739f630947
* guix/store.scm (set-build-options): Change #:locale default value to (setlocale LC_MESSAGES).
2192 lines
84 KiB
Scheme
2192 lines
84 KiB
Scheme
;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 Ludovic Courtès <ludo@gnu.org>
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;;; Copyright © 2018 Jan Nieuwenhuizen <janneke@gnu.org>
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;;; Copyright © 2019, 2020 Mathieu Othacehe <m.othacehe@gmail.com>
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;;; Copyright © 2020 Florian Pelz <pelzflorian@pelzflorian.de>
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;;; Copyright © 2020 Lars-Dominik Braun <ldb@leibniz-psychology.org>
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;;;
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;;; This file is part of GNU Guix.
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;;;
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;;; GNU Guix is free software; you can redistribute it and/or modify it
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;;; under the terms of the GNU General Public License as published by
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;;; the Free Software Foundation; either version 3 of the License, or (at
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;;; your option) any later version.
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;;;
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;;; GNU Guix is distributed in the hope that it will be useful, but
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;;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;;; GNU General Public License for more details.
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;;;
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;;; You should have received a copy of the GNU General Public License
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;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
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(define-module (guix store)
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#:use-module (guix utils)
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#:use-module (guix config)
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#:use-module (guix deprecation)
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#:use-module (guix memoization)
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#:use-module (guix serialization)
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#:use-module (guix monads)
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#:use-module (guix records)
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#:use-module (guix base16)
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#:use-module (guix base32)
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#:use-module (gcrypt hash)
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#:use-module (guix profiling)
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#:autoload (guix build syscalls) (terminal-columns)
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#:use-module (rnrs bytevectors)
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#:use-module (ice-9 binary-ports)
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#:use-module ((ice-9 control) #:select (let/ec))
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#:use-module (srfi srfi-1)
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#:use-module (srfi srfi-9)
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#:use-module (srfi srfi-9 gnu)
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#:use-module (srfi srfi-11)
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#:use-module (srfi srfi-26)
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#:use-module (srfi srfi-34)
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#:use-module (srfi srfi-35)
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#:use-module (srfi srfi-39)
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#:use-module (ice-9 match)
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#:use-module (ice-9 vlist)
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#:use-module (ice-9 popen)
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#:use-module (ice-9 threads)
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#:use-module (ice-9 format)
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#:use-module (web uri)
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#:export (%daemon-socket-uri
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%gc-roots-directory
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%default-substitute-urls
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store-connection?
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store-connection-version
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store-connection-major-version
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store-connection-minor-version
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store-connection-socket
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;; Deprecated forms for 'store-connection'.
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nix-server?
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nix-server-version
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nix-server-major-version
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nix-server-minor-version
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nix-server-socket
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current-store-protocol-version ;for internal use
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mcached
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&store-error store-error?
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&store-connection-error store-connection-error?
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store-connection-error-file
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store-connection-error-code
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&store-protocol-error store-protocol-error?
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store-protocol-error-message
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store-protocol-error-status
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;; Deprecated forms for '&store-error' et al.
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&nix-error nix-error?
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&nix-connection-error nix-connection-error?
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nix-connection-error-file
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nix-connection-error-code
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&nix-protocol-error nix-protocol-error?
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nix-protocol-error-message
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nix-protocol-error-status
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hash-algo
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build-mode
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open-connection
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port->connection
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close-connection
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with-store
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set-build-options
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set-build-options*
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valid-path?
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query-path-hash
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hash-part->path
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query-path-info
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add-data-to-store
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add-text-to-store
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add-to-store
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add-file-tree-to-store
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file-mapping->tree
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binary-file
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with-build-handler
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map/accumulate-builds
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mapm/accumulate-builds
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build-things
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build
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query-failed-paths
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clear-failed-paths
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add-temp-root
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add-indirect-root
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add-permanent-root
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remove-permanent-root
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substitutable?
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substitutable-path
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substitutable-deriver
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substitutable-references
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substitutable-download-size
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substitutable-nar-size
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has-substitutes?
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substitutable-paths
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substitutable-path-info
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path-info?
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path-info-deriver
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path-info-hash
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path-info-references
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path-info-registration-time
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path-info-nar-size
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built-in-builders
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references
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references/cached
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references/substitutes
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references*
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query-path-info*
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requisites
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referrers
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optimize-store
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verify-store
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topologically-sorted
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valid-derivers
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query-derivation-outputs
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live-paths
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dead-paths
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collect-garbage
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delete-paths
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import-paths
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export-paths
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current-build-output-port
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%store-monad
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store-bind
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store-return
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store-lift
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store-lower
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run-with-store
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%guile-for-build
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current-system
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set-current-system
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current-target-system
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set-current-target
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text-file
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interned-file
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interned-file-tree
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%store-prefix
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store-path
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output-path
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fixed-output-path
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store-path?
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direct-store-path?
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derivation-path?
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store-path-base
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store-path-package-name
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store-path-hash-part
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direct-store-path
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derivation-log-file
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log-file))
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(define %protocol-version #x163)
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(define %worker-magic-1 #x6e697863) ; "nixc"
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(define %worker-magic-2 #x6478696f) ; "dxio"
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(define (protocol-major magic)
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(logand magic #xff00))
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(define (protocol-minor magic)
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(logand magic #x00ff))
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(define (protocol-version major minor)
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(logior major minor))
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(define-syntax define-enumerate-type
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(syntax-rules ()
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((_ name->int (name id) ...)
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(define-syntax name->int
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(syntax-rules (name ...)
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((_ name) id) ...)))))
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(define-enumerate-type operation-id
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;; operation numbers from worker-protocol.hh
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(quit 0)
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(valid-path? 1)
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(has-substitutes? 3)
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(query-path-hash 4)
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(query-references 5)
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(query-referrers 6)
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(add-to-store 7)
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(add-text-to-store 8)
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(build-things 9)
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(ensure-path 10)
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(add-temp-root 11)
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(add-indirect-root 12)
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(sync-with-gc 13)
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(find-roots 14)
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(export-path 16)
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(query-deriver 18)
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(set-options 19)
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(collect-garbage 20)
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;;(query-substitutable-path-info 21) ; obsolete as of #x10c
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(query-derivation-outputs 22)
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(query-all-valid-paths 23)
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(query-failed-paths 24)
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(clear-failed-paths 25)
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(query-path-info 26)
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(import-paths 27)
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(query-derivation-output-names 28)
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(query-path-from-hash-part 29)
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(query-substitutable-path-infos 30)
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(query-valid-paths 31)
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(query-substitutable-paths 32)
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(query-valid-derivers 33)
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(optimize-store 34)
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(verify-store 35)
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(built-in-builders 80))
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(define-enumerate-type hash-algo
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;; hash.hh
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(md5 1)
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(sha1 2)
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(sha256 3))
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(define-enumerate-type build-mode
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;; store-api.hh
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(normal 0)
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(repair 1)
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(check 2))
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(define-enumerate-type gc-action
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;; store-api.hh
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(return-live 0)
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(return-dead 1)
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(delete-dead 2)
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(delete-specific 3))
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(define %default-socket-path
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(string-append %state-directory "/daemon-socket/socket"))
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(define %daemon-socket-uri
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;; URI or file name of the socket the daemon listens too.
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(make-parameter (or (getenv "GUIX_DAEMON_SOCKET")
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%default-socket-path)))
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;; Information about a substitutable store path.
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(define-record-type <substitutable>
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(substitutable path deriver refs dl-size nar-size)
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substitutable?
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(path substitutable-path)
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(deriver substitutable-deriver)
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(refs substitutable-references)
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(dl-size substitutable-download-size)
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(nar-size substitutable-nar-size))
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(define (read-substitutable-path-list p)
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(let loop ((len (read-int p))
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(result '()))
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(if (zero? len)
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(reverse result)
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(let ((path (read-store-path p))
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(deriver (read-store-path p))
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(refs (read-store-path-list p))
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(dl-size (read-long-long p))
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(nar-size (read-long-long p)))
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(loop (- len 1)
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(cons (substitutable path deriver refs dl-size nar-size)
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result))))))
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;; Information about a store path.
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(define-record-type <path-info>
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(path-info deriver hash references registration-time nar-size)
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path-info?
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(deriver path-info-deriver) ;string | #f
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(hash path-info-hash)
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(references path-info-references)
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(registration-time path-info-registration-time)
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(nar-size path-info-nar-size))
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(define (read-path-info p)
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(let ((deriver (match (read-store-path p)
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("" #f)
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(x x)))
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(hash (base16-string->bytevector (read-string p)))
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(refs (read-store-path-list p))
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(registration-time (read-int p))
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(nar-size (read-long-long p)))
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(path-info deriver hash refs registration-time nar-size)))
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(define-syntax write-arg
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(syntax-rules (integer boolean bytevector
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string string-list string-pairs
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store-path store-path-list base16)
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((_ integer arg p)
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(write-int arg p))
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((_ boolean arg p)
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(write-int (if arg 1 0) p))
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((_ bytevector arg p)
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(write-bytevector arg p))
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((_ string arg p)
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(write-string arg p))
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((_ string-list arg p)
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(write-string-list arg p))
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((_ string-pairs arg p)
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(write-string-pairs arg p))
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((_ store-path arg p)
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(write-store-path arg p))
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((_ store-path-list arg p)
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(write-store-path-list arg p))
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((_ base16 arg p)
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(write-string (bytevector->base16-string arg) p))))
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(define-syntax read-arg
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(syntax-rules (integer boolean string store-path store-path-list string-list
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substitutable-path-list path-info base16)
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((_ integer p)
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(read-int p))
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((_ boolean p)
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(not (zero? (read-int p))))
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((_ string p)
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(read-string p))
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((_ store-path p)
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(read-store-path p))
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((_ store-path-list p)
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(read-store-path-list p))
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((_ string-list p)
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(read-string-list p))
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((_ substitutable-path-list p)
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(read-substitutable-path-list p))
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((_ path-info p)
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(read-path-info p))
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((_ base16 p)
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(base16-string->bytevector (read-string p)))))
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;; remote-store.cc
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(define-record-type* <store-connection> store-connection %make-store-connection
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store-connection?
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(socket store-connection-socket)
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(major store-connection-major-version)
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(minor store-connection-minor-version)
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(buffer store-connection-output-port) ;output port
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(flush store-connection-flush-output) ;thunk
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;; Caches. We keep them per-connection, because store paths build
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;; during the session are temporary GC roots kept for the duration of
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;; the session.
