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Merge branch 'rj/add-i-leak-fix'
[thirdparty/git.git] / progress.c
1 /*
2 * Simple text-based progress display module for GIT
3 *
4 * Copyright (c) 2007 by Nicolas Pitre <nico@fluxnic.net>
5 *
6 * This code is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License version 2 as
8 * published by the Free Software Foundation.
9 */
10
11 #include "cache.h"
12 #include "gettext.h"
13 #include "progress.h"
14 #include "strbuf.h"
15 #include "trace.h"
16 #include "utf8.h"
17 #include "config.h"
18
19 #define TP_IDX_MAX 8
20
21 struct throughput {
22 off_t curr_total;
23 off_t prev_total;
24 uint64_t prev_ns;
25 unsigned int avg_bytes;
26 unsigned int avg_misecs;
27 unsigned int last_bytes[TP_IDX_MAX];
28 unsigned int last_misecs[TP_IDX_MAX];
29 unsigned int idx;
30 struct strbuf display;
31 };
32
33 struct progress {
34 const char *title;
35 uint64_t last_value;
36 uint64_t total;
37 unsigned last_percent;
38 unsigned delay;
39 unsigned sparse;
40 struct throughput *throughput;
41 uint64_t start_ns;
42 struct strbuf counters_sb;
43 int title_len;
44 int split;
45 };
46
47 static volatile sig_atomic_t progress_update;
48
49 /*
50 * These are only intended for testing the progress output, i.e. exclusively
51 * for 'test-tool progress'.
52 */
53 int progress_testing;
54 uint64_t progress_test_ns = 0;
55 void progress_test_force_update(void); /* To silence -Wmissing-prototypes */
56 void progress_test_force_update(void)
57 {
58 progress_update = 1;
59 }
60
61
62 static void progress_interval(int signum)
63 {
64 progress_update = 1;
65 }
66
67 static void set_progress_signal(void)
68 {
69 struct sigaction sa;
70 struct itimerval v;
71
72 if (progress_testing)
73 return;
74
75 progress_update = 0;
76
77 memset(&sa, 0, sizeof(sa));
78 sa.sa_handler = progress_interval;
79 sigemptyset(&sa.sa_mask);
80 sa.sa_flags = SA_RESTART;
81 sigaction(SIGALRM, &sa, NULL);
82
83 v.it_interval.tv_sec = 1;
84 v.it_interval.tv_usec = 0;
85 v.it_value = v.it_interval;
86 setitimer(ITIMER_REAL, &v, NULL);
87 }
88
89 static void clear_progress_signal(void)
90 {
91 struct itimerval v = {{0,},};
92
93 if (progress_testing)
94 return;
95
96 setitimer(ITIMER_REAL, &v, NULL);
97 signal(SIGALRM, SIG_IGN);
98 progress_update = 0;
99 }
100
101 static int is_foreground_fd(int fd)
102 {
103 int tpgrp = tcgetpgrp(fd);
104 return tpgrp < 0 || tpgrp == getpgid(0);
105 }
106
107 static void display(struct progress *progress, uint64_t n, const char *done)
108 {
109 const char *tp;
110 struct strbuf *counters_sb = &progress->counters_sb;
111 int show_update = 0;
112 int last_count_len = counters_sb->len;
113
114 if (progress->delay && (!progress_update || --progress->delay))
115 return;
116
117 progress->last_value = n;
118 tp = (progress->throughput) ? progress->throughput->display.buf : "";
119 if (progress->total) {
120 unsigned percent = n * 100 / progress->total;
121 if (percent != progress->last_percent || progress_update) {
122 progress->last_percent = percent;
123
124 strbuf_reset(counters_sb);
125 strbuf_addf(counters_sb,
126 "%3u%% (%"PRIuMAX"/%"PRIuMAX")%s", percent,
127 (uintmax_t)n, (uintmax_t)progress->total,
128 tp);
129 show_update = 1;
130 }
131 } else if (progress_update) {
132 strbuf_reset(counters_sb);
133 strbuf_addf(counters_sb, "%"PRIuMAX"%s", (uintmax_t)n, tp);
134 show_update = 1;
135 }
136
137 if (show_update) {
138 if (is_foreground_fd(fileno(stderr)) || done) {
139 const char *eol = done ? done : "\r";
140 size_t clear_len = counters_sb->len < last_count_len ?
