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694cb8dc62
This fixes https://issues.guix.gnu.org/issue/35622. * gnu/installer/connman.scm (<service>): Mention that name may be false. * gnu/installer/newt/wifi.scm (wifi-services): Filter out wifi services without name. Co-authored by: Pierre Neidhardt <mail@ambrevar.xyz>
400 lines
14 KiB
Scheme
400 lines
14 KiB
Scheme
;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2018 Mathieu Othacehe <m.othacehe@gmail.com>
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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 (gnu installer connman)
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#:use-module (gnu installer utils)
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#:use-module (guix records)
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#:use-module (ice-9 match)
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#:use-module (ice-9 popen)
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#:use-module (ice-9 regex)
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#:use-module (srfi srfi-11)
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#:use-module (srfi srfi-34)
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#:use-module (srfi srfi-35)
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#:export (<technology>
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technology
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technology?
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technology-name
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technology-type
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technology-powered?
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technology-connected?
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<service>
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service
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service?
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service-name
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service-type
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service-path
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service-strength
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service-state
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&connman-error
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connman-error?
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connman-error-command
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connman-error-output
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connman-error-status
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&connman-connection-error
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connman-connection-error?
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connman-connection-error-service
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connman-connection-error-output
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&connman-password-error
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connman-password-error?
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&connman-already-connected-error
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connman-already-connected-error?
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connman-state
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connman-technologies
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connman-enable-technology
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connman-disable-technology
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connman-scan-technology
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connman-services
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connman-connect
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connman-disconnect
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connman-online?
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connman-connect-with-auth))
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;;; Commentary:
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;;;
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;;; This module provides procedures for talking with the connman daemon.
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;;; The best approach would have been using connman dbus interface.
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;;; However, as Guile dbus bindings are not available yet, the console client
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;;; "connmanctl" is used to talk with the daemon.
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;;;
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;;;
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;;; Technology record.
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;;;
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;; The <technology> record encapsulates the "Technology" object of connman.
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;; Technology type will be typically "ethernet", "wifi" or "bluetooth".
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(define-record-type* <technology>
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technology make-technology
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technology?
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(name technology-name) ; string
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(type technology-type) ; string
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(powered? technology-powered?) ; boolean
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(connected? technology-connected?)) ; boolean
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;;;
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;;; Service record.
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;;;
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;; The <service> record encapsulates the "Service" object of connman.
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;; Service type is the same as the technology it is associated to, path is a
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;; unique identifier given by connman, strength describes the signal quality
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;; if applicable. Finally, state is "idle", "failure", "association",
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;; "configuration", "ready", "disconnect" or "online".
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(define-record-type* <service>
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service make-service
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service?
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(name service-name) ; string or #f
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(type service-type) ; string
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(path service-path) ; string
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(strength service-strength) ; integer
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(state service-state)) ; string
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;;;
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;;; Condition types.
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;;;
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(define-condition-type &connman-error &error
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connman-error?
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(command connman-error-command)
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(output connman-error-output)
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(status connman-error-status))
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(define-condition-type &connman-connection-error &error
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connman-connection-error?
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(service connman-connection-error-service)
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(output connman-connection-error-output))
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(define-condition-type &connman-password-error &connman-connection-error
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connman-password-error?)
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(define-condition-type &connman-already-connected-error
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&connman-connection-error connman-already-connected-error?)
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;;;
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;;; Procedures.
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;;;
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(define (connman-run command env arguments)
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"Run the given COMMAND, with the specified ENV and ARGUMENTS. The error
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output is discarded and &connman-error condition is raised if the command
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returns a non zero exit code."
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(let* ((command `("env" ,env ,command ,@arguments "2>" "/dev/null"))
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(command-string (string-join command " "))
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(pipe (open-input-pipe command-string))
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(output (read-lines pipe))
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(ret (close-pipe pipe)))
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(case (status:exit-val ret)
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((0) output)
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(else (raise (condition (&connman-error
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(command command)
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(output output)
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(status ret))))))))
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(define (connman . arguments)
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"Run connmanctl with the specified ARGUMENTS. Set the LANG environment
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variable to C because the command output will be parsed and we don't want it
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to be translated."
