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sortix--sortix/sysinstall/devices.c
2016-10-04 00:34:50 +02:00

420 lines
11 KiB
C

/*
* Copyright (c) 2015, 2016 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* devices.c
* Utility functions to handle devices, partitions, and filesystems.
*/
#include <sys/mount.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <assert.h>
#include <err.h>
#include <errno.h>
#include <fstab.h>
#include <signal.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <timespec.h>
#include <unistd.h>
#include <mount/blockdevice.h>
#include <mount/devices.h>
#include <mount/filesystem.h>
#include <mount/harddisk.h>
#include <mount/partition.h>
#include <mount/uuid.h>
#include "devices.h"
struct harddisk** hds;
size_t hds_count;
const char* path_of_blockdevice(struct blockdevice* bdev)
{
return bdev->p ? bdev->p->path : bdev->hd->path;
}
const char* device_path_of_blockdevice(struct blockdevice* bdev)
{
while ( bdev->p )
bdev = bdev->p->parent_bdev;
return bdev->hd->path;
}
void unscan_filesystem(struct blockdevice* bdev)
{
if ( bdev->fs )
{
filesystem_release(bdev->fs);
bdev->fs = NULL;
}
}
void scan_filesystem(struct blockdevice* bdev)
{
enum filesystem_error fserr = blockdevice_inspect_filesystem(&bdev->fs, bdev);
if ( fserr == FILESYSTEM_ERROR_ABSENT ||
fserr == FILESYSTEM_ERROR_UNRECOGNIZED )
return;
if ( fserr != FILESYSTEM_ERROR_NONE )
return; // TODO: Perhaps print an error here?
}
void unscan_device(struct harddisk* hd)
{
if ( hd->bdev.pt )
{
for ( size_t i = 0; i < hd->bdev.pt->partitions_count; i++ )
unscan_filesystem(&hd->bdev.pt->partitions[i]->bdev);
partition_table_release(hd->bdev.pt);
hd->bdev.pt = NULL;
}
if ( hd->bdev.fs )
unscan_filesystem(&hd->bdev);
}
void scan_device(struct harddisk* hd)
{
unscan_device(hd);
struct blockdevice* bdev = &hd->bdev;
enum partition_error parterr = blockdevice_get_partition_table(&bdev->pt, bdev);
if ( parterr == PARTITION_ERROR_ABSENT ||
parterr == PARTITION_ERROR_UNRECOGNIZED )
{
scan_filesystem(bdev);
return;
}
else if ( parterr == PARTITION_ERROR_ERRNO ||
parterr != PARTITION_ERROR_NONE )
return; // TODO: Perhaps print an error here?
for ( size_t i = 0; i < bdev->pt->partitions_count; i++ )
scan_filesystem(&bdev->pt->partitions[i]->bdev);
}
void unscan_devices(void)
{
for ( size_t i = 0; i < hds_count; i++ )
{
unscan_device(hds[i]);
harddisk_close(hds[i]);
}
hds_count = 0;
free(hds);
hds = NULL;
}
void scan_devices(void)
{
unscan_devices();
if ( !devices_open_all(&hds, &hds_count) )
{
// TODO: How should callers deal with error conditions from here?
