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1 ;;; GNU Guix --- Functional package management for GNU
2 ;;; Copyright © 2017 Sou Bunnbu <iyzsong@gmail.com>
3 ;;; Copyright © 2015 Steve Sprang <scs@stevesprang.com>
4 ;;; Copyright © 2017, 2018 Ludovic Courtès <ludo@gnu.org>
5 ;;; Copyright © 2018 Clément Lassieur <clement@lassieur.org>
6 ;;;
7 ;;; This file is part of GNU Guix.
8 ;;;
9 ;;; GNU Guix is free software; you can redistribute it and/or modify it
10 ;;; under the terms of the GNU General Public License as published by
11 ;;; the Free Software Foundation; either version 3 of the License, or (at
12 ;;; your option) any later version.
13 ;;;
14 ;;; GNU Guix is distributed in the hope that it will be useful, but
15 ;;; WITHOUT ANY WARRANTY; without even the implied warranty of
16 ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 ;;; GNU General Public License for more details.
18 ;;;
19 ;;; You should have received a copy of the GNU General Public License
20 ;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
22 (define-module (guix progress)
23 #:use-module (guix records)
24 #:use-module (srfi srfi-19)
25 #:use-module (rnrs io ports)
26 #:use-module (rnrs bytevectors)
27 #:use-module (ice-9 format)
28 #:use-module (ice-9 match)
29 #:export (<progress-reporter>
30 progress-reporter
31 make-progress-reporter
32 progress-reporter?
33 call-with-progress-reporter
35 start-progress-reporter!
36 stop-progress-reporter!
37 progress-reporter-report!
39 progress-reporter/silent
40 progress-reporter/file
41 progress-reporter/bar
42 progress-reporter/trace
44 display-download-progress
45 erase-current-line
46 progress-bar
47 byte-count->string
48 current-terminal-columns
50 dump-port*))
52 ;;; Commentary:
53 ;;;
54 ;;; Helper to write progress report code for downloads, etc.
55 ;;;
56 ;;; Code:
58 (define-record-type* <progress-reporter>
59 progress-reporter make-progress-reporter progress-reporter?
60 (start progress-reporter-start) ; thunk
61 (report progress-reporter-report) ; procedure
62 (stop progress-reporter-stop)) ; thunk
64 (define (call-with-progress-reporter reporter proc)
65 "Start REPORTER for progress reporting, and call @code{(@var{proc} report)}
66 with the resulting report procedure. When @var{proc} returns, the REPORTER is
67 stopped."
68 (match reporter
69 (($ <progress-reporter> start report stop)
70 (dynamic-wind start (lambda () (proc report)) stop))))
72 (define (start-progress-reporter! reporter)
73 "Low-level procedure to start REPORTER."
74 (match reporter
75 (($ <progress-reporter> start report stop)
76 (start))))
78 (define (progress-reporter-report! reporter . args)
79 "Low-level procedure to lead REPORTER to emit a report."
80 (match reporter
81 (($ <progress-reporter> start report stop)
82 (apply report args))))
84 (define (stop-progress-reporter! reporter)
85 "Low-level procedure to stop REPORTER."
86 (match reporter
87 (($ <progress-reporter> start report stop)
88 (stop))))
90 (define progress-reporter/silent
91 (make-progress-reporter noop noop noop))
93 \f
94 ;;;
95 ;;; File download progress report.
96 ;;;
98 (cond-expand
99 (guile-2.2
100 ;; Guile 2.2.2 has a bug whereby 'time-monotonic' objects have seconds and
101 ;; nanoseconds swapped (fixed in Guile commit 886ac3e). Work around it.
102 (define time-monotonic time-tai))
103 (else #t))
105 (define (nearest-exact-integer x)
106 "Given a real number X, return the nearest exact integer, with ties going to
107 the nearest exact even integer."
108 (inexact->exact (round x)))
110 (define (duration->seconds duration)
111 "Return the number of seconds represented by DURATION, a 'time-duration'
112 object, as an inexact number."
113 (+ (time-second duration)
114 (/ (time-nanosecond duration) 1e9)))
116 (define (seconds->string duration)
117 "Given DURATION in seconds, return a string representing it in 'mm:ss' or
118 'hh:mm:ss' format, as needed."
