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| | ;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020, 2021 Ludovic Courtès <ludo@gnu.org>
;;; Copyright © 2018 Jan Nieuwenhuizen <janneke@gnu.org>
;;; Copyright © 2019, 2020 Mathieu Othacehe <m.othacehe@gmail.com>
;;; Copyright © 2020 Florian Pelz <pelzflorian@pelzflorian.de>
;;; Copyright © 2020 Lars-Dominik Braun <ldb@leibniz-psychology.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
(define-module (guix store)
#:use-module (guix utils)
#:use-module (guix config)
#:use-module (guix deprecation)
#:use-module (guix memoization)
#:use-module (guix serialization)
#:use-module (guix monads)
#:use-module (guix records)
#:use-module (guix base16)
#:use-module (guix base32)
#:use-module (gcrypt hash)
#:use-module (guix profiling)
#:autoload (guix build syscalls) (terminal-columns)
#:use-module (rnrs bytevectors)
#:use-module (ice-9 binary-ports)
#:use-module ((ice-9 control) #:select (let/ec))
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-9)
#:use-module (srfi srfi-9 gnu)
#:use-module (srfi srfi-11)
#:use-module (srfi srfi-26)
#:use-module (srfi srfi-34)
#:use-module (srfi srfi-35)
#:use-module (srfi srfi-39)
#:use-module (ice-9 match)
#:use-module (ice-9 vlist)
#:use-module (ice-9 popen)
#:use-module (ice-9 threads)
#:use-module (ice-9 format)
#:use-module (web uri)
#:export (%daemon-socket-uri
%gc-roots-directory
%default-substitute-urls
store-connection?
store-connection-version
store-connection-major-version
store-connection-minor-version
store-connection-socket
;; Deprecated forms for 'store-connection'.
nix-server?
nix-server-version
nix-server-major-version
nix-server-minor-version
nix-server-socket
current-store-protocol-version ;for internal use
mcached
&store-error store-error?
&store-connection-error store-connection-error?
store-connection-error-file
store-connection-error-code
&store-protocol-error store-protocol-error?
store-protocol-error-message
store-protocol-error-status
;; Deprecated forms for '&store-error' et al.
&nix-error nix-error?
&nix-connection-error nix-connection-error?
nix-connection-error-file
nix-connection-error-code
&nix-protocol-error nix-protocol-error?
nix-protocol-error-message
nix-protocol-error-status
hash-algo
build-mode
open-connection
port->connection
close-connection
with-store
set-build-options
set-build-options*
valid-path?
query-path-hash
hash-part->path
query-path-info
add-data-to-store
add-text-to-store
add-to-store
add-file-tree-to-store
file-mapping->tree
binary-file
with-build-handler
map/accumulate-builds
mapm/accumulate-builds
build-things
build
query-failed-paths
clear-failed-paths
ensure-path
find-roots
add-temp-root
add-indirect-root
add-permanent-root
remove-permanent-root
substitutable?
substitutable-path
substitutable-deriver
substitutable-references
substitutable-download-size
substitutable-nar-size
has-substitutes?
substitutable-paths
substitutable-path-info
path-info?
path-info-deriver
path-info-hash
path-info-references
path-info-registration-time
path-info-nar-size
built-in-builders
references
references/cached
references/substitutes
references*
query-path-info*
requisites
referrers
optimize-store
verify-store
topologically-sorted
valid-derivers
query-derivation-outputs
live-paths
dead-paths
collect-garbage
delete-paths
import-paths
export-paths
current-build-output-port
%store-monad
store-bind
store-return
store-lift
store-lower
run-with-store
%guile-for-build
current-system
set-current-system
current-target-system
set-current-target
text-file
interned-file
interned-file-tree
%store-prefix
store-path
output-path
fixed-output-path
store-path?
direct-store-path?
derivation-path?
store-path-base
store-path-package-name
store-path-hash-part
direct-store-path
derivation-log-file
log-file))
(define %protocol-version #x163)
(define %worker-magic-1 #x6e697863) ; "nixc"
(define %worker-magic-2 #x6478696f) ; "dxio"
(define (protocol-major magic)
(logand magic #xff00))
(define (protocol-minor magic)
(logand magic #x00ff))
(define (protocol-version major minor)
(logior major minor))
(define-syntax define-enumerate-type
(syntax-rules ()
((_ name->int (name id) ...)
(define-syntax name->int
(syntax-rules (name ...)
((_ name) id) ...)))))