warn("iterating devices");
}
for ( size_t i = 0; i < hds_count; i++ )
scan_device(hds[i]);
}
struct filesystem* search_for_filesystem_by_uuid(const unsigned char* uuid)
{
for ( size_t di = 0; di < hds_count; di++ )
{
struct blockdevice* dbdev = &hds[di]->bdev;
if ( dbdev->fs )
{
if ( (dbdev->fs->flags & FILESYSTEM_FLAG_UUID) &&
memcmp(dbdev->fs->uuid, uuid, 16) == 0 )
return dbdev->fs;
}
else if ( dbdev->pt )
{
for ( size_t pi = 0; pi < dbdev->pt->partitions_count; pi++ )
{
struct blockdevice* pbdev = &dbdev->pt->partitions[pi]->bdev;
if ( !pbdev->fs )
continue;
if ( (pbdev->fs->flags & FILESYSTEM_FLAG_UUID) &&
memcmp(pbdev->fs->uuid, uuid, 16) == 0 )
return pbdev->fs;
}
}
}
return NULL;
}
struct filesystem* search_for_filesystem_by_spec(const char* spec)
{
if ( strncmp(spec, "UUID=", strlen("UUID=")) == 0 )
{
const char* uuid_string = spec + strlen("UUID=");
if ( !uuid_validate(uuid_string) )
return NULL;
unsigned char uuid[16];
uuid_from_string(uuid, uuid_string);
return search_for_filesystem_by_uuid(uuid);
}
return NULL;
}
bool check_lacking_partition_table(void)
{
for ( size_t di = 0; di < hds_count; di++ )
{
struct blockdevice* dbdev = &hds[di]->bdev;
if ( dbdev->fs )
continue;
if ( !dbdev->pt )
return true;
}
return false;
}
bool fsck(struct filesystem* fs)
{
const char* bdev_path = path_of_blockdevice(fs->bdev);
printf("%s: Repairing filesystem due to inconsistency...\n", bdev_path);
assert(fs->fsck);
pid_t child_pid = fork();
if ( child_pid < 0 )
{
warn("%s: Mandatory repair failed: fork", bdev_path);
return false;
}
if ( child_pid == 0 )
{
execlp(fs->fsck, fs->fsck, "-fp", "--", bdev_path, (const char*) NULL);
warn("%s: Failed to load filesystem checker: %s", bdev_path, fs->fsck);
_Exit(127);
}
int code;
if ( waitpid(child_pid, &code, 0) < 0 )
{
warn("waitpid");
return false;
}
if ( WIFSIGNALED(code) )
warnx("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, strsignal(WTERMSIG(code)));
else if ( !WIFEXITED(code) )
warnx("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Unexpected unusual termination");
else if ( WEXITSTATUS(code) == 127 )
warnx("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Filesystem checker is absent");
else if ( WEXITSTATUS(code) & 2 )
warnx("%s: Mandatory repair: %s: %s", bdev_path,
fs->fsck, "System reboot is necessary");
else if ( WEXITSTATUS(code) != 0 && WEXITSTATUS(code) != 1 )
warnx("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Filesystem checker was unsuccessful");
else
{
fs->flags &= ~(FILESYSTEM_FLAG_FSCK_SHOULD | FILESYSTEM_FLAG_FSCK_MUST);
return true;
}
return false;
}
static int sort_mountpoint(const void* a_ptr, const void* b_ptr)
{
const struct mountpoint* a = (const struct mountpoint*) a_ptr;
const struct mountpoint* b = (const struct mountpoint*) b_ptr;
return strcmp(a->entry.fs_file, b->entry.fs_file);
}
void free_mountpoints(struct mountpoint* mnts, size_t mnts_count)
{
for ( size_t i = 0; i < mnts_count; i++ )
{
free(mnts[i].entry_line);
free(mnts[i].absolute);
}
free(mnts);
}
bool load_mountpoints(const char* fstab_path,
struct mountpoint** mountpoints_out,
size_t* mountpoints_used_out)
{
FILE* fp = fopen(fstab_path, "r");
if ( !fp )
return false;
struct mountpoint* mountpoints = NULL;
size_t mountpoints_used = 0;
size_t mountpoints_length = 0;
char* line = NULL;
size_t line_size;
ssize_t line_length;
while ( 0 < (line_length = getline(&line, &line_size, fp)) )
{
if ( line[line_length - 1] == '\n' )
line[--line_length] = '\0';
struct fstab fstabent;
if ( !scanfsent(line, &fstabent) )
continue;
if ( mountpoints_used == mountpoints_length )
{
size_t new_length = 2 * mountpoints_length;
if ( !new_length )
new_length = 16;
struct mountpoint* new_mountpoints = (struct mountpoint*)
reallocarray(mountpoints, new_length, sizeof(struct mountpoint));
if ( !new_mountpoints )
{
free_mountpoints(mountpoints, mountpoints_used);
free(line);
fclose(fp);
return false;
}
mountpoints = new_mountpoints;
mountpoints_length = new_length;
}
struct mountpoint* mountpoint = &mountpoints[mountpoints_used++];
memcpy(&mountpoint->entry, &fstabent, sizeof(fstabent));
mountpoint->entry_line = line;
mountpoint->pid = -1;
if ( !(mountpoint->absolute = strdup(mountpoint->entry.fs_file)) )
{
free_mountpoints(mountpoints, mountpoints_used);
fclose(fp);
return false;
}
line = NULL;
line_size = 0;
}
bool failure = ferror(fp);
free(line);
fclose(fp);
if ( failure )
{
free_mountpoints(mountpoints, mountpoints_used);
return false;
}
qsort(mountpoints, mountpoints_used, sizeof(struct mountpoint),
sort_mountpoint);
*mountpoints_out = mountpoints;
*mountpoints_used_out = mountpoints_used;
return true;
}
bool mountpoint_mount(struct mountpoint* mountpoint)
{
struct filesystem* fs = mountpoint->fs;
// TODO: It would be ideal to get an exclusive lock so that no other
// processes have currently mounted that filesystem.
