/* * Copyright (C) 2010 The Android Open Source Project * Copyright (C) 2012, Code Aurora Forum. All rights reserved. * * Not a Contribution, Apache license notifications and license are * retained for attribution purposes only. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define DEBUG 0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include "hwc_utils.h" #include "hwc_external.h" #include "overlayUtils.h" using namespace android; namespace qhwc { static const char *extPanelName[MAX_DISPLAY_EXTERNAL_DEVICES] = { HDMI_PANEL, WFD_PANEL }; ExternalDisplay::ExternalDisplay(hwc_context_t* ctx):mFd(-1), mCurrentMode(-1), mExternalDisplay(0), mModeCount(0), mHwcContext(ctx) { memset(&mVInfo, 0, sizeof(mVInfo)); //Enable HPD for HDMI if(isHDMIConfigured()) { writeHPDOption(1); } } void ExternalDisplay::setEDIDMode(int resMode) { ALOGD_IF(DEBUG,"resMode=%d ", resMode); int extDispType; { Mutex::Autolock lock(mExtDispLock); extDispType = mExternalDisplay; setExternalDisplay(0); setResolution(resMode); } setExternalDisplay(extDispType); } void ExternalDisplay::setHPDStatus(int enabled) { ALOGD_IF(DEBUG,"HPD enabled=%d", enabled); writeHPDOption(enabled); } void ExternalDisplay::setActionSafeDimension(int w, int h) { ALOGD_IF(DEBUG,"ActionSafe w=%d h=%d", w, h); Mutex::Autolock lock(mExtDispLock); overlay::utils::ActionSafe::getInstance()->setDimension(w, h); setExternalDisplay(mExternalDisplay); } int ExternalDisplay::getModeCount() const { ALOGD_IF(DEBUG,"HPD mModeCount=%d", mModeCount); Mutex::Autolock lock(mExtDispLock); return mModeCount; } void ExternalDisplay::getEDIDModes(int *out) const { Mutex::Autolock lock(mExtDispLock); for(int i = 0;i < mModeCount;i++) { out[i] = mEDIDModes[i]; } } int ExternalDisplay::getExternalDisplay() const { Mutex::Autolock lock(mExtDispLock); return mExternalDisplay; } ExternalDisplay::~ExternalDisplay() { closeFrameBuffer(); } struct disp_mode_timing_type { int video_format; int active_h; int active_v; int front_porch_h; int pulse_width_h; int back_porch_h; int front_porch_v; int pulse_width_v; int back_porch_v; int pixel_freq; bool interlaced; void set_info(struct fb_var_screeninfo &info) const; }; void disp_mode_timing_type::set_info(struct fb_var_screeninfo &info) const { info.reserved[0] = 0; info.reserved[1] = 0; info.reserved[2] = 0; info.reserved[3] = video_format; info.xoffset = 0; info.yoffset = 0; info.xres = active_h; info.yres = active_v; info.pixclock = pixel_freq*1000; info.vmode = interlaced ? FB_VMODE_INTERLACED : FB_VMODE_NONINTERLACED; info.right_margin = front_porch_h; info.hsync_len = pulse_width_h; info.left_margin = back_porch_h; info.lower_margin = front_porch_v; info.vsync_len = pulse_width_v; info.upper_margin = back_porch_v; } /* Video formates supported by the HDMI Standard */ /* Indicates the resolution, pix clock and the aspect ratio */ #define m640x480p60_4_3 1 #define m720x480p60_4_3 2 #define m720x480p60_16_9 3 #define m1280x720p60_16_9 4 #define m1920x1080i60_16_9 5 #define m1440x480i60_4_3 6 #define m1440x480i60_16_9 7 #define m1920x1080p60_16_9 16 #define m720x576p50_4_3 17 #define m720x576p50_16_9 18 #define m1280x720p50_16_9 19 #define m1440x576i50_4_3 21 #define m1440x576i50_16_9 22 #define m1920x1080p50_16_9 31 #define m1920x1080p24_16_9 32 #define m1920x1080p25_16_9 33 #define m1920x1080p30_16_9 34 static struct disp_mode_timing_type supported_video_mode_lut[] = { {m640x480p60_4_3, 640, 480, 16, 96, 48, 10, 