2 * drivers/video/rockchip/rk_fb.c
4 * Copyright (C) ROCKCHIP, Inc.
5 * Author:yxj<yxj@rock-chips.com>
6 * This software is licensed under the terms of the GNU General Public
7 * License version 2, as published by the Free Software Foundation, and
8 * may be copied, distributed, and modified under those terms.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
16 #include <linux/module.h>
17 #include <linux/kernel.h>
18 #include <linux/errno.h>
19 #include <linux/string.h>
21 #include <linux/slab.h>
22 #include <linux/delay.h>
23 #include <linux/device.h>
24 #include <linux/kthread.h>
26 #include <linux/init.h>
27 #include <linux/vmalloc.h>
28 #include <asm/div64.h>
29 #include <linux/uaccess.h>
30 #include <linux/rk_fb.h>
31 #include <linux/linux_logo.h>
32 #include <linux/dma-mapping.h>
33 #include <linux/regulator/consumer.h>
35 #include "bmp_helper.h"
37 #if defined(CONFIG_RK_HDMI)
38 #include "hdmi/rockchip-hdmi.h"
41 #if defined(CONFIG_ROCKCHIP_RGA) || defined(CONFIG_ROCKCHIP_RGA2)
47 #include <linux/of_platform.h>
48 #include <linux/of_gpio.h>
49 #include <video/of_display_timing.h>
50 #include <video/display_timing.h>
51 #include <dt-bindings/rkfb/rk_fb.h>
54 #if defined(CONFIG_ION_ROCKCHIP)
55 #include <linux/rockchip_ion.h>
56 #include <linux/rockchip-iovmm.h>
57 #include <linux/dma-buf.h>
58 #include <linux/highmem.h>
62 /* #define FB_ROATE_BY_KERNEL 1 */
64 static int hdmi_switch_complete;
65 static struct platform_device *fb_pdev;
67 #if defined(CONFIG_FB_MIRRORING)
68 int (*video_data_to_mirroring) (struct fb_info *info, u32 yuv_phy[2]);
69 EXPORT_SYMBOL(video_data_to_mirroring);
72 extern phys_addr_t uboot_logo_base;
73 extern phys_addr_t uboot_logo_size;
74 extern phys_addr_t uboot_logo_offset;
75 static struct rk_fb_trsm_ops *trsm_lvds_ops;
76 static struct rk_fb_trsm_ops *trsm_edp_ops;
77 static struct rk_fb_trsm_ops *trsm_mipi_ops;
78 static int uboot_logo_on;
79 int support_uboot_display(void)
84 int rk_fb_get_display_policy(void)
89 rk_fb = platform_get_drvdata(fb_pdev);
90 return rk_fb->disp_policy;
92 return DISPLAY_POLICY_SDK;
96 int rk_fb_trsm_ops_register(struct rk_fb_trsm_ops *ops, int type)
101 case SCREEN_DUAL_LVDS:
102 case SCREEN_LVDS_10BIT:
103 case SCREEN_DUAL_LVDS_10BIT:
110 case SCREEN_DUAL_MIPI:
114 printk(KERN_WARNING "%s:un supported transmitter:%d!\n",
121 struct rk_fb_trsm_ops *rk_fb_trsm_ops_get(int type)
123 struct rk_fb_trsm_ops *ops;
127 case SCREEN_DUAL_LVDS:
128 case SCREEN_LVDS_10BIT:
129 case SCREEN_DUAL_LVDS_10BIT:
136 case SCREEN_DUAL_MIPI:
141 printk(KERN_WARNING "%s:un supported transmitter:%d!\n",
148 int rk_fb_pixel_width(int data_format)
151 switch (data_format) {
179 printk(KERN_WARNING "%s:un supported format:0x%x\n",
180 __func__, data_format);
186 static int rk_fb_data_fmt(int data_format, int bits_per_pixel)
190 switch (data_format) {
191 case HAL_PIXEL_FORMAT_RGBX_8888:
192 fb_data_fmt = XBGR888;
194 case HAL_PIXEL_FORMAT_RGBA_8888:
195 fb_data_fmt = ABGR888;
197 case HAL_PIXEL_FORMAT_BGRA_8888:
198 fb_data_fmt = ARGB888;
200 case HAL_PIXEL_FORMAT_RGB_888:
201 fb_data_fmt = RGB888;
203 case HAL_PIXEL_FORMAT_RGB_565:
204 fb_data_fmt = RGB565;
206 case HAL_PIXEL_FORMAT_YCbCr_422_SP: /* yuv422 */
207 fb_data_fmt = YUV422;
209 case HAL_PIXEL_FORMAT_YCrCb_420_SP: /* YUV420---vuvuvu */
210 fb_data_fmt = YUV420_NV21;
212 case HAL_PIXEL_FORMAT_YCrCb_NV12: /* YUV420---uvuvuv */
213 fb_data_fmt = YUV420;
215 case HAL_PIXEL_FORMAT_YCrCb_444: /* yuv444 */
216 fb_data_fmt = YUV444;
218 case HAL_PIXEL_FORMAT_YCrCb_NV12_10: /* yuv444 */
219 fb_data_fmt = YUV420_A;
221 case HAL_PIXEL_FORMAT_YCbCr_422_SP_10: /* yuv444 */
222 fb_data_fmt = YUV422_A;
224 case HAL_PIXEL_FORMAT_YCrCb_420_SP_10: /* yuv444 */
225 fb_data_fmt = YUV444_A;
227 case HAL_PIXEL_FORMAT_FBDC_RGB565: /* fbdc rgb565*/
228 fb_data_fmt = FBDC_RGB_565;
230 case HAL_PIXEL_FORMAT_FBDC_U8U8U8U8: /* fbdc argb888 */
231 fb_data_fmt = FBDC_ARGB_888;
233 case HAL_PIXEL_FORMAT_FBDC_RGBA888: /* fbdc abgr888 */
234 fb_data_fmt = FBDC_ABGR_888;
236 case HAL_PIXEL_FORMAT_FBDC_U8U8U8: /* fbdc rgb888 */
237 fb_data_fmt = FBDC_RGBX_888;
240 printk(KERN_WARNING "%s:un supported format:0x%x\n",
241 __func__, data_format);
245 switch (bits_per_pixel) {
247 fb_data_fmt = ARGB888;
250 fb_data_fmt = RGB888;
253 fb_data_fmt = RGB565;
257 "%s:un supported bits_per_pixel:%d\n", __func__,
266 * rk display power control parse from dts
268 int rk_disp_pwr_ctr_parse_dt(struct rk_lcdc_driver *dev_drv)
270 struct device_node *root = of_get_child_by_name(dev_drv->dev->of_node,
272 struct device_node *child;
273 struct rk_disp_pwr_ctr_list *pwr_ctr;
274 struct list_head *pos;
275 enum of_gpio_flags flags;
280 INIT_LIST_HEAD(&dev_drv->pwrlist_head);
282 dev_err(dev_drv->dev, "can't find power_ctr node for lcdc%d\n",
287 for_each_child_of_node(root, child) {
288 pwr_ctr = kmalloc(sizeof(struct rk_disp_pwr_ctr_list),
290 strcpy(pwr_ctr->pwr_ctr.name, child->name);
291 if (!of_property_read_u32(child, "rockchip,power_type", &val)) {
293 pwr_ctr->pwr_ctr.type = GPIO;
294 pwr_ctr->pwr_ctr.gpio = of_get_gpio_flags(child, 0, &flags);
295 if (!gpio_is_valid(pwr_ctr->pwr_ctr.gpio)) {
296 dev_err(dev_drv->dev, "%s ivalid gpio\n",
300 pwr_ctr->pwr_ctr.atv_val = !(flags & OF_GPIO_ACTIVE_LOW);
301 ret = gpio_request(pwr_ctr->pwr_ctr.gpio,
304 dev_err(dev_drv->dev,
305 "request %s gpio fail:%d\n",
310 pwr_ctr->pwr_ctr.type = REGULATOR;
311 pwr_ctr->pwr_ctr.rgl_name = NULL;
312 ret = of_property_read_string(child, "rockchip,regulator_name",
313 &(pwr_ctr->pwr_ctr.rgl_name));
314 if (ret || IS_ERR_OR_NULL(pwr_ctr->pwr_ctr.rgl_name))
315 dev_err(dev_drv->dev, "get regulator name failed!\n");
316 if (!of_property_read_u32(child, "rockchip,regulator_voltage", &val))
317 pwr_ctr->pwr_ctr.volt = val;
319 pwr_ctr->pwr_ctr.volt = 0;
323 if (!of_property_read_u32(child, "rockchip,delay", &val))
324 pwr_ctr->pwr_ctr.delay = val;
326 pwr_ctr->pwr_ctr.delay = 0;
327 list_add_tail(&pwr_ctr->list, &dev_drv->pwrlist_head);
330 of_property_read_u32(root, "rockchip,debug", &debug);
333 list_for_each(pos, &dev_drv->pwrlist_head) {
334 pwr_ctr = list_entry(pos, struct rk_disp_pwr_ctr_list,
336 printk(KERN_INFO "pwr_ctr_name:%s\n"
341 pwr_ctr->pwr_ctr.name,
342 (pwr_ctr->pwr_ctr.type == GPIO) ? "gpio" : "regulator",
343 pwr_ctr->pwr_ctr.gpio,
344 pwr_ctr->pwr_ctr.atv_val,
345 pwr_ctr->pwr_ctr.delay);
353 int rk_disp_pwr_enable(struct rk_lcdc_driver *dev_drv)
355 struct list_head *pos;
356 struct rk_disp_pwr_ctr_list *pwr_ctr_list;
357 struct pwr_ctr *pwr_ctr;
358 struct regulator *regulator_lcd = NULL;
361 if (list_empty(&dev_drv->pwrlist_head))
363 list_for_each(pos, &dev_drv->pwrlist_head) {
364 pwr_ctr_list = list_entry(pos, struct rk_disp_pwr_ctr_list,
366 pwr_ctr = &pwr_ctr_list->pwr_ctr;
367 if (pwr_ctr->type == GPIO) {
368 gpio_direction_output(pwr_ctr->gpio, pwr_ctr->atv_val);
369 mdelay(pwr_ctr->delay);
370 } else if (pwr_ctr->type == REGULATOR) {
371 if (pwr_ctr->rgl_name)
372 regulator_lcd = regulator_get(NULL, pwr_ctr->rgl_name);
373 if (regulator_lcd == NULL) {
374 dev_err(dev_drv->dev,
375 "%s: regulator get failed,regulator name:%s\n",
376 __func__, pwr_ctr->rgl_name);
379 regulator_set_voltage(regulator_lcd, pwr_ctr->volt, pwr_ctr->volt);
380 while (!regulator_is_enabled(regulator_lcd)) {
381 if (regulator_enable(regulator_lcd) == 0 || count == 0)
384 dev_err(dev_drv->dev,
385 "regulator_enable failed,count=%d\n",
389 regulator_put(regulator_lcd);
390 msleep(pwr_ctr->delay);
397 int rk_disp_pwr_disable(struct rk_lcdc_driver *dev_drv)
399 struct list_head *pos;
400 struct rk_disp_pwr_ctr_list *pwr_ctr_list;
401 struct pwr_ctr *pwr_ctr;
402 struct regulator *regulator_lcd = NULL;
405 if (list_empty(&dev_drv->pwrlist_head))
407 list_for_each(pos, &dev_drv->pwrlist_head) {
408 pwr_ctr_list = list_entry(pos, struct rk_disp_pwr_ctr_list,
410 pwr_ctr = &pwr_ctr_list->pwr_ctr;
411 if (pwr_ctr->type == GPIO) {
412 gpio_set_value(pwr_ctr->gpio, !pwr_ctr->atv_val);
413 } else if (pwr_ctr->type == REGULATOR) {
414 if (pwr_ctr->rgl_name)
415 regulator_lcd = regulator_get(NULL, pwr_ctr->rgl_name);
416 if (regulator_lcd == NULL) {
417 dev_err(dev_drv->dev,
418 "%s: regulator get failed,regulator name:%s\n",
419 __func__, pwr_ctr->rgl_name);
422 while (regulator_is_enabled(regulator_lcd) > 0) {
423 if (regulator_disable(regulator_lcd) == 0 || count == 0)
426 dev_err(dev_drv->dev,
427 "regulator_disable failed,count=%d\n",
431 regulator_put(regulator_lcd);
437 int rk_fb_video_mode_from_timing(const struct display_timing *dt,
438 struct rk_screen *screen)
440 screen->mode.pixclock = dt->pixelclock.typ;
441 screen->mode.left_margin = dt->hback_porch.typ;
442 screen->mode.right_margin = dt->hfront_porch.typ;
443 screen->mode.xres = dt->hactive.typ;
444 screen->mode.hsync_len = dt->hsync_len.typ;
445 screen->mode.upper_margin = dt->vback_porch.typ;
446 screen->mode.lower_margin = dt->vfront_porch.typ;
447 screen->mode.yres = dt->vactive.typ;
448 screen->mode.vsync_len = dt->vsync_len.typ;
449 screen->type = dt->screen_type;
450 screen->lvds_format = dt->lvds_format;
451 screen->face = dt->face;
452 screen->color_mode = dt->color_mode;
453 screen->dsp_lut = dt->dsp_lut;
454 screen->cabc_lut = dt->cabc_lut;
455 screen->cabc_gamma_base = dt->cabc_gamma_base;
457 if (dt->flags & DISPLAY_FLAGS_PIXDATA_POSEDGE)
458 screen->pin_dclk = 1;
460 screen->pin_dclk = 0;
461 if (dt->flags & DISPLAY_FLAGS_HSYNC_HIGH)
462 screen->pin_hsync = 1;
464 screen->pin_hsync = 0;
465 if (dt->flags & DISPLAY_FLAGS_VSYNC_HIGH)
466 screen->pin_vsync = 1;
468 screen->pin_vsync = 0;
469 if (dt->flags & DISPLAY_FLAGS_DE_HIGH)
478 int rk_fb_prase_timing_dt(struct device_node *np, struct rk_screen *screen)
480 struct display_timings *disp_timing;
481 struct display_timing *dt;
482 disp_timing = of_get_display_timings(np);
484 pr_err("parse display timing err\n");
487 dt = display_timings_get(disp_timing, disp_timing->native_mode);
488 rk_fb_video_mode_from_timing(dt, screen);
493 int rk_fb_calc_fps(struct rk_screen *screen, u32 pixclock)
496 unsigned long long hz;
498 printk(KERN_ERR "%s:null screen!\n", __func__);
501 x = screen->mode.xres + screen->mode.left_margin +
502 screen->mode.right_margin + screen->mode.hsync_len;
503 y = screen->mode.yres + screen->mode.upper_margin +
504 screen->mode.lower_margin + screen->mode.vsync_len;
506 hz = 1000000000000ULL; /* 1e12 picoseconds per second */
509 do_div(hz, x * y); /* divide by x * y with rounding */
512 do_div(hz, pixclock); /* divide by pixclock with rounding */
517 char *get_format_string(enum data_format format, char *fmt)
523 strcpy(fmt, "ARGB888");
526 strcpy(fmt, "RGB888");
529 strcpy(fmt, "RGB565");
533 strcpy(fmt, "YUV420");
536 strcpy(fmt, "YUV422");
539 strcpy(fmt, "YUV444");
542 strcpy(fmt, "YUV420_A");
545 strcpy(fmt, "YUV422_A");
548 strcpy(fmt, "YUV444_A");
551 strcpy(fmt, "XRGB888");
554 strcpy(fmt, "XBGR888");
557 strcpy(fmt, "ABGR888");
560 strcpy(fmt, "FBDC_RGB_565");
564 strcpy(fmt, "FBDC_ARGB_888");
567 strcpy(fmt, "FBDC_RGBX_888");
570 strcpy(fmt, "invalid");
580 * name: lcdc device name ,lcdc0 , lcdc1
582 struct rk_lcdc_driver *rk_get_lcdc_drv(char *name)
584 struct rk_fb *inf = NULL;
585 struct rk_lcdc_driver *dev_drv = NULL;
589 inf = platform_get_drvdata(fb_pdev);
593 for (i = 0; i < inf->num_lcdc; i++) {
594 if (!strcmp(inf->lcdc_dev_drv[i]->name, name)) {
595 dev_drv = inf->lcdc_dev_drv[i];
603 static struct rk_lcdc_driver *rk_get_prmry_lcdc_drv(void)
605 struct rk_fb *inf = NULL;
606 struct rk_lcdc_driver *dev_drv = NULL;
610 inf = platform_get_drvdata(fb_pdev);
614 for (i = 0; i < inf->num_lcdc; i++) {
615 if (inf->lcdc_dev_drv[i]->prop == PRMRY) {
616 dev_drv = inf->lcdc_dev_drv[i];
624 static __maybe_unused struct rk_lcdc_driver *rk_get_extend_lcdc_drv(void)
626 struct rk_fb *inf = NULL;
627 struct rk_lcdc_driver *dev_drv = NULL;
631 inf = platform_get_drvdata(fb_pdev);
635 for (i = 0; i < inf->num_lcdc; i++) {
636 if (inf->lcdc_dev_drv[i]->prop == EXTEND) {
637 dev_drv = inf->lcdc_dev_drv[i];
646 * get one frame time of the prmry screen, unit: us
