/* k_pipe_util.c */ /* * Copyright (c) 1997-2014 Wind River Systems, Inc. * * 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. */ #include #include #include #include #include #include #define _ALL_OPT (0x000000FF) void DeListWaiter(struct k_args *pReqProc) { __ASSERT_NO_MSG(NULL != pReqProc->head); REMOVE_ELM(pReqProc); pReqProc->head = NULL; } void myfreetimer(struct k_timer **ppTimer) { if (*ppTimer) { _k_timer_delist(*ppTimer); FREETIMER(*ppTimer); *ppTimer = NULL; } } /* adapted from mailbox implementation of copypacket() */ void mycopypacket(struct k_args **out, struct k_args *in) { GETARGS(*out); memcpy(*out, in, sizeof(struct k_args)); (*out)->Ctxt.args = in; } int CalcFreeReaderSpace(struct k_args *pReaderList) { int size = 0; if (pReaderList) { struct k_args *reader_ptr = pReaderList; while (reader_ptr != NULL) { size += (reader_ptr->args.pipe_xfer_req.total_size - reader_ptr->args.pipe_xfer_req.xferred_size); reader_ptr = reader_ptr->next; } } return size; } int CalcAvailWriterData(struct k_args *pWriterList) { int size = 0; if (pWriterList) { struct k_args *writer_ptr = pWriterList; while (writer_ptr != NULL) { size += (writer_ptr->args.pipe_xfer_req.total_size - writer_ptr->args.pipe_xfer_req.xferred_size); writer_ptr = writer_ptr->next; } } return size; } K_PIPE_OPTION _k_pipe_option_get(K_ARGS_ARGS *args) { return (K_PIPE_OPTION)(args->pipe_xfer_req.req_info.params & _ALL_OPT); } void _k_pipe_option_set(K_ARGS_ARGS *args, K_PIPE_OPTION option) { /* Ensure that only the pipe option bits are modified */ args->pipe_xfer_req.req_info.params &= (~_ALL_OPT); args->pipe_xfer_req.req_info.params |= (option & _ALL_OPT); } REQ_TYPE _k_pipe_request_type_get(K_ARGS_ARGS *args) { return (REQ_TYPE)(args->pipe_xfer_req.req_info.params & _ALLREQ); } void _k_pipe_request_type_set(K_ARGS_ARGS *args, REQ_TYPE req_type) { /* Ensure that only the request type bits are modified */ args->pipe_xfer_req.req_info.params &= (~_ALLREQ); args->pipe_xfer_req.req_info.params |= (req_type & _ALLREQ); } TIME_TYPE _k_pipe_time_type_get(K_ARGS_ARGS *args) { return (TIME_TYPE)(args->pipe_xfer_req.req_info.params & _ALLTIME); } void _k_pipe_time_type_set(K_ARGS_ARGS *args, TIME_TYPE TimeType) { /* Ensure that only the time type bits are modified */ args->pipe_xfer_req.req_info.params &= (~_ALLTIME); args->pipe_xfer_req.req_info.params |= (TimeType & _ALLTIME); } void _k_pipe_request_status_set(struct _pipe_xfer_req_arg *pipe_xfer_req, PIPE_REQUEST_STATUS status) { #ifdef CONFIG_OBJECT_MONITOR /* * if transition XFER_IDLE --> XFER_BUSY, TERM_XXX * increment pipe counter */ if (XFER_IDLE == pipe_xfer_req->status /* current (old) status */ && (XFER_BUSY | TERM_XXX) & status /* new status */) { (pipe_xfer_req->req_info.pipe.ptr->count)++; } #endif pipe_xfer_req->status = status; }