/* * Copyright 2012 Red Hat Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: Ben Skeggs * */ #define XFER_ARGS \ struct nv30_context *nv30, enum nv30_transfer_filter filter, \ struct nv30_rect *src, struct nv30_rect *dst #include "util/u_math.h" #include "nv_object.xml.h" #include "nv_m2mf.xml.h" #include "nv30/nv01_2d.xml.h" #include "nv30/nv30-40_3d.xml.h" #include "nv30/nv30_context.h" #include "nv30/nv30_transfer.h" /* Various helper functions to transfer different types of data in a number * of different ways. */ static inline bool nv30_transfer_scaled(struct nv30_rect *src, struct nv30_rect *dst) { if (src->x1 - src->x0 != dst->x1 - dst->x0) return true; if (src->y1 - src->y0 != dst->y1 - dst->y0) return true; return false; } static inline bool nv30_transfer_blit(XFER_ARGS) { if (nv30->screen->eng3d->oclass < NV40_3D_CLASS) return false; if (dst->offset & 63 || dst->pitch & 63 || dst->d > 1) return false; if (dst->w < 2 || dst->h < 2) return false; if (dst->cpp > 4 || (dst->cpp == 1 && !dst->pitch)) return false; if (src->cpp > 4) return false; return true; } static inline struct nouveau_heap * nv30_transfer_rect_vertprog(struct nv30_context *nv30) { struct nouveau_heap *heap = nv30->screen->vp_exec_heap; struct nouveau_heap *vp; vp = nv30->blit_vp; if (!vp) { if (nouveau_heap_alloc(heap, 2, &nv30->blit_vp, &nv30->blit_vp)) { while (heap->next && heap->size < 2) { struct nouveau_heap **evict = heap->next->priv; nouveau_heap_free(evict); } if (nouveau_heap_alloc(heap, 2, &nv30->blit_vp, &nv30->blit_vp)) return NULL; } vp = nv30->blit_vp; if (vp) { struct nouveau_pushbuf *push = nv30->base.pushbuf; BEGIN_NV04(push, NV30_3D(VP_UPLOAD_FROM_ID), 1); PUSH_DATA (push, vp->start); BEGIN_NV04(push, NV30_3D(VP_UPLOAD_INST(0)), 4); PUSH_DATA (push, 0x401f9c6c); /* mov o[hpos], a[0]; */ PUSH_DATA (push, 0x0040000d); PUSH_DATA (push, 0x8106c083); PUSH_DATA (push, 0x6041ff80); BEGIN_NV04(push, NV30_3D(VP_UPLOAD_INST(0)), 4); PUSH_DATA (push, 0x401f9c6c); /* mov o[tex0], a[8]; end; */ PUSH_DATA (push, 0x0040080d); PUSH_DATA (push, 0x8106c083); PUSH_DATA (push, 0x6041ff9d); } } return vp; } static inline struct nv04_resource * nv30_transfer_rect_fragprog(struct nv30_context *nv30) { struct nv04_resource *fp = nv04_resource(nv30->blit_fp); struct pipe_context *pipe = &nv30->base.pipe; if (!fp) { nv30->blit_fp = pipe_buffer_create(pipe->screen, 0, 0, 12 * 4); if (nv30->blit_fp) { struct pipe_transfer *transfer; u32 *map = pipe_buffer_map(pipe, nv30->blit_fp, PIPE_TRANSFER_WRITE, &transfer); if (map) { map[0] = 0x17009e00; /* texr r0, i[tex0], texture[0]; end; */ map[1] = 0x1c9dc801; map[2] = 0x0001c800; map[3] = 0x3fe1c800; map[4] = 0x01401e81; /* end; */ map[5] = 0x1c9dc800; map[6] = 0x0001c800; map[7] = 0x0001c800; pipe_buffer_unmap(pipe, transfer); } fp = nv04_resource(nv30->blit_fp); nouveau_buffer_migrate(&nv30->base, fp, NOUVEAU_BO_VRAM); } } return fp; } static void nv30_transfer_rect_blit(XFER_ARGS) { struct nv04_resource *fp = nv30_transfer_rect_fragprog(nv30); struct nouveau_heap *vp = nv30_transfer_rect_vertprog(nv30); struct nouveau_pushbuf *push = nv30->base.pushbuf; struct nouveau_pushbuf_refn refs[] = { { fp->bo, fp->domain | NOUVEAU_BO_RD }, { src->bo, src->domain | NOUVEAU_BO_RD }, { dst->bo, NOUVEAU_BO_VRAM | NOUVEAU_BO_WR }, }; u32 texfmt, texswz; u32 format, stride; if (nouveau_pushbuf_space(push, 512, 8, 0) || nouveau_pushbuf_refn (push, refs, sizeof(refs) / sizeof(refs[0]))) return; /* various switches depending on cpp of the transfer */ switch (dst->cpp) { case 4: format = NV30_3D_RT_FORMAT_COLOR_A8R8G8B8 | NV30_3D_RT_FORMAT_ZETA_Z24S8; texfmt = NV40_3D_TEX_FORMAT_FORMAT_A8R8G8B8; texswz = 0x0000aae4; break; case 2: format = NV30_3D_RT_FORMAT_COLOR_R5G6B5 | NV30_3D_RT_FORMAT_ZETA_Z16; texfmt = NV40_3D_TEX_FORMAT_FORMAT_R5G6B5; texswz = 0x0000a9e4; break; case 1: format = NV30_3D_RT_FORMAT_COLOR_B8 | NV30_3D_RT_FORMAT_ZETA_Z16; texfmt = NV40_3D_TEX_FORMAT_FORMAT_L8; texswz = 0x0000aaff; break; default: assert(0); return; } /* render target */ if (!dst->pitch) { format |= NV30_3D_RT_FORMAT_TYPE_SWIZZLED; format |= util_logbase2(dst->w) << 16; format |= util_logbase2(dst->h) << 24; stride = 64; } else { format |= NV30_3D_RT_FORMAT_TYPE_LINEAR; stride = dst->pitch; } BEGIN_NV04(push, NV30_3D(VIEWPORT_HORIZ), 2); PUSH_DATA (push, dst->w << 16); PUSH_DATA (push, dst->h << 16); BEGIN_NV04(push, NV30_3D(RT_HORIZ), 5); PUSH_DATA (push, dst->w << 16); PUSH_DATA (push, dst->h << 16); PUSH_DATA (push, format); PUSH_DATA (push, stride); PUSH_RELOC(push, dst->bo, dst->offset, NOUVEAU_BO_LOW, 0, 0); BEGIN_NV04(push, NV30_3D(RT_ENABLE), 1); PUSH_DATA (push, NV30_3D_RT_ENABLE_COLOR0); nv30->dirty |= NV30_NEW_FRAMEBUFFER; /* viewport state */ BEGIN_NV04(push, NV30_3D(VIEWPORT_TRANSLATE_X), 8); PUSH_DATAf(push, 0.0); PUSH_DATAf(push, 0.0); PUSH_DATAf(push, 0.0); PUSH_DATAf(push, 0.0); PUSH_DATAf(push, 1.0); PUSH_DATAf(push, 1.0); PUSH_DATAf(push, 1.0); PUSH_DATAf(push, 1.0); BEGIN_NV04(push, NV30_3D(DEPTH_RANGE_NEAR), 2); PUSH_DATAf(push, 0.0); PUSH_DATAf(push, 1.0); nv30->dirty |= NV30_NEW_VIEWPORT; /* blend state */ BEGIN_NV04(push, NV30_3D(COLOR_LOGIC_OP_ENABLE), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(DITHER_ENABLE), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(BLEND_FUNC_ENABLE), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(COLOR_MASK), 1); PUSH_DATA (push, 0x01010101); nv30->dirty |= NV30_NEW_BLEND; /* depth-stencil-alpha state */ BEGIN_NV04(push, NV30_3D(DEPTH_WRITE_ENABLE), 2); PUSH_DATA (push, 0); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(STENCIL_ENABLE(0)), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(STENCIL_ENABLE(1)), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(ALPHA_FUNC_ENABLE), 