/* $OpenLDAP$ */ /* * Copyright 2000-2002 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #include "portable.h" #include #include #include "slap.h" #include "sets.h" static BerVarray set_join (BerVarray lset, int op, BerVarray rset); static BerVarray set_chase (SLAP_SET_GATHER gatherer, void *cookie, BerVarray set, struct berval *attr, int closure); static int set_samedn (char *dn1, char *dn2); long slap_set_size (BerVarray set) { int i; i = 0; if (set != NULL) { while (set[i].bv_val) i++; } return(i); } void slap_set_dispose (BerVarray set) { ber_bvarray_free(set); } static BerVarray set_join (BerVarray lset, int op, BerVarray rset) { BerVarray set; long i, j, last; set = NULL; if (op == '|') { if (lset == NULL || lset->bv_val == NULL) { if (rset == NULL) { if (lset == NULL) return(SLAP_CALLOC(1, sizeof(struct berval))); return(lset); } slap_set_dispose(lset); return(rset); } if (rset == NULL || rset->bv_val == NULL) { slap_set_dispose(rset); return(lset); } i = slap_set_size(lset) + slap_set_size(rset) + 1; set = SLAP_CALLOC(i, sizeof(struct berval)); if (set != NULL) { /* set_chase() depends on this routine to * keep the first elements of the result * set the same (and in the same order) * as the left-set. */ for (i = 0; lset[i].bv_val; i++) set[i] = lset[i]; ch_free(lset); for (i = 0; rset[i].bv_val; i++) { for (j = 0; set[j].bv_val; j++) { if (set_samedn(rset[i].bv_val, set[j].bv_val)) { ch_free(rset[i].bv_val); rset[i].bv_val = NULL; break; } } if (rset[i].bv_val) set[j] = rset[i]; } ch_free(rset); } return(set); } if (op == '&') { if (lset == NULL || lset->bv_val == NULL || rset == NULL || rset->bv_val == NULL) { set = SLAP_CALLOC(1, sizeof(struct berval)); } else { set = lset; lset = NULL; last = slap_set_size(set) - 1; for (i = 0; set[i].bv_val; i++) { for (j = 0; rset[j].bv_val; j++) { if (set_samedn(set[i].bv_val, rset[j].bv_val)) break; } if (rset[j].bv_val == NULL) { ch_free(set[i].bv_val); set[i] = set[last]; set[last].bv_val = NULL; last--; i--; } } } } slap_set_dispose(lset); slap_set_dispose(rset); return(set); } static BerVarray set_chase (SLAP_SET_GATHER gatherer, void *cookie, BerVarray set, struct berval *attr, int closure) { BerVarray vals, nset; char attrstr[32]; struct berval bv; int i; bv.bv_len = attr->bv_len; bv.bv_val = attrstr; if (set == NULL) return(SLAP_CALLOC(1, sizeof(struct berval))); if (set->bv_val == NULL) return(set); if (attr->bv_len > (sizeof(attrstr) - 1)) { slap_set_dispose(set); return(NULL); } AC_MEMCPY(attrstr, attr->bv_val, attr->bv_len); attrstr[attr->bv_len] = 0; nset = SLAP_CALLOC(1, sizeof(struct berval)); if (nset == NULL) { slap_set_dispose(set); return(NULL); } for (i = 0; set[i].bv_val; i++) { vals = (gatherer)(cookie, &set[i], &bv); if (vals != NULL) nset = set_join(nset, '|', vals); } slap_set_dispose(set); if (closure) { for (i = 0; nset[i].bv_val; i++) { vals = (gatherer)(cookie, &nset[i], &bv); if (vals != NULL) { nset = set_join(nset, '|', vals); if (nset == NULL) break; } } } return(nset); } static int set_samedn (char *dn1, char *dn2) { char c1, c2; while (*dn1 == ' ') dn1++; while (*dn2 == ' ') dn2++; while (*dn1 || *dn2) { if (*dn1 != '=' && *dn1 != ',' && *dn2 != '=' && *dn2 != ',') { c1 = *dn1++; c2 = *dn2++; if (c1 >= 'a' && c1 <= 'z') c1 -= 'a' - 'A'; if (c2 >= 'a' && c2 <= 'z') c2 -= 'a' - 'A'; if (c1 != c2) return(0); } else { while (*dn1 == ' ') dn1++; while (*dn2 == ' ') dn2++; if (*dn1++ != *dn2++) return(0); while (*dn1 == ' ') dn1++; while (*dn2 == ' ') dn2++; } } return(1); } int slap_set_filter (SLAP_SET_GATHER gatherer, void *cookie, struct berval *fbv, struct berval *user, struct berval *this, BerVarray *results) { #define IS_SET(x) ( (long)(x) >= 256 ) #define IS_OP(x) ( (long)(x) < 256 ) #define SF_ERROR(x) do { rc = -1; goto _error; } while (0) #define SF_TOP() ( (BerVarray)( (stp < 0) ? 