141 last_count_len - counters_sb->len + 1 :
142 0;
143 /* The "+ 2" accounts for the ": ". */
144 size_t progress_line_len = progress->title_len +
145 counters_sb->len + 2;
146 int cols = term_columns();
147
148 if (progress->split) {
149 fprintf(stderr, " %s%*s", counters_sb->buf,
150 (int) clear_len, eol);
151 } else if (!done && cols < progress_line_len) {
152 clear_len = progress->title_len + 1 < cols ?
153 cols - progress->title_len - 1 : 0;
154 fprintf(stderr, "%s:%*s\n %s%s",
155 progress->title, (int) clear_len, "",
156 counters_sb->buf, eol);
157 progress->split = 1;
158 } else {
159 fprintf(stderr, "%s: %s%*s", progress->title,
160 counters_sb->buf, (int) clear_len, eol);
161 }
162 fflush(stderr);
163 }
164 progress_update = 0;
165 }
166 }
167
168 static void throughput_string(struct strbuf *buf, uint64_t total,
169 unsigned int rate)
170 {
171 strbuf_reset(buf);
172 strbuf_addstr(buf, ", ");
173 strbuf_humanise_bytes(buf, total);
174 strbuf_addstr(buf, " | ");
175 strbuf_humanise_rate(buf, rate * 1024);
176 }
177
178 static uint64_t progress_getnanotime(struct progress *progress)
179 {
180 if (progress_testing)
181 return progress->start_ns + progress_test_ns;
182 else
183 return getnanotime();
184 }
185
186 void display_throughput(struct progress *progress, uint64_t total)
187 {
188 struct throughput *tp;
189 uint64_t now_ns;
190 unsigned int misecs, count, rate;
191
192 if (!progress)
193 return;
194 tp = progress->throughput;
195
196 now_ns = progress_getnanotime(progress);
197
198 if (!tp) {
199 progress->throughput = tp = xcalloc(1, sizeof(*tp));
200 tp->prev_total = tp->curr_total = total;
201 tp->prev_ns = now_ns;
202 strbuf_init(&tp->display, 0);
203 return;
204 }
205 tp->curr_total = total;
206
207 /* only update throughput every 0.5 s */
208 if (now_ns - tp->prev_ns <= 500000000)
209 return;
210
211 /*
212 * We have x = bytes and y = nanosecs. We want z = KiB/s:
213 *
214 * z = (x / 1024) / (y / 1000000000)
215 * z = x / y * 1000000000 / 1024
216 * z = x / (y * 1024 / 1000000000)
217 * z = x / y'
218 *
219 * To simplify things we'll keep track of misecs, or 1024th of a sec
220 * obtained with:
221 *
222 * y' = y * 1024 / 1000000000
223 * y' = y * (2^10 / 2^42) * (2^42 / 1000000000)
224 * y' = y / 2^32 * 4398
225 * y' = (y * 4398) >> 32
226 */
227 misecs = ((now_ns - tp->prev_ns) * 4398) >> 32;
228
229 count = total - tp->prev_total;
230 tp->prev_total = total;
231 tp->prev_ns = now_ns;
232 tp->avg_bytes += count;
233 tp->avg_misecs += misecs;
234 rate = tp->avg_bytes / tp->avg_misecs;
235 tp->avg_bytes -= tp->last_bytes[tp->idx];
236 tp->avg_misecs -= tp->last_misecs[tp->idx];
237 tp->last_bytes[tp->idx] = count;
238 tp->last_misecs[tp->idx] = misecs;
239 tp->idx = (tp->idx + 1) % TP_IDX_MAX;
240
241 throughput_string(&tp->display, total, rate);
242 if (progress->last_value != -1 && progress_update)
243 display(progress, progress->last_value, NULL);
244 }
245
246 void display_progress(struct progress *progress, uint64_t n)
247 {
248 if (progress)
249 display(progress, n, NULL);
250 }
251
252 static struct progress *start_progress_delay(const char *title, uint64_t total,
