../../sutils/fstab.c

Bug Summary

File:	obj-scan-build/sutils/../../sutils/fstab.c
Location:	line 921, column 9
Description:	Memory is never released; potential leak of memory pointed to by 'fstab'

Annotated Source Code

/* Fstab filesystem frobbing

Written by Miles Bader <miles@gnu.ai.mit.edu>

This file is part of the GNU Hurd.

The GNU Hurd 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 2, or (at

your option) any later version.

The GNU Hurd 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 this program; if not, write to the Free Software

Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */

#include <stdlib.h>

#include <unistd.h>

#include <stdio.h>

#include <errno(*__errno_location ()).h>

#include <fcntl.h>

#include <error.h>

#include <argz.h>

#include <argp.h>

#include <fnmatch.h>

#include <hurd/fsys.h>

#include "fstab.h"

extern error_t fsys_set_readonly (fsys_t fsys, int readonly);

extern error_t fsys_get_readonly (fsys_t fsys, int *readonly);

extern error_t fsys_update (fsys_t fsys);

extern file_t file_name_lookup_carefully (const char *file,

int flags, mode_t mode);

/* Return a new fstab in FSTAB. */

error_t

fstab_create (struct fstypes *types, struct fstab **fstab)

{

struct fstab *new = malloc (sizeof (struct fstab));

←

Memory is allocated

→

if (new)

←

Assuming 'new' is non-null

→

←

Taking true branch

→

{

new->entries = 0;

new->types = types;

*fstab = new;

return 0;

}

else

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

}

/* Free FSTAB and all of its entries. */

void

fstab_free (struct fstab *fstab)

{

while (fstab->entries)

fs_free (fstab->entries);

free (fstab);

}

/* Return a new fstypes structure in TYPES. SEARCH_FMTS is copied. */

error_t

fstypes_create (const char *search_fmts, size_t search_fmts_len,

struct fstypes **types)

{

struct fstypes *new = malloc (sizeof (struct fstypes));

if (new)

{

new->entries = 0;

new->program_search_fmts = malloc (search_fmts_len);

new->program_search_fmts_len = search_fmts_len;

if (! new->program_search_fmts)

{

free (types);

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

}

bcopy (search_fmts, new->program_search_fmts, search_fmts_len);

*types = new;

return 0;

}

else

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

}

/* Return an fstype entry in TYPES called NAME, in FSTYPE. If there is no

existing entry, an attempt to find a fsck program with the given type,

using the alternatives in the FSCK_SEARCH_FMTS field in TYPES. If

one is found, it is added to TYPES, otherwise an new entry is created

with a NULL PROGRAM field. */

error_t

fstypes_get (struct fstypes *types, const char *name, struct fstype **fstype)

100

{

101

char *fmts, *fmt;

102

size_t fmts_len;

103

struct fstype *type;

104

char *program = 0;

105

106

for (type = types->entries; type; type = type->next)

107

if (strcasecmp (type->name, name) == 0)

108

{

109

*fstype = type;

110

return 0;

111

}

112

113

/* No existing entry, make a new one. */

114

115

fmts = types->program_search_fmts;

116

fmts_len = types->program_search_fmts_len;

117

118

for (fmt = fmts; fmt; fmt = argz_next (fmts, fmts_len, fmt))

119

{

120

int fd;

121

122

asprintf (&program, fmt, name);

123

fd = open (program, O_EXEC0x0004);

124

if (fd < 0)

125

{

126

free (program); /* Failed. */

127

if (errno(*__errno_location ()) != ENOENT((0x10 << 26) | ((2) & 0x3fff)) && errno(*__errno_location ()) != EACCES((0x10 << 26) | ((13) & 0x3fff)))

128

/* The program's there but something went wrong; fail. */

129

return errno(*__errno_location ());

130

}

131

else

132

/* We can open for exec, but check the stat info too (e.g. root can

133

open everything). */

134

{

135

struct stat stat;