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(ats-cache store-connection-add-to-store-cache)
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(atts-cache store-connection-add-text-to-store-cache)
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(object-cache store-connection-object-cache
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(default vlist-null)) ;vhash
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(built-in-builders store-connection-built-in-builders
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(default (delay '())))) ;promise
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(set-record-type-printer! <store-connection>
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(lambda (obj port)
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(format port "#<store-connection ~a.~a ~a>"
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(store-connection-major-version obj)
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(store-connection-minor-version obj)
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(number->string (object-address obj)
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16))))
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(define-deprecated/alias nix-server? store-connection?)
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(define-deprecated/alias nix-server-major-version
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store-connection-major-version)
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(define-deprecated/alias nix-server-minor-version
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store-connection-minor-version)
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(define-deprecated/alias nix-server-socket store-connection-socket)
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(define-condition-type &store-error &error
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store-error?)
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(define-condition-type &store-connection-error &store-error
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store-connection-error?
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(file store-connection-error-file)
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(errno store-connection-error-code))
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(define-condition-type &store-protocol-error &store-error
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store-protocol-error?
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(message store-protocol-error-message)
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(status store-protocol-error-status))
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(define-deprecated/alias &nix-error &store-error)
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(define-deprecated/alias nix-error? store-error?)
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(define-deprecated/alias &nix-connection-error &store-connection-error)
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(define-deprecated/alias nix-connection-error? store-connection-error?)
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(define-deprecated/alias nix-connection-error-file
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store-connection-error-file)
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(define-deprecated/alias nix-connection-error-code
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store-connection-error-code)
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(define-deprecated/alias &nix-protocol-error &store-protocol-error)
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(define-deprecated/alias nix-protocol-error? store-protocol-error?)
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(define-deprecated/alias nix-protocol-error-message
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store-protocol-error-message)
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(define-deprecated/alias nix-protocol-error-status
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store-protocol-error-status)
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||
|
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(define-syntax-rule (system-error-to-connection-error file exp ...)
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||
"Catch 'system-error' exceptions and translate them to
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'&store-connection-error'."
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(catch 'system-error
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(lambda ()
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exp ...)
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(lambda args
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(let ((errno (system-error-errno args)))
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(raise (condition (&store-connection-error
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(file file)
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(errno errno))))))))
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(define (open-unix-domain-socket file)
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"Connect to the Unix-domain socket at FILE and return it. Raise a
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'&store-connection-error' upon error."
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(let ((s (with-fluids ((%default-port-encoding #f))
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;; This trick allows use of the `scm_c_read' optimization.
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(socket PF_UNIX SOCK_STREAM 0)))
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(a (make-socket-address PF_UNIX file)))
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|
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(system-error-to-connection-error file
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(connect s a)
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s)))
|
||
|
||
(define %default-guix-port
|
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;; Default port when connecting to a daemon over TCP/IP.
|
||
44146)
|
||
|
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(define (open-inet-socket host port)
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||
"Connect to the Unix-domain socket at HOST:PORT and return it. Raise a
|
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'&store-connection-error' upon error."
|
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(let ((sock (with-fluids ((%default-port-encoding #f))
|
||
;; This trick allows use of the `scm_c_read' optimization.
|
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(socket PF_UNIX SOCK_STREAM 0))))
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(define addresses
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(getaddrinfo host
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(if (number? port) (number->string port) port)
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(if (number? port)
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(logior AI_ADDRCONFIG AI_NUMERICSERV)
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AI_ADDRCONFIG)
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0 ;any address family
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SOCK_STREAM)) ;TCP only
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(let loop ((addresses addresses))
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(match addresses
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((ai rest ...)
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(let ((s (socket (addrinfo:fam ai)
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;; TCP/IP only
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||
SOCK_STREAM IPPROTO_IP)))
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||
|
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(catch 'system-error
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||
(lambda ()
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(connect s (addrinfo:addr ai))
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;; Setting this option makes a dramatic difference because it
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;; avoids the "ACK delay" on our RPC messages.
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(setsockopt s IPPROTO_TCP TCP_NODELAY 1)
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s)
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(lambda args
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;; Connection failed, so try one of the other addresses.
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(close s)
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(if (null? rest)
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(raise (condition (&store-connection-error
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(file host)
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(errno (system-error-errno args)))))
|
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(loop rest))))))))))
|
||
|
||
(define (connect-to-daemon uri)
|
||
"Connect to the daemon at URI, a string that may be an actual URI or a file
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||
name."
|
||
(define (not-supported)
|
||
(raise (condition (&store-connection-error
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(file uri)
|
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(errno ENOTSUP)))))
|
||
|
||
(define connect
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||
(match (string->uri uri)
|
||
(#f ;URI is a file name
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||
open-unix-domain-socket)
|
||
((? uri? uri)
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||
(match (uri-scheme uri)
|
||
((or #f 'file 'unix)
|
||
(lambda (_)
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||
(open-unix-domain-socket (uri-path uri))))
|
||
('guix
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||
(lambda (_)
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||
(open-inet-socket (uri-host uri)
|
||
(or (uri-port uri) %default-guix-port))))
|
||
((? symbol? scheme)
|
||
;; Try to dynamically load a module for SCHEME.
|
||
;; XXX: Errors are swallowed.
|
||
(match (false-if-exception
|
||
(resolve-interface `(guix store ,scheme)))
|
||
((? module? module)
|
||
(match (false-if-exception
|
||
(module-ref module 'connect-to-daemon))
|
||
((? procedure? connect)
|
||
(lambda (_)
|
||
(connect uri)))
|
||
(x (not-supported))))
|
||
(#f (not-supported))))
|
||
(x
|
||
(not-supported))))))
|
||
|
||
(connect uri))
|
||
|
||
(define* (open-connection #:optional (uri (%daemon-socket-uri))
|
||
#:key port (reserve-space? #t) cpu-affinity)
|
||
"Connect to the daemon at URI (a string), or, if PORT is not #f, use it as
|
||
the I/O port over which to communicate to a build daemon.
|
||
|
||
When RESERVE-SPACE? is true, instruct it to reserve a little bit of extra
|
||
space on the file system so that the garbage collector can still operate,
|
||
should the disk become full. When CPU-AFFINITY is true, it must be an integer
|
||
corresponding to an OS-level CPU number to which the daemon's worker process
|
||
for this connection will be pinned. Return a server object."
|
||
(guard (c ((nar-error? c)
|
||
;; One of the 'write-' or 'read-' calls below failed, but this is
|
||
;; really a connection error.
|
||
(raise (condition
|
||
(&store-connection-error (file (or port uri))
|
||
(errno EPROTO))
|
||
(&message (message "build daemon handshake failed"))))))
|
||
(let*-values (((port)
|
||
(or port (connect-to-daemon uri)))
|
||
((output flush)
|
||
(buffering-output-port port
|
||
(make-bytevector 8192))))
|
||
(write-int %worker-magic-1 port)
|
||
(let ((r (read-int port)))
|
||
(and (= r %worker-magic-2)
|
||
(let ((v (read-int port)))
|
||
(and (= (protocol-major %protocol-version)
|
||
(protocol-major v))
|
||
(begin
|
||
(write-int %protocol-version port)
|
||
(when (>= (protocol-minor v) 14)
|
||
(write-int (if cpu-affinity 1 0) port)
|
||
(when cpu-affinity
|
||
(write-int cpu-affinity port)))
|
||
(when (>= (protocol-minor v) 11)
|
||
(write-int (if reserve-space? 1 0) port))
|
||
(letrec* ((built-in-builders
|
||
(delay (%built-in-builders conn)))
|
||
(conn
|
||
(%make-store-connection port
|
||
(protocol-major v)
|
||
(protocol-minor v)
|
||
output flush
|
||
(make-hash-table 100)
|
||
(make-hash-table 100)
|
||
vlist-null
|
||
built-in-builders)))
|
||
(let loop ((done? (process-stderr conn)))
|
||
(or done? (process-stderr conn)))
|
||
conn)))))))))
|
||
|
||
(define* (port->connection port
|
||
#:key (version %protocol-version))
|
||
"Assimilate PORT, an input/output port, and return a connection to the
|
||
daemon, assuming the given protocol VERSION.
|
||
|
||
Warning: this procedure assumes that the initial handshake with the daemon has
|
||
already taken place on PORT and that we're just continuing on this established
|
||
connection. Use with care."
|
||
(let-values (((output flush)
|
||
(buffering-output-port port (make-bytevector 8192))))
|
||
(define connection
|
||
(%make-store-connection port
|
||
(protocol-major version)
|
||
(protocol-minor version)
|
||
output flush
|
||
(make-hash-table 100)
|
||
(make-hash-table 100)
|
||
vlist-null
|
||
(delay (%built-in-builders connection))))
|
||
|
||
connection))
|
||
|
||
(define (store-connection-version store)
|
||
"Return the protocol version of STORE as an integer."
|
||
(protocol-version (store-connection-major-version store)
|
||
(store-connection-minor-version store)))
|
||
|
||
(define-deprecated/alias nix-server-version store-connection-version)
|
||
|
||
(define (write-buffered-output server)
|
||
"Flush SERVER's output port."
|
||
(force-output (store-connection-output-port server))
|
||
((store-connection-flush-output server)))
|
||
|
||
(define (close-connection server)
|
||
"Close the connection to SERVER."
|
||
(close (store-connection-socket server)))
|
||
|
||
(define (call-with-store proc)
|
||
"Call PROC with an open store connection."
|
||
(let ((store (open-connection)))
|
||
(define (thunk)
|
||
(parameterize ((current-store-protocol-version
|
||
(store-connection-version store)))
|
||
(call-with-values (lambda () (proc store))
|
||
(lambda results
|
||
(close-connection store)
|
||
(apply values results)))))
|
||
|
||
(cond-expand
|
||
(guile-3
|
||
(with-exception-handler (lambda (exception)
|
||
(close-connection store)
|
||
(raise-exception exception))
|
||
thunk))
|
||
(else ;Guile 2.2
|
||
(catch #t
|
||
thunk
|
||
(lambda (key . args)
|
||
(close-connection store)
|
||
(apply throw key args)))))))
|
||
|
||
(define-syntax-rule (with-store store exp ...)
|
||
"Bind STORE to an open connection to the store and evaluate EXPs;
|
||
automatically close the store when the dynamic extent of EXP is left."
|
||
(call-with-store (lambda (store) exp ...)))
|
||
|
||
(define current-store-protocol-version
|
||
;; Protocol version of the store currently used. XXX: This is a hack to
|
||
;; communicate the protocol version to the build output port. It's a hack
|
||
;; because it could be inaccurrate, for instance if there's code that
|
||
;; manipulates several store connections at once; it works well for the
|
||
;; purposes of (guix status) though.
|
||
(make-parameter #f))
|
||
|
||
(define current-build-output-port
|
||
;; The port where build output is sent.
