Hi, Willy, Thomas
Good news, I just fixed up all of the time32 syscalls related build and test failures for rv32 and plan to send out the whole patchset tomorrow.
The patchset is based on 20230520-nolibc-rv32+stkp2 of [1] and the new statckprotect patchset [2] (If v2 is ready, I prefer to rebase on v2).
[1]: https://git.kernel.org/pub/scm/linux/kernel/git/wtarreau/nolibc.git [2]: https://lore.kernel.org/linux-riscv/20230521100818.GA29408@1wt.eu/T/#t
For the fstat compile issue, I prefer to use a __NR_statx for rv32 instead of using fstatfs, because of different fstatfs* have different errno's, it is ugly to use lots of macros ;-) what's your suggestion?
Here is the __NR_statx version:
+static int test_syscall_args(void) +{ +#ifdef __NR_statx + return syscall(__NR_statx, 0, NULL, 0, 0, NULL); +#elif defined(__NR_fstat) + return syscall(__NR_fstat, 0, NULL); +#else +#error Neither __NR_statx nor __NR_fstat defined, cannot implement syscall_args test +#endif +}
And the fstatfs version:
+#ifdef __NR_fstatfs64 +#define EXPECT_SYSER_SYSCALL_ARGS() EXPECT_SYSER(1, syscall(__NR_fstatfs64, 0, 0, NULL), -1, EINVAL) +#elif defined(__NR_fstatfs) +#define EXPECT_SYSER_SYSCALL_ARGS() EXPECT_SYSER(1, syscall(__NR_fstatfs, 0, NULL), -1, EFAULT) +#elif defined(__NR_fstat) +#define EXPECT_SYSER_SYSCALL_ARGS() EXPECT_SYSER(1, syscall(__NR_fstat, 0, NULL), -1, EFAULT) +#else +#error None of __NR_fstatfs64, __NR_fstatfs and __NR_fstat defined, cannot implement syscall_args test +#endif
And I plan to move __NR_fstat as the first branch to make sure it works as before on the other platforms.
30 fork = 1 ENOSYS [FAIL] 33 gettimeofday_null = -1 ENOSYS [FAIL] 35 gettimeofday_bad1 = -1 ENOSYS != (-1 EFAULT) [FAIL] 36 gettimeofday_bad2 = -1 ENOSYS != (-1 EFAULT) [FAIL] 37 gettimeofday_bad2 = -1 ENOSYS != (-1 EFAULT) [FAIL] 51 poll_null = -1 ENOSYS [FAIL] 52 poll_stdout = -1 ENOSYS [FAIL] 53 poll_fault = -1 ENOSYS != (-1 EFAULT) [FAIL] 56 select_null = -1 ENOSYS [FAIL] 57 select_stdout = -1 ENOSYS [FAIL] 58 select_fault = -1 ENOSYS != (-1 EFAULT) [FAIL] 64 wait_child = -1 ENOSYS != (-1 ECHILD) [FAIL] 65 waitpid_min = -1 ENOSYS != (-1 ESRCH) [FAIL] 66 waitpid_child = -1 ENOSYS != (-1 ECHILD) [FAIL]
All of the above failures have been fixed up, some of them are very easy, some of them are a little hard.
1. 30, 64-66 depends on wait4, use waitid instead 2. 33-37 depends on gettimeofday, use clock_gettime64 instead 3. 51-53 depends on ppoll, use ppoll_time64 instead 4. 56-58 depends on pselect*, use pselect_time64 instead
And I have found there are two same 'gettimeofday_bad2', is it designed? If no, I will send a patch to dedup it:
CASE_TEST(gettimeofday_bad2); EXPECT_SYSER(1, gettimeofday(NULL, (void *)1), -1, EFAULT); break; CASE_TEST(gettimeofday_bad2); EXPECT_SYSER(1, gettimeofday(NULL, (void *)1), -1, EFAULT); break;
My suggestion is directly fix up the failures one by one in current stage, because nolibc currently only uses part of the time32 syscalls, it may be not that complex to fix up them. Have read the code of musl and glibc today, both of them have good time64 syscalls support, I plan to fix up the above failures in several days, hope so but no promise ;-)
both musl and glibc help a lot, but also encounter some critical issues, for example, to pass some test cases, it is required to emulate the same path of the target syscalls and return the same errno's for them, the code comment will exaplain the details.
And another question: for the new changes, If a platform support both of the 32bit and 64bit syscalls, do we need to put the 64bit syscalls at first?
To make sure not touch too much on the code and reduce test cost, the patchset just kept the default code order and let the old code in the first branch.
I plan to send the whole patchset tomorrow.
Thanks, Zhangjin