/* * Frame buffer driver for the Carmine GPU. * * The driver configures the GPU as follows * - FB0 is display 0 with unique memory area * - FB1 is display 1 with unique memory area * - both display use 32 bit colors */ #include #include #include #include #include #include #include #include "carminefb.h" #include "carminefb_regs.h" #if !defined(__LITTLE_ENDIAN) && !defined(__BIG_ENDIAN) #error "The endianness of the target host has not been defined." #endif /* * The initial video mode can be supplied via two different ways: * - as a string that is passed to fb_find_mode() (module option fb_mode_str) * - as an integer that picks the video mode from carmine_modedb[] (module * option fb_mode) * * If nothing is used than the initial video mode will be the * CARMINEFB_DEFAULT_VIDEO_MODE member of the carmine_modedb[]. */ #define CARMINEFB_DEFAULT_VIDEO_MODE 1 static unsigned int fb_mode = CARMINEFB_DEFAULT_VIDEO_MODE; module_param(fb_mode, uint, 0444); MODULE_PARM_DESC(fb_mode, "Initial video mode as integer."); static char *fb_mode_str; module_param(fb_mode_str, charp, 0444); MODULE_PARM_DESC(fb_mode_str, "Initial video mode in characters."); /* * Carminefb displays: * 0b000 None * 0b001 Display 0 * 0b010 Display 1 */ static int fb_displays = CARMINE_USE_DISPLAY0 | CARMINE_USE_DISPLAY1; module_param(fb_displays, int, 0444); MODULE_PARM_DESC(fb_displays, "Bit mode, which displays are used"); struct carmine_hw { void __iomem *v_regs; void __iomem *screen_mem; struct fb_info *fb[MAX_DISPLAY]; }; struct carmine_resolution { u32 htp; u32 hsp; u32 hsw; u32 hdp; u32 vtr; u32 vsp; u32 vsw; u32 vdp; u32 disp_mode; }; struct carmine_fb { void __iomem *display_reg; void __iomem *screen_base; u32 smem_offset; u32 cur_mode; u32 new_mode; struct carmine_resolution *res; u32 pseudo_palette[16]; }; static struct fb_fix_screeninfo carminefb_fix __devinitdata = { .id = "Carmine", .type = FB_TYPE_PACKED_PIXELS, .visual = FB_VISUAL_TRUECOLOR, .accel = FB_ACCEL_NONE, }; static const struct fb_videomode carmine_modedb[] = { { .name = "640x480", .xres = 640, .yres = 480, }, { .name = "800x600", .xres = 800, .yres = 600, }, }; static struct carmine_resolution car_modes[] = { { /* 640x480 */ .htp = 800, .hsp = 672, .hsw = 96, .hdp = 640, .vtr = 525, .vsp = 490, .vsw = 2, .vdp = 480, .disp_mode = 0x1400, }, { /* 800x600 */ .htp = 1060, .hsp = 864, .hsw = 72, .hdp = 800, .vtr = 628, .vsp = 601, .vsw = 2, .vdp = 600, .disp_mode = 0x0d00, } }; static int carmine_find_mode(const struct fb_var_screeninfo *var) { int i; for (i = 0; i < ARRAY_SIZE(car_modes); i++) if (car_modes[i].hdp == var->xres && car_modes[i].vdp == var->yres) return i; return -EINVAL; } static void c_set_disp_reg(const struct carmine_fb *par, u32 offset, u32 val) { writel(val, par->display_reg + offset); } static u32 c_get_disp_reg(const struct carmine_fb *par, u32 offset) { return readl(par->display_reg + offset); } static void c_set_hw_reg(const struct carmine_hw *hw, u32 offset, u32 val) { writel(val, hw->v_regs + offset); } static u32 c_get_hw_reg(const struct carmine_hw *hw, u32 offset) { return readl(hw->v_regs + offset); } static int carmine_setcolreg(unsigned regno, unsigned red, unsigned green, unsigned blue, unsigned transp, struct fb_info *info) { if (regno >= 16) return 1; red >>= 8; green >>= 8; blue >>= 8; transp >>= 8; ((__be32 *)info->pseudo_palette)[regno] = cpu_to_be32(transp << 24 | red << 0 | green << 8 | blue << 16); return 0; } static int carmine_check_var(struct fb_var_screeninfo *var, struct fb_info *info) { int ret; ret = carmine_find_mode(var); if (ret < 0) return ret; if (var->grayscale || var->rotate || var->nonstd) return -EINVAL; var->xres_virtual = var->xres; var->yres_virtual = var->yres; var->bits_per_pixel = 32; #ifdef __BIG_ENDIAN var->transp.offset = 24; var->red.offset = 0; var->green.offset = 8; var->blue.offset = 16; #else var->transp.offset = 24; var->red.offset = 16; var->green.offset = 8; var->blue.offset = 0; #endif var->red.length = 8; var->green.length = 8; var->blue.length = 8; var->transp.length = 8; var->red.msb_right = 0; var->green.msb_right = 0; var->blue.msb_right = 0; var->transp.msb_right = 0; return 0; } static void carmine_init_display_param(struct carmine_fb *par) { u32 width; u32 height; u32 param; u32 window_size; u32 soffset = par->smem_offset; c_set_disp_reg(par, CARMINE_DISP_REG_C_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_MLMR_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_CURSOR_MODE, CARMINE_CURSOR0_PRIORITY_MASK | CARMINE_CURSOR1_PRIORITY_MASK | CARMINE_CURSOR_CUTZ_MASK); /* Set default cursor position */ c_set_disp_reg(par, CARMINE_DISP_REG_CUR1_POS, 0 << 16 | 0); c_set_disp_reg(par, CARMINE_DISP_REG_CUR2_POS, 0 << 16 | 0); /* Set default display mode */ c_set_disp_reg(par, CARMINE_DISP_REG_L0_EXT_MODE, CARMINE_WINDOW_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L1_EXT_MODE, CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L2_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L3_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L4_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L5_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L6_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); c_set_disp_reg(par, CARMINE_DISP_REG_L7_EXT_MODE, CARMINE_EXTEND_MODE | CARMINE_EXT_CMODE_DIRECT24_RGBA); /* Set default frame size to layer mode register */ width = par->res->hdp * 4 / CARMINE_DISP_WIDTH_UNIT; width = width << CARMINE_DISP_WIDTH_SHIFT; height = par->res->vdp - 1; param = width | height; c_set_disp_reg(par, CARMINE_DISP_REG_L0_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L1_WIDTH, width); c_set_disp_reg(par, CARMINE_DISP_REG_L2_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L3_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L4_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L5_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L6_MODE_W_H, param); c_set_disp_reg(par, CARMINE_DISP_REG_L7_MODE_W_H, param); /* Set default pos and size */ window_size = (par->res->vdp - 1) << CARMINE_DISP_WIN_H_SHIFT; window_size |= par->res->hdp; c_set_disp_reg(par, CARMINE_DISP_REG_L0_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L0_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L1_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L1_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L2_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L3_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L4_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L5_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L6_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6_WIN_SIZE, window_size); c_set_disp_reg(par, CARMINE_DISP_REG_L7_WIN_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7_WIN_SIZE, window_size); /* Set