119 (if (not (number? duration))
120 "00:00"
121 (let* ((total-seconds (nearest-exact-integer duration))
122 (extra-seconds (modulo total-seconds 3600))
123 (num-hours (quotient total-seconds 3600))
124 (hours (and (positive? num-hours) num-hours))
125 (mins (quotient extra-seconds 60))
126 (secs (modulo extra-seconds 60)))
127 (format #f "~@[~2,'0d:~]~2,'0d:~2,'0d" hours mins secs))))
129 (define (byte-count->string size)
130 "Given SIZE in bytes, return a string representing it in a human-readable
131 way."
132 (let ((KiB 1024.)
133 (MiB (expt 1024. 2))
134 (GiB (expt 1024. 3))
135 (TiB (expt 1024. 4)))
136 (cond
137 ((< size KiB) (format #f "~dB" (nearest-exact-integer size)))
138 ((< size MiB) (format #f "~dKiB" (nearest-exact-integer (/ size KiB))))
139 ((< size GiB) (format #f "~,1fMiB" (/ size MiB)))
140 ((< size TiB) (format #f "~,2fGiB" (/ size GiB)))
141 (else (format #f "~,3fTiB" (/ size TiB))))))
143 (define (string-pad-middle left right len)
144 "Combine LEFT and RIGHT with enough padding in the middle so that the
145 resulting string has length at least LEN (it may overflow). If the string
146 does not overflow, the last char in RIGHT will be flush with the LEN
147 column."
148 (let* ((total-used (+ (string-length left)
149 (string-length right)))
150 (num-spaces (max 1 (- len total-used)))
151 (padding (make-string num-spaces #\space)))
152 (string-append left padding right)))
154 (define (rate-limited proc interval)
155 "Return a procedure that will forward the invocation to PROC when the time
156 elapsed since the previous forwarded invocation is greater or equal to
157 INTERVAL (a time-duration object), otherwise does nothing and returns #f."
158 (let ((previous-at #f))
159 (lambda args
160 (let* ((now (current-time time-monotonic))
161 (forward-invocation (lambda ()
162 (set! previous-at now)
163 (apply proc args))))
164 (if previous-at
165 (let ((elapsed (time-difference now previous-at)))
166 (if (time>=? elapsed interval)
167 (forward-invocation)
168 #f))
169 (forward-invocation))))))
171 (define current-terminal-columns
172 ;; Number of columns of the terminal.
173 (make-parameter 80))
175 (define* (progress-bar % #:optional (bar-width 20))
176 "Return % as a string representing an ASCII-art progress bar. The total
177 width of the bar is BAR-WIDTH."
178 (let* ((bar-width (max 3 (- bar-width 2)))
179 (fraction (/ % 100))
180 (filled (inexact->exact (floor (* fraction bar-width))))
181 (empty (- bar-width filled)))
182 (format #f "[~a~a]"
183 (make-string filled #\#)
184 (make-string empty #\space))))
186 (define (erase-current-line port)
187 "Write an ANSI erase-current-line sequence to PORT to erase the whole line and
188 move the cursor to the beginning of the line."
189 (display "\r\x1b[K" port))
191 (define* (display-download-progress file size
192 #:key
193 start-time (transferred 0)
194 (log-port (current-error-port)))
195 "Write the progress report to LOG-PORT. Use START-TIME (a SRFI-19 time
196 object) and TRANSFERRED (a total number of bytes) to determine the
197 throughput."
198 (define elapsed
199 (duration->seconds
200 (time-difference (current-time time-monotonic) start-time)))
201 (if (and (number? size) (not (zero? size)))
202 (let* ((% (* 100.0 (/ transferred size)))
203 (throughput (/ transferred elapsed))
204 (left (format #f " ~a ~a" file
205 (byte-count->string size)))
206 (right (format #f "~a/s ~a ~a~6,1f%"
207 (byte-count->string throughput)
208 (seconds->string elapsed)
209 (progress-bar %) %)))
210 (erase-current-line log-port)
211 (display (string-pad-middle left right
212 (current-terminal-columns))
213 log-port)
214 (force-output log-port))
215 ;; If we don't know the total size, the last transfer will have a 0B
216 ;; size. Don't display it.
