/* * FreeRTOS V202212.00 * Copyright (C) 2020 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * https://www.FreeRTOS.org * https://github.com/FreeRTOS * */ /* *INDENT-OFF* */ #include "proof/list.h" void vListInsertEnd( List_t * const pxList, ListItem_t * const pxNewListItem ) /*@requires xLIST(pxList, ?len, ?idx, ?end, ?cells, ?vals) &*& xLIST_ITEM(pxNewListItem, ?val, _, _, _);@*/ /*@ensures xLIST(pxList, len+1, idx, end, ?new_cells, ?new_vals) &*& idx == end ? (new_cells == append(cells, singleton(pxNewListItem)) &*& new_vals == append(vals, singleton(val))) : (new_cells == append(take(index_of(idx, cells), cells), append(singleton(pxNewListItem), drop(index_of(idx, cells), cells))) &*& new_vals == append(take(index_of(idx, cells), vals), append(singleton(val), drop(index_of(idx, cells), vals))));@*/ { /*@xLIST_star_item(pxList, pxNewListItem);@*/ /*@assert mem(pxNewListItem, cells) == false;@*/ /*@open xLIST(pxList, len, idx, end, cells, vals);@*/ #ifdef VERIFAST /*< const pointer declaration */ ListItem_t * pxIndex = pxList->pxIndex; #else ListItem_t * const pxIndex = pxList->pxIndex; /* Only effective when configASSERT() is also defined, these tests may catch * the list data structures being overwritten in memory. They will not catch * data errors caused by incorrect configuration or use of FreeRTOS. */ listTEST_LIST_INTEGRITY( pxList ); listTEST_LIST_ITEM_INTEGRITY( pxNewListItem ); #endif /*@open xLIST_ITEM(pxNewListItem, _, _, _, _);@*/ /*@assert DLS(end, ?endprev, end, _, cells, vals, pxList);@*/ /*@dls_first_mem(end, endprev, end, endprev, cells);@*/ /*@dls_last_mem(end, endprev, end, endprev, cells);@*/ /*@ if (end == idx) { open DLS(end, endprev, end, endprev, cells, vals, pxList); open xLIST_ITEM(end, portMAX_DELAY, ?endnext, endprev, pxList); if (end == endprev) { // Case A (singleton): idx==end==endprev } else { assert DLS(endnext, end, end, endprev, tail(cells), tail(vals), pxList); if (endnext == endprev) { // Case B (two): idx==end and endnext==endprev open DLS(endnext, end, end, endnext, _, _, _); open xLIST_ITEM(endnext, _, _, _, _); } else { // Case C: idx==end and DLS:endnext...endprev split(endnext, end, end, endprev, tail(cells), tail(vals), endprev, index_of(endprev, tail(cells))); open DLS(endprev, _, _, _, _, _, _); open xLIST_ITEM(endprev, _, _, _, _); } } } else { int i = index_of(idx, cells); split(end, endprev, end, endprev, cells, vals, idx, i); assert DLS(end, endprev, idx, ?idxprev, take(i, cells), take(i, vals), pxList); assert DLS(idx, idxprev, end, endprev, drop(i, cells), drop(i, vals), pxList); open DLS(idx, idxprev, end, endprev, _, _, _); open xLIST_ITEM(idx, _, _, _, _); if (end == idxprev) { // Case D: end==idxprev and DLS:idx...endprev take_take(1, i, vals); take_head(vals); open DLS(end, endprev, idx, idxprev, take(i, cells), take(i, vals), pxList); open xLIST_ITEM(end, portMAX_DELAY, _, _, _); assert length(take(i, cells)) == 1; } else { // Case E: DLS:end...idxprev and DLS:idx...endprev dls_last_mem(end, endprev, idx, idxprev, take(i, cells)); split(end, endprev, idx, idxprev, take(i, cells), take(i, vals), idxprev, index_of(idxprev, take(i, cells))); open DLS(idxprev, _, _, idxprev, _, _, _); length_take(i, cells); drop_take_singleton(i, vals); open xLIST_ITEM(idxprev, nth(i-1, vals), _, _, _); } } @*/ /* Insert a new list item into pxList, but rather than sort the list, * makes the new list item the last item to be removed by a call to * listGET_OWNER_OF_NEXT_ENTRY(). */ pxNewListItem->pxNext = pxIndex; pxNewListItem->pxPrevious = pxIndex->pxPrevious; /* Only used during decision coverage testing. */ mtCOVERAGE_TEST_DELAY(); pxIndex->pxPrevious->pxNext = pxNewListItem; pxIndex->pxPrevious = pxNewListItem; /* Remember which list the item is in. */ pxNewListItem->pxContainer = pxList; ( pxList->uxNumberOfItems )++; /*@ if (end == idx) { close xLIST_ITEM(pxNewListItem, val, end, endprev, pxList); close DLS(pxNewListItem, endprev, end, pxNewListItem, singleton(pxNewListItem), singleton(val), pxList); close xLIST_ITEM(end, portMAX_DELAY, ?endnext, pxNewListItem, pxList); if (end == endprev) { // Case A (singleton): idx==end==endprev close DLS(end, pxNewListItem, endnext, end, cells, vals, pxList); join(end, pxNewListItem, endnext, end, cells, vals, pxNewListItem, endprev, end, pxNewListItem, singleton(pxNewListItem), singleton(val)); close