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android / kernel / common / 9fa316f681072cab542aa06cdeec43f55a5c8ada / . / tools / testing / selftests / filesystems / fuse / fuse_test.c
blob: 9c5f3c987c90f4552953cdd333b765904277cac0 [file] [log] [blame]
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright 2021 Google LLC
*/
#define _GNU_SOURCE
#include "test_fuse.h"
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/file.h>
#include <sys/inotify.h>
#include <sys/mman.h>
#include <sys/mount.h>
#include <sys/syscall.h>
#include <sys/wait.h>
#include <linux/capability.h>
#include <linux/random.h>
#include <include/uapi/linux/fuse.h>
#include <include/uapi/linux/bpf.h>
static const char *ft_src = "ft-src";
static const char *ft_dst = "ft-dst";
static void fill_buffer(uint8_t *data, size_t len, int file, int block)
{
int i;
int seed = 7919 * file + block;
for (i = 0; i < len; i++) {
seed = 1103515245 * seed + 12345;
data[i] = (uint8_t)(seed >> (i % 13));
}
}
static bool test_buffer(uint8_t *data, size_t len, int file, int block)
{
int i;
int seed = 7919 * file + block;
for (i = 0; i < len; i++) {
seed = 1103515245 * seed + 12345;
if (data[i] != (uint8_t)(seed >> (i % 13)))
return false;
}
return true;
}
static int create_file(int dir, struct s name, int index, size_t blocks)
{
int result = TEST_FAILURE;
int fd = -1;
int i;
uint8_t data[PAGE_SIZE];
TEST(fd = s_openat(dir, name, O_CREAT | O_WRONLY, 0777), fd != -1);
for (i = 0; i < blocks; ++i) {
fill_buffer(data, PAGE_SIZE, index, i);
TESTEQUAL(write(fd, data, sizeof(data)), PAGE_SIZE);
}
TESTSYSCALL(close(fd));
result = TEST_SUCCESS;
out:
close(fd);
return result;
}
static int bpf_clear_trace(void)
{
int result = TEST_FAILURE;
int tp = -1;
TEST(tp = s_open(s_path(tracing_folder(), s("trace")),
O_WRONLY | O_TRUNC | O_CLOEXEC), tp != -1);
result = TEST_SUCCESS;
out:
close(tp);
return result;
}
static int bpf_test_trace_maybe(const char *substr, bool present)
{
int result = TEST_FAILURE;
int tp = -1;
char trace_buffer[4096] = {};
ssize_t bytes_read;
TEST(tp = s_open(s_path(tracing_folder(), s("trace_pipe")),
O_RDONLY | O_CLOEXEC),
tp != -1);
fcntl(tp, F_SETFL, O_NONBLOCK);
for (;;) {
bytes_read = read(tp, trace_buffer, sizeof(trace_buffer));
if (present)
TESTCOND(bytes_read > 0);
else if (bytes_read <= 0) {
result = TEST_SUCCESS;
break;
}
if (test_options.verbose)
ksft_print_msg("%s\n", trace_buffer);
if (strstr(trace_buffer, substr)) {
if (present)
result = TEST_SUCCESS;
break;
}
}
out:
close(tp);
return result;
}
static int bpf_test_trace(const char *substr)
{
return bpf_test_trace_maybe(substr, true);
}
static int bpf_test_no_trace(const char *substr)
{
return bpf_test_trace_maybe(substr, false);
}
static int basic_test(const char *mount_dir)
{
const char *test_name = "test";
const char *test_data = "data";
int result = TEST_FAILURE;
int fuse_dev = -1;
char *filename = NULL;
int fd = -1;
int pid = -1;
int status;
TESTEQUAL(mount_fuse(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
char data[256];
filename = concat_file_name(mount_dir, test_name);
TESTERR(fd = open(filename, O_RDONLY | O_CLOEXEC), fd != -1);
TESTEQUAL(read(fd, data, strlen(test_data)), strlen(test_data));
TESTCOND(!strcmp(data, test_data));
TESTSYSCALL(close(fd));
fd = -1;
FUSE_DAEMON
DECL_FUSE_IN(open);
DECL_FUSE_IN(read);
DECL_FUSE_IN(flush);
DECL_FUSE_IN(release);
TESTFUSELOOKUP(test_name, 0);
TESTFUSEOUT1(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = 2,
.generation = 1,
.attr.ino = 100,
.attr.size = 4,
.attr.blksize = 512,
.attr.mode = S_IFREG | 0777,
}));
TESTFUSEIN(FUSE_OPEN, open_in);
TESTFUSEOUT1(fuse_open_out, ((struct fuse_open_out) {
.fh = 1,
.open_flags = open_in->flags,
}));
TESTFUSEINNULL(FUSE_CANONICAL_PATH);
TESTFUSEOUTREAD("ignored", 7);
TESTFUSEIN(FUSE_READ, read_in);
TESTFUSEOUTREAD(test_data, strlen(test_data));
TESTFUSEIN(FUSE_FLUSH, flush_in);
TESTFUSEOUTEMPTY();
TESTFUSEIN(FUSE_RELEASE, release_in);
TESTFUSEOUTEMPTY();
FUSE_DONE
result = TEST_SUCCESS;
out:
if (!pid)
exit(TEST_FAILURE);
close(fuse_dev);
close(fd);
free(filename);
umount(mount_dir);
return result;
}
static int bpf_test_real(const char *mount_dir)
{
const char *test_name = "real";
const char *test_data = "Weebles wobble but they don't fall down";
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
char *filename = NULL;
int fd = -1;
char read_buffer[256] = {};
ssize_t bytes_read;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TEST(fd = openat(src_fd, test_name, O_CREAT | O_RDWR | O_CLOEXEC, 0777),
fd != -1);
TESTEQUAL(write(fd, test_data, strlen(test_data)), strlen(test_data));
TESTSYSCALL(close(fd));
fd = -1;
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
filename = concat_file_name(mount_dir, test_name);
TESTERR(fd = open(filename, O_RDONLY | O_CLOEXEC), fd != -1);
bytes_read = read(fd, read_buffer, strlen(test_data));
TESTEQUAL(bytes_read, strlen(test_data));
TESTEQUAL(strcmp(test_data, read_buffer), 0);
TESTEQUAL(bpf_test_trace("read"), 0);
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(fd);
free(filename);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static int bpf_test_partial(const char *mount_dir)
{
const char *test_name = "partial";
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
char *filename = NULL;
int fd = -1;
int pid = -1;
int status;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(create_file(src_fd, s(test_name), 1, 2), 0);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
uint8_t data[PAGE_SIZE];
TEST(filename = concat_file_name(mount_dir, test_name),
filename);
TESTERR(fd = open(filename, O_RDONLY | O_CLOEXEC), fd != -1);
TESTEQUAL(read(fd, data, PAGE_SIZE), PAGE_SIZE);
TESTEQUAL(bpf_test_trace("read"), 0);
TESTCOND(test_buffer(data, PAGE_SIZE, 2, 0));
TESTCOND(!test_buffer(data, PAGE_SIZE, 1, 0));
TESTEQUAL(read(fd, data, PAGE_SIZE), PAGE_SIZE);
TESTCOND(test_buffer(data, PAGE_SIZE, 1, 1));
TESTCOND(!test_buffer(data, PAGE_SIZE, 2, 1));
TESTSYSCALL(close(fd));
fd = -1;
FUSE_DAEMON
DECL_FUSE(open);
DECL_FUSE(read);
DECL_FUSE(release);
uint8_t data[PAGE_SIZE];
TESTFUSEIN2(FUSE_OPEN | FUSE_POSTFILTER, open_in, open_out);
TESTFUSEOUT1(fuse_open_out, ((struct fuse_open_out) {
.fh = 1,
.open_flags = open_in->flags,
}));
TESTFUSEIN(FUSE_READ, read_in);
fill_buffer(data, PAGE_SIZE, 2, 0);
TESTFUSEOUTREAD(data, PAGE_SIZE);
TESTFUSEIN(FUSE_RELEASE, release_in);
