot0 (mlambda () "Return Linux-Libre header files for the bootstrap environment." ;; Note: this is wrapped in a thunk to nicely handle circular dependencies ;; between (gnu packages linux) and this module. Additionally, memoize ;; the result to play well with further memoization and code that relies ;; on pointer identity; see . (package-with-bootstrap-guile (package (inherit linux-libre-headers) (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f ,@(package-arguments linux-libre-headers))) (native-inputs `(("perl" ,perl-boot0) ,@%boot0-inputs)))))) (define gnumach-headers-boot0 (package-with-bootstrap-guile (package-with-explicit-inputs gnumach-headers %boot0-inputs (current-source-location) #:guile %bootstrap-guile))) (define mig-boot0 (let* ((mig (package (inherit mig) (native-inputs `(("bison" ,bison-boot0) ("flex" ,flex-boot0))) (inputs `(("flex" ,flex-boot0))) (arguments `(#:configure-flags `(,(string-append "LDFLAGS=-Wl,-rpath=" (assoc-ref %build-inputs "flex") "/lib/"))))))) (package-with-bootstrap-guile (package-with-explicit-inputs mig %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define hurd-headers-boot0 (let ((hurd-headers (package (inherit hurd-headers) (native-inputs `(("mig" ,mig-boot0))) (inputs '())))) (package-with-bootstrap-guile (package-with-explicit-inputs hurd-headers %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define hurd-minimal-boot0 (let ((hurd-minimal (package (inherit hurd-minimal) (native-inputs `(("mig" ,mig-boot0))) (inputs '())))) (package-with-bootstrap-guile (package-with-explicit-inputs hurd-minimal %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define hurd-core-headers-boot0 (mlambda () "Return the Hurd and Mach headers as well as initial Hurd libraries for the bootstrap environment." (package-with-bootstrap-guile (package (inherit hurd-core-headers) (arguments `(#:guile ,%bootstrap-guile ,@(package-arguments hurd-core-headers))) (inputs `(("gnumach-headers" ,gnumach-headers-boot0) ("hurd-headers" ,hurd-headers-boot0) ("hurd-minimal" ,hurd-minimal-boot0) ,@%boot0-inputs)))))) (define* (kernel-headers-boot0 #:optional (system (%current-system))) (match system ("i586-gnu" (hurd-core-headers-boot0)) (_ (linux-libre-headers-boot0)))) (define texinfo-boot0 ;; Texinfo used to build libc's manual. ;; We build without ncurses because it fails to build at this stage, and ;; because we don't need the stand-alone Info reader. ;; Also, use %BOOT0-INPUTS to avoid building Perl once more. (let ((texinfo (package (inherit texinfo) (native-inputs '()) (inputs `(("perl" ,perl-boot0))) ;; Some of Texinfo 6.1's tests would fail with "Couldn't ;; set UTF-8 character type in locale" but we don't have a ;; UTF-8 locale at this stage, so skip them. (arguments '(#:tests? #f))))) (package-with-bootstrap-guile (package-with-explicit-inputs texinfo %boot0-inputs (current-source-location) #:guile %bootstrap-guile)))) (define ld-wrapper-boot0 ;; We need this so binaries on Hurd will have libmachuser and libhurduser ;; in their RUNPATH, otherwise validate-runpath will fail. (make-ld-wrapper "ld-wrapper-boot0" #:target boot-triplet #:binutils binutils-boot0 #:guile %bootstrap-guile #:bash (car (assoc-ref %boot0-inputs "bash")))) (define %boot1-inputs ;; 2nd stage inputs. `(("gcc" ,gcc-boot0) ("ld-wrapper-cross" ,ld-wrapper-boot0) ("binutils-cross" ,binutils-boot0) ,@(alist-delete "binutils" %boot0-inputs))) (define glibc-final-with-bootstrap-bash ;; The final libc, "cross-built". If everything