|
||
(make-parameter (current-error-port)))
|
||
|
||
(define* (dump-port in out
|
||
#:optional len
|
||
#:key (buffer-size 16384))
|
||
"Read LEN bytes from IN (or as much as possible if LEN is #f) and write it
|
||
to OUT, using chunks of BUFFER-SIZE bytes."
|
||
(define buffer
|
||
(make-bytevector buffer-size))
|
||
|
||
(let loop ((total 0)
|
||
(bytes (get-bytevector-n! in buffer 0
|
||
(if len
|
||
(min len buffer-size)
|
||
buffer-size))))
|
||
(or (eof-object? bytes)
|
||
(and len (= total len))
|
||
(let ((total (+ total bytes)))
|
||
(put-bytevector out buffer 0 bytes)
|
||
(loop total
|
||
(get-bytevector-n! in buffer 0
|
||
(if len
|
||
(min (- len total) buffer-size)
|
||
buffer-size)))))))
|
||
|
||
(define %newlines
|
||
;; Newline characters triggering a flush of 'current-build-output-port'.
|
||
;; Unlike Guile's 'line, we flush upon #\return so that progress reports
|
||
;; that use that trick are correctly displayed.
|
||
(char-set #\newline #\return))
|
||
|
||
(define* (process-stderr server #:optional user-port)
|
||
"Read standard output and standard error from SERVER, writing it to
|
||
CURRENT-BUILD-OUTPUT-PORT. Return #t when SERVER is done sending data, and
|
||
#f otherwise; in the latter case, the caller should call `process-stderr'
|
||
again until #t is returned or an error is raised.
|
||
|
||
Since the build process's output cannot be assumed to be UTF-8, we
|
||
conservatively consider it to be Latin-1, thereby avoiding possible
|
||
encoding conversion errors."
|
||
(define p
|
||
(store-connection-socket server))
|
||
|
||
;; magic cookies from worker-protocol.hh
|
||
(define %stderr-next #x6f6c6d67) ; "olmg", build log
|
||
(define %stderr-read #x64617461) ; "data", data needed from source
|
||
(define %stderr-write #x64617416) ; "dat\x16", data for sink
|
||
(define %stderr-last #x616c7473) ; "alts", we're done
|
||
(define %stderr-error #x63787470) ; "cxtp", error reporting
|
||
|
||
(let ((k (read-int p)))
|
||
(cond ((= k %stderr-write)
|
||
;; Write a byte stream to USER-PORT.
|
||
(let* ((len (read-int p))
|
||
(m (modulo len 8)))
|
||
(dump-port p user-port len
|
||
#:buffer-size (if (<= len 16384) 16384 65536))
|
||
(unless (zero? m)
|
||
;; Consume padding, as for strings.
|
||
(get-bytevector-n p (- 8 m))))
|
||
#f)
|
||
((= k %stderr-read)
|
||
;; Read a byte stream from USER-PORT.
|
||
;; Note: Avoid 'get-bytevector-n' to work around
|
||
;; <http://bugs.gnu.org/17591> in Guile up to 2.0.11.
|
||
(let* ((max-len (read-int p))
|
||
(data (make-bytevector max-len))
|
||
(len (get-bytevector-n! user-port data 0 max-len)))
|
||
(write-bytevector data p len)
|
||
#f))
|
||
((= k %stderr-next)
|
||
;; Log a string. Build logs are usually UTF-8-encoded, but they
|
||
;; may also contain arbitrary byte sequences that should not cause
|
||
;; this to fail. Thus, use the permissive
|
||
;; 'read-maybe-utf8-string'.
|
||
(let ((s (read-maybe-utf8-string p)))
|
||
(display s (current-build-output-port))
|
||
(when (string-any %newlines s)
|
||
(force-output (current-build-output-port)))
|
||
#f))
|
||
((= k %stderr-error)
|
||
;; Report an error.
|
||
(let ((error (read-maybe-utf8-string p))
|
||
;; Currently the daemon fails to send a status code for early
|
||
;; errors like DB schema version mismatches, so check for EOF.
|
||
(status (if (and (>= (store-connection-minor-version server) 8)
|
||
(not (eof-object? (lookahead-u8 p))))
|
||
(read-int p)
|
||
1)))
|
||
(raise (condition (&store-protocol-error
|
||
(message error)
|
||
(status status))))))
|
||
((= k %stderr-last)
|
||
;; The daemon is done (see `stopWork' in `nix-worker.cc'.)
|
||
#t)
|
||
(else
|
||
(raise (condition (&store-protocol-error
|
||
(message "invalid error code")
|
||
(status k))))))))
|
||
|
||
(define %default-substitute-urls
|
||
;; Default list of substituters. This is *not* the list baked in
|
||
;; 'guix-daemon', but it is used by 'guix-service-type' and and a couple of
|
||
;; clients ('guix build --log-file' uses it.)
|
||
(map (if (false-if-exception (resolve-interface '(gnutls)))
|
||
(cut string-append "https://" <>)
|
||
(cut string-append "http://" <>))
|
||
'("ci.guix.gnu.org")))
|
||
|
||
(define (current-user-name)
|
||
"Return the name of the calling user."
|
||
(catch #t
|
||
(lambda ()
|
||
(passwd:name (getpwuid (getuid))))
|
||
(lambda _
|
||
(getenv "USER"))))
|
||
|
||
(define* (set-build-options server
|
||
#:key keep-failed? keep-going? fallback?
|
||
(verbosity 0)
|
||
rounds ;number of build rounds
|
||
max-build-jobs
|
||
timeout
|
||
max-silent-time
|
||
(offload? #t)
|
||
(use-build-hook? *unspecified*) ;deprecated
|
||
(build-verbosity 0)
|
||
(log-type 0)
|
||
(print-build-trace #t)
|
||
(user-name (current-user-name))
|
||
|
||
;; When true, provide machine-readable "build
|
||
;; traces" for use by (guix status). Old clients
|
||
;; are unable to make sense, which is why it's
|
||
;; disabled by default.
|
||
print-extended-build-trace?
|
||
|
||
;; When true, the daemon prefixes builder output
|
||
;; with "@ build-log" traces so we can
|
||
;; distinguish it from daemon output, and we can
|
||
;; distinguish each builder's output
|
||
;; (PRINT-BUILD-TRACE must be true as well.) The
|
||
;; latter is particularly useful when
|
||
;; MAX-BUILD-JOBS > 1.
|
||
multiplexed-build-output?
|
||
|
||
build-cores
|
||
(use-substitutes? #t)
|
||
|
||
;; Client-provided substitute URLs. If it is #f,
|
||
;; the daemon's settings are used. Otherwise, it
|
||
;; overrides the daemons settings; see 'guix
|
||
;; substitute'.
|
||
(substitute-urls #f)
|
||
|
||
;; Number of columns in the client's terminal.
|
||
(terminal-columns (terminal-columns))
|
||
|
||
;; Locale of the client.
|
||
(locale (false-if-exception (setlocale LC_MESSAGES))))
|
||
;; Must be called after `open-connection'.
|
||
|
||
(define buffered
|
||
(store-connection-output-port server))
|
||
|
||
(unless (unspecified? use-build-hook?)
|
||
(warn-about-deprecation #:use-build-hook? #f
|
||
#:replacement #:offload?))
|
||
|
||
(let-syntax ((send (syntax-rules ()
|
||
((_ (type option) ...)
|
||
(begin
|
||
(write-arg type option buffered)
|
||
...)))))
|
||
(write-int (operation-id set-options) buffered)
|
||
(send (boolean keep-failed?) (boolean keep-going?)
|
||
(boolean fallback?) (integer verbosity))
|
||
(when (< (store-connection-minor-version server) #x61)
|
||
(let ((max-build-jobs (or max-build-jobs 1))
|
||
(max-silent-time (or max-silent-time 3600)))
|
||
(send (integer max-build-jobs) (integer max-silent-time))))
|
||
(when (>= (store-connection-minor-version server) 2)
|
||
(send (boolean (if (unspecified? use-build-hook?)
|
||
offload?
|
||
use-build-hook?))))
|
||
(when (>= (store-connection-minor-version server) 4)
|
||
(send (integer build-verbosity) (integer log-type)
|
||
(boolean print-build-trace)))
|
||
(when (and (>= (store-connection-minor-version server) 6)
|
||
(< (store-connection-minor-version server) #x61))
|
||
(let ((build-cores (or build-cores (current-processor-count))))
|
||
(send (integer build-cores))))
|
||
(when (>= (store-connection-minor-version server) 10)
|
||
(send (boolean use-substitutes?)))
|
||
(when (>= (store-connection-minor-version server) 12)
|
||
(let ((pairs `(;; This option is honored by 'guix substitute' et al.
|
||
,@(if print-build-trace
|
||
`(("print-extended-build-trace"
|
||
. ,(if print-extended-build-trace? "1" "0")))
|
||
'())
|
||
,@(if multiplexed-build-output?
|
||
`(("multiplexed-build-output"
|
||
. ,(if multiplexed-build-output? "true" "false")))
|
||
'())
|
||
,@(if timeout
|
||
`(("build-timeout" . ,(number->string timeout)))
|
||
'())
|
||
,@(if max-silent-time
|
||
`(("build-max-silent-time"
|
||
. ,(number->string max-silent-time)))
|
||
'())
|
||
,@(if max-build-jobs
|
||
`(("build-max-jobs"
|
||
. ,(number->string max-build-jobs)))
|
||
'())
|
||
,@(if build-cores
|
||
`(("build-cores" . ,(number->string build-cores)))
|
||
'())
|
||
,@(if substitute-urls
|
||
`(("substitute-urls"
|
||
. ,(string-join substitute-urls)))
|
||
'())
|
||
,@(if rounds
|
||
`(("build-repeat"
|
||
. ,(number->string (max 0 (1- rounds)))))
|
||
'())
|
||
,@(if user-name
|
||
`(("user-name" . ,user-name))
|
||
'())
|
||
,@(if terminal-columns
|
||
`(("terminal-columns"
|
||
. ,(number->string terminal-columns)))
|
||
'())
|
||
,@(if locale
|
||
`(("locale" . ,locale))
|
||
'()))))
|
||
(send (string-pairs pairs))))
|
||
(write-buffered-output server)
|
||
(let loop ((done? (process-stderr server)))
|
||
(or done? (process-stderr server)))))
|
||
|
||
(define (buffering-output-port port buffer)
|
||
"Return two value: an output port wrapped around PORT that uses BUFFER (a
|
||
bytevector) as its internal buffer, and a thunk to flush this output port."
|
||
;; Note: In Guile 2.2.2, custom binary output ports already have their own
|
||
;; 4K internal buffer.