648 u32 rk_fb_get_prmry_screen_ft(void)
650 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
651 uint32_t htotal, vtotal, pixclock_ps;
652 u64 pix_total, ft_us;
654 if (unlikely(!dev_drv))
657 pixclock_ps = dev_drv->pixclock;
659 vtotal = (dev_drv->cur_screen->mode.upper_margin +
660 dev_drv->cur_screen->mode.lower_margin +
661 dev_drv->cur_screen->mode.yres +
662 dev_drv->cur_screen->mode.vsync_len);
663 htotal = (dev_drv->cur_screen->mode.left_margin +
664 dev_drv->cur_screen->mode.right_margin +
665 dev_drv->cur_screen->mode.xres +
666 dev_drv->cur_screen->mode.hsync_len);
667 pix_total = htotal * vtotal;
668 ft_us = pix_total * pixclock_ps;
669 do_div(ft_us, 1000000);
670 if (dev_drv->frame_time.ft == 0)
671 dev_drv->frame_time.ft = ft_us;
673 ft_us = dev_drv->frame_time.framedone_t - dev_drv->frame_time.last_framedone_t;
675 ft_us = min(dev_drv->frame_time.ft, (u32)ft_us);
677 dev_drv->frame_time.ft = ft_us;
679 return dev_drv->frame_time.ft;
683 * get the vblanking time of the prmry screen, unit: us
685 u32 rk_fb_get_prmry_screen_vbt(void)
687 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
688 uint32_t htotal, vblank, pixclock_ps;
689 u64 pix_blank, vbt_us;
691 if (unlikely(!dev_drv))
694 pixclock_ps = dev_drv->pixclock;
696 htotal = (dev_drv->cur_screen->mode.left_margin +
697 dev_drv->cur_screen->mode.right_margin +
698 dev_drv->cur_screen->mode.xres +
699 dev_drv->cur_screen->mode.hsync_len);
700 vblank = (dev_drv->cur_screen->mode.upper_margin +
701 dev_drv->cur_screen->mode.lower_margin +
702 dev_drv->cur_screen->mode.vsync_len);
703 pix_blank = htotal * vblank;
704 vbt_us = pix_blank * pixclock_ps;
705 do_div(vbt_us, 1000000);
710 * get the frame done time of the prmry screen, unit: us
712 u64 rk_fb_get_prmry_screen_framedone_t(void)
714 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
716 if (unlikely(!dev_drv))
719 return dev_drv->frame_time.framedone_t;
723 * set prmry screen status
725 int rk_fb_set_prmry_screen_status(int status)
727 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
728 struct rk_screen *screen;
730 if (unlikely(!dev_drv))
733 screen = dev_drv->cur_screen;
735 case SCREEN_PREPARE_DDR_CHANGE:
736 if (screen->type == SCREEN_MIPI
737 || screen->type == SCREEN_DUAL_MIPI) {
738 if (dev_drv->trsm_ops->dsp_pwr_off)
739 dev_drv->trsm_ops->dsp_pwr_off();
742 case SCREEN_UNPREPARE_DDR_CHANGE:
743 if (screen->type == SCREEN_MIPI
744 || screen->type == SCREEN_DUAL_MIPI) {
745 if (dev_drv->trsm_ops->dsp_pwr_on)
746 dev_drv->trsm_ops->dsp_pwr_on();
756 u32 rk_fb_get_prmry_screen_pixclock(void)
758 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
760 if (unlikely(!dev_drv))
763 return dev_drv->pixclock;
766 int rk_fb_poll_prmry_screen_vblank(void)
768 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
770 if (likely(dev_drv)) {
771 if (dev_drv->ops->poll_vblank)
772 return dev_drv->ops->poll_vblank(dev_drv);
774 return RK_LF_STATUS_NC;
776 return RK_LF_STATUS_NC;
780 bool rk_fb_poll_wait_frame_complete(void)
782 uint32_t timeout = RK_LF_MAX_TIMEOUT;
783 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
785 if (likely(dev_drv)) {
786 if (dev_drv->ops->set_irq_to_cpu)
787 dev_drv->ops->set_irq_to_cpu(dev_drv, 0);
790 if (rk_fb_poll_prmry_screen_vblank() == RK_LF_STATUS_NC) {
791 if (likely(dev_drv)) {
792 if (dev_drv->ops->set_irq_to_cpu)
793 dev_drv->ops->set_irq_to_cpu(dev_drv, 1);
797 while (!(rk_fb_poll_prmry_screen_vblank() == RK_LF_STATUS_FR) && --timeout)
799 while (!(rk_fb_poll_prmry_screen_vblank() == RK_LF_STATUS_FC) && --timeout)
801 if (likely(dev_drv)) {
802 if (dev_drv->ops->set_irq_to_cpu)
803 dev_drv->ops->set_irq_to_cpu(dev_drv, 1);
810 /* rk_fb_get_sysmmu_device_by_compatible()
811 * @compt: dts device compatible name
812 * return value: success: pointer to the device inside of platform device
815 struct device *rk_fb_get_sysmmu_device_by_compatible(const char *compt)
817 struct device_node *dn = NULL;
818 struct platform_device *pd = NULL;
819 struct device *ret = NULL ;
821 dn = of_find_compatible_node(NULL, NULL, compt);
823 printk("can't find device node %s \r\n", compt);
827 pd = of_find_device_by_node(dn);
829 printk("can't find platform device in device node %s \r\n", compt);
837 #ifdef CONFIG_IOMMU_API
838 void rk_fb_platform_set_sysmmu(struct device *sysmmu, struct device *dev)
840 dev->archdata.iommu = sysmmu;
843 void rk_fb_platform_set_sysmmu(struct device *sysmmu, struct device *dev)
849 static int rk_fb_open(struct fb_info *info, int user)
851 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
852 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
855 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
857 /* if this win aready opened ,no need to reopen */
858 if (dev_drv->win[win_id]->state)
861 dev_drv->ops->open(dev_drv, win_id, 1);
865 static int rk_fb_close(struct fb_info *info, int user)
867 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
868 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
869 struct rk_lcdc_win *win = NULL;
870 int win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
873 win = dev_drv->win[win_id];
876 if (!fb_par->state) {
877 if (fb_par->fb_phy_base > 0)
878 info->fix.smem_start = fb_par->fb_phy_base;
879 info->var.xres = dev_drv->screen0->mode.xres;
880 info->var.yres = dev_drv->screen0->mode.yres;
882 info->var.grayscale |=
883 (info->var.xres << 8) + (info->var.yres << 20);
885 info->var.xres_virtual = info->var.xres;
886 info->var.yres_virtual = info->var.yres;
887 #if defined(CONFIG_LOGO_LINUX_BMP)
888 info->var.bits_per_pixel = 32;
890 info->var.bits_per_pixel = 16;
892 info->fix.line_length =
893 (info->var.xres_virtual) * (info->var.bits_per_pixel >> 3);
894 info->var.width = dev_drv->screen0->width;
895 info->var.height = dev_drv->screen0->height;
896 info->var.pixclock = dev_drv->pixclock;
897 info->var.left_margin = dev_drv->screen0->mode.left_margin;
898 info->var.right_margin = dev_drv->screen0->mode.right_margin;
899 info->var.upper_margin = dev_drv->screen0->mode.upper_margin;
900 info->var.lower_margin = dev_drv->screen0->mode.lower_margin;
901 info->var.vsync_len = dev_drv->screen0->mode.vsync_len;
902 info->var.hsync_len = dev_drv->screen0->mode.hsync_len;
909 #if defined(FB_ROATE_BY_KERNEL)
911 #if defined(CONFIG_RK29_IPP)
912 static int get_ipp_format(int fmt)
914 int ipp_fmt = IPP_XRGB_8888;
916 case HAL_PIXEL_FORMAT_RGBX_8888:
917 case HAL_PIXEL_FORMAT_RGBA_8888:
918 case HAL_PIXEL_FORMAT_BGRA_8888:
919 case HAL_PIXEL_FORMAT_RGB_888:
920 ipp_fmt = IPP_XRGB_8888;
922 case HAL_PIXEL_FORMAT_RGB_565:
923 ipp_fmt = IPP_RGB_565;
925 case HAL_PIXEL_FORMAT_YCbCr_422_SP:
926 ipp_fmt = IPP_Y_CBCR_H2V1;
928 case HAL_PIXEL_FORMAT_YCrCb_NV12:
929 ipp_fmt = IPP_Y_CBCR_H2V2;
931 case HAL_PIXEL_FORMAT_YCrCb_444:
932 ipp_fmt = IPP_Y_CBCR_H1V1;
935 ipp_fmt = IPP_IMGTYPE_LIMIT;
942 static void ipp_win_check(int *dst_w, int *dst_h, int *dst_vir_w,
943 int rotation, int fmt)
948 if (fmt == IPP_XRGB_8888) {
951 } else if (fmt == IPP_RGB_565) {
958 align16 -= 1; /*for YUV, 1 */
959 align64 -= 1; /*for YUV, 7 */
961 if (rotation == IPP_ROT_0) {
962 if (fmt > IPP_RGB_565) {
963 if ((*dst_w & 1) != 0)
965 if ((*dst_h & 1) != 0)
967 if (*dst_vir_w < *dst_w)
971 if ((*dst_w & align64) != 0)
972 *dst_w = (*dst_w + align64) & (~align64);
973 if ((fmt > IPP_RGB_565) && ((*dst_h & 1) == 1))
975 if (*dst_vir_w < *dst_w)
980 static void fb_copy_by_ipp(struct fb_info *dst_info,
981 struct fb_info *src_info)
983 struct rk29_ipp_req ipp_req;
984 uint32_t rotation = 0;
985 int dst_w, dst_h, dst_vir_w;
987 u8 data_format = (dst_info->var.nonstd) & 0xff;
988 struct rk_fb_par *fb_par = (struct rk_fb_par *)dst_info->par;
989 struct rk_lcdc_driver *ext_dev_drv = fb_par->lcdc_drv;
990 u16 orientation = ext_dev_drv->rotate_mode;
992 memset(&ipp_req, 0, sizeof(struct rk29_ipp_req));
994 switch (orientation) {
996 rotation = IPP_ROT_0;
999 rotation = IPP_ROT_90;
1002 rotation = IPP_ROT_180;
1005 rotation = IPP_ROT_270;
1008 rotation = IPP_ROT_270;
1012 dst_w = dst_info->var.xres;
1013 dst_h = dst_info->var.yres;
1014 dst_vir_w = dst_info->var.xres_virtual;
1015 ipp_fmt = get_ipp_format(data_format);
1016 ipp_win_check(&dst_w, &dst_h, &dst_vir_w, rotation, ipp_fmt);
1017 ipp_req.src0.YrgbMst = src_info->fix.smem_start + offset;
1018 ipp_req.src0.w = src_info->var.xres;
1019 ipp_req.src0.h = src_info->var.yres;
1020 ipp_req.src_vir_w = src_info->var.xres_virtual;
1021 ipp_req.src0.fmt = ipp_fmt;
1023 ipp_req.dst0.YrgbMst = dst_info->fix.smem_start + offset;
1024 ipp_req.dst0.w = dst_w;
1025 ipp_req.dst0.h = dst_h;
1026 ipp_req.dst_vir_w = dst_vir_w;
1027 ipp_req.dst0.fmt = ipp_fmt;
1029 ipp_req.timeout = 100;
1030 ipp_req.flag = rotation;
1031 ipp_blit_sync(&ipp_req);
1036 #if defined(CONFIG_ROCKCHIP_RGA) || defined(CONFIG_ROCKCHIP_RGA2)
1037 static int get_rga_format(int fmt)
1043 rga_fmt = RK_FORMAT_RGBX_8888;
1046 rga_fmt = RK_FORMAT_RGBA_8888;
1049 rga_fmt = RK_FORMAT_BGRA_8888;
1052 rga_fmt = RK_FORMAT_RGB_888;
1055 rga_fmt = RK_FORMAT_RGB_565;
1058 rga_fmt = RK_FORMAT_YCbCr_422_SP;
1061 rga_fmt = RK_FORMAT_YCbCr_420_SP;
1064 rga_fmt = RK_FORMAT_RGBA_8888;
1071 static void rga_win_check(struct rk_lcdc_win *dst_win,
1072 struct rk_lcdc_win *src_win)
1076 format = get_rga_format(src_win->area[0].format);
1077 /* width and height must be even number */
1078 if (format >= RK_FORMAT_YCbCr_422_SP &&
1079 format <= RK_FORMAT_YCrCb_420_P) {
1080 if ((src_win->area[0].xact % 2) != 0)
1081 src_win->area[0].xact += 1;
1082 if ((src_win->area[0].yact % 2) != 0)
1083 src_win->area[0].yact += 1;
1085 if (src_win->area[0].xvir < src_win->area[0].xact)
1086 src_win->area[0].xvir = src_win->area[0].xact;
1087 if (src_win->area[0].yvir < src_win->area[0].yact)
1088 src_win->area[0].yvir = src_win->area[0].yact;
1090 format = get_rga_format(dst_win->area[0].format);
1091 if (format >= RK_FORMAT_YCbCr_422_SP &&
1092 format <= RK_FORMAT_YCrCb_420_P) {
1093 if ((dst_win->area[0].xact % 2) != 0)
1094 dst_win->area[0].xact += 1;
1095 if ((dst_win->area[0].yact % 2) != 0)
1096 dst_win->area[0].yact += 1;
1098 if (dst_win->area[0].xvir < dst_win->area[0].xact)
1099 dst_win->area[0].xvir = dst_win->area[0].xact;
1100 if (dst_win->area[0].yvir < dst_win->area[0].yact)
1101 dst_win->area[0].yvir = dst_win->area[0].yact;
1104 static void win_copy_by_rga(struct rk_lcdc_win *dst_win,
1105 struct rk_lcdc_win *src_win,
1106 u16 orientation, int iommu_en)
1108 struct rga_req Rga_Request;
1112 memset(&Rga_Request, 0, sizeof(Rga_Request));
1113 rga_win_check(dst_win, src_win);
1115 switch (orientation) {
1117 Rga_Request.rotate_mode = 1;
1118 Rga_Request.sina = 65536;
1119 Rga_Request.cosa = 0;
1120 Rga_Request.dst.act_w = dst_win->area[0].yact;
1121 Rga_Request.dst.act_h = dst_win->area[0].xact;
1122 Rga_Request.dst.x_offset = dst_win->area[0].xact - 1;
1123 Rga_Request.dst.y_offset = 0;
1126 Rga_Request.rotate_mode = 1;
1127 Rga_Request.sina = 0;
1128 Rga_Request.cosa = -65536;
1129 Rga_Request.dst.act_w = dst_win->area[0].xact;
1130 Rga_Request.dst.act_h = dst_win->area[0].yact;
1131 Rga_Request.dst.x_offset = dst_win->area[0].xact - 1;
1132 Rga_Request.dst.y_offset = dst_win->area[0].yact - 1;
1135 Rga_Request.rotate_mode = 1;
1136 Rga_Request.sina = -65536;
1137 Rga_Request.cosa = 0;
1138 Rga_Request.dst.act_w = dst_win->area[0].yact;
1139 Rga_Request.dst.act_h = dst_win->area[0].xact;
1140 Rga_Request.dst.x_offset = 0;
1141 Rga_Request.dst.y_offset = dst_win->area[0].yact - 1;
1144 Rga_Request.rotate_mode = 0;
1145 Rga_Request.dst.act_w = dst_win->area[0].xact;
1146 Rga_Request.dst.act_h = dst_win->area[0].yact;
1147 Rga_Request.dst.x_offset = dst_win->area[0].xact - 1;
1148 Rga_Request.dst.y_offset = dst_win->area[0].yact - 1;
1153 fd = ion_share_dma_buf_fd(rk_fb->ion_client, src_win->area[0].ion_hdl);
1154 Rga_Request.src.yrgb_addr = fd;
1155 fd = ion_share_dma_buf_fd(rk_fb->ion_client, dst_win->area[0].ion_hdl);
1156 Rga_Request.dst.yrgb_addr = fd;
1158 Rga_Request.src.yrgb_addr = 0;
1159 Rga_Request.src.uv_addr =
1160 src_win->area[0].smem_start + src_win->area[0].y_offset;
