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Initial commit.
2012-04-18 21:21:11 +00:00
;;; Guix --- Nix package management from Guile. -*- coding: utf-8 -*-
;;; Copyright (C) 2012 Ludovic Courtès <ludo@gnu.org>
;;;
;;; This file is part of Guix.
;;;
;;; 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.
;;;
;;; 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 Guix. If not, see <http://www.gnu.org/licenses/>.
(define-module (guix)
#:use-module (rnrs bytevectors)
#:use-module (rnrs io ports)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-9)
#:use-module (srfi srfi-26)
#:use-module (ice-9 match)
#:use-module (ice-9 rdelim)
#:export (nix-server?
nix-server-major-version
nix-server-minor-version
nix-server-socket
open-connection
set-build-options
add-text-to-store
add-to-store))
(define %protocol-version #x109)
(define %worker-magic-1 #x6e697863)
(define %worker-magic-2 #x6478696f)
(define (protocol-major magic)
(logand magic #xff00))
(define (protocol-minor magic)
(logand magic #x00ff))
(define-syntax define-enumerate-type
(syntax-rules ()
((_ name->int (name id) ...)
(define-syntax name->int
(syntax-rules (name ...)
((_ name) id) ...)))))
(define-enumerate-type operation-id
;; operation numbers from worker-protocol.hh
(quit 0)
(valid-path? 1)
(has-substitutes? 3)
(query-path-hash 4)
(query-references 5)
(query-referrers 6)
(add-to-store 7)
(add-text-to-store 8)
(build-derivations 9)
(ensure-path 10)
(add-temp-root 11)
(add-indirect-root 12)
(sync-with-gc 13)
(find-roots 14)
(export-path 16)
(query-deriver 18)
(set-options 19)
(collect-garbage 20)
(query-substitutable-path-info 21)
(query-derivation-outputs 22)
(query-valid-paths 23)
(query-failed-paths 24)
(clear-failed-paths 25)
(query-path-info 26)
(import-paths 27)
(query-derivation-output-names 28))
(define-enumerate-type hash-algo
;; hash.hh
(md5 1)
(sha1 2)
(sha256 3))
(define %nix-state-dir "/nix/var/nix")
(define %default-socket-path
(string-append %nix-state-dir "/daemon-socket/socket"))
;; serialize.cc
(define (write-int n p)
(let ((b (make-bytevector 8 0)))
(bytevector-u32-set! b 0 n (endianness little))
(put-bytevector p b)))
(define (read-int p)
(let ((b (get-bytevector-n p 8)))
(bytevector-u32-ref b 0 (endianness little))))
(define (write-long-long n p)
(let ((b (make-bytevector 8 0)))
(bytevector-u64-set! b 0 n (endianness little))
(put-bytevector p b)))
(define write-padding
(let ((zero (make-bytevector 8 0)))
(lambda (n p)
(let ((m (modulo n 8)))
(or (zero? m)
(put-bytevector p zero 0 (- 8 m)))))))
(define (write-string s p)
(let ((b (string->utf8 s)))
(write-int (bytevector-length b) p)
(put-bytevector p b)
(write-padding (bytevector-length b) p)))
(define (read-string p)
(let* ((len (read-int p))
(m (modulo len 8))
(bv (get-bytevector-n p len))
(str (utf8->string bv)))
(or (zero? m)
(get-bytevector-n p (- 8 m)))
str))
(define (write-string-list l p)
(write-int (length l) p)
(for-each (cut write-string <> p) l))
(define (read-store-path p)
(read-string p)) ; TODO: assert path
(define (write-contents file p)
"Write the contents of FILE to output port P."
(define (dump in size)
(define buf-size 65536)
(define buf (make-bytevector buf-size))
(let loop ((left size))
(if (<= left 0)
0
(let ((read (get-bytevector-n! in buf 0 buf-size)))
(if (eof-object? read)
left
(begin
(put-bytevector p buf 0 read)
(loop (- left read))))))))
(let ((size (stat:size (lstat file))))
(write-string "contents" p)
(write-long-long size p)
(call-with-input-file file
(lambda (p)
(dump p size)))
(write-padding size p)))
(define (write-file f p)
(define %archive-version-1 "nix-archive-1")
(let ((s (lstat f)))
(write-string %archive-version-1 p)
(write-string "(" p)
(case (stat:type s)
((regular)
(write-string "type" p)
(write-string "regular" p)
(if (not (zero? (logand (stat:mode s) #o100)))
(begin
(write-string "executable" p)
(write-string "" p)))
(write-contents f p)
(write-string ")" p))
((directory)
(write-string "type" p)
(write-string "directory" p)
(error "ENOSYS"))
(else
(error "ENOSYS")))))
(define-syntax write-arg
(syntax-rules (integer boolean file string string-list)
((_ integer arg p)
(write-int arg p))
((_ boolean arg p)
(write-int (if arg 1 0) p))
((_ file arg p)
(write-file arg p))
((_ string arg p)
(write-string arg p))
((_ string-list arg p)
(write-string-list arg p))))
(define-syntax read-arg
(syntax-rules (integer boolean string store-path)
((_ integer p)
(read-int p))
((_ boolean p)
(not (zero? (read-int p))))
((_ string p)
(read-string p))
((_ store-path p)
(read-store-path p))))
;; remote-store.cc
(define-record-type <nix-server>
(%make-nix-server socket major minor)
nix-server?
