/* * Copyright 2007 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkPicture.h" #include "SkAtomics.h" #include "SkImageGenerator.h" #include "SkMathPriv.h" #include "SkPictureCommon.h" #include "SkPictureData.h" #include "SkPicturePlayback.h" #include "SkPicturePriv.h" #include "SkPictureRecord.h" #include "SkPictureRecorder.h" #include "SkSerialProcs.h" #include "SkTo.h" // When we read/write the SkPictInfo via a stream, we have a sentinel byte right after the info. // Note: in the read/write buffer versions, we have a slightly different convention: // We have a sentinel int32_t: // 0 : failure // 1 : PictureData // <0 : -size of the custom data enum { kFailure_TrailingStreamByteAfterPictInfo = 0, // nothing follows kPictureData_TrailingStreamByteAfterPictInfo = 1, // SkPictureData follows kCustom_TrailingStreamByteAfterPictInfo = 2, // -size32 follows }; /* SkPicture impl. This handles generic responsibilities like unique IDs and serialization. */ SkPicture::SkPicture() : fUniqueID(0) {} uint32_t SkPicture::uniqueID() const { static uint32_t gNextID = 1; uint32_t id = sk_atomic_load(&fUniqueID, sk_memory_order_relaxed); while (id == 0) { uint32_t next = sk_atomic_fetch_add(&gNextID, 1u); if (sk_atomic_compare_exchange(&fUniqueID, &id, next, sk_memory_order_relaxed, sk_memory_order_relaxed)) { id = next; } else { // sk_atomic_compare_exchange replaced id with the current value of fUniqueID. } } return id; } static const char kMagic[] = { 's', 'k', 'i', 'a', 'p', 'i', 'c', 't' }; SkPictInfo SkPicture::createHeader() const { SkPictInfo info; // Copy magic bytes at the beginning of the header static_assert(sizeof(kMagic) == 8, ""); static_assert(sizeof(kMagic) == sizeof(info.fMagic), ""); memcpy(info.fMagic, kMagic, sizeof(kMagic)); // Set picture info after magic bytes in the header info.setVersion(CURRENT_PICTURE_VERSION); info.fCullRect = this->cullRect(); return info; } bool SkPicture::IsValidPictInfo(const SkPictInfo& info) { if (0 != memcmp(info.fMagic, kMagic, sizeof(kMagic))) { return false; } if (info.getVersion() < MIN_PICTURE_VERSION || info.getVersion() > CURRENT_PICTURE_VERSION) { return false; } return true; } bool SkPicture::StreamIsSKP(SkStream* stream, SkPictInfo* pInfo) { if (!stream) { return false; } SkPictInfo info; SkASSERT(sizeof(kMagic) == sizeof(info.fMagic)); if (stream->read(&info.fMagic, sizeof(kMagic)) != sizeof(kMagic)) { return false; } uint32_t version; if (!stream->readU32(&version)) { return false; } info.setVersion(version); if (!stream->readScalar(&info.fCullRect.fLeft )) { return false; } if (!stream->readScalar(&info.fCullRect.fTop )) { return false; } if (!stream->readScalar(&info.fCullRect.fRight )) { return false; } if (!stream->readScalar(&info.fCullRect.fBottom)) { return false; } if (info.getVersion() < SkReadBuffer::kRemoveHeaderFlags_Version) { if (!stream->readU32(nullptr)) { return false; } } if (!IsValidPictInfo(info)) { return false; } if (pInfo) { *pInfo = info; } return true; } bool SkPicture_StreamIsSKP(SkStream* stream, SkPictInfo* pInfo) { return SkPicture::StreamIsSKP(stream, pInfo); } bool SkPicture::BufferIsSKP(SkReadBuffer* buffer, SkPictInfo* pInfo) { SkPictInfo info; SkASSERT(sizeof(kMagic) == sizeof(info.fMagic)); if (!buffer->readByteArray(&info.fMagic, sizeof(kMagic))) { return false; } info.setVersion(buffer->readUInt()); buffer->readRect(&info.fCullRect); if (info.getVersion() < SkReadBuffer::kRemoveHeaderFlags_Version) { (void)buffer->readUInt(); // used to be flags } if (IsValidPictInfo(info)) { if (pInfo) { *pInfo = info; } return true; } return false; } sk_sp SkPicture::Forwardport(const SkPictInfo& info, const SkPictureData* data, SkReadBuffer* buffer) { if (!data) { return nullptr; } if (!data->opData()) { return nullptr; } SkPicturePlayback playback(data); SkPictureRecorder r; playback.draw(r.beginRecording(info.fCullRect), nullptr/*no callback*/, buffer); return r.finishRecordingAsPicture(); } sk_sp SkPicture::MakeFromStream(SkStream* stream, const SkDeserialProcs* procs) { return MakeFromStream(stream, procs, nullptr); } sk_sp SkPicture::MakeFromData(const void* data, size_t size, const SkDeserialProcs* procs) { if (!data) { return nullptr; } SkMemoryStream stream(data, size); return MakeFromStream(&stream, procs, nullptr); } sk_sp SkPicture::MakeFromData(const SkData* data, const SkDeserialProcs* procs) { if (!data) { return nullptr; } SkMemoryStream stream(data->data(), data->size()); return MakeFromStream(&stream, procs, nullptr); } sk_sp SkPicture::MakeFromStream(SkStream* stream, const SkDeserialProcs* procsPtr, SkTypefacePlayback* typefaces) { SkPictInfo info; if (!StreamIsSKP(stream, &info)) { return nullptr; } SkDeserialProcs