/* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 2000-2021 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* ACKNOWLEDGEMENT: * This work was initially developed by Pierangelo Masarati for * inclusion in OpenLDAP Software. */ #include #include "rewrite-int.h" /* * Compiles a substitution pattern */ struct rewrite_subst * rewrite_subst_compile( struct rewrite_info *info, const char *str ) { size_t subs_len; struct berval *subs = NULL, *tmps; struct rewrite_submatch *submatch = NULL, *tmpsm; struct rewrite_subst *s = NULL; char *result, *begin, *p; int nsub = 0, l; assert( info != NULL ); assert( str != NULL ); result = strdup( str ); if ( result == NULL ) { return NULL; } /* * Take care of substitution string */ for ( p = begin = result, subs_len = 0; p[ 0 ] != '\0'; p++ ) { /* * Keep only single escapes '%' */ if ( !IS_REWRITE_SUBMATCH_ESCAPE( p[ 0 ] ) ) { continue; } if ( IS_REWRITE_SUBMATCH_ESCAPE( p[ 1 ] ) ) { /* Pull &p[1] over p, including the trailing '\0' */ AC_MEMCPY((char *)p, &p[ 1 ], strlen( p ) ); continue; } tmps = ( struct berval * )realloc( subs, sizeof( struct berval )*( nsub + 1 ) ); if ( tmps == NULL ) { goto cleanup; } subs = tmps; subs[ nsub ].bv_val = NULL; tmpsm = ( struct rewrite_submatch * )realloc( submatch, sizeof( struct rewrite_submatch )*( nsub + 1 ) ); if ( tmpsm == NULL ) { goto cleanup; } submatch = tmpsm; submatch[ nsub ].ls_map = NULL; /* * I think an `if l > 0' at runtime is better outside than * inside a function call ... */ l = p - begin; if ( l > 0 ) { subs_len += l; subs[ nsub ].bv_len = l; subs[ nsub ].bv_val = malloc( l + 1 ); if ( subs[ nsub ].bv_val == NULL ) { goto cleanup; } AC_MEMCPY( subs[ nsub ].bv_val, begin, l ); subs[ nsub ].bv_val[ l ] = '\0'; } else { subs[ nsub ].bv_val = NULL; subs[ nsub ].bv_len = 0; } /* * Substitution pattern */ if ( isdigit( (unsigned char) p[ 1 ] ) ) { int d = p[ 1 ] - '0'; /* * Add a new value substitution scheme */ submatch[ nsub ].ls_submatch = d; /* * If there is no argument, use default * (substitute substring as is) */ if ( p[ 2 ] != '{' ) { submatch[ nsub ].ls_type = REWRITE_SUBMATCH_ASIS; submatch[ nsub ].ls_map = NULL; begin = ++p + 1; } else { struct rewrite_map *map; submatch[ nsub ].ls_type = REWRITE_SUBMATCH_XMAP; map = rewrite_xmap_parse( info, p + 3, (const char **)&begin ); if ( map == NULL ) { goto cleanup; } submatch[ nsub ].ls_map = map; p = begin - 1; } /* * Map with args ... */ } else if ( p[ 1 ] == '{' ) { struct rewrite_map *map; map = rewrite_map_parse( info, p + 2, (const char **)&begin ); if ( map == NULL ) { goto cleanup; } p = begin - 1; /* * Add a new value substitution scheme */ submatch[ nsub ].ls_type = REWRITE_SUBMATCH_MAP_W_ARG; submatch[ nsub ].ls_map = map; /* * Escape '%' ... */ } else if ( p[ 1 ] == '%' ) { AC_MEMCPY( &p[ 1 ], &p[ 2 ], strlen( &p[ 1 ] ) ); continue; } else { goto cleanup; } nsub++; } /* * Last part of string */ tmps = (struct berval * )realloc( subs, sizeof( struct berval )*( nsub + 1 ) ); if ( tmps == NULL ) { /* * XXX need to free the value subst stuff! */ free( subs ); goto cleanup; } subs = tmps; l = p - begin; if ( l > 0 ) { subs_len += l; subs[ nsub ].bv_len = l; subs[ nsub ].bv_val = malloc( l + 1 ); if ( subs[ nsub ].bv_val == NULL ) { goto cleanup; } AC_MEMCPY( subs[ nsub ].bv_val, begin, l ); subs[ nsub ].bv_val[ l ] = '\0'; } else { subs[ nsub ].bv_val = NULL; subs[ nsub ].bv_len = 0; } s = calloc( sizeof( struct rewrite_subst ), 1 ); if ( s == NULL ) { goto cleanup; } s->lt_subs_len = subs_len; s->lt_subs = subs; s->lt_num_submatch = nsub; s->lt_submatch = submatch; subs = NULL; submatch = NULL; cleanup:; if ( subs ) { for ( l=0; lls_type == REWRITE_SUBMATCH_ASIS || submatch->ls_type == REWRITE_SUBMATCH_XMAP ); assert( string != NULL ); assert( match != NULL ); assert( val != NULL ); assert( val->bv_val == NULL ); c = submatch->ls_submatch; s = string + match[ c ].rm_so; l = match[ c ].rm_eo - match[ c ].rm_so; val->bv_len = l; val->bv_val = malloc( l + 1 ); if ( val->bv_val == NULL ) { return REWRITE_ERR; } AC_MEMCPY( val->bv_val, s, l ); val->bv_val[ l ] = '\0'; return REWRITE_SUCCESS; } /* * Substitutes a portion of rewritten string according to substitution * pattern using submatches */ int