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gerrit-public.fairphone.software / kernel / msm-4.9 / 3c302a7c95737ef93e22f93b85b3497254f13d47 / . / drivers / video / fbdev / msm / mdp3_ppp.c
blob: 48863205829e964a4fe11350e4c5899f311f1fc7 [file] [log] [blame]
/* Copyright (c) 2007, 2013-2014, 2016-2018, The Linux Foundation. All rights reserved.
* Copyright (C) 2007 Google Incorporated
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/file.h>
#include <linux/io.h>
#include <linux/kernel.h>
#include <linux/major.h>
#include <linux/slab.h>
#include <linux/types.h>
#include <linux/uaccess.h>
#include <linux/sched.h>
#include <linux/mutex.h>
#include "linux/proc_fs.h"
#include <linux/delay.h>
#include <linux/fence.h>
#include "mdss_fb.h"
#include "mdp3_ppp.h"
#include "mdp3_hwio.h"
#include "mdp3.h"
#include "mdss_debug.h"
#include "mdss_sync.h"
#define MDP_IS_IMGTYPE_BAD(x) ((x) >= MDP_IMGTYPE_LIMIT)
#define MDP_RELEASE_BW_TIMEOUT 50
#define MDP_PPP_MAX_BPP 4
#define MDP_PPP_DYNAMIC_FACTOR 3
#define MDP_PPP_MAX_READ_WRITE 3
#define MDP_PPP_MAX_WIDTH 0xFFF
#define ENABLE_SOLID_FILL 0x2
#define DISABLE_SOLID_FILL 0x0
#define BLEND_LATENCY 3
#define CSC_LATENCY 1
#define YUV_BW_FUDGE_NUM 10
#define YUV_BW_FUDGE_DEN 10
struct ppp_resource ppp_res;
static const bool valid_fmt[MDP_IMGTYPE_LIMIT] = {
[MDP_RGB_565] = true,
[MDP_BGR_565] = true,
[MDP_RGB_888] = true,
[MDP_BGR_888] = true,
[MDP_BGRA_8888] = true,
[MDP_RGBA_8888] = true,
[MDP_ARGB_8888] = true,
[MDP_XRGB_8888] = true,
[MDP_RGBX_8888] = true,
[MDP_Y_CRCB_H2V2] = true,
[MDP_Y_CBCR_H2V2] = true,
[MDP_Y_CBCR_H2V2_ADRENO] = true,
[MDP_Y_CBCR_H2V2_VENUS] = true,
[MDP_YCRYCB_H2V1] = true,
[MDP_Y_CBCR_H2V1] = true,
[MDP_Y_CRCB_H2V1] = true,
[MDP_BGRX_8888] = true,
};
#define MAX_LIST_WINDOW 16
#define MDP3_PPP_MAX_LIST_REQ 8
struct blit_req_list {
int count;
struct mdp_blit_req req_list[MAX_LIST_WINDOW];
struct mdp3_img_data src_data[MAX_LIST_WINDOW];
struct mdp3_img_data dst_data[MAX_LIST_WINDOW];
struct mdss_fence *acq_fen[MDP_MAX_FENCE_FD];
u32 acq_fen_cnt;
int cur_rel_fen_fd;
struct sync_pt *cur_rel_sync_pt;
struct mdss_fence *cur_rel_fence;
struct mdss_fence *last_rel_fence;
};
struct blit_req_queue {
struct blit_req_list req[MDP3_PPP_MAX_LIST_REQ];
int count;
int push_idx;
int pop_idx;
};
struct ppp_status {
bool wait_for_pop;
struct completion ppp_comp;
struct completion pop_q_comp;
struct mutex req_mutex; /* Protect request queue */
struct mutex config_ppp_mutex; /* Only one client configure register */
struct msm_fb_data_type *mfd;
struct kthread_work blit_work;
struct kthread_worker kworker;
struct task_struct *blit_thread;
struct blit_req_queue req_q;
struct mdss_timeline *timeline;
int timeline_value;
struct timer_list free_bw_timer;
struct work_struct free_bw_work;
bool bw_update;
bool bw_on;
u32 mdp_clk;
};
static struct ppp_status *ppp_stat;
static bool is_blit_optimization_possible(struct blit_req_list *req, int indx);
static inline u64 fudge_factor(u64 val, u32 numer, u32 denom)
{
u64 result = (val * (u64)numer);
do_div(result, denom);
return result;
}
int ppp_get_bpp(uint32_t format, uint32_t fb_format)
{
int bpp = -EINVAL;
if (format == MDP_FB_FORMAT)
format = fb_format;
bpp = ppp_bpp(format);
if (bpp <= 0)
pr_err("%s incorrect format %d\n", __func__, format);
return bpp;
}
int mdp3_ppp_get_img(struct mdp_img *img, struct mdp_blit_req *req,
struct mdp3_img_data *data)
{
struct msmfb_data fb_data;
uint32_t stride;
int bpp = ppp_bpp(img->format);
if (bpp <= 0) {
pr_err("%s incorrect format %d\n", __func__, img->format);
return -EINVAL;
}
if (img->width > MDP_PPP_MAX_WIDTH) {
pr_err("%s incorrect width %d\n", __func__, img->width);
return -EINVAL;
}
fb_data.flags = img->priv;
fb_data.memory_id = img->memory_id;
fb_data.offset = 0;
stride = img->width * bpp;
data->padding = 16 * stride;
return mdp3_get_img(&fb_data, data, MDP3_CLIENT_PPP);
}
/* Check format */
int mdp3_ppp_verify_fmt(struct mdp_blit_req *req)
{
if (MDP_IS_IMGTYPE_BAD(req->src.format) ||
MDP_IS_IMGTYPE_BAD(req->dst.format)) {
pr_err("%s: Color format out of range\n", __func__);
return -EINVAL;
}
if (!valid_fmt[req->src.format] ||
!valid_fmt[req->dst.format]) {
pr_err("%s: Color format not supported\n", __func__);
return -EINVAL;
}
return 0;
}
/* Check resolution */
int mdp3_ppp_verify_res(struct mdp_blit_req *req)
{
if ((req->src.width == 0) || (req->src.height == 0) ||
(req->src_rect.w == 0) || (req->src_rect.h == 0) ||
(req->dst.width == 0) || (req->dst.height == 0) ||
(req->dst_rect.w == 0) || (req->dst_rect.h == 0)) {
pr_err("%s: Height/width can't be 0\n", __func__);
return -EINVAL;
}
if (((req->src_rect.x + req->src_rect.w) > req->src.width) ||
((req->src_rect.y + req->src_rect.h) > req->src.height)) {
pr_err("%s: src roi (x=%d,y=%d,w=%d, h=%d) WxH(%dx%d)\n",
__func__, req->src_rect.x, req->src_rect.y,
req->src_rect.w, req->src_rect.h, req->src.width,
req->src.height);
pr_err("%s: src roi larger than boundary\n", __func__);
return -EINVAL;
}
if (((req->dst_rect.x + req->dst_rect.w) > req->dst.width) ||
((req->dst_rect.y + req->dst_rect.h) > req->dst.height)) {
pr_err("%s: dst roi (x=%d,y=%d,w=%d, h=%d) WxH(%dx%d)\n",
__func__, req->dst_rect.x, req->dst_rect.y,
req->dst_rect.w, req->dst_rect.h, req->dst.width,
req->dst.height);
pr_err("%s: dst roi larger than boundary\n", __func__);
return -EINVAL;
}
return 0;
}
/* scaling range check */
int mdp3_ppp_verify_scale(struct mdp_blit_req *req)
{
u32 src_width, src_height, dst_width, dst_height;
src_width = req->src_rect.w;
src_height = req->src_rect.h;
if (req->flags & MDP_ROT_90) {
dst_width = req->dst_rect.h;
dst_height = req->dst_rect.w;
} else {
dst_width = req->dst_rect.w;
dst_height = req->dst_rect.h;
}
switch (req->dst.format) {
case MDP_Y_CRCB_H2V2:
case MDP_Y_CBCR_H2V2:
src_width = (src_width / 2) * 2;
src_height = (src_height / 2) * 2;
dst_width = (dst_width / 2) * 2;
dst_height = (dst_height / 2) * 2;
break;
case MDP_Y_CRCB_H2V1:
case MDP_Y_CBCR_H2V1:
case MDP_YCRYCB_H2V1:
src_width = (src_width / 2) * 2;
dst_width = (dst_width / 2) * 2;
break;
default:
break;
}
if (((MDP_SCALE_Q_FACTOR * dst_width) / src_width >
MDP_MAX_X_SCALE_FACTOR)
|| ((MDP_SCALE_Q_FACTOR * dst_width) / src_width <
MDP_MIN_X_SCALE_FACTOR)) {
pr_err("%s: x req scale factor beyond capability\n", __func__);
return -EINVAL;
}
if (((MDP_SCALE_Q_FACTOR * dst_height) / src_height >
MDP_MAX_Y_SCALE_FACTOR)
|| ((MDP_SCALE_Q_FACTOR * dst_height) / src_height <
MDP_MIN_Y_SCALE_FACTOR)) {
pr_err("%s: y req scale factor beyond capability\n", __func__);
return -EINVAL;
}
return 0;
}
/* operation check */
int mdp3_ppp_verify_op(struct mdp_blit_req *req)
{
/*
* MDP_DEINTERLACE & MDP_SHARPENING Flags are not valid for MDP3
* so using them together for MDP_SMART_BLIT.
