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cbfc35b90f
We need to wait for the GPUVM flush to complete. There was some confusion as to how this mechanism was supposed to work. The operation is not atomic. For GPU initiated invalidations you need to read back a VM register to introduce enough latency for the update to complete. v2: drop gart changes v3: just read back rather than polling Reviewed-by: Christian König <christian.koenig@amd.com> Signed-off-by: Alex Deucher <alexander.deucher@amd.com> Cc: stable@vger.kernel.org
474 lines
13 KiB
C
474 lines
13 KiB
C
/*
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* Copyright 2010 Advanced Micro Devices, Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
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* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*
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* Authors: Alex Deucher
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*/
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#include <drm/drmP.h>
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#include "radeon.h"
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#include "radeon_asic.h"
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#include "radeon_trace.h"
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#include "nid.h"
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u32 cayman_gpu_check_soft_reset(struct radeon_device *rdev);
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/*
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* DMA
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* Starting with R600, the GPU has an asynchronous
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* DMA engine. The programming model is very similar
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* to the 3D engine (ring buffer, IBs, etc.), but the
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* DMA controller has it's own packet format that is
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* different form the PM4 format used by the 3D engine.
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* It supports copying data, writing embedded data,
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* solid fills, and a number of other things. It also
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* has support for tiling/detiling of buffers.
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* Cayman and newer support two asynchronous DMA engines.
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*/
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/**
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* cayman_dma_get_rptr - get the current read pointer
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*
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* @rdev: radeon_device pointer
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* @ring: radeon ring pointer
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*
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* Get the current rptr from the hardware (cayman+).
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*/
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uint32_t cayman_dma_get_rptr(struct radeon_device *rdev,
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struct radeon_ring *ring)
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{
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u32 rptr, reg;
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if (rdev->wb.enabled) {
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rptr = rdev->wb.wb[ring->rptr_offs/4];
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} else {
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if (ring->idx == R600_RING_TYPE_DMA_INDEX)
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reg = DMA_RB_RPTR + DMA0_REGISTER_OFFSET;
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else
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reg = DMA_RB_RPTR + DMA1_REGISTER_OFFSET;
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rptr = RREG32(reg);
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}
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return (rptr & 0x3fffc) >> 2;
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}
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/**
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* cayman_dma_get_wptr - get the current write pointer
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*
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* @rdev: radeon_device pointer
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* @ring: radeon ring pointer
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*
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* Get the current wptr from the hardware (cayman+).
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*/
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uint32_t cayman_dma_get_wptr(struct radeon_device *rdev,
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struct radeon_ring *ring)
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{
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u32 reg;
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if (ring->idx == R600_RING_TYPE_DMA_INDEX)
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reg = DMA_RB_WPTR + DMA0_REGISTER_OFFSET;
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else
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reg = DMA_RB_WPTR + DMA1_REGISTER_OFFSET;
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return (RREG32(reg) & 0x3fffc) >> 2;
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}
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/**
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* cayman_dma_set_wptr - commit the write pointer
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*
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* @rdev: radeon_device pointer
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* @ring: radeon ring pointer
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*
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* Write the wptr back to the hardware (cayman+).
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*/
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void cayman_dma_set_wptr(struct radeon_device *rdev,
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struct radeon_ring *ring)
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{
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u32 reg;
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if (ring->idx == R600_RING_TYPE_DMA_INDEX)
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reg = DMA_RB_WPTR + DMA0_REGISTER_OFFSET;
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else
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reg = DMA_RB_WPTR + DMA1_REGISTER_OFFSET;
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WREG32(reg, (ring->wptr << 2) & 0x3fffc);
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}
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/**
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* cayman_dma_ring_ib_execute - Schedule an IB on the DMA engine
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*
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* @rdev: radeon_device pointer
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* @ib: IB object to schedule
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*
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* Schedule an IB in the DMA ring (cayman-SI).
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*/
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void cayman_dma_ring_ib_execute(struct radeon_device *rdev,
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struct radeon_ib *ib)
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{
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struct radeon_ring *ring = &rdev->ring[ib->ring];
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unsigned vm_id = ib->vm ? ib->vm->ids[ib->ring].id : 0;
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if (rdev->wb.enabled) {
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u32 next_rptr = ring->wptr + 4;
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while ((next_rptr & 7) != 5)
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next_rptr++;
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next_rptr += 3;
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radeon_ring_write(ring, DMA_PACKET(DMA_PACKET_WRITE, 0, 0, 1));
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radeon_ring_write(ring, ring->next_rptr_gpu_addr & 0xfffffffc);
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radeon_ring_write(ring, upper_32_bits(ring->next_rptr_gpu_addr) & 0xff);
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radeon_ring_write(ring, next_rptr);
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}
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/* The indirect buffer packet must end on an 8 DW boundary in the DMA ring.