rewrite_subst_apply( struct rewrite_info *info, struct rewrite_op *op, struct rewrite_subst *subst, const char *string, const regmatch_t *match, struct berval *val ) { struct berval *submatch = NULL; char *res = NULL; int n = 0, l, cl; int rc = REWRITE_REGEXEC_OK; assert( info != NULL ); assert( op != NULL ); assert( subst != NULL ); assert( string != NULL ); assert( match != NULL ); assert( val != NULL ); assert( val->bv_val == NULL ); val->bv_val = NULL; val->bv_len = 0; /* * Prepare room for submatch expansion */ if ( subst->lt_num_submatch > 0 ) { submatch = calloc( sizeof( struct berval ), subst->lt_num_submatch ); if ( submatch == NULL ) { return REWRITE_REGEXEC_ERR; } } /* * Resolve submatches (simple subst, map expansion and so). */ for ( n = 0, l = 0; n < subst->lt_num_submatch; n++ ) { struct berval key = { 0, NULL }; submatch[ n ].bv_val = NULL; /* * Get key */ switch ( subst->lt_submatch[ n ].ls_type ) { case REWRITE_SUBMATCH_ASIS: case REWRITE_SUBMATCH_XMAP: rc = submatch_copy( &subst->lt_submatch[ n ], string, match, &key ); if ( rc != REWRITE_SUCCESS ) { rc = REWRITE_REGEXEC_ERR; goto cleanup; } break; case REWRITE_SUBMATCH_MAP_W_ARG: switch ( subst->lt_submatch[ n ].ls_map->lm_type ) { case REWRITE_MAP_GET_OP_VAR: case REWRITE_MAP_GET_SESN_VAR: case REWRITE_MAP_GET_PARAM: rc = REWRITE_SUCCESS; break; default: rc = rewrite_subst_apply( info, op, subst->lt_submatch[ n ].ls_map->lm_subst, string, match, &key); } if ( rc != REWRITE_SUCCESS ) { goto cleanup; } break; default: Debug( LDAP_DEBUG_ANY, "Not Implemented\n" ); rc = REWRITE_ERR; break; } if ( rc != REWRITE_SUCCESS ) { rc = REWRITE_REGEXEC_ERR; goto cleanup; } /* * Resolve key */ switch ( subst->lt_submatch[ n ].ls_type ) { case REWRITE_SUBMATCH_ASIS: submatch[ n ] = key; rc = REWRITE_SUCCESS; break; case REWRITE_SUBMATCH_XMAP: rc = rewrite_xmap_apply( info, op, subst->lt_submatch[ n ].ls_map, &key, &submatch[ n ] ); free( key.bv_val ); key.bv_val = NULL; break; case REWRITE_SUBMATCH_MAP_W_ARG: rc = rewrite_map_apply( info, op, subst->lt_submatch[ n ].ls_map, &key, &submatch[ n ] ); free( key.bv_val ); key.bv_val = NULL; break; default: /* * When implemented, this might return the * exit status of a rewrite context, * which may include a stop, or an * unwilling to perform */ rc = REWRITE_ERR; break; } if ( rc != REWRITE_SUCCESS ) { rc = REWRITE_REGEXEC_ERR; goto cleanup; } /* * Increment the length of the resulting string */ l += submatch[ n ].bv_len; } /* * Alloc result buffer */ l += subst->lt_subs_len; res = malloc( l + 1 ); if ( res == NULL ) { rc = REWRITE_REGEXEC_ERR; goto cleanup; } /* * Apply submatches (possibly resolved thru maps) */ for ( n = 0, cl = 0; n < subst->lt_num_submatch; n++ ) { if ( subst->lt_subs[ n ].bv_val != NULL ) { AC_MEMCPY( res + cl, subst->lt_subs[ n ].bv_val, subst->lt_subs[ n ].bv_len ); cl += subst->lt_subs[ n ].bv_len; } AC_MEMCPY( res + cl, submatch[ n ].bv_val, submatch[ n ].bv_len ); cl += submatch[ n ].bv_len; } if ( subst->lt_subs[ n ].bv_val != NULL ) { AC_MEMCPY( res + cl, subst->lt_subs[ n ].bv_val, subst->lt_subs[ n ].bv_len ); cl += subst->lt_subs[ n ].bv_len; } res[ cl ] = '\0'; val->bv_val = res; val->bv_len = l; cleanup:; if ( submatch ) { for ( ; --n >= 0; ) { if ( submatch[ n ].bv_val ) { free( submatch[ n ].bv_val ); } } free( submatch ); } return rc; } /* * frees data */ int rewrite_subst_destroy( struct rewrite_subst **psubst ) { int n; struct rewrite_subst *subst; assert( psubst != NULL ); assert( *psubst != NULL ); subst = *psubst; for ( n = 0; n < subst->lt_num_submatch; n++ ) { if ( subst->lt_subs[ n ].bv_val ) { free( subst->lt_subs[ n ].bv_val ); subst->lt_subs[ n ].bv_val = NULL; } switch ( subst->lt_submatch[ n ].ls_type ) { case REWRITE_SUBMATCH_ASIS: break; case REWRITE_SUBMATCH_XMAP: rewrite_xmap_destroy( &subst->lt_submatch[ n ].ls_map ); break; case REWRITE_SUBMATCH_MAP_W_ARG: rewrite_map_destroy( &subst->lt_submatch[ n ].ls_map ); break; default: break; } } free( subst->lt_submatch ); subst->lt_submatch = NULL; /* last one */ if ( subst->lt_subs[ n ].bv_val ) { free( subst->lt_subs[ n ].bv_val ); subst->lt_subs[ n ].bv_val = NULL; } free( subst->lt_subs ); subst->lt_subs = NULL; free( subst ); *psubst = NULL; return 0; }