TESTFUSEOUTEMPTY();
FUSE_DONE
result = TEST_SUCCESS;
out:
if (!pid)
exit(TEST_FAILURE);
close(fuse_dev);
close(fd);
free(filename);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static int bpf_test_attrs(const char *mount_dir)
{
const char *test_name = "partial";
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
char *filename = NULL;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(create_file(src_fd, s(test_name), 1, 2), 0);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(filename = concat_file_name(mount_dir, test_name), filename);
TESTSYSCALL(stat(filename, &st));
TESTSYSCALL(chmod(filename, 0111));
TESTSYSCALL(stat(filename, &st));
TESTEQUAL(st.st_mode & 0777, 0111);
TESTSYSCALL(chmod(filename, 0777));
TESTSYSCALL(stat(filename, &st));
TESTEQUAL(st.st_mode & 0777, 0777);
TESTSYSCALL(chown(filename, 5, 6));
TESTSYSCALL(stat(filename, &st));
TESTEQUAL(st.st_uid, 5);
TESTEQUAL(st.st_gid, 6);
result = TEST_SUCCESS;
out:
close(fuse_dev);
free(filename);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static int bpf_test_readdir(const char *mount_dir)
{
const char *names[] = {"real", "partial", "fake", ".", ".."};
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
int pid = -1;
int status;
DIR *dir = NULL;
struct dirent *dirent;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(create_file(src_fd, s(names[0]), 1, 2), 0);
TESTEQUAL(create_file(src_fd, s(names[1]), 1, 2), 0);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
int i, j;
TEST(dir = s_opendir(s(mount_dir)), dir);
TESTEQUAL(bpf_test_trace("opendir"), 0);
for (i = 0; i < ARRAY_SIZE(names); ++i) {
TEST(dirent = readdir(dir), dirent);
for (j = 0; j < ARRAY_SIZE(names); ++j)
if (names[j] &&
strcmp(names[j], dirent->d_name) == 0) {
names[j] = NULL;
break;
}
TESTNE(j, ARRAY_SIZE(names));
}
TEST(dirent = readdir(dir), dirent == NULL);
TESTSYSCALL(closedir(dir));
dir = NULL;
TESTEQUAL(bpf_test_trace("readdir"), 0);
FUSE_DAEMON
struct fuse_in_header *in_header =
(struct fuse_in_header *)bytes_in;
ssize_t res = read(fuse_dev, bytes_in, sizeof(bytes_in));
struct fuse_read_out *read_out =
(struct fuse_read_out *) (bytes_in +
sizeof(*in_header) +
sizeof(struct fuse_read_in));
struct fuse_dirent *fuse_dirent =
(struct fuse_dirent *) (bytes_in + res);
TESTGE(res, sizeof(*in_header) + sizeof(struct fuse_read_in));
TESTEQUAL(in_header->opcode, FUSE_READDIR | FUSE_POSTFILTER);
*fuse_dirent = (struct fuse_dirent) {
.ino = 100,
.off = 5,
.namelen = strlen("fake"),
.type = DT_REG,
};
strcpy((char *)(bytes_in + res + sizeof(*fuse_dirent)), "fake");
res += FUSE_DIRENT_ALIGN(sizeof(*fuse_dirent) + strlen("fake") +
1);
TESTFUSEDIROUTREAD(read_out,
bytes_in +
sizeof(struct fuse_in_header) +
sizeof(struct fuse_read_in) +
sizeof(struct fuse_read_out),
res - sizeof(struct fuse_in_header) -
sizeof(struct fuse_read_in) -
sizeof(struct fuse_read_out));
res = read(fuse_dev, bytes_in, sizeof(bytes_in));
TESTEQUAL(res, sizeof(*in_header) +
sizeof(struct fuse_read_in) +
sizeof(struct fuse_read_out));
TESTEQUAL(in_header->opcode, FUSE_READDIR | FUSE_POSTFILTER);
TESTFUSEDIROUTREAD(read_out, bytes_in, 0);
FUSE_DONE
result = TEST_SUCCESS;
out:
closedir(dir);
close(fuse_dev);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static int bpf_test_redact_readdir(const char *mount_dir)
{
const char *names[] = {"f1", "f2", "f3", "f4", "f5", "f6", ".", ".."};
int num_shown = (ARRAY_SIZE(names) - 2) / 2 + 2;
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
int pid = -1;
int status;
DIR *dir = NULL;
struct dirent *dirent;
int i;
int count = 0;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
for (i = 0; i < ARRAY_SIZE(names) - 2; i++)
TESTEQUAL(create_file(src_fd, s(names[i]), 1, 2), 0);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_readdir_redact",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
int j;
TEST(dir = s_opendir(s(mount_dir)), dir);
while ((dirent = readdir(dir))) {
errno = 0;
TESTEQUAL(errno, 0);
for (j = 0; j < ARRAY_SIZE(names); ++j)
if (names[j] &&
strcmp(names[j], dirent->d_name) == 0) {
names[j] = NULL;
count++;
break;
}
TESTNE(j, ARRAY_SIZE(names));
TESTGE(num_shown, count);
}
TESTEQUAL(count, num_shown);
TESTSYSCALL(closedir(dir));
dir = NULL;
FUSE_DAEMON
bool skip = true;
for (int i = 0; i < ARRAY_SIZE(names) + 1; i++) {
uint8_t bytes_in[FUSE_MIN_READ_BUFFER];
uint8_t bytes_out[FUSE_MIN_READ_BUFFER];
struct fuse_in_header *in_header =
(struct fuse_in_header *)bytes_in;
ssize_t res = read(fuse_dev, bytes_in, sizeof(bytes_in));
int length_out = 0;
uint8_t *pos;
uint8_t *dirs_in;
uint8_t *dirs_out;
struct fuse_read_in *fuse_read_in;
struct fuse_read_out *fuse_read_out_in;
struct fuse_read_out *fuse_read_out_out;
struct fuse_dirent *fuse_dirent_in = NULL;
struct fuse_dirent *next = NULL;
bool again = false;
int dir_ent_len = 0;
TESTGE(res, sizeof(struct fuse_in_header) +
sizeof(struct fuse_read_in) +
sizeof(struct fuse_read_out));
pos = bytes_in + sizeof(struct fuse_in_header);
fuse_read_in = (struct fuse_read_in *) pos;
pos += sizeof(*fuse_read_in);
fuse_read_out_in = (struct fuse_read_out *) pos;
pos += sizeof(*fuse_read_out_in);
dirs_in = pos;
pos = bytes_out + sizeof(struct fuse_out_header);
fuse_read_out_out = (struct fuse_read_out *) pos;
pos += sizeof(*fuse_read_out_out);
dirs_out = pos;
if (dirs_in < bytes_in + res) {
bool is_dot;
fuse_dirent_in = (struct fuse_dirent *) dirs_in;
is_dot = (fuse_dirent_in->namelen == 1 &&
!strncmp(fuse_dirent_in->name, ".", 1)) ||
(fuse_dirent_in->namelen == 2 &&
!strncmp(fuse_dirent_in->name, "..", 2));
dir_ent_len = FUSE_DIRENT_ALIGN(
sizeof(*fuse_dirent_in) +
fuse_dirent_in->namelen);
if (dirs_in + dir_ent_len < bytes_in + res)
next = (struct fuse_dirent *)
(dirs_in + dir_ent_len);
if (!skip || is_dot) {
memcpy(dirs_out, fuse_dirent_in,
sizeof(struct fuse_dirent) +
fuse_dirent_in->namelen);
length_out += dir_ent_len;
}
again = ((skip && !is_dot) && next);
if (!is_dot)
skip = !skip;
}
fuse_read_out_out->offset = next ? next->off :
fuse_read_out_in->offset;
fuse_read_out_out->again = again;
{
struct fuse_out_header *out_header =
(struct fuse_out_header *)bytes_out;
*out_header = (struct fuse_out_header) {
.len = sizeof(*out_header) +
sizeof(*fuse_read_out_out) + length_out,
.unique = in_header->unique,
};
TESTEQUAL(write(fuse_dev, bytes_out, out_header->len),
out_header->len);
}
}
FUSE_DONE
