/* * prof_init.c --- routines that manipulate the user-visible profile_t * object. */ #include #include #ifdef HAVE_STDLIB_H #include #endif #include #if TARGET_OS_MAC #include #endif #include "prof_int.h" /* Find a 4-byte integer type */ #if (SIZEOF_SHORT == 4) typedef short prof_int32; #elif (SIZEOF_INT == 4) typedef int prof_int32; #elif (SIZEOF_LONG == 4) typedef int prof_int32; #else /* SIZEOF_LONG == 4 */ error(do not have a 4-byte integer type) #endif /* SIZEOF_LONG == 4 */ errcode_t KRB5_CALLCONV profile_init(files, ret_profile) const_profile_filespec_t *files; profile_t *ret_profile; { const_profile_filespec_t *fs; profile_t profile; prf_file_t new_file, last = 0; errcode_t retval = 0; initialize_prof_error_table(); profile = malloc(sizeof(struct _profile_t)); if (!profile) return ENOMEM; memset(profile, 0, sizeof(struct _profile_t)); profile->magic = PROF_MAGIC_PROFILE; /* if the filenames list is not specified return an empty profile */ if ( files ) { for (fs = files; !PROFILE_LAST_FILESPEC(*fs); fs++) { retval = profile_open_file(*fs, &new_file); /* if this file is missing, skip to the next */ if (retval == ENOENT || retval == EACCES) { continue; } if (retval) { profile_release(profile); return retval; } if (last) last->next = new_file; else profile->first_file = new_file; last = new_file; } /* * If last is still null after the loop, then all the files were * missing, so return the appropriate error. */ if (!last) { profile_release(profile); return ENOENT; } } *ret_profile = profile; return 0; } errcode_t KRB5_CALLCONV profile_init_path(filepath, ret_profile) const_profile_filespec_list_t filepath; profile_t *ret_profile; { int n_entries, i; unsigned int ent_len; const char *s, *t; profile_filespec_t *filenames; errcode_t retval; /* count the distinct filename components */ for(s = filepath, n_entries = 1; *s; s++) { if (*s == ':') n_entries++; } /* the array is NULL terminated */ filenames = (profile_filespec_t*) malloc((n_entries+1) * sizeof(char*)); if (filenames == 0) return ENOMEM; /* measure, copy, and skip each one */ for(s = filepath, i=0; (t = strchr(s, ':')) || (t=s+strlen(s)); s=t+1, i++) { ent_len = t-s; filenames[i] = (char*) malloc(ent_len + 1); if (filenames[i] == 0) { /* if malloc fails, free the ones that worked */ while(--i >= 0) free(filenames[i]); free(filenames); return ENOMEM; } strncpy(filenames[i], s, ent_len); filenames[i][ent_len] = 0; if (*t == 0) { i++; break; } } /* cap the array */ filenames[i] = 0; retval = profile_init((const_profile_filespec_t *) filenames, ret_profile); /* count back down and free the entries */ while(--i >= 0) free(filenames[i]); free(filenames); return retval; } #if TARGET_OS_MAC KRB5_DLLIMP errcode_t KRB5_CALLCONV FSp_profile_init(files, ret_profile) const FSSpec* files; profile_t *ret_profile; { UInt32 fileCount = 0; const FSSpec* nextSpec; char** pathArray = NULL; UInt32 i; errcode_t retval = 0; for (nextSpec = files; ; nextSpec++) { if ((nextSpec -> vRefNum == 0) && (nextSpec -> parID == 0) && (StrLength (nextSpec -> name) == 0)) break; fileCount++; } pathArray = malloc ((fileCount + 1) * sizeof (char*)); if (pathArray == NULL) { retval = ENOMEM; } if (retval == 0) { for (i = 0; i < fileCount + 1; i++) { pathArray [i] = NULL; } for (i = 0; i < fileCount; i++) { OSErr err = FSpGetFullPOSIXPath (&files [i], &pathArray [i]); if (err == memFullErr) { retval = ENOMEM; break; } else if (err != noErr) { retval = ENOENT; break; } } } if (retval == 0) { retval = profile_init (pathArray, ret_profile); } if (pathArray != NULL) { for (i = 0; i < fileCount; i++) { if (pathArray [i] != 0) free (pathArray [i]); } free (pathArray); } return retval; } KRB5_DLLIMP errcode_t KRB5_CALLCONV