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installer: Change fn_mapper_name() to subpartition_get_mapper_name().
[dragonfly.git] / usr.sbin / installer / dfuibe_installer / fn_subpart_ufs.c
blobbab588ab018834445c974e2bea6b5e3656d5f0b7
1 /*
2 * Copyright (c)2004,2015 The DragonFly Project. All rights reserved.
3 *
4 * Redistribution and use in source and binary forms, with or without
5 * modification, are permitted provided that the following conditions
6 * are met:
7 *
8 * Redistributions of source code must retain the above copyright
9 * notice, this list of conditions and the following disclaimer.
10 *
11 * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in
13 * the documentation and/or other materials provided with the
14 * distribution.
15 *
16 * Neither the name of the DragonFly Project nor the names of its
17 * contributors may be used to endorse or promote products derived
18 * from this software without specific prior written permission.
19 *
20 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
21 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
22 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
23 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
24 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
25 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
26 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
27 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
29 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
30 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
31 * OF THE POSSIBILITY OF SUCH DAMAGE.
32 */
33
34 /*
35 * fn_subpart.c
36 * Installer Function : Create Subpartitions.
37 * $Id: fn_subpart.c,v 1.50 2005/04/07 20:22:40 cpressey Exp $
38 */
39
40 #include <stdio.h>
41 #include <stdlib.h>
42 #include <string.h>
43
44 #ifdef ENABLE_NLS
45 #include <libintl.h>
46 #define _(String) gettext (String)
47 #else
48 #define _(String) (String)
49 #endif
50
51 #include "libaura/mem.h"
52 #include "libaura/buffer.h"
53 #include "libaura/dict.h"
54 #include "libaura/fspred.h"
55
56 #include "libdfui/dfui.h"
57 #include "libdfui/dump.h"
58 #include "libdfui/system.h"
59
60 #include "libinstaller/commands.h"
61 #include "libinstaller/diskutil.h"
62 #include "libinstaller/functions.h"
63 #include "libinstaller/uiutil.h"
64
65 #include "fn.h"
66 #include "flow.h"
67 #include "pathnames.h"
68
69 #define MTPT_BOOT 0
70 #define MTPT_SWAP 1
71 #define MTPT_ROOT 2
72 #define MTPT_BUILD 3
73
74 static int create_subpartitions(struct i_fn_args *);
75 static long default_capacity(struct storage *, const char *);
76 static int check_capacity(struct i_fn_args *);
77 static int check_subpartition_selections(struct dfui_response *, struct i_fn_args *);
78 static void save_subpartition_selections(struct dfui_response *, struct i_fn_args *);
79 static void populate_create_subpartitions_form(struct dfui_form *, struct i_fn_args *);
80 static int warn_subpartition_selections(struct i_fn_args *);
81 static struct dfui_form *make_create_subpartitions_form(struct i_fn_args *);
82 static int show_create_subpartitions_form(struct dfui_form *, struct i_fn_args *);
83
84 static const char *def_mountpt[] = {"/boot", "swap", "/", "/build", NULL};
85 static long min_capacity[] = { 128, 0, DISK_MIN - 128, BUILD_MIN };
86 static int expert = 0;
87
88 /*
89 * Given a set of subpartitions-to-be in the selected slice,
90 * create them.
91 */
92 static int
93 create_subpartitions(struct i_fn_args *a)
94 {
95 struct subpartition *sp;
96 struct commands *cmds;
97 int result = 0;
98 int num_partitions;
99
100 cmds = commands_new();
101 if (!is_file("%sinstall.disklabel.%s",
102 a->tmp,
103 slice_get_device_name(storage_get_selected_slice(a->s)))) {
104 /*
105 * Get a copy of the 'virgin' disklabel.
106 * XXX It might make more sense for this to
107 * happen right after format_slice() instead.
108 */
109 command_add(cmds, "%s%s -r %s >%sinstall.disklabel.%s",
110 a->os_root, cmd_name(a, "DISKLABEL64"),
111 slice_get_device_name(storage_get_selected_slice(a->s)),
112 a->tmp,
113 slice_get_device_name(storage_get_selected_slice(a->s)));
114 }
115
116 /*
117 * Weave together a new disklabel out the of the 'virgin'
118 * disklabel, and the user's subpartition choices.