result = TEST_SUCCESS;
out:
closedir(dir);
close(fuse_dev);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
/*
* This test is more to show what classic fuse does with a creat in a subdir
* than a test of any new functionality
*/
static int bpf_test_creat(const char *mount_dir)
{
const char *dir_name = "show";
const char *file_name = "file";
int result = TEST_FAILURE;
int fuse_dev = -1;
int pid = -1;
int status;
int fd = -1;
TESTEQUAL(mount_fuse(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
TEST(fd = s_creat(s_path(s_path(s(mount_dir), s(dir_name)),
s(file_name)),
0777),
fd != -1);
TESTSYSCALL(close(fd));
FUSE_DAEMON
DECL_FUSE_IN(create);
DECL_FUSE_IN(release);
DECL_FUSE_IN(flush);
TESTFUSELOOKUP(dir_name, 0);
TESTFUSEOUT1(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = 3,
.generation = 1,
.attr.ino = 100,
.attr.size = 4,
.attr.blksize = 512,
.attr.mode = S_IFDIR | 0777,
}));
TESTFUSELOOKUP(file_name, 0);
TESTFUSEOUTERROR(-ENOENT);
TESTFUSEINEXT(FUSE_CREATE, create_in, strlen(file_name) + 1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = 2,
.generation = 1,
.attr.ino = 200,
.attr.size = 4,
.attr.blksize = 512,
.attr.mode = S_IFREG,
}),
fuse_open_out, ((struct fuse_open_out) {
.fh = 1,
.open_flags = create_in->flags,
}));
TESTFUSEINNULL(FUSE_CANONICAL_PATH);
TESTFUSEOUTREAD("ignored", 7);
TESTFUSEIN(FUSE_FLUSH, flush_in);
TESTFUSEOUTEMPTY();
TESTFUSEIN(FUSE_RELEASE, release_in);
TESTFUSEOUTEMPTY();
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
return result;
}
static int bpf_test_hidden_entries(const char *mount_dir)
{
static const char * const dir_names[] = {
"show",
"hide",
};
const char *file_name = "file";
const char *data = "The quick brown fox jumps over the lazy dog\n";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int fd = -1;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTSYSCALL(mkdirat(src_fd, dir_names[0], 0777));
TESTSYSCALL(mkdirat(src_fd, dir_names[1], 0777));
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_hidden",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(fd = s_creat(s_path(s_path(s(mount_dir), s(dir_names[0])),
s(file_name)),
0777),
fd != -1);
TESTSYSCALL(fallocate(fd, 0, 0, 4096));
TEST(write(fd, data, strlen(data)), strlen(data));
TESTSYSCALL(close(fd));
TESTEQUAL(bpf_test_trace("Create"), 0);
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_dir(const char *mount_dir)
{
const char *dir_name = "dir";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s(dir_name)), 0777));
TESTEQUAL(bpf_test_trace("mkdir"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(dir_name)), &st));
TESTSYSCALL(s_rmdir(s_path(s(mount_dir), s(dir_name))));
TESTEQUAL(s_stat(s_path(s(ft_src), s(dir_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_file(const char *mount_dir, bool close_first)
{
const char *file_name = "real";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int fd = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(fd = s_creat(s_path(s(mount_dir), s(file_name)),
0777),
fd != -1);
TESTEQUAL(bpf_test_trace("Create"), 0);
if (close_first) {
TESTSYSCALL(close(fd));
fd = -1;
}
TESTSYSCALL(s_stat(s_path(s(ft_src), s(file_name)), &st));
TESTSYSCALL(s_unlink(s_path(s(mount_dir), s(file_name))));
TESTEQUAL(bpf_test_trace("unlink"), 0);
TESTEQUAL(s_stat(s_path(s(ft_src), s(file_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
if (!close_first) {
TESTSYSCALL(close(fd));
fd = -1;
}
result = TEST_SUCCESS;
out:
close(fd);
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_file_early_close(const char *mount_dir)
{
return bpf_test_file(mount_dir, true);
}
static int bpf_test_file_late_close(const char *mount_dir)
{
return bpf_test_file(mount_dir, false);
}
static int bpf_test_alter_errcode_bpf(const char *mount_dir)
{
const char *dir_name = "dir";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_error",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s(dir_name)), 0777));
//TESTEQUAL(bpf_test_trace("mkdir"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(dir_name)), &st));
TESTEQUAL(s_mkdir(s_path(s(mount_dir), s(dir_name)), 0777), -EPERM);
TESTSYSCALL(s_rmdir(s_path(s(mount_dir), s(dir_name))));
TESTEQUAL(s_stat(s_path(s(ft_src), s(dir_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_alter_errcode_userspace(const char *mount_dir)
{
const char *dir_name = "doesnotexist";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int pid = -1;
int status;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_error",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
TESTEQUAL(s_unlink(s_path(s(mount_dir), s(dir_name))),
-1);
TESTEQUAL(errno, ENOMEM);
FUSE_DAEMON
TESTFUSELOOKUP("doesnotexist", FUSE_POSTFILTER);
TESTFUSEOUTERROR(-ENOMEM);
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_mknod(const char *mount_dir)
{
const char *file_name = "real";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkfifo(s_path(s(mount_dir), s(file_name)), 0777));
TESTEQUAL(bpf_test_trace("mknod"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(file_name)), &st));
TESTSYSCALL(s_unlink(s_path(s(mount_dir), s(file_name))));
TESTEQUAL(bpf_test_trace("unlink"), 0);
TESTEQUAL(s_stat(s_path(s(ft_src), s(file_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_largedir(const char *mount_dir)
{
const char *show = "show";
const int files = 1000;
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct map_relocation *map_relocations = NULL;
size_t map_count = 0;
int pid = -1;
int status;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("fd_bpf.bpf", "test_daemon",
&bpf_fd, &map_relocations, &map_count), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
int i;
int fd;
DIR *dir = NULL;
struct dirent *dirent;
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s(show)), 0777));
for (i = 0; i < files; ++i) {
char filename[NAME_MAX];
sprintf(filename, "%d", i);
TEST(fd = s_creat(s_path(s_path(s(mount_dir), s(show)),
s(filename)), 0777), fd != -1);
TESTSYSCALL(close(fd));
}
TEST(dir = s_opendir(s_path(s(mount_dir), s(show))), dir);
for (dirent = readdir(dir); dirent; dirent = readdir(dir))
;
closedir(dir);
FUSE_DAEMON
int i;
for (i = 0; i < files + 2; ++i) {
TESTFUSELOOKUP(show, FUSE_PREFILTER);
TESTFUSEOUTREAD(show, 5);
}
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_link(const char *mount_dir)
{
const char *file_name = "real";
