/* * Copyright (c) 2012-2014, The Linux Foundation. All rights reserved. * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <cutils/log.h> #include <linux/msm_mdp.h> #include "mdp_version.h" #include "qd_utils.h" #define DEBUG 0 ANDROID_SINGLETON_STATIC_INSTANCE(qdutils::MDPVersion); namespace qdutils { #define TOKEN_PARAMS_DELIM "=" // chip variants have same major number and minor numbers usually vary // for e.g., MDSS_MDP_HW_REV_101 is 0x10010000 // 1001 - major number // 0000 - minor number // 8x26 v1 minor number is 0000 // v2 minor number is 0001 etc.. #ifndef MDSS_MDP_HW_REV_100 #define MDSS_MDP_HW_REV_100 0x10000000 //8974 v1 #endif #ifndef MDSS_MDP_HW_REV_101 #define MDSS_MDP_HW_REV_101 0x10010000 //8x26 #endif #ifndef MDSS_MDP_HW_REV_102 #define MDSS_MDP_HW_REV_102 0x10020000 //8974 v2 #endif #ifndef MDSS_MDP_HW_REV_103 #define MDSS_MDP_HW_REV_103 0x10030000 //8084 #endif #ifndef MDSS_MDP_HW_REV_104 #define MDSS_MDP_HW_REV_104 0x10040000 //Unused #endif #ifndef MDSS_MDP_HW_REV_105 #define MDSS_MDP_HW_REV_105 0x10050000 //8994 #endif #ifndef MDSS_MDP_HW_REV_106 #define MDSS_MDP_HW_REV_106 0x10060000 //8x16 #endif #ifndef MDSS_MDP_HW_REV_107 #define MDSS_MDP_HW_REV_107 0x10070000 //Unused #endif #ifndef MDSS_MDP_HW_REV_108 #define MDSS_MDP_HW_REV_108 0x10080000 //8x39 & 8x36 #endif #ifndef MDSS_MDP_HW_REV_109 #define MDSS_MDP_HW_REV_109 0x10090000 //8994 v2 #endif #ifndef MDSS_MDP_HW_REV_110 #define MDSS_MDP_HW_REV_110 0x100a0000 //8992 #endif #ifndef MDSS_MDP_HW_REV_200 #define MDSS_MDP_HW_REV_200 0x20000000 //8092 #endif #ifndef MDSS_MDP_HW_REV_206 #define MDSS_MDP_HW_REV_206 0x20060000 //Future #endif MDPVersion::MDPVersion() { mMDPVersion = MDSS_V5; mMdpRev = 0; mRGBPipes = 0; mVGPipes = 0; mDMAPipes = 0; mFeatures = 0; mMDPUpscale = 1; mMDPDownscale = 1; mMacroTileEnabled = false; mLowBw = 0; mHighBw = 0; mSourceSplit = false; mSourceSplitAlways = false; mRGBHasNoScalar = false; mRotDownscale = false; mBlendStages = 4; //min no. of stages supported by MDP. // this is the default limit of mixer unless driver reports it. // For resolutions beyond this, we use dual mixer/ping pong split. mMaxMixerWidth = 2048; // Default width of MDSS SSPP. For layer resolutions beyond this, we drive // using two SSPP's. mMaxPipeWidth = 2048; updatePanelInfo(); if(!updateSysFsInfo()) { ALOGE("Unable to read display sysfs node"); } if (mMdpRev == MDP_V3_0_4){ mMDPVersion = MDP_V3_0_4; } else if (mMdpRev == MDP_V3_0_5){ mMDPVersion = MDP_V3_0_5; } mHasOverlay = false; if((mMDPVersion >= MDP_V4_0) || (mMDPVersion == MDP_V_UNKNOWN) || (mMDPVersion == MDP_V3_0_4) || (mMDPVersion == MDP_V3_0_5)) mHasOverlay = true; if(!updateSplitInfo()) { ALOGE("Unable to read display split node"); } } MDPVersion::~MDPVersion() { close(mFd); } int MDPVersion::tokenizeParams(char *inputParams, const char *delim, char* tokenStr[], int *idx) { char *tmp_token = NULL; char *temp_ptr; int index = 0; if (!inputParams) { return -1; } tmp_token = strtok_r(inputParams, delim, &temp_ptr); while (tmp_token != NULL) { tokenStr[index++] = tmp_token; tmp_token = strtok_r(NULL, " ", &temp_ptr); } *idx = index; return 0; } // This function reads the sysfs node to read the primary panel type // and updates information