Mercurial > dropbear
view fuzz/fuzz-wrapfd.c @ 1857:6022df862942
Use DSCP for IP QoS traffic classes
The previous TOS values are deprecated and not used by modern traffic
classifiers. This sets AF21 for "interactive" traffic (with a tty).
Non-tty traffic sets AF11 - that indicates high throughput but is not
lowest priority (which would be CS1 or LE).
This differs from the CS1 used by OpenSSH, it lets interactive git over SSH
have higher priority than background least effort traffic. Dropbear's settings
here should be suitable with the diffservs used by CAKE qdisc.
| author | Matt Johnston <matt@ucc.asn.au> |
|---|---|
| date | Tue, 25 Jan 2022 17:32:20 +0800 |
| parents | 1b160ed94749 |
| children |
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#define FUZZ_SKIP_WRAP 1 #include "includes.h" #include "fuzz-wrapfd.h" #include "dbutil.h" #include "fuzz.h" #define IOWRAP_MAXFD (FD_SETSIZE-1) static const int MAX_RANDOM_IN = 50000; static const double CHANCE_CLOSE = 1.0 / 600; static const double CHANCE_INTR = 1.0 / 900; static const double CHANCE_READ1 = 0.96; static const double CHANCE_READ2 = 0.5; static const double CHANCE_WRITE1 = 0.96; static const double CHANCE_WRITE2 = 0.5; struct fdwrap { enum wrapfd_mode mode; int closein; int closeout; }; static struct fdwrap wrap_fds[IOWRAP_MAXFD+1] = {{UNUSED, 0, 0}}; static int wrapfd_maxfd = -1; static unsigned short rand_state[3]; static buffer *input_buf; static int devnull_fd = -1; static void wrapfd_remove(int fd); void wrapfd_setup(buffer *buf) { TRACE(("wrapfd_setup")) // clean old ones int i; for (i = 0; i <= wrapfd_maxfd; i++) { if (wrap_fds[i].mode != UNUSED) { wrapfd_remove(i); } } wrapfd_maxfd = -1; memset(rand_state, 0x0, sizeof(rand_state)); wrapfd_setseed(50); input_buf = buf; } void wrapfd_setseed(uint32_t seed) { memcpy(rand_state, &seed, sizeof(seed)); nrand48(rand_state); } int wrapfd_new_fuzzinput() { if (devnull_fd == -1) { devnull_fd = open("/dev/null", O_RDONLY); assert(devnull_fd != -1); } int fd = dup(devnull_fd); assert(fd != -1); assert(wrap_fds[fd].mode == UNUSED); wrap_fds[fd].mode = COMMONBUF; wrap_fds[fd].closein = 0; wrap_fds[fd].closeout = 0; wrapfd_maxfd = MAX(fd, wrapfd_maxfd); return fd; } int wrapfd_new_dummy() { if (devnull_fd == -1) { devnull_fd = open("/dev/null", O_RDONLY); assert(devnull_fd != -1); } int fd = dup(devnull_fd); if (fd == -1) { return -1; } if (fd > IOWRAP_MAXFD) { close(fd); errno = EMFILE; return -1; } assert(wrap_fds[fd].mode == UNUSED); wrap_fds[fd].mode = DUMMY; wrap_fds[fd].closein = 0; wrap_fds[fd].closeout = 0; wrapfd_maxfd = MAX(fd, wrapfd_maxfd); return fd; } static void wrapfd_remove(int fd) { TRACE(("wrapfd_remove %d", fd)) assert(fd >= 0); assert(fd <= IOWRAP_MAXFD); assert(wrap_fds[fd].mode != UNUSED); wrap_fds[fd].mode = UNUSED; close(fd); } int wrapfd_close(int fd) { if (fd >= 0 && fd <= IOWRAP_MAXFD && wrap_fds[fd].mode != UNUSED) { wrapfd_remove(fd); return 0; } else { return close(fd); } } int wrapfd_read(int fd, void *out, size_t count) { size_t maxread; if (!fuzz.wrapfds) { return read(fd, out, count); } if (fd < 0 || fd > IOWRAP_MAXFD || wrap_fds[fd].mode == UNUSED) { /* XXX - assertion failure? */ TRACE(("Bad read descriptor %d\n", fd)) errno = EBADF; return -1; } assert(count != 0); if (wrap_fds[fd].closein || erand48(rand_state) < CHANCE_CLOSE) { wrap_fds[fd].closein = 1; errno = ECONNRESET; return -1; } if (erand48(rand_state) < CHANCE_INTR) { errno = EINTR; return -1; } if (input_buf && wrap_fds[fd].mode == COMMONBUF) { maxread = MIN(input_buf->len - input_buf->pos, count); /* returns 0 if buf is EOF, as intended */ if (maxread > 0) { maxread = nrand48(rand_state) % maxread + 1; } memcpy(out, buf_getptr(input_buf, maxread), maxread); buf_incrpos(input_buf, maxread); return maxread; } // return fixed output, of random length maxread = MIN(MAX_RANDOM_IN, count); maxread = nrand48(rand_state) % maxread + 1; memset(out, 0xef, maxread); return maxread; } int wrapfd_write(int fd, const void* in, size_t count) { unsigned const volatile char* volin = in; unsigned int i; if (!fuzz.wrapfds) { return write(fd, in, count); } if (fd < 0 || fd > IOWRAP_MAXFD || wrap_fds[fd].mode == UNUSED) { /* XXX - assertion failure? */ TRACE(("Bad read descriptor %d\n", fd)) errno = EBADF; return -1; } assert(count != 0); /* force read to exercise sanitisers */ for (i = 0; i < count; i++) { (void)volin[i]; } if (wrap_fds[fd].closeout || erand48(rand_state) < CHANCE_CLOSE) { wrap_fds[fd].closeout = 1; errno = ECONNRESET; return -1; } if (erand48(rand_state) < CHANCE_INTR) { errno = EINTR; return -1; } return nrand48(rand_state) % (count+1); } int wrapfd_select(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout) { int i, nset, sel; int ret = 0; int fdlist[IOWRAP_MAXFD+1]; if (!fuzz.wrapfds) { return select(nfds, readfds, writefds, exceptfds, timeout); } assert(nfds <= IOWRAP_MAXFD+1); if (erand48(rand_state) < CHANCE_INTR) { errno = EINTR; return -1; } /* read */ if (readfds != NULL && erand48(rand_state) < CHANCE_READ1) { for (i = 0, nset = 0; i < nfds; i++) { if (FD_ISSET(i, readfds)) { assert(wrap_fds[i].mode != UNUSED); fdlist[nset] = i; nset++; } } DROPBEAR_FD_ZERO(readfds); if (nset > 0) { /* set one */ sel = fdlist[nrand48(rand_state) % nset]; FD_SET(sel, readfds); ret++; if (erand48(rand_state) < CHANCE_READ2) { sel = fdlist[nrand48(rand_state) % nset]; if (!FD_ISSET(sel, readfds)) { FD_SET(sel, readfds); ret++; } } } } /* write */ if (writefds != NULL && erand48(rand_state) < CHANCE_WRITE1) { for (i = 0, nset = 0; i < nfds; i++) { if (FD_ISSET(i, writefds)) { assert(wrap_fds[i].mode != UNUSED); fdlist[nset] = i; nset++; } } DROPBEAR_FD_ZERO(writefds); /* set one */ if (nset > 0) { sel = fdlist[nrand48(rand_state) % nset]; FD_SET(sel, writefds); ret++; if (erand48(rand_state) < CHANCE_WRITE2) { sel = fdlist[nrand48(rand_state) % nset]; if (!FD_ISSET(sel, writefds)) { FD_SET(sel, writefds); ret++; } } } } return ret; } int fuzz_kill(pid_t pid, int sig) { if (fuzz.fuzzing) { TRACE(("fuzz_kill ignoring pid %d signal %d", (pid), sig)) if (sig >= 0) { return 0; } else { errno = EINVAL; return -1; } } return kill(pid, sig); }