procs; if (procsPtr) { procs = *procsPtr; } uint8_t trailingStreamByteAfterPictInfo; if (!stream->readU8(&trailingStreamByteAfterPictInfo)) { return nullptr; } switch (trailingStreamByteAfterPictInfo) { case kPictureData_TrailingStreamByteAfterPictInfo: { std::unique_ptr data( SkPictureData::CreateFromStream(stream, info, procs, typefaces)); return Forwardport(info, data.get(), nullptr); } case kCustom_TrailingStreamByteAfterPictInfo: { int32_t ssize; if (!stream->readS32(&ssize) || ssize >= 0 || !procs.fPictureProc) { return nullptr; } size_t size = sk_negate_to_size_t(ssize); auto data = SkData::MakeUninitialized(size); if (stream->read(data->writable_data(), size) != size) { return nullptr; } return procs.fPictureProc(data->data(), size, procs.fPictureCtx); } default: // fall through to error return break; } return nullptr; } sk_sp SkPicturePriv::MakeFromBuffer(SkReadBuffer& buffer) { SkPictInfo info; if (!SkPicture::BufferIsSKP(&buffer, &info)) { return nullptr; } // size should be 0, 1, or negative int32_t ssize = buffer.read32(); if (ssize < 0) { const SkDeserialProcs& procs = buffer.fProcs; if (!procs.fPictureProc) { return nullptr; } size_t size = sk_negate_to_size_t(ssize); return procs.fPictureProc(buffer.skip(size), size, procs.fPictureCtx); } if (ssize != 1) { // 1 is the magic 'size' that means SkPictureData follows return nullptr; } std::unique_ptr data(SkPictureData::CreateFromBuffer(buffer, info)); return SkPicture::Forwardport(info, data.get(), &buffer); } SkPictureData* SkPicture::backport() const { SkPictInfo info = this->createHeader(); SkPictureRecord rec(SkISize::Make(info.fCullRect.width(), info.fCullRect.height()), 0/*flags*/); rec.beginRecording(); this->playback(&rec); rec.endRecording(); return new SkPictureData(rec, info); } void SkPicture::serialize(SkWStream* stream, const SkSerialProcs* procs) const { this->serialize(stream, procs, nullptr); } sk_sp SkPicture::serialize(const SkSerialProcs* procs) const { SkDynamicMemoryWStream stream; this->serialize(&stream, procs, nullptr); return stream.detachAsData(); } static sk_sp custom_serialize(const SkPicture* picture, const SkSerialProcs& procs) { if (procs.fPictureProc) { auto data = procs.fPictureProc(const_cast(picture), procs.fPictureCtx); if (data) { size_t size = data->size(); if (!SkTFitsIn(size) || size <= 1) { return SkData::MakeEmpty(); } return data; } } return nullptr; } static bool write_pad32(SkWStream* stream, const void* data, size_t size) { if (!stream->write(data, size)) { return false; } if (size & 3) { uint32_t zero = 0; return stream->write(&zero, 4 - (size & 3)); } return true; } void SkPicture::serialize(SkWStream* stream, const SkSerialProcs* procsPtr, SkRefCntSet* typefaceSet) const { SkSerialProcs procs; if (procsPtr) { procs = *procsPtr; } SkPictInfo info = this->createHeader(); stream->write(&info, sizeof(info)); if (auto custom = custom_serialize(this, procs)) { int32_t size = SkToS32(custom->size()); if (size == 0) { stream->write8(kFailure_TrailingStreamByteAfterPictInfo); return; } stream->write8(kCustom_TrailingStreamByteAfterPictInfo); stream->write32(-size); // negative for custom format write_pad32(stream, custom->data(), size); return; } std::unique_ptr data(this->backport()); if (data) { stream->write8(kPictureData_TrailingStreamByteAfterPictInfo); data->serialize(stream, procs, typefaceSet); } else { stream->write8(kFailure_TrailingStreamByteAfterPictInfo); } } void SkPicturePriv::Flatten(const sk_sp picture, SkWriteBuffer& buffer) { SkPictInfo info = picture->createHeader(); std::unique_ptr data(picture->backport()); buffer.writeByteArray(&info.fMagic, sizeof(info.fMagic)); buffer.writeUInt(info.getVersion()); buffer.writeRect(info.fCullRect); if (auto custom = custom_serialize(picture.get(), buffer.fProcs)) { int32_t size = SkToS32(custom->size()); buffer.write32(-size); // negative for custom format buffer.writePad32(custom->data(), size); return; } if (data) { buffer.write32(1); // special size meaning SkPictureData data->flatten(buffer); } else { buffer.write32(0); // signal no content } } sk_sp SkPicture::MakePlaceholder(SkRect cull) { struct Placeholder : public SkPicture { explicit Placeholder(SkRect cull) : fCull(cull) {} void playback(SkCanvas*, AbortCallback*) const override { } // approximateOpCount() needs to be greater than kMaxPictureOpsToUnrollInsteadOfRef // in SkCanvas.cpp to avoid that unrolling. SK_MaxS32 can't not be big enough! int approximateOpCount() const override { return SK_MaxS32; } size_t approximateBytesUsed() const override { return sizeof(*this); } SkRect cullRect() const override { return fCull; } SkRect fCull; }; return sk_make_sp(cull); }