/* * Copyright Samsung Electronics Co.,LTD. * Copyright (C) 2015 The Android Open Source Project * * 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. */ #include #include #include #include #include #include #include "AppMarkerWriter.h" #include "ThumbnailScaler.h" #include "hwjpeg-internal.h" // Data length written by H/W without the scan data. #define NECESSARY_JPEG_LENGTH (0x24B + 2 * JPEG_MARKER_SIZE) static size_t GetImageLength(unsigned int width, unsigned int height, int v4l2Format) { size_t size = width * height; switch (v4l2Format) { case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_YVYU: case V4L2_PIX_FMT_UYVY: case V4L2_PIX_FMT_VYUY: case V4L2_PIX_FMT_NV16: case V4L2_PIX_FMT_NV61: case V4L2_PIX_FMT_YUV422P: return size * 2; case V4L2_PIX_FMT_NV12: case V4L2_PIX_FMT_NV21: case V4L2_PIX_FMT_NV12M: case V4L2_PIX_FMT_NV21M: case V4L2_PIX_FMT_YUV420: return size + (size / 4) * 2; } return 0; } static int GetThumbnailFormat(int v4l2Format) { if (v4l2Format == V4L2_PIX_FMT_NV12M) return V4L2_PIX_FMT_NV12; else if (v4l2Format == V4L2_PIX_FMT_NV21M) return V4L2_PIX_FMT_NV21; else return v4l2Format; } ExynosJpegEncoderForCamera::ExynosJpegEncoderForCamera(bool bBTBComp) : m_phwjpeg4thumb(NULL), m_fdIONClient(-1), m_fdIONThumbImgBuffer(-1), m_pIONThumbImgBuffer(NULL), m_szIONThumbImgBuffer(0), m_pIONThumbJpegBuffer(NULL), m_fdIONThumbJpegBuffer(-1), m_szIONThumbJpegBuffer(0), m_nThumbWidth(0), m_nThumbHeight(0), m_nThumbQuality(0), m_pStreamBase(NULL), m_fThumbBufferType(0) { m_pAppWriter = new CAppMarkerWriter(); if (!m_pAppWriter) { ALOGE("Failed to allocated an instance of CAppMarkerWriter"); return; } m_phwjpeg4thumb = new CHWJpegV4L2Compressor(); if (!m_phwjpeg4thumb) { ALOGE("Failed to create thumbnail compressor!"); return; } if (!m_phwjpeg4thumb->SetChromaSampFactor(2, 2)) { ALOGE("Failed to configure chroma subsampling factor to YUV420 for thumbnail compression"); } m_fdIONClient = exynos_ion_open(); if (m_fdIONClient < 0) { ALOGERR("Failed to create ION client for thumbnail conversion"); } if (!bBTBComp) SetState(STATE_NO_BTBCOMP); // STATE_THUMBSIZE_CHANGED is to know if thumbnail image size need to be // configured to HWJPEG. If HWJPEG does not support for back-to-back // compression, it should not be configured. if (IsBTBCompressionSupported()) SetState(STATE_THUMBSIZE_CHANGED); m_extraInfo.appInfo = m_appInfo; mThumbnailScaler.reset(ThumbnailScaler::createInstance()); if (!mThumbnailScaler->available()) ALOGW("Thumbnail scaler is not available."); ALOGD("ExynosJpegEncoderForCamera Created: %p, ION %d", this, m_fdIONClient); } ExynosJpegEncoderForCamera::~ExynosJpegEncoderForCamera() { delete m_pAppWriter; delete m_phwjpeg4thumb; if (m_pIONThumbImgBuffer != NULL) munmap(m_pIONThumbImgBuffer, m_szIONThumbImgBuffer); if (m_fdIONThumbImgBuffer >= 0) close(m_fdIONThumbImgBuffer); if (m_pIONThumbJpegBuffer) munmap(m_pIONThumbJpegBuffer, m_szIONThumbJpegBuffer); if (m_fdIONThumbJpegBuffer >= 0) close(m_fdIONThumbJpegBuffer); if (m_fdIONClient >= 0) exynos_ion_close(m_fdIONClient); ALOGD("ExynosJpegEncoderForCamera Destroyed: %p, ION %d, ThumIMG %d", this, m_fdIONClient, m_fdIONThumbImgBuffer); } int ExynosJpegEncoderForCamera::setThumbnailSize(int w, int h) { if ((m_nThumbWidth == w) && (m_nThumbHeight == h)) return 0; // w == 0 and h == 0 resets thumbnail configuration if (((w | h) != 0) && ((w < 16) || (h < 16))) { ALOGE("Too small thumbnail image size %dx%d", w, h); return -1; } m_nThumbWidth = w; m_nThumbHeight = h; if (IsBTBCompressionSupported()) SetState(STATE_THUMBSIZE_CHANGED); return 0; } int ExynosJpegEncoderForCamera::setThumbnailQuality(int quality) { if (m_nThumbQuality == quality) return 0; if ((quality > 100) || (quality < 1)) { ALOGE("Invalid quality factor %d for thumbnail image", quality); return -1; } m_nThumbQuality = quality; return GetCompressor().SetQuality(0, m_nThumbQuality) ? 0 : -1; } int ExynosJpegEncoderForCamera::setThumbnailPadding(unsigned char *padding, unsigned int num_planes) { return GetCompressor().SetPadding2(padding, num_planes) ? 0 : -1; } bool ExynosJpegEncoderForCamera::EnsureFormatIsApplied() { if (TestStateEither(STATE_PIXFMT_CHANGED | STATE_SIZE_CHANGED | STATE_THUMBSIZE_CHANGED)) { int thumb_width = m_nThumbWidth; int thumb_height = m_nThumbHeight; int width = 0; int height = 0; if (IsThumbGenerationNeeded() || !IsBTBCompressionSupported()) { thumb_width = 0; thumb_height = 0; } getSize(&width, &height); if (!GetCompressor().SetImageFormat(getColorFormat(), width, height, thumb_width, thumb_height)) return false; ClearState(STATE_PIXFMT_CHANGED | STATE_SIZE_CHANGED | STATE_THUMBSIZE_CHANGED); } return true; } size_t ExynosJpegEncoderForCamera::RemoveTrailingDummies(char *base, size_t len) { ALOG_ASSERT(len > 4); ALOG_ASSERT((base[0] == 0xFF) && (base[1] == 0xD8)); // SOI marker size_t riter = len - 2; while (riter > 0) { if ((base[riter] == 0xFF) && (base[riter + 1] == 0xD9)) { // EOI marker ALOGI_IF(riter < (len - 2), "Found %zu dummies after EOI", len - riter - 2); return riter + 2; } riter--; } ALOGE("EOI is not found!"); ALOG_ASSERT(true); return 0; } void *ExynosJpegEncoderForCamera::tCompressThumbnail(void *p) { ExynosJpegEncoderForCamera *encoder = reinterpret_cast(p); size_t thumblen = encoder->CompressThumbnail(); return reinterpret_cast(thumblen); } bool ExynosJpegEncoderForCamera::ProcessExif(char *base, size_t limit, exif_attribute_t *exifInfo, extra_appinfo_t *extra) { // PREREQUISITES: The main and the thumbnail image size should be configured before. // Sanity chck uint32_t width = 0; uint32_t height = 0; getSize(reinterpret_cast(&width), reinterpret_cast(&height)); if (exifInfo) { if ((exifInfo->width != width) || (exifInfo->height != height)) { ALOGE("Inconsistent image dimension: Exif %dx%d, Thumb %dx%d", exifInfo->width, exifInfo->height, width, height); return false; } if (exifInfo->enableThumb) { if ((exifInfo->widthThumb != static_cast(m_nThumbWidth)) || (exifInfo->heightThumb != static_cast(m_nThumbHeight))) { ALOGE("Inconsistent thumbnail information: Exif %dx%d, Thumb %dx%d", exifInfo->widthThumb, exifInfo->heightThumb, m_nThumbWidth, m_nThumbHeight); return false; } } } // Giving appwriter the address beyond SOS marker // because it is handled by this class size_t align = 16; if (!!