FSp_profile_init_path(files, ret_profile) const FSSpec* files; profile_t *ret_profile; { return FSp_profile_init (files, ret_profile); } #endif /* TARGET_OS_MAC */ errcode_t KRB5_CALLCONV profile_flush(profile) profile_t profile; { if (!profile || profile->magic != PROF_MAGIC_PROFILE) return PROF_MAGIC_PROFILE; if (profile->first_file) return profile_flush_file(profile->first_file); return 0; } void KRB5_CALLCONV profile_abandon(profile) profile_t profile; { prf_file_t p, next; if (!profile || profile->magic != PROF_MAGIC_PROFILE) return; for (p = profile->first_file; p; p = next) { next = p->next; profile_free_file(p); } profile->magic = 0; free(profile); } void KRB5_CALLCONV profile_release(profile) profile_t profile; { prf_file_t p, next; if (!profile || profile->magic != PROF_MAGIC_PROFILE) return; for (p = profile->first_file; p; p = next) { next = p->next; profile_close_file(p); } profile->magic = 0; free(profile); } /* * Here begins the profile serialization functions. */ errcode_t profile_ser_size(unused, profile, sizep) const char *unused; profile_t profile; size_t *sizep; { size_t required; prf_file_t pfp; required = 3*sizeof(prof_int32); for (pfp = profile->first_file; pfp; pfp = pfp->next) { required += sizeof(prof_int32); if (pfp->data->filespec) required += strlen(pfp->data->filespec); } *sizep += required; return 0; } static void pack_int32(oval, bufpp, remainp) prof_int32 oval; unsigned char **bufpp; size_t *remainp; { (*bufpp)[0] = (unsigned char) ((oval >> 24) & 0xff); (*bufpp)[1] = (unsigned char) ((oval >> 16) & 0xff); (*bufpp)[2] = (unsigned char) ((oval >> 8) & 0xff); (*bufpp)[3] = (unsigned char) (oval & 0xff); *bufpp += sizeof(prof_int32); *remainp -= sizeof(prof_int32); } errcode_t profile_ser_externalize(unused, profile, bufpp, remainp) const char *unused; profile_t profile; unsigned char **bufpp; size_t *remainp; { errcode_t retval; size_t required; unsigned char *bp; size_t remain; prf_file_t pfp; prof_int32 fcount, slen; required = 0; bp = *bufpp; remain = *remainp; retval = EINVAL; if (profile) { retval = ENOMEM; (void) profile_ser_size(unused, profile, &required); if (required <= remain) { fcount = 0; for (pfp = profile->first_file; pfp; pfp = pfp->next) fcount++; pack_int32(PROF_MAGIC_PROFILE, &bp, &remain); pack_int32(fcount, &bp, &remain); for (pfp = profile->first_file; pfp; pfp = pfp->next) { slen = (pfp->data->filespec) ? (prof_int32) strlen(pfp->data->filespec) : 0; pack_int32(slen, &bp, &remain); if (slen) { memcpy(bp, pfp->data->filespec, (size_t) slen); bp += slen; remain -= (size_t) slen; } } pack_int32(PROF_MAGIC_PROFILE, &bp, &remain); retval = 0; *bufpp = bp; *remainp = remain; } } return(retval); } static int unpack_int32(intp, bufpp, remainp) prof_int32 *intp; unsigned char **bufpp; size_t *remainp; { if (*remainp >= sizeof(prof_int32)) { *intp = (((prof_int32) (*bufpp)[0] << 24) | ((prof_int32) (*bufpp)[1] << 16) | ((prof_int32) (*bufpp)[2] << 8) | ((prof_int32) (*bufpp)[3])); *bufpp += sizeof(prof_int32); *remainp -= sizeof(prof_int32); return 0; } else return 1; } errcode_t profile_ser_internalize(unused, profilep, bufpp, remainp) const char *unused; profile_t *profilep; unsigned char **bufpp; size_t *remainp; { errcode_t retval; unsigned char *bp; size_t remain; int i; prof_int32 fcount, tmp; profile_filespec_t *flist = 0; bp = *bufpp; remain = *remainp; if (remain >= 12) (void) unpack_int32(&tmp, &bp, &remain); else tmp = 0; if (tmp != PROF_MAGIC_PROFILE) { retval = EINVAL; goto cleanup; } (void) unpack_int32(&fcount, &bp, &remain); retval = ENOMEM; flist = (profile_filespec_t *) malloc(sizeof(profile_filespec_t) * (fcount + 1)); if (!flist) goto cleanup; memset(flist, 0, sizeof(char *) * (fcount+1)); for (i=0; i