struct blockdevice* bdev = fs->bdev;
const char* bdev_path = bdev->p ? bdev->p->path : bdev->hd->path;
assert(bdev_path);
if ( fs->flags & FILESYSTEM_FLAG_FSCK_MUST && !fsck(fs) )
{
warnx("Failed to fsck %s", bdev_path);
return false;
}
if ( !fs->driver )
{
warnx("%s: Don't know how to mount a %s filesystem",
bdev_path, fs->fstype_name);
return false;
}
const char* pretend_where = mountpoint->entry.fs_file;
const char* where = mountpoint->absolute;
struct stat st;
if ( stat(where, &st) < 0 )
{
warn("stat: %s", where);
return false;
}
if ( (mountpoint->pid = fork()) < 0 )
{
warn("%s: Unable to mount: fork", bdev_path);
return false;
}
// TODO: This design is broken. The filesystem should tell us when it is
// ready instead of having to poll like this.
if ( mountpoint->pid == 0 )
{
execlp(fs->driver, fs->driver, "--foreground", bdev_path, where,
"--pretend-mount-path", pretend_where, (const char*) NULL);
warn("%s: Failed to load filesystem driver: %s", bdev_path, fs->driver);
_exit(127);
}
while ( true )
{
struct stat newst;
if ( stat(where, &newst) < 0 )
{
warn("stat: %s", where);
if ( unmount(where, 0) < 0 && errno != ENOMOUNT )
warn("unmount: %s", where);
else if ( errno == ENOMOUNT )
kill(mountpoint->pid, SIGQUIT);
int code;
waitpid(mountpoint->pid, &code, 0);
mountpoint->pid = -1;
return false;
}
if ( newst.st_dev != st.st_dev || newst.st_ino != st.st_ino )
break;
int code;
pid_t child = waitpid(mountpoint->pid, &code, WNOHANG);
if ( child < 0 )
{
warn("waitpid");
return false;
}
if ( child != 0 )
{
mountpoint->pid = -1;
if ( WIFSIGNALED(code) )
warnx("%s: Mount failed: %s: %s", bdev_path, fs->driver,
strsignal(WTERMSIG(code)));
else if ( !WIFEXITED(code) )
warnx("%s: Mount failed: %s: %s", bdev_path, fs->driver,
"Unexpected unusual termination");
else if ( WEXITSTATUS(code) == 127 )
warnx("%s: Mount failed: %s: %s", bdev_path, fs->driver,
"Filesystem driver is absent");
else if ( WEXITSTATUS(code) == 0 )
warnx("%s: Mount failed: %s: Unexpected successful exit",
bdev_path, fs->driver);
else
warnx("%s: Mount failed: %s: Exited with status %i", bdev_path,
fs->driver, WEXITSTATUS(code));
return false;
}
struct timespec delay = timespec_make(0, 50L * 1000L * 1000L);
nanosleep(&delay, NULL);
}
return true;
}
void mountpoint_unmount(struct mountpoint* mountpoint)
{
if ( mountpoint->pid < 0 )
return;
if ( unmount(mountpoint->absolute, 0) < 0 && errno != ENOMOUNT )
warn("unmount: %s", mountpoint->entry.fs_file);
else if ( errno == ENOMOUNT )
kill(mountpoint->pid, SIGQUIT);
int code;
if ( waitpid(mountpoint->pid, &code, 0) < 0 )
warn("waitpid");
mountpoint->pid = -1;
}