/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) 1998 - 2016, Daniel Stenberg, <daniel@haxx.se>, et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.haxx.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ***************************************************************************/ #include "curlcheck.h" #include "llist.h" static struct curl_llist *llist; static struct curl_llist *llist_destination; static void test_curl_llist_dtor(void *key, void *value) { /* used by the llist API, does nothing here */ (void)key; (void)value; } static CURLcode unit_setup(void) { llist = Curl_llist_alloc(test_curl_llist_dtor); if(!llist) return CURLE_OUT_OF_MEMORY; llist_destination = Curl_llist_alloc(test_curl_llist_dtor); if(!llist_destination) { Curl_llist_destroy(llist, NULL); return CURLE_OUT_OF_MEMORY; } return CURLE_OK; } static void unit_stop(void) { Curl_llist_destroy(llist, NULL); Curl_llist_destroy(llist_destination, NULL); } UNITTEST_START int unusedData_case1 = 1; int unusedData_case2 = 2; int unusedData_case3 = 3; struct curl_llist_element *head; struct curl_llist_element *element_next; struct curl_llist_element *element_prev; struct curl_llist_element *to_remove; size_t llist_size = Curl_llist_count(llist); int curlErrCode = 0; /** * testing llist_init * case 1: * list initiation * @assumptions: * 1: list size will be 0 * 2: list head will be NULL * 3: list tail will be NULL * 4: list dtor will be NULL */ fail_unless(llist->size == 0, "list initial size should be zero"); fail_unless(llist->head == NULL, "list head should initiate to NULL"); fail_unless(llist->tail == NULL, "list tail should intiate to NULL"); fail_unless(llist->dtor == test_curl_llist_dtor, "list dtor shold initiate to test_curl_llist_dtor"); /** * testing Curl_llist_insert_next * case 1: * list is empty * @assumptions: * 1: list size will be 1 * 2: list head will hold the data "unusedData_case1" * 3: list tail will be the same as list head */ curlErrCode = Curl_llist_insert_next(llist, llist->head, &unusedData_case1); if(curlErrCode == 1) { fail_unless(Curl_llist_count(llist) == 1, "List size should be 1 after adding a new element"); /*test that the list head data holds my unusedData */ fail_unless(llist->head->ptr == &unusedData_case1, "List size should be 1 after adding a new element"); /*same goes for the list tail */ fail_unless(llist->tail == llist->head, "List size should be 1 after adding a new element"); /** * testing Curl_llist_insert_next * case 2: * list has 1 element, adding one element after the head * @assumptions: * 1: the element next to head should be our newly created element * 2: the list tail should be our newly created element */ curlErrCode = Curl_llist_insert_next(llist, llist->head, &unusedData_case3); if(curlErrCode == 1) { fail_unless(llist->head->next->ptr == &unusedData_case3, "the node next to head is not getting set correctly"); fail_unless(llist->tail->ptr == &unusedData_case3, "the list tail is not getting set correctly"); } else { printf("skipping Curl_llist_insert_next as a non " "success error code was returned\n"); } /** * testing Curl_llist_insert_next * case 3: * list has >1 element, adding one element after "NULL" * @assumptions: * 1: the element next to head should be our newly created element * 2: the list tail should different from newly created element */ curlErrCode = Curl_llist_insert_next(llist, llist->head, &unusedData_case2); if(curlErrCode == 1) { fail_unless(llist->head->next->ptr == &unusedData_case2, "the node next to head is not getting set correctly"); /* better safe than sorry, check that the tail isn't corrupted */ fail_unless(llist->tail->ptr != &unusedData_case2, "the list tail is not getting set correctly"); } else { printf("skipping Curl_llist_insert_next as a non " "success error code was returned\n"); } } else { printf("skipping Curl_llist_insert_next as a non " "success error code was returned\n"); } /* unit tests for Curl_llist_remove */ /** * case 1: * list has >1 element, removing head * @assumptions: * 1: list size will be