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The VPU embeds a "Register DMA" that can write a sequence of registers on the VPU AHB bus, either manually or triggered by an internal IRQ event like VSYNC or a line input counter. The initial implementation handles a single channel (over 8), triggered by the VSYNC irq and does not handle the RDMA irq. The RDMA will be usefull to reset and program the AFBC decoder unit on each vsync without involving the interrupt handler that can be masked for a log period of time, producing display glitches. Signed-off-by: Neil Armstrong <narmstrong@baylibre.com> Reviewed-by: Kevin Hilman <khilman@baylibre.com> Link: https://patchwork.freedesktop.org/patch/msgid/20191021091509.3864-5-narmstrong@baylibre.com
136 lines
3.4 KiB
C
136 lines
3.4 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2019 BayLibre, SAS
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* Author: Neil Armstrong <narmstrong@baylibre.com>
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*/
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#include <linux/bitfield.h>
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#include <linux/dma-mapping.h>
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#include "meson_drv.h"
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#include "meson_registers.h"
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#include "meson_rdma.h"
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/*
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* The VPU embeds a "Register DMA" that can write a sequence of registers
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* on the VPU AHB bus, either manually or triggered by an internal IRQ
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* event like VSYNC or a line input counter.
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* The initial implementation handles a single channel (over 8), triggered
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* by the VSYNC irq and does not handle the RDMA irq.
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*/
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#define RDMA_DESC_SIZE (sizeof(uint32_t) * 2)
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int meson_rdma_init(struct meson_drm *priv)
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{
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if (!priv->rdma.addr) {
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/* Allocate a PAGE buffer */
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priv->rdma.addr =
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dma_alloc_coherent(priv->dev, SZ_4K,
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&priv->rdma.addr_phys,
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GFP_KERNEL);
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if (!priv->rdma.addr)
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return -ENOMEM;
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}
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priv->rdma.offset = 0;
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writel_relaxed(RDMA_CTRL_SW_RESET,
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priv->io_base + _REG(RDMA_CTRL));
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writel_relaxed(RDMA_DEFAULT_CONFIG |
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FIELD_PREP(RDMA_CTRL_AHB_WR_BURST, 3) |
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FIELD_PREP(RDMA_CTRL_AHB_RD_BURST, 0),
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priv->io_base + _REG(RDMA_CTRL));
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return 0;
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}
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void meson_rdma_free(struct meson_drm *priv)
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{
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if (!priv->rdma.addr && !priv->rdma.addr_phys)
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return;
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meson_rdma_stop(priv);
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dma_free_coherent(priv->dev, SZ_4K,
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priv->rdma.addr, priv->rdma.addr_phys);
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priv->rdma.addr = NULL;
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priv->rdma.addr_phys = (dma_addr_t)NULL;
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}
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void meson_rdma_setup(struct meson_drm *priv)
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{
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/* Channel 1: Write Flag, No Address Increment */
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writel_bits_relaxed(RDMA_ACCESS_RW_FLAG_CHAN1 |
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RDMA_ACCESS_ADDR_INC_CHAN1,
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RDMA_ACCESS_RW_FLAG_CHAN1,
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priv->io_base + _REG(RDMA_ACCESS_AUTO));
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}
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void meson_rdma_stop(struct meson_drm *priv)
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{
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writel_bits_relaxed(RDMA_IRQ_CLEAR_CHAN1,
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RDMA_IRQ_CLEAR_CHAN1,
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priv->io_base + _REG(RDMA_CTRL));
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/* Stop Channel 1 */
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writel_bits_relaxed(RDMA_ACCESS_TRIGGER_CHAN1,
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FIELD_PREP(RDMA_ACCESS_ADDR_INC_CHAN1,
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RDMA_ACCESS_TRIGGER_STOP),
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priv->io_base + _REG(RDMA_ACCESS_AUTO));
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}
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void meson_rdma_reset(struct meson_drm *priv)
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{
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meson_rdma_stop(priv);
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priv->rdma.offset = 0;
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}
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static void meson_rdma_writel(struct meson_drm *priv, uint32_t val,
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uint32_t reg)
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{
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if (priv->rdma.offset >= (SZ_4K / RDMA_DESC_SIZE)) {
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dev_warn_once(priv->dev, "%s: overflow\n", __func__);
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return;
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}
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priv->rdma.addr[priv->rdma.offset++] = reg;
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priv->rdma.addr[priv->rdma.offset++] = val;
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}
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/*
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* This will add the register to the RDMA buffer and write it to the
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* hardware at the same time.
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* When meson_rdma_flush is called, the RDMA will replay the register
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* writes in order.
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*/
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void meson_rdma_writel_sync(struct meson_drm *priv, uint32_t val, uint32_t reg)
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{
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meson_rdma_writel(priv, val, reg);
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writel_relaxed(val, priv->io_base + _REG(reg));
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}
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void meson_rdma_flush(struct meson_drm *priv)
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{
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meson_rdma_stop(priv);
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/* Start of Channel 1 register writes buffer */
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writel(priv->rdma.addr_phys,
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priv->io_base + _REG(RDMA_AHB_START_ADDR_1));
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/* Last byte on Channel 1 register writes buffer */
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writel(priv->rdma.addr_phys + (priv->rdma.offset * RDMA_DESC_SIZE) - 1,
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priv->io_base + _REG(RDMA_AHB_END_ADDR_1));
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/* Trigger Channel 1 on VSYNC event */
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writel_bits_relaxed(RDMA_ACCESS_TRIGGER_CHAN1,
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FIELD_PREP(RDMA_ACCESS_TRIGGER_CHAN1,
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RDMA_ACCESS_TRIGGER_VSYNC),
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priv->io_base + _REG(RDMA_ACCESS_AUTO));
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priv->rdma.offset = 0;
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}
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