Mercurial > dropbear
view fuzz/fuzz-common.c @ 1811:7dc92355a986
Remove some obselete autoconf bits.
Keeps autoconf 2.71 happy, though we leave the prereq version at 2.59
author | Matt Johnston <matt@ucc.asn.au> |
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date | Tue, 30 Mar 2021 20:42:04 +0800 |
parents | 19b28d2fbe30 |
children |
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#define FUZZ_NO_REPLACE_STDERR #define FUZZ_NO_REPLACE_GETPW #include "includes.h" #include "includes.h" #include "dbutil.h" #include "runopts.h" #include "crypto_desc.h" #include "session.h" #include "dbrandom.h" #include "bignum.h" #include "atomicio.h" #include "fuzz-wrapfd.h" #include "fuzz.h" struct dropbear_fuzz_options fuzz; static void fuzz_dropbear_log(int UNUSED(priority), const char* format, va_list param); static void load_fixed_hostkeys(void); static void load_fixed_client_key(void); // This runs automatically before main, due to contructor attribute in fuzz.h void fuzz_early_setup(void) { /* Set stderr to point to normal stderr by default */ fuzz.fake_stderr = stderr; } void fuzz_common_setup(void) { disallow_core(); fuzz.fuzzing = 1; fuzz.wrapfds = 1; fuzz.do_jmp = 1; fuzz.input = m_malloc(sizeof(buffer)); _dropbear_log = fuzz_dropbear_log; crypto_init(); fuzz_seed("start", 5); /* let any messages get flushed */ setlinebuf(stdout); #if DEBUG_TRACE if (debug_trace) { fprintf(stderr, "Dropbear fuzzer: -v specified, not disabling stderr output\n"); } else #endif if (getenv("DROPBEAR_KEEP_STDERR")) { fprintf(stderr, "Dropbear fuzzer: DROPBEAR_KEEP_STDERR, not disabling stderr output\n"); } else { fprintf(stderr, "Dropbear fuzzer: Disabling stderr output\n"); fuzz.fake_stderr = fopen("/dev/null", "w"); assert(fuzz.fake_stderr); } } int fuzz_set_input(const uint8_t *Data, size_t Size) { fuzz.input->data = (unsigned char*)Data; fuzz.input->size = Size; fuzz.input->len = Size; fuzz.input->pos = 0; memset(&ses, 0x0, sizeof(ses)); memset(&svr_ses, 0x0, sizeof(svr_ses)); memset(&cli_ses, 0x0, sizeof(cli_ses)); wrapfd_setup(fuzz.input); // printhex("input", fuzz.input->data, fuzz.input->len); fuzz_seed(fuzz.input->data, MIN(fuzz.input->len, 16)); return DROPBEAR_SUCCESS; } #if DEBUG_TRACE static void fuzz_dropbear_log(int UNUSED(priority), const char* format, va_list param) { if (debug_trace) { char printbuf[1024]; vsnprintf(printbuf, sizeof(printbuf), format, param); fprintf(stderr, "%s\n", printbuf); } } #else static void fuzz_dropbear_log(int UNUSED(priority), const char* UNUSED(format), va_list UNUSED(param)) { /* No print */ } #endif /* DEBUG_TRACE */ void fuzz_svr_setup(void) { fuzz_common_setup(); _dropbear_exit = svr_dropbear_exit; char *argv[] = { "dropbear", "-E", }; int argc = sizeof(argv) / sizeof(*argv); svr_getopts(argc, argv); load_fixed_hostkeys(); } void fuzz_svr_hook_preloop() { if (fuzz.svr_postauth) { ses.authstate.authdone = 1; fill_passwd("root"); } } void fuzz_cli_setup(void) { fuzz_common_setup(); _dropbear_exit = cli_dropbear_exit; _dropbear_log = cli_dropbear_log; char *argv[] = { "dbclient", "-y", "localhost", "uptime" }; int argc = sizeof(argv) / sizeof(*argv); cli_getopts(argc, argv); load_fixed_client_key(); /* Avoid password prompt */ setenv(DROPBEAR_PASSWORD_ENV, "password", 1); } #include "fuzz-hostkeys.c" static void load_fixed_client_key(void) { buffer *b = buf_new(3000); sign_key *key; enum signkey_type keytype; key = new_sign_key(); keytype = DROPBEAR_SIGNKEY_ANY; buf_putbytes(b, keyed25519, keyed25519_len); buf_setpos(b, 0); if (buf_get_priv_key(b, key, &keytype) == DROPBEAR_FAILURE) { dropbear_exit("failed fixed ed25519 hostkey"); } list_append(cli_opts.privkeys, key); buf_free(b); } static void load_fixed_hostkeys(void) { buffer *b = buf_new(3000); enum signkey_type type; TRACE(("load fixed hostkeys")) svr_opts.hostkey = new_sign_key(); buf_setlen(b, 0); buf_putbytes(b, keyr, keyr_len); buf_setpos(b, 0); type = DROPBEAR_SIGNKEY_RSA; if (buf_get_priv_key(b, svr_opts.hostkey, &type) == DROPBEAR_FAILURE) { dropbear_exit("failed fixed rsa hostkey"); } buf_setlen(b, 0); buf_putbytes(b, keyd, keyd_len); buf_setpos(b, 0); type = DROPBEAR_SIGNKEY_DSS; if (buf_get_priv_key(b, svr_opts.hostkey, &type) == DROPBEAR_FAILURE) { dropbear_exit("failed fixed dss hostkey"); } buf_setlen(b, 0); buf_putbytes(b, keye, keye_len); buf_setpos(b, 0); type = DROPBEAR_SIGNKEY_ECDSA_NISTP256; if (buf_get_priv_key(b, svr_opts.hostkey, &type) == DROPBEAR_FAILURE) { dropbear_exit("failed fixed ecdsa hostkey"); } buf_setlen(b, 0); buf_putbytes(b, keyed25519, keyed25519_len); buf_setpos(b, 0); type = DROPBEAR_SIGNKEY_ED25519; if (buf_get_priv_key(b, svr_opts.hostkey, &type) == DROPBEAR_FAILURE) { dropbear_exit("failed fixed ed25519 hostkey"); } buf_free(b); } void fuzz_kex_fakealgos(void) { ses.newkeys->recv.crypt_mode = &dropbear_mode_none; ses.newkeys->recv.algo_mac = &dropbear_nohash; } void fuzz_get_socket_address(int UNUSED(fd), char **local_host, char **local_port, char **remote_host, char **remote_port, int UNUSED(host_lookup)) { if (local_host) { *local_host = m_strdup("fuzzlocalhost"); } if (local_port) { *local_port = m_strdup("1234"); } if (remote_host) { *remote_host = m_strdup("fuzzremotehost"); } if (remote_port) { *remote_port = m_strdup("9876"); } } /* cut down version of svr_send_msg_kexdh_reply() that skips slow maths. Still populates structures */ void fuzz_fake_send_kexdh_reply(void) { assert(!ses.dh_K); m_mp_alloc_init_multi(&ses.dh_K, NULL); mp_set_ul(ses.dh_K, 12345678uL); finish_kexhashbuf(); } /* fake version of spawn_command() */ int fuzz_spawn_command(int *ret_writefd, int *ret_readfd, int *ret_errfd, pid_t *ret_pid) { *ret_writefd = wrapfd_new_dummy(); *ret_readfd = wrapfd_new_dummy(); if (ret_errfd) { *ret_errfd = wrapfd_new_dummy(); } if (*ret_writefd == -1 || *ret_readfd == -1 || (ret_errfd && *ret_errfd == -1)) { m_close(*ret_writefd); m_close(*ret_readfd); if (ret_errfd) { m_close(*ret_errfd); } return DROPBEAR_FAILURE; } else { *ret_pid = 999; return DROPBEAR_SUCCESS; } } /* Fake dropbear_listen, always returns failure for now. TODO make it sometimes return success with wrapfd_new_dummy() sockets. Making the listeners fake a new incoming connection will be harder. */ /* Listen on address:port. * Special cases are address of "" listening on everything, * and address of NULL listening on localhost only. * Returns the number of sockets bound on success, or -1 on failure. On * failure, if errstring wasn't NULL, it'll be a newly malloced error * string.