const char *link_name = "partial";
int result = TEST_FAILURE;
int fd = -1;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace", &bpf_fd, NULL,
NULL),
0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(fd = s_creat(s_path(s(mount_dir), s(file_name)), 0777), fd != -1);
TESTEQUAL(bpf_test_trace("Create"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(file_name)), &st));
TESTSYSCALL(s_link(s_path(s(mount_dir), s(file_name)),
s_path(s(mount_dir), s(link_name))));
TESTEQUAL(bpf_test_trace("link"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(link_name)), &st));
TESTSYSCALL(s_unlink(s_path(s(mount_dir), s(link_name))));
TESTEQUAL(bpf_test_trace("unlink"), 0);
TESTEQUAL(s_stat(s_path(s(ft_src), s(link_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
TESTSYSCALL(s_unlink(s_path(s(mount_dir), s(file_name))));
TESTEQUAL(bpf_test_trace("unlink"), 0);
TESTEQUAL(s_stat(s_path(s(ft_src), s(file_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
result = TEST_SUCCESS;
out:
close(fd);
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_symlink(const char *mount_dir)
{
const char *test_name = "real";
const char *symlink_name = "partial";
const char *test_data = "Weebles wobble but they don't fall down";
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
int fd = -1;
char read_buffer[256] = {};
ssize_t bytes_read;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TEST(fd = openat(src_fd, test_name, O_CREAT | O_RDWR | O_CLOEXEC, 0777),
fd != -1);
TESTEQUAL(write(fd, test_data, strlen(test_data)), strlen(test_data));
TESTSYSCALL(close(fd));
fd = -1;
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_symlink(s_path(s(mount_dir), s(test_name)),
s_path(s(mount_dir), s(symlink_name))));
TESTEQUAL(bpf_test_trace("symlink"), 0);
TESTERR(fd = s_open(s_path(s(mount_dir), s(symlink_name)), O_RDONLY | O_CLOEXEC), fd != -1);
bytes_read = read(fd, read_buffer, strlen(test_data));
TESTEQUAL(bpf_test_trace("readlink"), 0);
TESTEQUAL(bytes_read, strlen(test_data));
TESTEQUAL(strcmp(test_data, read_buffer), 0);
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(fd);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static int bpf_test_xattr(const char *mount_dir)
{
static const char file_name[] = "real";
static const char xattr_name[] = "user.xattr_test_name";
static const char xattr_value[] = "this_is_a_test";
const size_t xattr_size = sizeof(xattr_value);
char xattr_value_ret[256];
ssize_t xattr_size_ret;
int result = TEST_FAILURE;
int fd = -1;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
memset(xattr_value_ret, '\0', sizeof(xattr_value_ret));
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace", &bpf_fd, NULL,
NULL),
0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(fd = s_creat(s_path(s(mount_dir), s(file_name)), 0777), fd != -1);
TESTEQUAL(bpf_test_trace("Create"), 0);
TESTSYSCALL(close(fd));
TESTSYSCALL(s_stat(s_path(s(ft_src), s(file_name)), &st));
TEST(result = s_getxattr(s_path(s(mount_dir), s(file_name)), xattr_name,
xattr_value_ret, sizeof(xattr_value_ret),
&xattr_size_ret),
result == -1);
TESTEQUAL(errno, ENODATA);
TESTEQUAL(bpf_test_trace("getxattr"), 0);
TESTSYSCALL(s_listxattr(s_path(s(mount_dir), s(file_name)),
xattr_value_ret, sizeof(xattr_value_ret),
&xattr_size_ret));
TESTEQUAL(bpf_test_trace("listxattr"), 0);
TESTEQUAL(xattr_size_ret, 0);
TESTSYSCALL(s_setxattr(s_path(s(mount_dir), s(file_name)), xattr_name,
xattr_value, xattr_size, 0));
TESTEQUAL(bpf_test_trace("setxattr"), 0);
TESTSYSCALL(s_listxattr(s_path(s(mount_dir), s(file_name)),
xattr_value_ret, sizeof(xattr_value_ret),
&xattr_size_ret));
TESTEQUAL(bpf_test_trace("listxattr"), 0);
TESTEQUAL(xattr_size_ret, sizeof(xattr_name));
TESTEQUAL(strcmp(xattr_name, xattr_value_ret), 0);
TESTSYSCALL(s_getxattr(s_path(s(mount_dir), s(file_name)), xattr_name,
xattr_value_ret, sizeof(xattr_value_ret),
&xattr_size_ret));
TESTEQUAL(bpf_test_trace("getxattr"), 0);
TESTEQUAL(xattr_size, xattr_size_ret);
TESTEQUAL(strcmp(xattr_value, xattr_value_ret), 0);
TESTSYSCALL(s_removexattr(s_path(s(mount_dir), s(file_name)), xattr_name));
TESTEQUAL(bpf_test_trace("removexattr"), 0);
TESTEQUAL(s_getxattr(s_path(s(mount_dir), s(file_name)), xattr_name,
xattr_value_ret, sizeof(xattr_value_ret),
&xattr_size_ret), -1);
TESTEQUAL(errno, ENODATA);
TESTSYSCALL(s_unlink(s_path(s(mount_dir), s(file_name))));
TESTEQUAL(bpf_test_trace("unlink"), 0);
TESTEQUAL(s_stat(s_path(s(ft_src), s(file_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_set_backing(const char *mount_dir)
{
const char *backing_name = "backing";
const char *test_data = "data";
const char *test_name = "test";
int result = TEST_FAILURE;
int fuse_dev = -1;
int fd = -1;
int pid = -1;
int status;
TESTEQUAL(mount_fuse_no_init(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
char data[256] = {0};
TESTERR(fd = s_open(s_path(s(mount_dir), s(test_name)),
O_RDONLY | O_CLOEXEC), fd != -1);
TESTEQUAL(read(fd, data, strlen(test_data)), strlen(test_data));
TESTCOND(!strcmp(data, test_data));
TESTSYSCALL(close(fd));
fd = -1;
TESTSYSCALL(umount(mount_dir));
FUSE_DAEMON
int bpf_fd = -1;
int backing_fd = -1;
TESTERR(backing_fd = s_creat(s_path(s(ft_src), s(backing_name)), 0777),
backing_fd != -1);
TESTEQUAL(write(backing_fd, test_data, strlen(test_data)),
strlen(test_data));
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_simple",
&bpf_fd, NULL, NULL), 0);
TESTFUSEINIT();
TESTFUSELOOKUP(test_name, 0);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {0}),
fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
.bpf_action = FUSE_ACTION_REPLACE,
.bpf_fd = bpf_fd,
}));
read(fuse_dev, bytes_in, sizeof(bytes_in));
TESTSYSCALL(close(bpf_fd));
TESTSYSCALL(close(backing_fd));
FUSE_DONE
result = TEST_SUCCESS;
out:
if (!pid)
exit(TEST_FAILURE);
close(fuse_dev);
close(fd);
umount(mount_dir);
return result;
}
static int bpf_test_remove_backing(const char *mount_dir)
{
const char *folder1 = "folder1";
const char *folder2 = "folder2";
const char *file = "file1";
const char *contents1 = "contents1";
const char *contents2 = "contents2";
int result = TEST_FAILURE;
int fuse_dev = -1;
int fd = -1;
int src_fd = -1;
int bpf_fd = -1;
int pid = -1;
int status;
char data[256] = {0};
/*
* Create folder1/file
* folder2/file
*
* test will install bpf into mount
* bpf will postfilter root lookup to daemon
