// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2022 Linaro Ltd. * Author: Manivannan Sadhasivam */ #include #include "internal.h" size_t mhi_ep_ring_addr2offset(struct mhi_ep_ring *ring, u64 ptr) { return (ptr - ring->rbase) / sizeof(struct mhi_ring_element); } static u32 mhi_ep_ring_num_elems(struct mhi_ep_ring *ring) { __le64 rlen; memcpy_fromio(&rlen, (void __iomem *) &ring->ring_ctx->generic.rlen, sizeof(u64)); return le64_to_cpu(rlen) / sizeof(struct mhi_ring_element); } void mhi_ep_ring_inc_index(struct mhi_ep_ring *ring) { ring->rd_offset = (ring->rd_offset + 1) % ring->ring_size; } static int __mhi_ep_cache_ring(struct mhi_ep_ring *ring, size_t end) { struct mhi_ep_cntrl *mhi_cntrl = ring->mhi_cntrl; struct device *dev = &mhi_cntrl->mhi_dev->dev; size_t start, copy_size; int ret; /* Don't proceed in the case of event ring. This happens during mhi_ep_ring_start(). */ if (ring->type == RING_TYPE_ER) return 0; /* No need to cache the ring if write pointer is unmodified */ if (ring->wr_offset == end) return 0; start = ring->wr_offset; if (start < end) { copy_size = (end - start) * sizeof(struct mhi_ring_element); ret = mhi_cntrl->read_from_host(mhi_cntrl, ring->rbase + (start * sizeof(struct mhi_ring_element)), &ring->ring_cache[start], copy_size); if (ret < 0) return ret; } else { copy_size = (ring->ring_size - start) * sizeof(struct mhi_ring_element); ret = mhi_cntrl->read_from_host(mhi_cntrl, ring->rbase + (start * sizeof(struct mhi_ring_element)), &ring->ring_cache[start], copy_size); if (ret < 0) return ret; if (end) { ret = mhi_cntrl->read_from_host(mhi_cntrl, ring->rbase, &ring->ring_cache[0], end * sizeof(struct mhi_ring_element)); if (ret < 0) return ret; } } dev_dbg(dev, "Cached ring: start %zu end %zu size %zu\n", start, end, copy_size); return 0; } static int mhi_ep_cache_ring(struct mhi_ep_ring *ring, u64 wr_ptr) { size_t wr_offset; int ret; wr_offset = mhi_ep_ring_addr2offset(ring, wr_ptr); /* Cache the host ring till write offset */ ret = __mhi_ep_cache_ring(ring, wr_offset); if (ret) return ret; ring->wr_offset = wr_offset; return 0; } int mhi_ep_update_wr_offset(struct mhi_ep_ring *ring) { u64 wr_ptr; wr_ptr = mhi_ep_mmio_get_db(ring); return mhi_ep_cache_ring(ring, wr_ptr); } /* TODO: Support for adding multiple ring elements to the ring */ int mhi_ep_ring_add_element(struct mhi_ep_ring *ring, struct mhi_ring_element *el) { struct mhi_ep_cntrl *mhi_cntrl = ring->mhi_cntrl; struct device *dev = &mhi_cntrl->mhi_dev->dev; size_t old_offset = 0; u32 num_free_elem; __le64 rp; int ret; ret = mhi_ep_update_wr_offset(ring); if (ret) { dev_err(dev, "Error updating write pointer\n"); return ret; } if (ring->rd_offset < ring->wr_offset) num_free_elem = (ring->wr_offset - ring->rd_offset) - 1; else num_free_elem = ((ring->ring_size - ring->rd_offset) + ring->wr_offset) - 1; /* Check if there is space in ring for adding at least an element */ if (!num_free_elem) { dev_err(dev, "No space left in the ring\n"); return -ENOSPC; } old_offset = ring->rd_offset; mhi_ep_ring_inc_index(ring); dev_dbg(dev, "Adding an element to ring at offset (%zu)\n", ring->rd_offset); /* Update rp in ring context */ rp = cpu_to_le64(ring->rd_offset * sizeof(*el) + ring->rbase); memcpy_toio((void __iomem *) &ring->ring_ctx->generic.rp, &rp, sizeof(u64)); ret = mhi_cntrl->write_to_host(mhi_cntrl, el, ring->rbase + (old_offset * sizeof(*el)), sizeof(*el)); if (ret < 0) return ret; return 0; } void mhi_ep_ring_init(struct mhi_ep_ring *ring, enum mhi_ep_ring_type type, u32 id) { ring->type = type; if (ring->type == RING_TYPE_CMD) { ring->db_offset_h = EP_CRDB_HIGHER; ring->db_offset_l = EP_CRDB_LOWER; } else if (ring->type == RING_TYPE_CH) { ring->db_offset_h = CHDB_HIGHER_n(id); ring->db_offset_l = CHDB_LOWER_n(id); ring->ch_id = id; } else { ring->db_offset_h = ERDB_HIGHER_n(id); ring->db_offset_l = ERDB_LOWER_n(id); } } int mhi_ep_ring_start(struct mhi_ep_cntrl *mhi_cntrl, struct mhi_ep_ring *ring, union mhi_ep_ring_ctx *ctx) { struct device *dev = &mhi_cntrl->mhi_dev->dev; __le64 val; int ret; ring->mhi_cntrl = mhi_cntrl; ring->ring_ctx = ctx; ring->ring_size = mhi_ep_ring_num_elems(ring); memcpy_fromio(&val, (void __iomem *) &ring->ring_ctx->generic.rbase, sizeof(u64)); ring->rbase = le64_to_cpu(val); if (ring->type == RING_TYPE_CH) ring->er_index = le32_to_cpu(ring->ring_ctx->ch.erindex); if (ring->type == RING_TYPE_ER) ring->irq_vector = le32_to_cpu(ring->ring_ctx->ev.msivec); /* During ring init, both rp and wp are equal */ memcpy_fromio(&val, (void __iomem *) &ring->ring_ctx->generic.rp, sizeof(u64)); ring->rd_offset = mhi_ep_ring_addr2offset(ring, le64_to_cpu(val)); ring->wr_offset = mhi_ep_ring_addr2offset(ring, le64_to_cpu(val)); /* Allocate ring cache memory for holding the copy of host ring */ ring->ring_cache = kcalloc(ring->ring_size, sizeof(struct mhi_ring_element), GFP_KERNEL); if (!ring->ring_cache) return -ENOMEM; memcpy_fromio(&val, (void __iomem *) &ring->ring_ctx->generic.wp, sizeof(u64)); ret = mhi_ep_cache_ring(ring, le64_to_cpu(val)); if (ret) { dev_err(dev, "Failed to cache ring\n"); kfree(ring->ring_cache); return ret; } ring->started = true; return 0; } void mhi_ep_ring_reset(struct mhi_ep_cntrl *mhi_cntrl, struct mhi_ep_ring *ring) { ring->started = false; kfree(ring->ring_cache); ring->ring_cache = NULL; }