136

int rv = fstat (fd, &stat);

137

138

close (fd);

139

140

if (rv < 0)

141

{

142

free (program);

143

return errno(*__errno_location ());

144

}

145

146

if (stat.st_mode & S_IXUSR00100)

147

/* Yup execute bit is set. This must be a program... */

148

break;

149

150

free (program);

151

}

152

153

program = 0;

154

}

155

156

type = malloc (sizeof (struct fstype));

157

if (! type)

158

{

159

free (program);

160

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

161

}

162

163

type->name = strdup (name);

164

if (type->name == 0)

165

{

166

free (type);

167

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

168

}

169

type->program = program;

170

type->next = types->entries;

171

types->entries = type;

172

173

*fstype = type;

174

175

return 0;

176

}

177

178

#if 0

179

/* XXX nice idea, but not that useful since scanf's %s always eats all

180

non-ws, and it seems a bit overkill to convert it to a .+ regexp match */

181

error_t

182

fstypes_find_program (struct fstypes *types, const char *program,

183

struct fstype **fstype)

184

{

185

char *fmts, *fmt;

186

size_t fmts_len;

187

struct fstype *type;

188

char *typename;

189

190

/* First see if a known type matches this program. */

191

for (type = types->entries; type; type = type->next)

192

if (type->program && !strcmp (type->program, program))

193

{

194

*fstype = type;

195

return 0;

196

}

197

198

/* No existing entry, see if we can make a new one. */

199

200

typename = alloca (strlen (program) + 1)__builtin_alloca (strlen (program) + 1);

201

202

fmts = types->program_search_fmts;

203

fmts_len = types->program_search_fmts_len;

204

for (fmt = fmts; fmt; fmt = argz_next (fmts, fmts_len, fmt))

205

/* XXX this only works for trailing %s */

206

if (sscanf (program, fmt, typename) == 1)

207

{

208

/* This format matches the program and yields the type name.

209

Create a new entry for this type. */

210

211

type = malloc (sizeof (struct fstype));

212

if (! type)

213

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

214

type->name = strdup (typename);

215

if (type->name == 0)

216

{

217

free (type);

218

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

219

}

220

type->program = strdup (program);

221

if (type->program == 0)

222

{

223

free (type->name);

224

free (type);

225

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

226

}

227

type->next = types->entries;

228

types->entries = type;

229

230

*fstype = type;

231

return 0;

232

}

233

234

/* We could find no program search format that could have yielded this

235

program name. */

236

*fstype = 0;

237

return 0;

238

}

239

#endif

240

241

/* Copy MNTENT into FS, copying component strings as well. */

242

error_t

243

fs_set_mntent (struct fs *fs, const struct mntent *provided_mntent)

244

{

245

char *end;

246

size_t needed = 0;

247

struct mntent mntent = *provided_mntent;

248

char *real_fsname = NULL((void*)0);

249

char *real_dir = NULL((void*)0);

250

251

if (fs->storage)

252

free (fs->storage);

253

254

if (mntent.mnt_fsname)

255

{

256

real_fsname = realpath (mntent.mnt_fsname, NULL((void*)0));

257

if (real_fsname)

258

mntent.mnt_fsname = real_fsname;

259

}

260

if (mntent.mnt_dir)

261

{

262

real_dir = realpath (mntent.mnt_dir, NULL((void*)0));

263

if (real_dir)

264

mntent.mnt_dir = real_dir;

265

}

266

267

/* Allocate space for all string mntent fields in FS. */

268

#define COUNT(field) if (mntent.field) needed += strlen (mntent.field) + 1;

269

COUNT (mnt_fsname);

270

COUNT (mnt_dir);

271

COUNT (mnt_type);

272

COUNT (mnt_opts);

273

#undef COUNT

274

275

fs->storage = malloc (needed);

276

if (! fs->storage)

277

{

278

free (real_fsname);

279

free (real_dir);

280

return ENOMEM((0x10 << 26) | ((12) & 0x3fff));