decremented by one * 2: head will be the head->next * 3: "new" head's previous will be NULL */ head=llist->head; abort_unless(head, "llist->head is NULL"); element_next = head->next; llist_size = Curl_llist_count(llist); Curl_llist_remove(llist, llist->head, NULL); fail_unless(Curl_llist_count(llist) == (llist_size-1), "llist size not decremented as expected"); fail_unless(llist->head == element_next, "llist new head not modified properly"); abort_unless(llist->head, "llist->head is NULL"); fail_unless(llist->head->prev == NULL, "new head previous not set to null"); /** * case 2: * removing non head element, with list having >=2 elements * @setup: * 1: insert another element to the list to make element >=2 * @assumptions: * 1: list size will be decremented by one ; tested * 2: element->previous->next will be element->next * 3: element->next->previous will be element->previous */ Curl_llist_insert_next(llist, llist->head, &unusedData_case3); llist_size = Curl_llist_count(llist); to_remove = llist->head->next; abort_unless(to_remove, "to_remove is NULL"); element_next = to_remove->next; element_prev = to_remove->prev; Curl_llist_remove(llist, to_remove, NULL); fail_unless(element_prev->next == element_next, "element previous->next is not being adjusted"); abort_unless(element_next, "element_next is NULL"); fail_unless(element_next->prev == element_prev, "element next->previous is not being adjusted"); /** * case 3: * removing the tail with list having >=1 element * @assumptions * 1: list size will be decremented by one ;tested * 2: element->previous->next will be element->next ;tested * 3: element->next->previous will be element->previous ;tested * 4: list->tail will be tail->previous */ to_remove = llist->tail; element_prev = to_remove->prev; Curl_llist_remove(llist, to_remove, NULL); fail_unless(llist->tail == element_prev, "llist tail is not being adjusted when removing tail"); /** * case 4: * removing head with list having 1 element * @assumptions: * 1: list size will be decremented by one ;tested * 2: list head will be null * 3: list tail will be null */ to_remove = llist->head; Curl_llist_remove(llist, to_remove, NULL); fail_unless(llist->head == NULL, "llist head is not NULL while the llist is empty"); fail_unless(llist->tail == NULL, "llist tail is not NULL while the llist is empty"); /* @testing Curl_llist_move(struct curl_llist *, * struct curl_llist_element *, struct curl_llist *, * struct curl_llist_element *); */ /** * @case 1: * moving head from an llist containg one element to an empty llist * @assumptions: * 1: llist size will be 0 * 2: llist_destination size will be 1 * 3: llist head will be NULL * 4: llist_destination head == llist_destination tail != NULL */ /* * @setup * add one element to the list */ curlErrCode = Curl_llist_insert_next(llist, llist->head, &unusedData_case1); /* necessary assertions */ abort_unless(curlErrCode == 1, "Curl_llist_insert_next returned an error, Can't move on with test"); abort_unless(Curl_llist_count(llist) == 1, "Number of list elements is not as expected, Aborting"); abort_unless(Curl_llist_count(llist_destination) == 0, "Number of list elements is not as expected, Aborting"); /*actual testing code*/ curlErrCode = Curl_llist_move(llist, llist->head, llist_destination, NULL); abort_unless(curlErrCode == 1, "Curl_llist_move returned an error, Can't move on with test"); fail_unless(Curl_llist_count(llist) == 0, "moving element from llist didn't decrement the size"); fail_unless(Curl_llist_count(llist_destination) == 1, "moving element to llist_destination didn't increment the size"); fail_unless(llist->head == NULL, "llist head not set to null after moving the head"); fail_unless(llist_destination->head != NULL, "llist_destination head set to null after moving an element"); fail_unless(llist_destination->tail != NULL, "llist_destination tail set to null after moving an element"); fail_unless(llist_destination->tail == llist_destination->tail, "llist_destination tail doesn't equal llist_destination head"); UNITTEST_STOP