Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Florian Tobias Schandinat | 1737 | 65.47% | 7 | 36.84% |
Joseph Chan | 656 | 24.73% | 1 | 5.26% |
Jonathan Corbet | 245 | 9.23% | 7 | 36.84% |
Roel Kluin | 10 | 0.38% | 1 | 5.26% |
Erik-Jan Post | 2 | 0.08% | 1 | 5.26% |
Thomas Gleixner | 2 | 0.08% | 1 | 5.26% |
Javier Martinez Canillas | 1 | 0.04% | 1 | 5.26% |
Total | 2653 | 19 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright 1998-2008 VIA Technologies, Inc. All Rights Reserved. * Copyright 2001-2008 S3 Graphics, Inc. All Rights Reserved. */ #include <linux/via-core.h> #include "global.h" /* * Figure out an appropriate bytes-per-pixel setting. */ static int viafb_set_bpp(void __iomem *engine, u8 bpp) { u32 gemode; /* Preserve the reserved bits */ /* Lowest 2 bits to zero gives us no rotation */ gemode = readl(engine + VIA_REG_GEMODE) & 0xfffffcfc; switch (bpp) { case 8: gemode |= VIA_GEM_8bpp; break; case 16: gemode |= VIA_GEM_16bpp; break; case 32: gemode |= VIA_GEM_32bpp; break; default: printk(KERN_WARNING "viafb_set_bpp: Unsupported bpp %d\n", bpp); return -EINVAL; } writel(gemode, engine + VIA_REG_GEMODE); return 0; } static int hw_bitblt_1(void __iomem *engine, u8 op, u32 width, u32 height, u8 dst_bpp, u32 dst_addr, u32 dst_pitch, u32 dst_x, u32 dst_y, u32 *src_mem, u32 src_addr, u32 src_pitch, u32 src_x, u32 src_y, u32 fg_color, u32 bg_color, u8 fill_rop) { u32 ge_cmd = 0, tmp, i; int ret; if (!op || op > 3) { printk(KERN_WARNING "hw_bitblt_1: Invalid operation: %d\n", op); return -EINVAL; } if (op != VIA_BITBLT_FILL && !src_mem && src_addr == dst_addr) { if (src_x < dst_x) { ge_cmd |= 0x00008000; src_x += width - 1; dst_x += width - 1; } if (src_y < dst_y) { ge_cmd |= 0x00004000; src_y += height - 1; dst_y += height - 1; } } if (op == VIA_BITBLT_FILL) { switch (fill_rop) { case 0x00: /* blackness */ case 0x5A: /* pattern inversion */ case 0xF0: /* pattern copy */ case 0xFF: /* whiteness */ break; default: printk(KERN_WARNING "hw_bitblt_1: Invalid fill rop: " "%u\n", fill_rop); return -EINVAL; } } ret = viafb_set_bpp(engine, dst_bpp); if (ret) return ret; if (op != VIA_BITBLT_FILL) { if (src_x & (op == VIA_BITBLT_MONO ? 0xFFFF8000 : 0xFFFFF000) || src_y & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_1: Unsupported source " "x/y %d %d\n", src_x, src_y); return -EINVAL; } tmp = src_x | (src_y << 16); writel(tmp, engine + 0x08); } if (dst_x & 0xFFFFF000 || dst_y & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_1: Unsupported destination x/y " "%d %d\n", dst_x, dst_y); return -EINVAL; } tmp = dst_x | (dst_y << 16); writel(tmp, engine + 0x0C); if ((width - 1) & 0xFFFFF000 || (height - 1) & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_1: Unsupported width/height " "%d %d\n", width, height); return -EINVAL; } tmp = (width - 1) | ((height - 1) << 16); writel(tmp, engine + 0x10); if (op != VIA_BITBLT_COLOR) writel(fg_color, engine + 0x18); if (op == VIA_BITBLT_MONO) writel(bg_color, engine + 0x1C); if (op != VIA_BITBLT_FILL) { tmp = src_mem ? 