281

}

282

283

if (!fs->mntent.mnt_dir || !mntent.mnt_dir

284

|| strcmp (fs->mntent.mnt_dir, mntent.mnt_dir) != 0)

285

{

286

fs->mounted = fs->readonly = -1;

287

if (fs->fsys != MACH_PORT_NULL((mach_port_t) 0))

288

mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), fs->fsys);

289

fs->fsys = MACH_PORT_NULL((mach_port_t) 0);

290

}

291

292

/* Copy MNTENT into FS; string-valued fields will be fixed up next. */

293

fs->mntent = mntent;

294

295

/* Copy each mntent field from MNTENT into FS's version. */

296

end = fs->storage;

297

#define STORE(field) \

298

if (mntent.field) \

299

{ \

300

fs->mntent.field = end; \

301

end = stpcpy (end, mntent.field) + 1; \

302

} \

303

else \

304

fs->mntent.field = 0;

305

STORE (mnt_fsname);

306

STORE (mnt_dir);

307

STORE (mnt_type);

308

STORE (mnt_opts);

309

#undef STORE

310

311

if (fs->type

312

&& (!mntent.mnt_type

313

|| strcasecmp (fs->type->name, mntent.mnt_type) != 0))

314

fs->type = 0; /* Type is different. */

315

316

free (real_fsname);

317

free (real_dir);

318

319

return 0;

320

}

321

322

/* Returns an fstype for FS in TYPE, trying to fill in FS's type field if

323

necessary. */

324

error_t

325

fs_type (struct fs *fs, struct fstype **type)

326

{

327

error_t err = 0;

328

if (! fs->type)

329

err = fstypes_get (fs->fstab->types, fs->mntent.mnt_type, &fs->type);

330

if (! err)

331

*type = fs->type;

332

return err;

333

}

334

335

/* Looks to see if FS is currently mounted, being very careful to avoid

336

mounting anything that's not already, and fills in the fsys & mounted

337

fields in FS. */

338

static error_t

339

_fs_check_mounted (struct fs *fs)

340

{

341

error_t err = 0;

342

343

if (fs->mounted < 0)

344

/* The mounted field in FS is -1 if we're not sure. */

345

{

346

if (fs->fsys != MACH_PORT_NULL((mach_port_t) 0))

347

mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), fs->fsys);

348

349

if (strcmp (fs->mntent.mnt_dir, "/") == 0)

350

/* The root is always mounted. Get its control port. */

351

{

352

file_t root = getcrdir ();

353

if (root == MACH_PORT_NULL((mach_port_t) 0))

354

err = errno(*__errno_location ());

355

else

356

{

357

err = file_getcontrol (root, &fs->fsys);

358

mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), root);

359

}

360

}

361

else

362

{

363

file_t mount_point =

364

file_name_lookup_carefully (fs->mntent.mnt_dir, O_NOTRANS0x0080, 0);

365

366

if (mount_point != MACH_PORT_NULL((mach_port_t) 0))

367

/* The node exists. Is it the root of an active translator?

368

[Note that it could be a different translator than the one in

369

the mntent, but oh well, nothing we can do about that.] */

370

{

371

err = file_get_translator_cntl (mount_point, &fs->fsys);

372

if (err == EINVAL((0x10 << 26) | ((22) & 0x3fff)) || err == EOPNOTSUPP((0x10 << 26) | ((45) & 0x3fff)) || err == ENXIO((0x10 << 26) | ((6) & 0x3fff)))

373

/* Either the mount point doesn't exist, or wasn't mounted. */

374

{

375

fs->fsys = MACH_PORT_NULL((mach_port_t) 0);

376

err = 0;

377

}

378

}

379

else if (errno(*__errno_location ()) == ENXIO((0x10 << 26) | ((6) & 0x3fff)))

380

/* Ran into an inactive passive translator. FS can't be mounted. */

381

{

382

fs->fsys = MACH_PORT_NULL((mach_port_t) 0);