1161 Rga_Request.src.v_addr = 0;
1163 Rga_Request.dst.yrgb_addr = 0;
1164 Rga_Request.dst.uv_addr =
1165 dst_win->area[0].smem_start + dst_win->area[0].y_offset;
1166 Rga_Request.dst.v_addr = 0;
1168 Rga_Request.src.vir_w = src_win->area[0].xvir;
1169 Rga_Request.src.vir_h = src_win->area[0].yvir;
1170 Rga_Request.src.format = get_rga_format(src_win->area[0].format);
1171 Rga_Request.src.act_w = src_win->area[0].xact;
1172 Rga_Request.src.act_h = src_win->area[0].yact;
1173 Rga_Request.src.x_offset = 0;
1174 Rga_Request.src.y_offset = 0;
1176 Rga_Request.dst.vir_w = dst_win->area[0].xvir;
1177 Rga_Request.dst.vir_h = dst_win->area[0].yvir;
1178 Rga_Request.dst.format = get_rga_format(dst_win->area[0].format);
1180 Rga_Request.clip.xmin = 0;
1181 Rga_Request.clip.xmax = dst_win->area[0].xact - 1;
1182 Rga_Request.clip.ymin = 0;
1183 Rga_Request.clip.ymax = dst_win->area[0].yact - 1;
1184 Rga_Request.scale_mode = 0;
1185 #if defined(CONFIG_ROCKCHIP_IOMMU)
1187 Rga_Request.mmu_info.mmu_en = 1;
1188 Rga_Request.mmu_info.mmu_flag = 1;
1190 Rga_Request.mmu_info.mmu_en = 0;
1191 Rga_Request.mmu_info.mmu_flag = 0;
1194 Rga_Request.mmu_info.mmu_en = 0;
1195 Rga_Request.mmu_info.mmu_flag = 0;
1198 ret = rga_ioctl_kernel(&Rga_Request);
1202 * This function is used for copying fb by RGA Module
1203 * RGA only support copy RGB to RGB
1204 * RGA2 support copy RGB to RGB and YUV to YUV
1206 static void fb_copy_by_rga(struct fb_info *dst_info,
1207 struct fb_info *src_info)
1209 struct rk_fb_par *src_fb_par = (struct rk_fb_par *)src_info->par;
1210 struct rk_fb_par *dst_fb_par = (struct rk_fb_par *)dst_info->par;
1211 struct rk_lcdc_driver *dev_drv = src_fb_par->lcdc_drv;
1212 struct rk_lcdc_driver *ext_dev_drv = dst_fb_par->lcdc_drv;
1213 int win_id = 0, ext_win_id;
1214 struct rk_lcdc_win *src_win, *dst_win;
1216 win_id = dev_drv->ops->fb_get_win_id(dev_drv, src_info->fix.id);
1217 src_win = dev_drv->win[win_id];
1220 ext_dev_drv->ops->fb_get_win_id(ext_dev_drv, dst_info->fix.id);
1221 dst_win = ext_dev_drv->win[ext_win_id];
1223 win_copy_by_rga(dst_win, src_win, ext_dev_drv->rotate_mode,
1224 ext_dev_drv->iommu_enabled);
1228 static int rk_fb_rotate(struct fb_info *dst_info,
1229 struct fb_info *src_info)
1232 #if defined(CONFIG_RK29_IPP)
1233 fb_copy_by_ipp(dst_info, src_info);
1234 #elif defined(CONFIG_ROCKCHIP_RGA) || defined(CONFIG_ROCKCHIP_RGA2)
1235 fb_copy_by_rga(dst_info, src_info);
1242 static int __maybe_unused rk_fb_win_rotate(struct rk_lcdc_win *dst_win,
1243 struct rk_lcdc_win *src_win,
1244 u16 rotate, int iommu_en)
1246 #if defined(CONFIG_ROCKCHIP_RGA) || defined(CONFIG_ROCKCHIP_RGA2)
1247 win_copy_by_rga(dst_win, src_win, rotate, iommu_en);
1256 static int rk_fb_pan_display(struct fb_var_screeninfo *var,
1257 struct fb_info *info)
1259 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
1260 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
1261 struct fb_fix_screeninfo *fix = &info->fix;
1263 struct rk_lcdc_win *win = NULL;
1264 struct rk_screen *screen = dev_drv->cur_screen;
1265 u32 xoffset = var->xoffset;
1266 u32 yoffset = var->yoffset;
1267 u32 xvir = var->xres_virtual;
1270 u32 stride, uv_stride;
1273 u16 uv_x_off, uv_y_off, uv_y_act;
1276 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
1280 win = dev_drv->win[win_id];
1282 pixel_width = rk_fb_pixel_width(win->area[0].format);
1283 vir_width_bit = pixel_width * xvir;
1284 stride_32bit_1 = ALIGN_N_TIMES(vir_width_bit, 32) / 8;
1285 stride_32bit_2 = ALIGN_N_TIMES(vir_width_bit * 2, 32) / 8;
1287 switch (win->area[0].format) {
1291 stride = stride_32bit_1;
1292 uv_stride = stride_32bit_1 >> 1;
1293 uv_x_off = xoffset >> 1;
1295 fix->line_length = stride;
1296 uv_y_act = win->area[0].yact >> 1;
1298 case YUV420: /* nv12 */
1299 case YUV420_NV21: /* nv21 */
1302 stride = stride_32bit_1;
1303 uv_stride = stride_32bit_1;
1305 uv_y_off = yoffset >> 1;
1306 fix->line_length = stride;
1307 uv_y_act = win->area[0].yact >> 1;
1312 stride = stride_32bit_1;
1313 uv_stride = stride_32bit_2;
1314 uv_x_off = xoffset * 2;
1316 fix->line_length = stride << 2;
1317 uv_y_act = win->area[0].yact;
1320 stride = stride_32bit_1; /* default rgb */
1321 fix->line_length = stride;
1325 /* x y mirror ,jump line */
1326 if ((screen->y_mirror == 1) ||
1327 (win->mirror_en == 1)) {
1328 if (screen->interlace == 1) {
1329 win->area[0].y_offset = yoffset * stride * 2 +
1330 ((win->area[0].yact - 1) * 2 + 1) * stride +
1331 xoffset * pixel_width / 8;
1333 win->area[0].y_offset = yoffset * stride +
1334 (win->area[0].yact - 1) * stride +
1335 xoffset * pixel_width / 8;
1338 if (screen->interlace == 1) {
1339 win->area[0].y_offset =
1340 yoffset * stride * 2 + xoffset * pixel_width / 8;
1342 win->area[0].y_offset =
1343 yoffset * stride + xoffset * pixel_width / 8;
1346 if (is_pic_yuv == 1) {
1347 if ((screen->y_mirror == 1) ||
1348 (win->mirror_en == 1)) {
1349 if (screen->interlace == 1) {
1350 win->area[0].c_offset =
1351 uv_y_off * uv_stride * 2 +
1352 ((uv_y_act - 1) * 2 + 1) * uv_stride +
1353 uv_x_off * pixel_width / 8;
1355 win->area[0].c_offset = uv_y_off * uv_stride +
1356 (uv_y_act - 1) * uv_stride +
1357 uv_x_off * pixel_width / 8;
1360 if (screen->interlace == 1) {
1361 win->area[0].c_offset =
1362 uv_y_off * uv_stride * 2 +
1363 uv_x_off * pixel_width / 8;
1365 win->area[0].c_offset =
1366 uv_y_off * uv_stride +
1367 uv_x_off * pixel_width / 8;
1372 win->area[0].smem_start = fix->smem_start;
1373 win->area[0].cbr_start = fix->mmio_start;
1374 win->area[0].state = 1;
1377 dev_drv->ops->pan_display(dev_drv, win_id);
1379 #ifdef CONFIG_FB_MIRRORING
1380 if (video_data_to_mirroring)
1381 video_data_to_mirroring(info, NULL);
1383 /*if not want the config effect,set reserved[3] bit[0] 1*/
1384 if (likely((var->reserved[3] & 0x1) == 0))
1385 dev_drv->ops->cfg_done(dev_drv);
1390 static int rk_fb_get_list_stat(struct rk_lcdc_driver *dev_drv)
1394 i = list_empty(&dev_drv->update_regs_list);
1395 j = list_empty(&dev_drv->saved_list);
1396 return i == j ? 0 : 1;
1399 void rk_fd_fence_wait(struct rk_lcdc_driver *dev_drv, struct sync_fence *fence)
1401 int err = sync_fence_wait(fence, 1000);
1407 err = sync_fence_wait(fence, 10 * MSEC_PER_SEC);
1410 printk("error waiting on fence\n");
1413 static int rk_fb_copy_from_loader(struct fb_info *info)
1415 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
1416 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
1417 void *dst = info->screen_base;
1422 struct rk_lcdc_win *win;
1424 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
1425 win = dev_drv->win[win_id];
1426 size = (win->area[0].xact) * (win->area[0].yact) << 2;
1427 dev_drv->ops->get_dsp_addr(dev_drv, dsp_addr);
1428 src = dsp_addr[win_id];
1429 dev_info(info->dev, "copy fb data %d x %d from dst_addr:%08x\n",
1430 win->area[0].xact, win->area[0].yact, src);
1431 for (i = 0; i < size; i += PAGE_SIZE) {
1432 void *page = phys_to_page(i + src);
1433 void *from_virt = kmap(page);
1434 void *to_virt = dst + i;
1435 memcpy(to_virt, from_virt, PAGE_SIZE);
1437 dev_drv->ops->direct_set_addr(dev_drv, win_id,
1438 info->fix.smem_start);
1442 #ifdef CONFIG_ROCKCHIP_IOMMU
1443 static int g_last_addr[4];
1448 #define DUMP_CHUNK 256
1449 char buf[PAGE_SIZE];
1451 int rk_fb_sysmmu_fault_handler(struct device *dev,
1452 enum rk_iommu_inttype itype,
1453 unsigned long pgtable_base,
1454 unsigned long fault_addr, unsigned int status)
1456 struct rk_lcdc_driver *dev_drv = rk_get_prmry_lcdc_drv();
1458 static int page_fault_cnt;
1459 if ((page_fault_cnt++) >= 10)
1462 ("PAGE FAULT occurred at 0x%lx (Page table base: 0x%lx),status=%d\n",
1463 fault_addr, pgtable_base, status);
1464 printk("last config addr:\n" "win0:0x%08x\n" "win1:0x%08x\n"
1465 "win2:0x%08x\n" "win3:0x%08x\n", g_last_addr[0], g_last_addr[1],
1466 g_last_addr[2], g_last_addr[3]);
1467 printk("last freed buffer:\n");
1468 for (i = 0; (freed_addr[i] != 0xfefefefe) && freed_addr[i]; i++)
1469 printk("%d:0x%08x\n", i, freed_addr[i]);
1470 printk("last timeout:%d\n", g_last_timeout);
1471 dev_drv->ops->get_disp_info(dev_drv, buf, 0);
1472 for (i = 0; i < PAGE_SIZE; i += DUMP_CHUNK) {
1473 if ((PAGE_SIZE - i) > DUMP_CHUNK) {
1474 char c = buf[i + DUMP_CHUNK];
1475 buf[i + DUMP_CHUNK] = 0;
1476 pr_cont("%s", buf + i);
1477 buf[i + DUMP_CHUNK] = c;
1479 buf[PAGE_SIZE - 1] = 0;
1480 pr_cont("%s", buf + i);
1488 void rk_fb_free_dma_buf(struct rk_lcdc_driver *dev_drv,
1489 struct rk_fb_reg_win_data *reg_win_data)
1492 struct rk_fb_reg_area_data *area_data;
1493 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
1495 for (i = 0; i < reg_win_data->area_num; i++) {
1496 area_data = ®_win_data->reg_area_data[i];
1497 index_buf = area_data->index_buf;
1498 #if defined(CONFIG_ROCKCHIP_IOMMU)
1499 if (dev_drv->iommu_enabled) {
1500 if ((rk_fb->disp_policy != DISPLAY_POLICY_BOX) &&
1501 (area_data->ion_handle != NULL))
1502 ion_unmap_iommu(dev_drv->dev, rk_fb->ion_client,
1503 area_data->ion_handle);
1504 freed_addr[freed_index++] = area_data->smem_start;
1507 if (area_data->ion_handle != NULL)
1508 ion_free(rk_fb->ion_client, area_data->ion_handle);
1510 if (area_data->acq_fence)
1511 sync_fence_put(area_data->acq_fence);
1513 memset(reg_win_data, 0, sizeof(struct rk_fb_reg_win_data));
1516 static void rk_fb_update_win(struct rk_lcdc_driver *dev_drv,
1517 struct rk_lcdc_win *win,
1518 struct rk_fb_reg_win_data *reg_win_data)
1521 struct rk_fb *inf = platform_get_drvdata(fb_pdev);
1522 struct rk_screen *cur_screen;
1523 struct rk_screen primary_screen;
1525 if (unlikely(!inf) || unlikely(!dev_drv) ||
1526 unlikely(!win) || unlikely(!reg_win_data))
1529 cur_screen = dev_drv->cur_screen;
1530 rk_fb_get_prmry_screen(&primary_screen);
1532 win->area_num = reg_win_data->area_num;
1533 win->id = reg_win_data->win_id;
1534 win->z_order = reg_win_data->z_order;
1536 if (reg_win_data->reg_area_data[0].smem_start > 0) {
1538 win->area_num = reg_win_data->area_num;
1539 win->id = reg_win_data->win_id;
1540 win->z_order = reg_win_data->z_order;
1541 win->area[0].uv_vir_stride =
1542 reg_win_data->reg_area_data[0].uv_vir_stride;
1543 win->area[0].cbr_start =
1544 reg_win_data->reg_area_data[0].cbr_start;
1545 win->area[0].c_offset = reg_win_data->reg_area_data[0].c_offset;
1546 win->alpha_en = reg_win_data->alpha_en;
1547 win->alpha_mode = reg_win_data->alpha_mode;
1548 win->g_alpha_val = reg_win_data->g_alpha_val;
1549 win->mirror_en = reg_win_data->mirror_en;
1550 win->area[0].fbdc_en =
1551 reg_win_data->reg_area_data[0].fbdc_en;
1552 win->area[0].fbdc_cor_en =
1553 reg_win_data->reg_area_data[0].fbdc_cor_en;
1554 win->area[0].fbdc_data_format =
1555 reg_win_data->reg_area_data[0].fbdc_data_format;
1556 for (i = 0; i < RK_WIN_MAX_AREA; i++) {
1557 if (reg_win_data->reg_area_data[i].smem_start > 0) {
1558 win->area[i].format =
1559 reg_win_data->reg_area_data[i].data_format;
1560 if (inf->disp_policy != DISPLAY_POLICY_BOX)
1561 win->area[i].ion_hdl =
1562 reg_win_data->reg_area_data[i].ion_handle;
1563 win->area[i].smem_start =
1564 reg_win_data->reg_area_data[i].smem_start;
1565 if (inf->disp_mode == DUAL ||
1566 inf->disp_mode == NO_DUAL ||
1567 inf->disp_policy == DISPLAY_POLICY_BOX) {
1569 reg_win_data->reg_area_data[i].xpos;
1571 reg_win_data->reg_area_data[i].ypos;
1572 win->area[i].xsize =
1573 reg_win_data->reg_area_data[i].xsize;
1574 win->area[i].ysize =
1575 reg_win_data->reg_area_data[i].ysize;
1578 reg_win_data->reg_area_data[i].xpos *
1579 cur_screen->mode.xres /
1580 primary_screen.mode.xres;
1582 reg_win_data->reg_area_data[i].ypos *
1583 cur_screen->mode.yres /
1584 primary_screen.mode.yres;
1585 win->area[i].xsize =
1586 reg_win_data->reg_area_data[i].xsize *
1587 cur_screen->mode.xres /
1588 primary_screen.mode.xres;
1589 win->area[i].ysize =
1590 reg_win_data->reg_area_data[i].ysize *
1591 cur_screen->mode.yres /
1592 primary_screen.mode.yres;
1594 /* recalc display size if set hdmi scaler when at ONE_DUAL mode */
1595 if (inf->disp_mode == ONE_DUAL && hdmi_switch_complete) {
1596 if (cur_screen->xsize > 0 &&