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* Pad as necessary with NOPs.
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*/
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while ((ring->wptr & 7) != 5)
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radeon_ring_write(ring, DMA_PACKET(DMA_PACKET_NOP, 0, 0, 0));
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radeon_ring_write(ring, DMA_IB_PACKET(DMA_PACKET_INDIRECT_BUFFER, vm_id, 0));
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radeon_ring_write(ring, (ib->gpu_addr & 0xFFFFFFE0));
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radeon_ring_write(ring, (ib->length_dw << 12) | (upper_32_bits(ib->gpu_addr) & 0xFF));
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}
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/**
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* cayman_dma_stop - stop the async dma engines
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*
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* @rdev: radeon_device pointer
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*
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* Stop the async dma engines (cayman-SI).
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*/
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void cayman_dma_stop(struct radeon_device *rdev)
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{
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u32 rb_cntl;
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if ((rdev->asic->copy.copy_ring_index == R600_RING_TYPE_DMA_INDEX) ||
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(rdev->asic->copy.copy_ring_index == CAYMAN_RING_TYPE_DMA1_INDEX))
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radeon_ttm_set_active_vram_size(rdev, rdev->mc.visible_vram_size);
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/* dma0 */
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rb_cntl = RREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET);
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rb_cntl &= ~DMA_RB_ENABLE;
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WREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET, rb_cntl);
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/* dma1 */
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rb_cntl = RREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET);
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rb_cntl &= ~DMA_RB_ENABLE;
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WREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET, rb_cntl);
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rdev->ring[R600_RING_TYPE_DMA_INDEX].ready = false;
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rdev->ring[CAYMAN_RING_TYPE_DMA1_INDEX].ready = false;
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}
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/**
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* cayman_dma_resume - setup and start the async dma engines
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*
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* @rdev: radeon_device pointer
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*
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* Set up the DMA ring buffers and enable them. (cayman-SI).
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* Returns 0 for success, error for failure.
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*/
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int cayman_dma_resume(struct radeon_device *rdev)
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{
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struct radeon_ring *ring;
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u32 rb_cntl, dma_cntl, ib_cntl;
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u32 rb_bufsz;
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u32 reg_offset, wb_offset;
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int i, r;
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for (i = 0; i < 2; i++) {
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if (i == 0) {
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ring = &rdev->ring[R600_RING_TYPE_DMA_INDEX];
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reg_offset = DMA0_REGISTER_OFFSET;
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wb_offset = R600_WB_DMA_RPTR_OFFSET;
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} else {
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ring = &rdev->ring[CAYMAN_RING_TYPE_DMA1_INDEX];
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reg_offset = DMA1_REGISTER_OFFSET;
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wb_offset = CAYMAN_WB_DMA1_RPTR_OFFSET;
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}
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WREG32(DMA_SEM_INCOMPLETE_TIMER_CNTL + reg_offset, 0);
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WREG32(DMA_SEM_WAIT_FAIL_TIMER_CNTL + reg_offset, 0);
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/* Set ring buffer size in dwords */
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rb_bufsz = order_base_2(ring->ring_size / 4);
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rb_cntl = rb_bufsz << 1;
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#ifdef __BIG_ENDIAN
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rb_cntl |= DMA_RB_SWAP_ENABLE | DMA_RPTR_WRITEBACK_SWAP_ENABLE;
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#endif
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WREG32(DMA_RB_CNTL + reg_offset, rb_cntl);
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/* Initialize the ring buffer's read and write pointers */
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WREG32(DMA_RB_RPTR + reg_offset, 0);
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WREG32(DMA_RB_WPTR + reg_offset, 0);
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/* set the wb address whether it's enabled or not */
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WREG32(DMA_RB_RPTR_ADDR_HI + reg_offset,
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upper_32_bits(rdev->wb.gpu_addr + wb_offset) & 0xFF);
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WREG32(DMA_RB_RPTR_ADDR_LO + reg_offset,
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((rdev->wb.gpu_addr + wb_offset) & 0xFFFFFFFC));
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if (rdev->wb.enabled)
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rb_cntl |= DMA_RPTR_WRITEBACK_ENABLE;
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WREG32(DMA_RB_BASE + reg_offset, ring->gpu_addr >> 8);
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/* enable DMA IBs */
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ib_cntl = DMA_IB_ENABLE | CMD_VMID_FORCE;
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#ifdef __BIG_ENDIAN
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ib_cntl |= DMA_IB_SWAP_ENABLE;
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#endif
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WREG32(DMA_IB_CNTL + reg_offset, ib_cntl);
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dma_cntl = RREG32(DMA_CNTL + reg_offset);
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dma_cntl &= ~CTXEMPTY_INT_ENABLE;
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WREG32(DMA_CNTL + reg_offset, dma_cntl);
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ring->wptr = 0;
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WREG32(DMA_RB_WPTR + reg_offset, ring->wptr << 2);
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WREG32(DMA_RB_CNTL + reg_offset, rb_cntl | DMA_RB_ENABLE);
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ring->ready = true;
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r = radeon_ring_test(rdev, ring->idx, ring);
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if (r) {
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ring->ready = false;
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return r;
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}
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}
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if ((rdev->asic->copy.copy_ring_index == R600_RING_TYPE_DMA_INDEX) ||
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(rdev->asic->copy.copy_ring_index == CAYMAN_RING_TYPE_DMA1_INDEX))
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radeon_ttm_set_active_vram_size(rdev, rdev->mc.real_vram_size);
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return 0;
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}
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/**
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* cayman_dma_fini - tear down the async dma engines
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*
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* @rdev: radeon_device pointer
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*
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* Stop the async dma engines and free the rings (cayman-SI).
