xrdp/tests/common/test_os_calls.c

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#if defined(HAVE_CONFIG_H)
#include "config_ac.h"
#endif
#include <stdlib.h>
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#include <sys/time.h>
#include <sys/resource.h>
#include <poll.h>
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#include "os_calls.h"
#include "list.h"
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#include "test_common.h"
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#ifndef TOP_SRCDIR
#define TOP_SRCDIR "."
#endif
// File for testing ro/rw opens
#define RO_RW_FILE "./test_ro_rw"
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/******************************************************************************/
/***
* Gets the number of open file descriptors for the current process */
static unsigned int
get_open_fd_count(void)
{
unsigned int i;
unsigned int rv;
// What's the max number of file descriptors?
struct rlimit nofile;
if (getrlimit(RLIMIT_NOFILE, &nofile) < 0)
{
const char *errstr = g_get_strerror();
ck_abort_msg("Can't create socketpair [%s]", errstr);
}
struct pollfd *fds =
(struct pollfd *)g_malloc(sizeof(struct pollfd) * nofile.rlim_cur, 0);
ck_assert_ptr_nonnull(fds);
for (i = 0 ; i < nofile.rlim_cur; ++i)
{
fds[i].fd = i;
fds[i].events = 0;
fds[i].revents = 0;
}
if (poll(fds, nofile.rlim_cur, 0) < 0)
{
const char *errstr = g_get_strerror();
ck_abort_msg("Can't poll fds [%s]", errstr);
}
rv = nofile.rlim_cur;
for (i = 0 ; i < nofile.rlim_cur; ++i)
{
if (fds[i].revents == POLLNVAL)
{
--rv;
}
}
g_free(fds);
return rv;
}
/******************************************************************************/
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START_TEST(test_g_file_get_size__returns_file_size)
{
unsigned long long size;
size = g_file_get_size(TOP_SRCDIR "/xrdp/xrdp256.bmp");
ck_assert_int_eq(size, 49278);
size = g_file_get_size(TOP_SRCDIR "/xrdp/ad256.bmp");
ck_assert_int_eq(size, 19766);
}
END_TEST
START_TEST(test_g_file_get_size__1GiB)
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{
const char *file = "./file_1GiB.dat";
unsigned int block_size = 4096;
unsigned int block_count = 262144;
/* C90 5.2.4.2.1 guarantees long long is at least 64 bits */
const long long expected_size =
(long long)block_size * block_count;
long long size;
int system_rv;
char cmd[256];
/* Create a sparse file of the expected size with one block of data
* at the end */
g_snprintf(cmd, sizeof(cmd),
"dd if=/dev/zero of=%s bs=%u seek=%u count=1",
file,
block_size,
block_count - 1);
system_rv = system(cmd);
size = g_file_get_size(file);
g_file_delete(file);
ck_assert_int_eq(system_rv, 0);
ck_assert_int_eq(size, expected_size);
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}
END_TEST
START_TEST(test_g_file_get_size__just_less_than_2GiB)
{
const char *file = "./file_2GiB.dat";
unsigned int block_size = 4096;
unsigned int block_count = 524287; /* 4096 * 52428__8__ = 2GiB */
/* C90 5.2.4.2.1 guarantees long long is at least 64 bits */
const long long expected_size =
(long long)block_size * block_count;
long long size;
int system_rv;
char cmd[256];
/* Create a sparse file of the expected size with one block of data
* at the end */
g_snprintf(cmd, sizeof(cmd),
"dd if=/dev/zero of=%s bs=%u seek=%u count=1",
file,
block_size,
block_count - 1);
system_rv = system(cmd);
size = g_file_get_size(file);
g_file_delete(file);
ck_assert_int_eq(system_rv, 0);
ck_assert_int_eq(size, expected_size);
}
END_TEST
/* skip these tests until g_file_get_size() supports large files*/
#if 0
START_TEST(test_g_file_get_size__2GiB)
{
const char *file = "./file_2GiB.dat";
unsigned int block_size = 4096;
unsigned int block_count = 524288;
/* C90 5.2.4.2.1 guarantees long long is at least 64 bits */
const long long expected_size =
(long long)block_size * block_count;
long long size;
int system_rv;
char cmd[256];
/* Create a sparse file of the expected size with one block of data
* at the end */
g_snprintf(cmd, sizeof(cmd),
"dd if=/dev/zero of=%s bs=%u seek=%u count=1",
file,
block_size,
block_count - 1);
system_rv = system(cmd);
size = g_file_get_size(file);
g_file_delete(file);
ck_assert_int_eq(system_rv, 0);
ck_assert_int_eq(size, expected_size);
}
END_TEST
START_TEST(test_g_file_get_size__5GiB)
{
const char *file = "./file_5GiB.dat";
unsigned int block_size = 4096;
unsigned int block_count = 1310720;
/* C90 5.2.4.2.1 guarantees long long is at least 64 bits */
const long long expected_size =
(long long)block_size * block_count;
long long size;
int system_rv;
char cmd[256];
/* Create a sparse file of the expected size with one block of data
* at the end */
g_snprintf(cmd, sizeof(cmd),
"dd if=/dev/zero of=%s bs=%u seek=%u count=1",
file,