*/
if ((req->flags & MDP_SMART_BLIT) == MDP_SMART_BLIT)
return 0;
if (req->flags & MDP_DEINTERLACE) {
pr_err("\n%s(): deinterlace not supported", __func__);
return -EINVAL;
}
if (req->flags & MDP_SHARPENING) {
pr_err("\n%s(): sharpening not supported", __func__);
return -EINVAL;
}
return 0;
}
int mdp3_ppp_verify_req(struct mdp_blit_req *req)
{
int rc;
if (req == NULL) {
pr_err("%s: req == null\n", __func__);
return -EINVAL;
}
rc = mdp3_ppp_verify_fmt(req);
rc |= mdp3_ppp_verify_res(req);
rc |= mdp3_ppp_verify_scale(req);
rc |= mdp3_ppp_verify_op(req);
return rc;
}
int mdp3_ppp_pipe_wait(void)
{
int ret = 1;
/*
* wait 200 ms for ppp operation to complete before declaring
* the MDP hung
*/
ret = wait_for_completion_timeout(
&ppp_stat->ppp_comp, msecs_to_jiffies(200));
if (!ret) {
pr_err("%s: Timed out waiting for the MDP.\n",
__func__);
MDSS_XLOG_TOUT_HANDLER("mdp", "vbif",
"dsi0_ctrl", "dsi0_phy");
}
return ret;
}
uint32_t mdp3_calc_tpval(struct ppp_img_desc *img, uint32_t old_tp)
{
uint32_t tpVal;
uint8_t plane_tp;
tpVal = 0;
if ((img->color_fmt == MDP_RGB_565)
|| (img->color_fmt == MDP_BGR_565)) {
/* transparent color conversion into 24 bpp */
plane_tp = (uint8_t) ((old_tp & 0xF800) >> 11);
tpVal |= ((plane_tp << 3) | ((plane_tp & 0x1C) >> 2)) << 16;
plane_tp = (uint8_t) (old_tp & 0x1F);
tpVal |= ((plane_tp << 3) | ((plane_tp & 0x1C) >> 2)) << 8;
plane_tp = (uint8_t) ((old_tp & 0x7E0) >> 5);
tpVal |= ((plane_tp << 2) | ((plane_tp & 0x30) >> 4));
} else {
/* 24bit RGB to RBG conversion */
tpVal = (old_tp & 0xFF00) >> 8;
tpVal |= (old_tp & 0xFF) << 8;
tpVal |= (old_tp & 0xFF0000);
}
return tpVal;
}
static void mdp3_ppp_intr_handler(int type, void *arg)
{
complete(&ppp_stat->ppp_comp);
}
static int mdp3_ppp_callback_setup(void)
{
int rc;
struct mdp3_intr_cb ppp_done_cb = {
.cb = mdp3_ppp_intr_handler,
.data = NULL,
};
rc = mdp3_set_intr_callback(MDP3_PPP_DONE, &ppp_done_cb);
return rc;
}
void mdp3_ppp_kickoff(void)
{
init_completion(&ppp_stat->ppp_comp);
mdp3_irq_enable(MDP3_PPP_DONE);
ppp_enable();
ATRACE_BEGIN("mdp3_wait_for_ppp_comp");
mdp3_ppp_pipe_wait();
ATRACE_END("mdp3_wait_for_ppp_comp");
mdp3_irq_disable(MDP3_PPP_DONE);
}
struct bpp_info {
int bpp_num;
int bpp_den;
int bpp_pln;
};
int mdp3_get_bpp_info(int format, struct bpp_info *bpp)
{
int rc = 0;
switch (format) {
case MDP_RGB_565:
case MDP_BGR_565:
bpp->bpp_num = 2;
bpp->bpp_den = 1;
bpp->bpp_pln = 2;
break;
case MDP_RGB_888:
case MDP_BGR_888:
bpp->bpp_num = 3;
bpp->bpp_den = 1;
bpp->bpp_pln = 3;
break;
case MDP_BGRA_8888:
case MDP_RGBA_8888:
case MDP_ARGB_8888:
case MDP_XRGB_8888:
case MDP_RGBX_8888:
case MDP_BGRX_8888:
bpp->bpp_num = 4;
bpp->bpp_den = 1;
bpp->bpp_pln = 4;
break;
case MDP_Y_CRCB_H2V2:
case MDP_Y_CBCR_H2V2:
case MDP_Y_CBCR_H2V2_ADRENO:
case MDP_Y_CBCR_H2V2_VENUS:
bpp->bpp_num = 3;
bpp->bpp_den = 2;
bpp->bpp_pln = 1;
break;
case MDP_Y_CBCR_H2V1:
case MDP_Y_CRCB_H2V1:
bpp->bpp_num = 2;
bpp->bpp_den = 1;
bpp->bpp_pln = 1;
break;
case MDP_YCRYCB_H2V1:
bpp->bpp_num = 2;
bpp->bpp_den = 1;
bpp->bpp_pln = 2;
break;
default:
rc = -EINVAL;
}
return rc;
}
bool mdp3_is_blend(struct mdp_blit_req *req)
{
if ((req->transp_mask != MDP_TRANSP_NOP) ||
(req->alpha < MDP_ALPHA_NOP) ||
(req->src.format == MDP_ARGB_8888) ||
(req->src.format == MDP_BGRA_8888) ||
(req->src.format == MDP_RGBA_8888))
return true;
return false;
}
bool mdp3_is_scale(struct mdp_blit_req *req)
{
if (req->flags & MDP_ROT_90) {
if (req->src_rect.w != req->dst_rect.h ||
req->src_rect.h != req->dst_rect.w)
return true;
} else {
if (req->src_rect.h != req->dst_rect.h ||
req->src_rect.w != req->dst_rect.w)
return true;
}
return false;
}
u32 mdp3_clk_calc(struct msm_fb_data_type *mfd,
struct blit_req_list *lreq, u32 fps)
{
int i, lcount = 0;
struct mdp_blit_req *req;
u64 mdp_clk_rate = 0;
u32 scale_x = 0, scale_y = 0, scale = 0;
u32 blend_l, csc_l;
lcount = lreq->count;
blend_l = 100 * BLEND_LATENCY;
csc_l = 100 * CSC_LATENCY;
for (i = 0; i < lcount; i++) {
req = &(lreq->req_list[i]);
if (req->flags & MDP_SMART_BLIT)
continue;
if (mdp3_is_scale(req)) {
if (req->flags & MDP_ROT_90) {
scale_x = 100 * req->src_rect.h /
req->dst_rect.w;
scale_y = 100 * req->src_rect.w /
req->dst_rect.h;
} else {
scale_x = 100 * req->src_rect.w /
req->dst_rect.w;
scale_y = 100 * req->src_rect.h /
req->dst_rect.h;
}
scale = max(scale_x, scale_y);
}
scale = scale >= 100 ? scale : 100;
if (mdp3_is_blend(req))
scale = max(scale, blend_l);
if (!check_if_rgb(req->src.format))
scale = max(scale, csc_l);
mdp_clk_rate += (req->src_rect.w * req->src_rect.h *
scale / 100) * fps;
}
mdp_clk_rate += (ppp_res.solid_fill_pixel * fps);
mdp_clk_rate = fudge_factor(mdp_clk_rate,
CLK_FUDGE_NUM, CLK_FUDGE_DEN);
pr_debug("mdp_clk_rate for ppp = %llu\n", mdp_clk_rate);
mdp_clk_rate = mdp3_clk_round_off(mdp_clk_rate);
return mdp_clk_rate;
}
u64 mdp3_adjust_scale_factor(struct mdp_blit_req *req, u32 bw_req, int bpp)
{
int src_h, src_w;
int dst_h, dst_w;
src_h = req->src_rect.h;
src_w = req->src_rect.w;
dst_h = req->dst_rect.h;
dst_w = req->dst_rect.w;
if ((!(req->flags & MDP_ROT_90) && src_h == dst_h &&
src_w == dst_w) || ((req->flags & MDP_ROT_90) &&
src_h == dst_w && src_w == dst_h))
return bw_req;
bw_req = (bw_req + (bw_req * dst_h) / (4 * src_h));
bw_req = (bw_req + (bw_req * dst_w) / (4 * src_w) +
(bw_req * dst_w) / (bpp * src_w));
return bw_req;
}