0 : src_addr; if (dst_addr & 0xE0000007) { printk(KERN_WARNING "hw_bitblt_1: Unsupported source " "address %X\n", tmp); return -EINVAL; } tmp >>= 3; writel(tmp, engine + 0x30); } if (dst_addr & 0xE0000007) { printk(KERN_WARNING "hw_bitblt_1: Unsupported destination " "address %X\n", dst_addr); return -EINVAL; } tmp = dst_addr >> 3; writel(tmp, engine + 0x34); if (op == VIA_BITBLT_FILL) tmp = 0; else tmp = src_pitch; if (tmp & 0xFFFFC007 || dst_pitch & 0xFFFFC007) { printk(KERN_WARNING "hw_bitblt_1: Unsupported pitch %X %X\n", tmp, dst_pitch); return -EINVAL; } tmp = VIA_PITCH_ENABLE | (tmp >> 3) | (dst_pitch << (16 - 3)); writel(tmp, engine + 0x38); if (op == VIA_BITBLT_FILL) ge_cmd |= fill_rop << 24 | 0x00002000 | 0x00000001; else { ge_cmd |= 0xCC000000; /* ROP=SRCCOPY */ if (src_mem) ge_cmd |= 0x00000040; if (op == VIA_BITBLT_MONO) ge_cmd |= 0x00000002 | 0x00000100 | 0x00020000; else ge_cmd |= 0x00000001; } writel(ge_cmd, engine); if (op == VIA_BITBLT_FILL || !src_mem) return 0; tmp = (width * height * (op == VIA_BITBLT_MONO ? 1 : (dst_bpp >> 3)) + 3) >> 2; for (i = 0; i < tmp; i++) writel(src_mem[i], engine + VIA_MMIO_BLTBASE); return 0; } static int hw_bitblt_2(void __iomem *engine, u8 op, u32 width, u32 height, u8 dst_bpp, u32 dst_addr, u32 dst_pitch, u32 dst_x, u32 dst_y, u32 *src_mem, u32 src_addr, u32 src_pitch, u32 src_x, u32 src_y, u32 fg_color, u32 bg_color, u8 fill_rop) { u32 ge_cmd = 0, tmp, i; int ret; if (!op || op > 3) { printk(KERN_WARNING "hw_bitblt_2: Invalid operation: %d\n", op); return -EINVAL; } if (op != VIA_BITBLT_FILL && !src_mem && src_addr == dst_addr) { if (src_x < dst_x) { ge_cmd |= 0x00008000; src_x += width - 1; dst_x += width - 1; } if (src_y < dst_y) { ge_cmd |= 0x00004000; src_y += height - 1; dst_y += height - 1; } } if (op == VIA_BITBLT_FILL) { switch (fill_rop) { case 0x00: /* blackness */ case 0x5A: /* pattern inversion */ case 0xF0: /* pattern copy */ case 0xFF: /* whiteness */ break; default: printk(KERN_WARNING "hw_bitblt_2: Invalid fill rop: " "%u\n", fill_rop); return -EINVAL; } } ret = viafb_set_bpp(engine, dst_bpp); if (ret) return ret; if (op == VIA_BITBLT_FILL) tmp = 0; else tmp = src_pitch; if (tmp & 0xFFFFC007 || dst_pitch & 0xFFFFC007) { printk(KERN_WARNING "hw_bitblt_2: Unsupported pitch %X %X\n", tmp, dst_pitch); return -EINVAL; } tmp = (tmp >> 3) | (dst_pitch << (16 - 3)); writel(tmp, engine + 0x08); if ((width - 1) & 0xFFFFF000 || (height - 1) & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_2: Unsupported width/height " "%d %d\n", width, height); return -EINVAL; } tmp = (width - 1) | ((height - 1) << 16); writel(tmp, engine + 0x0C); if (dst_x & 0xFFFFF000 || dst_y & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_2: Unsupported destination x/y " "%d %d\n", dst_x, dst_y); return -EINVAL; } tmp = dst_x | (dst_y << 16); writel(tmp, engine + 0x10); if (dst_addr & 0xE0000007) { printk(KERN_WARNING "hw_bitblt_2: Unsupported destination " "address %X\n", dst_addr); return -EINVAL; } tmp = dst_addr >> 3; writel(tmp, engine + 0x14); if (op != VIA_BITBLT_FILL) { if (src_x & (op == VIA_BITBLT_MONO ? 0xFFFF8000 : 0xFFFFF000) || src_y & 0xFFFFF000) { printk(KERN_WARNING "hw_bitblt_2: Unsupported source " "x/y %d %d\n", src_x, src_y); return -EINVAL; } tmp = src_x | (src_y << 16); writel(tmp, engine + 0x18); tmp = src_mem ? 0 : src_addr; if (dst_addr & 0xE0000007) { printk(KERN_WARNING "hw_bitblt_2: Unsupported source " "address %X\n", tmp); return -EINVAL; } tmp >>= 3; writel(tmp, engine + 0x1C); } if (op == VIA_BITBLT_FILL) { writel(fg_color, engine + 0x58); } else if (op == VIA_BITBLT_MONO) { writel(fg_color, engine + 0x4C); writel(bg_color, engine + 0x50); } if (op == VIA_BITBLT_FILL) ge_cmd |= fill_rop << 24 | 0x00002000 | 0x00000001; else { ge_cmd |= 0xCC000000; /* ROP=SRCCOPY */ if (src_mem) ge_cmd |= 0x00000040; if (op == VIA_BITBLT_MONO) ge_cmd |= 0x00000002 | 0x00000100 | 0x00020000; else ge_cmd |= 0x00000001; } writel(ge_cmd, engine); if (op == VIA_BITBLT_FILL || !src_mem) return 0; tmp = (width * height * (op == VIA_BITBLT_MONO ? 