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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include <fcntl.h>
#include <linux/loop.h>
#include <pthread.h>
#include <sys/file.h>
#include <sys/ioctl.h>
#include <sys/mount.h>
#include "alloc-util.h"
#include "capability-util.h"
#include "dissect-image.h"
#include "fd-util.h"
#include "fileio.h"
#include "fs-util.h"
#include "gpt.h"
#include "main-func.h"
#include "missing_loop.h"
#include "mkfs-util.h"
#include "mount-util.h"
#include "namespace-util.h"
#include "parse-util.h"
#include "path-util.h"
#include "string-util.h"
#include "strv.h"
#include "tests.h"
#include "tmpfile-util.h"
#include "user-util.h"
#include "virt.h"
static unsigned arg_n_threads = 5;
static unsigned arg_n_iterations = 3;
static usec_t arg_timeout = 0;
#if HAVE_BLKID
static usec_t end = 0;
static void verify_dissected_image(DissectedImage *dissected) {
assert_se(dissected->partitions[PARTITION_ESP].found);
assert_se(dissected->partitions[PARTITION_ESP].node);
assert_se(dissected->partitions[PARTITION_XBOOTLDR].found);
assert_se(dissected->partitions[PARTITION_XBOOTLDR].node);
assert_se(dissected->partitions[PARTITION_ROOT].found);
assert_se(dissected->partitions[PARTITION_ROOT].node);
assert_se(dissected->partitions[PARTITION_HOME].found);
assert_se(dissected->partitions[PARTITION_HOME].node);
}
static void verify_dissected_image_harder(DissectedImage *dissected) {
verify_dissected_image(dissected);
assert_se(streq(dissected->partitions[PARTITION_ESP].fstype, "vfat"));
assert_se(streq(dissected->partitions[PARTITION_XBOOTLDR].fstype, "vfat"));
assert_se(streq(dissected->partitions[PARTITION_ROOT].fstype, "ext4"));
assert_se(streq(dissected->partitions[PARTITION_HOME].fstype, "ext4"));
}
static void* thread_func(void *ptr) {
int fd = PTR_TO_FD(ptr);
int r;
for (unsigned i = 0; i < arg_n_iterations; i++) {
_cleanup_(loop_device_unrefp) LoopDevice *loop = NULL;
_cleanup_(umount_and_rmdir_and_freep) char *mounted = NULL;
_cleanup_(dissected_image_unrefp) DissectedImage *dissected = NULL;
if (now(CLOCK_MONOTONIC) >= end) {
log_notice("Time's up, exiting thread's loop");
break;
}
log_notice("> Thread iteration #%u.", i);
assert_se(mkdtemp_malloc(NULL, &mounted) >= 0);
r = loop_device_make(fd, O_RDONLY, 0, UINT64_MAX, 0, LO_FLAGS_PARTSCAN, LOCK_SH, &loop);
if (r < 0)
log_error_errno(r, "Failed to allocate loopback device: %m");
assert_se(r >= 0);
assert_se(loop->dev);
assert_se(loop->backing_file);
log_notice("Acquired loop device %s, will mount on %s", loop->node, mounted);
r = dissect_loop_device(loop, NULL, NULL, DISSECT_IMAGE_READ_ONLY|DISSECT_IMAGE_ADD_PARTITION_DEVICES|DISSECT_IMAGE_PIN_PARTITION_DEVICES, &dissected);
if (r < 0)
log_error_errno(r, "Failed dissect loopback device %s: %m", loop->node);
assert_se(r >= 0);
log_info("Dissected loop device %s", loop->node);
for (PartitionDesignator d = 0; d < _PARTITION_DESIGNATOR_MAX; d++) {
if (!dissected->partitions[d].found)
continue;
log_notice("Found node %s fstype %s designator %s",
dissected->partitions[d].node,
dissected->partitions[d].fstype,
partition_designator_to_string(d));
}
verify_dissected_image(dissected);
r = dissected_image_mount(dissected, mounted, UID_INVALID, UID_INVALID, DISSECT_IMAGE_READ_ONLY);
log_notice_errno(r, "Mounted %s → %s: %m", loop->node, mounted);
assert_se(r >= 0);
/* Now the block device is mounted, we don't need no manual lock anymore, the devices are now
* pinned by the mounts. */
assert_se(loop_device_flock(loop, LOCK_UN) >= 0);
log_notice("Unmounting %s", mounted);
mounted = umount_and_rmdir_and_free(mounted);
log_notice("Unmounted.");
dissected = dissected_image_unref(dissected);
log_notice("Detaching loop device %s", loop->node);
loop = loop_device_unref(loop);
log_notice("Detached loop device.");
}
log_notice("Leaving thread");