119 */
120
121 /*
122 * Take everything from the 'virgin' disklabel up until the
123 * '16 partitions' line.
124 */
125 num_partitions = 16;
126 command_add(cmds, "%s%s '$2==\"partitions:\" || cut { cut = 1 } !cut { print $0 }' <%sinstall.disklabel.%s >%sinstall.disklabel",
127 a->os_root, cmd_name(a, "AWK"),
128 a->tmp,
129 slice_get_device_name(storage_get_selected_slice(a->s)),
130 a->tmp);
131
132 /*
133 * 16 partitions:
134 * # size offset fstype
135 * c: 16383969 0 unused # 7999.985MB
136 */
137
138 command_add(cmds, "%s%s '%d partitions:' >>%sinstall.disklabel",
139 a->os_root, cmd_name(a, "ECHO"), num_partitions ,a->tmp);
140 command_add(cmds, "%s%s '%s' >>%sinstall.disklabel",
141 a->os_root, cmd_name(a, "ECHO"),
142 "# size offset fstype",
143 a->tmp);
144
145 #ifdef DEBUG
146 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
147 sp != NULL; sp = subpartition_next(sp)) {
148 command_add(cmds, "%s%s 'mountpoint: %s device: %s'",
149 a->os_root, cmd_name(a, "ECHO"),
150 subpartition_get_mountpoint(sp),
151 subpartition_get_device_name(sp));
152 }
153 #endif
154
155 /*
156 * Write a line for each subpartition the user wants.
157 */
158 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
159 sp != NULL; sp = subpartition_next(sp)) {
160 if (subpartition_is_tmpfsbacked(sp)) {
161 continue;
162 }
163 if (subpartition_is_swap(sp)) {
164 command_add(cmds, "%s%s ' %c:\t%s\t*\tswap' >>%sinstall.disklabel",
165 a->os_root, cmd_name(a, "ECHO"),
166 subpartition_get_letter(sp),
167 capacity_to_string(subpartition_get_capacity(sp)),
168 a->tmp);
169 } else {
170 command_add(cmds, "%s%s ' %c:\t%s\t%s\t4.2BSD' >>%sinstall.disklabel",
171 a->os_root, cmd_name(a, "ECHO"),
172 subpartition_get_letter(sp),
173 capacity_to_string(subpartition_get_capacity(sp)),
174 subpartition_get_letter(sp) == 'a' ? "0" : "*",
175 a->tmp);
176 }
177 }
178 temp_file_add(a, "install.disklabel");
179
180 /*
181 * Label the slice from the disklabel we just wove together.
182 */
183 command_add(cmds, "%s%s -R -B -r %s %sinstall.disklabel",
184 a->os_root, cmd_name(a, "DISKLABEL64"),
185 slice_get_device_name(storage_get_selected_slice(a->s)),
186 a->tmp);
187
188 /*
189 * Create a snapshot of the disklabel we just created
190 * for debugging inspection in the log.
191 */
192 command_add(cmds, "%s%s %s",
193 a->os_root, cmd_name(a, "DISKLABEL64"),
194 slice_get_device_name(storage_get_selected_slice(a->s)));
195
196 /*
197 * If encryption was specified, load dm(4).
198 */
199 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
200 sp != NULL; sp = subpartition_next(sp)) {
201 if (subpartition_is_encrypted(sp)) {
202 fn_get_passphrase(a);
203 break;
204 }
205 }
206
207 /*
208 * Create filesystems on the newly-created subpartitions.