* daemon will remove bpf and redirect opens on folder1 to folder2
* test will open folder1/file which will be redirected to folder2
* test will check no traces for file, and contents are folder2/file
*/
TESTEQUAL(bpf_clear_trace(), 0);
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder1)), 0777));
TEST(fd = s_creat(s_pathn(3, s(ft_src), s(folder1), s(file)), 0777),
fd != -1);
TESTEQUAL(write(fd, contents1, strlen(contents1)), strlen(contents1));
TESTSYSCALL(close(fd));
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder2)), 0777));
TEST(fd = s_creat(s_pathn(3, s(ft_src), s(folder2), s(file)), 0777),
fd != -1);
TESTEQUAL(write(fd, contents2, strlen(contents2)), strlen(contents2));
TESTSYSCALL(close(fd));
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_passthrough", &bpf_fd,
NULL, NULL), 0);
TESTEQUAL(mount_fuse_no_init(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
TESTERR(fd = s_open(s_pathn(3, s(mount_dir), s(folder1),
s(file)),
O_RDONLY | O_CLOEXEC), fd != -1);
TESTEQUAL(read(fd, data, sizeof(data)), strlen(contents2));
TESTCOND(!strcmp(data, contents2));
TESTEQUAL(bpf_test_no_trace("file"), 0);
TESTSYSCALL(close(fd));
fd = -1;
TESTSYSCALL(umount(mount_dir));
FUSE_DAEMON
struct {
char name[8];
struct fuse_entry_out feo;
struct fuse_entry_bpf_out febo;
} __attribute__((packed)) in;
int backing_fd = -1;
TESTFUSEINIT();
TESTFUSEIN(FUSE_LOOKUP | FUSE_POSTFILTER, &in);
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder2)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {0}),
fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.bpf_action = FUSE_ACTION_REMOVE,
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
}));
while (read(fuse_dev, bytes_in, sizeof(bytes_in)) != -1)
;
TESTSYSCALL(close(backing_fd));
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(fd);
close(src_fd);
close(bpf_fd);
umount(mount_dir);
return result;
}
static int bpf_test_dir_rename(const char *mount_dir)
{
const char *dir_name = "dir";
const char *dir_name2 = "dir2";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
struct stat st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s(dir_name)), 0777));
TESTEQUAL(bpf_test_trace("mkdir"), 0);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(dir_name)), &st));
TESTSYSCALL(s_rename(s_path(s(mount_dir), s(dir_name)),
s_path(s(mount_dir), s(dir_name2))));
TESTEQUAL(s_stat(s_path(s(ft_src), s(dir_name)), &st), -1);
TESTEQUAL(errno, ENOENT);
TESTSYSCALL(s_stat(s_path(s(ft_src), s(dir_name2)), &st));
result = TEST_SUCCESS;
out:
close(fuse_dev);
umount(mount_dir);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_file_rename(const char *mount_dir)
{
const char *dir = "dir";
const char *file1 = "file1";
const char *file2 = "file2";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int fd = -1;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s(dir)), 0777));
TEST(fd = s_creat(s_pathn(3, s(mount_dir), s(dir), s(file1)), 0777),
fd != -1);
TESTSYSCALL(s_rename(s_pathn(3, s(mount_dir), s(dir), s(file1)),
s_pathn(3, s(mount_dir), s(dir), s(file2))));
result = TEST_SUCCESS;
out:
close(fd);
umount(mount_dir);
close(fuse_dev);
close(bpf_fd);
close(src_fd);
return result;
}
static int mmap_test(const char *mount_dir)
{
const char *file = "file";
int result = TEST_FAILURE;
int src_fd = -1;
int fuse_dev = -1;
int fd = -1;
char *addr = NULL;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(mount_fuse(mount_dir, -1, src_fd, &fuse_dev), 0);
TEST(fd = s_open(s_path(s(mount_dir), s(file)),
O_CREAT | O_RDWR | O_CLOEXEC, 0777),
fd != -1);
TESTSYSCALL(fallocate(fd, 0, 4096, SEEK_CUR));
TEST(addr = mmap(NULL, 4096, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0),
addr != (void *) -1);
memset(addr, 'a', 4096);
result = TEST_SUCCESS;
out:
munmap(addr, 4096);
close(fd);
umount(mount_dir);
close(fuse_dev);
close(src_fd);
return result;
}
static int flock_test(const char *mount_dir)
{
const char *file = "file";
int result = TEST_FAILURE;
int src_fd = -1;
int fuse_dev = -1;
int fd = -1, fd2 = -1;
int backing_fd = -1;
char *addr = NULL;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(mount_fuse(mount_dir, -1, src_fd, &fuse_dev), 0);
TEST(fd = s_open(s_path(s(mount_dir), s(file)),
O_CREAT | O_RDWR | O_CLOEXEC, 0777),
fd != -1);
TEST(fd2 = s_open(s_path(s(mount_dir), s(file)),
O_RDWR | O_CLOEXEC, 0777),
fd2 != -1);
TESTSYSCALL(flock(fd, LOCK_EX | LOCK_NB));
TESTCONDERR((flock(fd2, LOCK_EX | LOCK_NB)) == -1);
TESTCOND(errno == EAGAIN);
TESTSYSCALL(flock(fd, LOCK_UN));
TESTSYSCALL(flock(fd2, LOCK_EX | LOCK_NB));
TEST(backing_fd = s_open(s_path(s(ft_src), s(file)),
O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTCONDERR((flock(backing_fd, LOCK_EX | LOCK_NB)) == -1);
TESTCOND(errno == EAGAIN);
close(fd2);
fd2 = 0;
TESTSYSCALL(flock(backing_fd, LOCK_EX | LOCK_NB));
result = TEST_SUCCESS;
out:
close(fd);
close(fd2);
close(backing_fd);
umount(mount_dir);
close(fuse_dev);
close(src_fd);
return result;
}
static int readdir_perms_test(const char *mount_dir)
{
int result = TEST_FAILURE;
struct __user_cap_header_struct uchs = { _LINUX_CAPABILITY_VERSION_3 };
struct __user_cap_data_struct ucds[2];
int src_fd = -1;
int fuse_dev = -1;
DIR *dir = NULL;
/* Must remove capabilities for this test. */
TESTSYSCALL(syscall(SYS_capget, &uchs, ucds));
ucds[0].effective &= ~(1 << CAP_DAC_OVERRIDE | 1 << CAP_DAC_READ_SEARCH);
TESTSYSCALL(syscall(SYS_capset, &uchs, ucds));
/* This is what we are testing in fuseland. First test without fuse, */
TESTSYSCALL(mkdir("test", 0111));
TEST(dir = opendir("test"), dir == NULL);
closedir(dir);
dir = NULL;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(mount_fuse(mount_dir, -1, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_mkdir(s_path(s(mount_dir), s("test")), 0111));
TEST(dir = s_opendir(s_path(s(mount_dir), s("test"))), dir == NULL);
result = TEST_SUCCESS;
out:
ucds[0].effective |= 1 << CAP_DAC_OVERRIDE | 1 << CAP_DAC_READ_SEARCH;
syscall(SYS_capset, &uchs, ucds);
closedir(dir);
s_rmdir(s_path(s(mount_dir), s("test")));
umount(mount_dir);
close(fuse_dev);
close(src_fd);
rmdir("test");
return result;
}
static int inotify_test(const char *mount_dir)
{
int result = TEST_FAILURE;
int src_fd = -1;
int fuse_dev = -1;
struct s dir;
int inotify_fd = -1;
int watch;
int fd = -1;
char buffer[sizeof(struct inotify_event) + NAME_MAX + 1];