|
||
(define size
|
||
(bytevector-length buffer))
|
||
|
||
(define total 0)
|
||
|
||
(define (flush)
|
||
(put-bytevector port buffer 0 total)
|
||
(force-output port)
|
||
(set! total 0))
|
||
|
||
(define (write bv offset count)
|
||
(if (zero? count) ;end of file
|
||
(flush)
|
||
(let loop ((offset offset)
|
||
(count count)
|
||
(written 0))
|
||
(cond ((= total size)
|
||
(flush)
|
||
(loop offset count written))
|
||
((zero? count)
|
||
written)
|
||
(else
|
||
(let ((to-copy (min count (- size total))))
|
||
(bytevector-copy! bv offset buffer total to-copy)
|
||
(set! total (+ total to-copy))
|
||
(loop (+ offset to-copy) (- count to-copy)
|
||
(+ written to-copy))))))))
|
||
|
||
;; Note: We need to return FLUSH because the custom binary port has no way
|
||
;; to be notified of a 'force-output' call on itself.
|
||
(values (make-custom-binary-output-port "buffering-output-port"
|
||
write #f #f flush)
|
||
flush))
|
||
|
||
(define profiled?
|
||
(let ((profiled
|
||
(or (and=> (getenv "GUIX_PROFILING") string-tokenize)
|
||
'())))
|
||
(lambda (component)
|
||
"Return true if COMPONENT profiling is active."
|
||
(member component profiled))))
|
||
|
||
(define %rpc-calls
|
||
;; Mapping from RPC names (symbols) to invocation counts.
|
||
(make-hash-table))
|
||
|
||
(define* (show-rpc-profile #:optional (port (current-error-port)))
|
||
"Write to PORT a summary of the RPCs that have been made."
|
||
(let ((profile (sort (hash-fold alist-cons '() %rpc-calls)
|
||
(lambda (rpc1 rpc2)
|
||
(< (cdr rpc1) (cdr rpc2))))))
|
||
(format port "Remote procedure call summary: ~a RPCs~%"
|
||
(match profile
|
||
(((names . counts) ...)
|
||
(reduce + 0 counts))))
|
||
(for-each (match-lambda
|
||
((rpc . count)
|
||
(format port " ~30a ... ~5@a~%" rpc count)))
|
||
profile)))
|
||
|
||
(define record-operation
|
||
;; Optionally, increment the number of calls of the given RPC.
|
||
(if (profiled? "rpc")
|
||
(begin
|
||
(register-profiling-hook! "rpc" show-rpc-profile)
|
||
(lambda (name)
|
||
(let ((count (or (hashq-ref %rpc-calls name) 0)))
|
||
(hashq-set! %rpc-calls name (+ count 1)))))
|
||
(lambda (_)
|
||
#t)))
|
||
|
||
(define-syntax operation
|
||
(syntax-rules ()
|
||
"Define a client-side RPC stub for the given operation."
|
||
((_ (name (type arg) ...) docstring return ...)
|
||
(lambda (server arg ...)
|
||
docstring
|
||
(let* ((s (store-connection-socket server))
|
||
(buffered (store-connection-output-port server)))
|
||
(record-operation 'name)
|
||
(write-int (operation-id name) buffered)
|
||
(write-arg type arg buffered)
|
||
...
|
||
(write-buffered-output server)
|
||
|
||
;; Loop until the server is done sending error output.
|
||
(let loop ((done? (process-stderr server)))
|
||
(or done? (loop (process-stderr server))))
|
||
(values (read-arg return s) ...))))))
|
||
|
||
(define-syntax-rule (define-operation (name args ...)
|
||
docstring return ...)
|
||
(define name
|
||
(operation (name args ...) docstring return ...)))
|
||
|
||
(define-operation (valid-path? (string path))
|
||
"Return #t when PATH designates a valid store item and #f otherwise (an
|
||
invalid item may exist on disk but still be invalid, for instance because it
|
||
is the result of an aborted or failed build.)
|
||
|
||
A '&store-protocol-error' condition is raised if PATH is not prefixed by the
|
||
store directory (/gnu/store)."
|
||
boolean)
|
||
|
||
(define-operation (query-path-hash (store-path path))
|
||
"Return the SHA256 hash of the nar serialization of PATH as a bytevector."
|
||
base16)
|
||
|
||
(define hash-part->path
|
||
(let ((query-path-from-hash-part
|
||
(operation (query-path-from-hash-part (string hash))
|
||
#f
|
||
store-path)))
|
||
(lambda (server hash-part)
|
||
"Return the store path whose hash part is HASH-PART (a nix-base32
|
||
string). Return the empty string if no such path exists."
|
||
;; This RPC is primarily used by Hydra to reply to HTTP GETs of
|
||
;; /HASH.narinfo.
|
||
(query-path-from-hash-part server hash-part))))
|
||
|
||
(define-operation (query-path-info (store-path path))
|
||
"Return the info (hash, references, etc.) for PATH."
|
||
path-info)
|
||
|
||
(define add-data-to-store
|
||
;; A memoizing version of `add-to-store', to avoid repeated RPCs with
|
||
;; the very same arguments during a given session.
|
||
(let ((add-text-to-store
|
||
(operation (add-text-to-store (string name) (bytevector text)
|
||
(string-list references))
|
||
#f
|
||
store-path))
|
||
(lookup (if (profiled? "add-data-to-store-cache")
|
||
(let ((lookups 0)
|
||
(hits 0)
|
||
(drv 0)
|
||
(scheme 0))
|
||
(define (show-stats)
|
||
(define (% n)
|
||
(if (zero? lookups)
|
||
100.
|
||
(* 100. (/ n lookups))))
|
||
|
||
(format (current-error-port) "
|
||
'add-data-to-store' cache:
|
||
lookups: ~5@a
|
||
hits: ~5@a (~,1f%)
|
||
.drv files: ~5@a (~,1f%)
|
||
Scheme files: ~5@a (~,1f%)~%"
|
||
lookups hits (% hits)
|
||
drv (% drv)
|
||
scheme (% scheme)))
|
||
|
||
(register-profiling-hook! "add-data-to-store-cache"
|
||
show-stats)
|
||
(lambda (cache args)
|
||
(let ((result (hash-ref cache args)))
|
||
(set! lookups (+ 1 lookups))
|
||
(when result
|
||
(set! hits (+ 1 hits)))
|
||
(match args
|
||
((_ name _)
|
||
(cond ((string-suffix? ".drv" name)
|
||
(set! drv (+ drv 1)))
|
||
((string-suffix? "-builder" name)
|
||
(set! scheme (+ scheme 1)))
|
||
((string-suffix? ".scm" name)
|
||
(set! scheme (+ scheme 1))))))
|
||
result)))
|
||
hash-ref)))
|
||
(lambda* (server name bytes #:optional (references '()))
|
||
"Add BYTES under file NAME in the store, and return its store path.
|
||
REFERENCES is the list of store paths referred to by the resulting store
|
||
path."
|
||
(let* ((args `(,bytes ,name ,references))
|
||
(cache (store-connection-add-text-to-store-cache server)))
|
||
(or (lookup cache args)
|
||
(let ((path (add-text-to-store server name bytes references)))
|
||
(hash-set! cache args path)
|
||
path))))))
|
||
|
||
(define* (add-text-to-store store name text #:optional (references '()))
|
||
"Add TEXT under file NAME in the store, and return its store path.
|
||
REFERENCES is the list of store paths referred to by the resulting store
|
||
path."
|
||
(add-data-to-store store name (string->utf8 text) references))
|
||
|
||
(define true
|
||
;; Define it once and for all since we use it as a default value for
|
||
;; 'add-to-store' and want to make sure two default values are 'eq?' for the
|
||
;; purposes or memoization.
|
||
(lambda (file stat)
|
||
#t))
|
||
|
||
(define add-to-store
|
||
;; A memoizing version of `add-to-store'. This is important because
|
||
;; `add-to-store' leads to huge data transfers to the server, and
|
||
;; because it's often called many times with the very same argument.
|
||
(let ((add-to-store
|
||
(lambda* (server basename recursive? hash-algo file-name
|
||
#:key (select? true))
|
||
;; We don't use the 'operation' macro so we can pass SELECT? to
|
||
;; 'write-file'.
|
||
(record-operation 'add-to-store)
|
||
(let ((port (store-connection-socket server))
|
||
(buffered (store-connection-output-port server)))
|
||
(write-int (operation-id add-to-store) buffered)
|
||
(write-string basename buffered)
|
||
(write-int 1 buffered) ;obsolete, must be #t
|
||
(write-int (if recursive? 1 0) buffered)
|
||
(write-string hash-algo buffered)
|
||
(write-file file-name buffered #:select? select?)
|
||
(write-buffered-output server)
|
||
(let loop ((done? (process-stderr server)))
|
||
(or done? (loop (process-stderr server))))
|
||
(read-store-path port)))))
|
||
(lambda* (server basename recursive? hash-algo file-name
|
||
#:key (select? true))
|
||
"Add the contents of FILE-NAME under BASENAME to the store. When
|
||
RECURSIVE? is false, FILE-NAME must designate a regular file--not a directory
|
||
nor a symlink. When RECURSIVE? is true and FILE-NAME designates a directory,
|
||
the contents of FILE-NAME are added recursively; if FILE-NAME designates a
|
||
flat file and RECURSIVE? is true, its contents are added, and its permission
|
||
bits are kept. HASH-ALGO must be a string such as \"sha256\".
|
||
|
||
When RECURSIVE? is true, call (SELECT? FILE STAT) for each directory entry,
|
||
where FILE is the entry's absolute file name and STAT is the result of
|
||
'lstat'; exclude entries for which SELECT? does not return true."
|
||
;; Note: We don't stat FILE-NAME at each call, and thus we assume that
|
||
;; the file remains unchanged for the lifetime of SERVER.
|
||
(let* ((args `(,file-name ,basename ,recursive? ,hash-algo ,select?))
|
||
(cache (store-connection-add-to-store-cache server)))
|
||
(or (hash-ref cache args)
|
||
(let ((path (add-to-store server basename recursive?
|
||
hash-algo file-name
|
||
#:select? select?)))
|
||
(hash-set! cache args path)
|
||
path))))))
|
||
|
||
(define %not-slash
|
||
(char-set-complement (char-set #\/)))
|
||
|
||
(define* (add-file-tree-to-store server tree
|
||
#:key
|
||
(hash-algo "sha256")
|
||
(recursive? #t))
|
||
"Add the given TREE to the store on SERVER. TREE must be an entry such as:
|
||
|
||
(\"my-tree\" directory
|
||
(\"a\" regular (data \"hello\"))
|
||
(\"b\" symlink \"a\")
|
||
(\"c\" directory
|
||
(\"d\" executable (file \"/bin/sh\"))))
|
||
|
||
This is a generalized version of 'add-to-store'. It allows you to reproduce
|
||
an arbitrary directory layout in the store without creating a derivation."
