/* * wee-hdata.c - direct access to WeeChat data using hashtables * * Copyright (C) 2011-2023 Sébastien Helleu * * This file is part of WeeChat, the extensible chat client. * * WeeChat 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 3 of the License, or * (at your option) any later version. * * WeeChat 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 WeeChat. If not, see . */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "weechat.h" #include "wee-hdata.h" #include "wee-eval.h" #include "wee-hashtable.h" #include "wee-log.h" #include "wee-string.h" #include "../plugins/plugin.h" struct t_hashtable *weechat_hdata = NULL; char *hdata_type_string[9] = { "other", "char", "integer", "long", "string", "pointer", "time", "hashtable", "shared_string" }; /* * Frees a hdata variable. */ void hdata_free_var_cb (struct t_hashtable *hashtable, const void *key, void *value) { struct t_hdata_var *var; /* make C compiler happy */ (void) hashtable; (void) key; var = (struct t_hdata_var *)value; if (var) { if (var->array_size) free (var->array_size); if (var->hdata_name) free (var->hdata_name); free (var); } } /* * Frees a hdata list. */ void hdata_free_list_cb (struct t_hashtable *hashtable, const void *key, void *value) { /* make C compiler happy */ (void) hashtable; (void) key; free (value); } /* * Creates a new hdata. * * Returns pointer to new hdata, NULL if error. */ struct t_hdata * hdata_new (struct t_weechat_plugin *plugin, const char *hdata_name, const char *var_prev, const char *var_next, int create_allowed, int delete_allowed, int (*callback_update)(void *data, struct t_hdata *hdata, void *pointer, struct t_hashtable *hashtable), void *callback_update_data) { struct t_hdata *new_hdata; if (!hdata_name || !hdata_name[0]) return NULL; new_hdata = malloc (sizeof (*new_hdata)); if (new_hdata) { new_hdata->name = strdup (hdata_name); new_hdata->plugin = plugin; new_hdata->var_prev = (var_prev) ? strdup (var_prev) : NULL; new_hdata->var_next = (var_next) ? strdup (var_next) : NULL; new_hdata->hash_var = hashtable_new (32, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, NULL, NULL); new_hdata->hash_var->callback_free_value = &hdata_free_var_cb; new_hdata->hash_list = hashtable_new (32, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, NULL, NULL); new_hdata->hash_list->callback_free_value = &hdata_free_list_cb; hashtable_set (weechat_hdata, hdata_name, new_hdata); new_hdata->create_allowed = create_allowed; new_hdata->delete_allowed = delete_allowed; new_hdata->callback_update = callback_update; new_hdata->callback_update_data = callback_update_data; new_hdata->update_pending = 0; } return new_hdata; } /* * Adds a new variable in a hdata. */ void hdata_new_var (struct t_hdata *hdata, const char *name, int offset, int type, int update_allowed, const char *array_size, const char *hdata_name) { struct t_hdata_var *var; const char *ptr_array_size; if (!hdata || !name) return; var = malloc (sizeof (*var)); if (var) { var->offset = offset; var->type = type; var->update_allowed = update_allowed; ptr_array_size = array_size; if (ptr_array_size && (strncmp (ptr_array_size, "*,", 2) == 0)) { var->array_pointer = 1; ptr_array_size += 2; } else { var->array_pointer = 0; } var->array_size = (ptr_array_size && ptr_array_size[0]) ? strdup (ptr_array_size) : NULL; var->hdata_name = (hdata_name && hdata_name[0]) ? strdup (hdata_name) : NULL; hashtable_set (hdata->hash_var, name, var); } } /* * Adds a new list pointer in a hdata. */ void hdata_new_list (struct t_hdata *hdata, const char *name, void *pointer, int flags) { struct t_hdata_list *list; if (!hdata || !name) return; list = malloc (sizeof (*list)); if (list) { list->pointer = pointer; list->flags = flags; hashtable_set (hdata->hash_list, name, list); } } /* * Gets offset of variable in hdata. */ int hdata_get_var_offset (struct t_hdata *hdata, const char *name) { struct t_hdata_var *var; if (!hdata || !name) return -1; var = hashtable_get (hdata->hash_var, name); if (var) return var->offset; return -1; } /* * Gets type of variable in hdata (as integer). */ int hdata_get_var_type (struct t_hdata *hdata, const char *name) { struct t_hdata_var *var; if (!hdata || !name) return -1; var = hashtable_get (hdata->hash_var, name); if (var) return var->type; return -1; } /* * Gets type of variable in hdata (as string). */ const char * hdata_get_var_type_string (struct t_hdata *hdata, const char *name) { struct t_hdata_var *var; if (!hdata || !name) return NULL; var = hashtable_get (hdata->hash_var, name); if (var) return hdata_type_string[(int)var->type]; return NULL; } /* * Gets size of array for a variable (if variable is an array). * * Returns size of array, -1 if variable is not an array (or if error). */ int hdata_get_var_array_size (struct t_hdata *hdata, void *pointer, const char *name) { struct t_hdata_var *var; const char *ptr_size; char *error; long value; int i, offset; void *ptr_value; if (!hdata || !name) return -1; var = hashtable_get (hdata->hash_var, name); if (!var) return -1; ptr_size = var->array_size; if (!ptr_size) return -1; if (strcmp (ptr_size, "*") == 0) { /* * automatic size: look for NULL in array * (this automatic size is possible only with pointers, so with * types: string, pointer, hashtable) */ if ((var->type == WEECHAT_HDATA_STRING) || (var->type == WEECHAT_HDATA_SHARED_STRING) || (var->type == WEECHAT_HDATA_POINTER) || (var->type == WEECHAT_HDATA_HASHTABLE)) { if (!(*((void **)(pointer + var->offset)))) return 0; i = 0; while (1) { ptr_value = NULL; switch (var->type) { case WEECHAT_HDATA_STRING: case WEECHAT_HDATA_SHARED_STRING: ptr_value = (*((char ***)(pointer + var->offset)))[i]; break; case WEECHAT_HDATA_POINTER: ptr_value = (*((void ***)(pointer + var->offset)))[i]; break; case WEECHAT_HDATA_HASHTABLE: ptr_value = (*((struct t_hashtable ***)(pointer + var->offset)))[i]; break; } if (!ptr_value) break; i++; } return i; } } else { /* fixed size: the size can be a name of variable or integer */ offset = hdata_get_var_offset (hdata, ptr_size); if (offset >= 0) { /* size is the name of a variable in hdata, read it */ switch (hdata_get_var_type (hdata, ptr_size)) { case WEECHAT_HDATA_CHAR: return (int)(*((char *)(pointer + offset))); case WEECHAT_HDATA_INTEGER: return *((int *)(pointer + offset)); case WEECHAT_HDATA_LONG: return (int)(*((long *)(pointer + offset))); default: break; } } else { /* check if the size is a valid integer */ error = NULL; value = strtol (ptr_size, &error, 10); if (error && !error[0]) return (int)value; } } return -1; } /* * Gets size of array for variable as string. */ const char * hdata_get_var_array_size_string (struct t_hdata *hdata, void *pointer, const char *name) { struct t_hdata_var *var; /* make C compiler happy */ (void) pointer; if (!hdata || !name) return NULL; var = hashtable_get (hdata->hash_var, name); if (var) return (const char *)var->array_size; return NULL; } /* * Gets hdata name for a variable. * * Returns hdata name, NULL if variable has no hdata. */ const char * hdata_get_var_hdata (struct t_hdata *hdata, const char *name) { struct t_hdata_var *var; if (!hdata || !name) return NULL; var = hashtable_get (hdata->hash_var, name); if (var) return (const char *)var->hdata_name; return NULL; } /* * Gets pointer to content of variable using hdata variable name. */ void * hdata_get_var (struct t_hdata *hdata, void *pointer, const char *name) { int offset; if (!hdata || !pointer || !name) return NULL; offset = hdata_get_var_offset (hdata, name); if (offset >= 0) return pointer + offset; return NULL; } /* * Gets pointer to content of variable using hdata variable offset. */ void * hdata_get_var_at_offset (struct t_hdata *hdata, void *pointer, int offset) { if (!hdata || !pointer) return NULL; return pointer + offset; } /* * Gets a list pointer in hdata. */ void * hdata_get_list (struct t_hdata *hdata, const char *name) { struct t_hdata_list *ptr_list; if (!hdata || !name) return NULL; ptr_list = hashtable_get (hdata->hash_list, name); if (ptr_list) return *((void **)(ptr_list->pointer)); return NULL; } /* * Checks if a pointer is in the list. * * Returns: * 1: pointer exists in list * 0: pointer does not exist */ int hdata_check_pointer_in_list (struct t_hdata *hdata, void *list, void *pointer) { void *ptr_current; if (!hdata || !pointer) return 0; if (pointer == list) return 1; ptr_current = list; while (ptr_current) { ptr_current = hdata_move (hdata, ptr_current, 1); if (ptr_current && (ptr_current == pointer)) return 1; } return 0; } /* * Checks if a pointer is in a list with flag "check_pointers". */ void hdata_check_pointer_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { void **pointers, *pointer, **num_lists, **found; struct t_hdata *ptr_hdata; struct t_hdata_list *ptr_list; /* make C compiler happy */ (void) hashtable; (void) key; pointers = (void **)data; ptr_hdata = pointers[0]; pointer = pointers[1]; num_lists = &pointers[2]; found = &pointers[3]; /* pointer already found in another list? just exit */ if (*found) return; ptr_list = (struct t_hdata_list *)value; if (!ptr_list || !(ptr_list->flags & WEECHAT_HDATA_LIST_CHECK_POINTERS)) return; *found = (void *)((unsigned long)hdata_check_pointer_in_list ( ptr_hdata, *((void **)(ptr_list->pointer)), pointer)); (*num_lists)++; } /* * Checks if a pointer is valid for a given hdata/list. * * If argument "list" is NULL, the check is made with all lists in hdata * that have flag "check_pointers". If no list is defined with this flag, * the pointer is considered valid (so this function returns 1); if the * pointer is not found in any list, this function returns 0. * * Returns: * 1: pointer exists in the given list (or a list with check_pointers flag) * 0: pointer does not exist */ int hdata_check_pointer (struct t_hdata *hdata, void *list, void *pointer) { void *pointers[4]; if (!hdata || !pointer) return 0; if (list) { /* search pointer in the given list */ return hdata_check_pointer_in_list (hdata, list, pointer); } else { /* search pointer in all lists with flag "check_pointers" */ pointers[0] = hdata; pointers[1] = pointer; pointers[2] = 0; /* number of lists with flag check_pointers */ pointers[3] = 0; /* pointer found? (0/1) */ hashtable_map (hdata->hash_list, &hdata_check_pointer_map_cb, pointers); return ((pointers[2] == 0) || pointers[3]) ? 1 : 0; } } /* * Moves pointer to another element in list. */ void * hdata_move (struct t_hdata *hdata, void *pointer, int count) { char *ptr_var; int i, abs_count; if (!hdata || !pointer || (count == 0)) return NULL; ptr_var = (count < 0) ? hdata->var_prev : hdata->var_next; abs_count = abs (count); for (i = 0; i < abs_count; i++) { pointer = hdata_pointer (hdata, pointer, ptr_var); if (!pointer) break; } return pointer; } /* * Searches for an element in list using expression. * * Returns pointer to element found, NULL if not found. */ void * hdata_search (struct t_hdata *hdata, void *pointer, const char *search, struct t_hashtable *pointers, struct t_hashtable *extra_vars, struct t_hashtable *options, int move) { struct t_hashtable *pointers2, *options2; char *result; void *ret_pointer; int rc; if (!hdata || !pointer || !search || !search[0] || (move == 0)) return NULL; ret_pointer = NULL; /* duplicate or create hashtable with pointers */ if (pointers) { pointers2 = hashtable_dup (pointers); } else { pointers2 = hashtable_new (32, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, NULL, NULL); } /* duplicate or create hashtable with options */ if (options) { options2 = hashtable_dup (options); } else { options2 = hashtable_new (32, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, NULL, NULL); } if (options2) hashtable_set (options2, "type", "condition"); while (pointer) { /* set pointer in hashtable (used for evaluating expression) */ if (pointers2) hashtable_set (pointers2, hdata->name, pointer); /* evaluate expression */ result = eval_expression (search, pointers2, extra_vars, options2); rc = eval_is_true (result); if (result) free (result); if (rc) { ret_pointer = pointer; goto end; } pointer = hdata_move (hdata, pointer, move); } end: hashtable_free (pointers2); hashtable_free (options2); return ret_pointer; } /* * Extracts index from name of a variable. * * A name can contain index with this format: "NNN|name" (where NNN is an * integer >= 0). * Argument "index" is set to N, "ptr_name" points to start of name in string * (after the "|" if found). */ void hdata_get_index_and_name (const char *name, int *index, const char **ptr_name) { char *pos, *str_index, *error; long number; if (index) *index = -1; if (ptr_name) *ptr_name = name; if (!name) return; pos = strchr (name, '|'); if (pos) { str_index = string_strndup (name, pos - name); if (str_index) { error = NULL; number = strtol (str_index, &error, 10); if (error && !error[0]) { if (index) *index = number; if (ptr_name) *ptr_name = pos + 1; } free (str_index); } } } /* * Gets char value of a variable in hdata. */ char hdata_char (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return '\0'; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((char **)(pointer + var->offset)))[index]; else return ((char *)(pointer + var->offset))[index]; } else { return *((char *)(pointer + var->offset)); } } return '\0'; } /* * Gets integer value of a variable in hdata. */ int hdata_integer (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return 0; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((int **)(pointer + var->offset)))[index]; else return ((int *)(pointer + var->offset))[index]; } else { return *((int *)(pointer + var->offset)); } } return 0; } /* * Gets long value of a variable in hdata. */ long hdata_long (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return 0; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((long **)(pointer + var->offset)))[index]; else return ((long *)(pointer + var->offset))[index]; } else { return *((long *)(pointer + var->offset)); } } return 0; } /* * Gets string value of a variable in hdata. */ const char * hdata_string (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return NULL; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((char ***)(pointer + var->offset)))[index]; else { /* we can not index a static array of strings */ return NULL; } } else { return *((char **)(pointer + var->offset)); } } return NULL; } /* * Gets pointer value of a variable in hdata. */ void * hdata_pointer (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return NULL; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((void ***)(pointer + var->offset)))[index]; else return ((void **)(pointer + var->offset))[index]; } else { return *((void **)(pointer + var->offset)); } } return NULL; } /* * Gets time value of a variable in hdata. */ time_t hdata_time (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return 0; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((time_t **)(pointer + var->offset)))[index]; else return ((time_t *)(pointer + var->offset))[index]; } else { return *((time_t *)(pointer + var->offset)); } } return 