(GetDeviceCapabilities() & V4L2_CAP_EXYNOS_JPEG_NO_STREAMBASE_ALIGN)) align = 1; m_pAppWriter->PrepareAppWriter(base + JPEG_MARKER_SIZE, exifInfo, extra); if (limit <= (m_pAppWriter->CalculateAPPSize(0) + NECESSARY_JPEG_LENGTH)) { ALOGE("Too small JPEG stream buffer size, %zu bytes", limit); return false; } bool reserve_thumbspace = true; // If the length of the given stream buffer is too small, and thumbnail // compression is also required, the compressed stream data of the main // image is appeneded after the end of the fields if IFD1. The place is // actually reserved for the embedded thumbnail but the main JPEG stream // is written in this case because it is unknown how the compressed data // of the thumbnail image will be. // After the main and the thumbnail image compressions are completed, // the compressed data of the main image is shifted by the length of the // compressed data of the thumbnail image. Then the compressed data of // the thumbnail image is copied to the place for it. if (!exifInfo || !exifInfo->enableThumb || (limit < (JPEG_MAX_SEGMENT_SIZE * 10))) reserve_thumbspace = false; m_pAppWriter->Write(reserve_thumbspace, JPEG_MARKER_SIZE, align, TestState(STATE_HWFC_ENABLED)); ALOGD("Image compression starts from offset %zu (APPx size %zu, HWFC? %d, NBTB? %d)", PTR_DIFF(base, m_pAppWriter->GetMainStreamBase()), m_pAppWriter->CalculateAPPSize(), TestState(STATE_HWFC_ENABLED), TestState(STATE_NO_BTBCOMP)); return true; } bool ExynosJpegEncoderForCamera::PrepareCompression(bool thumbnail) { if (!thumbnail) return true; if (IsThumbGenerationNeeded()) { if (pthread_create(&m_threadWorker, NULL, tCompressThumbnail, reinterpret_cast(this)) != 0) { ALOGERR("Failed to create thumbnail generation thread"); return false; } } else { // allocate temporary thumbnail stream buffer // to prevent overflow of the compressed stream if (!AllocThumbJpegBuffer()) { return false; } } if (!TestState(STATE_NO_BTBCOMP) && IsBTBCompressionSupported()) { if (checkOutBufType() == JPEG_BUF_TYPE_USER_PTR) { if (!GetCompressor().SetJpegBuffer2(m_pIONThumbJpegBuffer, m_szIONThumbJpegBuffer)) { ALOGE("Failed to configure thumbnail buffer @ %p(size %zu)", m_pIONThumbJpegBuffer, m_szIONThumbJpegBuffer); return false; } } else { if (!GetCompressor().SetJpegBuffer2(m_fdIONThumbJpegBuffer, m_szIONThumbJpegBuffer)) { ALOGE("Failed to configure thumbnail buffer @ %d(size %zu)", m_fdIONThumbJpegBuffer, m_szIONThumbJpegBuffer); return false; } } } return true; } int ExynosJpegEncoderForCamera::encode(int *size, exif_attribute_t *exifInfo, char **pcJpegBuffer, debug_attribute_t *debugInfo) { return encode(size, exifInfo, -1, pcJpegBuffer, debugInfo); } int ExynosJpegEncoderForCamera::encode(int *size, exif_attribute_t *exifInfo, int fdJpegBuffer, char **pcJpegBuffer, debug_attribute_t *debugInfo) { if ((!debugInfo) || (debugInfo->num_of_appmarker == 0)) { extra_appinfo_t *extra = NULL; return encode(size, exifInfo, fdJpegBuffer, pcJpegBuffer, extra); } m_extraInfo.num_of_appmarker = 0; memset(m_appInfo, 0, sizeof(m_appInfo)); ExtractDebugAttributeInfo(debugInfo, &m_extraInfo); return encode(size, exifInfo, fdJpegBuffer, pcJpegBuffer, &m_extraInfo); } int ExynosJpegEncoderForCamera::encode(int *size, exif_attribute_t *exifInfo, int fdJpegBuffer, char **pcJpegBuffer, extra_appinfo_t *appInfo) { if (!