(define-enumerate-type operation-id
;; operation numbers from worker-protocol.hh
(quit 0)
(valid-path? 1)
(has-substitutes? 3)
(query-path-hash 4)
(query-references 5)
(query-referrers 6)
(add-to-store 7)
(add-text-to-store 8)
(build-things 9)
(ensure-path 10)
(add-temp-root 11)
(add-indirect-root 12)
(sync-with-gc 13)
(find-roots 14)
(export-path 16)
(query-deriver 18)
(set-options 19)
(collect-garbage 20)
;;(query-substitutable-path-info 21) ; obsolete as of #x10c
(query-derivation-outputs 22)
(query-all-valid-paths 23)
(query-failed-paths 24)
(clear-failed-paths 25)
(query-path-info 26)
(import-paths 27)
(query-derivation-output-names 28)
(query-path-from-hash-part 29)
(query-substitutable-path-infos 30)
(query-valid-paths 31)
(query-substitutable-paths 32)
(query-valid-derivers 33)
(optimize-store 34)
(verify-store 35)
(built-in-builders 80))
(define-enumerate-type hash-algo
;; hash.hh
(md5 1)
(sha1 2)
(sha256 3))
(define-enumerate-type build-mode
;; store-api.hh
(normal 0)
(repair 1)
(check 2))
(define-enumerate-type gc-action
;; store-api.hh
(return-live 0)
(return-dead 1)
(delete-dead 2)
(delete-specific 3))
(define %default-socket-path
(string-append %state-directory "/daemon-socket/socket"))
(define %daemon-socket-uri
;; URI or file name of the socket the daemon listens too.
(make-parameter (or (getenv "GUIX_DAEMON_SOCKET")
%default-socket-path)))
\f
;; Information about a substitutable store path.
(define-record-type <substitutable>
(substitutable path deriver refs dl-size nar-size)
substitutable?
(path substitutable-path)
(deriver substitutable-deriver)
(refs substitutable-references)
(dl-size substitutable-download-size)
(nar-size substitutable-nar-size))
(define (read-substitutable-path-list p)
(let loop ((len (read-int p))
(result '()))
(if (zero? len)
(reverse result)
(let ((path (read-store-path p))
(deriver (read-store-path p))
(refs (read-store-path-list p))
(dl-size (read-long-long p))
(nar-size (read-long-long p)))
(loop (- len 1)
(cons (substitutable path deriver refs dl-size nar-size)
result))))))
;; Information about a store path.
(define-record-type <path-info>
(path-info deriver hash references registration-time nar-size)
path-info?
(deriver path-info-deriver) ;string | #f
(hash path-info-hash)
(references path-info-references)
(registration-time path-info-registration-time)
(nar-size path-info-nar-size))
(define (read-path-info p)
(let ((deriver (match (read-store-path p)
("" #f)
(x x)))
(hash (base16-string->bytevector (read-string p)))
(refs (read-store-path-list p))
(registration-time (read-int p))
(nar-size (read-long-long p)))
(path-info deriver hash refs registration-time nar-size)))
(define-syntax write-arg
(syntax-rules (integer boolean bytevector
string string-list string-pairs
store-path store-path-list base16)
((_ integer arg p)
(write-int arg p))
((_ boolean arg p)
(write-int (if arg 1 0) p))
((_ bytevector arg p)
(write-bytevector arg p))
((_ string arg p)
(write-string arg p))
((_ string-list arg p)
(write-string-list arg p))
((_ string-pairs arg p)
(write-string-pairs arg p))
((_ store-path arg p)
(write-store-path arg p))
((_ store-path-list arg p)
(write-store-path-list arg p))
((_ base16 arg p)
(write-string (bytevector->base16-string arg) p))))
(define-syntax read-arg
(syntax-rules (integer boolean string store-path
store-path-list string-list string-pairs
substitutable-path-list path-info base16)
((_ integer p)
(read-int p))
((_ boolean p)
(not (zero? (read-int p))))
((_ string p)
(read-string p))
((_ store-path p)
(read-store-path p))
((_ store-path-list p)
(read-store-path-list p))
((_ string-list p)
(read-string-list p))
((_ string-pairs p)
(read-string-pairs p))
((_ substitutable-path-list p)
(read-substitutable-path-list p))
((_ path-info p)
(read-path-info p))
((_ base16 p)
(base16-string->bytevector (read-string p)))))
\f
;; remote-store.cc
(define-record-type* <store-connection> store-connection %make-store-connection
store-connection?
(socket store-connection-socket)
(major store-connection-major-version)
(minor store-connection-minor-version)
(buffer store-connection-output-port) ;output port
(flush store-connection-flush-output) ;thunk
;; Caches. We keep them per-connection, because store paths build
;; during the session are temporary GC roots kept for the duration of
;; the session.
(ats-cache store-connection-add-to-store-cache)
(atts-cache store-connection-add-text-to-store-cache)
(object-cache store-connection-object-cache
(default vlist-null)) ;vhash
(built-in-builders store-connection-built-in-builders
(default (delay '())))) ;promise
(set-record-type-printer! <store-connection>
(lambda (obj port)
(format port "#<store-connection ~a.~a ~a>"
(store-connection-major-version obj)
(store-connection-minor-version obj)
(number->string (object-address obj)
16))))
(define-deprecated/alias nix-server? store-connection?)
(define-deprecated/alias nix-server-major-version
store-connection-major-version)
(define-deprecated/alias nix-server-minor-version
store-connection-minor-version)
(define-deprecated/alias nix-server-socket store-connection-socket)
(define-condition-type &store-error &error
store-error?)