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(mount_fuse(mount_dir, -1, src_fd, &fuse_dev), 0);
TEST(inotify_fd = inotify_init1(IN_CLOEXEC), inotify_fd != -1);
dir = s_path(s(mount_dir), s("dir"));
TESTSYSCALL(mkdir(dir.s, 0777));
TEST(watch = inotify_add_watch(inotify_fd, dir.s, IN_CREATE), watch);
TEST(fd = s_creat(s_path(s(ft_src), s("dir/file")), 0777), fd != -1);
// buffer will be two struct lengths, as "file" gets rounded up to the
// next multiple of struct inotify_event
TESTEQUAL(read(inotify_fd, &buffer, sizeof(buffer)),
sizeof(struct inotify_event) * 2);
result = TEST_SUCCESS;
out:
close(fd);
s_unlink(s_path(s(ft_src), s("dir/file")));
close(inotify_fd);
rmdir(dir.s);
free(dir.s);
umount(mount_dir);
close(fuse_dev);
close(src_fd);
return result;
}
static int bpf_test_statfs(const char *mount_dir)
{
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int fd = -1;
struct statfs st;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TESTSYSCALL(s_statfs(s(mount_dir), &st));
TESTEQUAL(bpf_test_trace("statfs"), 0);
TESTEQUAL(st.f_type, 0x65735546);
result = TEST_SUCCESS;
out:
close(fd);
umount(mount_dir);
close(fuse_dev);
close(bpf_fd);
close(src_fd);
return result;
}
static int bpf_test_lseek(const char *mount_dir)
{
const char *file = "real";
const char *test_data = "data";
int result = TEST_FAILURE;
int src_fd = -1;
int bpf_fd = -1;
int fuse_dev = -1;
int fd = -1;
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TEST(fd = openat(src_fd, file, O_CREAT | O_RDWR | O_CLOEXEC, 0777),
fd != -1);
TESTEQUAL(write(fd, test_data, strlen(test_data)), strlen(test_data));
TESTSYSCALL(close(fd));
fd = -1;
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_trace",
&bpf_fd, NULL, NULL), 0);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
TEST(fd = s_open(s_path(s(mount_dir), s(file)), O_RDONLY | O_CLOEXEC),
fd != -1);
TESTEQUAL(lseek(fd, 3, SEEK_SET), 3);
TESTEQUAL(bpf_test_trace("lseek"), 0);
TESTEQUAL(lseek(fd, 5, SEEK_END), 9);
TESTEQUAL(bpf_test_trace("lseek"), 0);
TESTEQUAL(lseek(fd, 1, SEEK_CUR), 10);
TESTEQUAL(bpf_test_trace("lseek"), 0);
TESTEQUAL(lseek(fd, 1, SEEK_DATA), 1);
TESTEQUAL(bpf_test_trace("lseek"), 0);
result = TEST_SUCCESS;
out:
close(fd);
umount(mount_dir);
close(fuse_dev);
close(bpf_fd);
close(src_fd);
return result;
}
/*
* State:
* Original: dst/folder1/content.txt
* ^
* |
* |
* Backing: src/folder1/content.txt
*
* Step 1: open(folder1) - set backing to src/folder1
* Check 1: cat(content.txt) - check not receiving call on the fuse daemon
* and content is the same
* Step 2: readdirplus(dst)
* Check 2: cat(content.txt) - check not receiving call on the fuse daemon
* and content is the same
*/
static int bpf_test_readdirplus_not_overriding_backing(const char *mount_dir)
{
const char *folder1 = "folder1";
const char *content_file = "content.txt";
const char *content = "hello world";
int result = TEST_FAILURE;
int fuse_dev = -1;
int src_fd = -1;
int content_fd = -1;
int pid = -1;
int status;
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder1)), 0777));
TEST(content_fd = s_creat(s_pathn(3, s(ft_src), s(folder1), s(content_file)), 0777),
content_fd != -1);
TESTEQUAL(write(content_fd, content, strlen(content)), strlen(content));
TESTEQUAL(mount_fuse_no_init(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
DIR *open_mount_dir = NULL;
struct dirent *mount_dirent;
int dst_folder1_fd = -1;
int dst_content_fd = -1;
int dst_content_read_size = -1;
char content_buffer[12];
// Step 1: Lookup folder1
TESTERR(dst_folder1_fd = s_open(s_path(s(mount_dir), s(folder1)),
O_RDONLY | O_CLOEXEC), dst_folder1_fd != -1);
// Check 1: Read content file (backed)
TESTERR(dst_content_fd =
s_open(s_pathn(3, s(mount_dir), s(folder1), s(content_file)),
O_RDONLY | O_CLOEXEC), dst_content_fd != -1);
TEST(dst_content_read_size =
read(dst_content_fd, content_buffer, strlen(content)),
dst_content_read_size == strlen(content) &&
strcmp(content, content_buffer) == 0);
TESTSYSCALL(close(dst_content_fd));
dst_content_fd = -1;
TESTSYSCALL(close(dst_folder1_fd));
dst_folder1_fd = -1;
memset(content_buffer, 0, strlen(content));
// Step 2: readdir folder 1
TEST(open_mount_dir = s_opendir(s(mount_dir)),
open_mount_dir != NULL);
TEST(mount_dirent = readdir(open_mount_dir), mount_dirent != NULL);
TESTSYSCALL(closedir(open_mount_dir));
open_mount_dir = NULL;
// Check 2: Read content file again (must be backed)
TESTERR(dst_content_fd =
s_open(s_pathn(3, s(mount_dir), s(folder1), s(content_file)),
O_RDONLY | O_CLOEXEC), dst_content_fd != -1);
TEST(dst_content_read_size =
read(dst_content_fd, content_buffer, strlen(content)),
dst_content_read_size == strlen(content) &&
strcmp(content, content_buffer) == 0);
TESTSYSCALL(close(dst_content_fd));
dst_content_fd = -1;
FUSE_DAEMON
size_t read_size = 0;
struct fuse_in_header *in_header = (struct fuse_in_header *)bytes_in;
struct fuse_read_out *read_out = NULL;
struct fuse_attr attr = {};
int backing_fd = -1;
DECL_FUSE_IN(open);
DECL_FUSE_IN(getattr);
TESTFUSEINITFLAGS(FUSE_DO_READDIRPLUS | FUSE_READDIRPLUS_AUTO);
// Step 1: Lookup folder 1 with backing
TESTFUSELOOKUP(folder1, 0);
TESTSYSCALL(s_fuse_attr(s_path(s(ft_src), s(folder1)), &attr));
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder1)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = attr.ino,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
}));
TESTSYSCALL(close(backing_fd));
// Step 2: Open root dir
TESTFUSEIN(FUSE_OPENDIR, open_in);
TESTFUSEOUT1(fuse_open_out, ((struct fuse_open_out) {
.fh = 100,
.open_flags = open_in->flags
}));
// Step 2: Handle getattr
TESTFUSEIN(FUSE_GETATTR, getattr_in);
TESTSYSCALL(s_fuse_attr(s(ft_src), &attr));
TESTFUSEOUT1(fuse_attr_out, ((struct fuse_attr_out) {
.attr_valid = UINT64_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr
}));
// Step 2: Handle readdirplus
read_size = read(fuse_dev, bytes_in, sizeof(bytes_in));
TESTEQUAL(in_header->opcode, FUSE_READDIRPLUS);
struct fuse_direntplus *dirent_plus =
(struct fuse_direntplus *) (bytes_in + read_size);
struct fuse_dirent dirent;
struct fuse_entry_out entry_out;
read_out = (struct fuse_read_out *) (bytes_in +
sizeof(*in_header) +
sizeof(struct fuse_read_in));
TESTSYSCALL(s_fuse_attr(s_path(s(ft_src), s(folder1)), &attr));
dirent = (struct fuse_dirent) {
.ino = attr.ino,
.off = 1,
.namelen = strlen(folder1),
.type = DT_REG
};
entry_out = (struct fuse_entry_out) {