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*/
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void cayman_dma_fini(struct radeon_device *rdev)
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{
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cayman_dma_stop(rdev);
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radeon_ring_fini(rdev, &rdev->ring[R600_RING_TYPE_DMA_INDEX]);
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radeon_ring_fini(rdev, &rdev->ring[CAYMAN_RING_TYPE_DMA1_INDEX]);
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}
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/**
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* cayman_dma_is_lockup - Check if the DMA engine is locked up
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*
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* @rdev: radeon_device pointer
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* @ring: radeon_ring structure holding ring information
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*
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* Check if the async DMA engine is locked up.
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* Returns true if the engine appears to be locked up, false if not.
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*/
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bool cayman_dma_is_lockup(struct radeon_device *rdev, struct radeon_ring *ring)
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{
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u32 reset_mask = cayman_gpu_check_soft_reset(rdev);
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u32 mask;
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if (ring->idx == R600_RING_TYPE_DMA_INDEX)
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mask = RADEON_RESET_DMA;
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else
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mask = RADEON_RESET_DMA1;
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if (!(reset_mask & mask)) {
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radeon_ring_lockup_update(rdev, ring);
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return false;
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}
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return radeon_ring_test_lockup(rdev, ring);
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}
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/**
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* cayman_dma_vm_copy_pages - update PTEs by copying them from the GART
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*
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* @rdev: radeon_device pointer
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* @ib: indirect buffer to fill with commands
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* @pe: addr of the page entry
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* @src: src addr where to copy from
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* @count: number of page entries to update
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*
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* Update PTEs by copying them from the GART using the DMA (cayman/TN).
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*/
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void cayman_dma_vm_copy_pages(struct radeon_device *rdev,
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struct radeon_ib *ib,
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uint64_t pe, uint64_t src,
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unsigned count)
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{
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unsigned ndw;
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while (count) {
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ndw = count * 2;
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if (ndw > 0xFFFFE)
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ndw = 0xFFFFE;
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ib->ptr[ib->length_dw++] = DMA_PACKET(DMA_PACKET_COPY,
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0, 0, ndw);
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ib->ptr[ib->length_dw++] = lower_32_bits(pe);
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ib->ptr[ib->length_dw++] = lower_32_bits(src);
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ib->ptr[ib->length_dw++] = upper_32_bits(pe) & 0xff;
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ib->ptr[ib->length_dw++] = upper_32_bits(src) & 0xff;
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pe += ndw * 4;
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src += ndw * 4;
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count -= ndw / 2;
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}
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}
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/**
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* cayman_dma_vm_write_pages - update PTEs by writing them manually
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*
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* @rdev: radeon_device pointer
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* @ib: indirect buffer to fill with commands
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* @pe: addr of the page entry
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* @addr: dst addr to write into pe
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* @count: number of page entries to update
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* @incr: increase next addr by incr bytes
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* @flags: hw access flags
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*
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* Update PTEs by writing them manually using the DMA (cayman/TN).