(define-condition-type &store-connection-error &store-error
store-connection-error?
(file store-connection-error-file)
(errno store-connection-error-code))
(define-condition-type &store-protocol-error &store-error
store-protocol-error?
(message store-protocol-error-message)
(status store-protocol-error-status))
(define-deprecated/alias &nix-error &store-error)
(define-deprecated/alias nix-error? store-error?)
(define-deprecated/alias &nix-connection-error &store-connection-error)
(define-deprecated/alias nix-connection-error? store-connection-error?)
(define-deprecated/alias nix-connection-error-file
store-connection-error-file)
(define-deprecated/alias nix-connection-error-code
store-connection-error-code)
(define-deprecated/alias &nix-protocol-error &store-protocol-error)
(define-deprecated/alias nix-protocol-error? store-protocol-error?)
(define-deprecated/alias nix-protocol-error-message
store-protocol-error-message)
(define-deprecated/alias nix-protocol-error-status
store-protocol-error-status)
(define-syntax-rule (system-error-to-connection-error file exp ...)
"Catch 'system-error' exceptions and translate them to
'&store-connection-error'."
(catch 'system-error
(lambda ()
exp ...)
(lambda args
(let ((errno (system-error-errno args)))
(raise (condition (&store-connection-error
(file file)
(errno errno))))))))
(define (open-unix-domain-socket file)
"Connect to the Unix-domain socket at FILE and return it. Raise a
'&store-connection-error' upon error."
(let ((s (with-fluids ((%default-port-encoding #f))
;; This trick allows use of the `scm_c_read' optimization.
(socket PF_UNIX SOCK_STREAM 0)))
(a (make-socket-address PF_UNIX file)))
(system-error-to-connection-error file
(connect s a)
s)))
(define %default-guix-port
;; Default port when connecting to a daemon over TCP/IP.
44146)
(define (open-inet-socket host port)
"Connect to the Unix-domain socket at HOST:PORT and return it. Raise a
'&store-connection-error' upon error."
(let ((sock (with-fluids ((%default-port-encoding #f))
;; This trick allows use of the `scm_c_read' optimization.
(socket PF_UNIX SOCK_STREAM 0))))
(define addresses
(getaddrinfo host
(if (number? port) (number->string port) port)
(if (number? port)
(logior AI_ADDRCONFIG AI_NUMERICSERV)
AI_ADDRCONFIG)
0 ;any address family
SOCK_STREAM)) ;TCP only
(let loop ((addresses addresses))
(match addresses
((ai rest ...)
(let ((s (socket (addrinfo:fam ai)
;; TCP/IP only
SOCK_STREAM IPPROTO_IP)))
(catch 'system-error
(lambda ()
(connect s (addrinfo:addr ai))
;; Setting this option makes a dramatic difference because it
;; avoids the "ACK delay" on our RPC messages.
(setsockopt s IPPROTO_TCP TCP_NODELAY 1)
s)
(lambda args
;; Connection failed, so try one of the other addresses.
(close s)
(if (null? rest)
(raise (condition (&store-connection-error
(file host)
(errno (system-error-errno args)))))
(loop rest))))))))))
(define (connect-to-daemon uri)
"Connect to the daemon at URI, a string that may be an actual URI or a file
name."
(define (not-supported)
(raise (condition (&store-connection-error
(file uri)
(errno ENOTSUP)))))
(define connect
(match (string->uri uri)
(#f ;URI is a file name
open-unix-domain-socket)
((? uri? uri)
(match (uri-scheme uri)
((or #f 'file 'unix)
(lambda (_)
(open-unix-domain-socket (uri-path uri))))
('guix
(lambda (_)
(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 (ensure-path (store-path path))
"Ensure that a path is valid. If it is not valid, it may be made valid by
running a substitute. As a GC root is not created by the daemon, you may want
to call ADD-TEMP-ROOT on that store path."
boolean)
(define-operation (find-roots)
"Return a list of root/target pairs: for each pair, the first element is the
GC root file name and the second element is its target in the store.
When talking to a local daemon, this operation is equivalent to the 'gc-roots'
procedure in (guix store roots), except that the 'find-roots' excludes
potential roots that do not point to store items."
string-pairs)
(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)
\f
;;;
;;; 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)
(size 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%)
cache size: ~5@a entries~%"
fresh lookups hits
(if (zero? lookups)
100.
(* 100. (/ hits lookups)))
size)))
(lambda (hit? cache)
(set! fresh
(if (eq? cache vlist-null)
(+ 1 fresh)
fresh))
(set! lookups (+ 1 lookups))
(set! hits (if hit? (+ hits 1) hits))
(set! size (+ (if hit? 0 1)
(vlist-length cache)))))
(lambda (x y)
#t)))
(define-inlinable (lookup-cached-object object keys vhash-fold*)
"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*)))
(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))))
\f
;;;
;;; 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."
(match (store-path-base path)
(#f #f)
(base
(let ((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:
|