int mdp3_calc_ppp_res(struct msm_fb_data_type *mfd,
struct blit_req_list *lreq)
{
struct mdss_panel_info *panel_info = mfd->panel_info;
int i, lcount = 0;
int frame_rate = DEFAULT_FRAME_RATE;
struct mdp_blit_req *req;
struct bpp_info bpp;
u64 old_solid_fill_pixel = 0;
u64 new_solid_fill_pixel = 0;
u64 src_read_bw = 0;
u32 bg_read_bw = 0;
u32 dst_write_bw = 0;
u64 honest_ppp_ab = 0;
u32 fps = 0;
int smart_blit_fg_indx = -1;
u32 smart_blit_bg_read_bw = 0;
ATRACE_BEGIN(__func__);
lcount = lreq->count;
frame_rate = mdss_panel_get_framerate(panel_info, FPS_RESOLUTION_HZ);
if (lcount == 0) {
pr_err("Blit with request count 0, continue to recover!!!\n");
ATRACE_END(__func__);
return 0;
}
if (lreq->req_list[0].flags & MDP_SOLID_FILL) {
req = &(lreq->req_list[0]);
mdp3_get_bpp_info(req->dst.format, &bpp);
old_solid_fill_pixel = ppp_res.solid_fill_pixel;
new_solid_fill_pixel = req->dst_rect.w * req->dst_rect.h;
ppp_res.solid_fill_pixel += new_solid_fill_pixel;
ppp_res.solid_fill_byte += req->dst_rect.w * req->dst_rect.h *
bpp.bpp_num / bpp.bpp_den;
if ((old_solid_fill_pixel >= new_solid_fill_pixel) ||
(mdp3_res->solid_fill_vote_en)) {
pr_debug("Last fill pixels are higher or fill_en %d\n",
mdp3_res->solid_fill_vote_en);
ATRACE_END(__func__);
return 0;
}
}
for (i = 0; i < lcount; i++) {
/* Set Smart blit flag before BW calculation */
is_blit_optimization_possible(lreq, i);
req = &(lreq->req_list[i]);
if (req->fps > 0 && req->fps <= frame_rate) {
if (fps == 0)
fps = req->fps;
else
fps = frame_rate;
}
mdp3_get_bpp_info(req->src.format, &bpp);
if (lreq->req_list[i].flags & MDP_SMART_BLIT) {
/*
* Flag for smart blit FG layer index
* If blit request at index "n" has
* MDP_SMART_BLIT flag set then it will be used as BG
* layer in smart blit and request at index "n+1"
* will be used as FG layer
*/
smart_blit_fg_indx = i + 1;
bg_read_bw = req->src_rect.w * req->src_rect.h *
bpp.bpp_num / bpp.bpp_den;
bg_read_bw = mdp3_adjust_scale_factor(req,
bg_read_bw, bpp.bpp_pln);
/* Cache read BW of smart blit BG layer */
smart_blit_bg_read_bw = bg_read_bw;
} else {
src_read_bw = req->src_rect.w * req->src_rect.h *
bpp.bpp_num / bpp.bpp_den;
src_read_bw = mdp3_adjust_scale_factor(req,
src_read_bw, bpp.bpp_pln);
if (!(check_if_rgb(req->src.format))) {
src_read_bw = fudge_factor(src_read_bw,
YUV_BW_FUDGE_NUM,
YUV_BW_FUDGE_DEN);
}
mdp3_get_bpp_info(req->dst.format, &bpp);
if (smart_blit_fg_indx == i) {
bg_read_bw = smart_blit_bg_read_bw;
smart_blit_fg_indx = -1;
} else {
if ((req->transp_mask != MDP_TRANSP_NOP) ||
(req->alpha < MDP_ALPHA_NOP) ||
(req->src.format == MDP_ARGB_8888) ||
(req->src.format == MDP_BGRA_8888) ||
(req->src.format == MDP_RGBA_8888)) {
bg_read_bw = req->dst_rect.w *
req->dst_rect.h *
bpp.bpp_num / bpp.bpp_den;
bg_read_bw = mdp3_adjust_scale_factor(
req, bg_read_bw,
bpp.bpp_pln);
} else {
bg_read_bw = 0;
}
}
dst_write_bw = req->dst_rect.w * req->dst_rect.h *
bpp.bpp_num / bpp.bpp_den;
honest_ppp_ab += (src_read_bw + bg_read_bw +
dst_write_bw);
}
}
if (fps == 0)
fps = frame_rate;
if (lreq->req_list[0].flags & MDP_SOLID_FILL) {
honest_ppp_ab = ppp_res.solid_fill_byte * 4;
pr_debug("solid fill honest_ppp_ab %llu\n", honest_ppp_ab);
} else {
honest_ppp_ab += ppp_res.solid_fill_byte;
mdp3_res->solid_fill_vote_en = true;
}
honest_ppp_ab = honest_ppp_ab * fps;
if (honest_ppp_ab != ppp_res.next_ab) {
ppp_res.next_ab = honest_ppp_ab;
ppp_res.next_ib = honest_ppp_ab;
ppp_stat->bw_update = true;
pr_debug("solid fill ab = %llx, total ab = %llx ",
(ppp_res.solid_fill_byte * fps), honest_ppp_ab);
pr_debug("(%d fps) Solid_fill_vote %d\n",
fps, mdp3_res->solid_fill_vote_en);
ATRACE_INT("mdp3_ppp_bus_quota", honest_ppp_ab);
}
ppp_res.clk_rate = mdp3_clk_calc(mfd, lreq, fps);
ATRACE_INT("mdp3_ppp_clk_rate", ppp_res.clk_rate);
ATRACE_END(__func__);
return 0;
}
int mdp3_ppp_turnon(struct msm_fb_data_type *mfd, int on_off)
{
uint64_t ab = 0, ib = 0;
int rate = 0;
int rc;
if (on_off) {
rate = ppp_res.clk_rate;
ab = ppp_res.next_ab;
ib = ppp_res.next_ib;
}
mdp3_clk_set_rate(MDP3_CLK_MDP_SRC, rate, MDP3_CLIENT_PPP);
rc = mdp3_res_update(on_off, 0, MDP3_CLIENT_PPP);
if (rc < 0) {
pr_err("%s: mdp3_clk_enable failed\n", __func__);
return rc;
}
rc = mdp3_bus_scale_set_quota(MDP3_CLIENT_PPP, ab, ib);
if (rc < 0) {
mdp3_res_update(!on_off, 0, MDP3_CLIENT_PPP);
pr_err("%s: scale_set_quota failed\n", __func__);
return rc;
}
ppp_stat->bw_on = on_off;
ppp_stat->mdp_clk = MDP_CORE_CLK_RATE_SVS;
ppp_stat->bw_update = false;
return 0;
}
void mdp3_start_ppp(struct ppp_blit_op *blit_op)
{
/* Wait for the pipe to clear */
if (MDP3_REG_READ(MDP3_REG_DISPLAY_STATUS) &
MDP3_PPP_ACTIVE) {
pr_err("ppp core is hung up on previous request\n");
return;
}
config_ppp_op_mode(blit_op);
if (blit_op->solid_fill) {
MDP3_REG_WRITE(0x10138, 0x10000000);
MDP3_REG_WRITE(0x1014c, 0xffffffff);
MDP3_REG_WRITE(0x101b8, 0);
MDP3_REG_WRITE(0x101bc, 0);
MDP3_REG_WRITE(0x1013c, 0);
MDP3_REG_WRITE(0x10140, 0);
MDP3_REG_WRITE(0x10144, 0);
MDP3_REG_WRITE(0x10148, 0);
MDP3_REG_WRITE(MDP3_TFETCH_FILL_COLOR,
blit_op->solid_fill_color);
MDP3_REG_WRITE(MDP3_TFETCH_SOLID_FILL,
ENABLE_SOLID_FILL);
} else {
MDP3_REG_WRITE(MDP3_TFETCH_SOLID_FILL,
DISABLE_SOLID_FILL);
}
/* Skip PPP kickoff for SMART_BLIT BG layer */
if (blit_op->mdp_op & MDPOP_SMART_BLIT)
pr_debug("Skip mdp3_ppp_kickoff\n");
else
mdp3_ppp_kickoff();
if (!(blit_op->solid_fill)) {
ppp_res.solid_fill_pixel = 0;