1); PUSH_DATA (push, 0); nv30->dirty |= NV30_NEW_ZSA; /* rasterizer state */ BEGIN_NV04(push, NV30_3D(SHADE_MODEL), 1); PUSH_DATA (push, NV30_3D_SHADE_MODEL_FLAT); BEGIN_NV04(push, NV30_3D(CULL_FACE_ENABLE), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(POLYGON_MODE_FRONT), 2); PUSH_DATA (push, NV30_3D_POLYGON_MODE_FRONT_FILL); PUSH_DATA (push, NV30_3D_POLYGON_MODE_BACK_FILL); BEGIN_NV04(push, NV30_3D(POLYGON_OFFSET_FILL_ENABLE), 1); PUSH_DATA (push, 0); BEGIN_NV04(push, NV30_3D(POLYGON_STIPPLE_ENABLE), 1); PUSH_DATA (push, 0); nv30->state.scissor_off = 0; nv30->dirty |= NV30_NEW_RASTERIZER; /* vertex program */ BEGIN_NV04(push, NV30_3D(VP_START_FROM_ID), 1); PUSH_DATA (push, vp->start); BEGIN_NV04(push, NV40_3D(VP_ATTRIB_EN), 2); PUSH_DATA (push, 0x00000101); /* attrib: 0, 8 */ PUSH_DATA (push, 0x00004000); /* result: hpos, tex0 */ BEGIN_NV04(push, NV30_3D(ENGINE), 1); PUSH_DATA (push, 0x00000103); BEGIN_NV04(push, NV30_3D(VP_CLIP_PLANES_ENABLE), 1); PUSH_DATA (push, 0x00000000); nv30->dirty |= NV30_NEW_VERTPROG; nv30->dirty |= NV30_NEW_CLIP; /* fragment program */ BEGIN_NV04(push, NV30_3D(FP_ACTIVE_PROGRAM), 1); PUSH_RELOC(push, fp->bo, fp->offset, fp->domain | NOUVEAU_BO_LOW | NOUVEAU_BO_OR, NV30_3D_FP_ACTIVE_PROGRAM_DMA0, NV30_3D_FP_ACTIVE_PROGRAM_DMA1); BEGIN_NV04(push, NV30_3D(FP_CONTROL), 1); PUSH_DATA (push, 0x02000000); nv30->state.fragprog = NULL; nv30->dirty |= NV30_NEW_FRAGPROG; /* texture */ texfmt |= 1 << NV40_3D_TEX_FORMAT_MIPMAP_COUNT__SHIFT; texfmt |= NV30_3D_TEX_FORMAT_NO_BORDER; texfmt |= NV40_3D_TEX_FORMAT_RECT; texfmt |= 0x00008000; if (src->d < 2) texfmt |= NV30_3D_TEX_FORMAT_DIMS_2D; else texfmt |= NV30_3D_TEX_FORMAT_DIMS_3D; if (src->pitch) texfmt |= NV40_3D_TEX_FORMAT_LINEAR; BEGIN_NV04(push, NV30_3D(TEX_OFFSET(0)), 8); PUSH_RELOC(push, src->bo, src->offset, NOUVEAU_BO_LOW, 0, 0); PUSH_RELOC(push, src->bo, texfmt, NOUVEAU_BO_OR, NV30_3D_TEX_FORMAT_DMA0, NV30_3D_TEX_FORMAT_DMA1); PUSH_DATA (push, NV30_3D_TEX_WRAP_S_CLAMP_TO_EDGE | NV30_3D_TEX_WRAP_T_CLAMP_TO_EDGE | NV30_3D_TEX_WRAP_R_CLAMP_TO_EDGE); PUSH_DATA (push, NV40_3D_TEX_ENABLE_ENABLE); PUSH_DATA (push, texswz); switch (filter) { case BILINEAR: PUSH_DATA (push, NV30_3D_TEX_FILTER_MIN_LINEAR | NV30_3D_TEX_FILTER_MAG_LINEAR | 0x00002000); break; default: PUSH_DATA (push, NV30_3D_TEX_FILTER_MIN_NEAREST | NV30_3D_TEX_FILTER_MAG_NEAREST | 0x00002000); break; } PUSH_DATA (push, (src->w << 16) | src->h); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV40_3D(TEX_SIZE1(0)), 1); PUSH_DATA (push, 0x00100000 | src->pitch); BEGIN_NV04(push, SUBC_3D(0x0b40), 1); PUSH_DATA (push, src->d < 2 ? 