/* * SHARED BUFFER * * Copyright (C) 2017 Intel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause * * Li Fei * */ #include #include #include #include #include uint32_t sbuf_next_ptr(uint32_t pos_arg, uint32_t span, uint32_t scope) { uint32_t pos = pos_arg; pos += span; pos = (pos >= scope) ? (pos - scope) : pos; return pos; } /** * The high caller should guarantee each time there must have * sbuf->ele_size data can be write form data and this function * should guarantee execution atomically. * * flag: * If OVERWRITE_EN set, buf can store (ele_num - 1) elements at most. * Should use lock to guarantee that only one read or write at * the same time. * if OVERWRITE_EN not set, buf can store (ele_num - 1) elements * at most. Shouldn't modify the sbuf->head. * * return: * ele_size: write succeeded. * 0: no write, buf is full * negative: failed. */ uint32_t sbuf_put(struct shared_buf *sbuf, uint8_t *data) { void *to; uint32_t next_tail; uint32_t ele_size; bool trigger_overwrite = false; stac(); next_tail = sbuf_next_ptr(sbuf->tail, sbuf->ele_size, sbuf->size); /* if this write would trigger overrun */ if (next_tail == sbuf->head) { /* accumulate overrun count if necessary */ sbuf->overrun_cnt += sbuf->flags & OVERRUN_CNT_EN; if ((sbuf->flags & OVERWRITE_EN) == 0U) { /* if not enable over write, return here. */ clac(); return 0; } trigger_overwrite = true; } to = (void *)sbuf + SBUF_HEAD_SIZE + sbuf->tail; (void)memcpy_s(to, sbuf->ele_size, data, sbuf->ele_size); if (trigger_overwrite) { sbuf->head = sbuf_next_ptr(sbuf->head, sbuf->ele_size, sbuf->size); } sbuf->tail = next_tail; ele_size = sbuf->ele_size; clac(); return ele_size; } int32_t sbuf_share_setup(uint16_t pcpu_id, uint32_t sbuf_id, uint64_t *hva) { if ((pcpu_id >= get_pcpu_nums()) || (sbuf_id >= ACRN_SBUF_ID_MAX)) { return -EINVAL; } per_cpu(sbuf, pcpu_id)[sbuf_id] = (struct shared_buf *) hva; pr_info("%s share sbuf for pCPU[%u] with sbuf_id[%u] setup successfully", __func__, pcpu_id, sbuf_id); return 0; } void sbuf_reset(void) { uint16_t pcpu_id, sbuf_id; for (pcpu_id = 0U; pcpu_id < get_pcpu_nums(); pcpu_id++) { for (sbuf_id = 0U; sbuf_id < ACRN_SBUF_ID_MAX; sbuf_id++) { per_cpu(sbuf, pcpu_id)[sbuf_id] = 0U; } } }