0; } /* * Gets hashtable value of a variable in hdata. */ struct t_hashtable * hdata_hashtable (struct t_hdata *hdata, void *pointer, const char *name) { int index; const char *ptr_name; struct t_hdata_var *var; if (!hdata || !pointer || !name) return NULL; hdata_get_index_and_name (name, &index, &ptr_name); var = hashtable_get (hdata->hash_var, ptr_name); if (var && (var->offset >= 0)) { if (var->array_size && (index >= 0)) { if (var->array_pointer) return (*((struct t_hashtable ***)(pointer + var->offset)))[index]; else return ((struct t_hashtable **)(pointer + var->offset))[index]; } else { return *((struct t_hashtable **)(pointer + var->offset)); } } return NULL; } /* * Compares a hdata variable of two objects. * * If case_sensitive == 1, the comparison of strings is case sensitive. * * Returns: * -1: variable1 < variable2 * 0: variable1 == variable2 * 1: variable1 > variable2 */ int hdata_compare (struct t_hdata *hdata, void *pointer1, void *pointer2, const char *name, int case_sensitive) { int rc, int_value1, int_value2; long long_value1, long_value2; char char_value1, char_value2; const char *ptr_name, *str_value1, *str_value2; void *ptr_value1, *ptr_value2; time_t time_value1, time_value2; if (!hdata || !name) return 0; if (!pointer1 && pointer2) return -1; if (pointer1 && !pointer2) return 1; if (!pointer1 && !pointer2) return 0; rc = 0; hdata_get_index_and_name (name, NULL, &ptr_name); switch (hdata_get_var_type (hdata, ptr_name)) { case WEECHAT_HDATA_CHAR: char_value1 = hdata_char (hdata, pointer1, name); char_value2 = hdata_char (hdata, pointer2, name); rc = (char_value1 < char_value2) ? -1 : ((char_value1 > char_value2) ? 1 : 0); break; case WEECHAT_HDATA_INTEGER: int_value1 = hdata_integer (hdata, pointer1, name); int_value2 = hdata_integer (hdata, pointer2, name); rc = (int_value1 < int_value2) ? -1 : ((int_value1 > int_value2) ? 1 : 0); break; case WEECHAT_HDATA_LONG: long_value1 = hdata_long (hdata, pointer1, name); long_value2 = hdata_long (hdata, pointer2, name); rc = (long_value1 < long_value2) ? -1 : ((long_value1 > long_value2) ? 1 : 0); break; case WEECHAT_HDATA_STRING: case WEECHAT_HDATA_SHARED_STRING: str_value1 = hdata_string (hdata, pointer1, name); str_value2 = hdata_string (hdata, pointer2, name); if (!str_value1 && !str_value2) rc = 0; else if (str_value1 && !str_value2) rc = 1; else if (!str_value1 && str_value2) rc = -1; else { if (case_sensitive) rc = strcmp (str_value1, str_value2); else rc = string_strcasecmp (str_value1, str_value2); if (rc < 0) rc = -1; else if (rc > 0) rc = 1; } break; case WEECHAT_HDATA_POINTER: ptr_value1 = hdata_pointer (hdata, pointer1, name); ptr_value2 = hdata_pointer (hdata, pointer2, name); rc = (ptr_value1 < ptr_value2) ? -1 : ((ptr_value1 > ptr_value2) ? 1 : 0); break; case WEECHAT_HDATA_TIME: time_value1 = hdata_time (hdata, pointer1, name); time_value2 = hdata_time (hdata, pointer2, name); rc = (time_value1 < time_value2) ? -1 : ((time_value1 > time_value2) ? 1 : 0); break; case WEECHAT_HDATA_HASHTABLE: /* no comparison for hashtables */ rc = 0; break; case WEECHAT_HDATA_OTHER: /* no comparison for other types */ rc = 0; break; } return rc; } /* * Sets value for a variable in hdata. * * WARNING: this is dangerous, and only some variables can be set by this * function (this depends on hdata, see API doc for more info) and this * function can be called *ONLY* in an "update" callback (in hdata). * * Returns: * 1: OK (value set) * 0: error (or not allowed) */ int hdata_set (struct t_hdata *hdata, void *pointer, const char *name, const char *value) { struct t_hdata_var *var; char **ptr_string, *error; long number; unsigned long ptr; int rc; if (!hdata->update_pending) return 0; var = hashtable_get (hdata->hash_var, name); if (!var) return 0; if (!var->update_allowed) return 0; switch (var->type) { case WEECHAT_HDATA_OTHER: break; case WEECHAT_HDATA_CHAR: *((char *)(pointer + var->offset)) = (value) ? value[0] : '\0'; return 1; break; case WEECHAT_HDATA_INTEGER: error = NULL; number = strtol (value, &error, 10); if (error && !error[0]) { *((int *)(pointer + var->offset)) = (int)number; return 1; } break; case WEECHAT_HDATA_LONG: error = NULL; number = strtol (value, &error, 10); if (error && !error[0]) { *((long *)(pointer + var->offset)) = number; return 1; } break; case WEECHAT_HDATA_STRING: ptr_string = (char **)(pointer + var->offset); if (*ptr_string) free (*ptr_string); *ptr_string = (value) ? strdup (value) : NULL; return 1; break; case WEECHAT_HDATA_SHARED_STRING: ptr_string = (char **)(pointer + var->offset); if (*ptr_string) string_shared_free (*ptr_string); *ptr_string = (value) ? (char *)string_shared_get (value) : NULL; return 1; break; case WEECHAT_HDATA_POINTER: if (value) { rc = sscanf (value, "%lx", &ptr); if ((rc != EOF) && (rc != 0)) { *((void **)(pointer + var->offset)) = (void *)ptr; return 1; } } else { *((void **)(pointer + var->offset)) = NULL; return 1; } break; case WEECHAT_HDATA_TIME: error = NULL; number = strtol (value, &error, 10); if (error && !error[0] && (number >= 0)) { *((time_t *)(pointer + var->offset)) = (time_t)number; return 1; } break; case WEECHAT_HDATA_HASHTABLE: break; } return 0; } /* * Updates some data in hdata. * * The hashtable contains keys with new values. * A special key "__delete" can be used to delete the whole structure at * pointer (if allowed for this hdata). * * WARNING: this is dangerous, and only some data can be updated by this * function (this depends on hdata, see API doc for more info). * * Returns number of variables updated, 0 if nothing has been updated. * In case of deletion, returns 1 if OK, 0 if error. */ int hdata_update (struct t_hdata *hdata, void *pointer, struct t_hashtable *hashtable) { const char *value; struct t_hdata_var *var; int rc; if (!hdata || !hashtable || !hdata->callback_update) return 0; /* check if create of structure is allowed */ if (hashtable_has_key (hashtable, "__create_allowed")) return (int)hdata->create_allowed; /* check if delete of structure is allowed */ if (hashtable_has_key (hashtable, "__delete_allowed")) return (int)hdata->delete_allowed; /* check if update of variable is allowed */ value = hashtable_get (hashtable, "__update_allowed"); if (value) { var = hashtable_get (hdata->hash_var, value); if (!var) return 0; return (var->update_allowed) ? 1 : 0; } /* update data */ hdata->update_pending = 1; rc = (hdata->callback_update) (hdata->callback_update_data, hdata, pointer, hashtable); hdata->update_pending = 0; return rc; } /* * Gets a hdata property as string. */ const char * hdata_get_string (struct t_hdata *hdata, const char *property) { if (!hdata || !property) return NULL; if (strcmp (property, "var_keys") == 0) return hashtable_get_string (hdata->hash_var, "keys"); else if (strcmp (property, "var_values") == 0) return hashtable_get_string (hdata->hash_var, "values"); else if (strcmp (property, "var_keys_values") == 0) return hashtable_get_string (hdata->hash_var, "keys_values"); else if (strcmp (property, "var_prev") == 0) return hdata->var_prev; else if (strcmp (property, "var_next") == 0) return hdata->var_next; else if (strcmp (property, "list_keys") == 0) return hashtable_get_string (hdata->hash_list, "keys"); else if (strcmp (property, "list_values") == 0) return hashtable_get_string (hdata->hash_list, "values"); else if (strcmp (property, "list_keys_values") == 0) return hashtable_get_string (hdata->hash_list, "keys_values"); return NULL; } /* * Frees a hdata. */ void hdata_free (struct