2, 33, 25200, false}, {m720x480p60_4_3, 720, 480, 16, 62, 60, 9, 6, 30, 27030, false}, {m720x480p60_16_9, 720, 480, 16, 62, 60, 9, 6, 30, 27030, false}, {m1280x720p60_16_9, 1280, 720, 110, 40, 220, 5, 5, 20, 74250, false}, {m1920x1080i60_16_9, 1920, 540, 88, 44, 148, 2, 5, 5, 74250, false}, {m1440x480i60_4_3, 1440, 240, 38, 124, 114, 4, 3, 15, 27000, true}, {m1440x480i60_16_9, 1440, 240, 38, 124, 114, 4, 3, 15, 27000, true}, {m1920x1080p60_16_9, 1920, 1080, 88, 44, 148, 4, 5, 36, 148500, false}, {m720x576p50_4_3, 720, 576, 12, 64, 68, 5, 5, 39, 27000, false}, {m720x576p50_16_9, 720, 576, 12, 64, 68, 5, 5, 39, 27000, false}, {m1280x720p50_16_9, 1280, 720, 440, 40, 220, 5, 5, 20, 74250, false}, {m1440x576i50_4_3, 1440, 288, 24, 126, 138, 2, 3, 19, 27000, true}, {m1440x576i50_16_9, 1440, 288, 24, 126, 138, 2, 3, 19, 27000, true}, {m1920x1080p50_16_9, 1920, 1080, 528, 44, 148, 4, 5, 36, 148500, false}, {m1920x1080p24_16_9, 1920, 1080, 638, 44, 148, 4, 5, 36, 74250, false}, {m1920x1080p25_16_9, 1920, 1080, 528, 44, 148, 4, 5, 36, 74250, false}, {m1920x1080p30_16_9, 1920, 1080, 88, 44, 148, 4, 5, 36, 74250, false}, }; int ExternalDisplay::parseResolution(char* edidStr, int* edidModes) { char delim = ','; int count = 0; char *start, *end; // EDIDs are string delimited by ',' // Ex: 16,4,5,3,32,34,1 // Parse this string to get mode(int) start = (char*) edidStr; end = &delim; while(*end == delim) { edidModes[count] = (int) strtol(start, &end, 10); start = end+1; count++; } ALOGD_IF(DEBUG, "In %s: count = %d", __FUNCTION__, count); for (int i = 0; i < count; i++) ALOGD_IF(DEBUG, "Mode[%d] = %d", i, edidModes[i]); return count; } bool ExternalDisplay::readResolution() { int hdmiEDIDFile = open(SYSFS_EDID_MODES, O_RDONLY, 0); int len = -1; if (hdmiEDIDFile < 0) { ALOGE("%s: edid_modes file '%s' not found", __FUNCTION__, SYSFS_EDID_MODES); return false; } else { len = read(hdmiEDIDFile, mEDIDs, sizeof(mEDIDs)-1); ALOGD_IF(DEBUG, "%s: EDID string: %s length = %d", __FUNCTION__, mEDIDs, len); if ( len <= 0) { ALOGE("%s: edid_modes file empty '%s'", __FUNCTION__, SYSFS_EDID_MODES); } else { while (len > 1 && isspace(mEDIDs[len-1])) --len; mEDIDs[len] = 0; } } close(hdmiEDIDFile); if(len > 0) { // GEt EDID modes from the EDID strings mModeCount = parseResolution(mEDIDs, mEDIDModes); ALOGD_IF(DEBUG, "%s: mModeCount = %d", __FUNCTION__, mModeCount); } return (strlen(mEDIDs) > 0); } const char* msmFbDevicePath[2] = { "/dev/graphics/fb1", "/dev/graphics/fb2"}; bool ExternalDisplay::openFrameBuffer(int fbNum) { if (mFd == -1) { mFd = open(msmFbDevicePath[fbNum-1], O_RDWR); if (mFd < 0) ALOGE("%s: %s not available", __FUNCTION__, msmFbDevicePath[fbNum-1]); } return (mFd > 0); } bool ExternalDisplay::closeFrameBuffer() { int ret = 0; if(mFd > 0) { ret = close(mFd); mFd = -1; } return (ret == 0); } // clears the vinfo, edid, best modes void ExternalDisplay::resetInfo() { memset(&mVInfo, 0, sizeof(mVInfo)); memset(mEDIDs, 0, sizeof(mEDIDs)); memset(mEDIDModes, 0, sizeof(mEDIDModes)); mModeCount = 0; mCurrentMode = -1; } int ExternalDisplay::getModeOrder(int mode) { switch (mode) { default: case m1440x480i60_4_3: return 1; // 480i 4:3 case m1440x480i60_16_9: return 2; // 480i 16:9 case m1440x576i50_4_3: return 3; // i576i 4:3 case m1440x576i50_16_9: return 4; // 576i 16:9 case m640x480p60_4_3: return 5; // 640x480 4:3 case m720x480p60_4_3: return 6; // 480p 4:3 case m720x480p60_16_9: return 7; // 480p 16:9 