0x00000001 : 0x00000000); BEGIN_NV04(push, NV40_3D(TEX_CACHE_CTL), 1); PUSH_DATA (push, 1); nv30->fragprog.dirty_samplers |= 1; nv30->dirty |= NV30_NEW_FRAGTEX; /* blit! */ BEGIN_NV04(push, NV30_3D(SCISSOR_HORIZ), 2); PUSH_DATA (push, (dst->x1 - dst->x0) << 16 | dst->x0); PUSH_DATA (push, (dst->y1 - dst->y0) << 16 | dst->y0); BEGIN_NV04(push, NV30_3D(VERTEX_BEGIN_END), 1); PUSH_DATA (push, NV30_3D_VERTEX_BEGIN_END_QUADS); BEGIN_NV04(push, NV30_3D(VTX_ATTR_3F(8)), 3); PUSH_DATAf(push, src->x0); PUSH_DATAf(push, src->y0); PUSH_DATAf(push, src->z); BEGIN_NV04(push, NV30_3D(VTX_ATTR_2I(0)), 1); PUSH_DATA (push, (dst->y0 << 16) | dst->x0); BEGIN_NV04(push, NV30_3D(VTX_ATTR_3F(8)), 3); PUSH_DATAf(push, src->x1); PUSH_DATAf(push, src->y0); PUSH_DATAf(push, src->z); BEGIN_NV04(push, NV30_3D(VTX_ATTR_2I(0)), 1); PUSH_DATA (push, (dst->y0 << 16) | dst->x1); BEGIN_NV04(push, NV30_3D(VTX_ATTR_3F(8)), 3); PUSH_DATAf(push, src->x1); PUSH_DATAf(push, src->y1); PUSH_DATAf(push, src->z); BEGIN_NV04(push, NV30_3D(VTX_ATTR_2I(0)), 1); PUSH_DATA (push, (dst->y1 << 16) | dst->x1); BEGIN_NV04(push, NV30_3D(VTX_ATTR_3F(8)), 3); PUSH_DATAf(push, src->x0); PUSH_DATAf(push, src->y1); PUSH_DATAf(push, src->z); BEGIN_NV04(push, NV30_3D(VTX_ATTR_2I(0)), 1); PUSH_DATA (push, (dst->y1 << 16) | dst->x0); BEGIN_NV04(push, NV30_3D(VERTEX_BEGIN_END), 1); PUSH_DATA (push, NV30_3D_VERTEX_BEGIN_END_STOP); } static bool nv30_transfer_sifm(XFER_ARGS) { if (!src->pitch || src->w > 1024 || src->h > 1024 || src->w < 2 || src->h < 2) return false; if (src->d > 1 || dst->d > 1) return false; if (dst->offset & 63) return false; if (!dst->pitch) { if (dst->w > 2048 || dst->h > 2048 || dst->w < 2 || dst->h < 2) return false; } else { if (dst->domain != NOUVEAU_BO_VRAM) return false; if (dst->pitch & 63) return false; } return true; } static void nv30_transfer_rect_sifm(XFER_ARGS) { struct nouveau_pushbuf *push = nv30->base.pushbuf; struct nouveau_pushbuf_refn refs[] = { { src->bo, src->domain | NOUVEAU_BO_RD }, { dst->bo, dst->domain | NOUVEAU_BO_WR }, }; struct nv04_fifo *fifo = push->channel->data; unsigned si_fmt, si_arg; unsigned ss_fmt; switch (dst->cpp) { case 4: ss_fmt = NV04_SURFACE_SWZ_FORMAT_COLOR_A8R8G8B8; break; case 2: ss_fmt = NV04_SURFACE_SWZ_FORMAT_COLOR_R5G6B5; break; default: ss_fmt = NV04_SURFACE_SWZ_FORMAT_COLOR_Y8; break; } switch (src->cpp) { case 4: si_fmt = NV03_SIFM_COLOR_FORMAT_A8R8G8B8; break; case 2: si_fmt = NV03_SIFM_COLOR_FORMAT_R5G6B5; break; default: si_fmt = NV03_SIFM_COLOR_FORMAT_AY8; break; } if (filter == NEAREST) { si_arg = NV03_SIFM_FORMAT_ORIGIN_CENTER; si_arg |= NV03_SIFM_FORMAT_FILTER_POINT_SAMPLE; } else { si_arg = NV03_SIFM_FORMAT_ORIGIN_CORNER; si_arg |= NV03_SIFM_FORMAT_FILTER_BILINEAR; } if (nouveau_pushbuf_space(push, 32, 6, 0) || nouveau_pushbuf_refn (push, refs, 2)) return; if (dst->pitch) { BEGIN_NV04(push, NV04_SF2D(DMA_IMAGE_SOURCE), 2); PUSH_RELOC(push, dst->bo, 0, NOUVEAU_BO_OR, fifo->vram, fifo->gart); PUSH_RELOC(push, dst->bo, 