ppp_res.solid_fill_byte = 0;
}
}
static int solid_fill_workaround(struct mdp_blit_req *req,
struct ppp_blit_op *blit_op)
{
/* Make width 2 when there is a solid fill of width 1, and make
* sure width does not become zero while trying to avoid odd width
*/
if (blit_op->dst.roi.width == 1) {
if (req->dst_rect.x + 2 > req->dst.width) {
pr_err("%s: Unable to handle solid fill of width 1",
__func__);
return -EINVAL;
}
blit_op->dst.roi.width = 2;
}
if (blit_op->src.roi.width == 1) {
if (req->src_rect.x + 2 > req->src.width) {
pr_err("%s: Unable to handle solid fill of width 1",
__func__);
return -EINVAL;
}
blit_op->src.roi.width = 2;
}
/* Avoid odd width, as it could hang ppp during solid fill */
blit_op->dst.roi.width = (blit_op->dst.roi.width / 2) * 2;
blit_op->src.roi.width = (blit_op->src.roi.width / 2) * 2;
/* Set src format to RGBX, to avoid ppp hang issues */
blit_op->src.color_fmt = MDP_RGBX_8888;
/* Avoid RGBA format, as it could hang ppp during solid fill */
if (blit_op->dst.color_fmt == MDP_RGBA_8888)
blit_op->dst.color_fmt = MDP_RGBX_8888;
return 0;
}
static int mdp3_ppp_process_req(struct ppp_blit_op *blit_op,
struct mdp_blit_req *req, struct mdp3_img_data *src_data,
struct mdp3_img_data *dst_data)
{
unsigned long srcp0_start, srcp0_len, dst_start, dst_len;
uint32_t dst_width, dst_height;
int ret = 0;
srcp0_start = (unsigned long) src_data->addr;
srcp0_len = (unsigned long) src_data->len;
dst_start = (unsigned long) dst_data->addr;
dst_len = (unsigned long) dst_data->len;
blit_op->dst.prop.width = req->dst.width;
blit_op->dst.prop.height = req->dst.height;
blit_op->dst.color_fmt = req->dst.format;
blit_op->dst.p0 = (void *) dst_start;
blit_op->dst.p0 += req->dst.offset;
blit_op->dst.roi.x = req->dst_rect.x;
blit_op->dst.roi.y = req->dst_rect.y;
blit_op->dst.roi.width = req->dst_rect.w;
blit_op->dst.roi.height = req->dst_rect.h;
blit_op->src.roi.x = req->src_rect.x;
blit_op->src.roi.y = req->src_rect.y;
blit_op->src.roi.width = req->src_rect.w;
blit_op->src.roi.height = req->src_rect.h;
blit_op->src.prop.width = req->src.width;
blit_op->src.prop.height = req->src.height;
blit_op->src.color_fmt = req->src.format;
blit_op->src.p0 = (void *) (srcp0_start + req->src.offset);
if (blit_op->src.color_fmt == MDP_Y_CBCR_H2V2_ADRENO)
blit_op->src.p1 =
(void *) ((uint32_t) blit_op->src.p0 +
ALIGN((ALIGN(req->src.width, 32) *
ALIGN(req->src.height, 32)), 4096));
else if (blit_op->src.color_fmt == MDP_Y_CBCR_H2V2_VENUS)
blit_op->src.p1 =
(void *) ((uint32_t) blit_op->src.p0 +
ALIGN((ALIGN(req->src.width, 128) *
ALIGN(req->src.height, 32)), 4096));
else
blit_op->src.p1 = (void *) ((uint32_t) blit_op->src.p0 +
req->src.width * req->src.height);
if (req->flags & MDP_IS_FG)
blit_op->mdp_op |= MDPOP_LAYER_IS_FG;
/* blending check */
if (req->transp_mask != MDP_TRANSP_NOP) {
blit_op->mdp_op |= MDPOP_TRANSP;
blit_op->blend.trans_color =
mdp3_calc_tpval(&blit_op->src, req->transp_mask);
} else {
blit_op->blend.trans_color = 0;
}
req->alpha &= 0xff;
if (req->alpha < MDP_ALPHA_NOP) {
blit_op->mdp_op |= MDPOP_ALPHAB;
blit_op->blend.const_alpha = req->alpha;
} else {
blit_op->blend.const_alpha = 0xff;
}
/* rotation check */
if (req->flags & MDP_FLIP_LR)
blit_op->mdp_op |= MDPOP_LR;
if (req->flags & MDP_FLIP_UD)
blit_op->mdp_op |= MDPOP_UD;
if (req->flags & MDP_ROT_90)
blit_op->mdp_op |= MDPOP_ROT90;
if (req->flags & MDP_DITHER)
blit_op->mdp_op |= MDPOP_DITHER;
if (req->flags & MDP_BLEND_FG_PREMULT)
blit_op->mdp_op |= MDPOP_FG_PM_ALPHA;
/* scale check */
if (req->flags & MDP_ROT_90) {
dst_width = req->dst_rect.h;
dst_height = req->dst_rect.w;
} else {
dst_width = req->dst_rect.w;
dst_height = req->dst_rect.h;
}
if ((blit_op->src.roi.width != dst_width) ||
(blit_op->src.roi.height != dst_height))
blit_op->mdp_op |= MDPOP_ASCALE;
if (req->flags & MDP_BLUR)
blit_op->mdp_op |= MDPOP_ASCALE | MDPOP_BLUR;
if (req->flags & MDP_SOLID_FILL) {
ret = solid_fill_workaround(req, blit_op);
if (ret)
return ret;
blit_op->solid_fill_color = (req->const_color.g & 0xFF)|
(req->const_color.r & 0xFF) << 8 |
(req->const_color.b & 0xFF) << 16 |
(req->const_color.alpha & 0xFF) << 24;
blit_op->solid_fill = true;
} else {
blit_op->solid_fill = false;
}
if (req->flags & MDP_SMART_BLIT)
blit_op->mdp_op |= MDPOP_SMART_BLIT;
return ret;
}
static void mdp3_ppp_tile_workaround(struct ppp_blit_op *blit_op,
struct mdp_blit_req *req)
{
int dst_h, src_w, i;
uint32_t mdp_op = blit_op->mdp_op;
void *src_p0 = blit_op->src.p0;
void *src_p1 = blit_op->src.p1;
void *dst_p0 = blit_op->dst.p0;
src_w = req->src_rect.w;
dst_h = blit_op->dst.roi.height;
/* bg tile fetching HW workaround */
for (i = 0; i < (req->dst_rect.h / 16); i++) {
/* this tile size */
blit_op->dst.roi.height = 16;
blit_op->src.roi.width =
(16 * req->src_rect.w) / req->dst_rect.h;
/* if it's out of scale range... */
if (((MDP_SCALE_Q_FACTOR * blit_op->dst.roi.height) /
blit_op->src.roi.width) > MDP_MAX_X_SCALE_FACTOR)
blit_op->src.roi.width =
(MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) /
MDP_MAX_X_SCALE_FACTOR;
else if (((MDP_SCALE_Q_FACTOR * blit_op->dst.roi.height) /
blit_op->src.roi.width) < MDP_MIN_X_SCALE_FACTOR)
blit_op->src.roi.width =
(MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) /
MDP_MIN_X_SCALE_FACTOR;
mdp3_start_ppp(blit_op);
/* next tile location */
blit_op->dst.roi.y += 16;
blit_op->src.roi.x += blit_op->src.roi.width;