default origin address */ c_set_disp_reg(par, CARMINE_DISP_REG_L0_ORG_ADR, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L1_ORG_ADR, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L2_ORG_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L3_ORG_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L4_ORG_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L5_ORG_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L6_ORG_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L7_ORG_ADR1, soffset); /* Set default display address */ c_set_disp_reg(par, CARMINE_DISP_REG_L0_DISP_ADR, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L2_DISP_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L3_DISP_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L4_DISP_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L5_DISP_ADR1, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L6_DISP_ADR0, soffset); c_set_disp_reg(par, CARMINE_DISP_REG_L7_DISP_ADR0, soffset); /* Set default display position */ c_set_disp_reg(par, CARMINE_DISP_REG_L0_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6_DISP_POS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7_DISP_POS, 0); /* Set default blend mode */ c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L0, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L1, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L2, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L3, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L4, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L5, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L6, 0); c_set_disp_reg(par, CARMINE_DISP_REG_BLEND_MODE_L7, 0); /* default transparency mode */ c_set_disp_reg(par, CARMINE_DISP_REG_L0_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L1_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6_TRANS, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7_TRANS, 0); /* Set default read skip parameter */ c_set_disp_reg(par, CARMINE_DISP_REG_L0RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7RM, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L0PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7PX, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L0PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L2PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L3PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L4PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L5PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L6PY, 0); c_set_disp_reg(par, CARMINE_DISP_REG_L7PY, 0); } static void set_display_parameters(struct carmine_fb *par) { u32 mode; u32 hdp, vdp, htp, hsp, hsw, vtr, vsp, vsw; /* * display timing. Parameters are decreased by one because hardware * spec is 0 to (n - 1) * */ hdp = par->res->hdp - 1; vdp = par->res->vdp - 1; htp = par->res->htp - 1; hsp = par->res->hsp - 1; hsw = par->res->hsw - 1; vtr = par->res->vtr - 1; vsp = par->res->vsp - 1; vsw = par->res->vsw - 1; c_set_disp_reg(par, CARMINE_DISP_REG_H_TOTAL, htp << CARMINE_DISP_HTP_SHIFT); c_set_disp_reg(par, CARMINE_DISP_REG_H_PERIOD, (hdp << CARMINE_DISP_HDB_SHIFT) | hdp); c_set_disp_reg(par, CARMINE_DISP_REG_V_H_W_H_POS, (vsw << CARMINE_DISP_VSW_SHIFT) | (hsw << CARMINE_DISP_HSW_SHIFT) | (hsp)); c_set_disp_reg(par, CARMINE_DISP_REG_V_TOTAL, vtr << CARMINE_DISP_VTR_SHIFT); c_set_disp_reg(par, CARMINE_DISP_REG_V_PERIOD_POS, (vdp << CARMINE_DISP_VDP_SHIFT) | vsp); /* clock */ mode = c_get_disp_reg(par, CARMINE_DISP_REG_DCM1); mode = (mode & ~CARMINE_DISP_DCM_MASK) | (par->res->disp_mode & CARMINE_DISP_DCM_MASK); /* enable video output and layer 0 */ mode |= CARMINE_DEN | CARMINE_L0E; c_set_disp_reg(par, CARMINE_DISP_REG_DCM1, mode); } static int carmine_set_par(struct fb_info *info) { struct carmine_fb *par = info->par; int ret; ret = carmine_find_mode(&info->var); if (ret < 0) return ret; par->new_mode = ret; if (par->cur_mode != par->new_mode) { par->cur_mode = par->new_mode; par->res = &car_modes[par->new_mode]; carmine_init_display_param(par); set_display_parameters(par); } info->fix.line_length = info->var.xres * info->var.bits_per_pixel / 8; return 0; } static int init_hardware(struct carmine_hw *hw) { u32 flags; u32 loops; u32 ret; /* Initialize Carmine */ /* Sets internal clock */ c_set_hw_reg(hw, CARMINE_CTL_REG + CARMINE_CTL_REG_CLOCK_ENABLE, CARMINE_DFLT_IP_CLOCK_ENABLE); /* Video signal output is turned off */ c_set_hw_reg(hw, CARMINE_DISP0_REG + CARMINE_DISP_REG_DCM1, 0); c_set_hw_reg(hw, CARMINE_DISP1_REG + CARMINE_DISP_REG_DCM1, 0); /* Software reset */ c_set_hw_reg(hw, CARMINE_CTL_REG + CARMINE_CTL_REG_SOFTWARE_RESET, 1); c_set_hw_reg(hw, CARMINE_CTL_REG + CARMINE_CTL_REG_SOFTWARE_RESET, 0); /* I/O mode settings */ flags = CARMINE_DFLT_IP_DCTL_IO_CONT1 << 16 | CARMINE_DFLT_IP_DCTL_IO_CONT0; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_IOCONT1_IOCONT0, flags); /* DRAM initial sequence */ flags = CARMINE_DFLT_IP_DCTL_MODE << 16 | CARMINE_DFLT_IP_DCTL_ADD; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_MODE_ADD, flags); flags = CARMINE_DFLT_IP_DCTL_SET_TIME1 << 16 | CARMINE_DFLT_IP_DCTL_EMODE; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_SETTIME1_EMODE, flags); flags = CARMINE_DFLT_IP_DCTL_REFRESH << 16 | CARMINE_DFLT_IP_DCTL_SET_TIME2; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_REFRESH_SETTIME2, flags); flags = CARMINE_DFLT_IP_DCTL_RESERVE2 << 16 | CARMINE_DFLT_IP_DCTL_FIFO_DEPTH; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_RSV2_RSV1, flags); flags = CARMINE_DFLT_IP_DCTL_DDRIF2 << 16 | CARMINE_DFLT_IP_DCTL_DDRIF1; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_DDRIF2_DDRIF1, flags); flags = CARMINE_DFLT_IP_DCTL_RESERVE0 << 16 | CARMINE_DFLT_IP_DCTL_STATES; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_RSV0_STATES, flags); /* Executes DLL reset */ if (CARMINE_DCTL_DLL_RESET) { for (loops = 0; loops < CARMINE_DCTL_INIT_WAIT_LIMIT; loops++) { ret = c_get_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_RSV0_STATES); ret &= CARMINE_DCTL_REG_STATES_MASK; if (!ret) break; mdelay(CARMINE_DCTL_INIT_WAIT_INTERVAL); } if (loops >= CARMINE_DCTL_INIT_WAIT_LIMIT) { printk(KERN_ERR "DRAM init failed\n"); return -EIO; } } flags = CARMINE_DFLT_IP_DCTL_MODE_AFT_RST << 16 | CARMINE_DFLT_IP_DCTL_ADD; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_MODE_ADD, flags); flags = CARMINE_DFLT_IP_DCTL_RESERVE0 << 16 | CARMINE_DFLT_IP_DCTL_STATES_AFT_RST; c_set_hw_reg(hw, CARMINE_DCTL_REG + CARMINE_DCTL_REG_RSV0_STATES, flags); /* Initialize the write back register */ c_set_hw_reg(hw, CARMINE_WB_REG + CARMINE_WB_REG_WBM, CARMINE_WB_REG_WBM_DEFAULT); /* Initialize the Kottos registers */ c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_VRINTM, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_VRERRM, 0); /* Set DC offsets */ c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_PX, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_PY, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_LX, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_LY, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_TX, 0); c_set_hw_reg(hw, CARMINE_GRAPH_REG + CARMINE_GRAPH_REG_DC_OFFSET_TY, 0); return 0; } static struct fb_ops carminefb_ops = { .owner = THIS_MODULE, .fb_fillrect = cfb_fillrect, .fb_copyarea = cfb_copyarea, .fb_imageblit = cfb_imageblit, .fb_check_var = carmine_check_var, .fb_set_par = carmine_set_par, .fb_setcolreg = carmine_setcolreg, }; static int __devinit alloc_carmine_fb(void __iomem *regs, void __iomem *smem_base, int smem_offset, struct device *device, struct fb_info **rinfo) { int ret; struct fb_info *info; struct carmine_fb *par; info = framebuffer_alloc(sizeof *par, device); if (!info) return -ENOMEM; par = info->par; par->display_reg = regs; par->smem_offset = smem_offset; info->screen_base = smem_base + smem_offset; info->screen_size = CARMINE_DISPLAY_MEM; info->fbops = &carminefb_ops; info->fix = carminefb_fix; info->pseudo_palette = par->pseudo_palette; info->flags = FBINFO_DEFAULT; ret = fb_alloc_cmap(&info->cmap, 256, 1); if (ret < 0) goto err_free_fb; if (fb_mode >= ARRAY_SIZE(carmine_modedb)) fb_mode = CARMINEFB_DEFAULT_VIDEO_MODE; par->cur_mode = par->new_mode = ~0; ret = fb_find_mode(&info->var, info, fb_mode_str, carmine_modedb, ARRAY_SIZE(carmine_modedb), &carmine_modedb[fb_mode], 32); if (!ret || ret == 4) { ret = -EINVAL; goto err_dealloc_cmap; } fb_videomode_to_modelist(carmine_modedb, ARRAY_SIZE(carmine_modedb), &info->modelist); ret = register_framebuffer(info); if (ret < 0) goto err_dealloc_cmap; printk(KERN_INFO "fb%d: %s frame buffer device\n", info->node, info->fix.id); *rinfo = info; return 0; err_dealloc_cmap: fb_dealloc_cmap(&info->cmap); err_free_fb: framebuffer_release(info); return ret; } static void cleanup_fb_device(struct fb_info *info) { if (info) { unregister_framebuffer(info); fb_dealloc_cmap(&info->cmap); framebuffer_release(info); } } static int __devinit carminefb_probe(struct pci_dev *dev, const struct pci_device_id *ent) { struct carmine_hw *hw; struct device *device = &dev->dev; struct fb_info *info; int ret; ret = pci_enable_device(dev); if (ret) return ret; ret = -ENOMEM; hw = kzalloc(sizeof *hw, GFP_KERNEL); if (!hw) goto err_enable_pci; carminefb_fix.mmio_start = pci_resource_start(dev, CARMINE_CONFIG_BAR); carminefb_fix.mmio_len = pci_resource_len(dev, CARMINE_CONFIG_BAR); if (!request_mem_region(carminefb_fix.mmio_start, carminefb_fix.mmio_len, "carminefb regbase")) { printk(KERN_ERR "carminefb: Can't reserve regbase.\n"); ret = -EBUSY; goto err_free_hw; } hw->v_regs = ioremap_nocache(carminefb_fix.mmio_start, carminefb_fix.mmio_len); if (!hw->v_regs) { printk(KERN_ERR "carminefb: Can't remap %s register.