383

err = 0;

384

}

385

}

386

387

if (! err)

388

fs->mounted = (fs->fsys != MACH_PORT_NULL((mach_port_t) 0));

389

}

390

391

return err;

392

}

393

394

/* Looks to see if FS is currently mounted, being very careful to avoid

395

mounting anything that's not already, and returns the control port for the

396

mounted filesystem (MACH_PORT_NULL if not mounted). */

397

error_t

398

fs_fsys (struct fs *fs, fsys_t *fsys)

399

{

400

error_t err = _fs_check_mounted (fs);

401

if (!err && fsys)

402

*fsys = fs->fsys;

403

return err;

404

}

405

406

/* Looks to see if FS is currently mounted, being very careful to avoid

407

mounting anything that's not already, and returns the boolean MOUNTED. */

408

error_t

409

fs_mounted (struct fs *fs, int *mounted)

410

{

411

error_t err = _fs_check_mounted (fs);

412

if (!err && mounted)

413

*mounted = fs->mounted;

414

return err;

415

}

416

417

/* Looks to see if FS is currently mounted readonly, being very careful to

418

avoid mounting anything that's not already, and returns the boolean

419

READONLY. If FS isn't mounted at all, READONLY is set to 1 (it's not

420

going to write anything!). */

421

error_t

422

fs_readonly (struct fs *fs, int *readonly)

423

{

424

error_t err = 0;

425

426

if (fs->readonly < 0)

427

/* Unknown. */

428

{

429

fsys_t fsys;

430

431

err = fs_fsys (fs, &fsys);

432

if (! err)

433

{

434

if (fsys == MACH_PORT_NULL((mach_port_t) 0))

435

fs->readonly = 1;

436

else

437

err = fsys_get_readonly (fsys, &fs->readonly);

438

}

439

}

440

441

if (!err && readonly)

442

*readonly = fs->readonly;

443

444

return err;

445

}

446

447

/* If FS is currently mounted writable, try to make it readonly. XXX If FS

448

is not mounted at all, then nothing is done. */

449

error_t

450

fs_set_readonly (struct fs *fs, int readonly)

451

{

452

int currently_readonly;

453

error_t err = fs_readonly (fs, &currently_readonly);

454

455

readonly = !!readonly;

456

457

if (!err && readonly != currently_readonly)

458

/* We have to try and change the readonly state. */

459

{

460

fsys_t fsys;

461

err = fs_fsys (fs, &fsys);

462

if (!err && fsys != MACH_PORT_NULL((mach_port_t) 0)) /* XXX What to do if not mounted? */

463

err = fsys_set_readonly (fsys, readonly);

464

if (! err)

465

fs->readonly = readonly;

466

}

467

468

return err;

469

}

470

471

/* If FS is currently mounted tell it to remount the device. XXX If FS is

472

not mounted at all, then nothing is done. */

473

error_t

474

fs_remount (struct fs *fs)

475

{

476

fsys_t fsys;

477

error_t err = fs_fsys (fs, &fsys);

478

if (!err && fsys != MACH_PORT_NULL((mach_port_t) 0)) /* XXX What to do if not mounted? */

479

err = fsys_update (fsys);

480

return err;

481

}

482

483

/* Returns the FS entry in FSTAB with the device field NAME.

484

485

In general there can only be one such entry. This holds not true

486

for virtual file systems that use "none" as device name.

487

488

If name is "none", NULL is returned. This also makes it possible to

489

add more than one entry for the device "none". */

490

inline struct fs *

491

fstab_find_device (const struct fstab *fstab, const char *name)

492

{

493

if (strcmp (name, "none") == 0)

494

return NULL((void*)0);

495

496

char *real_name = realpath (name, NULL((void*)0));

497

const char *lookup_name;

498

499

if (real_name)

500

lookup_name = real_name;

501

else

502

lookup_name = name;

503

504

struct fs *fs;

505

for (fs = fstab->entries; fs; fs = fs->next)

506

if (strcmp (fs->mntent.mnt_fsname, lookup_name) == 0)

507

break;

508

509

free (real_name);

510

return fs;

511

}

512

513

/* Returns the FS entry in FSTAB with the mount point NAME (there can only

514

be one such entry). */

515

inline struct fs *

516

fstab_find_mount (const struct fstab *fstab, const char *name)

517

{

518

/* Don't count "none" or "-" as matching any other mount point.