209 */
210 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
211 sp != NULL; sp = subpartition_next(sp)) {
212 if (subpartition_is_swap(sp) || subpartition_is_tmpfsbacked(sp)) {
213 if (subpartition_is_swap(sp) &&
214 subpartition_is_encrypted(sp)) {
215 command_add(cmds,
216 "%s%s -d /tmp/t1 luksFormat /dev/%s",
217 a->os_root, cmd_name(a, "CRYPTSETUP"),
218 subpartition_get_device_name(sp));
219 command_add(cmds,
220 "%s%s -d /tmp/t1 luksOpen /dev/%s swap",
221 a->os_root, cmd_name(a, "CRYPTSETUP"),
222 subpartition_get_device_name(sp));
223 }
224 continue;
225 }
226
227 if (subpartition_is_encrypted(sp)) {
228 command_add(cmds,
229 "%s%s -d /tmp/t1 luksFormat /dev/%s",
230 a->os_root, cmd_name(a, "CRYPTSETUP"),
231 subpartition_get_device_name(sp));
232 command_add(cmds,
233 "%s%s -d /tmp/t1 luksOpen /dev/%s %s",
234 a->os_root, cmd_name(a, "CRYPTSETUP"),
235 subpartition_get_device_name(sp),
236 subpartition_get_mapper_name(sp, -1));
237 command_add(cmds, "%s%s%s -b %ld -f %ld /dev/mapper/%s",
238 a->os_root, cmd_name(a, "NEWFS"),
239 subpartition_is_softupdated(sp) ? " -U" : "",
240 subpartition_get_bsize(sp),
241 subpartition_get_fsize(sp),
242 subpartition_get_mapper_name(sp, -1));
243 } else {
244 command_add(cmds, "%s%s%s -b %ld -f %ld /dev/%s",
245 a->os_root, cmd_name(a, "NEWFS"),
246 subpartition_is_softupdated(sp) ? " -U" : "",
247 subpartition_get_bsize(sp),
248 subpartition_get_fsize(sp),
249 subpartition_get_device_name(sp));
250 }
251 }
252
253 result = commands_execute(a, cmds);
254 commands_free(cmds);
255 return(result);
256 }
257
258 /*
259 * Return default capacity field filler. Return 0 for /build if drive
260 * space minus swap is < 40GB (causes installer to use PFS's on the root
261 * partition instead).
262 */
263 static long
264 default_capacity(struct storage *s, const char *mtpt)
265 {
266 unsigned long boot, root, swap, build;
267 unsigned long capacity;
268 unsigned long mem;
269
270 capacity = slice_get_capacity(storage_get_selected_slice(s)); /* MB */
271 mem = storage_get_memsize(s);
272
273 /*
274 * Slice capacity is at least 10G at this point. Calculate basic
275 * defaults.
276 */
277 swap = 2 * mem;
278 if (swap > capacity / 10) /* max 1/10 capacity */
279 swap = capacity / 10;
280 if (swap < SWAP_MIN) /* having a little is nice */
281 swap = SWAP_MIN;
282 if (swap > SWAP_MAX) /* installer cap */
283 swap = SWAP_MAX;
284
285 boot = 1024;
286
287 build = (capacity - swap - boot) / 3;
288 if (build > BUILD_MAX)
289 build = BUILD_MAX;
290
291 for (;;) {
292 root = (capacity - swap - boot - build);
293
294 /*
295 * Adjust until the defaults look sane
296 *
297 * root should be at least twice as large as build
298 */
299 if (build && root < build * 2) {
300 --build;
301 continue;
302 }
303
304 /*
305 * root should be at least 1/2 capacity
306 */
307 if (build && root < capacity / 2) {
308 --build;
309 continue;
310 }
311 break;
312 }
313
314 /*
315 * Finalize. If build is too small do not supply a /build,
316 * and if swap is too small do not supply swap.