|
||
|
||
;; Note: The format of TREE was chosen to allow trees to be compared with
|
||
;; 'equal?', which in turn allows us to memoize things.
|
||
|
||
(define root
|
||
;; TREE is a single entry.
|
||
(list tree))
|
||
|
||
(define basename
|
||
(match tree
|
||
((name . _) name)))
|
||
|
||
(define (lookup file)
|
||
(let loop ((components (string-tokenize file %not-slash))
|
||
(tree root))
|
||
(match components
|
||
((basename)
|
||
(assoc basename tree))
|
||
((head . rest)
|
||
(loop rest
|
||
(match (assoc-ref tree head)
|
||
(('directory . entries) entries)))))))
|
||
|
||
(define (file-type+size file)
|
||
(match (lookup file)
|
||
((_ (and type (or 'directory 'symlink)) . _)
|
||
(values type 0))
|
||
((_ type ('file file))
|
||
(values type (stat:size (stat file))))
|
||
((_ type ('data (? string? data)))
|
||
(values type (string-length data)))
|
||
((_ type ('data (? bytevector? data)))
|
||
(values type (bytevector-length data)))))
|
||
|
||
(define (file-port file)
|
||
(match (lookup file)
|
||
((_ (or 'regular 'executable) content)
|
||
(match content
|
||
(('file (? string? file))
|
||
(open-file file "r0b"))
|
||
(('data (? string? str))
|
||
(open-input-string str))
|
||
(('data (? bytevector? bv))
|
||
(open-bytevector-input-port bv))))))
|
||
|
||
(define (symlink-target file)
|
||
(match (lookup file)
|
||
((_ 'symlink target) target)))
|
||
|
||
(define (directory-entries directory)
|
||
(match (lookup directory)
|
||
((_ 'directory (names . _) ...) names)))
|
||
|
||
(define cache
|
||
(store-connection-add-to-store-cache server))
|
||
|
||
(or (hash-ref cache tree)
|
||
(begin
|
||
;; We don't use the 'operation' macro so we can use 'write-file-tree'
|
||
;; instead of 'write-file'.
|
||
(record-operation 'add-to-store/tree)
|
||
(let ((port (store-connection-socket server))
|
||
(buffered (store-connection-output-port server)))
|
||
(write-int (operation-id add-to-store) buffered)
|
||
(write-string basename buffered)
|
||
(write-int 1 buffered) ;obsolete, must be #t
|
||
(write-int (if recursive? 1 0) buffered)
|
||
(write-string hash-algo buffered)
|
||
(write-file-tree basename buffered
|
||
#:file-type+size file-type+size
|
||
#:file-port file-port
|
||
#:symlink-target symlink-target
|
||
#:directory-entries directory-entries)
|
||
(write-buffered-output server)
|
||
(let loop ((done? (process-stderr server)))
|
||
(or done? (loop (process-stderr server))))
|
||
(let ((result (read-store-path port)))
|
||
(hash-set! cache tree result)
|
||
result)))))
|
||
|
||
(define (file-mapping->tree mapping)
|
||
"Convert MAPPING, an alist like:
|
||
|
||
((\"guix/build/utils.scm\" . \"…/utils.scm\"))
|
||
|
||
to a tree suitable for 'add-file-tree-to-store' and 'interned-file-tree'."
|
||
(let ((mapping (map (match-lambda
|
||
((destination . source)
|
||
(cons (string-tokenize destination %not-slash)
|
||
source)))
|
||
mapping)))
|
||
(fold (lambda (pair result)
|
||
(match pair
|
||
((destination . source)
|
||
(let loop ((destination destination)
|
||
(result result))
|
||
(match destination
|
||
((file)
|
||
(let* ((mode (stat:mode (stat source)))
|
||
(type (if (zero? (logand mode #o100))
|
||
'regular
|
||
'executable)))
|
||
(alist-cons file
|
||
`(,type (file ,source))
|
||
result)))
|
||
((file rest ...)
|
||
(let ((directory (assoc-ref result file)))
|
||
(alist-cons file
|
||
`(directory
|
||
,@(loop rest
|
||
(match directory
|
||
(('directory . entries) entries)
|
||
(#f '()))))
|
||
(if directory
|
||
(alist-delete file result)
|
||
result)))))))))
|
||
'()
|
||
mapping)))
|
||
|
||
(define current-build-prompt
|
||
;; When true, this is the prompt to abort to when 'build-things' is called.
|
||
(make-parameter #f))
|
||
|
||
(define (call-with-build-handler handler thunk)
|
||
"Register HANDLER as a \"build handler\" and invoke THUNK."
|
||
(define tag
|
||
(make-prompt-tag "build handler"))
|
||
|
||
(parameterize ((current-build-prompt tag))
|
||
(call-with-prompt tag
|
||
thunk
|
||
(lambda (k . args)
|
||
;; Since HANDLER may call K, which in turn may call 'build-things'
|
||
;; again, reinstate a prompt (thus, it's not a tail call.)
|
||
(call-with-build-handler handler
|
||
(lambda ()
|
||
(apply handler k args)))))))
|
||
|
||
(define (invoke-build-handler store things mode)
|
||
"Abort to 'current-build-prompt' if it is set."
|
||
(or (not (current-build-prompt))
|
||
(abort-to-prompt (current-build-prompt) store things mode)))
|
||
|
||
(define-syntax-rule (with-build-handler handler exp ...)
|
||
"Register HANDLER as a \"build handler\" and invoke THUNK. When
|
||
'build-things' is called within the dynamic extent of the call to THUNK,
|
||
HANDLER is invoked like so:
|
||
|
||
(HANDLER CONTINUE STORE THINGS MODE)
|
||
|
||
where CONTINUE is the continuation, and the remaining arguments are those that
|
||
were passed to 'build-things'.
|
||
|
||
Build handlers are useful to announce a build plan with 'show-what-to-build'
|
||
and to implement dry runs (by not invoking CONTINUE) in a way that gracefully
|
||
deals with \"dynamic dependencies\" such as grafts---derivations that depend
|
||
on the build output of a previous derivation."
|
||
(call-with-build-handler handler (lambda () exp ...)))
|
||
|
||
;; Unresolved dynamic dependency.
|
||
(define-record-type <unresolved>
|
||
(unresolved things continuation)
|
||
unresolved?
|
||
(things unresolved-things)
|
||
(continuation unresolved-continuation))
|
||
|
||
(define (build-accumulator continue store things mode)
|
||
"This build handler accumulates THINGS and returns an <unresolved> object."
|
||
(if (= mode (build-mode normal))
|
||
(unresolved things continue)
|
||
(continue #t)))
|
||
|
||
(define (map/accumulate-builds store proc lst)
|
||
"Apply PROC over each element of LST, accumulating 'build-things' calls and
|
||
coalescing them into a single call."
|
||
(define result
|
||
(map (lambda (obj)
|
||
(with-build-handler build-accumulator
|
||
(proc obj)))
|
||
lst))
|
||
|
||
(match (append-map (lambda (obj)
|
||
(if (unresolved? obj)
|
||
(unresolved-things obj)
|
||
'()))
|
||
result)
|
||
(()
|
||
result)
|
||
(to-build
|
||
;; We've accumulated things TO-BUILD. Actually build them and resume the
|
||
;; corresponding continuations.
|
||
(build-things store (delete-duplicates to-build))
|
||
(map/accumulate-builds store
|
||
(lambda (obj)
|
||
(if (unresolved? obj)
|
||
;; Pass #f because 'build-things' is now
|
||
;; unnecessary.
|
||
((unresolved-continuation obj) #f)
|
||
obj))
|
||
result))))
|
||
|
||
(define build-things
|
||
(let ((build (operation (build-things (string-list things)
|
||
(integer mode))
|
||
"Do it!"
|
||
boolean))
|
||
(build/old (operation (build-things (string-list things))
|
||
"Do it!"
|
||
boolean)))
|
||
(lambda* (store things #:optional (mode (build-mode normal)))
|
||
"Build THINGS, a list of store items which may be either '.drv' files or
|
||
outputs, and return when the worker is done building them. Elements of THINGS
|
||
that are not derivations can only be substituted and not built locally.
|
||
Alternately, an element of THING can be a derivation/output name pair, in
|
||
which case the daemon will attempt to substitute just the requested output of
|
||
the derivation. Return #t on success.
|
||
|
||
When a handler is installed with 'with-build-handler', it is called any time
|
||
'build-things' is called."
|
||
(or (not (invoke-build-handler store things mode))
|
||
(let ((things (map (match-lambda
|
||
((drv . output) (string-append drv "!" output))
|
||
(thing thing))
|
||
things)))
|
||
(parameterize ((current-store-protocol-version
|
||
(store-connection-version store)))
|
||
(if (>= (store-connection-minor-version store) 15)
|
||
(build store things mode)
|
||
(if (= mode (build-mode normal))
|
||
(build/old store things)
|
||
(raise (condition (&store-protocol-error
|
||
(message "unsupported build mode")
|
||
(status 1))))))))))))
|
||
|
||
(define-operation (add-temp-root (store-path path))
|
||
"Make PATH a temporary root for the duration of the current session.
|
||
Return #t."
|
||
boolean)
|
||
|
||
(define-operation (add-indirect-root (string file-name))
|
||
"Make the symlink FILE-NAME an indirect root for the garbage collector:
|
||
whatever store item FILE-NAME points to will not be collected. Return #t on
|
||
success.
|
||
|
||
FILE-NAME can be anywhere on the file system, but it must be an absolute file
|
||
name--it is the caller's responsibility to ensure that it is an absolute file
|
||
name."
|
||
boolean)
|
||
|
||
(define %gc-roots-directory
|
||
;; The place where garbage collector roots (symlinks) are kept.
|
||
(string-append %state-directory "/gcroots"))
|
||
|
||
(define (add-permanent-root target)
|
||
"Add a garbage collector root pointing to TARGET, an element of the store,
|
||
preventing TARGET from even being collected. This can also be used if TARGET
|
||
does not exist yet.
|
||
|
||
Raise an error if the caller does not have write access to the GC root
|
||
directory."
|
||
(let* ((root (string-append %gc-roots-directory "/" (basename target))))
|
||
(catch 'system-error
|
||
(lambda ()
|
||
(symlink target root))
|
||
(lambda args
|
||
;; If ROOT already exists, this is fine; otherwise, re-throw.