1597 cur_screen->xsize <= cur_screen->mode.xres) {
1599 ((cur_screen->mode.xres - cur_screen->xsize) >> 1) +
1600 cur_screen->xsize * win->area[i].xpos / cur_screen->mode.xres;
1601 win->area[i].xsize =
1602 win->area[i].xsize * cur_screen->xsize / cur_screen->mode.xres;
1604 if (cur_screen->ysize > 0 && cur_screen->ysize <= cur_screen->mode.yres) {
1606 ((cur_screen->mode.yres - cur_screen->ysize) >> 1) +
1607 cur_screen->ysize * win->area[i].ypos / cur_screen->mode.yres;
1608 win->area[i].ysize =
1609 win->area[i].ysize * cur_screen->ysize / cur_screen->mode.yres;
1614 reg_win_data->reg_area_data[i].xact;
1616 reg_win_data->reg_area_data[i].yact;
1618 reg_win_data->reg_area_data[i].xvir;
1620 reg_win_data->reg_area_data[i].yvir;
1622 reg_win_data->reg_area_data[i].xoff;
1624 reg_win_data->reg_area_data[i].yoff;
1625 win->area[i].y_offset =
1626 reg_win_data->reg_area_data[i].y_offset;
1627 win->area[i].y_vir_stride =
1628 reg_win_data->reg_area_data[i].y_vir_stride;
1629 win->area[i].state = 1;
1631 win->area[i].state = 0;
1642 static struct rk_fb_reg_win_data *rk_fb_get_win_data(struct rk_fb_reg_data
1646 struct rk_fb_reg_win_data *win_data = NULL;
1647 for (i = 0; i < regs->win_num; i++) {
1648 if (regs->reg_win_data[i].win_id == win_id) {
1649 win_data = &(regs->reg_win_data[i]);
1657 static void rk_fb_update_reg(struct rk_lcdc_driver *dev_drv,
1658 struct rk_fb_reg_data *regs)
1661 struct rk_lcdc_win *win;
1662 ktime_t timestamp = dev_drv->vsync_info.timestamp;
1663 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
1664 struct rk_fb_reg_win_data *win_data;
1665 bool wait_for_vsync;
1667 unsigned int dsp_addr[4];
1671 /* acq_fence wait */
1672 for (i = 0; i < regs->win_num; i++) {
1673 win_data = ®s->reg_win_data[i];
1674 for (j = 0; j < RK_WIN_MAX_AREA; j++) {
1675 if (win_data->reg_area_data[j].acq_fence) {
1676 /* printk("acq_fence wait!!!!!\n"); */
1677 rk_fd_fence_wait(dev_drv, win_data->reg_area_data[j].acq_fence);
1682 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
1683 win = dev_drv->win[i];
1684 win_data = rk_fb_get_win_data(regs, i);
1686 if (rk_fb->disp_policy == DISPLAY_POLICY_BOX &&
1687 (win_data->reg_area_data[0].data_format == YUV420 ||
1688 win_data->reg_area_data[0].data_format == YUV420_NV21 ||
1689 win_data->reg_area_data[0].data_format == YUV420_A))
1691 mutex_lock(&dev_drv->win_config);
1692 rk_fb_update_win(dev_drv, win, win_data);
1694 dev_drv->ops->set_par(dev_drv, i);
1695 dev_drv->ops->pan_display(dev_drv, i);
1696 mutex_unlock(&dev_drv->win_config);
1697 #if defined(CONFIG_ROCKCHIP_IOMMU)
1698 if (dev_drv->iommu_enabled) {
1699 g_last_addr[i] = win_data->reg_area_data[0].smem_start +
1700 win_data->reg_area_data[0].y_offset;
1708 dev_drv->ops->ovl_mgr(dev_drv, 0, 1);
1709 dev_drv->ops->cfg_done(dev_drv);
1712 timestamp = dev_drv->vsync_info.timestamp;
1713 timeout = wait_event_interruptible_timeout(dev_drv->vsync_info.wait,
1714 ktime_compare(dev_drv->vsync_info.timestamp, timestamp) > 0,
1715 msecs_to_jiffies(25));
1717 dev_drv->ops->get_dsp_addr(dev_drv, dsp_addr);
1718 wait_for_vsync = false;
1719 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
1720 if (rk_fb->disp_policy == DISPLAY_POLICY_BOX &&
1721 (!strcmp(dev_drv->win[i]->name, "hwc")))
1723 if (dev_drv->win[i]->state == 1) {
1725 dev_drv->win[i]->area[0].smem_start +
1726 dev_drv->win[i]->area[0].y_offset;
1727 u32 reg_start = dsp_addr[i];
1729 if ((rk_fb->disp_policy ==
1730 DISPLAY_POLICY_BOX) &&
1731 (dev_drv->suspend_flag))
1733 if (unlikely(new_start != reg_start)) {
1734 wait_for_vsync = true;
1735 dev_info(dev_drv->dev,
1736 "win%d:new_addr:0x%08x cur_addr:0x%08x--%d\n",
1737 i, new_start, reg_start, 101 - count);
1740 } else if (dev_drv->win[i]->state == 0) {
1741 if (dev_drv->ops->get_win_state) {
1743 dev_drv->ops->get_win_state(dev_drv, i);
1745 wait_for_vsync = true;
1748 pr_err("!!!win[%d]state:%d,error!!!\n",
1749 i, dev_drv->win[i]->state);
1752 } while (wait_for_vsync && count--);
1754 sw_sync_timeline_inc(dev_drv->timeline, 1);
1756 if (dev_drv->front_regs) {
1757 #if defined(CONFIG_ROCKCHIP_IOMMU)
1758 if (dev_drv->iommu_enabled) {
1759 if (dev_drv->ops->mmu_en)
1760 dev_drv->ops->mmu_en(dev_drv);
1762 g_last_timeout = timeout;
1766 mutex_lock(&dev_drv->front_lock);
1768 for (i = 0; i < dev_drv->front_regs->win_num; i++) {
1769 win_data = &dev_drv->front_regs->reg_win_data[i];
1770 rk_fb_free_dma_buf(dev_drv, win_data);
1772 kfree(dev_drv->front_regs);
1774 mutex_unlock(&dev_drv->front_lock);
1776 #if defined(CONFIG_ROCKCHIP_IOMMU)
1777 if (dev_drv->iommu_enabled)
1778 freed_addr[freed_index] = 0xfefefefe;
1782 mutex_lock(&dev_drv->front_lock);
1784 dev_drv->front_regs = regs;
1786 mutex_unlock(&dev_drv->front_lock);
1789 static void rk_fb_update_regs_handler(struct kthread_work *work)
1791 struct rk_lcdc_driver *dev_drv =
1792 container_of(work, struct rk_lcdc_driver, update_regs_work);
1793 struct rk_fb_reg_data *data, *next;
1795 mutex_lock(&dev_drv->update_regs_list_lock);
1796 dev_drv->saved_list = dev_drv->update_regs_list;
1797 list_replace_init(&dev_drv->update_regs_list, &dev_drv->saved_list);
1798 mutex_unlock(&dev_drv->update_regs_list_lock);
1800 list_for_each_entry_safe(data, next, &dev_drv->saved_list, list) {
1801 rk_fb_update_reg(dev_drv, data);
1802 list_del(&data->list);
1805 if (dev_drv->wait_fs && list_empty(&dev_drv->update_regs_list))
1806 wake_up(&dev_drv->update_regs_wait);
1809 static int rk_fb_check_config_var(struct rk_fb_area_par *area_par,
1810 struct rk_screen *screen)
1812 if ((area_par->x_offset + area_par->xact > area_par->xvir) ||
1813 (area_par->xact <= 0) || (area_par->yact <= 0) ||
1814 (area_par->xvir <= 0) || (area_par->yvir <= 0)) {
1815 pr_err("check config var fail 0:\n"
1816 "x_offset=%d,xact=%d,xvir=%d\n",
1817 area_par->x_offset, area_par->xact, area_par->xvir);
1821 if ((area_par->xpos + area_par->xsize > screen->mode.xres) ||
1822 (area_par->ypos + area_par->ysize > screen->mode.yres) ||
1823 (area_par->xsize <= 0) || (area_par->ysize <= 0)) {
1824 pr_warn("check config var fail 1:\n"
1825 "xpos=%d,xsize=%d,xres=%d\n"
1826 "ypos=%d,ysize=%d,yres=%d\n",
1827 area_par->xpos, area_par->xsize, screen->mode.xres,
1828 area_par->ypos, area_par->ysize, screen->mode.yres);
1834 static int rk_fb_set_win_buffer(struct fb_info *info,
1835 struct rk_fb_win_par *win_par,
1836 struct rk_fb_reg_win_data *reg_win_data)
1838 struct rk_fb *rk_fb = dev_get_drvdata(info->device);
1839 struct fb_fix_screeninfo *fix = &info->fix;
1840 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
1841 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
1842 /*if hdmi size move to hwc,screen should point to cur_screen
1843 otherwise point to screen0[main screen]*/
1844 struct rk_screen *screen = dev_drv->cur_screen;/*screen0;*/
1845 struct fb_info *fbi;
1846 int i, ion_fd, acq_fence_fd;
1848 u32 xoffset, yoffset;
1850 struct ion_handle *hdl;
1856 u32 stride, uv_stride;
1859 u16 uv_x_off, uv_y_off, uv_y_act;
1861 u8 ppixel_a = 0, global_a = 0;
1862 ion_phys_addr_t phy_addr;
1866 reg_win_data->reg_area_data[0].smem_start = -1;
1867 reg_win_data->area_num = 0;
1868 fbi = rk_fb->fb[reg_win_data->win_id];
1869 if (win_par->area_par[0].phy_addr == 0) {
1870 for (i = 0; i < RK_WIN_MAX_AREA; i++) {
1871 ion_fd = win_par->area_par[i].ion_fd;
1874 ion_import_dma_buf(rk_fb->ion_client,
1877 pr_info("%s: Could not import handle:"
1878 " %ld\n", __func__, (long)hdl);
1879 /*return -EINVAL; */
1882 reg_win_data->area_num++;
1883 reg_win_data->reg_area_data[i].ion_handle = hdl;
1884 #ifndef CONFIG_ROCKCHIP_IOMMU
1885 ret = ion_phys(rk_fb->ion_client, hdl, &phy_addr,
1888 if (dev_drv->iommu_enabled)
1889 ret = ion_map_iommu(dev_drv->dev,
1892 (unsigned long *)&phy_addr,
1893 (unsigned long *)&len);
1895 ret = ion_phys(rk_fb->ion_client, hdl,
1899 dev_err(fbi->dev, "ion map to get phy addr failed\n");
1900 ion_free(rk_fb->ion_client, hdl);
1903 reg_win_data->reg_area_data[i].smem_start = phy_addr;
1904 reg_win_data->area_buf_num++;
1905 reg_win_data->reg_area_data[i].index_buf = 1;
1906 reg_win_data->reg_area_data[i].buff_len = len;
1910 reg_win_data->reg_area_data[0].smem_start =
1911 win_par->area_par[0].phy_addr;
1912 reg_win_data->area_num = 1;
1913 reg_win_data->area_buf_num++;
1914 fbi->screen_base = phys_to_virt(win_par->area_par[0].phy_addr);
1917 if (reg_win_data->area_num == 0)
1920 for (i = 0; i < reg_win_data->area_num; i++) {
1921 acq_fence_fd = win_par->area_par[i].acq_fence_fd;
1922 index_buf = reg_win_data->reg_area_data[i].index_buf;
1923 if ((acq_fence_fd > 0) && (index_buf == 1)) {
1924 reg_win_data->reg_area_data[i].acq_fence =
1925 sync_fence_fdget(win_par->area_par[i].acq_fence_fd);
1928 if (reg_win_data->reg_area_data[0].smem_start > 0) {
1929 reg_win_data->z_order = win_par->z_order;
1930 reg_win_data->win_id = win_par->win_id;
1932 reg_win_data->z_order = -1;
1933 reg_win_data->win_id = -1;
1936 reg_win_data->mirror_en = win_par->mirror_en;
1937 for (i = 0; i < reg_win_data->area_num; i++) {
1938 rk_fb_check_config_var(&win_par->area_par[i], screen);
1940 fb_data_fmt = rk_fb_data_fmt(win_par->area_par[i].data_format, 0);
1941 reg_win_data->reg_area_data[i].data_format = fb_data_fmt;
1942 if (fb_data_fmt >= FBDC_RGB_565) {
1943 reg_win_data->reg_area_data[i].fbdc_en = 1;
1944 reg_win_data->reg_area_data[i].fbdc_cor_en = 1;
1946 reg_win_data->reg_area_data[i].fbdc_en = 0;
1947 reg_win_data->reg_area_data[i].fbdc_cor_en = 0;
1949 pixel_width = rk_fb_pixel_width(fb_data_fmt);
1951 ppixel_a |= ((fb_data_fmt == ARGB888) ||
1952 (fb_data_fmt == FBDC_ARGB_888) ||
1953 (fb_data_fmt == FBDC_ABGR_888) ||
1954 (fb_data_fmt == ABGR888)) ? 1 : 0;
1955 /* visiable pos in panel */
1956 reg_win_data->reg_area_data[i].xpos = win_par->area_par[i].xpos;
1957 reg_win_data->reg_area_data[i].ypos = win_par->area_par[i].ypos;
1959 /* realy size in panel */
1960 reg_win_data->reg_area_data[i].xsize = win_par->area_par[i].xsize;
1961 reg_win_data->reg_area_data[i].ysize = win_par->area_par[i].ysize;
1963 /* realy size in panel */
1964 reg_win_data->reg_area_data[i].xact = win_par->area_par[i].xact;
1965 reg_win_data->reg_area_data[i].yact = win_par->area_par[i].yact;
1967 xoffset = win_par->area_par[i].x_offset; /* buf offset */
1968 yoffset = win_par->area_par[i].y_offset;
1969 reg_win_data->reg_area_data[i].xoff = xoffset;
1970 reg_win_data->reg_area_data[i].yoff = yoffset;
1972 xvir = win_par->area_par[i].xvir;
1973 reg_win_data->reg_area_data[i].xvir = xvir;
1974 yvir = win_par->area_par[i].yvir;
1975 reg_win_data->reg_area_data[i].yvir = yvir;
1977 vir_width_bit = pixel_width * xvir;
1978 /* pixel_width = byte_num*8 */
1979 stride_32bit_1 = ((vir_width_bit + 31) & (~31)) / 8;
1980 stride_32bit_2 = ((vir_width_bit * 2 + 31) & (~31)) / 8;
1982 stride = stride_32bit_1; /* default rgb */
1983 fix->line_length = stride;
1984 reg_win_data->reg_area_data[i].y_vir_stride = stride >> 2;
1986 /* x y mirror ,jump line
1987 * reg_win_data->reg_area_data[i].y_offset =
1988 * yoffset*stride+xoffset*pixel_width/8;
1990 if ((screen->y_mirror == 1) || (reg_win_data->mirror_en)) {
1991 if (screen->interlace == 1) {
1992 reg_win_data->reg_area_data[i].y_offset =
1993 yoffset * stride * 2 +
1994 ((reg_win_data->reg_area_data[i].yact - 1) * 2 + 1) * stride +
1995 xoffset * pixel_width / 8;
1997 reg_win_data->reg_area_data[i].y_offset =
1999 (reg_win_data->reg_area_data[i].yact - 1) * stride +
2000 xoffset * pixel_width / 8;
2003 if (screen->interlace == 1) {
2004 reg_win_data->reg_area_data[i].y_offset =
2005 yoffset * stride * 2 +
2006 xoffset * pixel_width / 8;
2008 reg_win_data->reg_area_data[i].y_offset =
2010 xoffset * pixel_width / 8;
2013 if ((fb_data_fmt != YUV420) &&
2014 (fb_data_fmt != YUV420_NV21) &&
2015 (fb_data_fmt != YUV422) &&
2016 (fb_data_fmt != YUV444) &&
2017 dev_drv->iommu_enabled) {
2018 buff_len = reg_win_data->reg_area_data[i].y_offset +
2019 reg_win_data->reg_area_data[i].xvir *
2020 reg_win_data->reg_area_data[i].yact *
2022 reg_win_data->reg_area_data[i].xoff*
2024 if (buff_len > reg_win_data->reg_area_data[i].buff_len)
