/* qfplist.c Property list management Copyright (C) 2000 Jeff Teunissen This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #if defined(_WIN32) && defined(HAVE_MALLOC_H) #include #endif #include "QF/dstring.h" #include "QF/hash.h" #include "QF/qfplist.h" #include "QF/qtypes.h" #include "QF/sys.h" /* Generic property list item. */ struct plitem_s { pltype_t type; void *data; }; /* Dictionaries */ struct dictkey_s { char *key; plitem_t *value; }; typedef struct dictkey_s dictkey_t; /* Arrays */ struct plarray_s { int numvals; ///< Number of items in array int maxvals; ///< Number of items that can be stored ///< before a realloc is necesary. struct plitem_s **values; ///< Array data }; typedef struct plarray_s plarray_t; /* Typeless, unformatted binary data */ struct plbinary_s { size_t size; void *data; }; typedef struct plbinary_s plbinary_t; typedef struct pldata_s { // Unparsed property list string const char *ptr; unsigned int end; unsigned int pos; unsigned int line; const char *error; } pldata_t; // Ugly defines for fast checking and conversion from char to number #define inrange(ch,min,max) ((ch) >= (min) && (ch) <= (max)) #define char2num(ch) \ (inrange((ch), '0', '9') ? ((ch) - '0') \ : 10 + (inrange((ch), 'a', 'f') ? ((ch) - 'a') \ : ((ch) - 'A'))) static byte quotable_bitmap[32]; static inline int is_quotable (byte x) { return quotable_bitmap[x / 8] & (1 << (x % 8)); } static void init_quotables (void) { const char *unquotables = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz!#$%&*+-./:?@|~_^"; const byte *c; memset (quotable_bitmap, ~0, sizeof (quotable_bitmap)); for (c = (byte *) unquotables; *c; c++) quotable_bitmap[*c / 8] &= ~(1 << (*c % 8)); } static plitem_t *PL_ParsePropertyListItem (pldata_t *); static qboolean PL_SkipSpace (pldata_t *); static char *PL_ParseQuotedString (pldata_t *); static char *PL_ParseUnquotedString (pldata_t *); static char *PL_ParseData (pldata_t *, int *); static const char * dict_get_key (const void *i, void *unused) { dictkey_t *item = (dictkey_t *) i; return item->key; } static void dict_free (void *i, void *unused) { dictkey_t *item = (dictkey_t *) i; free (item->key); if (item->value) // Make descended stuff get freed PL_Free (item->value); free (item); } static plitem_t * PL_NewItem (pltype_t type) { plitem_t *item = calloc (1, sizeof (plitem_t)); item->type = type; return item; } VISIBLE plitem_t * PL_NewDictionary (void) { plitem_t *item = PL_NewItem (QFDictionary); hashtab_t *dict = Hash_NewTable (1021, dict_get_key, dict_free, NULL); item->data = dict; return item; } VISIBLE plitem_t * PL_NewArray (void) { plitem_t *item = PL_NewItem (QFArray); plarray_t *array = calloc (1, sizeof (plarray_t)); item->data = array; return item; } VISIBLE plitem_t * PL_NewData (void *data, size_t size) { plitem_t *item = PL_NewItem (QFBinary); plbinary_t *bin = malloc (sizeof (plbinary_t)); item->data = bin; bin->data = data; bin->size = size; return item; } static plitem_t * new_string (char *str) { plitem_t *item = PL_NewItem (QFString); item->data = str; return item; } VISIBLE plitem_t * PL_NewString (const char *str) { return new_string (strdup (str)); } VISIBLE void PL_Free (plitem_t *item) { switch (item->type) { case QFDictionary: Hash_DelTable (item->data); break; case QFArray: { int i = ((plarray_t *) item->data)->numvals; while (i-- > 0) { PL_Free (((plarray_t *) item->data)->values[i]); } free (((plarray_t *) item->data)->values); free (item->data); } break; case QFBinary: free (((plbinary_t *) item->data)->data); free (item->data); break; case QFString: free (item->data); break; } free (item); } VISIBLE const char * PL_String (plitem_t *string) { if (string->type != QFString) return NULL; return string->data; } VISIBLE plitem_t * PL_ObjectForKey (plitem_t *dict, const char *key) { hashtab_t *table = (hashtab_t *) dict->data; dictkey_t *k; if (dict->type != QFDictionary) return NULL; k = (dictkey_t *) Hash_Find (table, key); return k ? k->value : NULL; } VISIBLE plitem_t * PL_RemoveObjectForKey (plitem_t *dict, const char *key) { hashtab_t *table = (hashtab_t *) dict->data; dictkey_t *k; plitem_t *value; if (dict->type != QFDictionary) return NULL; k = (dictkey_t *) Hash_Del (table, key); if (!k) return NULL; value = k->value; k->value = 0; dict_free (k, 0); return value; } VISIBLE plitem_t * PL_D_AllKeys (plitem_t *dict) { void **list, **l; dictkey_t *current; plitem_t *array; if (dict->type != QFDictionary) return NULL; if (!(l = list = Hash_GetList ((hashtab_t *) dict->data))) return NULL; if (!(array = PL_NewArray ())) return NULL; while ((current = (dictkey_t *) *l++)) { PL_A_AddObject (array, PL_NewString (current->key)); } free (list); return array; } VISIBLE int PL_D_NumKeys (plitem_t *dict) { if (dict->type != QFDictionary) return 0; return Hash_NumElements ((hashtab_t *) dict->data); } VISIBLE plitem_t * PL_ObjectAtIndex (plitem_t *array, int index) { plarray_t *arr = (plarray_t *) array->data; if (array->type != QFArray) return NULL; return index >= 0 && index < arr->numvals ? arr->values[index] : NULL; } VISIBLE qboolean PL_D_AddObject (plitem_t *dict, const char *key, plitem_t *value) { dictkey_t *k; if (dict->type != QFDictionary) return false; if ((k = Hash_Find ((hashtab_t *)dict->data, key))) { PL_Free ((plitem_t *) k->value); k->value = value; } else { k = malloc (sizeof (dictkey_t)); if (!k) return false; k->key = strdup (key); k->value = value; Hash_Add ((hashtab_t *)dict->data, k); } return true; } VISIBLE qboolean PL_A_InsertObjectAtIndex (plitem_t *array, plitem_t *item, int index) { plarray_t *arr; if (array->type != QFArray) return false; arr = (plarray_t *)array->data; if (arr->numvals == arr->maxvals) { int size = (arr->maxvals + 128) * sizeof (plitem_t *); plitem_t **tmp = realloc (arr->values, size); if (!tmp) return false; arr->maxvals += 128; arr->values = tmp; memset (arr->values + arr->numvals, 0, (arr->maxvals - arr->numvals) * sizeof (plitem_t *)); } if (index == -1) index = arr->numvals; if (index < 0 || index > arr->numvals) return false; memmove (arr->values + index + 1, arr->values + index, (arr->numvals - index) * sizeof (plitem_t *)); arr->values[index] = item; arr->numvals++; return true; } VISIBLE qboolean PL_A_AddObject (plitem_t *array, plitem_t *item) { return PL_A_InsertObjectAtIndex (array, item, -1); } VISIBLE int PL_A_NumObjects (plitem_t *array) { if (array->type != QFArray) return 0; return ((plarray_t *) array->data)->numvals; } VISIBLE plitem_t * PL_RemoveObjectAtIndex (plitem_t *array, int index) { plarray_t *arr; plitem_t *item; if (array->type != QFArray) return 0; arr = (plarray_t *)array->data; if (index < 0 || index >= arr->numvals) return 0; item = arr->values[index]; arr->numvals--; while (index < arr->numvals) { arr->values[index] = arr->values[index + 1]; index++; } return item; } static qboolean