/* this is for a remainder update */
dst_h -= 16;
src_w -= blit_op->src.roi.width;
/* restore parameters that may have been overwritten */
blit_op->mdp_op = mdp_op;
blit_op->src.p0 = src_p0;
blit_op->src.p1 = src_p1;
blit_op->dst.p0 = dst_p0;
}
if ((dst_h < 0) || (src_w < 0))
pr_err("msm_fb: mdp_blt_ex() unexpected result! line:%d\n",
__LINE__);
/* remainder update */
if ((dst_h > 0) && (src_w > 0)) {
u32 tmp_v;
blit_op->dst.roi.height = dst_h;
blit_op->src.roi.width = src_w;
if (((MDP_SCALE_Q_FACTOR * blit_op->dst.roi.height) /
blit_op->src.roi.width) > MDP_MAX_X_SCALE_FACTOR) {
tmp_v = (MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) /
MDP_MAX_X_SCALE_FACTOR +
((MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) %
MDP_MAX_X_SCALE_FACTOR ? 1 : 0);
/* move x location as roi width gets bigger */
blit_op->src.roi.x -= tmp_v - blit_op->src.roi.width;
blit_op->src.roi.width = tmp_v;
} else if (((MDP_SCALE_Q_FACTOR * blit_op->dst.roi.height) /
blit_op->src.roi.width) < MDP_MIN_X_SCALE_FACTOR) {
tmp_v = (MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) /
MDP_MIN_X_SCALE_FACTOR +
((MDP_SCALE_Q_FACTOR *
blit_op->dst.roi.height) %
MDP_MIN_X_SCALE_FACTOR ? 1 : 0);
/*
* we don't move x location for continuity of
* source image
*/
blit_op->src.roi.width = tmp_v;
}
mdp3_start_ppp(blit_op);
}
}
static int mdp3_ppp_blit(struct msm_fb_data_type *mfd,
struct mdp_blit_req *req, struct mdp3_img_data *src_data,
struct mdp3_img_data *dst_data)
{
struct ppp_blit_op blit_op;
int ret = 0;
memset(&blit_op, 0, sizeof(blit_op));
if (req->dst.format == MDP_FB_FORMAT)
req->dst.format = mfd->fb_imgType;
if (req->src.format == MDP_FB_FORMAT)
req->src.format = mfd->fb_imgType;
if (mdp3_ppp_verify_req(req)) {
pr_err("%s: invalid image!\n", __func__);
return -EINVAL;
}
ret = mdp3_ppp_process_req(&blit_op, req, src_data, dst_data);
if (ret) {
pr_err("%s: Failed to process the blit request", __func__);
return ret;
}
if (((blit_op.mdp_op & (MDPOP_TRANSP | MDPOP_ALPHAB)) ||
(req->src.format == MDP_ARGB_8888) ||
(req->src.format == MDP_BGRA_8888) ||
(req->src.format == MDP_RGBA_8888)) &&
(blit_op.mdp_op & MDPOP_ROT90) && (req->dst_rect.w <= 16)) {
mdp3_ppp_tile_workaround(&blit_op, req);
} else {
mdp3_start_ppp(&blit_op);
}
return 0;
}
static int mdp3_ppp_blit_workaround(struct msm_fb_data_type *mfd,
struct mdp_blit_req *req, unsigned int remainder,
struct mdp3_img_data *src_data,
struct mdp3_img_data *dst_data)
{
int ret;
struct mdp_blit_req splitreq;
int s_x_0, s_x_1, s_w_0, s_w_1, s_y_0, s_y_1, s_h_0, s_h_1;
int d_x_0, d_x_1, d_w_0, d_w_1, d_y_0, d_y_1, d_h_0, d_h_1;
/* make new request as provide by user */
splitreq = *req;
/* break dest roi at width*/
d_y_0 = d_y_1 = req->dst_rect.y;
d_h_0 = d_h_1 = req->dst_rect.h;
d_x_0 = req->dst_rect.x;
if (remainder == 14 || remainder == 6)
d_w_1 = req->dst_rect.w / 2;
else
d_w_1 = (req->dst_rect.w - 1) / 2 - 1;
d_w_0 = req->dst_rect.w - d_w_1;
d_x_1 = d_x_0 + d_w_0;
/* blit first region */
if (((splitreq.flags & 0x07) == 0x07) ||
((splitreq.flags & 0x07) == 0x05) ||
((splitreq.flags & 0x07) == 0x02) ||
((splitreq.flags & 0x07) == 0x0)) {
if (splitreq.flags & MDP_ROT_90) {
s_x_0 = s_x_1 = req->src_rect.x;
s_w_0 = s_w_1 = req->src_rect.w;
s_y_0 = req->src_rect.y;
s_h_1 = (req->src_rect.h * d_w_1) /
req->dst_rect.w;
s_h_0 = req->src_rect.h - s_h_1;
s_y_1 = s_y_0 + s_h_0;
if (d_w_1 >= 8 * s_h_1) {
s_h_1++;
s_y_1--;
}
} else {
s_y_0 = s_y_1 = req->src_rect.y;
s_h_0 = s_h_1 = req->src_rect.h;
s_x_0 = req->src_rect.x;
s_w_1 = (req->src_rect.w * d_w_1) /
req->dst_rect.w;
s_w_0 = req->src_rect.w - s_w_1;
s_x_1 = s_x_0 + s_w_0;
if (d_w_1 >= 8 * s_w_1) {
s_w_1++;
s_x_1--;
}
}
splitreq.src_rect.h = s_h_0;
splitreq.src_rect.y = s_y_0;
splitreq.dst_rect.h = d_h_0;
splitreq.dst_rect.y = d_y_0;
splitreq.src_rect.x = s_x_0;
splitreq.src_rect.w = s_w_0;
splitreq.dst_rect.x = d_x_0;
splitreq.dst_rect.w = d_w_0;
} else {
if (splitreq.flags & MDP_ROT_90) {
s_x_0 = s_x_1 = req->src_rect.x;
s_w_0 = s_w_1 = req->src_rect.w;
s_y_0 = req->src_rect.y;
s_h_1 = (req->src_rect.h * d_w_0) /
req->dst_rect.w;
s_h_0 = req->src_rect.h - s_h_1;
s_y_1 = s_y_0 + s_h_0;
if (d_w_0 >= 8 * s_h_1) {
s_h_1++;
s_y_1--;
}
} else {
s_y_0 = s_y_1 = req->src_rect.y;
s_h_0 = s_h_1 = req->src_rect.h;
s_x_0 = req->src_rect.x;
s_w_1 = (req->src_rect.w * d_w_0) /
req->dst_rect.w;
s_w_0 = req->src_rect.w - s_w_1;
s_x_1 = s_x_0 + s_w_0;
if (d_w_0 >= 8 * s_w_1) {
s_w_1++;
s_x_1--;
}
}
splitreq.src_rect.h = s_h_0;
splitreq.src_rect.y = s_y_0;
splitreq.dst_rect.h = d_h_1;
splitreq.dst_rect.y = d_y_1;
splitreq.src_rect.x = s_x_0;
splitreq.src_rect.w = s_w_0;
splitreq.dst_rect.x = d_x_1;
splitreq.dst_rect.w = d_w_1;
}
/* No need to split in height */
ret = mdp3_ppp_blit(mfd, &splitreq, src_data, dst_data);
if (ret)
return ret;
/* blit second region */
if (((splitreq.flags & 0x07) == 0x07) ||
((splitreq.flags & 0x07) == 0x05) ||
((splitreq.flags & 0x07) == 0x02) ||
((splitreq.flags & 0x07) == 0x0)) {
splitreq.src_rect.h = s_h_1;
splitreq.src_rect.y = s_y_1;
splitreq.dst_rect.h = d_h_1;
splitreq.dst_rect.y = d_y_1;
splitreq.src_rect.x = s_x_1;
splitreq.src_rect.w = s_w_1;
splitreq.dst_rect.x = d_x_1;
splitreq.dst_rect.w = d_w_1;
} else {
splitreq.src_rect.h = s_h_1;
splitreq.src_rect.y = s_y_1;
splitreq.dst_rect.h = d_h_0;
splitreq.dst_rect.y = d_y_0;
splitreq.src_rect.x = s_x_1;
