/* $Id: afssys.c,v 1.1 1995/12/14 06:52:46 tholo Exp $ */ #include #include #include #include #include #include #include #include "afssysdefs.h" #define AUTH_SUPERUSER "afs" /* * Here only ASCII characters are relevant. */ #define IsAsciiUpper(c) ('A' <= (c) && (c) <= 'Z') #define ToAsciiLower(c) ((c) - 'A' + 'a') static void folddown(a, b) char *a, *b; { for (; *b; a++, b++) if (IsAsciiUpper(*b)) *a = ToAsciiLower(*b); else *a = *b; *a = '\0'; } #if !defined(linux) /* won't work there -- no SIGSYS, no syscall */ int k_afsklog(realm) char *realm; { int k_errno; CREDENTIALS c; KTEXT_ST ticket; char username[256]; char krealm[REALM_SZ]; if (!k_hasafs()) return KSUCCESS; if (realm == 0 || realm[0] == 0) { k_errno = krb_get_lrealm(krealm, 0); if (k_errno != KSUCCESS) return k_errno; realm = krealm; } k_errno = krb_get_cred(AUTH_SUPERUSER, "", realm, &c); if (k_errno != KSUCCESS) { k_errno = krb_mk_req(&ticket, AUTH_SUPERUSER, "", realm, 0); if (k_errno == KSUCCESS) k_errno = krb_get_cred(AUTH_SUPERUSER, "", realm, &c); } if (k_errno == KSUCCESS) { char cell[256]; struct ViceIoctl parms; struct ClearToken ct; int32_t sizeof_x; char buf[2048], *t; folddown(cell, realm); /* * Build a struct ClearToken */ ct.AuthHandle = c.kvno; bcopy((char *)c.session, ct.HandShakeKey, sizeof(c.session)); ct.ViceId = getuid(); /* is this always valid? */ ct.BeginTimestamp = 1 + c.issue_date; ct.EndTimestamp = krb_life_to_time(c.issue_date, c.lifetime); t = buf; /* * length of secret token followed by secret token */ sizeof_x = c.ticket_st.length; bcopy((char *)&sizeof_x, t, sizeof(sizeof_x)); t += sizeof(sizeof_x); bcopy((char *)c.ticket_st.dat, t, sizeof_x); t += sizeof_x; /* * length of clear token followed by clear token */ sizeof_x = sizeof(ct); bcopy((char *)&sizeof_x, t, sizeof(sizeof_x)); t += sizeof(sizeof_x); bcopy((char *)&ct, t, sizeof_x); t += sizeof_x; /* * do *not* mark as primary cell */ sizeof_x = 0; bcopy((char *)&sizeof_x, t, sizeof(sizeof_x)); t += sizeof(sizeof_x); /* * follow with cell name */ sizeof_x = strlen(cell) + 1; bcopy(cell, t, sizeof_x); t += sizeof_x; /* * Build argument block */ parms.in = buf; parms.in_size = t - buf; parms.out = 0; parms.out_size = 0; (void) k_pioctl(0, VIOCSETTOK, &parms, 0); } return k_errno; } #define NO_ENTRY_POINT 0 #define SINGLE_ENTRY_POINT 1 #define MULTIPLE_ENTRY_POINT 2 #define SINGLE_ENTRY_POINT2 3 #define AIX_ENTRY_POINTS 4 #define UNKNOWN_ENTRY_POINT 5 static int afs_entry_point = UNKNOWN_ENTRY_POINT; int k_pioctl(a_path, o_opcode, a_paramsP, a_followSymlinks) char *a_path; int o_opcode; struct ViceIoctl *a_paramsP; int a_followSymlinks; { #ifdef AFS_SYSCALL if (afs_entry_point == SINGLE_ENTRY_POINT) return syscall(AFS_SYSCALL, AFSCALL_PIOCTL, a_path, o_opcode, a_paramsP, a_followSymlinks); #endif #ifdef AFS_PIOCTL