(*pcJpegBuffer)) { ALOGE("Target stream buffer is not specified"); return -1; } if (*size <= 0) { ALOGE("Too small stram buffer length %d bytes", *size); return -1; } m_pStreamBase = *pcJpegBuffer; m_nStreamSize = *size; // contains max buffer length until the compression finishes char *jpeg_base = m_pStreamBase; ALOGI_IF(!exifInfo, "Exif is not specified. Skipping writing APP1 marker"); ALOGI_IF(!appInfo, "Debugging information is not specified. Skipping writing APP4 marker"); ALOGD("Given stream buffer size: %d bytes", *size); CStopWatch stopwatch(true); if (!ProcessExif(jpeg_base, m_nStreamSize, exifInfo, appInfo)) return -1; int offset = PTR_DIFF(m_pStreamBase, m_pAppWriter->GetMainStreamBase()); int buffsize = static_cast(m_nStreamSize - offset); if ((fdJpegBuffer < 0) || !(GetDeviceCapabilities() & V4L2_CAP_EXYNOS_JPEG_DMABUF_OFFSET)) { // JPEG_BUF_TYPE_USER_PTR if (setOutBuf(m_pAppWriter->GetMainStreamBase(), buffsize) < 0) { ALOGE("Failed to configure stream buffer : fd %d, addr %p, streamSize %d", fdJpegBuffer, m_pAppWriter->GetMainStreamBase(), buffsize); return -1; } } else { // JPEG_BUF_TYPE_DMA_BUF if (setOutBuf(fdJpegBuffer, buffsize, offset) < 0) { ALOGE("Failed to configure stream buffer : fd %d, addr %p, streamSize %d", fdJpegBuffer, m_pAppWriter->GetMainStreamBase(), buffsize); return -1; } } bool block_mode = !TestState(STATE_HWFC_ENABLED); bool thumbenc = m_pAppWriter->GetThumbStreamBase() != NULL; size_t thumblen = 0; // THUMB REQ? | THUMB IMG GIVEN? | B2B COMP? | HWFC(NONBLOCKING)? // CASE1: O | X | - | X // CASE2: O | X | - | O // CASE3: O | O | X | X // CASE4: O | O | O | X // CASE5: O | O | O | O // CASE6: X | - | - | - // CASE7: O | O | X | O // // CASE1 = thumbenc && IsThumbGenerationNeeded() && block_mode // CASE2 = thumbenc && IsThumbGenerationNeeded() && !block_mode // CASE3 = thumbenc && !IsThumbGenerationNeeded() && !IsBTBCompressionSupported() && !block_mode // CASE4 = thumbenc && !IsThumbGenerationNeeded() && !STATE_NO_BTBCOMP && // IsBTBCompressionSupported() && !block_mode CASE5 = thumbenc && !IsThumbGenerationNeeded() && // !STATE_NO_BTBCOMP && IsBTBCompressionSupported() && block_mode CASE6 = !thumbenc CASE7 = // thumbenc && !IsThumbGenerationNeeded() && STATE_NO_BTBCOMP && block_mode if (!thumbenc) { // Confirm that no thumbnail information is transferred to HWJPEG setThumbnailSize(0, 0); } else if (!IsThumbGenerationNeeded() && IsBTBCompressionSupported() && (m_fThumbBufferType != checkInBufType())) { ALOGE("Buffer types of thumbnail(%d) and main(%d) images should be the same", m_fThumbBufferType, checkInBufType()); return -1; } else if (!IsThumbGenerationNeeded() && (m_fThumbBufferType == 0)) { // Thumbnail buffer configuration failed but the client forces to compress with thumbnail ThumbGenerationNeeded(); SetState(STATE_THUMBSIZE_CHANGED); } if (!EnsureFormatIsApplied()) { ALOGE("Failed to confirm format"); return -1; } if (!PrepareCompression(thumbenc)) { ALOGE("Failed to prepare compression"); return -1; } ssize_t mainlen = GetCompressor().Compress(&thumblen, block_mode); if (mainlen < 0) { ALOGE("Error occured while JPEG compression: %zd", mainlen); return -1; } if (mainlen == 0) { /* non-blocking compression */ ALOGD("Waiting for MCSC run"); return 0; } *size = static_cast(FinishCompression(mainlen, thumblen)); if (*size < 0) return -1; ALOGD("....compression delay(usec.): HW %u, Total %lu)", GetHWDelay(), stopwatch.GetElapsed()); return 0; } ssize_t ExynosJpegEncoderForCamera::FinishCompression(size_t mainlen, size_t thumblen) { bool btb = false; size_t max_streamsize = m_nStreamSize; char *mainbase = m_pAppWriter->GetMainStreamBase(); char *thumbbase = m_pAppWriter->GetThumbStreamBase(); m_nStreamSize = 0; mainlen = RemoveTrailingDummies(mainbase, mainlen); // Clearing SOI of the main image written by H/W m_pAppWriter->GetMainStreamBase()[0] = 0; m_pAppWriter->GetMainStreamBase()[1] = 0; if (thumbbase) { if (IsThumbGenerationNeeded()) { void *len; int ret = pthread_join(m_threadWorker, &len); if (ret != 0) { ALOGERR("Failed to wait thumbnail thread(%d)", ret); return -1; } if (len == NULL) ALOGE("Error occurred during thumbnail creation: no thumbnail is embedded"); thumblen = reinterpret_cast(len); } else if (TestState(STATE_NO_BTBCOMP) || !IsBTBCompressionSupported()) { thumblen = CompressThumbnailOnly(m_pAppWriter->GetMaxThumbnailSize(), m_nThumbQuality, getColorFormat(), checkInBufType()); } else { btb = true; } size_t max_thumb = min(m_pAppWriter->GetMaxThumbnailSize(), max_streamsize - m_pAppWriter->CalculateAPPSize(0) - mainlen); if (thumblen > max_thumb) { ALOGI("Too large thumbnail (%dx%d) stream size %zu (max: %zu, quality factor %d)", m_nThumbWidth, m_nThumbHeight, thumblen, max_thumb, m_nThumbQuality); ALOGI("Retrying thumbnail compression with quality factor 50"); thumblen = CompressThumbnailOnly(max_thumb, 50, getColorFormat(), checkInBufType()); if (thumblen == 0) return -1; } if (!m_pAppWriter->IsThumbSpaceReserved()) { if (PTR_TO_ULONG(m_pStreamBase + max_streamsize) < PTR_TO_ULONG(mainbase + mainlen + thumblen - JPEG_MARKER_SIZE)) { ALOGE("Too small JPEG buffer length %zu (APP %zu, Main %zu, Thumb %zu)", max_streamsize, m_pAppWriter->CalculateAPPSize(thumblen), mainlen, thumblen); return -1; } // the SOI of the stream of the main image is stored after the APP4 or APP11 segment if // they exist. memmove(m_pAppWriter->GetApp1End() + thumblen, m_pAppWriter->GetApp1End(), mainlen + PTR_DIFF(m_pAppWriter->GetApp1End(), m_pAppWriter->GetMainStreamBase())); m_pAppWriter->UpdateApp1Size(thumblen); // m_nAppLength has the value of appwriter.GetExactAPPSize() // Therefore m_nStreamSize should be initialized with thumbnail stream length; } if (thumblen > 0) { memcpy(m_pAppWriter->GetThumbStreamBase(), m_pIONThumbJpegBuffer, thumblen); m_pAppWriter->Finalize(thumblen); } if (m_pAppWriter->IsThumbSpaceReserved()) { // clear the possible stale data in the dummy area after the thumbnail stream memset(m_pAppWriter->GetThumbStreamBase() + thumblen, 0, m_pAppWriter->GetMaxThumbnailSize() - thumblen + m_pAppWriter->GetAPP1ResrevedSize()); } } else { thumblen = 0; } m_nStreamSize += m_pAppWriter->CalculateAPPSize(thumblen) + mainlen; /* * m_nAppLength: The size of APP1 segment and APP4 segment including markers * getJpegSize(): size of the compressed stream of the main image * Note that 2 byte(size of SOI marker) is included in APP1 segment size. * Thus the size of SOI marker in front of the stream is not added. */ ALOGD("Completed image compression (%zd(thumb %zu) bytes, HWFC? %d, BTB? %d)", mainlen, thumblen, TestState(STATE_HWFC_ENABLED), btb); m_pStreamBase[0] = 0xFF; m_pStreamBase[1] = 0xD8; return m_nStreamSize; } /* The logic in WaitForHWFC() is the same with encode() */ ssize_t ExynosJpegEncoderForCamera::WaitForCompression() { if (!TestState(STATE_HWFC_ENABLED)) return m_nStreamSize; size_t thumblen = 0; ssize_t streamlen = GetCompressor().WaitForCompression(&thumblen); if (streamlen < 0) return streamlen; return FinishCompression(streamlen, thumblen); } bool ExynosJpegEncoderForCamera::GenerateThumbnailImage() { int main_width, main_height; if (getSize(&main_width, &main_height) < 0) { ALOGE("Failed to get main image size"); return false; } int v4l2Format = getColorFormat(); if (!AllocThumbBuffer(v4l2Format)) return false; ALOGD("Generating thumbnail image: %dx%d -> %dx%d", main_width, main_height, m_nThumbWidth, m_nThumbHeight); if (!mThumbnailScaler) { ALOGE("Thumbnail scaler is not prepared"); return false; } if (!mThumbnailScaler->SetSrcImage(main_width, main_height, v4l2Format)) { ALOGE("Failed to configure the main image to the thumbnail scaler"); return false; } if (!mThumbnailScaler->SetDstImage(m_nThumbWidth, m_nThumbHeight, GetThumbnailFormat(v4l2Format))) { ALOGE("Failed to configure the target image to the thumbnail scaler"); return false; } bool okay = false; if (checkInBufType() == JPEG_BUF_TYPE_USER_PTR) { char *bufs[ThumbnailScaler::SCALER_MAX_PLANES]; int len_srcbufs[ThumbnailScaler::SCALER_MAX_PLANES]; if (getInBuf(bufs, len_srcbufs, ThumbnailScaler::SCALER_MAX_PLANES) < 0) { ALOGE("Failed to retrieve the main image buffers"); return false; } okay = mThumbnailScaler->RunStream(bufs, len_srcbufs, m_fdIONThumbImgBuffer, m_szIONThumbImgBuffer); } else { // mainbuftype == JPEG_BUF_TYPE_DMA_BUF int bufs[ThumbnailScaler::SCALER_MAX_PLANES]; int len_srcbufs[ThumbnailScaler::SCALER_MAX_PLANES]; if (getInBuf(bufs, len_srcbufs, ThumbnailScaler::SCALER_MAX_PLANES) < 0) { ALOGE("Failed to retrieve the main image buffers"); return false; } okay = mThumbnailScaler->RunStream(bufs, len_srcbufs, m_fdIONThumbImgBuffer, m_szIONThumbImgBuffer); } if (!okay) { ALOGE("Failed to convert the main image to thumbnail with the thumbnail scaler"); return false; } return true; } size_t ExynosJpegEncoderForCamera::CompressThumbnail() { unsigned int v4l2Format = getColorFormat(); int buftype = checkInBufType(); if (IsThumbGenerationNeeded()) { if (!GenerateThumbnailImage()) return 0; // libcsc output configured by this class is always NV21. v4l2Format = GetThumbnailFormat(getColorFormat()); buftype = JPEG_BUF_TYPE_DMA_BUF; // reduced setInBuf2() m_fdThumbnailImageBuffer[0] = m_fdIONThumbImgBuffer; m_szThumbnailImageLen[0] = m_szIONThumbImgBuffer; } return CompressThumbnailOnly(m_pAppWriter->GetMaxThumbnailSize(), m_nThumbQuality, v4l2Format, buftype); } bool ExynosJpegEncoderForCamera::AllocThumbBuffer(int v4l2Format) { if (m_fdIONClient < 0) { ALOGE("ION client is not created"); return false; } size_t thumbbufsize = GetImageLength(m_nThumbWidth, m_nThumbHeight, v4l2Format); if (thumbbufsize == 0) { ALOGE("Unsupported V4L2 format %#X for thumbnail", v4l2Format); return false; } if (m_fdIONThumbImgBuffer >= 0) { if (m_szIONThumbImgBuffer >= thumbbufsize) return true; if (m_pIONThumbImgBuffer != NULL) munmap(m_pIONThumbImgBuffer, m_szIONThumbImgBuffer); close(m_fdIONThumbImgBuffer); m_fdIONThumbImgBuffer = -1; m_pIONThumbImgBuffer = NULL; m_szIONThumbImgBuffer = 0; } m_fdIONThumbImgBuffer = exynos_ion_alloc(m_fdIONClient, thumbbufsize, EXYNOS_ION_HEAP_SYSTEM_MASK, 0); if (m_fdIONThumbImgBuffer < 0) { ALOGERR("Failed to allocate %zu bytes for NV12 %ux%u", thumbbufsize, m_nThumbHeight, m_nThumbWidth); m_fdIONThumbImgBuffer = -1; return false; } m_szIONThumbImgBuffer = thumbbufsize; return AllocThumbJpegBuffer(); } bool ExynosJpegEncoderForCamera::AllocThumbJpegBuffer() { if (m_fdIONClient < 0) { ALOGE("ION client is not created"); return false; } size_t thumbbufsize = m_nThumbHeight * m_nThumbWidth * 3; if (m_pIONThumbJpegBuffer) { if (m_szIONThumbJpegBuffer >= thumbbufsize) return true; munmap(m_pIONThumbJpegBuffer, m_szIONThumbJpegBuffer); close(m_fdIONThumbJpegBuffer); m_szIONThumbJpegBuffer = 0; m_pIONThumbJpegBuffer = NULL; m_fdIONThumbJpegBuffer = -1; } m_fdIONThumbJpegBuffer = exynos_ion_alloc(m_fdIONClient, thumbbufsize, EXYNOS_ION_HEAP_SYSTEM_MASK, ION_FLAG_CACHED | ION_FLAG_CACHED_NEEDS_SYNC); if (m_fdIONThumbJpegBuffer < 0) { ALOGERR("Failed to allocate %zu bytes for thumbnail stream buffer of %ux%u", thumbbufsize, m_nThumbHeight, m_nThumbWidth); return false; } m_pIONThumbJpegBuffer = reinterpret_cast(mmap(NULL, thumbbufsize, PROT_READ | PROT_WRITE, MAP_SHARED, m_fdIONThumbJpegBuffer, 0)); if (m_pIONThumbJpegBuffer == MAP_FAILED) { ALOGERR("Failed to map thumbnail stream buffer (%zu bytes)", thumbbufsize); m_pIONThumbJpegBuffer = NULL; } else { m_szIONThumbJpegBuffer = thumbbufsize; } return m_pIONThumbJpegBuffer != NULL; } size_t ExynosJpegEncoderForCamera::CompressThumbnailOnly(size_t limit, int quality, unsigned int v4l2Format, int src_buftype) { if (!m_phwjpeg4thumb->SetImageFormat(v4l2Format, m_nThumbWidth, m_nThumbHeight)) { ALOGE("Failed to configure thumbnail source image format to %#010x, %ux%u", v4l2Format, m_nThumbWidth, m_nThumbHeight); return 0; } unsigned int num_buffers = 1; switch (v4l2Format) { case V4L2_PIX_FMT_YUV420M: [[fallthrough]]; case V4L2_PIX_FMT_YVU420M: num_buffers++; [[fallthrough]]; case V4L2_PIX_FMT_NV12M: [[fallthrough]]; case V4L2_PIX_FMT_NV21M: num_buffers++; break; } if (src_buftype == JPEG_BUF_TYPE_USER_PTR) { if (!m_phwjpeg4thumb->SetImageBuffer(m_pThumbnailImageBuffer, m_szThumbnailImageLen, num_buffers)) { ALOGE("Failed to configure thumbnail buffers(userptr) for thumbnail"); return 0; } } else { // JPEG_BUF_TYPE_DMA_BUF if (!m_phwjpeg4thumb->SetImageBuffer(m_fdThumbnailImageBuffer, m_szThumbnailImageLen, num_buffers)) { ALOGE("Failed to configure thumbnail buffers(dmabuf) for thumbnail"); return 0; } } if (!m_phwjpeg4thumb->SetJpegBuffer(m_fdIONThumbJpegBuffer, m_szIONThumbJpegBuffer)) { ALOGE("Failed to configure thumbnail stream buffer (fd %d, size %zu)", m_fdIONThumbJpegBuffer, m_szIONThumbJpegBuffer); return 0; } // Since the compressed stream of the thumbnail image is to be embedded in // APP1 segment, at the end of Exif metadata, the length of the stream should // not exceed the maximum length of a segment, 64KB minus the length of Exif // metadata. If the stream length is too large, repeat the compression until // the length become proper to embed. do { if (!m_phwjpeg4thumb->SetQuality(quality)) { ALOGE("Failed to configure thumbnail quality factor %u", quality); return 0; } ssize_t thumbsize = m_phwjpeg4thumb->Compress(); if (thumbsize < 0) { ALOGE("Failed to compress thumbnail"); return 0; } thumbsize = RemoveTrailingDummies(m_pIONThumbJpegBuffer, thumbsize); if (static_cast(thumbsize) > limit) { quality = min(50, quality - 10); ALOGI_IF(quality >= 20, "Too large thumbnail stream size %zu. Retrying with quality factor %d...", thumbsize, quality); } else { return thumbsize; } } while (quality >= 20); ALOG_ASSERT(false, "It should never reach here"); ALOGE("Thumbnail compression finally failed"); return 0; } int ExynosJpegEncoderForCamera::setInBuf2(int *piBuf, int *iSize) { NoThumbGenerationNeeded(); if (!EnsureFormatIsApplied()) return -1; CHWJpegCompressor &hwjpeg = GetCompressor(); unsigned int num_buffers = 3; if (!hwjpeg.GetImageBufferSizes(m_szThumbnailImageLen, &num_buffers)) { ALOGE("Failed to get image buffer sizes"); return -1; } for (unsigned int i = 0; i < num_buffers; i++) { m_szThumbnailImageLen[i] = iSize[i]; m_fdThumbnailImageBuffer[i] = piBuf[i]; } if (IsBTBCompressionSupported() && !hwjpeg.SetImageBuffer2(m_fdThumbnailImageBuffer, m_szThumbnailImageLen, num_buffers)) { ALOGE("Failed to configure thumbnail buffers"); return -1; } m_fThumbBufferType = JPEG_BUF_TYPE_DMA_BUF; return 0; } int ExynosJpegEncoderForCamera::setInBuf2(char **pcBuf, int *iSize) { NoThumbGenerationNeeded(); if (!EnsureFormatIsApplied()) return -1; CHWJpegCompressor &hwjpeg = GetCompressor(); unsigned int num_buffers = 3; if (!hwjpeg.GetImageBufferSizes(m_szThumbnailImageLen, &num_buffers)) { ALOGE("Failed to get image buffer sizes"); return -1; } for (unsigned int i = 0; i < num_buffers; i++) { m_szThumbnailImageLen[i] = iSize[i]; m_pThumbnailImageBuffer[i] = pcBuf[i]; } if (IsBTBCompressionSupported() && !hwjpeg.SetImageBuffer2(m_pThumbnailImageBuffer, m_szThumbnailImageLen, num_buffers)) { ALOGE("Failed to configure thumbnail buffers"); return -1; } m_fThumbBufferType = JPEG_BUF_TYPE_USER_PTR; return 0; } size_t ExynosJpegEncoderForCamera::GetThumbnailImage(char *buffer, size_t buflen) { if (m_fdIONThumbImgBuffer < 0) { ALOGE("No internal thumbnail buffer is allocated"); return 0; } size_t thumbbufsize = GetImageLength(m_nThumbWidth, m_nThumbHeight, getColorFormat()); if (buflen < thumbbufsize) { ALOGE("Too small buffer %zu (thumbnail image size %zu)", buflen, thumbbufsize); return 0; } ALOG_ASSERT(m_szIONThumbImgBuffer >= thumbbufsize, "m_szIONThumbImgBuffer(%zu) is smaller than the thumbnail (%zu)", m_szIONThumbImgBuffer, thumbbufsize); if (m_pIONThumbImgBuffer == NULL) { m_pIONThumbImgBuffer = reinterpret_cast( mmap(NULL, m_szIONThumbImgBuffer, PROT_READ, MAP_SHARED, m_fdIONThumbImgBuffer, 0)); if (m_pIONThumbImgBuffer == MAP_FAILED) { m_pIONThumbImgBuffer = NULL; ALOGERR("Failed to map thumbnail image buffer (%zu bytes)", m_szIONThumbImgBuffer); return 0; } } memcpy(buffer, m_pIONThumbImgBuffer, thumbbufsize); ALOGD("Copied thumbnail image to %p (%zu bytes)", buffer, thumbbufsize); return m_szIONThumbImgBuffer; } int ExynosJpegEncoderForCamera::destroy() { GetCompressor().Release(); return 0; }