|
||
(unless (= EEXIST (system-error-errno args))
|
||
(apply throw args))))))
|
||
|
||
(define (remove-permanent-root target)
|
||
"Remove the permanent garbage collector root pointing to TARGET. Raise an
|
||
error if there is no such root."
|
||
(delete-file (string-append %gc-roots-directory "/" (basename target))))
|
||
|
||
(define references
|
||
(operation (query-references (store-path path))
|
||
"Return the list of references of PATH."
|
||
store-path-list))
|
||
|
||
(define %reference-cache
|
||
;; Brute-force cache mapping store items to their list of references.
|
||
;; Caching matters because when building a profile in the presence of
|
||
;; grafts, we keep calling 'graft-derivation', which in turn calls
|
||
;; 'references/substitutes' many times with the same arguments. Ideally we
|
||
;; would use a cache associated with the daemon connection instead (XXX).
|
||
(make-hash-table 100))
|
||
|
||
(define (references/cached store item)
|
||
"Like 'references', but cache results."
|
||
(or (hash-ref %reference-cache item)
|
||
(let ((references (references store item)))
|
||
(hash-set! %reference-cache item references)
|
||
references)))
|
||
|
||
(define (references/substitutes store items)
|
||
"Return the list of list of references of ITEMS; the result has the same
|
||
length as ITEMS. Query substitute information for any item missing from the
|
||
store at once. Raise a '&store-protocol-error' exception if reference
|
||
information for one of ITEMS is missing."
|
||
(let* ((requested items)
|
||
(local-refs (map (lambda (item)
|
||
(or (hash-ref %reference-cache item)
|
||
(guard (c ((store-protocol-error? c) #f))
|
||
(references store item))))
|
||
items))
|
||
(missing (fold-right (lambda (item local-ref result)
|
||
(if local-ref
|
||
result
|
||
(cons item result)))
|
||
'()
|
||
items local-refs))
|
||
|
||
;; Query all the substitutes at once to minimize the cost of
|
||
;; launching 'guix substitute' and making HTTP requests.
|
||
(substs (if (null? missing)
|
||
'()
|
||
(substitutable-path-info store missing))))
|
||
(when (< (length substs) (length missing))
|
||
(raise (condition (&store-protocol-error
|
||
(message "cannot determine \
|
||
the list of references")
|
||
(status 1)))))
|
||
|
||
;; Intersperse SUBSTS and LOCAL-REFS.
|
||
(let loop ((items items)
|
||
(local-refs local-refs)
|
||
(result '()))
|
||
(match items
|
||
(()
|
||
(let ((result (reverse result)))
|
||
(for-each (cut hash-set! %reference-cache <> <>)
|
||
requested result)
|
||
result))
|
||
((item items ...)
|
||
(match local-refs
|
||
((#f tail ...)
|
||
(loop items tail
|
||
(cons (any (lambda (subst)
|
||
(and (string=? (substitutable-path subst) item)
|
||
(substitutable-references subst)))
|
||
substs)
|
||
result)))
|
||
((head tail ...)
|
||
(loop items tail
|
||
(cons head result)))))))))
|
||
|
||
(define* (fold-path store proc seed paths
|
||
#:optional (relatives (cut references store <>)))
|
||
"Call PROC for each of the RELATIVES of PATHS, exactly once, and return the
|
||
result formed from the successive calls to PROC, the first of which is passed
|
||
SEED."
|
||
(let loop ((paths paths)
|
||
(result seed)
|
||
(seen vlist-null))
|
||
(match paths
|
||
((path rest ...)
|
||
(if (vhash-assoc path seen)
|
||
(loop rest result seen)
|
||
(let ((seen (vhash-cons path #t seen))
|
||
(rest (append rest (relatives path)))
|
||
(result (proc path result)))
|
||
(loop rest result seen))))
|
||
(()
|
||
result))))
|
||
|
||
(define (requisites store paths)
|
||
"Return the requisites of PATHS, including PATHS---i.e., their closures (all
|
||
its references, recursively)."
|
||
(fold-path store cons '() paths))
|
||
|
||
(define (topologically-sorted store paths)
|
||
"Return a list containing PATHS and all their references sorted in
|
||
topological order."
|
||
(define (traverse)
|
||
;; Do a simple depth-first traversal of all of PATHS.
|
||
(let loop ((paths paths)
|
||
(visited vlist-null)
|
||
(result '()))
|
||
(define (visit n)
|
||
(vhash-cons n #t visited))
|
||
|
||
(define (visited? n)
|
||
(vhash-assoc n visited))
|
||
|
||
(match paths
|
||
((head tail ...)
|
||
(if (visited? head)
|
||
(loop tail visited result)
|
||
(call-with-values
|
||
(lambda ()
|
||
(loop (references store head)
|
||
(visit head)
|
||
result))
|
||
(lambda (visited result)
|
||
(loop tail
|
||
visited
|
||
(cons head result))))))
|
||
(()
|
||
(values visited result)))))
|
||
|
||
(call-with-values traverse
|
||
(lambda (_ result)
|
||
(reverse result))))
|
||
|
||
(define referrers
|
||
(operation (query-referrers (store-path path))
|
||
"Return the list of path that refer to PATH."
|
||
store-path-list))
|
||
|
||
(define valid-derivers
|
||
(operation (query-valid-derivers (store-path path))
|
||
"Return the list of valid \"derivers\" of PATH---i.e., all the
|
||
.drv present in the store that have PATH among their outputs."
|
||
store-path-list))
|
||
|
||
(define query-derivation-outputs ; avoid name clash with `derivation-outputs'
|
||
(operation (query-derivation-outputs (store-path path))
|
||
"Return the list of outputs of PATH, a .drv file."
|
||
store-path-list))
|
||
|
||
(define-operation (has-substitutes? (store-path path))
|
||
"Return #t if binary substitutes are available for PATH, and #f otherwise."
|
||
boolean)
|
||
|
||
(define substitutable-paths
|
||
(operation (query-substitutable-paths (store-path-list paths))
|
||
"Return the subset of PATHS that is substitutable."
|
||
store-path-list))
|
||
|
||
(define substitutable-path-info
|
||
(operation (query-substitutable-path-infos (store-path-list paths))
|
||
"Return information about the subset of PATHS that is
|
||
substitutable. For each substitutable path, a `substitutable?' object is
|
||
returned; thus, the resulting list can be shorter than PATHS. Furthermore,
|
||
that there is no guarantee that the order of the resulting list matches the
|
||
order of PATHS."
|
||
substitutable-path-list))
|
||
|
||
(define %built-in-builders
|
||
(let ((builders (operation (built-in-builders)
|
||
"Return the built-in builders."
|
||
string-list)))
|
||
(lambda (store)
|
||
"Return the names of the supported built-in derivation builders
|
||
supported by STORE. The result is memoized for STORE."
|
||
;; Check whether STORE's version supports this RPC and built-in
|
||
;; derivation builders in general, which appeared in Guix > 0.11.0.
|
||
;; Return the empty list if it doesn't. Note that this RPC does not
|
||
;; exist in 'nix-daemon'.
|
||
(if (or (> (store-connection-major-version store) #x100)
|
||
(and (= (store-connection-major-version store) #x100)
|
||
(>= (store-connection-minor-version store) #x60)))
|
||
(builders store)
|
||
'()))))
|
||
|
||
(define (built-in-builders store)
|
||
"Return the names of the supported built-in derivation builders
|
||
supported by STORE."
|
||
(force (store-connection-built-in-builders store)))
|
||
|
||
(define-operation (optimize-store)
|
||
"Optimize the store by hard-linking identical files (\"deduplication\".)
|
||
Return #t on success."
|
||
;; Note: the daemon in Guix <= 0.8.2 does not implement this RPC.
|
||
boolean)
|
||
|
||
(define verify-store
|
||
(let ((verify (operation (verify-store (boolean check-contents?)
|
||
(boolean repair?))
|
||
"Verify the store."
|
||
boolean)))
|
||
(lambda* (store #:key check-contents? repair?)
|
||
"Verify the integrity of the store and return false if errors remain,
|
||
and true otherwise. When REPAIR? is true, repair any missing or altered store
|
||
items by substituting them (this typically requires root privileges because it
|
||
is not an atomic operation.) When CHECK-CONTENTS? is true, check the contents
|
||
of store items; this can take a lot of time."
|
||
(not (verify store check-contents? repair?)))))
|
||
|
||
(define (run-gc server action to-delete min-freed)
|
||
"Perform the garbage-collector operation ACTION, one of the
|
||
`gc-action' values. When ACTION is `delete-specific', the TO-DELETE is
|
||
the list of store paths to delete. IGNORE-LIVENESS? should always be
|
||
#f. MIN-FREED is the minimum amount of disk space to be freed, in
|
||
bytes, before the GC can stop. Return the list of store paths delete,
|
||
and the number of bytes freed."
|
||
(let ((s (store-connection-socket server))
|
||
(buffered (store-connection-output-port server)))
|
||
(write-int (operation-id collect-garbage) buffered)
|
||
(write-int action buffered)
|
||
(write-store-path-list to-delete buffered)
|
||
(write-arg boolean #f buffered) ; ignore-liveness?
|
||
(write-long-long min-freed buffered)
|
||
(write-int 0 buffered) ; obsolete
|
||
(when (>= (store-connection-minor-version server) 5)
|
||
;; Obsolete `use-atime' and `max-atime' parameters.
|
||
(write-int 0 buffered)
|
||
(write-int 0 buffered))
|
||
(write-buffered-output server)
|
||
|
||
;; Loop until the server is done sending error output.
|
||
(let loop ((done? (process-stderr server)))
|
||
(or done? (loop (process-stderr server))))
|
||
|
||
(let ((paths (read-store-path-list s))
|
||
(freed (read-long-long s))
|
||
(obsolete (read-long-long s)))
|
||
(unless (null? paths)
|
||
;; To be on the safe side, completely invalidate both caches.
|
||
;; Otherwise we could end up returning store paths that are no longer
|
||
;; valid.
|
||
(hash-clear! (store-connection-add-to-store-cache server))
|
||
(hash-clear! (store-connection-add-text-to-store-cache server)))
|
||
|
||
(values paths freed))))
|
||
|
||
(define-syntax-rule (%long-long-max)
|
||
;; Maximum unsigned 64-bit integer.
|
||
(- (expt 2 64) 1))
|
||
|
||
(define (live-paths server)
|
||
"Return the list of live store paths---i.e., store paths still
|
||
referenced, and thus not subject to being garbage-collected."
|
||
(run-gc server (gc-action return-live) '() (%long-long-max)))
|
||
|
||
(define (dead-paths server)
|
||
"Return the list of dead store paths---i.e., store paths no longer
|
||
referenced, and thus subject to being garbage-collected."