0 : stack[stp] ) ) #define SF_POP() ( (BerVarray)( (stp < 0) ? 0 : stack[stp--] ) ) #define SF_PUSH(x) do { \ if (stp >= 63) SF_ERROR(overflow); \ stack[++stp] = (BerVarray)(long)(x); \ } while (0) BerVarray set, lset; BerVarray stack[64]; int len, op, rc, stp; char c, *filter = fbv->bv_val; if (results) *results = NULL; stp = -1; while ((c = *filter++)) { set = NULL; switch (c) { case ' ': case '\t': case '\x0A': case '\x0D': break; case '(': if (IS_SET(SF_TOP())) SF_ERROR(syntax); SF_PUSH(c); break; case ')': set = SF_POP(); if (IS_OP(set)) SF_ERROR(syntax); if (SF_TOP() == (void *)'(') { SF_POP(); SF_PUSH(set); set = NULL; } else if (IS_OP(SF_TOP())) { op = (long)SF_POP(); lset = SF_POP(); SF_POP(); set = set_join(lset, op, set); if (set == NULL) SF_ERROR(memory); SF_PUSH(set); set = NULL; } else { SF_ERROR(syntax); } break; case '&': case '|': set = SF_POP(); if (IS_OP(set)) SF_ERROR(syntax); if (SF_TOP() == 0 || SF_TOP() == (void *)'(') { SF_PUSH(set); set = NULL; } else if (IS_OP(SF_TOP())) { op = (long)SF_POP(); lset = SF_POP(); set = set_join(lset, op, set); if (set == NULL) SF_ERROR(memory); SF_PUSH(set); set = NULL; } else { SF_ERROR(syntax); } SF_PUSH(c); break; case '[': if ((SF_TOP() == (void *)'/') || IS_SET(SF_TOP())) SF_ERROR(syntax); for ( len = 0; (c = *filter++) && (c != ']'); len++) { } if (c == 0) SF_ERROR(syntax); set = SLAP_CALLOC(2, sizeof(struct berval)); if (set == NULL) SF_ERROR(memory); set->bv_val = SLAP_CALLOC(len + 1, sizeof(char)); if (set->bv_val == NULL) SF_ERROR(memory); AC_MEMCPY(set->bv_val, &filter[-len - 1], len); set->bv_len = len; SF_PUSH(set); set = NULL; break; case '-': c = *filter++; if (c != '>') SF_ERROR(syntax); /* fall through to next case */ case '/': if (IS_OP(SF_TOP())) SF_ERROR(syntax); SF_PUSH('/'); break; default: if ((c != '_') && (c < 'A' || c > 'Z') && (c < 'a' || c > 'z')) { SF_ERROR(syntax); } filter--; for ( len = 1; (c = filter[len]) && ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z')); len++) { } if (len == 4 && memcmp("this", filter, len) == 0) { if ((SF_TOP() == (void *)'/') || IS_SET(SF_TOP())) SF_ERROR(syntax); set = SLAP_CALLOC(2, sizeof(struct berval)); if (set == NULL) SF_ERROR(memory); ber_dupbv( set, this ); if (set->bv_val == NULL) SF_ERROR(memory); } else if (len == 4 && memcmp("user", filter, len) == 0) { if ((SF_TOP() == (void *)'/') || IS_SET(SF_TOP())) SF_ERROR(syntax); set = SLAP_CALLOC(2, sizeof(struct berval)); if (set == NULL) SF_ERROR(memory); ber_dupbv( set, user ); if (set->bv_val == NULL) SF_ERROR(memory); } else if (SF_TOP() != (void *)'/') { SF_ERROR(syntax); } else { struct berval fb2; SF_POP(); fb2.bv_val = filter; fb2.bv_len = len; set = set_chase(gatherer, cookie, SF_POP(), &fb2, c == '*'); if (set == NULL) SF_ERROR(memory); if (c == '*') len++; } filter += len; SF_PUSH(set); set = NULL; break; } } set = SF_POP(); if (IS_OP(set)) SF_ERROR(syntax); if (SF_TOP() == 0) { } else if (IS_OP(SF_TOP())) { op = (long)SF_POP(); lset = SF_POP(); set = set_join(lset, op, set); if (set == NULL) SF_ERROR(memory); } else { SF_ERROR(syntax); } rc = slap_set_size(set); if (results) { *results = set; set = NULL; } _error: if (IS_SET(set)) slap_set_dispose(set); while ((set = SF_POP())) { if (IS_SET(set)) slap_set_dispose(set); } return(rc); }