519

It is canonical to use "none" for swap partitions, and multiple

520

such do not in fact conflict with each other. Likewise, the

521

special device name "ignore" is used for things that should not

522

be processed automatically. */

523

if (!strcmp (name, "-")

524

|| !strcmp (name, "none")

525

|| !strcmp (name, "ignore"))

526

return 0;

527

528

char *real_name = realpath (name, NULL((void*)0));

529

const char *lookup_name;

530

531

if (real_name)

532

lookup_name = real_name;

533

else

534

lookup_name = name;

535

536

struct fs *fs;

537

for (fs = fstab->entries; fs; fs = fs->next)

538

if (strcmp (fs->mntent.mnt_dir, lookup_name) == 0)

539

break;

540

541

free (real_name);

542

return fs;

543

}

544

545

/* Returns the FS entry in FSTAB with the device or mount point NAME (there

546

can only be one such entry). */

547

inline struct fs *

548

fstab_find (const struct fstab *fstab, const char *name)

549

{

550

return fstab_find_device (fstab, name) ?: fstab_find_mount (fstab, name);

551

}

552

553

/* Cons FS onto the beginning of FSTAB's entry list. */

554

static void

555

_fstab_add (struct fstab *fstab, struct fs *fs)

556

{

557

fs->fstab = fstab;

558

fs->next = fstab->entries;

559

fs->self = &fstab->entries;

560

if (fstab->entries)

561

fstab->entries->self = &fs->next;

562

fstab->entries = fs;

563

}

564

565

/* Destroy FS, removing it from its containing FSTAB. */

566

void

567

fs_free (struct fs *fs)

568

{

569

*fs->self = fs->next; /* unlink from chain */

570

if (fs->storage)

571

free (fs->storage);

572

if (fs->fsys != MACH_PORT_NULL((mach_port_t) 0))

573

mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), fs->fsys);

574

free (fs);

575

}

576

577

/* Add an entry for MNTENT to FSTAB, removing any existing entries that

578

conflict (in either the device or mount point). If RESULT is non-zero, the

579

new entry is returne in it. */

580

error_t

581

fstab_add_mntent (struct fstab *const fstab, const struct mntent *mntent,

582

struct fs **result)

583

{

584

int new = 0; /* True if we didn't overwrite an old entry. */

585

error_t err = 0;

586

struct fs *fs = fstab_find_device (fstab, mntent->mnt_fsname);

587

struct fs *mounted_fs = fstab_find_mount (fstab, mntent->mnt_dir);

588

589

if (! fs)

590

/* No old entry with the same device; see if there's one with the same

591

mount point. */

592

{

593

fs = mounted_fs;

594

mounted_fs = 0;

595

}

596

597

if (! fs)

598

/* No old entry, make a new one. */

599

{

600

fs = malloc (sizeof (struct fs));

601

if (fs)

602

{

603

memset (fs, 0, sizeof(struct fs));

604

fs->mounted = fs->readonly = -1;

605

fs->fsys = MACH_PORT_NULL((mach_port_t) 0);

606

new = 1;

607

}

608

else

609

err = ENOMEM((0x10 << 26) | ((12) & 0x3fff));

610

}

611

612

if (! err)

613

/* Try and fill in FS's mntent. */

614

err = fs_set_mntent (fs, mntent);

615

616

if (new)

617

{

618

if (! err)

619

_fstab_add (fstab, fs);

620

else if (fs)

621

free (fs);

622

}

623

624

if (!err && mounted_fs && mounted_fs != fs)