317 */
318 if (build < BUILD_MIN)
319 build = 0;
320 if (swap < SWAP_MIN)
321 swap = 0;
322 if (build == 0)
323 root = -1; /* no /build, root is the last part */
324 else
325 build = -1; /* last partition just use remaining space */
326
327 if (strcmp(mtpt, "/boot") == 0)
328 return(boot);
329 else if (strcmp(mtpt, "/build") == 0)
330 return(build);
331 else if (strcmp(mtpt, "swap") == 0)
332 return(swap);
333 else if (strcmp(mtpt, "/") == 0)
334 return(root);
335
336 /* shouldn't ever happen */
337 return(-1);
338 }
339
340 static int
341 check_capacity(struct i_fn_args *a)
342 {
343 struct subpartition *sp;
344 unsigned long total_capacity = 0;
345 int mtpt;
346
347 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
348 sp != NULL; sp = subpartition_next(sp)) {
349 long subpart_capacity = subpartition_get_capacity(sp);
350 const char *mountpt = subpartition_get_mountpoint(sp);
351
352 if (subpart_capacity == -1)
353 total_capacity++;
354 else
355 total_capacity += subpart_capacity;
356 for (mtpt = 0; def_mountpt[mtpt] != NULL; mtpt++) {
357 if (strcmp(mountpt, def_mountpt[mtpt]) == 0 &&
358 subpart_capacity < min_capacity[mtpt] &&
359 subpart_capacity != -1) {
360 inform(a->c, _("WARNING: The size (%ldM) specified for "
361 "the %s subpartition is too small. It "
362 "should be at least %ldM or you will "
363 "risk running out of space during "
364 "the installation."),
365 subpart_capacity, mountpt,
366 min_capacity[mtpt]);
367 }
368 }
369 }
370
371 if (total_capacity > slice_get_capacity(storage_get_selected_slice(a->s))) {
372 inform(a->c, _("The space allocated to all of your selected "
373 "subpartitions (%luM) exceeds the total "
374 "capacity of the selected primary partition "
375 "(%luM). Remove some subpartitions or choose "
376 "a smaller size for them and try again."),
377 total_capacity, slice_get_capacity(storage_get_selected_slice(a->s)));
378 return(0);
379 }
380
381 return(1);
382 }
383
384 static int
385 check_subpartition_selections(struct dfui_response *r, struct i_fn_args *a)
386 {
387 struct dfui_dataset *ds;
388 struct dfui_dataset *star_ds = NULL;
389 struct aura_dict *d;
390 const char *mountpoint, *capstring;
391 long capacity = 0;
392 int found_root = 0;
393 int valid = 1;
394
395 d = aura_dict_new(1, AURA_DICT_LIST);
396
397 if ((ds = dfui_response_dataset_get_first(r)) == NULL) {
398 inform(a->c, _("Please set up at least one subpartition."));
399 valid = 0;
400 }
401
402 for (ds = dfui_response_dataset_get_first(r); valid && ds != NULL;
403 ds = dfui_dataset_get_next(ds)) {
404 #ifdef DEBUG
405 dfui_dataset_dump(ds);
406 #endif
407 mountpoint = dfui_dataset_get_value(ds, "mountpoint");
408 capstring = dfui_dataset_get_value(ds, "capacity");
409
410 if (expert) {
411 int tmpfsbacked;
412
413 tmpfsbacked = (strcmp(dfui_dataset_get_value(ds, "tmpfsbacked"), "Y") == 0);
414 if (tmpfsbacked && strcmp(mountpoint, "/") == 0) {
415 inform(a->c, _("/ cannot be TMPFS backed."));
416 valid = 0;
417 }
418 }
419
420 if (aura_dict_exists(d, mountpoint, strlen(mountpoint) + 1)) {
421 inform(a->c, _("The same mount point cannot be specified "
422 "for two different subpartitions."));
423 valid = 0;
424 }
425
426 if (strcmp(mountpoint, "/") == 0)
427 found_root = 1;
428
429 if (strcmp(capstring, "*") == 0) {
430 if (star_ds != NULL) {
431 inform(a->c, _("You cannot have more than one subpartition "
432 "with a '*' capacity (meaning 'use the remainder "
433 "of the primary partition'.)"));
434 valid = 0;
435 } else {
436 star_ds = ds;
437 }
438 }
439
440 if (!(!strcasecmp(mountpoint, "swap") || mountpoint[0] == '/')) {
441 inform(a->c, _("Mount point must be either 'swap', or it must "
442 "start with a '/'."));
443 valid = 0;
444 }
445
446 if (strpbrk(mountpoint, " \\\"'`") != NULL) {
447 inform(a->c, _("Mount point may not contain the following "
448 "characters: blank space, backslash, or "
449 "single, double, or back quotes."));
450 valid = 0;
451 }
452
453 if (strlen(capstring) == 0) {
454 inform(a->c, _("A capacity must be specified."));
455 valid = 0;
456 }
457
458 if (!string_to_capacity(capstring, &capacity)) {
459 inform(a->c, _("Capacity must be either a '*' symbol "
460 "to indicate 'use the rest of the primary "
461 "partition', or it must be a series of decimal "
462 "digits ending with an 'M' (indicating "
463 "megabytes), a 'G' (indicating gigabytes) and "
464 "so on (up to 'E'.)"));
465 valid = 0;
466 }
467
468 /*
469 * Maybe remove this limit entirely?