block_size,
block_count - 1);
system_rv = system(cmd);
size = g_file_get_size(file);
g_file_delete(file);
ck_assert_int_eq(system_rv, 0);
ck_assert_int_eq(size, expected_size);
}
END_TEST
#endif
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/******************************************************************************/
/* Test we can write to a file which is opened for write */
START_TEST(test_g_file_rw)
{
const char data[] = "File data\n";
int fd = g_file_open_rw(RO_RW_FILE);
ck_assert(fd >= 0);
int status = g_file_write(fd, data, sizeof(data) - 1);
g_file_close(fd);
// Assume no signals have occurred
ck_assert_int_eq(status, sizeof(data) - 1);
// Leave file in place for test_g_file_ro
}
END_TEST
/******************************************************************************/
/* Test we can't write to a file which is opened read only */
START_TEST(test_g_file_ro)
{
const char data[] = "File data\n";
int fd = g_file_open_ro(RO_RW_FILE);
ck_assert(fd >= 0);
int status = g_file_write(fd, data, sizeof(data) - 1);
g_file_close(fd);
// Write must fail
ck_assert_int_lt(status, 0);
// Tidy-up (not checked)
g_file_delete(RO_RW_FILE);
}
END_TEST
/******************************************************************************/
/* Just test we can set and clear the flag. We don't test its operation */
START_TEST(test_g_file_cloexec)
{
int flag;
int devzerofd = g_file_open_ro("/dev/zero");
ck_assert(devzerofd >= 0);
(void)g_file_set_cloexec(devzerofd, 1);
flag = g_file_get_cloexec(devzerofd);
ck_assert(flag != 0);
(void)g_file_set_cloexec(devzerofd, 0);
flag = g_file_get_cloexec(devzerofd);
ck_assert(flag == 0);
g_file_close(devzerofd);
}
END_TEST
/******************************************************************************/
START_TEST(test_g_file_get_open_fds)
{
int fd_count = get_open_fd_count();
int i;
struct list *start_list = g_get_open_fds(0, -1);
ck_assert_ptr_ne(start_list, NULL);
ck_assert_int_eq(start_list->count, fd_count);
// Open another file
int devzerofd = g_file_open_ro("/dev/zero");
ck_assert(devzerofd >= 0);
// Have we now got one more open file?
struct list *open_list = g_get_open_fds(0, -1);
ck_assert_ptr_ne(open_list, NULL);
ck_assert_int_eq(open_list->count, fd_count + 1);
// Check the new file is not in the start list, but is in the open list
ck_assert_int_lt(list_index_of(start_list, devzerofd), 0);
ck_assert_int_ge(list_index_of(open_list, devzerofd), 0);
g_file_close(devzerofd);
struct list *finish_list = g_get_open_fds(0, -1);
ck_assert_ptr_ne(finish_list, NULL);
// start list same as finish list?
ck_assert_int_eq(finish_list->count, fd_count);
for (i = 0 ; i < start_list->count; ++i)
{
ck_assert_int_eq((int)finish_list->items[i],
(int)start_list->items[i]);
}
list_delete(start_list);
list_delete(open_list);
list_delete(finish_list);
}
END_TEST
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/******************************************************************************/
START_TEST(test_g_file_is_open)
{
int devzerofd = g_file_open_ro("/dev/zero");
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ck_assert(devzerofd >= 0);
// Check open file comes up as open
ck_assert_int_ne(g_file_is_open(devzerofd), 0);
g_file_close(devzerofd);
// Check the now-closed file no longer registers as open
ck_assert_int_eq(g_file_is_open(devzerofd), 0);
}
END_TEST
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/******************************************************************************/
START_TEST(test_g_sck_fd_passing)
{
int sck[2];
char buff[16];
int istatus;
unsigned int fdcount;
int devzerofd = g_file_open_ro("/dev/zero");
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ck_assert(devzerofd >= 0);
if (g_sck_local_socketpair(sck) != 0)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd);
ck_abort_msg("Can't create socketpair [%s]", errstr);
}
// Pass the fd for /dev/zero to sck[0]...
istatus = g_sck_send_fd_set(sck[0], "?", 1, &devzerofd, 1);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd);
g_file_close(sck[0]);
g_file_close(sck[1]);
ck_abort_msg("Can't send fd set [%s]", errstr);
}
// We can now close the fd for /dev/zero, as it's "in flight"
g_file_close(devzerofd);
devzerofd = -1;
// Read the fd for /dev/zero from sck[1]
fdcount = -1;
istatus = g_sck_recv_fd_set(sck[1], buff, sizeof(buff),
&devzerofd, 1, &fdcount);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(sck[0]);
g_file_close(sck[1]);
ck_abort_msg("Can't receive fd set [%s]", errstr);
}
// Don't need the socket pair any more
g_file_close(sck[0]);
g_file_close(sck[1]);
// We should have got 1 fd back, and received a data byte of '?'
if (fdcount != 1)
{
g_file_close(devzerofd);
ck_abort_msg("Should have 1 fd, got %u", fdcount);
}
if (buff[0] != '?')