PL_SkipSpace (pldata_t *pl) { while (pl->pos < pl->end) { char c = pl->ptr[pl->pos]; if (!isspace ((byte) c)) { if (c == '/' && pl->pos < pl->end - 1) { // check for comments if (pl->ptr[pl->pos + 1] == '/') { pl->pos += 2; while (pl->pos < pl->end) { c = pl->ptr[pl->pos]; if (c == '\n') break; pl->pos++; } if (pl->pos >= pl->end) { pl->error = "Reached end of string in comment"; return false; } } else if (pl->ptr[pl->pos + 1] == '*') { // "/*" comments pl->pos += 2; while (pl->pos < pl->end) { c = pl->ptr[pl->pos]; if (c == '\n') { pl->line++; } else if (c == '*' && pl->pos < pl->end - 1 && pl->ptr[pl->pos+1] == '/') { pl->pos++; break; } pl->pos++; } if (pl->pos >= pl->end) { pl->error = "Reached end of string in comment"; return false; } } else { return true; } } else { return true; } } if (c == '\n') { pl->line++; } pl->pos++; } pl->error = "Reached end of string"; return false; } static inline byte from_hex (byte a) { if (a >= '0' && a <= '9') return a - '0'; if (a >= 'A' && a <= 'F') return a - 'A' + 10; return a - 'a' + 10; } static inline byte make_byte (byte h, byte l) { return (from_hex (h) << 4) | from_hex (l); } static char * PL_ParseData (pldata_t *pl, int *len) { unsigned start = ++pl->pos; int nibbles = 0, i; char *str, c; while (pl->pos < pl->end) { c = pl->ptr[pl->pos++]; if (isxdigit ((byte) c)) { nibbles++; continue; } if (c == '>') { if (nibbles & 1) { pl->error = "invalid data, missing nibble"; return NULL; } *len = nibbles / 2; str = malloc (*len); for (i = 0; i < *len; i++) str[i] = make_byte (pl->ptr[start + i * 2], pl->ptr[start + i * 2 + 1]); return str; } pl->error = "invalid character in data"; return NULL; } pl->error = "Reached end of string while parsing data"; return NULL; } static char * PL_ParseQuotedString (pldata_t *pl) { unsigned int start = ++pl->pos; unsigned int escaped = 0; unsigned int shrink = 0; qboolean hex = false; qboolean long_string = false; char *str; if (pl->ptr[pl->pos] == '"' && pl->ptr[pl->pos + 1] == '"') { long_string = true; start += 2; pl->pos += 2; } while (pl->pos < pl->end) { char c = pl->ptr[pl->pos]; if (escaped) { if (escaped == 1 && c == '0') { escaped++; hex = false; } else if (escaped > 1) { if (escaped == 2 && c == 'x') { hex = true; shrink++; escaped++; } else if (hex && isxdigit ((byte) c)) { shrink++; escaped++; } else if (c >= '0' && c <= '7') { shrink++; escaped++; } else { pl->pos--; escaped = 0; } } else { escaped = 0; } } else { if (c == '\\') { escaped = 1; shrink++; } else if (c == '"' && (!long_string || (pl->ptr[pl->pos + 1] == '"' && pl->ptr[pl->pos + 2] == '"'))) { break; } } if (c == '\n') { pl->line++; } pl->pos++; } if (pl->pos >= pl->end) { pl->error = "Reached end of string while parsing quoted string"; return NULL; } if (pl->pos - start - shrink == 0) { str = strdup (""); } else { char *chars = alloca(pl->pos - start - shrink); unsigned int j; unsigned int k; escaped = 0; hex = false; for (j = start, k = 0; j < pl->pos; j++) { char c = pl->ptr[j]; if (escaped) { if (escaped == 1 && c == '0') { chars[k] = 0; hex = false; escaped++; } else if (escaped > 1) { if (escaped == 2 && c == 'x') { hex = true; escaped++; } else if (hex && isxdigit ((byte) c)) { chars[k] <<= 4; chars[k] |= char2num (c); escaped++; } else if (inrange (c, '0', '7')) { chars[k] <<= 3; chars[k] |= (c - '0'); escaped++; } else { escaped = 0; j--; k++; } } else { escaped = 0; switch (c) { case 