470 */
471 if ((strcasecmp(mountpoint, "swap") == 0) &&
472 (capacity > SWAP_MAX)) {
473 inform(a->c, _("Swap capacity is limited to %dG."),
474 SWAP_MAX / 1024);
475 valid = 0;
476 }
477
478 /*
479 * If we made it through that obstacle course, all is well.
480 */
481
482 if (valid)
483 aura_dict_store(d, mountpoint, strlen(mountpoint) + 1, "", 1);
484 }
485
486 if (!found_root) {
487 inform(a->c, _("You must include a / (root) subpartition."));
488 valid = 0;
489 }
490
491 if (aura_dict_size(d) > 16) {
492 inform(a->c, _("You cannot have more than 16 subpartitions "
493 "on a single primary partition. Remove some "
494 "and try again."));
495 valid = 0;
496 }
497
498 aura_dict_free(d);
499
500 return(valid);
501 }
502
503 static void
504 save_subpartition_selections(struct dfui_response *r, struct i_fn_args *a)
505 {
506 struct dfui_dataset *ds;
507 char tmpfsbacked;
508 const char *mountpoint, *capstring;
509 long capacity;
510 long bsize, fsize;
511 int softupdates;
512 int valid = 1;
513
514 subpartitions_free(storage_get_selected_slice(a->s));
515
516 for (ds = dfui_response_dataset_get_first(r); valid && ds != NULL;
517 ds = dfui_dataset_get_next(ds)) {
518 mountpoint = dfui_dataset_get_value(ds, "mountpoint");
519 capstring = dfui_dataset_get_value(ds, "capacity");
520
521 if (expert) {
522 softupdates =
523 (strcmp(dfui_dataset_get_value(ds, "softupdates"), "Y") == 0);
524 fsize = atol(dfui_dataset_get_value(ds, "fsize"));
525 bsize = atol(dfui_dataset_get_value(ds, "bsize"));
526 tmpfsbacked = (strcmp(dfui_dataset_get_value(ds, "tmpfsbacked"), "Y") == 0);
527 } else {
528 softupdates = (strcmp(mountpoint, "/boot") == 0 ? 0 : 1);
529 tmpfsbacked = 0;
530 fsize = -1;
531 bsize = -1;
532 }
533
534 if (string_to_capacity(capstring, &capacity)) {
535 subpartition_new_ufs(storage_get_selected_slice(a->s),
536 mountpoint, capacity,
537 strcasecmp(dfui_dataset_get_value(ds, "encrypted"), "Y") == 0,
538 softupdates, fsize, bsize, tmpfsbacked);
539 }
540 }
541 }
542
543 static void
544 populate_create_subpartitions_form(struct dfui_form *f, struct i_fn_args *a)
545 {
546 struct subpartition *sp;
547 struct dfui_dataset *ds;
548 char temp[32];
549 int mtpt;
550 long capacity;
551
552 if (slice_subpartition_first(storage_get_selected_slice(a->s)) != NULL) {
553 /*
554 * The user has already given us their subpartition
555 * preferences, so use them here.