*/ int fuzz_dropbear_listen(const char* UNUSED(address), const char* UNUSED(port), int *UNUSED(socks), unsigned int UNUSED(sockcount), char **errstring, int *UNUSED(maxfd)) { if (errstring) { *errstring = m_strdup("fuzzing can't listen (yet)"); } return -1; } int fuzz_run_server(const uint8_t *Data, size_t Size, int skip_kexmaths, int postauth) { static int once = 0; if (!once) { fuzz_svr_setup(); fuzz.skip_kexmaths = skip_kexmaths; once = 1; } fuzz.svr_postauth = postauth; if (fuzz_set_input(Data, Size) == DROPBEAR_FAILURE) { return 0; } uint32_t wrapseed; genrandom((void*)&wrapseed, sizeof(wrapseed)); wrapfd_setseed(wrapseed); int fakesock = wrapfd_new_fuzzinput(); m_malloc_set_epoch(1); fuzz.do_jmp = 1; if (setjmp(fuzz.jmp) == 0) { svr_session(fakesock, fakesock); m_malloc_free_epoch(1, 0); } else { fuzz.do_jmp = 0; m_malloc_free_epoch(1, 1); TRACE(("dropbear_exit longjmped")) /* dropbear_exit jumped here */ } return 0; } int fuzz_run_client(const uint8_t *Data, size_t Size, int skip_kexmaths) { static int once = 0; if (!once) { fuzz_cli_setup(); fuzz.skip_kexmaths = skip_kexmaths; once = 1; } if (fuzz_set_input(Data, Size) == DROPBEAR_FAILURE) { return 0; } // Allow to proceed sooner ses.kexstate.donefirstkex = 1; uint32_t wrapseed; genrandom((void*)&wrapseed, sizeof(wrapseed)); wrapfd_setseed(wrapseed); int fakesock = wrapfd_new_fuzzinput(); m_malloc_set_epoch(1); fuzz.do_jmp = 1; if (setjmp(fuzz.jmp) == 0) { cli_session(fakesock, fakesock, NULL, 0); m_malloc_free_epoch(1, 0); } else { fuzz.do_jmp = 0; m_malloc_free_epoch(1, 1); TRACE(("dropbear_exit longjmped")) /* dropbear_exit jumped here */ } return 0; } const void* fuzz_get_algo(const algo_type *algos, const char* name) { const algo_type *t; for (t = algos; t->name; t++) { if (strcmp(t->name, name) == 0) { return t->data; } } assert(0); } void fuzz_dump(const unsigned char* data, size_t len) { if (fuzz.dumping) { TRACE(("dump %zu", len)) assert(atomicio(vwrite, fuzz.recv_dumpfd, (void*)data, len) == len); } } static struct passwd pwd_root = { .pw_name = "root", .pw_passwd = "!", .pw_uid = 0, .pw_gid = 0, .pw_dir = "/root", .pw_shell = "/bin/sh", }; static struct passwd pwd_other = { .pw_name = "other", .pw_passwd = "!", .pw_uid = 100, .pw_gid = 100, .pw_dir = "/home/other", .pw_shell = "/bin/sh", }; /* oss-fuzz runs fuzzers under minijail, without /etc/passwd. We provide sufficient values for the fuzzers to run */ struct passwd* fuzz_getpwnam(const char *login) { if (!fuzz.fuzzing) { return getpwnam(login); } if (strcmp(login, pwd_other.pw_name) == 0) { return &pwd_other; } if (strcmp(login, pwd_root.pw_name) == 0) { return &pwd_root; } return NULL; } struct passwd* fuzz_getpwuid(uid_t uid) { if (!fuzz.fuzzing) { return getpwuid(uid); } if (uid == pwd_other.pw_uid) { return &pwd_other; } if (uid == pwd_root.pw_uid) { return &pwd_root; } return NULL; }