'a': chars[k] = '\a'; break; case 'b': chars[k] = '\b'; break; case 't': chars[k] = '\t'; break; case 'r': chars[k] = '\r'; break; case 'n': chars[k] = '\n'; break; case 'v': chars[k] = '\v'; break; case 'f': chars[k] = '\f'; break; default: chars[k] = c; break; } k++; } } else { chars[k] = c; if (c == '\\') { escaped = 1; } else { k++; } } } str = strncat (calloc ((pl->pos - start - shrink) + 1, 1), chars, pl->pos - start - shrink); } if (long_string) pl->pos += 2; pl->pos++; return str; } static char * PL_ParseUnquotedString (pldata_t *pl) { unsigned int start = pl->pos; char *str; while (pl->pos < pl->end) { if (is_quotable (pl->ptr[pl->pos])) break; pl->pos++; } str = strncat (calloc ((pl->pos - start) + 1, 1), &pl->ptr[start], pl->pos - start); return str; } static plitem_t * PL_ParsePropertyListItem (pldata_t *pl) { plitem_t *item = NULL; if (!PL_SkipSpace (pl)) return NULL; switch (pl->ptr[pl->pos]) { case '{': { item = PL_NewDictionary (); pl->pos++; while (PL_SkipSpace (pl) && pl->ptr[pl->pos] != '}') { plitem_t *key; plitem_t *value; if (!(key = PL_ParsePropertyListItem (pl))) { PL_Free (item); return NULL; } if (!(PL_SkipSpace (pl))) { PL_Free (key); PL_Free (item); return NULL; } if (key->type != QFString) { pl->error = "Key is not a string"; PL_Free (key); PL_Free (item); return NULL; } if (pl->ptr[pl->pos] != '=') { pl->error = "Unexpected character (expected '=')"; PL_Free (key); PL_Free (item); return NULL; } pl->pos++; // If there is no value, lose the key if (!(value = PL_ParsePropertyListItem (pl))) { PL_Free (key); PL_Free (item); return NULL; } if (!(PL_SkipSpace (pl))) { PL_Free (key); PL_Free (value); PL_Free (item); return NULL; } if (pl->ptr[pl->pos] == ';') { pl->pos++; } else if (pl->ptr[pl->pos] != '}') { pl->error = "Unexpected character (wanted ';' or '}')"; PL_Free (key); PL_Free (value); PL_Free (item); return NULL; } // Add the key/value pair to the dictionary if (!PL_D_AddObject (item, PL_String (key), value)) { PL_Free (key); PL_Free (value); PL_Free (item); return NULL; } PL_Free (key); } if (pl->pos >= pl->end) { // Catch the error pl->error = "Unexpected end of string when parsing dictionary"; PL_Free (item); return NULL; } pl->pos++; return item; } case '(': { item = PL_NewArray (); pl->pos++; while (PL_SkipSpace (pl) && pl->ptr[pl->pos] != ')') { plitem_t *value; if (!(value = PL_ParsePropertyListItem (pl))) { PL_Free (item); return NULL; } if (!(PL_SkipSpace (pl))) { PL_Free (value); PL_Free (item); return NULL; } if (pl->ptr[pl->pos] == ',') { pl->pos++; } else if (pl->ptr[pl->pos] != ')') { pl->error = "Unexpected character (wanted ',' or ')')"; PL_Free (value); PL_Free (item); return NULL; } if (!PL_A_AddObject (item, value)) { pl->error = "Unexpected character (too many items in array)"; PL_Free (value); PL_Free (item); return NULL; } } pl->pos++; return item; } case '<': { int len; char *str = PL_ParseData (pl, &len); if (!str) { return NULL; } else { return PL_NewData (str, len); } } case '"': { char *str = PL_ParseQuotedString (pl); if (!str) { return NULL; } else { return new_string (str); } } default: { char *str = PL_ParseUnquotedString (pl); if (!str) { return NULL; } else { return new_string (str); } } } // switch } VISIBLE plitem_t * PL_GetPropertyList (const char *string) { pldata_t *pl = calloc (1, sizeof (pldata_t)); plitem_t *newpl = NULL; if (!quotable_bitmap[0]) init_quotables (); pl->ptr = string; pl->pos = 