253 unsigned delay, unsigned sparse)
254 {
255 struct progress *progress = xmalloc(sizeof(*progress));
256 progress->title = title;
257 progress->total = total;
258 progress->last_value = -1;
259 progress->last_percent = -1;
260 progress->delay = delay;
261 progress->sparse = sparse;
262 progress->throughput = NULL;
263 progress->start_ns = getnanotime();
264 strbuf_init(&progress->counters_sb, 0);
265 progress->title_len = utf8_strwidth(title);
266 progress->split = 0;
267 set_progress_signal();
268 return progress;
269 }
270
271 static int get_default_delay(void)
272 {
273 static int delay_in_secs = -1;
274
275 if (delay_in_secs < 0)
276 delay_in_secs = git_env_ulong("GIT_PROGRESS_DELAY", 2);
277
278 return delay_in_secs;
279 }
280
281 struct progress *start_delayed_progress(const char *title, uint64_t total)
282 {
283 return start_progress_delay(title, total, get_default_delay(), 0);
284 }
285
286 struct progress *start_progress(const char *title, uint64_t total)
287 {
288 return start_progress_delay(title, total, 0, 0);
289 }
290
291 /*
292 * Here "sparse" means that the caller might use some sampling criteria to
293 * decide when to call display_progress() rather than calling it for every
294 * integer value in[0 .. total). In particular, the caller might not call
295 * display_progress() for the last value in the range.
296 *
297 * When "sparse" is set, stop_progress() will automatically force the done
298 * message to show 100%.
299 */
300 struct progress *start_sparse_progress(const char *title, uint64_t total)
301 {
302 return start_progress_delay(title, total, 0, 1);
303 }
304
305 struct progress *start_delayed_sparse_progress(const char *title,
306 uint64_t total)
307 {
308 return start_progress_delay(title, total, get_default_delay(), 1);
309 }
310
311 static void finish_if_sparse(struct progress *progress)
312 {
313 if (progress &&
314 progress->sparse &&
315 progress->last_value != progress->total)
316 display_progress(progress, progress->total);
317 }
318
319 void stop_progress(struct progress **p_progress)
320 {
321 finish_if_sparse(*p_progress);
322
323 stop_progress_msg(p_progress, _("done"));
324 }
325
326 void stop_progress_msg(struct progress **p_progress, const char *msg)
327 {
328 struct progress *progress = *p_progress;
329 if (!progress)
330 return;
331 *p_progress = NULL;
332 if (progress->last_value != -1) {
333 /* Force the last update */
334 char *buf;
335 struct throughput *tp = progress->throughput;
336
337 if (tp) {
338 uint64_t now_ns = progress_getnanotime(progress);
339 unsigned int misecs, rate;
340 misecs = ((now_ns - progress->start_ns) * 4398) >> 32;
341 rate = tp->curr_total / (misecs ? misecs : 1);
342 throughput_string(&tp->display, tp->curr_total, rate);
343 }
344 progress_update = 1;
345 buf = xstrfmt(", %s.\n", msg);
346 display(progress, progress->last_value, buf);
347 free(buf);
348 }
349 clear_progress_signal();
350 strbuf_release(&progress->counters_sb);
351 if (progress->throughput)
352 strbuf_release(&progress->throughput->display);
353 free(progress->throughput);
354 free(progress);
355 }
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