t_hdata *hdata) { if (!hdata) return; if (hdata->hash_var) hashtable_free (hdata->hash_var); if (hdata->var_prev) free (hdata->var_prev); if (hdata->var_next) free (hdata->var_next); if (hdata->hash_list) hashtable_free (hdata->hash_list); if (hdata->name) free (hdata->name); free (hdata); } /* * Frees hdata for a plugin (callback called for each hdata in memory). */ void hdata_free_all_plugin_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { struct t_hdata *ptr_hdata; ptr_hdata = (struct t_hdata *)value; if (ptr_hdata->plugin == (struct t_weechat_plugin *)data) hashtable_remove (hashtable, key); } /* * Frees all hdata created by a plugin. */ void hdata_free_all_plugin (struct t_weechat_plugin *plugin) { hashtable_map (weechat_hdata, &hdata_free_all_plugin_map_cb, plugin); } /* * Frees all hdata. */ void hdata_free_all () { hashtable_remove_all (weechat_hdata); } /* * Prints variable of a hdata in WeeChat log file (callback called for each * variable in hdata). */ void hdata_print_log_var_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { struct t_hdata_var *var; /* make C compiler happy */ (void) data; (void) hashtable; var = (struct t_hdata_var *)value; log_printf (""); log_printf (" [hdata var '%s']", (const char *)key); log_printf (" offset . . . . . . . . : %d", var->offset); log_printf (" type . . . . . . . . . : %d ('%s')", var->type, hdata_type_string[(int)var->type]); log_printf (" update_allowed . . . . : %d", (int)var->update_allowed); log_printf (" array_size . . . . . . : '%s'", var->array_size); log_printf (" hdata_name . . . . . . : '%s'", var->hdata_name); } /* * Prints hdata in WeeChat log file (callback called for each hdata in memory). */ void hdata_print_log_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { struct t_hdata *ptr_hdata; /* make C compiler happy */ (void) data; (void) hashtable; (void) key; ptr_hdata = (struct t_hdata *)value; log_printf (""); log_printf ("[hdata (addr:0x%lx)]", ptr_hdata); log_printf (" name . . . . . . . . . : '%s'", ptr_hdata->name); log_printf (" plugin . . . . . . . . : 0x%lx", ptr_hdata->plugin); log_printf (" var_prev . . . . . . . : '%s'", ptr_hdata->var_prev); log_printf (" var_next . . . . . . . : '%s'", ptr_hdata->var_next); log_printf (" hash_var . . . . . . . : 0x%lx (hashtable: '%s')", ptr_hdata->hash_var, hashtable_get_string (ptr_hdata->hash_var, "keys_values")); log_printf (" hash_list. . . . . . . : 0x%lx (hashtable: '%s')", ptr_hdata->hash_list, hashtable_get_string (ptr_hdata->hash_list, "keys_values")); log_printf (" create_allowed . . . . : %d", (int)ptr_hdata->create_allowed); log_printf (" delete_allowed . . . . : %d", (int)ptr_hdata->delete_allowed); log_printf (" callback_update. . . . : 0x%lx", ptr_hdata->callback_update); log_printf (" callback_update_data . : 0x%lx", ptr_hdata->callback_update_data); log_printf (" update_pending . . . . : %d", (int)ptr_hdata->update_pending); hashtable_map (ptr_hdata->hash_var, &hdata_print_log_var_map_cb, NULL); } /* * Prints hdata in WeeChat log file (usually for crash dump). */ void hdata_print_log () { hashtable_map (weechat_hdata, &hdata_print_log_map_cb, NULL); } /* * Frees a hdata in hashtable "weechat_hdata". */ void hdata_free_hdata_cb (struct t_hashtable *hashtable, const void *key, void *value) { /* make C compiler happy */ (void) hashtable; (void) key; hdata_free (value); } /* * Initializes hdata: creates a hashtable with hdata. */ void hdata_init () { weechat_hdata = hashtable_new (32, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, NULL, NULL); weechat_hdata->callback_free_value = &hdata_free_hdata_cb; } /* * Frees all hdata and hashtable with hdata. */ void hdata_end () { hdata_free_all (); hashtable_free (weechat_hdata); weechat_hdata = NULL; }