return NULL;
}
#endif
static bool have_root_gpt_type(void) {
#ifdef SD_GPT_ROOT_NATIVE
return true;
#else
return false;
#endif
}
static int run(int argc, char *argv[]) {
#if HAVE_BLKID
_cleanup_(dissected_image_unrefp) DissectedImage *dissected = NULL;
_cleanup_(umount_and_rmdir_and_freep) char *mounted = NULL;
pthread_t threads[arg_n_threads];
sd_id128_t id;
#endif
_cleanup_free_ char *p = NULL, *cmd = NULL;
_cleanup_(pclosep) FILE *sfdisk = NULL;
_cleanup_(loop_device_unrefp) LoopDevice *loop = NULL;
_cleanup_close_ int fd = -1;
int r;
test_setup_logging(LOG_DEBUG);
log_show_tid(true);
log_show_time(true);
log_show_color(true);
if (argc >= 2) {
r = safe_atou(argv[1], &arg_n_threads);
if (r < 0)
return log_error_errno(r, "Failed to parse first argument (number of threads): %s", argv[1]);
if (arg_n_threads <= 0)
return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Number of threads must be at least 1, refusing.");
}
if (argc >= 3) {
r = safe_atou(argv[2], &arg_n_iterations);
if (r < 0)
return log_error_errno(r, "Failed to parse second argument (number of iterations): %s", argv[2]);
if (arg_n_iterations <= 0)
return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Number of iterations must be at least 1, refusing.");
}
if (argc >= 4) {
r = parse_sec(argv[3], &arg_timeout);
if (r < 0)
return log_error_errno(r, "Failed to parse third argument (timeout): %s", argv[3]);
}
if (argc >= 5)
return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Too many arguments (expected 3 at max).");
if (!have_root_gpt_type())
return log_tests_skipped("No root partition GPT defined for this architecture");
r = find_executable("sfdisk", NULL);
if (r < 0)
return log_tests_skipped_errno(r, "Could not find sfdisk command");
assert_se(tempfn_random_child("/var/tmp", "sfdisk", &p) >= 0);
fd = open(p, O_CREAT|O_EXCL|O_RDWR|O_CLOEXEC|O_NOFOLLOW, 0666);
assert_se(fd >= 0);
assert_se(ftruncate(fd, 256*1024*1024) >= 0);
assert_se(cmd = strjoin("sfdisk ", p));
assert_se(sfdisk = popen(cmd, "we"));
/* A reasonably complex partition table that fits on a 64K disk */
fputs("label: gpt\n"
"size=32M, type=C12A7328-F81F-11D2-BA4B-00A0C93EC93B\n"
"size=32M, type=BC13C2FF-59E6-4262-A352-B275FD6F7172\n"
"size=32M, type=0657FD6D-A4AB-43C4-84E5-0933C84B4F4F\n"
"size=32M, type=", sfdisk);
#ifdef SD_GPT_ROOT_NATIVE
fprintf(sfdisk, SD_ID128_UUID_FORMAT_STR, SD_ID128_FORMAT_VAL(SD_GPT_ROOT_NATIVE));
#else
fprintf(sfdisk, SD_ID128_UUID_FORMAT_STR, SD_ID128_FORMAT_VAL(SD_GPT_ROOT_X86_64));
#endif
fputs("\n"
"size=32M, type=933AC7E1-2EB4-4F13-B844-0E14E2AEF915\n", sfdisk);
assert_se(pclose(sfdisk) == 0);
sfdisk = NULL;
#if HAVE_BLKID
assert_se(dissect_image_file(p, NULL, NULL, 0, &dissected) >= 0);
verify_dissected_image(dissected);
dissected = dissected_image_unref(dissected);
#endif
if (geteuid() != 0 || have_effective_cap(CAP_SYS_ADMIN) <= 0) {
log_tests_skipped("not running privileged");
return 0;
}
if (detect_container() > 0) {
log_tests_skipped("Test not supported in a container, requires udev/uevent notifications");
return 0;
}
assert_se(loop_device_make(fd, O_RDWR, 0, UINT64_MAX, 0, LO_FLAGS_PARTSCAN, LOCK_EX, &loop) >= 0);
#if HAVE_BLKID
assert_se(dissect_loop_device(loop, NULL, NULL, DISSECT_IMAGE_ADD_PARTITION_DEVICES|DISSECT_IMAGE_PIN_PARTITION_DEVICES, &dissected) >= 0);
verify_dissected_image(dissected);
FOREACH_STRING(fs, "vfat", "ext4") {
r = mkfs_exists(fs);
assert_se(r >= 0);
if (!r) {
log_tests_skipped("mkfs.{vfat|ext4} not installed");
return 0;
}
}
assert_se(r >= 0);
assert_se(sd_id128_randomize(&id) >= 0);
assert_se(make_filesystem(dissected->partitions[PARTITION_ESP].node, "vfat", "EFI", NULL, id, true) >= 0);
assert_se(sd_id128_randomize(&id) >= 0);
assert_se(make_filesystem(dissected->partitions[PARTITION_XBOOTLDR].node, "vfat", "xbootldr", NULL, id, true) >= 0);