625

/* Get rid of the conflicting entry MOUNTED_FS. */

626

fs_free (mounted_fs);

627

628

if (!err && result)

629

*result = fs;

630

631

return err;

632

}

633

634

/* Copy the entry FS (which should belong to another fstab than DST) into

635

DST. If DST & SRC have different TYPES fields, EINVAL is returned. If

636

COPY is non-zero, the copy is returned in it. */

637

error_t

638

fstab_add_fs (struct fstab *dst, const struct fs *fs, struct fs **copy)

639

{

640

error_t err;

641

struct fs *new;

642

struct fstab *src = fs->fstab;

643

644

if (dst->types != src->types)

645

return EINVAL((0x10 << 26) | ((22) & 0x3fff));

646

647

err = fstab_add_mntent (dst, &fs->mntent, &new);

648

if (err)

649

return err;

650

651

new->type = fs->type;

652

653

if (copy)

654

*copy = new;

655

656

return 0;

657

}

658

659

/* Merge SRC into DST, as if by calling fstab_add_fs on DST with every

660

entry in SRC, and then deallocating SRC. If DST & SRC have different

661

TYPES fields, EINVAL is returned. */

662

error_t

663

fstab_merge (struct fstab *dst, struct fstab *src)

664

{

665

struct fs *fs;

666

667

if (dst->types != src->types)

668

return EINVAL((0x10 << 26) | ((22) & 0x3fff));

669

670

/* Remove entries in DST which conflict with those in SRC. */

671

for (fs = src->entries; fs; fs = fs->next)

672

{

673

struct fs *old_fs;

674

675

old_fs = fstab_find_device (dst, fs->mntent.mnt_fsname);

676

if (old_fs)

677

fs_free (old_fs);

678

old_fs = fstab_find_mount (dst, fs->mntent.mnt_dir);

679

if (old_fs)

680

fs_free (old_fs);

681

}

682

683

/* Now that we know there are no conflicts, steal all SRC's entries and

684

cons them onto DST. */

685

for (fs = src->entries; fs; fs = fs->next)

686

_fstab_add (dst, fs);

687

688

/* Now all entries from SRC should be in DST, so just deallocate SRC. */

689

free (src);

690

691

return 0;

692

}

693

694

/* Reads fstab-format entries into FSTAB from the file NAME. Any entries

695

duplicating one already in FS_LIST supersede the existing entry. */

696

error_t

697

fstab_read (struct fstab *fstab, const char *name)

698

{

699

error_t err;

700

/* Used to hold entries from the file, before merging with FSTAB at the

701

end. */

702

struct fstab *contents;

703

FILE *stream = setmntent (name, "r");

704

705

if (! stream)

706

return errno(*__errno_location ());

707

708

err = fstab_create (fstab->types, &contents);

709

if (! err)

710

{

711

while (!err && !feof (stream))

712

{

713

errno(*__errno_location ()) = 0;

714

struct mntent *mntent = getmntent (stream);

715

716

if (! mntent)

717

err = errno(*__errno_location ());

718

else if (fstab_find_device (fstab, mntent->mnt_fsname))

719

error (0, 0, "%s: Warning: duplicate entry for device %s (%s)",

720

name, mntent->mnt_fsname, mntent->mnt_dir);

721

else if (fstab_find_mount (fstab, mntent->mnt_dir))

722

error (0, 0, "%s: Warning: duplicate entry for mount point %s (%s)",

723

name, mntent->mnt_dir, mntent->mnt_fsname);

724

else

725

err = fstab_add_mntent (fstab, mntent, 0);

726

}

727

728

if (! err)

729

fstab_merge (fstab, contents);

730

else

731

fstab_free (contents);

732

}

733

734

endmntent (stream);

735

736

return err;

737

}

738

739

/* Return the next pass number that applies to any filesystem in FSTAB that

740

is greater than PASS, or -1 if there isn't any. */

741

int fstab_next_pass (const struct fstab *fstab, int pass)