if (afs_entry_point == MULTIPLE_ENTRY_POINT) return syscall(AFS_PIOCTL, a_path, o_opcode, a_paramsP, a_followSymlinks); #endif #ifdef AFS_SYSCALL2 if (afs_entry_point == SINGLE_ENTRY_POINT2) return syscall(AFS_SYSCALL2, AFSCALL_PIOCTL, a_path, o_opcode, a_paramsP, a_followSymlinks); #endif #ifdef _AIX if (afs_entry_point == AIX_ENTRY_POINTS) return lpioctl(a_path, o_opcode, a_paramsP, a_followSymlinks); #endif errno = ENOSYS; kill(getpid(), SIGSYS); /* You loose! */ return -1; } int k_unlog() { struct ViceIoctl parms; bzero((char *)&parms, sizeof(parms)); return k_pioctl(0, VIOCUNLOG, &parms, 0); } int k_setpag() { #ifdef AFS_SYSCALL if (afs_entry_point == SINGLE_ENTRY_POINT) return syscall(AFS_SYSCALL, AFSCALL_SETPAG); #endif #ifdef AFS_SETPAG if (afs_entry_point == MULTIPLE_ENTRY_POINT) return syscall(AFS_SETPAG); #endif #ifdef AFS_SYSCALL2 if (afs_entry_point == SINGLE_ENTRY_POINT2) return syscall(AFS_SYSCALL2, AFSCALL_SETPAG); #endif #ifdef _AIX if (afs_entry_point == AIX_ENTRY_POINTS) return lsetpag(); #endif errno = ENOSYS; kill(getpid(), SIGSYS); /* You loose! */ return -1; } #endif /* defined(linux) */ static jmp_buf catch_SIGSYS; static void SIGSYS_handler() { errno = 0; longjmp(catch_SIGSYS, 1); } int k_hasafs() { int saved_errno; void (*saved_func)(); struct ViceIoctl parms; #if defined(linux) return 0; #else /* * Already checked presence of AFS syscalls? */ if (afs_entry_point != UNKNOWN_ENTRY_POINT) return afs_entry_point != NO_ENTRY_POINT; /* * Probe kernel for AFS specific syscalls, * they (currently) come in two flavors. * If the syscall is absent we recive a SIGSYS. */ afs_entry_point = NO_ENTRY_POINT; bzero(&parms, sizeof(parms)); saved_errno = errno; saved_func = signal(SIGSYS, SIGSYS_handler); #ifdef AFS_SYSCALL if (setjmp(catch_SIGSYS) == 0) { syscall(AFS_SYSCALL, AFSCALL_PIOCTL, 0, VIOCSETTOK, &parms, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0); if (errno == EINVAL) { afs_entry_point = SINGLE_ENTRY_POINT; goto done; } } #endif /* AFS_SYSCALL */ #ifdef AFS_PIOCTL if (setjmp(catch_SIGSYS) == 0) { syscall(AFS_PIOCTL, 0, VIOCSETTOK, &parms, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0); if (errno == EINVAL) { afs_entry_point = MULTIPLE_ENTRY_POINT; goto done; } } #endif /* AFS_PIOCTL */ #ifdef AFS_SYSCALL2 if (setjmp(catch_SIGSYS) == 0) { syscall(AFS_SYSCALL2, AFSCALL_PIOCTL, 0, VIOCSETTOK, &parms, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0); if (errno == EINVAL) { afs_entry_point = SINGLE_ENTRY_POINT2; goto done; } } #endif /* AFS_SYSCALL */ #ifdef _AIX if (setjmp(catch_SIGSYS) == 0) { lpioctl(0, 0, 0, 0); if (errno == EINVAL) { afs_entry_point = AIX_ENTRY_POINTS; goto done; } } #endif done: (void) signal(SIGSYS, saved_func); errno = saved_errno; return afs_entry_point != NO_ENTRY_POINT; #endif /* linux */ }