assert_se(sd_id128_randomize(&id) >= 0);
assert_se(make_filesystem(dissected->partitions[PARTITION_ROOT].node, "ext4", "root", NULL, id, true) >= 0);
assert_se(sd_id128_randomize(&id) >= 0);
assert_se(make_filesystem(dissected->partitions[PARTITION_HOME].node, "ext4", "home", NULL, id, true) >= 0);
dissected = dissected_image_unref(dissected);
/* We created the file systems now via the per-partition block devices. But the dissection code might
* probe them via the whole block device. These block devices have separate buffer caches though,
* hence what was written via the partition device might not appear on the whole block device
* yet. Let's hence explicitly flush the whole block device, so that the read-back definitely
* works. */
assert_se(ioctl(loop->fd, BLKFLSBUF, 0) >= 0);
/* Try to read once, without pinning or adding partitions, i.e. by only accessing the whole block
* device. */
assert_se(dissect_loop_device(loop, NULL, NULL, 0, &dissected) >= 0);
verify_dissected_image_harder(dissected);
dissected = dissected_image_unref(dissected);
/* Now go via the loopback device after all, but this time add/pin, because now we want to mount it. */
assert_se(dissect_loop_device(loop, NULL, NULL, DISSECT_IMAGE_ADD_PARTITION_DEVICES|DISSECT_IMAGE_PIN_PARTITION_DEVICES, &dissected) >= 0);
verify_dissected_image_harder(dissected);
assert_se(mkdtemp_malloc(NULL, &mounted) >= 0);
/* We are particularly correct here, and now downgrade LOCK → LOCK_SH. That's because we are done
* with formatting the file systems, so we don't need the exclusive lock anymore. From now on a
* shared one is fine. This way udev can now probe the device if it wants, but still won't call
* BLKRRPART on it, and that's good, because that would destroy our partition table while we are at
* it. */
assert_se(loop_device_flock(loop, LOCK_SH) >= 0);
/* This is a test for the loopback block device setup code and it's use by the image dissection
* logic: since the kernel APIs are hard use and prone to races, let's test this in a heavy duty
* test: we open a bunch of threads and repeatedly allocate and deallocate loopback block devices in
* them in parallel, with an image file with a number of partitions. */
assert_se(detach_mount_namespace() >= 0);
/* This first (writable) mount will initialize the mount point dirs, so that the subsequent read-only ones can work */
assert_se(dissected_image_mount(dissected, mounted, UID_INVALID, UID_INVALID, 0) >= 0);
/* Now we mounted everything, the partitions are pinned. Now it's fine to release the lock
* fully. This means udev could now issue BLKRRPART again, but that's OK given this will fail because
* we now mounted the device. */
assert_se(loop_device_flock(loop, LOCK_UN) >= 0);
assert_se(umount_recursive(mounted, 0) >= 0);
loop = loop_device_unref(loop);
log_notice("Threads are being started now");
/* zero timeout means pick default: let's make sure we run for 10s on slow systems at max */
if (arg_timeout == 0)
arg_timeout = slow_tests_enabled() ? 5 * USEC_PER_SEC : 1 * USEC_PER_SEC;
end = usec_add(now(CLOCK_MONOTONIC), arg_timeout);
if (arg_n_threads > 1)
for (unsigned i = 0; i < arg_n_threads; i++)
assert_se(pthread_create(threads + i, NULL, thread_func, FD_TO_PTR(fd)) == 0);
log_notice("All threads started now.");
if (arg_n_threads == 1)
assert_se(thread_func(FD_TO_PTR(fd)) == NULL);
else
for (unsigned i = 0; i < arg_n_threads; i++) {
log_notice("Joining thread #%u.", i);
void *k;
assert_se(pthread_join(threads[i], &k) == 0);
assert_se(!k);
log_notice("Joined thread #%u.", i);
}
log_notice("Threads are all terminated now.");
#else
log_notice("Cutting test short, since we do not have libblkid.");
#endif
return 0;
}
DEFINE_MAIN_FUNCTION_WITH_POSITIVE_FAILURE(run);
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