2025 pr_err("\n!!!!!!error: fmt=%d,xvir[%d]*"
2027 "=buff_len[0x%x]>>mmu len=0x%x\n",
2029 reg_win_data->reg_area_data[i].xvir,
2030 reg_win_data->reg_area_data[i].yact,
2031 pixel_width, buff_len,
2032 reg_win_data->reg_area_data[i].buff_len);
2036 global_a = (win_par->g_alpha_val == 0) ? 0 : 1;
2037 reg_win_data->alpha_en = ppixel_a | global_a;
2038 reg_win_data->g_alpha_val = win_par->g_alpha_val;
2039 reg_win_data->alpha_mode = win_par->alpha_mode;
2041 switch (fb_data_fmt) {
2045 stride = stride_32bit_1;
2046 uv_stride = stride_32bit_1 >> 1;
2047 uv_x_off = xoffset >> 1;
2049 fix->line_length = stride;
2050 uv_y_act = win_par->area_par[0].yact >> 1;
2052 case YUV420: /* nv12 */
2053 case YUV420_NV21: /* nv21 */
2056 stride = stride_32bit_1;
2057 uv_stride = stride_32bit_1;
2059 uv_y_off = yoffset >> 1;
2060 fix->line_length = stride;
2061 uv_y_act = win_par->area_par[0].yact >> 1;
2066 stride = stride_32bit_1;
2067 uv_stride = stride_32bit_2;
2068 uv_x_off = xoffset * 2;
2070 fix->line_length = stride << 2;
2071 uv_y_act = win_par->area_par[0].yact;
2076 if (is_pic_yuv == 1) {
2077 reg_win_data->reg_area_data[0].cbr_start =
2078 reg_win_data->reg_area_data[0].smem_start + xvir * yvir;
2079 reg_win_data->reg_area_data[0].uv_vir_stride = uv_stride >> 2;
2080 if ((screen->y_mirror == 1) || (reg_win_data->mirror_en)) {
2081 if (screen->interlace == 1) {
2082 reg_win_data->reg_area_data[0].c_offset =
2083 uv_y_off * uv_stride * 2 +
2084 ((uv_y_act - 1) * 2 + 1) * uv_stride +
2085 uv_x_off * pixel_width / 8;
2087 reg_win_data->reg_area_data[0].c_offset =
2088 uv_y_off * uv_stride +
2089 (uv_y_act - 1) * uv_stride +
2090 uv_x_off * pixel_width / 8;
2093 if (screen->interlace == 1) {
2094 reg_win_data->reg_area_data[0].c_offset =
2095 uv_y_off * uv_stride * 2 +
2096 uv_x_off * pixel_width / 8;
2098 reg_win_data->reg_area_data[0].c_offset =
2099 uv_y_off * uv_stride +
2100 uv_x_off * pixel_width / 8;
2103 buff_len = reg_win_data->reg_area_data[0].cbr_start +
2104 reg_win_data->reg_area_data[0].c_offset +
2105 reg_win_data->reg_area_data[0].xvir *
2106 reg_win_data->reg_area_data[0].yact *
2108 reg_win_data->reg_area_data[0].smem_start -
2109 reg_win_data->reg_area_data[0].xoff*
2111 if ((buff_len > reg_win_data->reg_area_data[0].buff_len) &&
2112 dev_drv->iommu_enabled)
2113 pr_err("\n!!!!!!error: fmt=%d,xvir[%d]*"
2115 "=buff_len[0x%x]>>mmu len=0x%x\n",
2117 reg_win_data->reg_area_data[0].xvir,
2118 reg_win_data->reg_area_data[0].yact,
2119 pixel_width, buff_len,
2120 reg_win_data->reg_area_data[0].buff_len);
2123 /* record buffer information for rk_fb_disp_scale to prevent fence timeout
2124 * because rk_fb_disp_scale will call function info->fbops->fb_set_par(info);
2126 info->var.yoffset = yoffset;
2127 info->var.xoffset = xoffset;
2131 static int rk_fb_set_win_config(struct fb_info *info,
2132 struct rk_fb_win_cfg_data *win_data)
2134 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2135 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2136 struct rk_fb_reg_data *regs;
2138 struct sync_fence *release_fence[RK_MAX_BUF_NUM];
2139 struct sync_fence *retire_fence;
2140 struct sync_pt *release_sync_pt[RK_MAX_BUF_NUM];
2141 struct sync_pt *retire_sync_pt;
2142 char fence_name[20];
2144 int ret = 0, i, j = 0;
2145 int list_is_empty = 0;
2147 if (dev_drv->suspend_flag) {
2148 dev_drv->timeline_max++;
2149 sw_sync_timeline_inc(dev_drv->timeline, 1);
2153 regs = kzalloc(sizeof(struct rk_fb_reg_data), GFP_KERNEL);
2155 printk(KERN_INFO "could not allocate rk_fb_reg_data\n");
2161 regs->post_cfg.xpos = win_data->post_cfg.xpos;
2162 regs->post_cfg.ypos = win_data->post_cfg.ypos;
2163 regs->post_cfg.xsize = win_data->post_cfg.xsize;
2164 regs->post_cfg.ysize = win_data->post_cfg.xsize;
2167 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
2168 if (win_data->win_par[i].win_id < dev_drv->lcdc_win_num) {
2169 if (rk_fb_set_win_buffer(info, &win_data->win_par[i],
2170 ®s->reg_win_data[j]))
2172 if (regs->reg_win_data[j].area_num > 0) {
2175 regs->reg_win_data[j].area_buf_num;
2179 printk(KERN_INFO "error:win_id bigger than lcdc_win_num\n");
2180 printk(KERN_INFO "i=%d,win_id=%d\n", i,
2181 win_data->win_par[i].win_id);
2185 mutex_lock(&dev_drv->output_lock);
2187 dev_drv->timeline_max++;
2189 for (i = 0; i < RK_MAX_BUF_NUM; i++) {
2190 if (i < regs->buf_num) {
2191 sprintf(fence_name, "fence%d", i);
2192 win_data->rel_fence_fd[i] = get_unused_fd();
2193 if (win_data->rel_fence_fd[i] < 0) {
2194 printk(KERN_INFO "rel_fence_fd=%d\n",
2195 win_data->rel_fence_fd[i]);
2199 release_sync_pt[i] =
2200 sw_sync_pt_create(dev_drv->timeline,
2201 dev_drv->timeline_max);
2203 sync_fence_create(fence_name, release_sync_pt[i]);
2204 sync_fence_install(release_fence[i],
2205 win_data->rel_fence_fd[i]);
2207 win_data->rel_fence_fd[i] = -1;
2211 win_data->ret_fence_fd = get_unused_fd();
2212 if (win_data->ret_fence_fd < 0) {
2213 printk("ret_fence_fd=%d\n", win_data->ret_fence_fd);
2214 win_data->ret_fence_fd = -1;
2219 sw_sync_pt_create(dev_drv->timeline, dev_drv->timeline_max);
2220 retire_fence = sync_fence_create("ret_fence", retire_sync_pt);
2221 sync_fence_install(retire_fence, win_data->ret_fence_fd);
2223 for (i = 0; i < RK_MAX_BUF_NUM; i++)
2224 win_data->rel_fence_fd[i] = -1;
2226 win_data->ret_fence_fd = -1;
2228 if (dev_drv->wait_fs == 0) {
2229 mutex_lock(&dev_drv->update_regs_list_lock);
2230 list_add_tail(®s->list, &dev_drv->update_regs_list);
2231 mutex_unlock(&dev_drv->update_regs_list_lock);
2232 queue_kthread_work(&dev_drv->update_regs_worker,
2233 &dev_drv->update_regs_work);
2235 mutex_lock(&dev_drv->update_regs_list_lock);
2236 list_is_empty = list_empty(&dev_drv->update_regs_list) &&
2237 list_empty(&dev_drv->saved_list);
2238 mutex_unlock(&dev_drv->update_regs_list_lock);
2239 if (!list_is_empty) {
2240 ret = wait_event_timeout(dev_drv->update_regs_wait,
2241 list_empty(&dev_drv->update_regs_list) && list_empty(&dev_drv->saved_list),
2242 msecs_to_jiffies(60));
2244 rk_fb_update_reg(dev_drv, regs);
2246 printk("%s: wait update_regs_wait timeout\n", __func__);
2247 } else if (ret == 0) {
2248 rk_fb_update_reg(dev_drv, regs);
2253 mutex_unlock(&dev_drv->output_lock);
2258 static int cfgdone_distlist[10] = { 0 };
2260 static int cfgdone_index;
2261 static int cfgdone_lasttime;
2263 int rk_get_real_fps(int before)
2265 struct timespec now;
2271 int index = cfgdone_index;
2280 getnstimeofday(&now);
2281 dist_curr = (now.tv_sec * 1000000 + now.tv_nsec / 1000) -
2287 for (i = 0; i < 10; i++) {
2290 total += cfgdone_distlist[index];
2292 dist_first = cfgdone_distlist[index];
2293 if (total < (before * 1000)) {
2295 printk("[%d:%d] ", dist_count, cfgdone_distlist[index]);
2297 dist_total += cfgdone_distlist[index];
2305 printk("total %d, count %d, curr %d, ", dist_total, dist_count, dist_curr);
2307 dist_curr = (dist_curr > dist_first) ? dist_curr : dist_first;
2308 dist_total += dist_curr;
2312 fps = (1000000 * dist_count) / dist_total;
2317 printk("curr2 %d, fps=%d\n", dist_curr, fps);
2321 EXPORT_SYMBOL(rk_get_real_fps);
2324 #ifdef CONFIG_ROCKCHIP_IOMMU
2326 static struct ion_handle *ion_hanle[ION_MAX];
2327 static struct ion_handle *ion_hwc[1];
2329 static int rk_fb_ioctl(struct fb_info *info, unsigned int cmd,
2332 struct rk_fb *rk_fb = dev_get_drvdata(info->device);
2333 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2334 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2335 struct fb_fix_screeninfo *fix = &info->fix;
2336 struct rk_lcdc_win *win;
2337 int enable; /* enable fb:1 enable;0 disable */
2338 int ovl; /* overlay:0 win1 on the top of win0;1,win0 on the top of win1 */
2339 int num_buf; /* buffer_number */
2341 struct rk_fb_win_cfg_data win_data;
2342 unsigned int dsp_addr[4];
2345 int win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
2347 void __user *argp = (void __user *)arg;
2348 win = dev_drv->win[win_id];
2351 case RK_FBIOSET_HWC_ADDR:
2354 if (copy_from_user(hwc_phy, argp, 4))
2356 #ifdef CONFIG_ROCKCHIP_IOMMU
2357 if (!dev_drv->iommu_enabled) {
2359 fix->smem_start = hwc_phy[0];
2360 #ifdef CONFIG_ROCKCHIP_IOMMU
2363 struct ion_handle *hdl;
2364 ion_phys_addr_t phy_addr;
2367 usr_fd = hwc_phy[0];
2369 fix->smem_start = 0;
2370 fix->mmio_start = 0;
2371 dev_drv->ops->open(dev_drv, win_id, 0);
2375 if (ion_hwc[0] != 0) {
2376 ion_free(rk_fb->ion_client, ion_hwc[0]);
2380 hdl = ion_import_dma_buf(rk_fb->ion_client, usr_fd);
2382 dev_err(info->dev, "failed to get hwc ion handle:%ld\n",
2387 ret = ion_map_iommu(dev_drv->dev, rk_fb->ion_client, hdl,
2388 (unsigned long *)&phy_addr,
2389 (unsigned long *)&len);
2391 dev_err(info->dev, "ion map to get hwc phy addr failed");
2392 ion_free(rk_fb->ion_client, hdl);
2395 fix->smem_start = phy_addr;
2401 case RK_FBIOSET_YUV_ADDR:
2405 if (copy_from_user(yuv_phy, argp, 8))
2407 #ifdef CONFIG_ROCKCHIP_IOMMU
2408 if (!dev_drv->iommu_enabled || !strcmp(info->fix.id, "fb0")) {
2410 fix->smem_start = yuv_phy[0];
2411 fix->mmio_start = yuv_phy[1];
2412 #ifdef CONFIG_ROCKCHIP_IOMMU
2414 int usr_fd, offset, tmp;
2415 struct ion_handle *hdl;
2416 ion_phys_addr_t phy_addr;
2419 usr_fd = yuv_phy[0];
2420 offset = yuv_phy[1] - yuv_phy[0];
2422 fix->smem_start = 0;
2423 fix->mmio_start = 0;
2427 if (ion_hanle[ION_MAX - 1] != 0) {
2428 /*ion_unmap_kernel(rk_fb->ion_client, ion_hanle[ION_MAX - 1]);*/
2429 /*ion_unmap_iommu(dev_drv->dev, rk_fb->ion_client, ion_hanle[ION_MAX - 1]);*/
2430 ion_free(rk_fb->ion_client, ion_hanle[ION_MAX - 1]);
2431 ion_hanle[ION_MAX - 1] = 0;
2434 hdl = ion_import_dma_buf(rk_fb->ion_client, usr_fd);
2436 dev_err(info->dev, "failed to get ion handle:%ld\n",
2441 ret = ion_map_iommu(dev_drv->dev, rk_fb->ion_client, hdl,
2442 (unsigned long *)&phy_addr,
2443 (unsigned long *)&len);
2445 dev_err(info->dev, "ion map to get phy addr failed");
2446 ion_free(rk_fb->ion_client, hdl);
2449 fix->smem_start = phy_addr;
2450 fix->mmio_start = phy_addr + offset;
2451 fix->smem_len = len;
2452 /*info->screen_base = ion_map_kernel(rk_fb->ion_client, hdl);*/
2455 for (tmp = ION_MAX - 1; tmp > 0; tmp--)
2456 ion_hanle[tmp] = ion_hanle[tmp - 1];
2462 case RK_FBIOSET_ENABLE:
2463 if (copy_from_user(&enable, argp, sizeof(enable)))
2465 if (enable && fb_par->state)
2469 dev_drv->ops->open(dev_drv, win_id, enable);
2471 case RK_FBIOGET_ENABLE:
2472 enable = dev_drv->ops->get_win_state(dev_drv, win_id);
2473 if (copy_to_user(argp, &enable, sizeof(enable)))
2476 case RK_FBIOSET_OVERLAY_STA:
2477 if (copy_from_user(&ovl, argp, sizeof(ovl)))
2479 dev_drv->ops->ovl_mgr(dev_drv, ovl, 1);
2481 case RK_FBIOGET_OVERLAY_STA:
2482 ovl = dev_drv->ops->ovl_mgr(dev_drv, 0, 0);
2483 if (copy_to_user(argp, &ovl, sizeof(ovl)))
2486 case RK_FBIOPUT_NUM_BUFFERS:
2487 if (copy_from_user(&num_buf, argp, sizeof(num_buf)))
2489 dev_drv->num_buf = num_buf;
2491 case RK_FBIOSET_VSYNC_ENABLE:
2492 if (copy_from_user(&enable, argp, sizeof(enable)))
2494 dev_drv->vsync_info.active = enable;
2497 case RK_FBIOGET_DSP_ADDR:
2498 dev_drv->ops->get_dsp_addr(dev_drv, dsp_addr);
2499 if (copy_to_user(argp, &dsp_addr, sizeof(dsp_addr)))
2502 case RK_FBIOGET_LIST_STA:
2503 list_stat = rk_fb_get_list_stat(dev_drv);
2504 if (copy_to_user(argp, &list_stat, sizeof(list_stat)))
2508 case RK_FBIOGET_IOMMU_STA:
2509 if (copy_to_user(argp, &dev_drv->iommu_enabled,
2510 sizeof(dev_drv->iommu_enabled)))
2513 #if defined(CONFIG_ION_ROCKCHIP)
2514 case RK_FBIOSET_DMABUF_FD:
2517 struct ion_handle *hdl;
2518 ion_phys_addr_t phy_addr;
2520 if (copy_from_user(&usr_fd, argp, sizeof(usr_fd)))
2522 hdl = ion_import_dma_buf(rk_fb->ion_client, usr_fd);
2523 ion_phys(rk_fb->ion_client, hdl, &phy_addr, &len);
2524 fix->smem_start = phy_addr;
2527 case RK_FBIOGET_DMABUF_FD:
2531 if (IS_ERR_OR_NULL(fb_par->ion_hdl)) {
2533 "get dma_buf fd failed,ion handle is err\n");
2534 return PTR_ERR(fb_par->ion_hdl);
2536 fd = ion_share_dma_buf_fd(rk_fb->ion_client,
2540 "ion_share_dma_buf_fd failed\n");
2543 if (copy_to_user(argp, &fd, sizeof(fd)))
2548 case RK_FBIOSET_CLEAR_FB:
2549 memset(fb_par->fb_virt_base, 0, fb_par->fb_size);