0, NOUVEAU_BO_OR, fifo->vram, fifo->gart); BEGIN_NV04(push, NV04_SF2D(FORMAT), 4); PUSH_DATA (push, ss_fmt); PUSH_DATA (push, dst->pitch << 16 | dst->pitch); PUSH_RELOC(push, dst->bo, dst->offset, NOUVEAU_BO_LOW, 0, 0); PUSH_RELOC(push, dst->bo, dst->offset, NOUVEAU_BO_LOW, 0, 0); BEGIN_NV04(push, NV05_SIFM(SURFACE), 1); PUSH_DATA (push, nv30->screen->surf2d->handle); } else { BEGIN_NV04(push, NV04_SSWZ(DMA_IMAGE), 1); PUSH_RELOC(push, dst->bo, 0, NOUVEAU_BO_OR, fifo->vram, fifo->gart); BEGIN_NV04(push, NV04_SSWZ(FORMAT), 2); PUSH_DATA (push, ss_fmt | (util_logbase2(dst->w) << 16) | (util_logbase2(dst->h) << 24)); PUSH_RELOC(push, dst->bo, dst->offset, NOUVEAU_BO_LOW, 0, 0); BEGIN_NV04(push, NV05_SIFM(SURFACE), 1); PUSH_DATA (push, nv30->screen->swzsurf->handle); } BEGIN_NV04(push, NV03_SIFM(DMA_IMAGE), 1); PUSH_RELOC(push, src->bo, 0, NOUVEAU_BO_OR, fifo->vram, fifo->gart); BEGIN_NV04(push, NV03_SIFM(COLOR_FORMAT), 8); PUSH_DATA (push, si_fmt); PUSH_DATA (push, NV03_SIFM_OPERATION_SRCCOPY); PUSH_DATA (push, ( dst->y0 << 16) | dst->x0); PUSH_DATA (push, ((dst->y1 - dst->y0) << 16) | (dst->x1 - dst->x0)); PUSH_DATA (push, ( dst->y0 << 16) | dst->x0); PUSH_DATA (push, ((dst->y1 - dst->y0) << 16) | (dst->x1 - dst->x0)); PUSH_DATA (push, ((src->x1 - src->x0) << 20) / (dst->x1 - dst->x0)); PUSH_DATA (push, ((src->y1 - src->y0) << 20) / (dst->y1 - dst->y0)); BEGIN_NV04(push, NV03_SIFM(SIZE), 4); PUSH_DATA (push, align(src->h, 2) << 16 | align(src->w, 2)); PUSH_DATA (push, src->pitch | si_arg); PUSH_RELOC(push, src->bo, src->offset, NOUVEAU_BO_LOW, 0, 0); PUSH_DATA (push, (src->y0 << 20) | src->x0 << 4); } /* The NOP+OFFSET_OUT stuff after each M2MF transfer *is* actually required * to prevent some odd things from happening, easily reproducible by * attempting to do conditional rendering that has a M2MF transfer done * some time before it. 0x1e98 will fail with a DMA_W_PROTECTION (assuming * that name is still accurate on nv4x) error. */ static bool nv30_transfer_m2mf(XFER_ARGS) { if (!src->pitch || !dst->pitch) return false; if (nv30_transfer_scaled(src, dst)) return false; return true; } static void nv30_transfer_rect_m2mf(XFER_ARGS) { struct nouveau_pushbuf *push = nv30->base.pushbuf; struct nouveau_pushbuf_refn refs[] = { { src->bo, src->domain | NOUVEAU_BO_RD }, { dst->bo, dst->domain | NOUVEAU_BO_WR }, }; struct nv04_fifo *fifo = push->channel->data; unsigned src_offset = src->offset; unsigned dst_offset = dst->offset; unsigned w = dst->x1 - dst->x0; unsigned h = dst->y1 - dst->y0; src_offset += (src->y0 * src->pitch) + (src->x0 * src->cpp); dst_offset += (dst->y0 * dst->pitch) + (dst->x0 * dst->cpp); BEGIN_NV04(push, NV03_M2MF(DMA_BUFFER_IN), 2); PUSH_DATA (push, (src->domain == NOUVEAU_BO_VRAM) ? fifo->vram : fifo->gart); PUSH_DATA (push, (dst->domain == NOUVEAU_BO_VRAM) ? fifo->vram : fifo->gart); while (h) { unsigned lines = (h > 2047) ? 