|
||
(run-gc server (gc-action return-dead) '() (%long-long-max)))
|
||
|
||
(define* (collect-garbage server #:optional (min-freed (%long-long-max)))
|
||
"Collect garbage from the store at SERVER. If MIN-FREED is non-zero,
|
||
then collect at least MIN-FREED bytes. Return the paths that were
|
||
collected, and the number of bytes freed."
|
||
(run-gc server (gc-action delete-dead) '() min-freed))
|
||
|
||
(define* (delete-paths server paths #:optional (min-freed (%long-long-max)))
|
||
"Delete PATHS from the store at SERVER, if they are no longer
|
||
referenced. If MIN-FREED is non-zero, then stop after at least
|
||
MIN-FREED bytes have been collected. Return the paths that were
|
||
collected, and the number of bytes freed."
|
||
(run-gc server (gc-action delete-specific) paths min-freed))
|
||
|
||
(define (import-paths server port)
|
||
"Import the set of store paths read from PORT into SERVER's store. An error
|
||
is raised if the set of paths read from PORT is not signed (as per
|
||
'export-path #:sign? #t'.) Return the list of store paths imported."
|
||
(let ((s (store-connection-socket server)))
|
||
(write-int (operation-id import-paths) s)
|
||
(let loop ((done? (process-stderr server port)))
|
||
(or done? (loop (process-stderr server port))))
|
||
(read-store-path-list s)))
|
||
|
||
(define* (export-path server path port #:key (sign? #t))
|
||
"Export PATH to PORT. When SIGN? is true, sign it."
|
||
(let ((s (store-connection-socket server))
|
||
(buffered (store-connection-output-port server)))
|
||
(write-int (operation-id export-path) buffered)
|
||
(write-store-path path buffered)
|
||
(write-arg boolean sign? buffered)
|
||
(write-buffered-output server)
|
||
(let loop ((done? (process-stderr server port)))
|
||
(or done? (loop (process-stderr server port))))
|
||
(= 1 (read-int s))))
|
||
|
||
(define* (export-paths server paths port #:key (sign? #t) recursive?
|
||
(start (const #f))
|
||
(progress (const #f))
|
||
(finish (const #f)))
|
||
"Export the store paths listed in PATHS to PORT, in topological order,
|
||
signing them if SIGN? is true. When RECURSIVE? is true, export the closure of
|
||
PATHS---i.e., PATHS and all their dependencies.
|
||
|
||
START, PROGRESS, and FINISH are used to track progress of the data transfer.
|
||
START is a one-argument that is passed the list of store items that will be
|
||
transferred; it returns values that are then used as the initial state
|
||
threaded through PROGRESS calls. PROGRESS is passed the store item about to
|
||
be sent, along with the values previously return by START or by PROGRESS
|
||
itself. FINISH is called when the last store item has been called."
|
||
(define ordered
|
||
(let ((sorted (topologically-sorted server paths)))
|
||
;; When RECURSIVE? is #f, filter out the references of PATHS.
|
||
(if recursive?
|
||
sorted
|
||
(filter (cut member <> paths) sorted))))
|
||
|
||
(let loop ((paths ordered)
|
||
(state (call-with-values (lambda () (start ordered))
|
||
list)))
|
||
(match paths
|
||
(()
|
||
(apply finish state)
|
||
(write-int 0 port))
|
||
((head tail ...)
|
||
(write-int 1 port)
|
||
(and (export-path server head port #:sign? sign?)
|
||
(loop tail
|
||
(call-with-values
|
||
(lambda () (apply progress head state))
|
||
list)))))))
|
||
|
||
(define-operation (query-failed-paths)
|
||
"Return the list of store items for which a build failure is cached.
|
||
|
||
The result is always the empty list unless the daemon was started with
|
||
'--cache-failures'."
|
||
store-path-list)
|
||
|
||
(define-operation (clear-failed-paths (store-path-list items))
|
||
"Remove ITEMS from the list of cached build failures.
|
||
|
||
This makes sense only when the daemon was started with '--cache-failures'."
|
||
boolean)
|
||
|
||
|
||
;;;
|
||
;;; Store monad.
|
||
;;;
|
||
|
||
(define-syntax-rule (define-alias new old)
|
||
(define-syntax new (identifier-syntax old)))
|
||
|
||
;; The store monad allows us to (1) build sequences of operations in the
|
||
;; store, and (2) make the store an implicit part of the execution context,
|
||
;; rather than a parameter of every single function.
|
||
(define-alias %store-monad %state-monad)
|
||
(define-alias store-return state-return)
|
||
(define-alias store-bind state-bind)
|
||
|
||
;; Instantiate templates for %STORE-MONAD since it's syntactically different
|
||
;; from %STATE-MONAD.
|
||
(template-directory instantiations %store-monad)
|
||
|
||
(define* (cache-object-mapping object keys result
|
||
#:key (vhash-cons vhash-consq))
|
||
"Augment the store's object cache with a mapping from OBJECT/KEYS to RESULT.
|
||
KEYS is a list of additional keys to match against, for instance a (SYSTEM
|
||
TARGET) tuple. Use VHASH-CONS to insert OBJECT into the cache.
|
||
|
||
OBJECT is typically a high-level object such as a <package> or an <origin>,
|
||
and RESULT is typically its derivation."
|
||
(lambda (store)
|
||
(values result
|
||
(store-connection
|
||
(inherit store)
|
||
(object-cache (vhash-cons object (cons result keys)
|
||
(store-connection-object-cache store)))))))
|
||
|
||
(define record-cache-lookup!
|
||
(if (profiled? "object-cache")
|
||
(let ((fresh 0)
|
||
(lookups 0)
|
||
(hits 0))
|
||
(register-profiling-hook!
|
||
"object-cache"
|
||
(lambda ()
|
||
(format (current-error-port) "Store object cache:
|
||
fresh caches: ~5@a
|
||
lookups: ~5@a
|
||
hits: ~5@a (~,1f%)~%"
|
||
fresh lookups hits
|
||
(if (zero? lookups)
|
||
100.
|
||
(* 100. (/ hits lookups))))))
|
||
|
||
(lambda (hit? cache)
|
||
(set! fresh
|
||
(if (eq? cache vlist-null)
|
||
(+ 1 fresh)
|
||
fresh))
|
||
(set! lookups (+ 1 lookups))
|
||
(set! hits (if hit? (+ hits 1) hits))))
|
||
(lambda (x y)
|
||
#t)))
|
||
|
||
(define* (lookup-cached-object object #:optional (keys '())
|
||
#:key (vhash-fold* vhash-foldq*))
|
||
"Return the cached object in the store connection corresponding to OBJECT
|
||
and KEYS; use VHASH-FOLD* to look for OBJECT in the cache. KEYS is a list of
|
||
additional keys to match against, and which are compared with 'equal?'.
|
||
Return #f on failure and the cached result otherwise."
|
||
(lambda (store)
|
||
(let* ((cache (store-connection-object-cache store))
|
||
|
||
;; Escape as soon as we find the result. This avoids traversing
|
||
;; the whole vlist chain and significantly reduces the number of
|
||
;; 'hashq' calls.
|
||
(value (let/ec return
|
||
(vhash-fold* (lambda (item result)
|
||
(match item
|
||
((value . keys*)
|
||
(if (equal? keys keys*)
|
||
(return value)
|
||
result))))
|
||
#f object
|
||
cache))))
|
||
(record-cache-lookup! value cache)
|
||
(values value store))))
|
||
|
||
(define* (%mcached mthunk object #:optional (keys '())
|
||
#:key
|
||
(vhash-cons vhash-consq)
|
||
(vhash-fold* vhash-foldq*))
|
||
"Bind the monadic value returned by MTHUNK, which supposedly corresponds to
|
||
OBJECT/KEYS, or return its cached value. Use VHASH-CONS to insert OBJECT into
|
||
the cache, and VHASH-FOLD* to look it up."
|
||
(mlet %store-monad ((cached (lookup-cached-object object keys
|
||
#:vhash-fold* vhash-fold*)))
|
||
(if cached
|
||
(return cached)
|
||
(>>= (mthunk)
|
||
(lambda (result)
|
||
(cache-object-mapping object keys result
|
||
#:vhash-cons vhash-cons))))))
|
||
|
||
(define-syntax mcached
|
||
(syntax-rules (eq? equal?)
|
||
"Run MVALUE, which corresponds to OBJECT/KEYS, and cache it; or return the
|
||
value associated with OBJECT/KEYS in the store's object cache if there is
|
||
one."
|
||
((_ eq? mvalue object keys ...)
|
||
(%mcached (lambda () mvalue)
|
||
object (list keys ...)
|
||
#:vhash-cons vhash-consq
|
||
#:vhash-fold* vhash-foldq*))
|
||
((_ equal? mvalue object keys ...)
|
||
(%mcached (lambda () mvalue)
|
||
object (list keys ...)
|
||
#:vhash-cons vhash-cons
|
||
#:vhash-fold* vhash-fold*))
|
||
((_ mvalue object keys ...)
|
||
(mcached eq? mvalue object keys ...))))
|
||
|
||
(define (preserve-documentation original proc)
|
||
"Return PROC with documentation taken from ORIGINAL."
|
||
(set-object-property! proc 'documentation
|
||
(procedure-property original 'documentation))
|
||
proc)
|
||
|
||
(define (store-lift proc)
|
||
"Lift PROC, a procedure whose first argument is a connection to the store,
|
||
in the store monad."
|
||
(preserve-documentation proc
|
||
(lambda args
|
||
(lambda (store)
|
||
(values (apply proc store args) store)))))
|
||
|
||
(define (store-lower proc)
|
||
"Lower PROC, a monadic procedure in %STORE-MONAD, to a \"normal\" procedure
|
||
taking the store as its first argument."
|
||
(preserve-documentation proc
|
||
(lambda (store . args)
|
||
(run-with-store store (apply proc args)))))
|
||
|
||
(define (mapm/accumulate-builds mproc lst)
|
||
"Like 'mapm' in %STORE-MONAD, but accumulate 'build-things' calls and
|
||
coalesce them into a single call."
|
||
(lambda (store)
|
||
(values (map/accumulate-builds store
|
||
(lambda (obj)
|
||
(run-with-store store
|
||
(mproc obj)
|
||
#:system (%current-system)
|
||
#:target (%current-target-system)))
|
||
lst)
|
||
store)))
|
||
|
||
|
||
;;
|
||
;; Store monad operators.
|
||
;;
|
||
|
||
(define* (binary-file name
|
||
data ;bytevector
|
||
#:optional (references '()))
|
||
"Return as a monadic value the absolute file name in the store of the file
|
||
containing DATA, a bytevector. REFERENCES is a list of store items that the
|
||
resulting text file refers to; it defaults to the empty list."