742

{

743

int next_pass = -1;

744

struct fs *fs;

745

for (fs = fstab->entries; fs; fs = fs->next)

746

if (fs->mntent.mnt_passno > pass)

747

if (next_pass < 0 || fs->mntent.mnt_passno < next_pass)

748

{

749

next_pass = fs->mntent.mnt_passno;

750

if (next_pass == pass + 1)

751

break; /* Only possible answer. */

752

}

753

return next_pass;

754

}

755

756

757

static const struct argp_option options[] =

758

{

759

{"all", 'a', 0, 0, "Do all filesystems in " _PATH_MNTTAB"/etc/fstab"},

760

{0, 'A', 0, OPTION_ALIAS0x4 },

761

{"fstab", 'F', "FILE", 0, "File to use instead of " _PATH_MNTTAB"/etc/fstab"},

762

{"fstype", 't', "TYPE", 0, "Do only filesystems of given type(s)"},

763

{"exclude-root",'R',0, 0,

764

"Exclude root (/) filesystem from " _PATH_MNTTAB"/etc/fstab" " list"},

765

{"exclude", 'X', "PATTERN", 0, "Exclude directories matching PATTERN"},

766

767

{"search-fmts",'S', "FMTS", 0,

768

"`:' separated list of formats to use for finding"

769

" filesystem-specific programs"},

770

771

{0, 0}

772

};

773

774

static error_t

775

parse_opt (int key, char *arg, struct argp_state *state)

776

{

777

error_t err;

778

struct fstab_argp_params *params = state->input;

779

780

switch (key)

781

{

782

case ARGP_KEY_INIT0x1000003:

783

/* Initialize our parsing state. */

784

if (! params)

785

return EINVAL((0x10 << 26) | ((22) & 0x3fff)); /* Need at least a way to return a result. */

786

memset (params, 0, sizeof *params);

787

break;

788

789

case 'A':

790

case 'a':

791

params->do_all = 1;

792

break;

793

794

case 'F':

795

params->fstab_path = arg;

796

break;

797

798

case 'S':

799

argz_create_sep (arg, ':',

800

&params->program_search_fmts,

801

&params->program_search_fmts_len);

802

break;

803

804

case 'R':

805

arg = "/";

806

/* FALLTHROUGH */

807

case 'X':

808

err = argz_add (&params->exclude, &params->exclude_len, arg);

809

if (err)

810

argp_failure (state, 100, ENOMEM((0x10 << 26) | ((12) & 0x3fff)), "%s", arg);

811

break;

812

case 't':

813

err = argz_add_sep (&params->types, &params->types_len, arg, ',');

814

if (err)

815

argp_failure (state, 100, ENOMEM((0x10 << 26) | ((12) & 0x3fff)), "%s", arg);

816

break;

817

818

case ARGP_KEY_ARG0:

819

err = argz_add (&params->names, &params->names_len, arg);

820

if (err)

821

argp_failure (state, 100, ENOMEM((0x10 << 26) | ((12) & 0x3fff)), "%s", arg);

822

break;

823

824

case ARGP_KEY_END0x1000001:

825

/* Check for bogus combinations of arguments. */

826

if (params->names)

827

{

828

if (params->do_all)

829

argp_error (state, "filesystem arguments not allowed with --all");

830

if (params->exclude)

831

argp_error (state,

832

"--exclude not allowed with filesystem arguments");

833

if (params->types)

834

argp_error (state,

835

"--fstype not allowed with filesystem arguments");

836

}

837

break;

838

839

default:

840

return ARGP_ERR_UNKNOWN((0x10 << 26) | ((7) & 0x3fff));

841

}

842

843

return 0;

844

}

845

846

const struct argp fstab_argp = {options, parse_opt, 0, 0};

847

848

struct fstab *

849

fstab_argp_create (struct fstab_argp_params *params,

850

const char *default_search_fmts,

851

size_t default_search_fmts_len)