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(connman-run "connmanctl" "LANG=C" arguments))
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(define (parse-keys keys)
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"Parse the given list of strings KEYS, under the following format:
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'((\"KEY = VALUE\") (\"KEY2 = VALUE2\") ...)
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Return the corresponding association list of '((KEY . VALUE) (KEY2 . VALUE2)
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...) elements."
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(let ((key-regex (make-regexp "([^ ]+) = ([^$]+)")))
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(map (lambda (key)
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(let ((match-key (regexp-exec key-regex key)))
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(cons (match:substring match-key 1)
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(match:substring match-key 2))))
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keys)))
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(define (connman-state)
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"Return the state of connman. The nominal states are 'offline, 'idle,
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'ready, 'oneline. If an unexpected state is read, 'unknown is
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returned. Finally, an error is raised if the comman output could not be
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parsed, usually because the connman daemon is not responding."
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(let* ((output (connman "state"))
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(state-keys (parse-keys output)))
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(let ((state (assoc-ref state-keys "State")))
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(if state
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(cond ((string=? state "offline") 'offline)
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((string=? state "idle") 'idle)
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((string=? state "ready") 'ready)
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((string=? state "online") 'online)
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(else 'unknown))
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(raise (condition
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(&message
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(message "Could not determine the state of connman."))))))))
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(define (split-technology-list technologies)
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"Parse the given strings list TECHNOLOGIES, under the following format:
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'((\"/net/connman/technology/xxx\")
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(\"KEY = VALUE\")
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...
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(\"/net/connman/technology/yyy\")
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(\"KEY2 = VALUE2\")
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...)
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Return the corresponding '(((\"KEY = VALUE\") ...) ((\"KEY2 = VALUE2\") ...))
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list so that each keys of a given technology are gathered in a separate list."
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(let loop ((result '())
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(cur-list '())
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(input (reverse technologies)))
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(if (null? input)
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result
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(let ((item (car input)))
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(if (string-match "/net/connman/technology" item)
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(loop (cons cur-list result) '() (cdr input))
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(loop result (cons item cur-list) (cdr input)))))))
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(define (string->boolean string)
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(equal? string "True"))
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(define (connman-technologies)
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"Return a list of available <technology> records."
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(define (technology-output->technology output)
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(let ((keys (parse-keys output)))
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(technology
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(name (assoc-ref keys "Name"))
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(type (assoc-ref keys "Type"))
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(powered? (string->boolean (assoc-ref keys "Powered")))
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(connected? (string->boolean (assoc-ref keys "Connected"))))))
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(let* ((output (connman "technologies"))
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(technologies (split-technology-list output)))
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(map technology-output->technology technologies)))
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(define (connman-enable-technology technology)
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"Enable the given TECHNOLOGY."
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(let ((type (technology-type technology)))
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(connman "enable" type)))
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(define (connman-disable-technology technology)
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"Disable the given TECHNOLOGY."
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(let ((type (technology-type technology)))
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(connman "disable" type)))
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(define (connman-scan-technology technology)
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"Run a scan for the given TECHNOLOGY."
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(let ((type (technology-type technology)))
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(connman "scan" type)))
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(define (connman-services)
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"Return a list of available <services> records."
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(define (service-output->service path output)
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(let* ((service-keys
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(match output
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((_ . rest) rest)))
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(keys (parse-keys service-keys)))
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(service
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(name (assoc-ref keys "Name"))
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(type (assoc-ref keys "Type"))
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(path path)
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(strength (and=> (assoc-ref keys "Strength") string->number))
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(state (assoc-ref keys "State")))))
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(let* ((out (connman "services"))
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(out-filtered (delete "" out))
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(services-path (map (lambda (service)
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(match (string-split service #\ )
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((_ ... path) path)))
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out-filtered))
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(services-output (map (lambda (service)
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(connman "services" service))
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services-path)))
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(map service-output->service services-path services-output)))
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(define (connman-connect service)
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"Connect to the given SERVICE."
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(let ((path (service-path service)))
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(connman "connect" path)))
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(define (connman-disconnect service)
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"Disconnect from the given SERVICE."
