/** * xrdp: A Remote Desktop Protocol server. * * Copyright (C) Jay Sorg 2004-2014 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * simple list */ #if defined(HAVE_CONFIG_H) #include #endif #include #include #include "arch.h" #include "os_calls.h" #include "string_calls.h" #include "list.h" #include "log.h" enum { DEFAULT_LIST_SIZE = 10, DEFAULT_GROW_BY_SIZE = 10 }; /******************************************************************************/ struct list * list_create_sized(unsigned int size) { struct list *self; if (size < DEFAULT_LIST_SIZE) { size = DEFAULT_LIST_SIZE; } self = (struct list *)calloc(sizeof(struct list), 1); if (self != NULL) { self->items = (tbus *)malloc(sizeof(tbus) * size); if (self->items == NULL) { free(self); self = NULL; } else { self->grow_by = DEFAULT_GROW_BY_SIZE; self->alloc_size = size; } } return self; } /******************************************************************************/ struct list * list_create(void) { return list_create_sized(DEFAULT_LIST_SIZE); } /******************************************************************************/ void list_delete(struct list *self) { int i; if (self == 0) { return; } if (self->auto_free) { for (i = 0; i < self->count; i++) { free((void *)self->items[i]); self->items[i] = 0; } } free(self->items); free(self); } /******************************************************************************/ static int grow_list(struct list *self) { int rv = 1; unsigned int new_alloc_size = self->alloc_size + self->grow_by; tbus *p = (tbus *)realloc(self->items, sizeof(tbus) * new_alloc_size); if (p == NULL) { rv = 0; } else { self->alloc_size = new_alloc_size; self->items = p; } return rv; } /*****************************************************************************/ int list_add_item(struct list *self, tbus item) { if (self->count == self->alloc_size && !grow_list(self)) { return 0; } self->items[self->count] = item; self->count++; return 1; } /******************************************************************************/ tbus list_get_item(const struct list *self, int index) { if (index < 0 || index >= self->count) { return 0; } return self->items[index]; } /******************************************************************************/ void list_clear(struct list *self) { int i; if (self->auto_free) { for (i = 0; i < self->count; i++) { free((void *)self->items[i]); self->items[i] = 0; } } self->count = 0; self->grow_by = DEFAULT_GROW_BY_SIZE; self->alloc_size = DEFAULT_LIST_SIZE; self->items = (tbus *)realloc(self->items, sizeof(tbus) * self->alloc_size); } /******************************************************************************/ int list_index_of(struct list *self, tbus item) { int i; for (i = 0; i < self->count; i++) { if (self->items[i] == item) { return i; } } return -1; } /******************************************************************************/ void list_remove_item(struct list *self, int index) { int i; if (index >= 0 && index < self->count) { if (self->auto_free) { free((void *)self->items[index]); self->items[index] = 0; } for (i = index; i < (self->count - 1); i++) { self->items[i] = self->items[i + 1]; } self->count--; } } int list_insert_item(struct list *self, int index, tbus item) { int i; if (index > self->count) { index = self->count; } else if (index < 0) { index = 0; } if (self->count == self->alloc_size && !grow_list(self)) { return 0; } // Move all the items above this location up one for (i = self->count ; i > index ; --i) { self->items[i] = self->items[i - 1]; } self->count++; self->items[index] = item; return 1; } /******************************************************************************/ int list_add_strdup(struct list *self, const char *str) { int rv; char *dup; if (str == NULL) { rv = list_add_item(self, (tintptr)str); } else if ((dup = g_strdup(str)) == NULL) { rv = 0; } else { rv = list_add_item(self, (tintptr)dup); if (!rv) { g_free(dup); } } return rv; } /******************************************************************************/ int list_add_strdup_multi(struct list *self, ...) { va_list ap; int entry_count = self->count; const char *s; int rv = 1; va_start(ap, self); while ((s = va_arg(ap, const char *)) != NULL) { if (!list_add_strdup(self, s)) { rv = 0; break; } } va_end(ap); if (rv == 0) { // Remove the additional items we added while (self->count > entry_count) { list_remove_item(self, self->count - 1); } } return rv; } /******************************************************************************/ /* append one list to another using strdup for each item in the list */ /* begins copy at start_index, a zero based index on the source list */ int list_append_list_strdup(struct list *self, struct list *dest, int start_index) { int index; int rv = 1; int entry_dest_count = dest->count; for (index = start_index; index < self->count; index++) { const char *item = (const char *)list_get_item(self, index); if (!list_add_strdup(dest, item)) { rv = 0; break; } } if (rv == 0) { // Remove the additional items we added while (dest->count > entry_dest_count) { list_remove_item(dest, dest->count - 1); } } return rv; } /******************************************************************************/ void list_dump_items(struct list *self) { int index; if (self->count == 0) { LOG_DEVEL(LOG_LEVEL_TRACE, "List is empty"); } for (index = 0; index < self->count; index++) { LOG_DEVEL(LOG_LEVEL_TRACE, "%d: %p", index, (void *) list_get_item(self, index)); } } /******************************************************************************/ /** * Appends a string fragment to a list * @param[in,out] start Pointer to start of fragment (by reference) * @param end Pointer to one past end of fragment * @param list List to append to * @result 1 for success * * In the event of a memory failure, 0 is returned and the list is deleted. */ int split_string_append_fragment(const char **start, const char *end, struct list *list) { const unsigned int len = end - *start; char *copy = (char *)malloc(len + 1); if (copy == NULL) { list_delete(list); return 0; } g_memcpy(copy, *start, len); copy[len] = '\0'; if (!list_add_item(list, (tintptr)copy)) { g_free(copy); list_delete(list); return 0; } *start = end + 1; return 1; } /******************************************************************************/ struct list * split_string_into_list(const char *str, char character) { struct list *result = list_create(); if (result == NULL) { return result; } result->auto_free = 1; if (str == NULL) { return result; } const char *p; while ((p = g_strchr(str, character)) != NULL) { if (!split_string_append_fragment(&str, p, result)) { return NULL; } } if (*str != '\0') { if (!split_string_append_fragment(&str, str + g_strlen(str), result)) { return NULL; } } return result; }