went well, the resulting ;; store path has no dependencies. Actually, the really-final libc is ;; built just below; the only difference is that this one uses the ;; bootstrap Bash. (package-with-bootstrap-guile (package (inherit glibc) (name "glibc-intermediate") (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f ,@(substitute-keyword-arguments (package-arguments glibc) ((#:configure-flags flags) `(append (list ,(string-append "--host=" (boot-triplet)) ,(string-append "--build=" (nix-system->gnu-triplet)) ;; Build Sun/ONC RPC support. In particular, ;; install rpc/*.h. "--enable-obsolete-rpc") ,flags)) ((#:phases phases) `(modify-phases ,phases (add-before 'configure 'pre-configure (lambda* (#:key inputs #:allow-other-keys) ;; Don't clobber CPATH with the bootstrap libc. (setenv "NATIVE_CPATH" (getenv "CPATH")) (unsetenv "CPATH") ;; Tell 'libpthread' where to find 'libihash' on Hurd systems. ,@(if (hurd-triplet? (%current-system)) `((substitute* "libpthread/Makefile" (("LDLIBS-pthread.so =.*") (string-append "LDLIBS-pthread.so = " (assoc-ref %build-inputs "kernel-headers") "/lib/libihash.a\n")))) '()) ;; 'rpcgen' needs native libc headers to be built. (substitute* "sunrpc/Makefile" (("sunrpc-CPPFLAGS =.*" all) (string-append "CPATH = $(NATIVE_CPATH)\n" "export CPATH\n" all "\n"))) #t))))))) (propagated-inputs `(("kernel-headers" ,(kernel-headers-boot0)))) (native-inputs `(("bison" ,bison-boot0) ("texinfo" ,texinfo-boot0) ("perl" ,perl-boot0))) (inputs `(;; The boot inputs. That includes the bootstrap libc. We don't want ;; it in $CPATH, hence the 'pre-configure' phase above. ,@%boot1-inputs ;; A native MiG is needed to build Glibc on Hurd. ,@(if (hurd-triplet? (%current-system)) `(("mig" ,mig-boot0)) '()) ;; A native GCC is needed to build `cross-rpcgen'. ("native-gcc" ,@(assoc-ref %boot0-inputs "gcc")) ;; Here, we use the bootstrap Bash, which is not satisfactory ;; because we don't want to depend on bootstrap tools. ("static-bash" ,@(assoc-ref %boot0-inputs "bash"))))))) (define (cross-gcc-wrapper gcc binutils glibc bash) "Return a wrapper for the pseudo-cross toolchain GCC/BINUTILS/GLIBC that makes it available under the native tool names." (package (inherit gcc) (name (string-append (package-name gcc) "-wrapped")) (source #f) (build-system trivial-build-system) (outputs '("out")) (arguments `(#:guile ,%bootstrap-guile #:modules ((guix build utils)) #:builder (begin (use-modules (guix build utils)) (let* ((binutils (assoc-ref %build-inputs "binutils")) (gcc (assoc-ref %build-inputs "gcc")) (libc (assoc-ref %build-inputs "libc")) (bash (assoc-ref %build-inputs "bash")) (out (assoc-ref %outputs "out")) (bindir (string-append out "/bin")) (triplet ,(boot-triplet))) (define (wrap-program program) ;; GCC-BOOT0 is a libc-less cross-compiler, so it ;; needs to be told where to find the crt files and ;; the dynamic linker. (call-with-output-file program (lambda (p) (format p "#!~a/bin/bash exec ~a/bin/~a-~a -B~a/lib -Wl,-dynamic-linker -Wl,~a/~a \"$@\"~%" bash gcc triplet program libc libc ,(glibc-dynamic-linker)))) (chmod program #o555)) (mkdir-p bindir) (with-directory-excursion bindir (for-each (lambda (tool) (symlink (string-append binutils "/bin/" triplet "-" tool) tool)) '("ar" "ranlib")) (for-each wrap-program '("gcc" "g++"))) #t)))) (native-inputs `(("binutils" ,binutils) ("gcc" ,gcc) ("libc" ,glibc) ("bash" ,bash))) (inputs '()))) (define static-bash-for-glibc ;; A statically-linked Bash to be used by GLIBC-FINAL in