accordingly void MDPVersion::updatePanelInfo() { FILE *displayDeviceFP = NULL; FILE *panelInfoNodeFP = NULL; char fbType[MAX_FRAME_BUFFER_NAME_SIZE]; const char *strCmdPanel = "mipi dsi cmd panel"; const char *strVideoPanel = "mipi dsi video panel"; const char *strLVDSPanel = "lvds panel"; const char *strEDPPanel = "edp panel"; displayDeviceFP = fopen("/sys/class/graphics/fb0/msm_fb_type", "r"); if(displayDeviceFP){ fread(fbType, sizeof(char), MAX_FRAME_BUFFER_NAME_SIZE, displayDeviceFP); if(strncmp(fbType, strCmdPanel, strlen(strCmdPanel)) == 0) { mPanelInfo.mType = MIPI_CMD_PANEL; } else if(strncmp(fbType, strVideoPanel, strlen(strVideoPanel)) == 0) { mPanelInfo.mType = MIPI_VIDEO_PANEL; } else if(strncmp(fbType, strLVDSPanel, strlen(strLVDSPanel)) == 0) { mPanelInfo.mType = LVDS_PANEL; } else if(strncmp(fbType, strEDPPanel, strlen(strEDPPanel)) == 0) { mPanelInfo.mType = EDP_PANEL; } fclose(displayDeviceFP); } else { ALOGE("Unable to read Primary Panel Information"); } panelInfoNodeFP = fopen("/sys/class/graphics/fb0/msm_fb_panel_info", "r"); if(panelInfoNodeFP){ size_t len = PAGE_SIZE; ssize_t read; char *readLine = (char *) malloc (len); char property[PROPERTY_VALUE_MAX]; while((read = getline((char **)&readLine, &len, panelInfoNodeFP)) != -1) { int token_ct=0; char *tokens[10]; memset(tokens, 0, sizeof(tokens)); if(!tokenizeParams(readLine, TOKEN_PARAMS_DELIM, tokens, &token_ct)) { if(!strncmp(tokens[0], "pu_en", strlen("pu_en"))) { mPanelInfo.mPartialUpdateEnable = atoi(tokens[1]); ALOGI("PartialUpdate status: %s", mPanelInfo.mPartialUpdateEnable? "Enabled" : "Disabled"); } if(!strncmp(tokens[0], "xstart", strlen("xstart"))) { mPanelInfo.mLeftAlign = atoi(tokens[1]); ALOGI("Left Align: %d", mPanelInfo.mLeftAlign); } if(!strncmp(tokens[0], "walign", strlen("walign"))) { mPanelInfo.mWidthAlign = atoi(tokens[1]); ALOGI("Width Align: %d", mPanelInfo.mWidthAlign); } if(!strncmp(tokens[0], "ystart", strlen("ystart"))) { mPanelInfo.mTopAlign = atoi(tokens[1]); ALOGI("Top Align: %d", mPanelInfo.mTopAlign); } if(!strncmp(tokens[0], "halign", strlen("halign"))) { mPanelInfo.mHeightAlign = atoi(tokens[1]); ALOGI("Height Align: %d", mPanelInfo.mHeightAlign); } if(!strncmp(tokens[0], "min_w", strlen("min_w"))) { mPanelInfo.mMinROIWidth = atoi(tokens[1]); ALOGI("Min ROI Width: %d", mPanelInfo.mMinROIWidth); } if(!strncmp(tokens[0], "min_h", strlen("min_h"))) { mPanelInfo.mMinROIHeight = atoi(tokens[1]); ALOGI("Min ROI Height: %d", mPanelInfo.mMinROIHeight); } if(!strncmp(tokens[0], "roi_merge", strlen("roi_merge"))) { mPanelInfo.mNeedsROIMerge = atoi(tokens[1]); ALOGI("Needs ROI Merge: %d", mPanelInfo.mNeedsROIMerge); } if(!strncmp(tokens[0], "dyn_fps_en", strlen("dyn_fps_en"))) { mPanelInfo.mDynFpsSupported = atoi(tokens[1]); ALOGI("Dynamic Fps: %s", mPanelInfo.mDynFpsSupported ? "Enabled" : "Disabled"); } if(!strncmp(tokens[0], "min_fps", strlen("min_fps"))) { mPanelInfo.mMinFps = atoi(tokens[1]); ALOGI("Min Panel fps: %d", mPanelInfo.mMinFps); } if(!strncmp(tokens[0], "max_fps", strlen("max_fps"))) { mPanelInfo.mMaxFps = atoi(tokens[1]); ALOGI("Max Panel fps: %d", mPanelInfo.mMaxFps); } } } if((property_get("persist.hwc.pubypass", property, 0) > 0) && (!strncmp(property, "1", PROPERTY_VALUE_MAX ) || (!strncasecmp(property,"true", PROPERTY_VALUE_MAX )))) { mPanelInfo.mPartialUpdateEnable = 0; ALOGI("PartialUpdate disabled by property"); } fclose(panelInfoNodeFP); free(readLine); } else { ALOGE("Failed to open msm_fb_panel_info node"); } } // This function reads the sysfs node to read MDP capabilities // and parses and updates information accordingly. bool MDPVersion::updateSysFsInfo() { FILE *sysfsFd; size_t len = PAGE_SIZE; ssize_t read; char *line = NULL; char sysfsPath[255]; memset(sysfsPath, 0, sizeof(sysfsPath)); snprintf(sysfsPath , sizeof(sysfsPath), "/sys/class/graphics/fb0/mdp/caps"); char property[PROPERTY_VALUE_MAX]; bool enableMacroTile = false; if((property_get("persist.hwc.macro_tile_enable", property, NULL) > 0) && (!strncmp(property, "1", PROPERTY_VALUE_MAX ) || (!strncasecmp(property,"true", PROPERTY_VALUE_MAX )))) { enableMacroTile = true; } sysfsFd = fopen(sysfsPath, "rb"); if (sysfsFd == NULL) { ALOGE("%s: sysFsFile file '%s' not found", __FUNCTION__, sysfsPath); return false; } else { line = (char *) malloc(len); while((read = getline(&line, &len, sysfsFd)) != -1) { int index=0; char *tokens[10]; memset(tokens, 0, sizeof(tokens)); // parse the line and update information accordingly if(!tokenizeParams(line, TOKEN_PARAMS_DELIM, tokens, &index)) { if(!strncmp(tokens[0], "hw_rev", strlen("hw_rev"))) { mMdpRev = atoi(tokens[1]); } else if(!strncmp(tokens[0], "rgb_pipes", strlen("rgb_pipes"))) { mRGBPipes = (uint8_t)atoi(tokens[1]); } else if(!strncmp(tokens[0], "vig_pipes", strlen("vig_pipes"))) { mVGPipes = (uint8_t)atoi(tokens[1]); } else if(!strncmp(tokens[0], "dma_pipes", strlen("dma_pipes"))) { mDMAPipes = (uint8_t)atoi(tokens[1]); } else if(!strncmp(tokens[0], "blending_stages", strlen("blending_stages"))) { mBlendStages = (uint8_t)atoi(tokens[1]); } else if(!strncmp(tokens[0], "max_downscale_ratio", strlen("max_downscale_ratio"))) { mMDPDownscale = atoi(tokens[1]); } else if(!strncmp(tokens[0], "max_upscale_ratio", strlen("max_upscale_ratio"))) { mMDPUpscale = atoi(tokens[1]); } else if(!strncmp(tokens[0], "max_bandwidth_low", strlen("max_bandwidth_low"))) { mLowBw = atol(tokens[1]); } else if(!strncmp(tokens[0], "max_bandwidth_high", strlen("max_bandwidth_high"))) { mHighBw = atol(tokens[1]); } else if(!strncmp(tokens[0], "max_mixer_width", strlen("max_mixer_width"))) { mMaxMixerWidth = atoi(tokens[1]); } else if(!strncmp(tokens[0], "max_pipe_width", strlen("max_pipe_width"))) { mMaxPipeWidth = atoi(tokens[1]); } else if(!strncmp(tokens[0], "features", strlen("features"))) { for(int i=1; i<index;i++) { if(!strncmp(tokens[i], "bwc", strlen("bwc"))) { mFeatures |= MDP_BWC_EN; } else if(!strncmp(tokens[i], "decimation", strlen("decimation"))) { mFeatures |= MDP_DECIMATION_EN; } else if(!strncmp(tokens[i], "tile_format", strlen("tile_format"))) { if(enableMacroTile) mMacroTileEnabled = true; } else if(!strncmp(tokens[i], "src_split", strlen("src_split"))) { mSourceSplit = true; } else if(!strncmp(tokens[i], "non_scalar_rgb", strlen("non_scalar_rgb"))) { mRGBHasNoScalar = true; } else if(!strncmp(tokens[i], "rotator_downscale", strlen("rotator_downscale"))) { mRotDownscale = true; } } } } } free(line); fclose(sysfsFd); } if(mMDPVersion >= qdutils::MDP_V4_2 and mMDPVersion < qdutils::MDSS_V5) { mRotDownscale = true; } if(mSourceSplit) { memset(sysfsPath, 0, sizeof(sysfsPath)); snprintf(sysfsPath , sizeof(sysfsPath), "/sys/class/graphics/fb0/msm_fb_src_split_info"); sysfsFd = fopen(sysfsPath, "rb"); if (sysfsFd == NULL) { ALOGE("%s: Opening file %s failed with error %s", __FUNCTION__, sysfsPath, strerror(errno)); return false; } else { line = (char *) malloc(len); if((read = getline(&line, &len, sysfsFd)) != -1) { if(!strncmp(line, "src_split_always", strlen("src_split_always"))) { mSourceSplitAlways = true; } } free(line); fclose(sysfsFd); } } ALOGD_IF(DEBUG, "%s: mMDPVersion: %d mMdpRev: %x mRGBPipes:%d," "mVGPipes:%d", __FUNCTION__, mMDPVersion, mMdpRev, mRGBPipes, mVGPipes); ALOGD_IF(DEBUG, "%s:mDMAPipes:%d \t mMDPDownscale:%d, mFeatures:%d", __FUNCTION__, mDMAPipes, mMDPDownscale, mFeatures); ALOGD_IF(DEBUG, "%s:mLowBw: %lu mHighBw: %lu", __FUNCTION__, mLowBw, mHighBw); return true; } // This function reads the sysfs node to read MDP capabilities // and parses and updates information accordingly. bool MDPVersion::updateSplitInfo() { if(mMDPVersion >= MDSS_V5) { char split[64] = {0}; FILE* fp = fopen("/sys/class/graphics/fb0/msm_fb_split", "r"); if(fp){ //Format "left right" space as delimiter if(fread(split, sizeof(char), 64, fp)) { split[sizeof(split) - 1] = '\0'; mSplit.mLeft = atoi(split); ALOGI_IF(mSplit.mLeft, "Left Split=%d", mSplit.mLeft); char *rght = strpbrk(split, " "); if(rght) mSplit.mRight = atoi(rght + 1); ALOGI_IF(mSplit.mRight, "Right Split=%d", mSplit.mRight); } } else { ALOGE("Failed to open mdss_fb_split node"); return false; } if(fp) fclose(fp); } return true; } bool MDPVersion::hasMinCropWidthLimitation() const { return mMdpRev <= MDSS_MDP_HW_REV_102; } bool MDPVersion::supportsDecimation() { return mFeatures & MDP_DECIMATION_EN; } uint32_t MDPVersion::getMaxMDPDownscale() { return mMDPDownscale; } uint32_t MDPVersion::getMaxMDPUpscale() { return mMDPUpscale; } bool MDPVersion::supportsBWC() { // BWC - Bandwidth Compression return (mFeatures & MDP_BWC_EN); } bool MDPVersion::supportsMacroTile() { // MACRO TILE support return mMacroTileEnabled; } bool MDPVersion::isSrcSplit() const { return mSourceSplit; } bool MDPVersion::isSrcSplitAlways() const { return mSourceSplitAlways; } bool MDPVersion::isRGBScalarSupported() const { return (!mRGBHasNoScalar); } bool MDPVersion::is8x26() { return (mMdpRev >= MDSS_MDP_HW_REV_101 and mMdpRev < MDSS_MDP_HW_REV_102); } bool MDPVersion::is8x74v2() { return (mMdpRev >= MDSS_MDP_HW_REV_102 and mMdpRev < MDSS_MDP_HW_REV_103); } bool MDPVersion::is8084() { return (mMdpRev >= MDSS_MDP_HW_REV_103 and mMdpRev < MDSS_MDP_HW_REV_104); } bool MDPVersion::is8092() { return (mMdpRev >= MDSS_MDP_HW_REV_200 and mMdpRev < MDSS_MDP_HW_REV_206); } bool MDPVersion::is8994() { return ((mMdpRev >= MDSS_MDP_HW_REV_105 and mMdpRev < MDSS_MDP_HW_REV_106) or (mMdpRev >= MDSS_MDP_HW_REV_109 and mMdpRev < MDSS_MDP_HW_REV_110)); } bool MDPVersion::is8x16() { return (mMdpRev >= MDSS_MDP_HW_REV_106 and mMdpRev < MDSS_MDP_HW_REV_107); } bool MDPVersion::is8x39() { return (mMdpRev >= MDSS_MDP_HW_REV_108 and mMdpRev < MDSS_MDP_HW_REV_109); } }; //namespace qdutils