(socket nix-server-socket)
(major nix-server-major-version)
(minor nix-server-minor-version))
(define* (open-connection #:optional (file %default-socket-path))
(let ((s (with-fluids ((%default-port-encoding #f))
;; This trick allows use of the `scm_c_read' optimization.
(socket PF_UNIX SOCK_STREAM 0)))
(a (make-socket-address PF_UNIX file)))
(connect s a)
(write-int %worker-magic-1 s)
(let ((r (read-int s)))
(and (eqv? r %worker-magic-2)
(let ((v (read-int s)))
(and (eqv? (protocol-major %protocol-version)
(protocol-major v))
(begin
(write-int %protocol-version s)
(let ((s (%make-nix-server s
(protocol-major v)
(protocol-minor v))))
(process-stderr s)
s))))))))
(define (process-stderr server)
(define p
(nix-server-socket server))
;; magic cookies from worker-protocol.hh
(define %stderr-next #x6f6c6d67)
(define %stderr-read #x64617461) ; data needed from source
(define %stderr-write #x64617416) ; data for sink
(define %stderr-last #x616c7473)
(define %stderr-error #x63787470)
(let ((k (read-int p)))
(cond ((= k %stderr-write)
(read-string p))
((= k %stderr-read)
(let ((len (read-int p)))
(read-string p) ; FIXME: what to do?
))
((= k %stderr-next)
(let ((s (read-string p)))
(display s (current-error-port))
s))
((= k %stderr-error)
(let ((error (read-string p))
(status (if (>= (nix-server-minor-version server) 8)
(read-int p)
1)))
(format (current-error-port) "error: ~a (status: ~a)~%"
error status)
error))
((= k %stderr-last)
#t)
(else
(error "invalid standard error code" k)))))
(define* (set-build-options server
#:key keep-failed? keep-going? try-fallback?
(verbosity 0)
(max-build-jobs (current-processor-count))
(max-silent-time 3600)
(use-build-hook? #t)
(build-verbosity 0)
(log-type 0)
(print-build-trace #t))
;; Must be called after `open-connection'.
(define socket
(nix-server-socket server))
(let-syntax ((send (syntax-rules ()
((_ option ...)
(for-each (lambda (i)
(cond ((boolean? i)
(write-int (if i 1 0) socket))
((integer? i)
(write-int i socket))
(else
(error "invalid build option"
i))))
(list option ...))))))
(send (operation-id set-options)
keep-failed? keep-going? try-fallback? verbosity
max-build-jobs max-silent-time)
(if (>= (nix-server-minor-version server) 2)
(send use-build-hook?))
(if (>= (nix-server-minor-version server) 4)
(send build-verbosity log-type print-build-trace))
(process-stderr server)))
(define-syntax define-operation
(syntax-rules ()
((_ (name (type arg) ...) docstring return)
(define (name server arg ...)
docstring
(let ((s (nix-server-socket server)))
(write-int (operation-id name) s)
(write-arg type arg s)
...
(process-stderr server)
(read-arg return s))))))
(define-operation (add-text-to-store (string name) (string text)
(string-list references))
"Add TEXT under file NAME in the store."
store-path)
(define-operation (add-to-store (string basename)
(integer algo)
(boolean sha256-and-recursive?)
(boolean recursive?)
(file file-name))
"Add the contents of FILE-NAME under BASENAME to the store."
store-path)
(define-operation (build-derivations (string-list derivations))
"Build DERIVATIONS; return #t on success."
boolean)
;; derivations
(define-record-type <derivation>
(make-derivation outputs inputs sources system builder args env-vars)
derivation?
(outputs derivation-outputs) ; list of name/<derivation-output> pairs
(inputs derivation-inputs) ; list of <derivation-input>
(sources derivation-sources) ; list of store paths
(system derivation-system) ; string
(builder derivation-builder) ; store path
(args derivation-builder-arguments) ; list of strings
(env-vars derivation-builder-environment-vars)) ; list of name/value pairs
(define-record-type <derivation-output>
(make-derivation-output path hash-algo hash)
derivation-output?