2047 : h; if (nouveau_pushbuf_space(push, 13, 2, 0) || nouveau_pushbuf_refn (push, refs, 2)) return; BEGIN_NV04(push, NV03_M2MF(OFFSET_IN), 8); PUSH_RELOC(push, src->bo, src_offset, NOUVEAU_BO_LOW, 0, 0); PUSH_RELOC(push, dst->bo, dst_offset, NOUVEAU_BO_LOW, 0, 0); PUSH_DATA (push, src->pitch); PUSH_DATA (push, dst->pitch); PUSH_DATA (push, w * src->cpp); PUSH_DATA (push, lines); PUSH_DATA (push, NV03_M2MF_FORMAT_INPUT_INC_1 | NV03_M2MF_FORMAT_OUTPUT_INC_1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV04_GRAPH(M2MF, NOP), 1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV03_M2MF(OFFSET_OUT), 1); PUSH_DATA (push, 0x00000000); h -= lines; src_offset += src->pitch * lines; dst_offset += dst->pitch * lines; } } static bool nv30_transfer_cpu(XFER_ARGS) { if (nv30_transfer_scaled(src, dst)) return false; return true; } static char * linear_ptr(struct nv30_rect *rect, char *base, int x, int y, int z) { return base + (y * rect->pitch) + (x * rect->cpp); } static inline unsigned swizzle2d(unsigned v, unsigned s) { v = (v | (v << 8)) & 0x00ff00ff; v = (v | (v << 4)) & 0x0f0f0f0f; v = (v | (v << 2)) & 0x33333333; v = (v | (v << 1)) & 0x55555555; return v << s; } static char * swizzle2d_ptr(struct nv30_rect *rect, char *base, int x, int y, int z) { unsigned k = util_logbase2(MIN2(rect->w, rect->h)); unsigned km = (1 << k) - 1; unsigned nx = rect->w >> k; unsigned tx = x >> k; unsigned ty = y >> k; unsigned m; m = swizzle2d(x & km, 0); m |= swizzle2d(y & km, 1); m += ((ty * nx) + tx) << k << k; return base + (m * rect->cpp); } static char * swizzle3d_ptr(struct nv30_rect *rect, char *base, int x, int y, int z) { unsigned w = rect->w >> 1; unsigned h = rect->h >> 1; unsigned d = rect->d >> 1; unsigned i = 0, o; unsigned v = 0; do { o = i; if (w) { v |= (x & 1) << i++; x >>= 1; w >>= 1; } if (h) { v |= (y & 1) << i++; y >>= 1; h >>= 1; } if (d) { v |= (z & 1) << i++; z >>= 1; d >>= 1; } } while(o != i); return base + (v * rect->cpp); } typedef char *(*get_ptr_t)(struct nv30_rect *, char *, int, int, int); static inline get_ptr_t get_ptr(struct nv30_rect *rect) { if (rect->pitch) return linear_ptr; if (rect->d <= 1) return swizzle2d_ptr; return swizzle3d_ptr; } static void nv30_transfer_rect_cpu(XFER_ARGS) { get_ptr_t sp = get_ptr(src); get_ptr_t dp = get_ptr(dst); char *srcmap, *dstmap; int x, y; nouveau_bo_map(src->bo, NOUVEAU_BO_RD, nv30->base.client); nouveau_bo_map(dst->bo, NOUVEAU_BO_WR, nv30->base.client); srcmap = src->bo->map + src->offset; dstmap = dst->bo->map + dst->offset; for (y = 0; y < (dst->y1 - dst->y0); y++) { for (x = 0; x < (dst->x1 - dst->x0); x++) { memcpy(dp(dst, dstmap, dst->x0 + x, dst->y0 + y, dst->z), sp(src, srcmap, src->x0 + x, src->y0 + y, src->z), dst->cpp); } } } void nv30_transfer_rect(struct