556 */
557 for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
558 sp != NULL; sp = subpartition_next(sp)) {
559 ds = dfui_dataset_new();
560 dfui_dataset_celldata_add(ds, "mountpoint",
561 subpartition_get_mountpoint(sp));
562 dfui_dataset_celldata_add(ds, "capacity",
563 capacity_to_string(subpartition_get_capacity(sp)));
564 dfui_dataset_celldata_add(ds, "encrypted",
565 subpartition_is_encrypted(sp) ? "Y" : "N");
566 if (expert) {
567 dfui_dataset_celldata_add(ds, "softupdates",
568 subpartition_is_softupdated(sp) ? "Y" : "N");
569 dfui_dataset_celldata_add(ds, "tmpfsbacked",
570 subpartition_is_tmpfsbacked(sp) ? "Y" : "N");
571 snprintf(temp, 32, "%ld", subpartition_get_fsize(sp));
572 dfui_dataset_celldata_add(ds, "fsize",
573 temp);
574 snprintf(temp, 32, "%ld", subpartition_get_bsize(sp));
575 dfui_dataset_celldata_add(ds, "bsize",
576 temp);
577 }
578 dfui_form_dataset_add(f, ds);
579 }
580 } else {
581 /*
582 * Otherwise, populate the form with datasets representing
583 * reasonably-calculated defaults. The defaults are chosen
584 * based on the slice's total capacity and the machine's
585 * total physical memory (for swap.)
586 */
587 for (mtpt = 0; def_mountpt[mtpt] != NULL; mtpt++) {
588 capacity = default_capacity(a->s, def_mountpt[mtpt]);
589 if (capacity == 0)
590 continue;
591 ds = dfui_dataset_new();
592 dfui_dataset_celldata_add(ds, "mountpoint",
593 def_mountpt[mtpt]);
594 dfui_dataset_celldata_add(ds, "capacity",
595 capacity_to_string(capacity));
596 dfui_dataset_celldata_add(ds, "encrypted", "N");
597 if (expert) {
598 dfui_dataset_celldata_add(ds, "softupdates",
599 strcmp(def_mountpt[mtpt], "/boot") != 0 ? "Y" : "N");
600 dfui_dataset_celldata_add(ds, "tmpfsbacked",
601 "N");
602 dfui_dataset_celldata_add(ds, "fsize",
603 capacity < 1024 ? "1024" : "2048");
604 dfui_dataset_celldata_add(ds, "bsize",
605 capacity < 1024 ? "8192" : "16384");
606 }
607 dfui_form_dataset_add(f, ds);
608 }
609 }
610 }
611
612 static int
613 warn_subpartition_selections(struct i_fn_args *a)
614 {
615 int valid = 0;
616
617 /* Skip this check for disks <= 8GB */
618 if (slice_get_capacity(storage_get_selected_slice(a->s)) <= 8192)
619 return 0;
620
621 valid = check_capacity(a);
622
623 return(!valid);
624 }
625
626 static struct dfui_form *
627 make_create_subpartitions_form(struct i_fn_args *a)
628 {
629 struct dfui_field *fi;
630 struct dfui_form *f;
631 char msg_buf[1][1024];
632
633 snprintf(msg_buf[0], sizeof(msg_buf[0]),
634 _("Subpartitions further divide a primary partition for "
635 "use with %s. Some reasons you may want "
636 "a set of subpartitions are:\n\n"
637 "- you want to restrict how much data can be written "
638 "to certain parts of the primary partition, to quell "
639 "denial-of-service attacks; and\n"
640 "- you want to speed up access to data on the disk."
641 ""), OPERATING_SYSTEM_NAME);
642
643 f = dfui_form_create(
644 "create_subpartitions",
645 _("Create Subpartitions"),
646 _("Set up the subpartitions (also known as just `partitions' "
647 "in BSD tradition) you want to have on this primary "
648 "partition.\n\n"
649 "For Capacity, use 'M' to indicate megabytes, 'G' to "
650 "indicate gigabytes, and so on (up to 'E'.) A single '*' "
651 "indicates 'use the remaining space on the primary partition'."),
652
653 msg_buf[0],
654
655 "p", "special", "dfinstaller_create_subpartitions",
656 "p", "minimum_width","64",
657
658 "f", "mountpoint", _("Mountpoint"), "", "",
659 "f", "capacity", _("Capacity"), "", "",
660
661 "f", "encrypted", _("Encrypted"), "", "",
662 "p", "control", "checkbox",
663
664 "a", "ok", _("Accept and Create"), "", "",
665 "a", "cancel",
666 (disk_get_formatted(storage_get_selected_disk(a->s)) ?