(path derivation-output-path) ; store path
(hash-algo derivation-output-hash-algo) ; symbol | #f
(hash derivation-output-hash)) ; symbol | #f
(define-record-type <derivation-input>
(make-derivation-input path sub-derivations)
derivation-input?
(path derivation-input-path) ; store path
(sub-derivations derivation-input-sub-derivations)) ; list of strings
(define (fixed-output-derivation? drv)
"Return #t if DRV is a fixed-output derivation, such as the result of a
download with a fixed hash (aka. `fetchurl')."
(match drv
(($ <derivation>
(($ <derivation-output> _ (? symbol?) (? string?))))
#t)
(_ #f)))
(define (read-derivation drv-port)
"Read the derivation from DRV-PORT and return the corresponding
<derivation> object."
(define comma (string->symbol ","))
(define (ununquote x)
(match x
(('unquote x) (ununquote x))
((x ...) (map ununquote x))
(_ x)))
(define (outputs->alist x)
(fold-right (lambda (output result)
(match output
((name path "" "")
(alist-cons name
(make-derivation-output path #f #f)
result))
((name path hash-algo hash)
;; fixed-output
(let ((algo (string->symbol hash-algo)))
(alist-cons name
(make-derivation-output path algo hash)
result)))))
'()
x))
(define (make-input-drvs x)
(fold-right (lambda (input result)
(match input
((path (sub-drvs ...))
(cons (make-derivation-input path sub-drvs)
result))))
'()
x))
(let loop ((exp (read drv-port))
(result '()))
(match exp
((? eof-object?)
(let ((result (reverse result)))
(match result
(('Derive ((outputs ...) (input-drvs ...)
(input-srcs ...)
(? string? system)
(? string? builder)
((? string? args) ...)
((var value) ...)))
(make-derivation (outputs->alist outputs)
(make-input-drvs input-drvs)
input-srcs
system builder args
(fold-right alist-cons '() var value)))
(_
(error "failed to parse derivation" drv-port result)))))
((? (cut eq? <> comma))
(loop (read drv-port) result))
(_
(loop (read drv-port)
(cons (ununquote exp) result))))))
(define (write-derivation drv port)
"Write the ATerm-like serialization of DRV to PORT."
(define (list->string lst)
(string-append "[" (string-join lst ",") "]"))
(define (write-list lst)
(display (list->string lst) port))
(match drv
(($ <derivation> outputs inputs sources
system builder args env-vars)
(display "Derive(" port)
(write-list (map (match-lambda
((name . ($ <derivation-output> path hash-algo hash))
(format #f "(~s,~s,~s,~s)"
name path (or hash-algo "")
(or hash ""))))
outputs))
(display "," port)
(write-list (map (match-lambda
(($ <derivation-input> path sub-drvs)
(format #f "(~s,~a)" path
(list->string (map object->string sub-drvs)))))
inputs))
(display "," port)
(write-list sources)
(format port ",~s,~s," system builder)
(write-list (map object->string args))
(display "," port)
(write-list (map (match-lambda
((name . value)
(format #f "(~s,~s)" name value)))
env-vars))
(display ")" port))))
(define (sha256 bv)
"Return the SHA256 of BV as an string of hexadecimal digits."
;; XXX: Poor programmer's implementation that uses Coreutils.
(let ((in (pipe))
(out (pipe))
(pid (primitive-fork)))
(if (= 0 pid)
(begin ; child
(close (cdr in))
(close (car out))
(close 0)
(close 1)
(dup2 (fileno (car in)) 0)
(dup2 (fileno (cdr out)) 1)
(execlp "sha256sum" "sha256sum"))
(begin ; parent
(close (car in))
(close (cdr out))
(put-bytevector (cdr in) bv)
(close (cdr in)) ; EOF
(let ((line (car (string-tokenize (read-line (car out))))))
(close (car out))
(and (and=> (status:exit-val (cdr (waitpid pid)))
zero?)
line))))))
(define (derivation-hash drv) ; `hashDerivationModulo' in derivations.cc
(match drv
(($ <derivation> ((_ . ($ <derivation-output> path
(? symbol? hash-algo) (? string? hash)))))
;; A fixed-output derivation.
(sha256
(string->utf8
(string-append "fixed:out:" hash-algo ":" hash ":" path))))
(($ <derivation> outputs inputs sources
system builder args env-vars)
;; A regular derivation: replace that path of each input with that
;; inputs hash; return the hash of serialization of the resulting
;; derivation.
(let* ((inputs (map (match-lambda
(($ <derivation-input> path sub-drvs)
(let ((hash (call-with-input-file path
(compose derivation-hash
read-derivation))))
(make-derivation-input hash sub-drvs))))
inputs))
(drv (make-derivation outputs inputs sources
system builder args env-vars)))
(sha256
(string->utf8 (call-with-output-string
(cut write-derivation drv <>))))))))
(define (instantiate server derivation)
#f
)