case m720x576p50_4_3: return 8; // 576p 4:3 case m720x576p50_16_9: return 9; // 576p 16:9 case m1920x1080i60_16_9: return 10; // 1080i 16:9 case m1280x720p50_16_9: return 11; // 720p@50Hz case m1280x720p60_16_9: return 12; // 720p@60Hz case m1920x1080p24_16_9: return 13; //1080p@24Hz case m1920x1080p25_16_9: return 14; //108-p@25Hz case m1920x1080p30_16_9: return 15; //1080p@30Hz case m1920x1080p50_16_9: return 16; //1080p@50Hz case m1920x1080p60_16_9: return 17; //1080p@60Hz } } // Get the best mode for the current HD TV int ExternalDisplay::getBestMode() { int bestOrder = 0; int bestMode = m640x480p60_4_3; Mutex::Autolock lock(mExtDispLock); // for all the edid read, get the best mode for(int i = 0; i < mModeCount; i++) { int mode = mEDIDModes[i]; int order = getModeOrder(mode); if (order > bestOrder) { bestOrder = order; bestMode = mode; } } return bestMode; } inline bool ExternalDisplay::isValidMode(int ID) { return ((ID >= m640x480p60_4_3) && (ID <= m1920x1080p30_16_9)); } void ExternalDisplay::setResolution(int ID) { struct fb_var_screeninfo info; int ret = 0; if (!openFrameBuffer(EXTERN_DISPLAY_FB1)) return; ret = ioctl(mFd, FBIOGET_VSCREENINFO, &mVInfo); if(ret < 0) { ALOGD("In %s: FBIOGET_VSCREENINFO failed Err Str = %s", __FUNCTION__, strerror(errno)); } ALOGD_IF(DEBUG, "%s: GET Info", __FUNCTION__, mVInfo.reserved[3], mVInfo.xres, mVInfo.yres, mVInfo.right_margin, mVInfo.hsync_len, mVInfo.left_margin, mVInfo.lower_margin, mVInfo.vsync_len, mVInfo.upper_margin, mVInfo.pixclock/1000/1000); //If its a valid mode and its a new ID - update var_screeninfo if ((isValidMode(ID)) && mCurrentMode != ID) { const struct disp_mode_timing_type *mode = &supported_video_mode_lut[0]; unsigned count = sizeof(supported_video_mode_lut)/sizeof (*supported_video_mode_lut); for (unsigned int i = 0; i < count; ++i) { const struct disp_mode_timing_type *cur = &supported_video_mode_lut[i]; if (cur->video_format == ID) mode = cur; } mode->set_info(mVInfo); ALOGD_IF(DEBUG, "%s: SET Info Info", __FUNCTION__, ID, mVInfo.reserved[3], mVInfo.xres, mVInfo.yres, mVInfo.right_margin, mVInfo.hsync_len, mVInfo.left_margin, mVInfo.lower_margin, mVInfo.vsync_len, mVInfo.upper_margin, mVInfo.pixclock/1000/1000); mVInfo.activate = FB_ACTIVATE_NOW | FB_ACTIVATE_ALL | FB_ACTIVATE_FORCE; ret = ioctl(mFd, FBIOPUT_VSCREENINFO, &mVInfo); if(ret < 0) { ALOGD("In %s: FBIOPUT_VSCREENINFO failed Err Str = %s", __FUNCTION__, strerror(errno)); } mCurrentMode = ID; } //Powerup ret = ioctl(mFd, FBIOBLANK, FB_BLANK_UNBLANK); if(ret < 0) { ALOGD("In %s: FBIOBLANK failed Err Str = %s", __FUNCTION__, strerror(errno)); } ret = ioctl(mFd, FBIOGET_VSCREENINFO, &mVInfo); if(ret < 0) { ALOGD("In %s: FBIOGET_VSCREENINFO failed Err Str = %s", __FUNCTION__, strerror(errno)); } //Pan_Display ret = ioctl(mFd, FBIOPAN_DISPLAY, &mVInfo); if(ret < 0) { ALOGD("In %s: FBIOPAN_DISPLAY failed Err Str = %s", __FUNCTION__, strerror(errno)); } } /* * This function queries the msm_fb_type for fb1 and checks whether it is * HDMI or not * * Returns: * 0 -> WFD device * 1 -> HDMI device */ bool ExternalDisplay::isHDMIConfigured() { bool configured = false; FILE *displayDeviceFP = NULL; char fbType[MAX_FRAME_BUFFER_NAME_SIZE]; displayDeviceFP = fopen("/sys/class/graphics/fb1/msm_fb_type", "r"); if(displayDeviceFP) { fread(fbType, sizeof(char), MAX_FRAME_BUFFER_NAME_SIZE, displayDeviceFP); if(!strncmp(fbType, extPanelName[0], sizeof(extPanelName[0]))) { configured = true; } fclose(displayDeviceFP); } return configured; } void ExternalDisplay::processUEventOffline(const char *str) { const char *s1 = str + (strlen(str)-strlen(DEVICE_NODE_FB1)); // check if it is for FB1 if(strncmp(s1,DEVICE_NODE_FB1, strlen(DEVICE_NODE_FB1))== 0) { if(isHDMIConfigured()) { enableHDMIVsync(EXTERN_DISPLAY_NONE); closeFrameBuffer(); resetInfo(); } else { closeFrameBuffer(); } } else if(strncmp(s1, DEVICE_NODE_FB2, strlen(DEVICE_NODE_FB2)) == 0) { closeFrameBuffer(); } setExternalDisplay(EXTERN_DISPLAY_NONE); } void ExternalDisplay::configureWFDDisplay(int fbIndex) { int ret = 0; if (!openFrameBuffer(fbIndex)) return; ret = ioctl(mFd, FBIOGET_VSCREENINFO, &mVInfo); if(ret < 0) { ALOGD("In %s: FBIOGET_VSCREENINFO failed Err Str = %s", __FUNCTION__, strerror(errno)); } mVInfo.activate = FB_ACTIVATE_NOW | FB_ACTIVATE_ALL | FB_ACTIVATE_FORCE; } void ExternalDisplay::processUEventOnline(const char *str) { const char *s1 = str + (strlen(str)-strlen(DEVICE_NODE_FB1)); // check if it is for FB1 if(strncmp(s1,DEVICE_NODE_FB1, strlen(DEVICE_NODE_FB1))== 0) { if(isHDMIConfigured()) { // HDMI connect event. // Tear-down WFD if it is active. if(mExternalDisplay == EXTERN_DISPLAY_FB2) { closeFrameBuffer(); setExternalDisplay(EXTERN_DISPLAY_NONE); } readResolution(); //Get the best mode and set setResolution(getBestMode()); enableHDMIVsync(EXTERN_DISPLAY_FB1); } else { configureWFDDisplay(EXTERN_DISPLAY_FB1); } setExternalDisplay(EXTERN_DISPLAY_FB1); } else if(strncmp(s1, DEVICE_NODE_FB2, strlen(DEVICE_NODE_FB2)) == 0) { // WFD connect event if(mExternalDisplay == EXTERN_DISPLAY_FB1) { // HDMI has higher priority. // Do Not Override. }else { // WFD is connected configureWFDDisplay(EXTERN_DISPLAY_FB2); setExternalDisplay(EXTERN_DISPLAY_FB2); } } } void ExternalDisplay::setExternalDisplay(int connected) { hwc_context_t* ctx = mHwcContext; if(ctx) { ALOGD_IF(DEBUG, "%s: status = %d", __FUNCTION__, connected); // Store the external display mExternalDisplay = connected; const char* prop = (connected) ? "1" : "0"; // set system property property_set("hw.hdmiON", prop); //Invalidate hwc_procs* proc = (hwc_procs*)ctx->device.reserved_proc[0]; if(!proc) { ALOGE("%s: HWC proc not registered", __FUNCTION__); } else { /* Trigger redraw */ ALOGD_IF(DEBUG, "%s: Invalidate !!", __FUNCTION__); proc->invalidate(proc); } } return; } bool ExternalDisplay::writeHPDOption(int userOption) const { bool ret = true; int hdmiHPDFile = open(SYSFS_HPD,O_RDWR, 0); if (hdmiHPDFile < 0) { ALOGE("%s: state file '%s' not found : ret%d" "err str: %s", __FUNCTION__, SYSFS_HPD, hdmiHPDFile, strerror(errno)); ret = false; } else { int err = -1; ALOGD_IF(DEBUG, "%s: option = %d", __FUNCTION__, userOption); if(userOption) err = write(hdmiHPDFile, "1", 2); else err = write(hdmiHPDFile, "0" , 2); if (err <= 0) { ALOGE("%s: file write failed '%s'", __FUNCTION__, SYSFS_HPD); ret = false; } close(hdmiHPDFile); } return ret; } bool ExternalDisplay::commit() { if(mFd == -1) { return false; } else if(ioctl(mFd, FBIOPUT_VSCREENINFO, &mVInfo) == -1) { ALOGE("%s: FBIOPUT_VSCREENINFO failed, str: %s", __FUNCTION__, strerror(errno)); return false; } return true; } int ExternalDisplay::enableHDMIVsync(int enable) { #ifndef NO_HW_VSYNC if(mFd > 0) { int ret = ioctl(mFd, MSMFB_OVERLAY_VSYNC_CTRL, &enable); if (ret<0) { ALOGE("%s: enabling HDMI vsync failed, str: %s", __FUNCTION__, strerror(errno)); } } #endif return -errno; } };