2551 case RK_FBIOSET_CONFIG_DONE:
2554 struct timespec now;
2556 getnstimeofday(&now);
2557 curr = now.tv_sec * 1000000 + now.tv_nsec / 1000;
2558 cfgdone_distlist[cfgdone_index++] =
2559 curr - cfgdone_lasttime;
2561 printk("%d ", curr - cfgdone_lasttime);
2563 cfgdone_lasttime = curr;
2564 if (cfgdone_index >= 10)
2567 if (copy_from_user(&win_data,
2568 (struct rk_fb_win_cfg_data __user *)argp,
2569 sizeof(win_data))) {
2574 dev_drv->wait_fs = win_data.wait_fs;
2575 rk_fb_set_win_config(info, &win_data);
2577 if (copy_to_user((struct rk_fb_win_cfg_data __user *)arg,
2578 &win_data, sizeof(win_data))) {
2582 memset(&win_data, 0, sizeof(struct rk_fb_win_cfg_data));
2585 dev_drv->ops->ioctl(dev_drv, cmd, arg, win_id);
2592 static int rk_fb_blank(int blank_mode, struct fb_info *info)
2594 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2595 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2596 struct fb_fix_screeninfo *fix = &info->fix;
2598 #if defined(CONFIG_RK_HDMI)
2599 struct rk_fb *rk_fb = dev_get_drvdata(info->device);
2602 win_id = dev_drv->ops->fb_get_win_id(dev_drv, fix->id);
2605 #if defined(CONFIG_RK_HDMI)
2606 if ((rk_fb->disp_mode == ONE_DUAL) &&
2607 (hdmi_get_hotplug() == HDMI_HPD_ACTIVED)) {
2608 printk(KERN_INFO "hdmi is connect , not blank lcdc\n");
2612 dev_drv->ops->blank(dev_drv, win_id, blank_mode);
2617 static int rk_fb_check_var(struct fb_var_screeninfo *var, struct fb_info *info)
2619 if ((0 == var->xres_virtual) || (0 == var->yres_virtual) ||
2620 (0 == var->xres) || (0 == var->yres) || (var->xres < 16) ||
2621 ((16 != var->bits_per_pixel) &&
2622 (32 != var->bits_per_pixel) &&
2623 (24 != var->bits_per_pixel))) {
2624 dev_err(info->dev, "%s check var fail 1:\n"
2625 "xres_vir:%d>>yres_vir:%d\n"
2626 "xres:%d>>yres:%d\n"
2627 "bits_per_pixel:%d\n",
2631 var->xres, var->yres, var->bits_per_pixel);
2635 if (((var->xoffset + var->xres) > var->xres_virtual) ||
2636 ((var->yoffset + var->yres) > (var->yres_virtual))) {
2637 dev_err(info->dev, "%s check_var fail 2:\n"
2638 "xoffset:%d>>xres:%d>>xres_vir:%d\n"
2639 "yoffset:%d>>yres:%d>>yres_vir:%d\n",
2644 var->yoffset, var->yres, var->yres_virtual);
2651 static ssize_t rk_fb_read(struct fb_info *info, char __user *buf,
2652 size_t count, loff_t *ppos)
2654 unsigned long p = *ppos;
2657 int c, cnt = 0, err = 0;
2658 unsigned long total_size;
2659 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2660 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2661 struct rk_lcdc_win *win = NULL;
2664 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
2668 win = dev_drv->win[win_id];
2670 /* only read the current frame buffer */
2671 if (win->area[0].format == RGB565) {
2672 total_size = win->area[0].y_vir_stride * win->area[0].yact << 1;
2673 } else if ((win->area[0].format == YUV420) ||
2674 (win->area[0].format == YUV420_NV21)) {
2676 (win->area[0].y_vir_stride * win->area[0].yact * 6);
2678 total_size = win->area[0].y_vir_stride * win->area[0].yact << 2;
2680 if (p >= total_size)
2683 if (count >= total_size)
2686 if (count + p > total_size)
2687 count = total_size - p;
2689 buffer = kmalloc((count > PAGE_SIZE) ? PAGE_SIZE : count, GFP_KERNEL);
2693 src = (u8 __iomem *)(info->screen_base + p + win->area[0].y_offset);
2696 c = (count > PAGE_SIZE) ? PAGE_SIZE : count;
2698 fb_memcpy_fromfb(dst, src, c);
2702 if (copy_to_user(buf, buffer, c)) {
2714 return (err) ? err : cnt;
2717 static ssize_t rk_fb_write(struct fb_info *info, const char __user *buf,
2718 size_t count, loff_t *ppos)
2720 unsigned long p = *ppos;
2723 int c, cnt = 0, err = 0;
2724 unsigned long total_size;
2725 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2726 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2727 struct rk_lcdc_win *win = NULL;
2730 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
2734 win = dev_drv->win[win_id];
2736 /* write the current frame buffer */
2737 if (win->area[0].format == RGB565)
2738 total_size = win->area[0].xact * win->area[0].yact << 1;
2740 total_size = win->area[0].xact * win->area[0].yact << 2;
2745 if (count > total_size) {
2750 if (count + p > total_size) {
2754 count = total_size - p;
2757 buffer = kmalloc((count > PAGE_SIZE) ? PAGE_SIZE : count, GFP_KERNEL);
2761 dst = (u8 __iomem *)(info->screen_base + p + win->area[0].y_offset);
2764 c = (count > PAGE_SIZE) ? PAGE_SIZE : count;
2767 if (copy_from_user(src, buf, c)) {
2772 fb_memcpy_tofb(dst, src, c);
2783 return (cnt) ? cnt : err;
2786 static int rk_fb_set_par(struct fb_info *info)
2788 struct fb_var_screeninfo *var = &info->var;
2789 struct fb_fix_screeninfo *fix = &info->fix;
2790 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2791 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
2792 struct rk_fb *rk_fb = dev_get_drvdata(info->device);
2793 struct rk_lcdc_win *win = NULL;
2794 struct rk_screen *screen = dev_drv->cur_screen;
2796 u32 cblen = 0, crlen = 0;
2797 u16 xsize = 0, ysize = 0; /* winx display window height/width --->LCDC_WINx_DSP_INFO */
2798 u32 xoffset = var->xoffset; /* offset from virtual to visible */
2799 u32 yoffset = var->yoffset;
2800 u16 xpos = (var->nonstd >> 8) & 0xfff; /*visiable pos in panel */
2801 u16 ypos = (var->nonstd >> 20) & 0xfff;
2802 u32 xvir = var->xres_virtual;
2803 u32 yvir = var->yres_virtual;
2804 u8 data_format = var->nonstd & 0xff;
2808 u32 stride, uv_stride;
2811 u16 uv_x_off, uv_y_off, uv_y_act;
2813 /*var->pixclock = dev_drv->pixclock;*/
2814 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
2818 win = dev_drv->win[win_id];
2820 /* if the application has specific the horizontal and vertical display size */
2821 if (var->grayscale >> 8) {
2822 xsize = (var->grayscale >> 8) & 0xfff;
2823 ysize = (var->grayscale >> 20) & 0xfff;
2824 if (xsize > screen->mode.xres)
2825 xsize = screen->mode.xres;
2826 if (ysize > screen->mode.yres)
2827 ysize = screen->mode.yres;
2828 } else { /*ohterwise full screen display */
2829 xsize = screen->mode.xres;
2830 ysize = screen->mode.yres;
2833 fb_data_fmt = rk_fb_data_fmt(data_format, var->bits_per_pixel);
2834 if (fb_data_fmt >= FBDC_RGB_565) {
2835 win->area[0].fbdc_en = 1;
2836 win->area[0].fbdc_cor_en = 1;
2838 win->area[0].fbdc_en = 0;
2839 win->area[0].fbdc_cor_en = 0;
2841 pixel_width = rk_fb_pixel_width(fb_data_fmt);
2842 vir_width_bit = pixel_width * xvir;
2843 /* pixel_width = byte_num * 8 */
2844 stride_32bit_1 = ALIGN_N_TIMES(vir_width_bit, 32) / 8;
2845 stride_32bit_2 = ALIGN_N_TIMES(vir_width_bit * 2, 32) / 8;
2847 switch (fb_data_fmt) {
2851 stride = stride_32bit_1;
2852 uv_stride = stride_32bit_1 >> 1;
2853 uv_x_off = xoffset >> 1;
2855 fix->line_length = stride;
2856 cblen = crlen = (xvir * yvir) >> 1;
2857 uv_y_act = win->area[0].yact >> 1;
2859 case YUV420: /* nv12 */
2860 case YUV420_NV21: /* nv21 */
2863 stride = stride_32bit_1;
2864 uv_stride = stride_32bit_1;
2866 uv_y_off = yoffset >> 1;
2867 fix->line_length = stride;
2868 cblen = crlen = (xvir * yvir) >> 2;
2869 uv_y_act = win->area[0].yact >> 1;
2874 stride = stride_32bit_1;
2875 uv_stride = stride_32bit_2;
2876 uv_x_off = xoffset * 2;
2878 fix->line_length = stride << 2;
2879 cblen = crlen = (xvir * yvir);
2880 uv_y_act = win->area[0].yact;
2883 stride = stride_32bit_1; /* default rgb */
2884 fix->line_length = stride;
2888 win->area[0].format = fb_data_fmt;
2889 win->area[0].y_vir_stride = stride >> 2;
2890 win->area[0].uv_vir_stride = uv_stride >> 2;
2891 win->area[0].xpos = xpos;
2892 win->area[0].ypos = ypos;
2893 win->area[0].xsize = xsize;
2894 win->area[0].ysize = ysize;
2895 win->area[0].xact = var->xres; /* winx active window height,is a wint of vir */
2896 win->area[0].yact = var->yres;
2897 win->area[0].xvir = var->xres_virtual; /* virtual resolution stride --->LCDC_WINx_VIR */
2898 win->area[0].yvir = var->yres_virtual;
2899 win->area[0].xoff = xoffset;
2900 win->area[0].yoff = yoffset;
2903 win->alpha_mode = 4; /* AB_SRC_OVER; */
2904 win->alpha_en = ((win->area[0].format == ARGB888) ||
2905 (win->area[0].format == FBDC_ARGB_888) ||
2906 (win->area[0].format == FBDC_ABGR_888) ||
2907 (win->area[0].format == ABGR888)) ? 1 : 0;
2908 win->g_alpha_val = 0;
2910 if (rk_fb->disp_policy == DISPLAY_POLICY_BOX &&
2911 (win->area[0].format == YUV420 ||
2912 win->area[0].format == YUV420_NV21 ||
2913 win->area[0].format == YUV420_A)) {
2917 dev_drv->ops->set_par(dev_drv, win_id);
2922 static inline unsigned int chan_to_field(unsigned int chan,
2923 struct fb_bitfield *bf)
2926 chan >>= 16 - bf->length;
2927 return chan << bf->offset;
2930 static int fb_setcolreg(unsigned regno,
2931 unsigned red, unsigned green, unsigned blue,
2932 unsigned transp, struct fb_info *info)
2936 switch (info->fix.visual) {
2937 case FB_VISUAL_TRUECOLOR:
2938 /* true-colour, use pseudo-palette */
2940 u32 *pal = info->pseudo_palette;
2941 val = chan_to_field(red, &info->var.red);
2942 val |= chan_to_field(green, &info->var.green);
2943 val |= chan_to_field(blue, &info->var.blue);
2948 return -1; /* unknown type */
2954 static int rk_fb_mmap(struct fb_info *info, struct vm_area_struct *vma)
2956 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
2957 struct rk_fb_par *fb_par = (struct rk_fb_par *)info->par;
2958 struct ion_handle *handle = fb_par->ion_hdl;
2959 struct dma_buf *dma_buf = NULL;
2961 if (IS_ERR_OR_NULL(handle)) {
2962 dev_err(info->dev, "failed to get ion handle:%ld\n",
2966 dma_buf = ion_share_dma_buf(rk_fb->ion_client, handle);
2967 if (IS_ERR_OR_NULL(dma_buf)) {
2968 printk("get ion share dma buf failed\n");
2972 vma->vm_page_prot = pgprot_noncached(vma->vm_page_prot);
2974 return dma_buf_mmap(dma_buf, vma, 0);
2977 static struct fb_ops fb_ops = {
2978 .owner = THIS_MODULE,
2979 .fb_open = rk_fb_open,
2980 .fb_release = rk_fb_close,
2981 .fb_check_var = rk_fb_check_var,
2982 .fb_set_par = rk_fb_set_par,
2983 .fb_blank = rk_fb_blank,
2984 .fb_ioctl = rk_fb_ioctl,
2985 .fb_compat_ioctl = rk_fb_ioctl,
2986 .fb_pan_display = rk_fb_pan_display,
2987 .fb_read = rk_fb_read,
2988 .fb_write = rk_fb_write,
2989 .fb_setcolreg = fb_setcolreg,
2990 .fb_fillrect = cfb_fillrect,
2991 .fb_copyarea = cfb_copyarea,
2992 .fb_imageblit = cfb_imageblit,
2995 static struct fb_var_screeninfo def_var = {
2996 #if defined(CONFIG_LOGO_LINUX_BMP)
3000 .transp = {0, 0, 0},
3001 .nonstd = HAL_PIXEL_FORMAT_BGRA_8888,
3006 .transp = {0, 0, 0},
3007 .nonstd = HAL_PIXEL_FORMAT_RGB_565, /* (ypos<<20+xpos<<8+format) format */
3009 .grayscale = 0, /* (ysize<<20+xsize<<8) */
3010 .activate = FB_ACTIVATE_NOW,
3012 .vmode = FB_VMODE_NONINTERLACED,
3015 static struct fb_fix_screeninfo def_fix = {
3016 .type = FB_TYPE_PACKED_PIXELS,
3021 .accel = FB_ACCEL_NONE,
3022 .visual = FB_VISUAL_TRUECOLOR,
3026 static int rk_fb_wait_for_vsync_thread(void *data)
3028 struct rk_lcdc_driver *dev_drv = data;
3029 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3030 struct fb_info *fbi = rk_fb->fb[0];
3032 while (!kthread_should_stop()) {
3033 ktime_t timestamp = dev_drv->vsync_info.timestamp;
3034 int ret = wait_event_interruptible(dev_drv->vsync_info.wait,
3035 !ktime_equal(timestamp, dev_drv->vsync_info.timestamp) &&
3036 (dev_drv->vsync_info.active || dev_drv->vsync_info.irq_stop));
3039 sysfs_notify(&fbi->dev->kobj, NULL, "vsync");
3045 static ssize_t rk_fb_vsync_show(struct device *dev,
3046 struct device_attribute *attr, char *buf)
3048 struct fb_info *fbi = dev_get_drvdata(dev);
3049 struct rk_fb_par *fb_par = (struct rk_fb_par *)fbi->par;
3050 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
3051 return scnprintf(buf, PAGE_SIZE, "%llu\n",
3052 ktime_to_ns(dev_drv->vsync_info.timestamp));
3055 static DEVICE_ATTR(vsync, S_IRUGO, rk_fb_vsync_show, NULL);
3058 * this two function is for other module that in the kernel which
3059 * need show image directly through fb
3060 * fb_id:we have 4 fb here,default we use fb0 for ui display
3062 struct fb_info *rk_get_fb(int fb_id)
3064 struct rk_fb *inf = platform_get_drvdata(fb_pdev);
3065 struct fb_info *fb = inf->fb[fb_id];
3068 EXPORT_SYMBOL(rk_get_fb);
3070 void rk_direct_fb_show(struct fb_info *fbi)
3073 rk_fb_pan_display(&fbi->var, fbi);