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*/
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void cayman_dma_vm_write_pages(struct radeon_device *rdev,
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struct radeon_ib *ib,
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uint64_t pe,
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uint64_t addr, unsigned count,
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uint32_t incr, uint32_t flags)
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{
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uint64_t value;
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unsigned ndw;
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while (count) {
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ndw = count * 2;
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if (ndw > 0xFFFFE)
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ndw = 0xFFFFE;
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/* for non-physically contiguous pages (system) */
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ib->ptr[ib->length_dw++] = DMA_PACKET(DMA_PACKET_WRITE,
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0, 0, ndw);
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ib->ptr[ib->length_dw++] = pe;
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ib->ptr[ib->length_dw++] = upper_32_bits(pe) & 0xff;
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for (; ndw > 0; ndw -= 2, --count, pe += 8) {
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if (flags & R600_PTE_SYSTEM) {
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value = radeon_vm_map_gart(rdev, addr);
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value &= 0xFFFFFFFFFFFFF000ULL;
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} else if (flags & R600_PTE_VALID) {
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value = addr;
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} else {
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value = 0;
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}
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addr += incr;
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value |= flags;
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ib->ptr[ib->length_dw++] = value;
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ib->ptr[ib->length_dw++] = upper_32_bits(value);
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}
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}
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}
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/**
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* cayman_dma_vm_set_pages - update the page tables using the DMA
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*
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* @rdev: radeon_device pointer
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* @ib: indirect buffer to fill with commands
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* @pe: addr of the page entry
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* @addr: dst addr to write into pe
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* @count: number of page entries to update
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* @incr: increase next addr by incr bytes
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* @flags: hw access flags
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*
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* Update the page tables using the DMA (cayman/TN).
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*/
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void cayman_dma_vm_set_pages(struct radeon_device *rdev,
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struct radeon_ib *ib,
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uint64_t pe,
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uint64_t addr, unsigned count,
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uint32_t incr, uint32_t flags)
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{
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uint64_t value;
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unsigned ndw;
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while (count) {
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ndw = count * 2;
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if (ndw > 0xFFFFE)
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ndw = 0xFFFFE;
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if (flags & R600_PTE_VALID)
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value = addr;
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else
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value = 0;
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/* for physically contiguous pages (vram) */
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ib->ptr[ib->length_dw++] = DMA_PTE_PDE_PACKET(ndw);
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ib->ptr[ib->length_dw++] = pe; /* dst addr */
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ib->ptr[ib->length_dw++] = upper_32_bits(pe) & 0xff;
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ib->ptr[ib->length_dw++] = flags; /* mask */
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ib->ptr[ib->length_dw++] = 0;
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ib->ptr[ib->length_dw++] = value; /* value */
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ib->ptr[ib->length_dw++] = upper_32_bits(value);
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ib->ptr[ib->length_dw++] = incr; /* increment size */
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ib->ptr[ib->length_dw++] = 0;
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pe += ndw * 4;
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addr += (ndw / 2) * incr;
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count -= ndw / 2;
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}
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}
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/**
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* cayman_dma_vm_pad_ib - pad the IB to the required number of dw
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*
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* @ib: indirect buffer to fill with padding
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*
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*/
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void cayman_dma_vm_pad_ib(struct radeon_ib *ib)
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{
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while (ib->length_dw & 0x7)
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ib->ptr[ib->length_dw++] = DMA_PACKET(DMA_PACKET_NOP, 0, 0, 0);
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}
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void cayman_dma_vm_flush(struct radeon_device *rdev, struct radeon_ring *ring,
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unsigned vm_id, uint64_t pd_addr)
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{
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radeon_ring_write(ring, DMA_PACKET(DMA_PACKET_SRBM_WRITE, 0, 0, 0));
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radeon_ring_write(ring, (0xf << 16) | ((VM_CONTEXT0_PAGE_TABLE_BASE_ADDR + (vm_id << 2)) >> 2));
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radeon_ring_write(ring, pd_addr >> 12);
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/* flush hdp cache */
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radeon_ring_write(ring, DMA_PACKET(DMA_PACKET_SRBM_WRITE, 0, 0, 0));
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radeon_ring_write(ring, (0xf << 16) | (HDP_MEM_COHERENCY_FLUSH_CNTL >> 2));
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radeon_ring_write(ring, 1);
|
|
|
|
/* bits 0-7 are the VM contexts0-7 */
|
|
radeon_ring_write(ring, DMA_PACKET(DMA_PACKET_SRBM_WRITE, 0, 0, 0));
|
|
radeon_ring_write(ring, (0xf << 16) | (VM_INVALIDATE_REQUEST >> 2));
|
|
radeon_ring_write(ring, 1 << vm_id);
|
|
|
|
/* wait for invalidate to complete */
|
|
radeon_ring_write(ring, DMA_SRBM_READ_PACKET);
|
|
radeon_ring_write(ring, (0xff << 20) | (VM_INVALIDATE_REQUEST >> 2));
|
|
radeon_ring_write(ring, 0); /* mask */
|
|
radeon_ring_write(ring, 0); /* value */
|
|
}
|
|
|