\n", carminefb_fix.id); goto err_free_reg_mmio; } carminefb_fix.smem_start = pci_resource_start(dev, CARMINE_MEMORY_BAR); carminefb_fix.smem_len = pci_resource_len(dev, CARMINE_MEMORY_BAR); /* The memory area tends to be very large (256 MiB). Remap only what * is required for that largest resolution to avoid remaps at run * time */ if (carminefb_fix.smem_len > CARMINE_TOTAL_DIPLAY_MEM) carminefb_fix.smem_len = CARMINE_TOTAL_DIPLAY_MEM; else if (carminefb_fix.smem_len < CARMINE_TOTAL_DIPLAY_MEM) { printk(KERN_ERR "carminefb: Memory bar is only %d bytes, %d " "are required.", carminefb_fix.smem_len, CARMINE_TOTAL_DIPLAY_MEM); goto err_unmap_vregs; } if (!request_mem_region(carminefb_fix.smem_start, carminefb_fix.smem_len, "carminefb smem")) { printk(KERN_ERR "carminefb: Can't reserve smem.\n"); goto err_unmap_vregs; } hw->screen_mem = ioremap_nocache(carminefb_fix.smem_start, carminefb_fix.smem_len); if (!hw->screen_mem) { printk(KERN_ERR "carmine: Can't ioremap smem area.\n"); goto err_reg_smem; } ret = init_hardware(hw); if (ret) goto err_unmap_screen; info = NULL; if (fb_displays & CARMINE_USE_DISPLAY0) { ret = alloc_carmine_fb(hw->v_regs + CARMINE_DISP0_REG, hw->screen_mem, CARMINE_DISPLAY_MEM * 0, device, &info); if (ret) goto err_deinit_hw; } hw->fb[0] = info; info = NULL; if (fb_displays & CARMINE_USE_DISPLAY1) { ret = alloc_carmine_fb(hw->v_regs + CARMINE_DISP1_REG, hw->screen_mem, CARMINE_DISPLAY_MEM * 1, device, &info); if (ret) goto err_cleanup_fb0; } hw->fb[1] = info; info = NULL; pci_set_drvdata(dev, hw); return 0; err_cleanup_fb0: cleanup_fb_device(hw->fb[0]); err_deinit_hw: /* disable clock, etc */ c_set_hw_reg(hw, CARMINE_CTL_REG + CARMINE_CTL_REG_CLOCK_ENABLE, 0); err_unmap_screen: iounmap(hw->screen_mem); err_reg_smem: release_mem_region(carminefb_fix.smem_start, carminefb_fix.smem_len); err_unmap_vregs: iounmap(hw->v_regs); err_free_reg_mmio: release_mem_region(carminefb_fix.mmio_start, carminefb_fix.mmio_len); err_free_hw: kfree(hw); err_enable_pci: pci_disable_device(dev); return ret; } static void __devexit carminefb_remove(struct pci_dev *dev) { struct carmine_hw *hw = pci_get_drvdata(dev); struct fb_fix_screeninfo fix; int i; /* in case we use only fb1 and not fb1 */ if (hw->fb[0]) fix = hw->fb[0]->fix; else fix = hw->fb[1]->fix; /* deactivate display(s) and switch clocks */ c_set_hw_reg(hw, CARMINE_DISP0_REG + CARMINE_DISP_REG_DCM1, 0); c_set_hw_reg(hw, CARMINE_DISP1_REG + CARMINE_DISP_REG_DCM1, 0); c_set_hw_reg(hw, CARMINE_CTL_REG + CARMINE_CTL_REG_CLOCK_ENABLE, 0); for (i = 0; i < MAX_DISPLAY; i++) cleanup_fb_device(hw->fb[i]); iounmap(hw->screen_mem); release_mem_region(fix.smem_start, fix.smem_len); iounmap(hw->v_regs); release_mem_region(fix.mmio_start, fix.mmio_len); pci_set_drvdata(dev, NULL); pci_disable_device(dev); kfree(hw); } #define PCI_VENDOR_ID_FUJITU_LIMITED 0x10cf static struct pci_device_id carmine_devices[] __devinitdata = { { PCI_DEVICE(PCI_VENDOR_ID_FUJITU_LIMITED, 0x202b)}, {0, 0, 0, 0, 0, 0, 0} }; MODULE_DEVICE_TABLE(pci, carmine_devices); static struct pci_driver carmine_pci_driver = { .name = "carminefb", .id_table = carmine_devices, .probe = carminefb_probe, .remove = __devexit_p(carminefb_remove), }; static int __init carminefb_init(void) { if (!(fb_displays & (CARMINE_USE_DISPLAY0 | CARMINE_USE_DISPLAY1))) { printk(KERN_ERR "If you disable both displays than you don't " "need the driver at all\n"); return -EINVAL; } return pci_register_driver(&carmine_pci_driver); } module_init(carminefb_init); static void __exit carminefb_cleanup(void) { pci_unregister_driver(&carmine_pci_driver); } module_exit(carminefb_cleanup); MODULE_AUTHOR("Sebastian Siewior "); MODULE_DESCRIPTION("Framebuffer driver for Fujitsu Carmine based devices"); MODULE_LICENSE("GPL v2");