217 (unless (zero? transferred)
218 (let* ((throughput (/ transferred elapsed))
219 (left (format #f " ~a" file))
220 (right (format #f "~a/s ~a | ~a transferred"
221 (byte-count->string throughput)
222 (seconds->string elapsed)
223 (byte-count->string transferred))))
224 (erase-current-line log-port)
225 (display (string-pad-middle left right
226 (current-terminal-columns))
227 log-port)
228 (force-output log-port)))))
230 (define %progress-interval
231 ;; Default interval between subsequent outputs for rate-limited displays.
232 (make-time time-monotonic 200000000 0))
234 (define* (progress-reporter/file file size
235 #:optional (log-port (current-output-port))
236 #:key (abbreviation basename))
237 "Return a <progress-reporter> object to show the progress of FILE's download,
238 which is SIZE bytes long. The progress report is written to LOG-PORT, with
239 ABBREVIATION used to shorten FILE for display."
240 (let ((start-time (current-time time-monotonic))
241 (transferred 0))
242 (define (render)
243 (display-download-progress (abbreviation file) size
244 #:start-time start-time
245 #:transferred transferred
246 #:log-port log-port))
248 (progress-reporter
249 (start render)
250 ;; Report the progress every 300ms or longer.
251 (report
252 (let ((rate-limited-render (rate-limited render %progress-interval)))
253 (lambda (value)
254 (set! transferred value)
255 (rate-limited-render))))
256 ;; Don't miss the last report.
257 (stop render))))
259 (define* (progress-reporter/bar total
260 #:optional
261 (prefix "")
262 (port (current-error-port)))
263 "Return a reporter that shows a progress bar every time one of the TOTAL
264 tasks is performed. Write PREFIX at the beginning of the line."
265 (define done 0)
267 (define (report-progress)
268 (set! done (+ 1 done))
269 (unless (> done total)
270 (let* ((ratio (* 100. (/ done total))))
271 (erase-current-line port)
272 (if (string-null? prefix)
273 (display (progress-bar ratio (current-terminal-columns)) port)
274 (let ((width (- (current-terminal-columns)
275 (string-length prefix) 3)))
276 (display prefix port)
277 (display " " port)
278 (display (progress-bar ratio width) port)))
279 (force-output port))))
281 (progress-reporter
282 (start (lambda ()
283 (set! done 0)))
284 (report report-progress)
285 (stop (lambda ()
286 (erase-current-line port)
287 (unless (string-null? prefix)
288 (display prefix port)
289 (newline port))
290 (force-output port)))))
292 (define* (progress-reporter/trace file url size
293 #:optional (log-port (current-output-port)))
294 "Like 'progress-reporter/file', but instead of returning human-readable
295 progress reports, write \"build trace\" lines to be processed elsewhere."
296 (define total 0) ;bytes transferred
298 (define (report-progress transferred)
299 (define message
300 (format #f "@ download-progress ~a ~a ~a ~a~%"
301 file url (or size "-") transferred))
303 (display message log-port) ;should be atomic
304 (flush-output-port log-port))
306 (progress-reporter
307 (start (lambda ()
308 (set! total 0)
309 (display (format #f "@ download-started ~a ~a ~a~%"
310 file url (or size "-"))
311 log-port)))
312 (report (let ((report (rate-limited report-progress %progress-interval)))
313 (lambda (transferred)
314 (set! total transferred)
315 (report transferred))))
316 (stop (lambda ()
317 (let ((size (or size total)))
318 (report-progress size)
319 (display (format #f "@ download-succeeded ~a ~a ~a~%"
320 file url size)
321 log-port))))))
323 ;; TODO: replace '(@ (guix build utils) dump-port))'.
324 (define* (dump-port* in out
325 #:key (buffer-size 16384)
326 (reporter progress-reporter/silent))
327 "Read as much data as possible from IN and write it to OUT, using chunks of
328 BUFFER-SIZE bytes. After each successful transfer of BUFFER-SIZE bytes or
329 less, report the total number of bytes transferred to the REPORTER, which
330 should be a <progress-reporter> object."
331 (define buffer
332 (make-bytevector buffer-size))
334 (call-with-progress-reporter reporter
335 (lambda (report)
336 (let loop ((total 0)
337 (bytes (get-bytevector-n! in buffer 0 buffer-size)))
338 (or (eof-object? bytes)
339 (let ((total (+ total bytes)))
340 (put-bytevector out buffer 0 bytes)
341 (report total)
342 (loop total (get-bytevector-n! in buffer 0 buffer-size))))))))