0; pl->end = strlen (string); pl->error = NULL; pl->line = 1; if ((newpl = PL_ParsePropertyListItem (pl))) { free (pl); return newpl; } else { if (pl && pl->error && pl->error[0]) Sys_Printf ("plist: %d,%d: %s", pl->line, pl->pos, pl->error); free (pl); return NULL; } } static void write_tabs (dstring_t *dstr, int num) { char *tabs = dstring_reservestr (dstr, num); memset (tabs, '\t', num); tabs[num] = 0; } static void write_string_len (dstring_t *dstr, const char *str, int len) { char *dst = dstring_reservestr (dstr, len); memcpy (dst, str, len); dst[len] = 0; } static char to_hex (byte b) { char c = (b & 0xf) + '0'; if (c > '9') c = c - '0' + 'A'; return c; } static void write_binary (dstring_t *dstr, byte *binary, int len) { int i; char *dst = dstring_reservestr (dstr, len * 2); for (i = 0; i < len; i++) { *dst++ = to_hex (binary[i] >> 4); *dst++ = to_hex (binary[i]); } } static void write_string (dstring_t *dstr, const char *str) { const char *s; int len = 0; char *dst; int quoted = 0; for (s = str; *s; s++) { if (is_quotable (*s)) quoted = 1; len++; } if (!quoted) { dst = dstring_reservestr (dstr, len); strcpy (dst, str); return; } // assume worst case of all octal chars plus two quotes. dst = dstring_reservestr (dstr, strlen (str) * 4 + 2); *dst++= '\"'; while (*str) { if (*str && isascii ((byte) *str) && isprint ((byte) *str) && *str != '\\' && *str != '\"') { *dst++ = *str++; continue; } if (*str) { *dst++ = '\\'; switch (*str) { case '\"': case '\\': *dst++ = *str; break; case '\n': *dst++ = 'n'; break; case '\a': *dst++ = 'a'; break; case '\b': *dst++ = 'b'; break; case '\f': *dst++ = 'f'; break; case '\r': *dst++ = 'r'; break; case '\t': *dst++ = 't'; break; case '\v': *dst++ = 'v'; break; default: *dst++ = '0' + ((((byte) *str) >> 6) & 3); *dst++ = '0' + ((((byte) *str) >> 3) & 7); *dst++ = '0' + (((byte) *str) & 7); break; } str++; } } *dst++ = '\"'; *dst++ = 0; dstr->size = dst - dstr->str; } static void write_item (dstring_t *dstr, plitem_t *item, int level) { void **list, **l; dictkey_t *current; plarray_t *array; plbinary_t *binary; int i; switch (item->type) { case QFDictionary: write_string_len (dstr, "{\n", 2); l = list = Hash_GetList ((hashtab_t *) item->data); while ((current = (dictkey_t *) *l++)) { write_tabs (dstr, level + 1); write_string (dstr, current->key); write_string_len (dstr, " = ", 3); write_item (dstr, current->value, level + 1); write_string_len (dstr, ";\n", 2); } free (list); write_tabs (dstr, level); write_string_len (dstr, "}", 1); break; case QFArray: write_string_len (dstr, "(\n", 2); array = (plarray_t *) item->data; for (i = 0; i < array->numvals; i++) { write_tabs (dstr, level + 1); write_item (dstr, array->values[i], level + 1); if (i < array->numvals - 1) write_string_len (dstr, ",\n", 2); } write_string_len (dstr, "\n", 1); write_tabs (dstr, level); write_string_len (dstr, ")", 1); break; case QFBinary: write_string_len (dstr, "<", 1); binary = (plbinary_t *) item->data; write_binary (dstr, binary->data, binary->size); write_string_len (dstr, ">", 1); break; case QFString: write_string (dstr, item->data); break; default: break; } } VISIBLE char * PL_WritePropertyList (plitem_t *pl) { dstring_t *dstr = dstring_newstr (); if (!quotable_bitmap[0]) init_quotables (); write_item (dstr, pl, 0); write_string_len (dstr, "\n", 1); return dstring_freeze (dstr); } VISIBLE pltype_t PL_Type (plitem_t *item) { return item->type; }