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(let ((path (service-path service)))
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(connman "disconnect" path)))
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(define (connman-online?)
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(let ((state (connman-state)))
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(eq? state 'online)))
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(define (connman-connect-with-auth service password-proc)
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"Connect to the given SERVICE with the password returned by calling
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PASSWORD-PROC. This is only possible in the interactive mode of connmanctl
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because authentication is done by communicating with an agent.
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As the open-pipe procedure of Guile do not allow to read from stderr, we have
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to merge stdout and stderr using bash redirection. Then error messages are
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extracted from connmanctl output using a regexp. This makes the whole
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procedure even more unreliable.
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Raise &connman-connection-error if an error occurred during connection. Raise
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&connman-password-error if the given password is incorrect."
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(define connman-error-regexp (make-regexp "Error[ ]*([^\n]+)\n"))
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(define (match-connman-error str)
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(let ((match-error (regexp-exec connman-error-regexp str)))
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(and match-error (match:substring match-error 1))))
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(define* (read-regexps-or-error port regexps error-handler)
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"Read characters from port until an error is detected, or one of the given
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REGEXPS is matched. If an error is detected, call ERROR-HANDLER with the error
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string as argument. Raise an error if the eof is reached before one of the
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regexps is matched."
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(let loop ((res ""))
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(let ((char (read-char port)))
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(cond
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((eof-object? char)
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(raise (condition
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(&message
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(message "Unable to find expected regexp.")))))
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((match-connman-error res)
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=>
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(lambda (match)
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(error-handler match)))
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((or-map (lambda (regexp)
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(and (regexp-exec regexp res) regexp))
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regexps)
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=>
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(lambda (match)
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match))
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(else
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(loop (string-append res (string char))))))))
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(define* (read-regexp-or-error port regexp error-handler)
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"Same as READ-REGEXPS-OR-ERROR above, but with a single REGEXP."
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(read-regexps-or-error port (list regexp) error-handler))
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(define (connman-error->condition path error)
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(cond
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((string-match "Already connected" error)
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(condition (&connman-already-connected-error
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(service path)
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(output error))))
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(else
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(condition (&connman-connection-error
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(service path)
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(output error))))))
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(define (run-connection-sequence pipe)
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"Run the connection sequence using PIPE as an opened port to an
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interactive connmanctl process."
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(let* ((path (service-path service))
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(error-handler (lambda (error)
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(raise
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(connman-error->condition path error)))))
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;; Start the agent.
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(format pipe "agent on\n")
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(read-regexp-or-error pipe (make-regexp "Agent registered") error-handler)
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;; Let's try to connect to the service. If the service does not require
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;; a password, the connection might succeed right after this call.
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;; Otherwise, connmanctl will prompt us for a password.
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(format pipe "connect ~a\n" path)
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(let* ((connected-regexp (make-regexp (format #f "Connected ~a" path)))
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(passphrase-regexp (make-regexp "\nPassphrase\\?[ ]*"))
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(regexps (list connected-regexp passphrase-regexp))
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(result (read-regexps-or-error pipe regexps error-handler)))
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;; A password is required.
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(when (eq? result passphrase-regexp)
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(format pipe "~a~%" (password-proc))
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;; Now, we have to wait for the connection to succeed. If an error
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;; occurs, it is most likely because the password is incorrect.
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;; In that case, we escape from an eventual retry loop that would
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;; add complexity to this procedure, and raise a
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;; &connman-password-error condition.
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(read-regexp-or-error pipe connected-regexp
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(lambda (error)
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;; Escape from retry loop.
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(format pipe "no\n")
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(raise
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(condition (&connman-password-error
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(service path)
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(output error))))))))))
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;; XXX: Find a better way to read stderr, like with the "subprocess"
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;; procedure of racket that return input ports piped on the process stdin and
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;; stderr.
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(let ((pipe (open-pipe "connmanctl 2>&1" OPEN_BOTH)))
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(dynamic-wind
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(const #t)
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(lambda ()
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(run-connection-sequence pipe)
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#t)
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(lambda ()
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(format pipe "quit\n")
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(close-pipe pipe)))))
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