system(3) & co. (let* ((gcc (cross-gcc-wrapper gcc-boot0 binutils-boot0 glibc-final-with-bootstrap-bash (car (assoc-ref %boot1-inputs "bash")))) (bash (package (inherit static-bash) (arguments (substitute-keyword-arguments (package-arguments static-bash) ((#:guile _ #f) '%bootstrap-guile) ((#:configure-flags flags '()) ;; Add a '-L' flag so that the pseudo-cross-ld of ;; BINUTILS-BOOT0 can find libc.a. `(append ,flags (list (string-append "LDFLAGS=-static -L" (assoc-ref %build-inputs "libc:static") "/lib")))))))) (inputs `(("gcc" ,gcc) ("libc" ,glibc-final-with-bootstrap-bash) ("libc:static" ,glibc-final-with-bootstrap-bash "static") ,@(fold alist-delete %boot1-inputs '("gcc" "libc"))))) (package-with-bootstrap-guile (package-with-explicit-inputs bash inputs (current-source-location) #:guile %bootstrap-guile)))) (define gettext-boot0 ;; A minimal gettext used during bootstrap. (let ((gettext-minimal (package (inherit gettext-minimal) (name "gettext-boot0") (inputs '()) ;zero dependencies (arguments (substitute-keyword-arguments `(#:tests? #f ,@(package-arguments gettext-minimal)) ((#:phases phases) `(modify-phases ,phases ;; Build only the tools. (add-after 'unpack 'chdir (lambda _ (chdir "gettext-tools") #t)) ;; Some test programs require pthreads, which we don't have. (add-before 'configure 'no-test-programs (lambda _ (substitute* "tests/Makefile.in" (("^PROGRAMS =.*$") "PROGRAMS =\n")) #t)) ;; Don't try to link against libexpat. (delete 'link-expat) (delete 'patch-tests)))))))) (package-with-bootstrap-guile (package-with-explicit-inputs gettext-minimal %boot1-inputs (current-source-location) #:guile %bootstrap-guile)))) (define glibc-final ;; The final glibc, which embeds the statically-linked Bash built above. ;; Use 'package/inherit' so we get the 'replacement' of 'glibc', if any. (let ((glibc (package-with-bootstrap-guile glibc))) (package/inherit glibc (name "glibc") (inputs `(("static-bash" ,static-bash-for-glibc) ,@(alist-delete "static-bash" (package-inputs glibc-final-with-bootstrap-bash)))) ;; This time we need 'msgfmt' to install all the libc.mo files. (native-inputs `(,@(package-native-inputs glibc-final-with-bootstrap-bash) ("gettext" ,gettext-boot0))) (propagated-inputs (package-propagated-inputs glibc-final-with-bootstrap-bash)) ;; The final libc only refers to itself, but the 'debug' output contains ;; references to GCC-BOOT0 and to the Linux headers. XXX: Would be great ;; if 'allowed-references' were per-output. (arguments `(#:allowed-references ,(cons* `(,gcc-boot0 "lib") (kernel-headers-boot0) static-bash-for-glibc (package-outputs glibc-final-with-bootstrap-bash)) ,@(package-arguments glibc-final-with-bootstrap-bash)))))) (define gcc-boot0-wrapped ;; Make the cross-tools GCC-BOOT0 and BINUTILS-BOOT0 available under the ;; non-cross names. (cross-gcc-wrapper gcc-boot0 binutils-boot0 glibc-final (car (assoc-ref %boot1-inputs "bash")))) (define %boot2-inputs ;; 3rd stage inputs. `(("libc" ,glibc-final) ("libc:static" ,glibc-final "static") ("gcc" ,gcc-boot0-wrapped) ,@(fold alist-delete %boot1-inputs '("libc" "gcc")))) (define binutils-final (package-with-bootstrap-guile (package (inherit binutils) (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:allowed-references ("out" ,glibc-final) ,@(package-arguments binutils))) (inputs %boot2-inputs)))) (define libstdc++ ;; Intermediate libstdc++ that will allow us to build the final GCC ;; (remember that GCC-BOOT0 cannot build libstdc++.) (let ((lib (package-with-bootstrap-guile (make-libstdc++ gcc)))) (package (inherit lib) (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:allowed-references ("out") ;; XXX: libstdc++.so NEEDs ld.so for some reason. #:validate-runpath? #f ;; All of the package arguments from 'make-libstdc++ ;; except for the configure-flags. ,@(package-arguments lib) #:configure-flags `("--disable-shared" "--disable-libstdcxx-threads" "--disable-libstdcxx-pch" ,(string-append "--with-gxx-include-dir=" (assoc-ref %outputs "out") "/include")))) (outputs '("out")) (inputs %boot2-inputs) (synopsis "GNU C++ standard library (intermediate)")))) (define zlib-final ;; Zlib used by GCC-FINAL. (package-with-bootstrap-guile (package (inherit zlib) (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:allowed-references ("out" ,glibc-final) ,@(package-arguments zlib))) (inputs %boot2-inputs)))) (define ld-wrapper-boot3 ;; A linker wrapper that uses the bootstrap Guile. (make-ld-wrapper "ld-wrapper-boot3" #:binutils binutils-final #:guile %bootstrap-guile #:bash (car (assoc-ref %boot2-inputs "bash")))) (define gcc-final ;; The final GCC. (package (inherit gcc-boot0) (name "gcc") ;; XXX: Currently #:allowed-references applies to all the outputs but the ;; "debug" output contains disallowed references, notably ;; linux-libre-headers. Disable the debugging output to work around that. (outputs (delete "debug" (package-outputs gcc-boot0))) (arguments `(#:guile ,%bootstrap-guile #:implicit-inputs? #f #:allowed-references ("out" "lib" ,zlib-final ,glibc-final ,static-bash-for-glibc) ;; Things like libasan.so and libstdc++.so NEED ld.so for some ;; reason, but it is not in their RUNPATH. This is a false ;; positive, so turn it off. #:validate-runpath? #f ;; Build again GMP & co. within GCC's build process, because it's hard ;; to do outside (because GCC-BOOT0 is a cross-compiler, and thus ;; doesn't honor $LIBRARY_PATH, which breaks `gnu-build-system'.) ,@(substitute-keyword-arguments (package-arguments gcc-boot0) ((#:configure-flags boot-flags) (let loop ((args (package-arguments gcc))) (match args ((#:configure-flags normal-flags _ ...) normal-flags) ((_ rest ...) (loop rest))))) ((#:make-flags flags) ;; Since $LIBRARY_PATH is not honored, add the relevant flags. `(let ((zlib (assoc-ref %build-inputs "zlib"))) (map (lambda (flag) (if (string-prefix? "LDFLAGS=" flag) (string-append flag " -L" (assoc-ref %build-inputs "libstdc++") "/lib -L" zlib "/lib -Wl,-rpath=" zlib "/lib") flag)) ,flags))) ((#:phases phases) `(alist-delete 'symlink-libgcc_eh ,phases))))) ;; This time we want Texinfo, so we get the manual. Add ;; STATIC-BASH-FOR-GLIBC so that it's used in the final shebangs of ;; scripts such as 'mkheaders' and 'fixinc.sh' (XXX: who cares about these ;; scripts?). (native-inputs `(("texinfo" ,texinfo-boot0) ("perl" ,perl-boot0) ;for manpages ("static-bash" ,static-bash-for-glibc) ,@(package-native-inputs gcc-boot0))) (inputs `(("gmp-source" ,(bootstrap-origin (package-source gmp-6.0))) ("mpfr-source" ,(package-source mpfr)) ("mpc-source" ,(package-source mpc)) ("ld-wrapper" ,ld-wrapper-boot3) ("binutils" ,binutils-final) ("libstdc++" ,libstdc++) ("zlib" ,zlib-final) ,@%boot2-inputs)))) (define %boot3-inputs ;; 4th stage inputs. `(("gcc" ,gcc-final) ("ld-wrapper" ,ld-wrapper-boot3) ,@(alist-delete "gcc" %boot2-inputs))) (define bash-final ;; Link with `-static-libgcc' to make sure we don't retain a reference ;; to the bootstrap GCC. Use "bash-minimal" to avoid an extra dependency ;; on Readline and ncurses. (let ((bash (package (inherit bash-minimal) (arguments `(#:disallowed-references ,(assoc-ref %boot3-inputs "coreutils&co") ,@(package-arguments bash-minimal)))))) (package-with-bootstrap-guile (package-with-explicit-inputs (static-libgcc-package bash) %boot3-inputs (current-source-location) #:guile %bootstrap-guile)))) (define %boot4-inputs ;; Now use the final Bash. `(("bash" ,bash-final) ,@(alist-delete "bash" %boot3-inputs))) (define-public guile-final ;; This package must be public because other modules refer to it. However, ;; mark it as hidden so that 'fold-packages' ignores it. (package-with-bootstrap-guile (package-with-explicit-inputs (hidden-package guile-2.2/fixed) %boot4-inputs (current-source-location) #:guile %bootstrap-guile))) (define glibc-utf8-locales-final ;; Now that we have GUILE-FINAL, build the UTF-8 locales. They are needed ;; by the build processes afterwards so their 'scm_to_locale_string' works ;; with the full range of Unicode codepoints (remember ;; 'scm_to_locale_string' is called every time a string is passed to a C ;; function.) (package (inherit glibc-utf8-locales) (inputs `(("glibc" ,glibc-final) ("gzip" ,(package-with-explicit-inputs gzip %boot4-inputs (current-source-location) #:guile %bootstrap-guile)))))) (define-public ld-wrapper ;; The final 'ld' wrapper, which uses the final Guile and Binutils. (make-ld-wrapper "ld-wrapper" #:binutils binutils-final #:guile guile-final #:bash bash-final)) (define %boot5-inputs ;; Now with UTF-8 locales. Remember that the bootstrap binaries were built ;; with an older libc, which cannot load the new locale format. See ;; . `(("locales" ,glibc-utf8-locales-final) ,@%boot4-inputs)) (define gnu-make-final ;; The final GNU Make, which uses the final Guile. (package-with-bootstrap-guile (package-with-explicit-inputs gnu-make `(("guile" ,guile-final) ,@%boot5-inputs) (current-source-location)))) (define coreutils-final ;; The final Coreutils. Treat them specially because some packages, such as ;; Findutils, keep a reference to the Coreutils they were built with. (package-with-bootstrap-guile (package-with-explicit-inputs coreutils %boot5-inputs (current-source-location) ;; Use the final Guile, linked against the ;; final libc with working iconv, so that ;; 'substitute*' works well when touching ;; test files in Gettext. #:guile guile-final))) (define grep-final ;; The final grep. Gzip holds a reference to it (via zgrep), so it must be ;; built before gzip. (let ((grep (package-with-bootstrap-guile (package-with-explicit-inputs grep %boot5-inputs (current-source-location) #:guile guile-final)))) (package/inherit grep (inputs (alist-delete "pcre" (package-inputs grep))) (native-inputs `(("perl" ,perl-boot0)))))) (define %boot6-inputs ;; Now use the final Coreutils. `(("coreutils" ,coreutils-final) ("grep" ,grep-final) ,@%boot5-inputs)) (define sed-final ;; The final sed. (let ((sed (package-with-bootstrap-guile (package-with-explicit-inputs sed %boot6-inputs (current-source-location) #:guile guile-final)))) (package/inherit sed (native-inputs `(("perl" ,perl-boot0)))))) (define-public %final-inputs ;; Final derivations used as implicit inputs by 'gnu-build-system'. We ;; still use 'package-with-bootstrap-guile' so that the bootstrap tools are ;; used for origins that have patches, thereby avoiding circular ;; dependencies. (let ((finalize (compose package-with-bootstrap-guile (cut package-with-explicit-inputs <> %boot6-inputs (current-source-location))))) `(,@(map (match-lambda ((name package) (list name (finalize package)))) `(("tar" ,tar) ("gzip" ,gzip) ("bzip2" ,bzip2) ("xz" ,xz) ("file" ,file) ("diffutils" ,diffutils) ("patch" ,patch) ("findutils" ,findutils) ("gawk" ,gawk))) ("sed" ,sed-final) ("grep" ,grep-final) ("coreutils" ,coreutils-final) ("make" ,gnu-make-final) ("bash" ,bash-final) ("ld-wrapper" ,ld-wrapper) ("binutils" ,binutils-final) ("gcc" ,gcc-final) ("libc" ,glibc-final) ("libc:static" ,glibc-final "static") ("locales" ,glibc-utf8-locales-final)))) (define-public canonical-package (let ((name->package (fold (lambda (input result) (match input ((_ package . outputs) (vhash-cons (package-full-name package) package result)))) vlist-null `(("guile" ,guile-final) ,@%final-inputs)))) (lambda (package) "Return the 'canonical' variant of PACKAGE---i.e., if PACKAGE is one of the implicit inputs of 'gnu-build-system', return that one, otherwise return PACKAGE. The goal is to avoid duplication in cases like GUILE-FINAL vs. GUILE-2.2, COREUTILS-FINAL vs. COREUTILS, etc." ;; XXX: This doesn't handle dependencies of the final inputs, such as ;; libunistring, GMP, etc. (match (vhash-assoc (package-full-name package) name->package) ((_ . canon) ;; In general we want CANON, except if we're cross-compiling: CANON ;; uses explicit inputs, so it is "anchored" in the bootstrapped ;; process, with dependencies on things that cannot be ;; cross-compiled. (if (%current-target-system) package canon)) (_ package))))) ;;; ;;; GCC toolchain. ;;; (define (make-gcc-toolchain gcc) "Return a complete toolchain for GCC." (package (name "gcc-toolchain") (version (package-version gcc)) (source #f) (build-system trivial-build-system) (arguments '(#:modules ((guix build union)) #:builder (begin (use-modules (ice-9 match) (srfi srfi-26) (guix build union)) (let ((out (assoc-ref %outputs "out"))) (match %build-inputs (((names . directories) ...) (union-build out directories))) (union-build (assoc-ref %outputs "debug") (list (assoc-ref %build-inputs "libc-debug"))) (union-build (assoc-ref %outputs "static") (list (assoc-ref %build-inputs "libc-static"))) #t)))) (native-search-paths (package-native-search-paths gcc)) (search-paths (package-search-paths gcc)) (license (package-license gcc)) (synopsis "Complete GCC tool chain for C/C++ development") (description "This package provides a complete GCC tool chain for C/C++ development to be installed in user profiles. This includes GCC, as well as libc (headers and binaries, plus debugging symbols in the 'debug' output), and Binutils.") (home-page "https://gcc.gnu.org/") (outputs '("out" "debug" "static")) ;; The main raison d'être of this "meta-package" is (1) to conveniently ;; install everything that we need, and (2) to make sure ld-wrapper comes ;; before Binutils' ld in the user's profile. (inputs `(("gcc" ,gcc) ("ld-wrapper" ,(car (assoc-ref %final-inputs "ld-wrapper"))) ("binutils" ,binutils-final) ("libc" ,glibc-final) ("libc-debug" ,glibc-final "debug") ("libc-static" ,glibc-final "static"))))) (define-public gcc-toolchain-4.8 (make-gcc-toolchain gcc-4.8)) (define-public gcc-toolchain-4.9 (make-gcc-toolchain gcc-4.9)) (define-public gcc-toolchain (make-gcc-toolchain gcc-final)) (define-public gcc-toolchain-5 gcc-toolchain) (define-public gcc-toolchain-6 (make-gcc-toolchain gcc-6)) (define-public gcc-toolchain-7 (make-gcc-toolchain gcc-7)) (define-public gcc-toolchain-8 (make-gcc-toolchain gcc-8)) ;;; commencement.scm ends here