splitreq.src_rect.w = s_w_1;
splitreq.dst_rect.x = d_x_0;
splitreq.dst_rect.w = d_w_0;
}
/* No need to split in height ... just width */
return mdp3_ppp_blit(mfd, &splitreq, src_data, dst_data);
}
int mdp3_ppp_start_blit(struct msm_fb_data_type *mfd,
struct mdp_blit_req *req,
struct mdp3_img_data *src_data,
struct mdp3_img_data *dst_data)
{
int ret;
unsigned int remainder = 0, is_bpp_4 = 0;
if (unlikely(req->src_rect.h == 0 || req->src_rect.w == 0)) {
pr_err("mdp_ppp: src img of zero size!\n");
return -EINVAL;
}
if (unlikely(req->dst_rect.h == 0 || req->dst_rect.w == 0))
return 0;
/* MDP width split workaround */
remainder = (req->dst_rect.w) % 16;
ret = ppp_get_bpp(req->dst.format, mfd->fb_imgType);
if (ret <= 0) {
pr_err("mdp_ppp: incorrect bpp!\n");
return -EINVAL;
}
is_bpp_4 = (ret == 4) ? 1 : 0;
if ((is_bpp_4 && (remainder == 6 || remainder == 14)) &&
!(req->flags & MDP_SOLID_FILL))
ret = mdp3_ppp_blit_workaround(mfd, req, remainder,
src_data, dst_data);
else
ret = mdp3_ppp_blit(mfd, req, src_data, dst_data);
return ret;
}
void mdp3_ppp_wait_for_fence(struct blit_req_list *req)
{
int i, ret = 0;
ATRACE_BEGIN(__func__);
/* buf sync */
for (i = 0; i < req->acq_fen_cnt; i++) {
ret = mdss_wait_sync_fence(req->acq_fen[i],
WAIT_FENCE_FINAL_TIMEOUT);
if (ret < 0) {
pr_err("%s: sync_fence_wait failed! ret = %x\n",
__func__, ret);
break;
}
mdss_put_sync_fence(req->acq_fen[i]);
}
ATRACE_END(__func__);
if (ret < 0) {
while (i < req->acq_fen_cnt) {
mdss_put_sync_fence(req->acq_fen[i]);
i++;
}
}
req->acq_fen_cnt = 0;
}
void mdp3_ppp_signal_timeline(struct blit_req_list *req)
{
mdss_inc_timeline(ppp_stat->timeline, 1);
MDSS_XLOG(ppp_stat->timeline->value, ppp_stat->timeline_value);
req->last_rel_fence = req->cur_rel_fence;
req->cur_rel_fence = 0;
}
static void mdp3_ppp_deinit_buf_sync(struct blit_req_list *req)
{
int i;
put_unused_fd(req->cur_rel_fen_fd);
mdss_put_sync_fence(req->cur_rel_fence);
req->cur_rel_fence = NULL;
req->cur_rel_fen_fd = 0;
ppp_stat->timeline_value--;
for (i = 0; i < req->acq_fen_cnt; i++)
mdss_put_sync_fence(req->acq_fen[i]);
req->acq_fen_cnt = 0;
}
static int mdp3_ppp_handle_buf_sync(struct blit_req_list *req,
struct mdp_buf_sync *buf_sync)
{
int i, fence_cnt = 0, ret = 0;
int acq_fen_fd[MDP_MAX_FENCE_FD];
struct mdss_fence *fence;
if ((buf_sync->acq_fen_fd_cnt > MDP_MAX_FENCE_FD) ||
(ppp_stat->timeline == NULL))
return -EINVAL;
if (buf_sync->acq_fen_fd_cnt)
ret = copy_from_user(acq_fen_fd, buf_sync->acq_fen_fd,
buf_sync->acq_fen_fd_cnt * sizeof(int));
if (ret) {
pr_err("%s: copy_from_user failed\n", __func__);
return ret;
}
for (i = 0; i < buf_sync->acq_fen_fd_cnt; i++) {
fence = mdss_get_fd_sync_fence(acq_fen_fd[i]);
if (fence == NULL) {
pr_info("%s: null fence! i=%d fd=%d\n", __func__, i,
acq_fen_fd[i]);
ret = -EINVAL;
break;
}
req->acq_fen[i] = fence;
}
fence_cnt = i;
if (ret)
goto buf_sync_err_1;
req->acq_fen_cnt = fence_cnt;
if (buf_sync->flags & MDP_BUF_SYNC_FLAG_WAIT)
mdp3_ppp_wait_for_fence(req);
MDSS_XLOG(ppp_stat->timeline_value);
/* create fence */
req->cur_rel_fence = mdss_get_sync_fence(ppp_stat->timeline,
"ppp_fence", NULL, ppp_stat->timeline_value++);
if (req->cur_rel_fence == NULL) {
req->cur_rel_sync_pt = NULL;
pr_err("%s: cannot create fence\n", __func__);
ret = -ENOMEM;
goto buf_sync_err_2;
}
/* create fd */
return ret;
buf_sync_err_2:
ppp_stat->timeline_value--;
buf_sync_err_1:
for (i = 0; i < fence_cnt; i++)
mdss_put_sync_fence(req->acq_fen[i]);
req->acq_fen_cnt = 0;
return ret;
}
void mdp3_ppp_req_push(struct blit_req_queue *req_q, struct blit_req_list *req)
{
int idx = req_q->push_idx;
req_q->req[idx] = *req;
req_q->count++;
req_q->push_idx = (req_q->push_idx + 1) % MDP3_PPP_MAX_LIST_REQ;
}
struct blit_req_list *mdp3_ppp_next_req(struct blit_req_queue *req_q)
{
struct blit_req_list *req;
if (req_q->count == 0)
return NULL;
req = &req_q->req[req_q->pop_idx];
return req;
}
void mdp3_ppp_req_pop(struct blit_req_queue *req_q)
{
req_q->count--;
req_q->pop_idx = (req_q->pop_idx + 1) % MDP3_PPP_MAX_LIST_REQ;
}
void mdp3_free_fw_timer_func(unsigned long arg)
{
mdp3_res->solid_fill_vote_en = false;
schedule_work(&ppp_stat->free_bw_work);
}
static void mdp3_free_bw_wq_handler(struct work_struct *work)
{
struct msm_fb_data_type *mfd = ppp_stat->mfd;
mutex_lock(&ppp_stat->config_ppp_mutex);
if (ppp_stat->bw_on)
mdp3_ppp_turnon(mfd, 0);
mutex_unlock(&ppp_stat->config_ppp_mutex);
}
static bool is_hw_workaround_needed(struct mdp_blit_req req)
{
bool result = false;
bool is_bpp_4 = false;
uint32_t remainder = 0;
uint32_t bpp = ppp_get_bpp(req.dst.format, ppp_stat->mfd->fb_imgType);
/* MDP width split workaround */
remainder = (req.dst_rect.w) % 16;
is_bpp_4 = (bpp == 4) ? 1 : 0;
if ((is_bpp_4 && (remainder == 6 || remainder == 14)) &&
!(req.flags & MDP_SOLID_FILL))
result = true;
/* bg tile fetching HW workaround */
if (((req.alpha < MDP_ALPHA_NOP) ||
(req.transp_mask != MDP_TRANSP_NOP) ||
(req.src.format == MDP_ARGB_8888) ||
(req.src.format == MDP_BGRA_8888) ||
(req.src.format == MDP_RGBA_8888)) &&
(req.flags & MDP_ROT_90) && (req.dst_rect.w <= 16))
result = true;
return result;
}
static bool is_roi_equal(struct mdp_blit_req req0,
struct mdp_blit_req req1)
{
bool result = false;
struct mdss_panel_info *panel_info = ppp_stat->mfd->panel_info;
/*
* Check req0 and req1 layer destination ROI and return true if
* they are equal.