1 : (dst_bpp >> 3)) + 3) >> 2; for (i = 0; i < tmp; i++) writel(src_mem[i], engine + VIA_MMIO_BLTBASE); return 0; } int viafb_setup_engine(struct fb_info *info) { struct viafb_par *viapar = info->par; void __iomem *engine; u32 chip_name = viapar->shared->chip_info.gfx_chip_name; engine = viapar->shared->vdev->engine_mmio; if (!engine) { printk(KERN_WARNING "viafb_init_accel: ioremap failed, " "hardware acceleration disabled\n"); return -ENOMEM; } switch (chip_name) { case UNICHROME_CLE266: case UNICHROME_K400: case UNICHROME_K800: case UNICHROME_PM800: case UNICHROME_CN700: case UNICHROME_CX700: case UNICHROME_CN750: case UNICHROME_K8M890: case UNICHROME_P4M890: case UNICHROME_P4M900: viapar->shared->hw_bitblt = hw_bitblt_1; break; case UNICHROME_VX800: case UNICHROME_VX855: case UNICHROME_VX900: viapar->shared->hw_bitblt = hw_bitblt_2; break; default: viapar->shared->hw_bitblt = NULL; } viapar->fbmem_free -= CURSOR_SIZE; viapar->shared->cursor_vram_addr = viapar->fbmem_free; viapar->fbmem_used += CURSOR_SIZE; viapar->fbmem_free -= VQ_SIZE; viapar->shared->vq_vram_addr = viapar->fbmem_free; viapar->fbmem_used += VQ_SIZE; #if IS_ENABLED(CONFIG_VIDEO_VIA_CAMERA) /* * Set aside a chunk of framebuffer memory for the camera * driver. Someday this driver probably needs a proper allocator * for fbmem; for now, we just have to do this before the * framebuffer initializes itself. * * As for the size: the engine can handle three frames, * 16 bits deep, up to VGA resolution. */ viapar->shared->vdev->camera_fbmem_size = 3*VGA_HEIGHT*VGA_WIDTH*2; viapar->fbmem_free -= viapar->shared->vdev->camera_fbmem_size; viapar->fbmem_used += viapar->shared->vdev->camera_fbmem_size; viapar->shared->vdev->camera_fbmem_offset = viapar->fbmem_free; #endif viafb_reset_engine(viapar); return 0; } void viafb_reset_engine(struct viafb_par *viapar) { void __iomem *engine = viapar->shared->vdev->engine_mmio; int highest_reg, i; u32 vq_start_addr, vq_end_addr, vq_start_low, vq_end_low, vq_high, vq_len, chip_name = viapar->shared->chip_info.gfx_chip_name; /* Initialize registers to reset the 2D engine */ switch (viapar->shared->chip_info.twod_engine) { case VIA_2D_ENG_M1: highest_reg = 0x5c; break; default: highest_reg = 0x40; break; } for (i = 0; i <= highest_reg; i += 4) writel(0x0, engine + i); /* Init AGP and VQ regs */ switch (chip_name) { case UNICHROME_K8M890: case UNICHROME_P4M900: case UNICHROME_VX800: case UNICHROME_VX855: case UNICHROME_VX900: writel(0x00100000, engine + VIA_REG_CR_TRANSET); writel(0x680A0000, engine + VIA_REG_CR_TRANSPACE); writel(0x02000000, engine + VIA_REG_CR_TRANSPACE); break; default: writel(0x00100000, engine + VIA_REG_TRANSET); writel(0x00000000, engine + VIA_REG_TRANSPACE); writel(0x00333004, engine + VIA_REG_TRANSPACE); writel(0x60000000, engine + VIA_REG_TRANSPACE); writel(0x61000000, engine + VIA_REG_TRANSPACE); writel(0x62000000, engine + VIA_REG_TRANSPACE); writel(0x63000000, engine + VIA_REG_TRANSPACE); writel(0x64000000, engine + VIA_REG_TRANSPACE); writel(0x7D000000, engine + VIA_REG_TRANSPACE); writel(0xFE020000, engine + VIA_REG_TRANSET); writel(0x00000000, engine + VIA_REG_TRANSPACE); break; } /* Enable VQ */ vq_start_addr = viapar->shared->vq_vram_addr; vq_end_addr = viapar->shared->vq_vram_addr + VQ_SIZE - 1; vq_start_low = 0x50000000 | (vq_start_addr & 0xFFFFFF); vq_end_low = 0x51000000 | (vq_end_addr & 0xFFFFFF); vq_high = 0x52000000 | ((vq_start_addr & 0xFF000000) >> 24) | ((vq_end_addr & 0xFF000000) >> 16); vq_len = 0x53000000 | (VQ_SIZE >> 3); switch (chip_name) { case UNICHROME_K8M890: case UNICHROME_P4M900: case UNICHROME_VX800: case UNICHROME_VX855: case UNICHROME_VX900: vq_start_low |= 0x20000000; vq_end_low |= 0x20000000; vq_high |= 0x20000000; vq_len |= 0x20000000; writel(0x00100000, engine + VIA_REG_CR_TRANSET); writel(vq_high, engine + VIA_REG_CR_TRANSPACE); writel(vq_start_low, engine + VIA_REG_CR_TRANSPACE); writel(vq_end_low, engine + VIA_REG_CR_TRANSPACE); writel(vq_len, engine + VIA_REG_CR_TRANSPACE); writel(0x74301001, engine + VIA_REG_CR_TRANSPACE); writel(0x00000000, engine + VIA_REG_CR_TRANSPACE); break; default: writel(0x00FE0000, engine + VIA_REG_TRANSET); writel(0x080003FE, engine + VIA_REG_TRANSPACE); writel(0x0A00027C, engine + VIA_REG_TRANSPACE); writel(0x0B000260, engine + VIA_REG_TRANSPACE); writel(0x0C000274, engine + VIA_REG_TRANSPACE); writel(0x0D000264, engine + VIA_REG_TRANSPACE); writel(0x0E000000, engine + VIA_REG_TRANSPACE); writel(0x0F000020, engine + VIA_REG_TRANSPACE); writel(0x1000027E, engine + VIA_REG_TRANSPACE); writel(0x110002FE, engine + VIA_REG_TRANSPACE); writel(0x200F0060, engine + VIA_REG_TRANSPACE); writel(0x00000006, engine + VIA_REG_TRANSPACE); writel(0x40008C0F, engine + VIA_REG_TRANSPACE); writel(0x44000000, engine + VIA_REG_TRANSPACE); writel(0x45080C04, engine + VIA_REG_TRANSPACE); writel(0x46800408, engine + VIA_REG_TRANSPACE); writel(vq_high, engine + VIA_REG_TRANSPACE); writel(vq_start_low, engine + VIA_REG_TRANSPACE); writel(vq_end_low, engine + VIA_REG_TRANSPACE); writel(vq_len, engine + VIA_REG_TRANSPACE); break; } /* Set Cursor Image Base Address */ writel(viapar->shared->cursor_vram_addr, engine + VIA_REG_CURSOR_MODE); writel(0x0, engine + VIA_REG_CURSOR_POS); writel(0x0, engine + VIA_REG_CURSOR_ORG); writel(0x0, engine + VIA_REG_CURSOR_BG); writel(0x0, engine + VIA_REG_CURSOR_FG); return; } void viafb_show_hw_cursor(struct fb_info *info, int Status) { struct viafb_par *viapar = info->par; u32 temp, iga_path = viapar->iga_path; temp = readl(viapar->shared->vdev->engine_mmio + VIA_REG_CURSOR_MODE); switch (Status) { case HW_Cursor_ON: temp |= 0x1; break; case HW_Cursor_OFF: temp &= 0xFFFFFFFE; break; } switch (iga_path) { case IGA2: temp |= 0x80000000; break; case IGA1: default: temp &= 0x7FFFFFFF; } writel(temp, viapar->shared->vdev->engine_mmio + VIA_REG_CURSOR_MODE); } void viafb_wait_engine_idle(struct fb_info *info) { struct viafb_par *viapar = info->par; int loop = 0; u32 mask; void __iomem *engine = viapar->shared->vdev->engine_mmio; switch (viapar->shared->chip_info.twod_engine) { case VIA_2D_ENG_H5: case VIA_2D_ENG_M1: mask = VIA_CMD_RGTR_BUSY_M1 | VIA_2D_ENG_BUSY_M1 | VIA_3D_ENG_BUSY_M1; break; default: while (!(readl(engine + VIA_REG_STATUS) & VIA_VR_QUEUE_BUSY) && (loop < MAXLOOP)) { loop++; cpu_relax(); } mask = VIA_CMD_RGTR_BUSY | VIA_2D_ENG_BUSY | VIA_3D_ENG_BUSY; break; } while ((readl(engine + VIA_REG_STATUS) & mask) && (loop < MAXLOOP)) { loop++; cpu_relax(); } if (loop >= MAXLOOP) printk(KERN_ERR "viafb_wait_engine_idle: not syncing\n"); }
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