|
||
(lambda (store)
|
||
(values (add-data-to-store store name data references)
|
||
store)))
|
||
|
||
(define* (text-file name
|
||
text ;string
|
||
#:optional (references '()))
|
||
"Return as a monadic value the absolute file name in the store of the file
|
||
containing TEXT, a string. REFERENCES is a list of store items that the
|
||
resulting text file refers to; it defaults to the empty list."
|
||
(lambda (store)
|
||
(values (add-text-to-store store name text references)
|
||
store)))
|
||
|
||
(define* (interned-file file #:optional name
|
||
#:key (recursive? #t) (select? true))
|
||
"Return the name of FILE once interned in the store. Use NAME as its store
|
||
name, or the basename of FILE if NAME is omitted.
|
||
|
||
When RECURSIVE? is true, the contents of FILE are added recursively; if FILE
|
||
designates a flat file and RECURSIVE? is true, its contents are added, and its
|
||
permission bits are kept.
|
||
|
||
When RECURSIVE? is true, call (SELECT? FILE STAT) for each directory entry,
|
||
where FILE is the entry's absolute file name and STAT is the result of
|
||
'lstat'; exclude entries for which SELECT? does not return true."
|
||
(lambda (store)
|
||
(values (add-to-store store (or name (basename file))
|
||
recursive? "sha256" file
|
||
#:select? select?)
|
||
store)))
|
||
|
||
(define interned-file-tree
|
||
(store-lift add-file-tree-to-store))
|
||
|
||
(define build
|
||
;; Monadic variant of 'build-things'.
|
||
(store-lift build-things))
|
||
|
||
(define set-build-options*
|
||
(store-lift set-build-options))
|
||
|
||
(define references*
|
||
(store-lift references))
|
||
|
||
(define (query-path-info* item)
|
||
"Monadic version of 'query-path-info' that returns #f when ITEM is not in
|
||
the store."
|
||
(lambda (store)
|
||
(guard (c ((store-protocol-error? c)
|
||
;; ITEM is not in the store; return #f.
|
||
(values #f store)))
|
||
(values (query-path-info store item) store))))
|
||
|
||
(define-inlinable (current-system)
|
||
;; Consult the %CURRENT-SYSTEM fluid at bind time. This is equivalent to
|
||
;; (lift0 %current-system %store-monad), but inlinable, thus avoiding
|
||
;; closure allocation in some cases.
|
||
(lambda (state)
|
||
(values (%current-system) state)))
|
||
|
||
(define-inlinable (set-current-system system)
|
||
;; Set the %CURRENT-SYSTEM fluid at bind time.
|
||
(lambda (state)
|
||
(values (%current-system system) state)))
|
||
|
||
(define-inlinable (current-target-system)
|
||
;; Consult the %CURRENT-TARGET-SYSTEM fluid at bind time.
|
||
(lambda (state)
|
||
(values (%current-target-system) state)))
|
||
|
||
(define-inlinable (set-current-target target)
|
||
;; Set the %CURRENT-TARGET-SYSTEM fluid at bind time.
|
||
(lambda (state)
|
||
(values (%current-target-system target) state)))
|
||
|
||
(define %guile-for-build
|
||
;; The derivation of the Guile to be used within the build environment,
|
||
;; when using 'gexp->derivation' and co.
|
||
(make-parameter #f))
|
||
|
||
(define set-store-connection-object-cache!
|
||
(record-modifier <store-connection> 'object-cache))
|
||
|
||
(define* (run-with-store store mval
|
||
#:key
|
||
(guile-for-build (%guile-for-build))
|
||
(system (%current-system))
|
||
(target #f))
|
||
"Run MVAL, a monadic value in the store monad, in STORE, an open store
|
||
connection, and return the result."
|
||
;; Initialize the dynamic bindings here to avoid bad surprises. The
|
||
;; difficulty lies in the fact that dynamic bindings are resolved at
|
||
;; bind-time and not at call time, which can be disconcerting.
|
||
(parameterize ((%guile-for-build guile-for-build)
|
||
(%current-system system)
|
||
(%current-target-system target))
|
||
(call-with-values (lambda ()
|
||
(run-with-state mval store))
|
||
(lambda (result new-store)
|
||
(when (and store new-store)
|
||
;; Copy the object cache from NEW-STORE so we don't fully discard
|
||
;; the state.
|
||
(let ((cache (store-connection-object-cache new-store)))
|
||
(set-store-connection-object-cache! store cache)))
|
||
result))))
|
||
|
||
|
||
;;;
|
||
;;; Store paths.
|
||
;;;
|
||
|
||
(define %store-prefix
|
||
;; Absolute path to the Nix store.
|
||
(make-parameter %store-directory))
|
||
|
||
(define (compressed-hash bv size) ; `compressHash'
|
||
"Given the hash stored in BV, return a compressed version thereof that fits
|
||
in SIZE bytes."
|
||
(define new (make-bytevector size 0))
|
||
(define old-size (bytevector-length bv))
|
||
(let loop ((i 0))
|
||
(if (= i old-size)
|
||
new
|
||
(let* ((j (modulo i size))
|
||
(o (bytevector-u8-ref new j)))
|
||
(bytevector-u8-set! new j
|
||
(logxor o (bytevector-u8-ref bv i)))
|
||
(loop (+ 1 i))))))
|
||
|
||
(define (store-path type hash name) ; makeStorePath
|
||
"Return the store path for NAME/HASH/TYPE."
|
||
(let* ((s (string-append type ":sha256:"
|
||
(bytevector->base16-string hash) ":"
|
||
(%store-prefix) ":" name))
|
||
(h (sha256 (string->utf8 s)))
|
||
(c (compressed-hash h 20)))
|
||
(string-append (%store-prefix) "/"
|
||
(bytevector->nix-base32-string c) "-"
|
||
name)))
|
||
|
||
(define (output-path output hash name) ; makeOutputPath
|
||
"Return an output path for OUTPUT (the name of the output as a string) of
|
||
the derivation called NAME with hash HASH."
|
||
(store-path (string-append "output:" output) hash
|
||
(if (string=? output "out")
|
||
name
|
||
(string-append name "-" output))))
|
||
|
||
(define* (fixed-output-path name hash
|
||
#:key
|
||
(output "out")
|
||
(hash-algo 'sha256)
|
||
(recursive? #t))
|
||
"Return an output path for the fixed output OUTPUT defined by HASH of type
|
||
HASH-ALGO, of the derivation NAME. RECURSIVE? has the same meaning as for
|
||
'add-to-store'."
|
||
(if (and recursive? (eq? hash-algo 'sha256))
|
||
(store-path "source" hash name)
|
||
(let ((tag (string-append "fixed:" output ":"
|
||
(if recursive? "r:" "")
|
||
(symbol->string hash-algo) ":"
|
||
(bytevector->base16-string hash) ":")))
|
||
(store-path (string-append "output:" output)
|
||
(sha256 (string->utf8 tag))
|
||
name))))
|
||
|
||
(define (store-path? path)
|
||
"Return #t if PATH is a store path."
|
||
;; This is a lightweight check, compared to using a regexp, but this has to
|
||
;; be fast as it's called often in `derivation', for instance.
|
||
;; `isStorePath' in Nix does something similar.
|
||
(string-prefix? (%store-prefix) path))
|
||
|
||
(define (direct-store-path? path)
|
||
"Return #t if PATH is a store path, and not a sub-directory of a store path.
|
||
This predicate is sometimes needed because files *under* a store path are not
|
||
valid inputs."
|
||
(and (store-path? path)
|
||
(not (string=? path (%store-prefix)))
|
||
(let ((len (+ 1 (string-length (%store-prefix)))))
|
||
(not (string-index (substring path len) #\/)))))
|
||
|
||
(define (direct-store-path path)
|
||
"Return the direct store path part of PATH, stripping components after
|
||
'/gnu/store/xxxx-foo'."
|
||
(let ((prefix-length (+ (string-length (%store-prefix)) 35)))
|
||
(if (> (string-length path) prefix-length)
|
||
(let ((slash (string-index path #\/ prefix-length)))
|
||
(if slash (string-take path slash) path))
|
||
path)))
|
||
|
||
(define (derivation-path? path)
|
||
"Return #t if PATH is a derivation path."
|
||
(and (store-path? path) (string-suffix? ".drv" path)))
|
||
|
||
(define (store-path-base path)
|
||
"Return the base path of a path in the store."
|
||
(and (string-prefix? (%store-prefix) path)
|
||
(let ((base (string-drop path (+ 1 (string-length (%store-prefix))))))
|
||
(and (> (string-length base) 33)
|
||
(not (string-index base #\/))
|
||
base))))
|
||
|
||
(define (store-path-package-name path)
|
||
"Return the package name part of PATH, a file name in the store."
|
||
(let ((base (store-path-base path)))
|
||
(string-drop base (+ 32 1)))) ;32 hash part + 1 hyphen
|
||
|
||
(define (store-path-hash-part path)
|
||
"Return the hash part of PATH as a base32 string, or #f if PATH is not a
|
||
syntactically valid store path."
|
||
(let* ((base (store-path-base path))
|
||
(hash (string-take base 32)))
|
||
(and (string-every %nix-base32-charset hash)
|
||
hash)))
|
||
|
||
(define (derivation-log-file drv)
|
||
"Return the build log file for DRV, a derivation file name, or #f if it
|
||
could not be found."
|
||
(let* ((base (basename drv))
|
||
(log (string-append (or (getenv "GUIX_LOG_DIRECTORY")
|
||
(string-append %localstatedir "/log/guix"))
|
||
"/drvs/"
|
||
(string-take base 2) "/"
|
||
(string-drop base 2)))
|
||
(log.gz (string-append log ".gz"))
|
||
(log.bz2 (string-append log ".bz2")))
|
||
(cond ((file-exists? log.gz) log.gz)
|
||
((file-exists? log.bz2) log.bz2)
|
||
((file-exists? log) log)
|
||
(else #f))))
|
||
|
||
(define (log-file store file)
|
||
"Return the build log file for FILE, or #f if none could be found. FILE
|
||
must be an absolute store file name, or a derivation file name."
|
||
(cond ((derivation-path? file)
|
||
(derivation-log-file file))
|
||
(else
|
||
(match (valid-derivers store file)
|
||
((derivers ...)
|
||
;; Return the first that works.
|
||
(any (cut log-file store <>) derivers))
|
||
(_ #f)))))
|
||
|
||
;;; Local Variables:
|
||
;;; eval: (put 'system-error-to-connection-error 'scheme-indent-function 1)
|
||
;;; End:
|