.nodeid = attr.ino,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr
};
*dirent_plus = (struct fuse_direntplus) {
.dirent = dirent,
.entry_out = entry_out
};
strcpy((char *)(bytes_in + read_size + sizeof(*dirent_plus)), folder1);
read_size += FUSE_DIRENT_ALIGN(sizeof(*dirent_plus) + strlen(folder1) +
1);
TESTFUSEDIROUTREAD(read_out,
bytes_in +
sizeof(struct fuse_in_header) +
sizeof(struct fuse_read_in) +
sizeof(struct fuse_read_out),
read_size - sizeof(struct fuse_in_header) -
sizeof(struct fuse_read_in) -
sizeof(struct fuse_read_out));
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(content_fd);
close(src_fd);
umount(mount_dir);
return result;
}
static int bpf_test_no_readdirplus_without_nodeid(const char *mount_dir)
{
const char *folder1 = "folder1";
const char *folder2 = "folder2";
int result = TEST_FAILURE;
int fuse_dev = -1;
int src_fd = -1;
int content_fd = -1;
int bpf_fd = -1;
int pid = -1;
int status;
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_readdirplus",
&bpf_fd, NULL, NULL), 0);
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder1)), 0777));
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder2)), 0777));
TESTEQUAL(mount_fuse_no_init(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
DIR *open_dir = NULL;
struct dirent *dirent;
// Folder 1: Readdir with no nodeid
TEST(open_dir = s_opendir(s_path(s(ft_dst), s(folder1))),
open_dir != NULL);
TEST(dirent = readdir(open_dir), dirent == NULL);
TESTCOND(errno == EINVAL);
TESTSYSCALL(closedir(open_dir));
open_dir = NULL;
// Folder 2: Readdir with a nodeid
TEST(open_dir = s_opendir(s_path(s(ft_dst), s(folder2))),
open_dir != NULL);
TEST(dirent = readdir(open_dir), dirent == NULL);
TESTCOND(errno == EINVAL);
TESTSYSCALL(closedir(open_dir));
open_dir = NULL;
FUSE_DAEMON
size_t read_size;
struct fuse_in_header *in_header = (struct fuse_in_header *)bytes_in;
struct fuse_attr attr = {};
int backing_fd = -1;
TESTFUSEINITFLAGS(FUSE_DO_READDIRPLUS | FUSE_READDIRPLUS_AUTO);
// folder 1: Set 0 as nodeid, Expect READDIR
TESTFUSELOOKUP(folder1, 0);
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder1)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = 0,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
.bpf_action = FUSE_ACTION_REPLACE,
.bpf_fd = bpf_fd,
}));
TESTSYSCALL(close(backing_fd));
TEST(read_size = read(fuse_dev, bytes_in, sizeof(bytes_in)), read_size > 0);
TESTEQUAL(in_header->opcode, FUSE_READDIR);
TESTFUSEOUTERROR(-EINVAL);
// folder 2: Set 10 as nodeid, Expect READDIRPLUS
TESTFUSELOOKUP(folder2, 0);
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder2)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = 10,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
.bpf_action = FUSE_ACTION_REPLACE,
.bpf_fd = bpf_fd,
}));
TESTSYSCALL(close(backing_fd));
TEST(read_size = read(fuse_dev, bytes_in, sizeof(bytes_in)), read_size > 0);
TESTEQUAL(in_header->opcode, FUSE_READDIRPLUS);
TESTFUSEOUTERROR(-EINVAL);
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(content_fd);
close(src_fd);
close(bpf_fd);
umount(mount_dir);
return result;
}
/*
* State:
* Original: dst/folder1/content.txt
* ^
* |
* |
* Backing: src/folder1/content.txt
*
* Step 1: open(folder1) - lookup folder1 with entry_timeout set to 0
* Step 2: open(folder1) - lookup folder1 again to trigger revalidate wich will
* set backing fd
*
* Check 1: cat(content.txt) - check not receiving call on the fuse daemon
* and content is the same
*/
static int bpf_test_revalidate_handle_backing_fd(const char *mount_dir)
{
const char *folder1 = "folder1";
const char *content_file = "content.txt";
const char *content = "hello world";
int result = TEST_FAILURE;
int fuse_dev = -1;
int src_fd = -1;
int content_fd = -1;
int pid = -1;
int status;
TESTSYSCALL(s_mkdir(s_path(s(ft_src), s(folder1)), 0777));
TEST(content_fd = s_creat(s_pathn(3, s(ft_src), s(folder1), s(content_file)), 0777),
content_fd != -1);
TESTEQUAL(write(content_fd, content, strlen(content)), strlen(content));
TESTSYSCALL(close(content_fd));
content_fd = -1;
TESTEQUAL(mount_fuse_no_init(mount_dir, -1, -1, &fuse_dev), 0);
FUSE_ACTION
int dst_folder1_fd = -1;
int dst_content_fd = -1;
int dst_content_read_size = -1;
char content_buffer[9] = {0};
// Step 1: Lookup folder1
TESTERR(dst_folder1_fd = s_open(s_path(s(mount_dir), s(folder1)),
O_RDONLY | O_CLOEXEC), dst_folder1_fd != -1);
TESTSYSCALL(close(dst_folder1_fd));
dst_folder1_fd = -1;
// Step 2: Lookup folder1 again
TESTERR(dst_folder1_fd = s_open(s_path(s(mount_dir), s(folder1)),
O_RDONLY | O_CLOEXEC), dst_folder1_fd != -1);
TESTSYSCALL(close(dst_folder1_fd));
dst_folder1_fd = -1;
// Check 1: Read content file (must be backed)
TESTERR(dst_content_fd =
s_open(s_pathn(3, s(mount_dir), s(folder1), s(content_file)),
O_RDONLY | O_CLOEXEC), dst_content_fd != -1);
TEST(dst_content_read_size =
read(dst_content_fd, content_buffer, strlen(content)),
dst_content_read_size == strlen(content) &&
strcmp(content, content_buffer) == 0);
TESTSYSCALL(close(dst_content_fd));
dst_content_fd = -1;
FUSE_DAEMON
struct fuse_attr attr = {};
int backing_fd = -1;
TESTFUSEINITFLAGS(FUSE_DO_READDIRPLUS | FUSE_READDIRPLUS_AUTO);
// Step 1: Lookup folder1 set entry_timeout to 0 to trigger
// revalidate later
TESTFUSELOOKUP(folder1, 0);
TESTSYSCALL(s_fuse_attr(s_path(s(ft_src), s(folder1)), &attr));
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder1)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = attr.ino,
.generation = 0,
.entry_valid = 0,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = 0,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
}));
TESTSYSCALL(close(backing_fd));
// Step 1: Lookup folder1 as a reaction to revalidate call
// This attempts to change the backing node, which is not allowed on revalidate
TESTFUSELOOKUP(folder1, 0);
TESTSYSCALL(s_fuse_attr(s_path(s(ft_src), s(folder1)), &attr));
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder1)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = attr.ino,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
}));
TESTSYSCALL(close(backing_fd));
// Lookup folder1 as a reaction to failed revalidate
TESTFUSELOOKUP(folder1, 0);
TESTSYSCALL(s_fuse_attr(s_path(s(ft_src), s(folder1)), &attr));
TEST(backing_fd = s_open(s_path(s(ft_src), s(folder1)),
O_DIRECTORY | O_RDONLY | O_CLOEXEC),
backing_fd != -1);