{
g_file_close(devzerofd);
ck_abort_msg("Should have received '?' in buffer");
}
// Does the fd for /dev/zero work?
istatus = g_file_read(devzerofd, buff, 1);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd);
ck_abort_msg("Can't read from /dev/zero fd %d [%s]", devzerofd, errstr);
}
g_file_close(devzerofd);
ck_assert_int_eq(buff[0], '\0');
}
END_TEST
START_TEST(test_g_sck_fd_overflow)
{
int sck[2];
char buff[16];
int istatus;
unsigned int fdcount;
int devzerofd[2];
// Count the number of file descriptors for the process
unsigned int base_fd_count = get_open_fd_count();
unsigned int proc_fd_count;
// Open a couple of file descriptors to /dev/zero
devzerofd[0] = g_file_open_ro("/dev/zero");
devzerofd[1] = g_file_open_ro("/dev/zero");
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ck_assert(devzerofd[0] >= 0);
ck_assert(devzerofd[1] >= 0);
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count + 2);
if (g_sck_local_socketpair(sck) != 0)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd[0]);
g_file_close(devzerofd[1]);
ck_abort_msg("Can't create socketpair [%s]", errstr);
}
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count + 4);
// Pass the /dev/zero fds to sck[0]...
istatus = g_sck_send_fd_set(sck[0], "?", 1, devzerofd, 2);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd[0]);
g_file_close(devzerofd[1]);
g_file_close(sck[0]);
g_file_close(sck[1]);
ck_abort_msg("Can't send fd set [%s]", errstr);
}
// We can now close fds for /dev/zero, as they are "in flight"
g_file_close(devzerofd[0]);
g_file_close(devzerofd[1]);
devzerofd[0] = -1;
devzerofd[1] = -1;
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count + 2);
// Read one fd for /dev/zero from sck[1]
fdcount = -1;
istatus = g_sck_recv_fd_set(sck[1], buff, sizeof(buff),
&devzerofd[0], 1, &fdcount);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(sck[0]);
g_file_close(sck[1]);
ck_abort_msg("Can't receive fd set [%s]", errstr);
}
// We should now have just ONE more file descriptor
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count + 3);
// Don't need the socket pair any more
g_file_close(sck[0]);
g_file_close(sck[1]);
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count + 1);
// Does the fd for /dev/zero work?
istatus = g_file_read(devzerofd[0], buff, 1);
if (istatus != 1)
{
const char *errstr = g_get_strerror();
g_file_close(devzerofd[0]);
ck_abort_msg("Can't read from /dev/zero fd %d [%s]",
devzerofd[0], errstr);
}
ck_assert_int_eq(buff[0], '\0');
g_file_close(devzerofd[0]);
proc_fd_count = get_open_fd_count();
ck_assert_int_eq(proc_fd_count, base_fd_count);
}
END_TEST
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/******************************************************************************/
Suite *
make_suite_test_os_calls(void)
{
Suite *s;
TCase *tc_os_calls;
s = suite_create("OS-Calls");
tc_os_calls = tcase_create("oscalls-file");
suite_add_tcase(s, tc_os_calls);
tcase_add_test(tc_os_calls, test_g_file_get_size__returns_file_size);
tcase_add_test(tc_os_calls, test_g_file_get_size__1GiB);
tcase_add_test(tc_os_calls, test_g_file_get_size__just_less_than_2GiB);
#if 0
tcase_add_test(tc_os_calls, test_g_file_get_size__2GiB);
tcase_add_test(tc_os_calls, test_g_file_get_size__5GiB);
#endif
tcase_add_test(tc_os_calls, test_g_file_rw);
tcase_add_test(tc_os_calls, test_g_file_ro); // Must follow test_g_file_rw
tcase_add_test(tc_os_calls, test_g_file_cloexec);
tcase_add_test(tc_os_calls, test_g_file_get_open_fds);
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tcase_add_test(tc_os_calls, test_g_file_is_open);
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tcase_add_test(tc_os_calls, test_g_sck_fd_passing);
tcase_add_test(tc_os_calls, test_g_sck_fd_overflow);
// Add other test cases in other files
suite_add_tcase(s, make_tcase_test_os_calls_signals());
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return s;
}