3075 EXPORT_SYMBOL(rk_direct_fb_show);
3077 int rk_fb_dpi_open(bool open)
3079 struct rk_lcdc_driver *dev_drv = NULL;
3080 dev_drv = rk_get_prmry_lcdc_drv();
3082 if (dev_drv->ops->dpi_open)
3083 dev_drv->ops->dpi_open(dev_drv, open);
3087 int rk_fb_dpi_win_sel(int win_id)
3089 struct rk_lcdc_driver *dev_drv = NULL;
3090 dev_drv = rk_get_prmry_lcdc_drv();
3092 if (dev_drv->ops->dpi_win_sel)
3093 dev_drv->ops->dpi_win_sel(dev_drv, win_id);
3097 int rk_fb_dpi_status(void)
3100 struct rk_lcdc_driver *dev_drv = NULL;
3102 dev_drv = rk_get_prmry_lcdc_drv();
3103 if (dev_drv->ops->dpi_status)
3104 ret = dev_drv->ops->dpi_status(dev_drv);
3110 * function: this function will be called by display device, enable/disable lcdc
3111 * @screen: screen timing to be set to lcdc
3112 * @enable: 0 disable lcdc; 1 enable change lcdc timing; 2 just enable dclk
3113 * @lcdc_id: the lcdc id the display device attached ,0 or 1
3115 int rk_fb_switch_screen(struct rk_screen *screen, int enable, int lcdc_id)
3117 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3118 struct fb_info *info = NULL;
3119 struct rk_fb_par *fb_par = NULL;
3120 struct rk_lcdc_driver *dev_drv = NULL;
3122 int i, win_id, load_screen = 0;
3124 if (unlikely(!rk_fb) || unlikely(!screen))
3127 hdmi_switch_complete = 0;
3128 /* get lcdc driver */
3129 sprintf(name, "lcdc%d", lcdc_id);
3130 if (rk_fb->disp_mode != DUAL)
3131 dev_drv = rk_fb->lcdc_dev_drv[0];
3133 dev_drv = rk_get_lcdc_drv(name);
3135 if (dev_drv == NULL) {
3136 printk(KERN_ERR "%s driver not found!", name);
3139 if (screen->type == SCREEN_HDMI)
3140 printk("hdmi %s lcdc%d\n", enable ? "connect to" : "remove from",
3142 else if (screen->type == SCREEN_TVOUT ||
3143 screen->type == SCREEN_TVOUT_TEST )
3144 printk("cvbs %s lcdc%d\n", enable ? "connect to" : "remove from",
3146 if (enable == 2 /*&& dev_drv->enable*/)
3149 if ((rk_fb->disp_mode == ONE_DUAL) ||
3150 (rk_fb->disp_mode == NO_DUAL)) {
3151 if ((dev_drv->ops->backlight_close) &&
3152 (rk_fb->disp_policy != DISPLAY_POLICY_BOX))
3153 dev_drv->ops->backlight_close(dev_drv, 1);
3154 if (dev_drv->ops->dsp_black)
3155 dev_drv->ops->dsp_black(dev_drv, 1);
3156 if ((dev_drv->ops->set_screen_scaler) &&
3157 (rk_fb->disp_mode == ONE_DUAL))
3158 dev_drv->ops->set_screen_scaler(dev_drv,
3159 dev_drv->screen0, 0);
3161 if (dev_drv->uboot_logo && (screen->type != dev_drv->cur_screen->type))
3162 dev_drv->uboot_logo = 0;
3164 /* if screen type is different, we do not disable lcdc. */
3165 if (dev_drv->cur_screen->type != screen->type)
3168 /* if used one lcdc to dual disp, no need to close win */
3169 if ((rk_fb->disp_mode == ONE_DUAL) ||
3170 ((rk_fb->disp_mode == NO_DUAL) &&
3171 (rk_fb->disp_policy != DISPLAY_POLICY_BOX))) {
3172 dev_drv->cur_screen = dev_drv->screen0;
3173 dev_drv->ops->load_screen(dev_drv, 1);
3175 /* force modify dsp size */
3176 info = rk_fb->fb[dev_drv->fb_index_base];
3177 info->var.grayscale &= 0xff;
3178 info->var.grayscale |=
3179 (dev_drv->cur_screen->mode.xres << 8) +
3180 (dev_drv->cur_screen->mode.yres << 20);
3181 mutex_lock(&dev_drv->win_config);
3182 info->fbops->fb_set_par(info);
3183 info->fbops->fb_pan_display(&info->var, info);
3184 mutex_unlock(&dev_drv->win_config);
3186 if (dev_drv->ops->dsp_black)
3187 dev_drv->ops->dsp_black(dev_drv, 0);
3188 if ((dev_drv->ops->backlight_close) &&
3189 (rk_fb->disp_policy != DISPLAY_POLICY_BOX))
3190 dev_drv->ops->backlight_close(dev_drv, 0);
3191 } else if (rk_fb->num_lcdc > 1) {
3192 /* If there is more than one lcdc device, we disable
3193 the layer which attached to this device */
3194 dev_drv->suspend_flag = 1;
3195 flush_kthread_worker(&dev_drv->update_regs_worker);
3196 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
3197 if (dev_drv->win[i] && dev_drv->win[i]->state)
3198 dev_drv->ops->open(dev_drv, i, 0);
3202 hdmi_switch_complete = 0;
3205 if (dev_drv->screen1)
3206 dev_drv->cur_screen = dev_drv->screen1;
3208 memcpy(dev_drv->cur_screen, screen, sizeof(struct rk_screen));
3209 dev_drv->cur_screen->xsize = dev_drv->cur_screen->mode.xres;
3210 dev_drv->cur_screen->ysize = dev_drv->cur_screen->mode.yres;
3211 dev_drv->cur_screen->x_mirror = dev_drv->rotate_mode & X_MIRROR;
3212 dev_drv->cur_screen->y_mirror = dev_drv->rotate_mode & Y_MIRROR;
3214 if ((!dev_drv->uboot_logo) ||
3215 (rk_fb->disp_policy != DISPLAY_POLICY_BOX)) {
3216 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
3217 info = rk_fb->fb[dev_drv->fb_index_base + i];
3218 fb_par = (struct rk_fb_par *)info->par;
3219 win_id = dev_drv->ops->fb_get_win_id(dev_drv, info->fix.id);
3220 if (dev_drv->win[win_id]) {
3221 if (fb_par->state) {
3222 if (!dev_drv->win[win_id]->state) {
3223 dev_drv->ops->open(dev_drv, win_id, 1);
3224 dev_drv->suspend_flag = 0;
3227 dev_drv->ops->load_screen(dev_drv, 1);
3230 info->var.activate |= FB_ACTIVATE_FORCE;
3231 if (rk_fb->disp_mode == ONE_DUAL) {
3232 info->var.grayscale &= 0xff;
3233 info->var.grayscale |=
3234 (dev_drv->cur_screen->xsize << 8) +
3235 (dev_drv->cur_screen->ysize << 20);
3238 mutex_lock(&dev_drv->win_config);
3239 info->fbops->fb_set_par(info);
3240 info->fbops->fb_pan_display(&info->var, info);
3241 mutex_unlock(&dev_drv->win_config);
3246 dev_drv->uboot_logo = 0;
3248 hdmi_switch_complete = 1;
3249 if ((rk_fb->disp_mode == ONE_DUAL) || (rk_fb->disp_mode == NO_DUAL)) {
3250 if ((dev_drv->ops->set_screen_scaler) &&
3251 (rk_fb->disp_mode == ONE_DUAL))
3252 dev_drv->ops->set_screen_scaler(dev_drv, dev_drv->screen0, 1);
3253 if (dev_drv->ops->dsp_black)
3254 dev_drv->ops->dsp_black(dev_drv, 0);
3255 if ((dev_drv->ops->backlight_close) &&
3256 (rk_fb->disp_policy != DISPLAY_POLICY_BOX) &&
3257 (rk_fb->disp_mode == ONE_DUAL))
3258 dev_drv->ops->backlight_close(dev_drv, 0);
3264 * function:this function current only called by hdmi for
3266 * scale_x: scale rate of x resolution
3267 * scale_y: scale rate of y resolution
3268 * lcdc_id: the lcdc id the hdmi attached ,0 or 1
3270 int rk_fb_disp_scale(u8 scale_x, u8 scale_y, u8 lcdc_id)
3272 struct rk_fb *inf = platform_get_drvdata(fb_pdev);
3273 struct fb_info *info = NULL;
3274 struct fb_info *pmy_info = NULL;
3275 struct fb_var_screeninfo *var = NULL;
3276 struct rk_lcdc_driver *dev_drv = NULL;
3277 u16 screen_x, screen_y;
3280 struct rk_screen primary_screen;
3281 rk_fb_get_prmry_screen(&primary_screen);
3282 if (primary_screen.type == SCREEN_HDMI) {
3286 sprintf(name, "lcdc%d", lcdc_id);
3288 if (inf->disp_mode == DUAL) {
3289 dev_drv = rk_get_lcdc_drv(name);
3290 if (dev_drv == NULL) {
3291 printk(KERN_ERR "%s driver not found!", name);
3295 dev_drv = inf->lcdc_dev_drv[0];
3298 if (inf->num_lcdc == 1) {
3300 } else if (inf->num_lcdc == 2) {
3301 info = inf->fb[dev_drv->lcdc_win_num];
3302 pmy_info = inf->fb[0];
3306 screen_x = dev_drv->cur_screen->mode.xres;
3307 screen_y = dev_drv->cur_screen->mode.yres;
3309 if (inf->disp_mode != DUAL && dev_drv->screen1) {
3310 dev_drv->cur_screen->xpos =
3311 (screen_x - screen_x * scale_x / 100) >> 1;
3312 dev_drv->cur_screen->ypos =
3313 (screen_y - screen_y * scale_y / 100) >> 1;
3314 dev_drv->cur_screen->xsize = screen_x * scale_x / 100;
3315 dev_drv->cur_screen->ysize = screen_y * scale_y / 100;
3317 xpos = (screen_x - screen_x * scale_x / 100) >> 1;
3318 ypos = (screen_y - screen_y * scale_y / 100) >> 1;
3319 dev_drv->cur_screen->xsize = screen_x * scale_x / 100;
3320 dev_drv->cur_screen->ysize = screen_y * scale_y / 100;
3321 if (inf->disp_mode == ONE_DUAL) {
3322 var->nonstd &= 0xff;
3323 var->nonstd |= (xpos << 8) + (ypos << 20);
3324 var->grayscale &= 0xff;
3326 (dev_drv->cur_screen->xsize << 8) +
3327 (dev_drv->cur_screen->ysize << 20);
3331 mutex_lock(&dev_drv->win_config);
3332 info->fbops->fb_set_par(info);
3333 dev_drv->ops->cfg_done(dev_drv);
3334 mutex_unlock(&dev_drv->win_config);
3339 #if defined(CONFIG_ION_ROCKCHIP)
3340 static int rk_fb_alloc_buffer_by_ion(struct fb_info *fbi,
3341 struct rk_lcdc_win *win,
3342 unsigned long fb_mem_size)
3344 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3345 struct rk_fb_par *fb_par = (struct rk_fb_par *)fbi->par;
3346 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
3347 struct ion_handle *handle;
3348 ion_phys_addr_t phy_addr;
3352 if (dev_drv->iommu_enabled)
3353 handle = ion_alloc(rk_fb->ion_client, (size_t) fb_mem_size, 0,
3354 ION_HEAP(ION_VMALLOC_HEAP_ID), 0);
3356 handle = ion_alloc(rk_fb->ion_client, (size_t) fb_mem_size, 0,
3357 ION_HEAP(ION_CMA_HEAP_ID), 0);
3358 if (IS_ERR(handle)) {
3359 dev_err(fbi->device, "failed to ion_alloc:%ld\n",
3364 fb_par->ion_hdl = handle;
3365 win->area[0].dma_buf = ion_share_dma_buf(rk_fb->ion_client, handle);
3366 if (IS_ERR_OR_NULL(win->area[0].dma_buf)) {
3367 printk("ion_share_dma_buf() failed\n");
3368 goto err_share_dma_buf;
3370 win->area[0].ion_hdl = handle;
3371 if (dev_drv->prop == PRMRY)
3372 fbi->screen_base = ion_map_kernel(rk_fb->ion_client, handle);
3373 #ifdef CONFIG_ROCKCHIP_IOMMU
3374 if (dev_drv->iommu_enabled && dev_drv->mmu_dev)
3375 ret = ion_map_iommu(dev_drv->dev, rk_fb->ion_client, handle,
3376 (unsigned long *)&phy_addr,
3377 (unsigned long *)&len);
3379 ret = ion_phys(rk_fb->ion_client, handle, &phy_addr, &len);
3381 ret = ion_phys(rk_fb->ion_client, handle, &phy_addr, &len);
3384 dev_err(fbi->dev, "ion map to get phy addr failed\n");
3385 goto err_share_dma_buf;
3387 fbi->fix.smem_start = phy_addr;
3388 fbi->fix.smem_len = len;
3389 printk(KERN_INFO "alloc_buffer:ion_phy_addr=0x%lx\n", phy_addr);
3393 ion_free(rk_fb->ion_client, handle);
3398 static int rk_fb_alloc_buffer(struct fb_info *fbi)
3400 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3401 struct rk_fb_par *fb_par = (struct rk_fb_par *)fbi->par;
3402 struct rk_lcdc_driver *dev_drv = fb_par->lcdc_drv;
3403 struct rk_lcdc_win *win = NULL;
3406 unsigned long fb_mem_size;
3407 #if !defined(CONFIG_ION_ROCKCHIP)
3408 dma_addr_t fb_mem_phys;
3412 win_id = dev_drv->ops->fb_get_win_id(dev_drv, fbi->fix.id);
3416 win = dev_drv->win[win_id];
3418 if (!strcmp(fbi->fix.id, "fb0")) {
3419 fb_mem_size = get_fb_size();
3420 #if defined(CONFIG_ION_ROCKCHIP)
3421 if (rk_fb_alloc_buffer_by_ion(fbi, win, fb_mem_size) < 0)
3424 fb_mem_virt = dma_alloc_writecombine(fbi->dev, fb_mem_size,
3425 &fb_mem_phys, GFP_KERNEL);
3427 pr_err("%s: Failed to allocate framebuffer\n",
3431 fbi->fix.smem_len = fb_mem_size;
3432 fbi->fix.smem_start = fb_mem_phys;
3433 fbi->screen_base = fb_mem_virt;
3435 memset(fbi->screen_base, 0, fbi->fix.smem_len);
3437 fbi->fix.smem_start = rk_fb->fb[0]->fix.smem_start;
3438 fbi->fix.smem_len = rk_fb->fb[0]->fix.smem_len;
3439 fbi->screen_base = rk_fb->fb[0]->screen_base;
3442 fbi->screen_size = fbi->fix.smem_len;
3443 fb_par->fb_phy_base = fbi->fix.smem_start;
3444 fb_par->fb_virt_base = fbi->screen_base;
3445 fb_par->fb_size = fbi->fix.smem_len;
3447 pr_info("%s:phy:%lx>>vir:%p>>len:0x%x\n", fbi->fix.id,
3448 fbi->fix.smem_start, fbi->screen_base,
3454 static int rk_release_fb_buffer(struct fb_info *fbi)
3456 /* buffer for fb1 and fb3 are alloc by android */
3457 if (!strcmp(fbi->fix.id, "fb1") || !strcmp(fbi->fix.id, "fb3"))
3459 iounmap(fbi->screen_base);
3460 release_mem_region(fbi->fix.smem_start, fbi->fix.smem_len);
3465 static int init_lcdc_win(struct rk_lcdc_driver *dev_drv,
3466 struct rk_lcdc_win *def_win)
3469 int lcdc_win_num = dev_drv->lcdc_win_num;
3471 for (i = 0; i < lcdc_win_num; i++) {
3472 struct rk_lcdc_win *win = NULL;
3473 win = kzalloc(sizeof(struct rk_lcdc_win), GFP_KERNEL);
3475 dev_err(dev_drv->dev, "kzmalloc for win fail!");
3479 strcpy(win->name, def_win[i].name);
3480 win->id = def_win[i].id;
3481 win->support_3d = def_win[i].support_3d;
3482 dev_drv->win[i] = win;
3488 static int init_lcdc_device_driver(struct rk_fb *rk_fb,
3489 struct rk_lcdc_win *def_win, int index)
3491 struct rk_lcdc_driver *dev_drv = rk_fb->lcdc_dev_drv[index];
3492 struct rk_screen *screen = devm_kzalloc(dev_drv->dev,
3493 sizeof(struct rk_screen),
3497 dev_err(dev_drv->dev, "malloc screen for lcdc%d fail!",
3502 screen->screen_id = 0;
3503 screen->lcdc_id = dev_drv->id;