TESTFUSEOUT2(fuse_entry_out, ((struct fuse_entry_out) {
.nodeid = attr.ino,
.generation = 0,
.entry_valid = UINT64_MAX,
.attr_valid = UINT64_MAX,
.entry_valid_nsec = UINT32_MAX,
.attr_valid_nsec = UINT32_MAX,
.attr = attr,
}), fuse_entry_bpf_out, ((struct fuse_entry_bpf_out) {
.backing_action = FUSE_ACTION_REPLACE,
.backing_fd = backing_fd,
}));
TESTSYSCALL(close(backing_fd));
FUSE_DONE
result = TEST_SUCCESS;
out:
close(fuse_dev);
close(content_fd);
close(src_fd);
umount(mount_dir);
return result;
}
static int bpf_test_lookup_postfilter(const char *mount_dir)
{
const char *file1_name = "file1";
const char *file2_name = "file2";
const char *file3_name = "file3";
int result = TEST_FAILURE;
int bpf_fd = -1;
int src_fd = -1;
int fuse_dev = -1;
int file_fd = -1;
int pid = -1;
int status;
TEST(file_fd = s_creat(s_path(s(ft_src), s(file1_name)), 0777),
file_fd != -1);
TESTSYSCALL(close(file_fd));
TEST(file_fd = s_creat(s_path(s(ft_src), s(file2_name)), 0777),
file_fd != -1);
TESTSYSCALL(close(file_fd));
file_fd = -1;
TESTEQUAL(install_elf_bpf("test_bpf.bpf", "test_lookup_postfilter",
&bpf_fd, NULL, NULL), 0);
TEST(src_fd = open(ft_src, O_DIRECTORY | O_RDONLY | O_CLOEXEC),
src_fd != -1);
TESTEQUAL(mount_fuse(mount_dir, bpf_fd, src_fd, &fuse_dev), 0);
FUSE_ACTION
int fd = -1;
TESTEQUAL(s_open(s_path(s(mount_dir), s(file1_name)), O_RDONLY),
-1);
TESTEQUAL(errno, ENOENT);
TEST(fd = s_open(s_path(s(mount_dir), s(file2_name)), O_RDONLY),
fd != -1);
TESTSYSCALL(close(fd));
TESTEQUAL(s_open(s_path(s(mount_dir), s(file3_name)), O_RDONLY),
-1);
FUSE_DAEMON
struct fuse_in_header *in_header =
(struct fuse_in_header *)bytes_in;
struct fuse_entry_out *feo;
struct fuse_entry_bpf_out *febo;
TESTFUSELOOKUP(file1_name, FUSE_POSTFILTER);
TESTFUSEOUTERROR(-ENOENT);
TESTFUSELOOKUP(file2_name, FUSE_POSTFILTER);
feo = (struct fuse_entry_out *) (bytes_in +
sizeof(struct fuse_in_header) + strlen(file2_name) + 1);
febo = (struct fuse_entry_bpf_out *) ((char *)feo +
sizeof(*feo));
TESTFUSEOUT2(fuse_entry_out, *feo, fuse_entry_bpf_out, *febo);
TESTFUSELOOKUP(file3_name, FUSE_POSTFILTER);
TESTEQUAL(in_header->error_in, -ENOENT);
TESTFUSEOUTERROR(-ENOENT);
FUSE_DONE
result = TEST_SUCCESS;
out:
close(file_fd);
close(fuse_dev);
umount(mount_dir);
close(src_fd);
close(bpf_fd);
return result;
}
static void parse_range(const char *ranges, bool *run_test, size_t tests)
{
size_t i;
char *range;
for (i = 0; i < tests; ++i)
run_test[i] = false;
range = strtok(optarg, ",");
while (range) {
char *dash = strchr(range, '-');
if (dash) {
size_t start = 1, end = tests;
char *end_ptr;
if (dash > range) {
start = strtol(range, &end_ptr, 10);
if (*end_ptr != '-' || start <= 0 || start > tests)
ksft_exit_fail_msg("Bad range\n");
}
if (dash[1]) {
end = strtol(dash + 1, &end_ptr, 10);
if (*end_ptr || end <= start || end > tests)
ksft_exit_fail_msg("Bad range\n");
}
for (i = start; i <= end; ++i)
run_test[i - 1] = true;
} else {
char *end;
long value = strtol(range, &end, 10);
if (*end || value <= 0 || value > tests)
ksft_exit_fail_msg("Bad range\n");
run_test[value - 1] = true;
}
range = strtok(NULL, ",");
}
}
static int parse_options(int argc, char *const *argv, bool *run_test,
size_t tests)
{
signed char c;
while ((c = getopt(argc, argv, "f:t:v")) != -1)
switch (c) {
case 'f':
test_options.file = strtol(optarg, NULL, 10);
break;
case 't':
parse_range(optarg, run_test, tests);
break;
case 'v':
test_options.verbose = true;
break;
default:
return -EINVAL;
}
return 0;
}
struct test_case {
int (*pfunc)(const char *dir);
const char *name;
};
static void run_one_test(const char *mount_dir,
const struct test_case *test_case)
{
ksft_print_msg("Running %s\n", test_case->name);
if (test_case->pfunc(mount_dir) == TEST_SUCCESS)
ksft_test_result_pass("%s\n", test_case->name);
else
ksft_test_result_fail("%s\n", test_case->name);
}
int main(int argc, char *argv[])
{
char *mount_dir = NULL;
char *src_dir = NULL;
int i;
int fd, count;
#define MAKE_TEST(test) \
{ \
test, #test \
}
const struct test_case cases[] = {
MAKE_TEST(basic_test),
MAKE_TEST(bpf_test_real),
MAKE_TEST(bpf_test_partial),
MAKE_TEST(bpf_test_attrs),
MAKE_TEST(bpf_test_readdir),
MAKE_TEST(bpf_test_creat),
MAKE_TEST(bpf_test_hidden_entries),
MAKE_TEST(bpf_test_dir),
MAKE_TEST(bpf_test_file_early_close),
MAKE_TEST(bpf_test_file_late_close),
MAKE_TEST(bpf_test_mknod),
MAKE_TEST(bpf_test_largedir),
MAKE_TEST(bpf_test_link),
MAKE_TEST(bpf_test_symlink),
MAKE_TEST(bpf_test_xattr),
MAKE_TEST(bpf_test_redact_readdir),
MAKE_TEST(bpf_test_set_backing),
MAKE_TEST(bpf_test_remove_backing),
MAKE_TEST(bpf_test_dir_rename),
MAKE_TEST(bpf_test_file_rename),
MAKE_TEST(bpf_test_alter_errcode_bpf),
MAKE_TEST(bpf_test_alter_errcode_userspace),
MAKE_TEST(mmap_test),
MAKE_TEST(readdir_perms_test),
MAKE_TEST(inotify_test),
MAKE_TEST(bpf_test_statfs),
MAKE_TEST(bpf_test_lseek),
MAKE_TEST(bpf_test_readdirplus_not_overriding_backing),
MAKE_TEST(bpf_test_no_readdirplus_without_nodeid),
MAKE_TEST(bpf_test_revalidate_handle_backing_fd),
MAKE_TEST(bpf_test_lookup_postfilter),
MAKE_TEST(flock_test),
};
#undef MAKE_TEST
bool run_test[ARRAY_SIZE(cases)];
for (int i = 0; i < ARRAY_SIZE(cases); ++i)
run_test[i] = true;
if (parse_options(argc, argv, run_test, ARRAY_SIZE(cases)))
ksft_exit_fail_msg("Bad options\n");
// Seed randomness pool for testing on QEMU
// NOTE - this abuses the concept of randomness - do *not* ever do this
// on a machine for production use - the device will think it has good
// randomness when it does not.
fd = open("/dev/urandom", O_WRONLY | O_CLOEXEC);
count = 4096;
for (int i = 0; i < 128; ++i)
ioctl(fd, RNDADDTOENTCNT, &count);
close(fd);
ksft_print_header();
if (geteuid() != 0)
ksft_print_msg("Not a root, might fail to mount.\n");
if (tracing_on() != TEST_SUCCESS)
ksft_exit_fail_msg("Can't turn on tracing\n");
src_dir = setup_mount_dir(ft_src);
mount_dir = setup_mount_dir(ft_dst);
if (src_dir == NULL || mount_dir == NULL)
ksft_exit_fail_msg("Can't create a mount dir\n");
ksft_set_plan(ARRAY_SIZE(run_test));
for (i = 0; i < ARRAY_SIZE(run_test); ++i)
if (run_test[i]) {
delete_dir_tree(mount_dir, false);
delete_dir_tree(src_dir, false);
run_one_test(mount_dir, &cases[i]);
} else
ksft_cnt.ksft_xskip++;
umount2(mount_dir, MNT_FORCE);
delete_dir_tree(mount_dir, true);
delete_dir_tree(src_dir, true);
return !ksft_get_fail_cnt() ? ksft_exit_pass() : ksft_exit_fail();
}