852

{

853

error_t err;

854

struct fstab *fstab, *check;

855

struct fstypes *types;

856

857

if (params->fstab_path == 0)

Taking false branch

→

858

params->fstab_path = _PATH_MNTTAB"/etc/fstab";

859

if (params->program_search_fmts == 0)

←

Taking false branch

→

860

{

861

params->program_search_fmts = (char *) default_search_fmts;

862

params->program_search_fmts_len = default_search_fmts_len;

863

}

864

865

err = fstypes_create (params->program_search_fmts,

866

params->program_search_fmts_len,

867

&types);

868

if (err)

←

Taking false branch

→

869

error (102, err, "fstypes_create");

870

871

err = fstab_create (types, &fstab);

←

Calling 'fstab_create'

→

←

Returned allocated memory via 2nd parameter

→

872

if (err)

←

Taking false branch

→

873

error (101, err, "fstab_create");

874

875

err = fstab_read (fstab, params->fstab_path);

876

if (err)

←

Taking false branch

→

877

error (103, err, "%s", params->fstab_path);

878

879

if (params->names)

←

Taking false branch

→

880

{

881

/* Process specified filesystems; also look at /var/run/mtab. */

882

const char *name;

883

884

err = fstab_read (fstab, _PATH_MOUNTED"/etc/mtab");

885

if (err && err != ENOENT((0x10 << 26) | ((2) & 0x3fff)))

886

error (104, err, "%s", _PATH_MOUNTED"/etc/mtab");

887

888

err = fstab_create (types, &check);

889

if (err)

890

error (105, err, "fstab_create");

891

892

for (name = params->names; name; name = argz_next (params->names,

893

params->names_len,

894

name))

895

{

896

struct fs *fs = fstab_find (fstab, name);

897

if (! fs)

898

error (106, 0, "%s: Unknown device or filesystem", name);

899

fstab_add_fs (check, fs, 0);

900

}

901

902

/* fstab_free (fstab); XXX */

903

}

904

else

905

{

906

/* Process everything in /etc/fstab. */

907

908

if (params->exclude == 0 && params->types == 0)

909

check = fstab;

910

else

911

{

912

err = fstab_create (types, &check);

913

if (err)

←

Taking false branch

→

914

error (105, err, "fstab_create");

915

916

int blacklist = strncasecmp (params->types, "no", 2) == 0;

917

if (blacklist)

←

Taking false branch

→

918

params->types += 2; /* Skip no. */

919

920

struct fs *fs;

921

for (fs = fstab->entries; fs; fs = fs->next)

←

Memory is never released; potential leak of memory pointed to by 'fstab'

922

{

923

if (strcmp (fs->mntent.mnt_type, MNTTYPE_SWAP"swap") == 0)

924

continue; /* Ignore swap entries. */

925

926

const char *tn;

927

int matched = 0;

928

for (tn = params->types; tn;

929

tn = argz_next (params->types, params->types_len, tn))

930

{

931

const char *type = fs->mntent.mnt_type;

932

if (strcmp (type, tn) == 0

933

/* Skip no for compatibility. */

934

|| ((strncasecmp (type, "no", 2) == 0)

935

&& strcmp (type, tn) == 0))

936

{

937

matched = 1;

938

break;

939

}

940

}

941

942

if (matched == blacklist)

943

continue; /* Either matched and types is a blacklist

944

or not matched and types is a whitelist */

945

946

const char *ptn;

947

for (ptn = params->exclude; ptn;

948

ptn = argz_next (params->exclude, params->exclude_len, ptn))

949

if (fnmatch (ptn, fs->mntent.mnt_dir, 0) == 0)

950

break;

951

if (ptn) /* An exclude pattern matched. */

952

continue;

953

954

err = fstab_add_fs (check, fs, 0);

955

if (err)

956

error (107, err, "fstab_add_fs");

957

}

958

959

/* fstab_free (fstab); XXX */

960

}

961

}

962

963

return check;

964

}