/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/core/SkPicture.h" #include "include/core/SkStream.h" #include "include/private/SkTo.h" #include "src/core/SkFontDescriptor.h" #include "src/core/SkPictureCommon.h" #include "src/core/SkPictureData.h" #include "tools/flags/CommandLineFlags.h" static DEFINE_string2(input, i, "", "skp on which to report"); static DEFINE_bool2(version, v, true, "version"); static DEFINE_bool2(cullRect, c, true, "cullRect"); static DEFINE_bool2(flags, f, true, "flags"); static DEFINE_bool2(tags, t, true, "tags"); static DEFINE_bool2(quiet, q, false, "quiet"); // This tool can print simple information about an SKP but its main use // is just to check if an SKP has been truncated during the recording // process. // return codes: static const int kSuccess = 0; static const int kTruncatedFile = 1; static const int kNotAnSKP = 2; static const int kInvalidTag = 3; static const int kMissingInput = 4; static const int kIOError = 5; int main(int argc, char** argv) { CommandLineFlags::SetUsage("Prints information about an skp file"); CommandLineFlags::Parse(argc, argv); if (FLAGS_input.count() != 1) { if (!FLAGS_quiet) { SkDebugf("Missing input file\n"); } return kMissingInput; } SkFILEStream stream(FLAGS_input[0]); if (!stream.isValid()) { if (!FLAGS_quiet) { SkDebugf("Couldn't open file\n"); } return kIOError; } size_t totStreamSize = stream.getLength(); SkPictInfo info; if (!SkPicture_StreamIsSKP(&stream, &info)) { SkDebugf("Unsupported version %d\n", info.getVersion()); return kNotAnSKP; } if (FLAGS_version && !FLAGS_quiet) { SkDebugf("Version: %d\n", info.getVersion()); } if (FLAGS_cullRect && !FLAGS_quiet) { SkDebugf("Cull Rect: %f,%f,%f,%f\n", info.fCullRect.fLeft, info.fCullRect.fTop, info.fCullRect.fRight, info.fCullRect.fBottom); } bool hasData; if (!stream.readBool(&hasData)) { return kTruncatedFile; } if (!hasData) { // If we read true there's a picture playback object flattened // in the file; if false, there isn't a playback, so we're done // reading the file. return kSuccess; } for (;;) { uint32_t tag; if (!stream.readU32(&tag)) { return kTruncatedFile; } if (SK_PICT_EOF_TAG == tag) { break; } uint32_t chunkSize; if (!stream.readU32(&chunkSize)) { return kTruncatedFile; } size_t curPos = stream.getPosition(); // "move" doesn't error out when seeking beyond the end of file // so we need a preemptive check here. if (curPos+chunkSize > totStreamSize) { if (!FLAGS_quiet) { SkDebugf("truncated file\n"); } return kTruncatedFile; } // Not all the tags store the chunk size (in bytes). Three // of them store tag-specific size information (e.g., number of // fonts) instead. This forces us to early exit when those // chunks are encountered. switch (tag) { case SK_PICT_READER_TAG: if (FLAGS_tags && !FLAGS_quiet) { SkDebugf("SK_PICT_READER_TAG %d\n", chunkSize); } break; case SK_PICT_FACTORY_TAG: if (FLAGS_tags && !FLAGS_quiet) { SkDebugf("SK_PICT_FACTORY_TAG %d\n", chunkSize); } break; case SK_PICT_TYPEFACE_TAG: { if (FLAGS_tags && !FLAGS_quiet) { SkDebugf("SK_PICT_TYPEFACE_TAG %d\n", chunkSize); } const int count = SkToInt(chunkSize); for (int i = 0; i < count; i++) { SkFontDescriptor desc; if (!SkFontDescriptor::Deserialize(&stream, &desc)) { if (!FLAGS_quiet) { SkDebugf("File corruption in SkFontDescriptor\n"); } return kInvalidTag; } } // clear this since we've consumed all the typefaces chunkSize = 0; break; } case SK_PICT_PICTURE_TAG: if (FLAGS_tags && !FLAGS_quiet) { SkDebugf("SK_PICT_PICTURE_TAG %d\n", chunkSize); SkDebugf("Exiting early due to format limitations\n"); } return kSuccess; // TODO: need to store size in bytes break; case SK_PICT_BUFFER_SIZE_TAG: if (FLAGS_tags && !FLAGS_quiet) { SkDebugf("SK_PICT_BUFFER_SIZE_TAG %d\n", chunkSize); } break; default: if (!FLAGS_quiet) { SkDebugf("Unknown tag %d\n", chunkSize); } return kInvalidTag; } if (!stream.move(chunkSize)) { if (!FLAGS_quiet) { SkDebugf("seek error\n"); } return kTruncatedFile; } } return kSuccess; }