667 _("Return to Select Disk") :
668 _("Return to Select Primary Partition")), "", "",
669 "p", "accelerator", "ESC",
670
671 NULL
672 );
673
674 dfui_form_set_multiple(f, 1);
675 dfui_form_set_extensible(f, 1);
676
677 if (expert) {
678 fi = dfui_form_field_add(f, "softupdates",
679 dfui_info_new(_("Softupdates"), "", ""));
680 dfui_field_property_set(fi, "control", "checkbox");
681
682 fi = dfui_form_field_add(f, "tmpfsbacked",
683 dfui_info_new(_("TMPFS"), "", ""));
684 dfui_field_property_set(fi, "control", "checkbox");
685
686 fi = dfui_form_field_add(f, "fsize",
687 dfui_info_new(_("Frag Sz"), "", ""));
688
689 fi = dfui_form_field_add(f, "bsize",
690 dfui_info_new(_("Block Sz"), "", ""));
691
692 dfui_form_action_add(f, "switch",
693 dfui_info_new(_("Switch to Normal Mode"), "", ""));
694 } else {
695 dfui_form_action_add(f, "switch",
696 dfui_info_new(_("Switch to Expert Mode"), "", ""));
697 }
698
699 return(f);
700 }
701
702 /*
703 * Returns:
704 * -1 = the form should be redisplayed
705 * 0 = failure, function is over
706 * 1 = success, function is over
707 */
708 static int
709 show_create_subpartitions_form(struct dfui_form *f, struct i_fn_args *a)
710 {
711 struct dfui_dataset *ds;
712 struct dfui_response *r;
713
714 for (;;) {
715 if (dfui_form_dataset_get_first(f) == NULL)
716 populate_create_subpartitions_form(f, a);
717
718 if (!dfui_be_present(a->c, f, &r))
719 abort_backend();
720
721 if (strcmp(dfui_response_get_action_id(r), "cancel") == 0) {
722 dfui_response_free(r);
723 return(0);
724 } else if (strcmp(dfui_response_get_action_id(r), "switch") == 0) {
725 if (check_subpartition_selections(r, a)) {
726 save_subpartition_selections(r, a);
727 expert = expert ? 0 : 1;
728 dfui_response_free(r);
729 return(-1);
730 }
731 } else {
732 if (check_subpartition_selections(r, a)) {
733 save_subpartition_selections(r, a);
734 if (!warn_subpartition_selections(a)) {
735 if (!create_subpartitions(a)) {
736 inform(a->c, _("The subpartitions you chose were "
737 "not correctly created, and the "
738 "primary partition may "
739 "now be in an inconsistent state. "
740 "We recommend re-formatting it "
741 "before proceeding."));
742 dfui_response_free(r);
743 return(0);
744 } else {
745 dfui_response_free(r);
746 return(1);
747 }
748 }
749 }
750 }
751
752 dfui_form_datasets_free(f);
753 /* dfui_form_datasets_add_from_response(f, r); */
754 for (ds = dfui_response_dataset_get_first(r); ds != NULL;
755 ds = dfui_dataset_get_next(ds)) {
756 dfui_form_dataset_add(f, dfui_dataset_dup(ds));
757 }
758 }
759 }
760
761 void
762 fn_create_subpartitions_ufs(struct i_fn_args *a)
763 {
764 struct dfui_form *f;
765 unsigned long capacity;
766 int done = 0;
767
768 a->result = 0;
769 capacity = slice_get_capacity(storage_get_selected_slice(a->s));
770 if (capacity < DISK_MIN) {
771 inform(a->c, _("The selected disk is smaller than the "
772 "required %dM for the UFS filesystem."), DISK_MIN);
773 return;
774 }
775 #if 0
776 if (capacity <= 8192)
777 def_mountpt[2] = NULL; /* XXX adjust each time in a session */
778 #endif
779 while (!done) {
780 f = make_create_subpartitions_form(a);
781 switch (show_create_subpartitions_form(f, a)) {
782 case -1:
783 done = 0;
784 break;
785 case 0:
786 done = 1;
787 a->result = 0;
788 break;
789 case 1:
790 done = 1;
791 a->result = 1;
792 break;
793 }
794 dfui_form_free(f);
795 }
796 }
DragonFly BSD