*/
if ((req0.dst_rect.x == req1.dst_rect.x) &&
(req0.dst_rect.y == req1.dst_rect.y) &&
(req0.dst_rect.w == req1.dst_rect.w) &&
(req0.dst_rect.h == req1.dst_rect.h))
result = true;
/*
* Layers are source cropped and cropped layer width and hight are
* same panel width and height
*/
else if ((req0.dst_rect.w == req1.dst_rect.w) &&
(req0.dst_rect.h == req1.dst_rect.h) &&
(req0.dst_rect.w == panel_info->xres) &&
(req0.dst_rect.h == panel_info->yres))
result = true;
return result;
}
static bool is_scaling_needed(struct mdp_blit_req req)
{
bool result = true;
/* Return true if layer need scaling else return false */
if ((req.src_rect.w == req.dst_rect.w) &&
(req.src_rect.h == req.dst_rect.h))
result = false;
return result;
}
static bool is_blit_optimization_possible(struct blit_req_list *req, int indx)
{
int next = indx + 1;
bool status = false;
struct mdp3_img_data tmp_data;
bool dst_roi_equal = false;
bool hw_woraround_active = false;
struct mdp_blit_req bg_req;
struct mdp_blit_req fg_req;
if (!(mdp3_res->smart_blit_en)) {
pr_debug("Smart BLIT disabled from sysfs\n");
return status;
}
if (next < req->count) {
bg_req = req->req_list[indx];
fg_req = req->req_list[next];
hw_woraround_active = is_hw_workaround_needed(bg_req);
dst_roi_equal = is_roi_equal(bg_req, fg_req);
/*
* Check userspace Smart BLIT Flag for current and next
* request Flag for smart blit FG layer index If blit
* request at index "n" has MDP_SMART_BLIT flag set then
* it will be used as BG layer in smart blit
* and request at index "n+1" will be used as FG layer
*/
if ((bg_req.flags & MDP_SMART_BLIT) &&
(!(fg_req.flags & MDP_SMART_BLIT)) &&
(!(hw_woraround_active)))
status = true;
/*
* Enable SMART blit between request 0(BG) & request 1(FG) when
* destination ROI of BG and FG layer are same,
* No scaling on BG layer
* No rotation on BG Layer.
* BG Layer color format is RGB and marked as MDP_IS_FG.
*/
else if ((mdp3_res->smart_blit_en & SMART_BLIT_RGB_EN) &&
(indx == 0) && (dst_roi_equal) &&
(bg_req.flags & MDP_IS_FG) &&
(!(is_scaling_needed(bg_req))) &&
(!(bg_req.flags & (MDP_ROT_90))) &&
(check_if_rgb(bg_req.src.format)) &&
(!(hw_woraround_active))) {
status = true;
req->req_list[indx].flags |= MDP_SMART_BLIT;
pr_debug("Optimize RGB Blit for Req Indx %d\n", indx);
}
/*
* Swap BG and FG layer to enable SMART blit between request
* 0(BG) & request 1(FG) when destination ROI of BG and FG
* layer are same, No scaling on FG and BG layer
* No rotation on FG Layer. BG Layer color format is YUV
*/
else if ((indx == 0) &&
(mdp3_res->smart_blit_en & SMART_BLIT_YUV_EN) &&
(!(fg_req.flags & (MDP_ROT_90))) && (dst_roi_equal) &&
(!(check_if_rgb(bg_req.src.format))) &&
(!(hw_woraround_active))) {
/*
* Disable SMART blit for BG(YUV) layer when
* Scaling on BG layer
* Rotation on BG layer
* UD flip on BG layer
*/
if ((is_scaling_needed(bg_req)) && (
bg_req.flags & MDP_ROT_90) &&
(bg_req.flags & MDP_FLIP_UD)) {
pr_debug("YUV layer with ROT+UD_FLIP+Scaling Not supported\n");
return false;
}
/*
* swap blit requests at index 0 and 1. YUV layer at
* index 0 is replaced with UI layer request present
* at index 1. Since UI layer will be in background
* set IS_FG flag and clear it from YUV layer flags
*/
if (!(is_scaling_needed(req->req_list[next]))) {
if (bg_req.flags & MDP_IS_FG) {
req->req_list[indx].flags &=
~MDP_IS_FG;
req->req_list[next].flags |= MDP_IS_FG;
}
bg_req = req->req_list[next];
req->req_list[next] = req->req_list[indx];
req->req_list[indx] = bg_req;
tmp_data = req->src_data[next];
req->src_data[next] = req->src_data[indx];
req->src_data[indx] = tmp_data;
tmp_data = req->dst_data[next];
req->dst_data[next] = req->dst_data[indx];
req->dst_data[indx] = tmp_data;
status = true;
req->req_list[indx].flags |= MDP_SMART_BLIT;
pr_debug("Optimize YUV Blit for Req Indx %d\n",
indx);
}
}
}
return status;
}
static void mdp3_ppp_blit_handler(struct kthread_work *work)
{
struct msm_fb_data_type *mfd = ppp_stat->mfd;
struct blit_req_list *req;
int i, rc = 0;
bool smart_blit = false;
int smart_blit_fg_index = -1;
mutex_lock(&ppp_stat->config_ppp_mutex);
req = mdp3_ppp_next_req(&ppp_stat->req_q);
if (!req) {
mutex_unlock(&ppp_stat->config_ppp_mutex);
return;
}
if (!ppp_stat->bw_on) {
mdp3_ppp_turnon(mfd, 1);
if (rc < 0) {
mutex_unlock(&ppp_stat->config_ppp_mutex);
pr_err("%s: Enable ppp resources failed\n", __func__);
return;
}
}
while (req) {
mdp3_ppp_wait_for_fence(req);
mdp3_calc_ppp_res(mfd, req);
if (ppp_res.clk_rate != ppp_stat->mdp_clk) {
ppp_stat->mdp_clk = ppp_res.clk_rate;
mdp3_clk_set_rate(MDP3_CLK_MDP_SRC,
ppp_stat->mdp_clk, MDP3_CLIENT_PPP);
}
if (ppp_stat->bw_update) {
rc = mdp3_bus_scale_set_quota(MDP3_CLIENT_PPP,
ppp_res.next_ab, ppp_res.next_ib);
if (rc < 0) {
pr_err("%s: bw set quota failed\n", __func__);
return;
}
ppp_stat->bw_update = false;
}
ATRACE_BEGIN("mpd3_ppp_start");
for (i = 0; i < req->count; i++) {
smart_blit = is_blit_optimization_possible(req, i);
if (smart_blit)