xLIST(pxList, len+1, idx, end, append(cells, singleton(pxNewListItem)), append(vals, singleton(val))); } else { close xLIST_ITEM(endprev, ?endprevval, pxNewListItem, ?endprevprev, _); if (endnext == endprev) { // Case B (two): idx==end and endnext==endprev close DLS(endprev, end, pxNewListItem, endprev, singleton(endprev), singleton(endprevval), pxList); close DLS(end, pxNewListItem, pxNewListItem, endprev, cells, vals, pxList); join(end, pxNewListItem, pxNewListItem, endprev, cells, vals, pxNewListItem, endprev, end, pxNewListItem, singleton(pxNewListItem), singleton(val)); close xLIST(pxList, len+1, idx, end, append(cells, singleton(pxNewListItem)), append(vals, singleton(val))); } else { // Case C: idx==end and DLS:endnext...endprev close DLS(endprev, endprevprev, pxNewListItem, endprev, singleton(endprev), singleton(endprevval), pxList); assert DLS(endnext, end, endprev, endprevprev, ?cells_endnext_to_endprevprev, ?vals_endnext_to_endprevprev, pxList); join(endnext, end, endprev, endprevprev, cells_endnext_to_endprevprev, vals_endnext_to_endprevprev, endprev, endprevprev, pxNewListItem, endprev, singleton(endprev), singleton(endprevval)); close DLS(end, pxNewListItem, pxNewListItem, endprev, cells, vals, pxList); join(end, pxNewListItem, pxNewListItem, endprev, cells, vals, pxNewListItem, endprev, end, pxNewListItem, singleton(pxNewListItem), singleton(val)); close xLIST(pxList, len+1, idx, end, append(cells, singleton(pxNewListItem)), append(vals, singleton(val))); } } } else { // Case D: end==idxprev and DLS:idx...endprev // Case E: DLS:end...idxprev and DLS:idx...endprev int i = index_of(idx, cells); close xLIST_ITEM(pxNewListItem, val, idx, ?idxprev, pxList); close xLIST_ITEM(idx, ?idxval, ?idxnext, pxNewListItem, pxList); nth_drop2(vals, i); assert idxval == nth(i, vals); close xLIST_ITEM(idxprev, ?idxprevval, pxNewListItem, ?idxprevprev, pxList); if (end == idxprev) { close DLS(end, endprev, pxNewListItem, end, singleton(end), singleton(portMAX_DELAY), pxList); } else { length_take(i, cells); take_take(i-1, i, vals); take_singleton(i-1, vals); take_singleton(i, vals); assert DLS(end, endprev, idxprev, idxprevprev, ?cells_end_to_idxprevprev, take(i-1, vals), pxList); close DLS(idxprev, idxprevprev, pxNewListItem, idxprev, singleton(idxprev), singleton(idxprevval), pxList); join(end, endprev, idxprev, idxprevprev, cells_end_to_idxprevprev, take(i-1, vals), idxprev, idxprevprev, pxNewListItem, idxprev, singleton(idxprev), singleton(idxprevval)); } if (idx == endprev) { close DLS(idx, pxNewListItem, end, idx, singleton(idx), singleton(idxval), pxList); } else { assert DLS(end, endprev, pxNewListItem, idxprev, ?cells_end_to_idxprev, ?vals_end_to_idxprev, pxList); close DLS(idx, pxNewListItem, end, endprev, drop(i, cells), drop(i, vals), pxList); } assert DLS(end, endprev, pxNewListItem, idxprev, take(i, cells), take(i, vals), pxList); assert DLS(idx, pxNewListItem, end, endprev, drop(i, cells), drop(i, vals), pxList); assert xLIST_ITEM(pxNewListItem, val, idx, idxprev, pxList); dls_star_item(idx, endprev, pxNewListItem); close DLS(pxNewListItem, idxprev, end, endprev, cons(pxNewListItem, drop(i, cells)), cons(val, drop(i, vals)), pxList); join(end, endprev, pxNewListItem, idxprev, take(i, cells), take(i, vals), pxNewListItem, idxprev, end, endprev, cons(pxNewListItem, drop(i, cells)), cons(val, drop(i, vals))); assert DLS(end, endprev, end, endprev, ?cells_new, ?vals_new, pxList); assert cells_new == append(take(i, cells), append(singleton(pxNewListItem), drop(i, cells))); assert vals_new == append(take(i, vals) , append(singleton(val), drop(i, vals))); head_append(take(i, cells), append(singleton(pxNewListItem), drop(i, cells))); take_take(1, i, cells); head_append(take(i, vals), append(singleton(val), drop(i, vals))); take_take(1, i, vals); close xLIST(pxList, len+1, idx, end, cells_new, vals_new); } @*/ } void client_example1( List_t * const l, ListItem_t * const pxNewListItem ) /*@requires xLIST(l, ?len, ?idx, ?end, ?cells, ?vals) &*& xLIST_ITEM(pxNewListItem, ?val, _, _, _) &*& idx == end;@*/ /*@ensures xLIST(l, len + 1, idx, end, _, append(vals, singleton(val)));@*/ { vListInsertEnd(l, pxNewListItem); } /* *INDENT-ON* */