3504 screen->overscan.left = 100;
3505 screen->overscan.top = 100;
3506 screen->overscan.right = 100;
3507 screen->overscan.bottom = 100;
3509 screen->x_mirror = dev_drv->rotate_mode & X_MIRROR;
3510 screen->y_mirror = dev_drv->rotate_mode & Y_MIRROR;
3512 dev_drv->screen0 = screen;
3513 dev_drv->cur_screen = screen;
3514 /* devie use one lcdc + rk61x scaler for dual display */
3515 if ((rk_fb->disp_mode == ONE_DUAL) || (rk_fb->disp_mode == NO_DUAL)) {
3516 struct rk_screen *screen1 =
3517 devm_kzalloc(dev_drv->dev,
3518 sizeof(struct rk_screen),
3521 dev_err(dev_drv->dev, "malloc screen1 for lcdc%d fail!",
3525 screen1->screen_id = 1;
3526 screen1->lcdc_id = 1;
3527 dev_drv->screen1 = screen1;
3529 sprintf(dev_drv->name, "lcdc%d", dev_drv->id);
3530 init_lcdc_win(dev_drv, def_win);
3531 init_completion(&dev_drv->frame_done);
3532 spin_lock_init(&dev_drv->cpl_lock);
3533 mutex_init(&dev_drv->fb_win_id_mutex);
3534 mutex_init(&dev_drv->win_config);
3535 mutex_init(&dev_drv->front_lock);
3536 dev_drv->ops->fb_win_remap(dev_drv, dev_drv->fb_win_map);
3537 dev_drv->first_frame = 1;
3538 dev_drv->overscan.left = 100;
3539 dev_drv->overscan.top = 100;
3540 dev_drv->overscan.right = 100;
3541 dev_drv->overscan.bottom = 100;
3542 rk_disp_pwr_ctr_parse_dt(dev_drv);
3543 if (dev_drv->prop == PRMRY) {
3544 rk_fb_set_prmry_screen(screen);
3545 rk_fb_get_prmry_screen(screen);
3547 dev_drv->trsm_ops = rk_fb_trsm_ops_get(screen->type);
3548 if (dev_drv->prop != PRMRY)
3549 rk_fb_get_prmry_screen(screen);
3550 dev_drv->output_color = screen->color_mode;
3555 #ifdef CONFIG_LOGO_LINUX_BMP
3556 static struct linux_logo *bmp_logo;
3557 static int fb_prewine_bmp_logo(struct fb_info *info, int rotate)
3559 bmp_logo = fb_find_logo(24);
3560 if (bmp_logo == NULL) {
3561 printk(KERN_INFO "%s error\n", __func__);
3567 static void fb_show_bmp_logo(struct fb_info *info, int rotate)
3569 unsigned char *src = bmp_logo->data;
3570 unsigned char *dst = info->screen_base;
3572 unsigned int Needwidth = (*(src - 24) << 8) | (*(src - 23));
3573 unsigned int Needheight = (*(src - 22) << 8) | (*(src - 21));
3575 for (i = 0; i < Needheight; i++)
3576 memcpy(dst + info->var.xres * i * 4,
3577 src + bmp_logo->width * i * 4, Needwidth * 4);
3582 * check if the primary lcdc has registerd,
3583 * the primary lcdc mas register first
3585 bool is_prmry_rk_lcdc_registered(void)
3587 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3589 if (rk_fb->lcdc_dev_drv[0])
3595 int rk_fb_register(struct rk_lcdc_driver *dev_drv,
3596 struct rk_lcdc_win *win, int id)
3598 struct rk_fb *rk_fb = platform_get_drvdata(fb_pdev);
3599 struct fb_info *fbi;
3600 struct rk_fb_par *fb_par = NULL;
3601 int i = 0, ret = 0, index = 0;
3603 if (rk_fb->num_lcdc == RK30_MAX_LCDC_SUPPORT)
3606 for (i = 0; i < RK30_MAX_LCDC_SUPPORT; i++) {
3607 if (!rk_fb->lcdc_dev_drv[i]) {
3608 rk_fb->lcdc_dev_drv[i] = dev_drv;
3609 rk_fb->lcdc_dev_drv[i]->id = id;
3616 init_lcdc_device_driver(rk_fb, win, index);
3617 dev_drv->fb_index_base = rk_fb->num_fb;
3618 for (i = 0; i < dev_drv->lcdc_win_num; i++) {
3619 fbi = framebuffer_alloc(0, &fb_pdev->dev);
3621 dev_err(&fb_pdev->dev, "fb framebuffer_alloc fail!");
3624 fb_par = devm_kzalloc(&fb_pdev->dev, sizeof(struct rk_fb_par),
3627 dev_err(&fb_pdev->dev, "malloc fb_par for fb%d fail!",
3631 fb_par->id = rk_fb->num_fb;
3632 fb_par->lcdc_drv = dev_drv;
3633 fbi->par = (void *)fb_par;
3636 sprintf(fbi->fix.id, "fb%d", rk_fb->num_fb);
3637 fb_videomode_to_var(&fbi->var, &dev_drv->cur_screen->mode);
3638 fbi->var.grayscale |=
3639 (fbi->var.xres << 8) + (fbi->var.yres << 20);
3640 #if defined(CONFIG_LOGO_LINUX_BMP)
3641 fbi->var.bits_per_pixel = 32;
3643 fbi->var.bits_per_pixel = 16;
3645 fbi->fix.line_length =
3646 (fbi->var.xres_virtual) * (fbi->var.bits_per_pixel >> 3);
3647 fbi->var.width = dev_drv->cur_screen->width;
3648 fbi->var.height = dev_drv->cur_screen->height;
3649 if (dev_drv->iommu_enabled)
3650 fb_ops.fb_mmap = rk_fb_mmap;
3651 fbi->fbops = &fb_ops;
3652 fbi->flags = FBINFO_FLAG_DEFAULT;
3653 fbi->pseudo_palette = dev_drv->win[i]->pseudo_pal;
3654 ret = register_framebuffer(fbi);
3656 dev_err(&fb_pdev->dev,
3657 "%s fb%d register_framebuffer fail!\n",
3658 __func__, rk_fb->num_fb);
3661 rkfb_create_sysfs(fbi);
3662 rk_fb->fb[rk_fb->num_fb] = fbi;
3663 dev_info(fbi->dev, "rockchip framebuffer registerd:%s\n",
3668 init_waitqueue_head(&dev_drv->vsync_info.wait);
3669 init_waitqueue_head(&dev_drv->update_regs_wait);
3670 ret = device_create_file(fbi->dev, &dev_attr_vsync);
3673 "failed to create vsync file\n");
3674 dev_drv->vsync_info.thread =
3675 kthread_run(rk_fb_wait_for_vsync_thread, dev_drv,
3677 if (dev_drv->vsync_info.thread == ERR_PTR(-ENOMEM)) {
3679 "failed to run vsync thread\n");
3680 dev_drv->vsync_info.thread = NULL;
3682 dev_drv->vsync_info.active = 1;
3684 mutex_init(&dev_drv->output_lock);
3686 INIT_LIST_HEAD(&dev_drv->update_regs_list);
3687 mutex_init(&dev_drv->update_regs_list_lock);
3688 init_kthread_worker(&dev_drv->update_regs_worker);
3690 dev_drv->update_regs_thread =
3691 kthread_run(kthread_worker_fn,
3692 &dev_drv->update_regs_worker, "rk-fb");
3693 if (IS_ERR(dev_drv->update_regs_thread)) {
3694 int err = PTR_ERR(dev_drv->update_regs_thread);
3695 dev_drv->update_regs_thread = NULL;
3697 printk("failed to run update_regs thread\n");
3700 init_kthread_work(&dev_drv->update_regs_work,
3701 rk_fb_update_regs_handler);
3704 sw_sync_timeline_create("fb-timeline");
3705 dev_drv->timeline_max = 1;
3709 /* show logo for primary display device */
3710 #if !defined(CONFIG_FRAMEBUFFER_CONSOLE)
3711 if (dev_drv->prop == PRMRY) {
3715 struct fb_info *main_fbi = rk_fb->fb[0];
3716 main_fbi->fbops->fb_open(main_fbi, 1);
3717 main_fbi->var.pixclock = dev_drv->pixclock;
3718 #if defined(CONFIG_ROCKCHIP_IOMMU)
3719 if (dev_drv->iommu_enabled) {
3720 if (dev_drv->mmu_dev)
3721 rockchip_iovmm_set_fault_handler(dev_drv->dev,
3722 rk_fb_sysmmu_fault_handler);
3726 rk_fb_alloc_buffer(main_fbi); /* only alloc memory for main fb */
3727 dev_drv->uboot_logo = support_uboot_display();
3729 if (dev_drv->uboot_logo &&
3730 uboot_logo_offset && uboot_logo_base) {
3731 int width, height, bits;
3732 phys_addr_t start = uboot_logo_base + uboot_logo_offset;
3733 unsigned int size = uboot_logo_size - uboot_logo_offset;
3734 unsigned int nr_pages;
3735 struct page **pages;
3739 if (dev_drv->ops->get_dspbuf_info)
3740 dev_drv->ops->get_dspbuf_info(dev_drv, &xact,
3741 &yact, &format, &dsp_addr);
3742 nr_pages = size >> PAGE_SHIFT;
3743 pages = kzalloc(sizeof(struct page) * nr_pages,
3745 while (i < nr_pages) {
3746 pages[i] = phys_to_page(start);
3750 vaddr = vmap(pages, nr_pages, VM_MAP,
3751 pgprot_writecombine(PAGE_KERNEL));
3753 pr_err("failed to vmap phy addr 0x%lx\n",
3754 (long)(uboot_logo_base +
3755 uboot_logo_offset));
3759 if(bmpdecoder(vaddr, main_fbi->screen_base, &width,
3767 if (dev_drv->uboot_logo &&
3768 (width != xact || height != yact)) {
3769 pr_err("can't support uboot kernel logo use different size [%dx%d] != [%dx%d]\n",
3770 xact, yact, width, height);
3774 if (dev_drv->ops->post_dspbuf) {
3775 dev_drv->ops->post_dspbuf(dev_drv,
3776 main_fbi->fix.smem_start,
3777 rk_fb_data_fmt(0, bits),
3778 width, height, width * bits >> 5);
3780 if (dev_drv->iommu_enabled) {
3781 rk_fb_poll_wait_frame_complete();
3782 if (dev_drv->ops->mmu_en)
3783 dev_drv->ops->mmu_en(dev_drv);
3788 } else if (dev_drv->uboot_logo && uboot_logo_base) {
3789 u32 start = uboot_logo_base;
3790 u32 start_base = start;
3792 unsigned int nr_pages;
3793 struct page **pages;
3796 dev_drv->ops->get_dspbuf_info(dev_drv, &xact,
3799 logo_len = rk_fb_pixel_width(format) * xact * yact >> 3;
3800 if (logo_len > uboot_logo_size ||
3801 logo_len > main_fbi->fix.smem_len) {
3802 pr_err("logo size > uboot reserve buffer size\n");
3806 nr_pages = uboot_logo_size >> PAGE_SHIFT;
3807 pages = kzalloc(sizeof(struct page) * nr_pages,
3809 while (i < nr_pages) {
3810 pages[i] = phys_to_page(start);
3814 vaddr = vmap(pages, nr_pages, VM_MAP,
3815 pgprot_writecombine(PAGE_KERNEL));
3817 pr_err("failed to vmap phy addr 0x%x\n",
3822 memcpy(main_fbi->screen_base, vaddr, logo_len);
3827 dev_drv->ops->post_dspbuf(dev_drv,
3828 main_fbi->fix.smem_start,
3830 xact * rk_fb_pixel_width(format) >> 5);
3831 if (dev_drv->iommu_enabled) {
3832 rk_fb_poll_wait_frame_complete();
3833 if (dev_drv->ops->mmu_en)
3834 dev_drv->ops->mmu_en(dev_drv);
3839 if (dev_drv->iommu_enabled) {
3840 if (dev_drv->ops->mmu_en)
3841 dev_drv->ops->mmu_en(dev_drv);
3845 #if defined(CONFIG_LOGO)
3846 main_fbi->fbops->fb_set_par(main_fbi);
3847 #if defined(CONFIG_LOGO_LINUX_BMP)
3848 if (fb_prewine_bmp_logo(main_fbi, FB_ROTATE_UR)) {
3849 fb_set_cmap(&main_fbi->cmap, main_fbi);
3850 fb_show_bmp_logo(main_fbi, FB_ROTATE_UR);
3853 if (fb_prepare_logo(main_fbi, FB_ROTATE_UR)) {
3854 fb_set_cmap(&main_fbi->cmap, main_fbi);
3855 fb_show_logo(main_fbi, FB_ROTATE_UR);
3858 main_fbi->fbops->fb_pan_display(&main_fbi->var, main_fbi);
3861 struct fb_info *extend_fbi = rk_fb->fb[rk_fb->num_fb >> 1];
3862 extend_fbi->var.pixclock = rk_fb->fb[0]->var.pixclock;
3863 rk_fb_alloc_buffer(extend_fbi);
3869 int rk_fb_unregister(struct rk_lcdc_driver *dev_drv)
3871 struct rk_fb *fb_inf = platform_get_drvdata(fb_pdev);
3872 struct fb_info *fbi;
3873 int fb_index_base = dev_drv->fb_index_base;
3874 int fb_num = dev_drv->lcdc_win_num;
3877 if (fb_inf->lcdc_dev_drv[i]->vsync_info.thread) {
3878 fb_inf->lcdc_dev_drv[i]->vsync_info.irq_stop = 1;
3879 kthread_stop(fb_inf->lcdc_dev_drv[i]->vsync_info.thread);
3882 for (i = 0; i < fb_num; i++)
3883 kfree(dev_drv->win[i]);
3885 for (i = fb_index_base; i < (fb_index_base + fb_num); i++) {
3886 fbi = fb_inf->fb[i];
3887 unregister_framebuffer(fbi);
3888 /* rk_release_fb_buffer(fbi); */
3889 framebuffer_release(fbi);
3891 fb_inf->lcdc_dev_drv[dev_drv->id] = NULL;
3897 static int rk_fb_probe(struct platform_device *pdev)
3899 struct rk_fb *rk_fb = NULL;
3900 struct device_node *np = pdev->dev.of_node;
3904 dev_err(&pdev->dev, "Missing device tree node.\n");
3908 rk_fb = devm_kzalloc(&pdev->dev, sizeof(struct rk_fb), GFP_KERNEL);
3910 dev_err(&pdev->dev, "kmalloc for rk fb fail!");
3913 platform_set_drvdata(pdev, rk_fb);
3915 if (!of_property_read_u32(np, "rockchip,disp-mode", &mode)) {
3916 rk_fb->disp_mode = mode;
3919 dev_err(&pdev->dev, "no disp-mode node found!");
3923 if (!of_property_read_u32(np, "rockchip,disp-policy", &mode)) {
3924 rk_fb->disp_policy = mode;
3925 pr_info("fb disp policy is %s\n", rk_fb->disp_policy ? "box":"sdk");
3928 if (!of_property_read_u32(np, "rockchip,uboot-logo-on", &uboot_logo_on))
3929 printk(KERN_DEBUG "uboot-logo-on:%d\n", uboot_logo_on);
3931 dev_set_name(&pdev->dev, "rockchip-fb");
3932 #if defined(CONFIG_ION_ROCKCHIP)
3933 rk_fb->ion_client = rockchip_ion_client_create("rk_fb");
3934 if (IS_ERR(rk_fb->ion_client)) {
3935 dev_err(&pdev->dev, "failed to create ion client for rk fb");
3936 return PTR_ERR(rk_fb->ion_client);
3938 dev_info(&pdev->dev, "rk fb ion client create success!\n");
3943 dev_info(&pdev->dev, "rockchip framebuffer driver probe\n");
3947 static int rk_fb_remove(struct platform_device *pdev)
3949 struct rk_fb *rk_fb = platform_get_drvdata(pdev);
3952 platform_set_drvdata(pdev, NULL);
3956 static void rk_fb_shutdown(struct platform_device *pdev)
3958 struct rk_fb *rk_fb = platform_get_drvdata(pdev);
3961 for (i = 0; i < rk_fb->num_lcdc; i++) {
3962 if (!rk_fb->lcdc_dev_drv[i])
3967 static const struct of_device_id rkfb_dt_ids[] = {
3968 {.compatible = "rockchip,rk-fb",},
3972 static struct platform_driver rk_fb_driver = {
3973 .probe = rk_fb_probe,
3974 .remove = rk_fb_remove,
3977 .owner = THIS_MODULE,
3978 .of_match_table = of_match_ptr(rkfb_dt_ids),
3980 .shutdown = rk_fb_shutdown,
3983 static int __init rk_fb_init(void)
3985 return platform_driver_register(&rk_fb_driver);
3988 static void __exit rk_fb_exit(void)
3990 platform_driver_unregister(&rk_fb_driver);
3993 fs_initcall(rk_fb_init);
3994 module_exit(rk_fb_exit);
projects / firefly-linux-kernel-4.4.55.git / blob