nv30_context *nv30, enum nv30_transfer_filter filter, struct nv30_rect *src, struct nv30_rect *dst) { static const struct { char *name; bool (*possible)(XFER_ARGS); void (*execute)(XFER_ARGS); } *method, methods[] = { { "m2mf", nv30_transfer_m2mf, nv30_transfer_rect_m2mf }, { "sifm", nv30_transfer_sifm, nv30_transfer_rect_sifm }, { "blit", nv30_transfer_blit, nv30_transfer_rect_blit }, { "rect", nv30_transfer_cpu, nv30_transfer_rect_cpu }, {} }; method = methods - 1; while ((++method)->possible) { if (method->possible(nv30, filter, src, dst)) { method->execute(nv30, filter, src, dst); return; } } assert(0); } void nv30_transfer_push_data(struct nouveau_context *nv, struct nouveau_bo *bo, unsigned offset, unsigned domain, unsigned size, void *data) { /* use ifc, or scratch + copy_data? */ fprintf(stderr, "nv30: push_data not implemented\n"); } void nv30_transfer_copy_data(struct nouveau_context *nv, struct nouveau_bo *dst, unsigned d_off, unsigned d_dom, struct nouveau_bo *src, unsigned s_off, unsigned s_dom, unsigned size) { struct nv04_fifo *fifo = nv->screen->channel->data; struct nouveau_pushbuf_refn refs[] = { { src, s_dom | NOUVEAU_BO_RD }, { dst, d_dom | NOUVEAU_BO_WR }, }; struct nouveau_pushbuf *push = nv->pushbuf; unsigned pages, lines; pages = size >> 12; size -= (pages << 12); BEGIN_NV04(push, NV03_M2MF(DMA_BUFFER_IN), 2); PUSH_DATA (push, (s_dom == NOUVEAU_BO_VRAM) ? fifo->vram : fifo->gart); PUSH_DATA (push, (d_dom == NOUVEAU_BO_VRAM) ? fifo->vram : fifo->gart); while (pages) { lines = (pages > 2047) ? 2047 : pages; pages -= lines; if (nouveau_pushbuf_space(push, 13, 2, 0) || nouveau_pushbuf_refn (push, refs, 2)) return; BEGIN_NV04(push, NV03_M2MF(OFFSET_IN), 8); PUSH_RELOC(push, src, s_off, NOUVEAU_BO_LOW, 0, 0); PUSH_RELOC(push, dst, d_off, NOUVEAU_BO_LOW, 0, 0); PUSH_DATA (push, 4096); PUSH_DATA (push, 4096); PUSH_DATA (push, 4096); PUSH_DATA (push, lines); PUSH_DATA (push, NV03_M2MF_FORMAT_INPUT_INC_1 | NV03_M2MF_FORMAT_OUTPUT_INC_1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV04_GRAPH(M2MF, NOP), 1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV03_M2MF(OFFSET_OUT), 1); PUSH_DATA (push, 0x00000000); s_off += (lines << 12); d_off += (lines << 12); } if (size) { if (nouveau_pushbuf_space(push, 13, 2, 0) || nouveau_pushbuf_refn (push, refs, 2)) return; BEGIN_NV04(push, NV03_M2MF(OFFSET_IN), 8); PUSH_RELOC(push, src, s_off, NOUVEAU_BO_LOW, 0, 0); PUSH_RELOC(push, dst, d_off, NOUVEAU_BO_LOW, 0, 0); PUSH_DATA (push, size); PUSH_DATA (push, size); PUSH_DATA (push, size); PUSH_DATA (push, 1); PUSH_DATA (push, NV03_M2MF_FORMAT_INPUT_INC_1 | NV03_M2MF_FORMAT_OUTPUT_INC_1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV04_GRAPH(M2MF, NOP), 1); PUSH_DATA (push, 0x00000000); BEGIN_NV04(push, NV03_M2MF(OFFSET_OUT), 1); PUSH_DATA (push, 0x00000000); } }