/*
* Blit request index of FG layer in
* smart blit
*/
smart_blit_fg_index = i + 1;
if (!(req->req_list[i].flags & MDP_NO_BLIT)) {
/* Do the actual blit. */
if (!rc) {
rc = mdp3_ppp_start_blit(mfd,
&(req->req_list[i]),
&req->src_data[i],
&req->dst_data[i]);
}
/* Unmap blit source buffer */
if (smart_blit == false) {
mdp3_put_img(&req->src_data[i],
MDP3_CLIENT_PPP);
}
if (smart_blit_fg_index == i) {
/* Unmap smart blit BG buffer */
mdp3_put_img(&req->src_data[i - 1],
MDP3_CLIENT_PPP);
smart_blit_fg_index = -1;
}
mdp3_put_img(&req->dst_data[i],
MDP3_CLIENT_PPP);
smart_blit = false;
}
}
ATRACE_END("mdp3_ppp_start");
/* Signal to release fence */
mutex_lock(&ppp_stat->req_mutex);
mdp3_ppp_signal_timeline(req);
mdp3_ppp_req_pop(&ppp_stat->req_q);
req = mdp3_ppp_next_req(&ppp_stat->req_q);
if (ppp_stat->wait_for_pop)
complete(&ppp_stat->pop_q_comp);
mutex_unlock(&ppp_stat->req_mutex);
}
mod_timer(&ppp_stat->free_bw_timer, jiffies +
msecs_to_jiffies(MDP_RELEASE_BW_TIMEOUT));
mutex_unlock(&ppp_stat->config_ppp_mutex);
}
int mdp3_ppp_parse_req(void __user *p,
struct mdp_async_blit_req_list *req_list_header,
int async)
{
struct blit_req_list *req;
struct blit_req_queue *req_q = &ppp_stat->req_q;
struct mdss_fence *fence = NULL;
int count, rc, idx, i;
count = req_list_header->count;
mutex_lock(&ppp_stat->req_mutex);
while (req_q->count >= MDP3_PPP_MAX_LIST_REQ) {
ppp_stat->wait_for_pop = true;
mutex_unlock(&ppp_stat->req_mutex);
rc = wait_for_completion_timeout(
&ppp_stat->pop_q_comp, 5 * HZ);
if (rc == 0) {
/* This will only occur if there is serious problem */
pr_err("%s: timeout exiting queuing request\n",
__func__);
return -EBUSY;
}
mutex_lock(&ppp_stat->req_mutex);
ppp_stat->wait_for_pop = false;
}
idx = req_q->push_idx;
req = &req_q->req[idx];
if (copy_from_user(&req->req_list, p,
sizeof(struct mdp_blit_req) * count)) {
mutex_unlock(&ppp_stat->req_mutex);
return -EFAULT;
}
rc = mdp3_ppp_handle_buf_sync(req, &req_list_header->sync);
if (rc < 0) {
pr_err("%s: Failed create sync point\n", __func__);
mutex_unlock(&ppp_stat->req_mutex);
return rc;
}
req->count = count;
/* We need to grab ion handle while running in client thread */
for (i = 0; i < count; i++) {
rc = mdp3_ppp_get_img(&req->req_list[i].src,
&req->req_list[i], &req->src_data[i]);
if (rc < 0 || req->src_data[i].len == 0) {
pr_err("mdp_ppp: couldn't retrieve src img from mem\n");
goto parse_err_1;
}
rc = mdp3_ppp_get_img(&req->req_list[i].dst,
&req->req_list[i], &req->dst_data[i]);
if (rc < 0 || req->dst_data[i].len == 0) {
mdp3_put_img(&req->src_data[i], MDP3_CLIENT_PPP);
pr_err("mdp_ppp: couldn't retrieve dest img from mem\n");
goto parse_err_1;
}
}
if (async) {
req->cur_rel_fen_fd = mdss_get_sync_fence_fd(
req->cur_rel_fence);
rc = copy_to_user(req_list_header->sync.rel_fen_fd,
&req->cur_rel_fen_fd, sizeof(int));
if (rc) {
pr_err("%s:copy_to_user failed\n", __func__);
goto parse_err_2;
}
} else {
fence = req->cur_rel_fence;
fence_get((struct fence *) fence);
}
mdp3_ppp_req_push(req_q, req);
mutex_unlock(&ppp_stat->req_mutex);
kthread_queue_work(&ppp_stat->kworker, &ppp_stat->blit_work);
if (!async) {
/* wait for release fence */
rc = mdss_wait_sync_fence(fence,
5 * MSEC_PER_SEC);
if (rc < 0)
pr_err("%s: sync blit! rc = %x\n", __func__, rc);
mdss_put_sync_fence(fence);
fence = NULL;
}
return 0;
parse_err_2:
put_unused_fd(req->cur_rel_fen_fd);
parse_err_1:
for (i--; i >= 0; i--) {
mdp3_put_img(&req->src_data[i], MDP3_CLIENT_PPP);
mdp3_put_img(&req->dst_data[i], MDP3_CLIENT_PPP);
}
mdp3_ppp_deinit_buf_sync(req);
mutex_unlock(&ppp_stat->req_mutex);
return rc;
}
int mdp3_ppp_res_init(struct msm_fb_data_type *mfd)
{
int rc;
struct sched_param param = {.sched_priority = 16};
const char timeline_name[] = "mdp3_ppp";
ppp_stat = kzalloc(sizeof(struct ppp_status), GFP_KERNEL);
if (!ppp_stat)
return -ENOMEM;
/*Setup sync_pt timeline for ppp*/
ppp_stat->timeline = mdss_create_timeline(timeline_name);
if (ppp_stat->timeline == NULL) {
pr_err("%s: cannot create time line\n", __func__);
return -ENOMEM;
}
ppp_stat->timeline_value = 1;
kthread_init_worker(&ppp_stat->kworker);
kthread_init_work(&ppp_stat->blit_work, mdp3_ppp_blit_handler);
ppp_stat->blit_thread = kthread_run(kthread_worker_fn,
&ppp_stat->kworker,
"mdp3_ppp");
if (IS_ERR(ppp_stat->blit_thread)) {
rc = PTR_ERR(ppp_stat->blit_thread);
pr_err("ERROR: unable to start ppp blit thread,err = %d\n",
rc);
ppp_stat->blit_thread = NULL;
return rc;
}
if (sched_setscheduler(ppp_stat->blit_thread, SCHED_FIFO, &param))
pr_warn("set priority failed for mdp3 blit thread\n");
INIT_WORK(&ppp_stat->free_bw_work, mdp3_free_bw_wq_handler);
init_completion(&ppp_stat->pop_q_comp);
mutex_init(&ppp_stat->req_mutex);
mutex_init(&ppp_stat->config_ppp_mutex);
init_timer(&ppp_stat->free_bw_timer);
ppp_stat->free_bw_timer.function = mdp3_free_fw_timer_func;
ppp_stat->free_bw_timer.data = 0;
ppp_stat->mfd = mfd;
mdp3_ppp_callback_setup();
return 0;
}