mirror of
https://github.com/google/sandboxed-api.git
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239 lines
9.2 KiB
C++
239 lines
9.2 KiB
C++
// Copyright 2020 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include <array>
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#include <cstring>
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#include "gtest/gtest.h"
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#include "helper.h"
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#include "tiffio.h" // NOLINT(build/include)
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namespace {
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struct ChannelLimits {
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uint8_t min_red;
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uint8_t max_red;
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uint8_t min_green;
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uint8_t max_green;
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uint8_t min_blue;
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uint8_t max_blue;
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uint8_t min_alpha;
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uint8_t max_alpha;
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};
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constexpr unsigned kRawTileNumber = 9;
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constexpr unsigned kClusterSize = 6;
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constexpr unsigned kChannelsInPixel = 3;
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constexpr unsigned kTestCount = 3;
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constexpr unsigned kImageSize = 128 * 128;
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constexpr unsigned kClusterImageSize = 64 * 64;
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using ClusterData = std::array<uint8_t, kClusterSize>;
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constexpr std::array<std::pair<unsigned, ClusterData>, kTestCount> kClusters = {
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{{0, {0, 0, 2, 0, 138, 139}},
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{64, {0, 0, 9, 6, 134, 119}},
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{128, {44, 40, 63, 59, 230, 95}}}};
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constexpr std::array<std::pair<unsigned, ChannelLimits>, kTestCount> kLimits = {
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{{0, {15, 18, 0, 0, 18, 41, 255, 255}},
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{64, {0, 0, 0, 0, 0, 2, 255, 255}},
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{512, {5, 6, 34, 36, 182, 196, 255, 255}}}};
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bool CheckCluster(unsigned cluster, const sapi::v::Array<uint8_t>& buffer,
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const ClusterData& expected_cluster) {
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bool is_overrun = (buffer.GetSize() <= cluster * kClusterSize);
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EXPECT_THAT(is_overrun, IsFalse()) << "Overrun";
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if (is_overrun) {
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return true;
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}
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auto target = buffer.GetData() + cluster * kClusterSize;
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bool comp =
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!(std::memcmp(target, expected_cluster.data(), kClusterSize) == 0);
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// the image is split on 6-bit clusters because it has YCbCr color format
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EXPECT_THAT(comp, IsFalse())
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<< "Cluster " << cluster << " did not match expected results.\n"
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<< "Expect: " << expected_cluster[0] << "\t" << expected_cluster[1]
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<< "\t" << expected_cluster[2] << "\t" << expected_cluster[3] << "\t"
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<< expected_cluster[4] << "\t" << expected_cluster[5] << "\n"
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<< "Got: " << target[0] << "\t" << target[1] << "\t" << target[2] << "\t"
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<< target[3] << "\t" << target[4] << "\t" << target[5];
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return comp;
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}
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bool CheckRgbPixel(unsigned pixel, const ChannelLimits& limits,
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const sapi::v::Array<uint8_t>& buffer) {
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bool is_overrun = (buffer.GetSize() <= pixel * kChannelsInPixel);
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EXPECT_THAT(is_overrun, IsFalse()) << "Overrun";
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if (is_overrun) {
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return true;
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}
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auto rgb = buffer.GetData() + pixel * kChannelsInPixel;
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bool comp = !(rgb[0] >= limits.min_red && rgb[0] <= limits.max_red &&
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rgb[1] >= limits.min_green && rgb[1] <= limits.max_green &&
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rgb[2] >= limits.min_blue && rgb[2] <= limits.max_blue);
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EXPECT_THAT(comp, IsFalse())
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<< "Pixel " << pixel << " did not match expected results.\n"
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<< "Got R=" << rgb[0] << " (expected " << limits.min_red
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<< "..=" << limits.max_red << "), G=" << rgb[1] << " (expected "
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<< limits.min_green << "..=" << limits.max_green << "), B=" << rgb[2]
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<< " (expected " << limits.min_blue << "..=" << limits.max_blue << ")";
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return comp;
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}
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bool CheckRgbaPixel(unsigned pixel, const ChannelLimits& limits,
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const sapi::v::Array<unsigned>& buffer) {
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// RGBA images are upside down - adjust for normal ordering
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unsigned adjusted_pixel = pixel % 128 + (127 - (pixel / 128)) * 128;
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bool is_overrun = (buffer.GetSize() <= adjusted_pixel);
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EXPECT_THAT(is_overrun, IsFalse()) << "Overrun";
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if (is_overrun) {
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return true;
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}
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auto rgba = buffer[adjusted_pixel];
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bool comp = !(TIFFGetR(rgba) >= static_cast<unsigned>(limits.min_red) &&
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TIFFGetR(rgba) <= static_cast<unsigned>(limits.max_red) &&
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TIFFGetG(rgba) >= static_cast<unsigned>(limits.min_green) &&
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TIFFGetG(rgba) <= static_cast<unsigned>(limits.max_green) &&
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TIFFGetB(rgba) >= static_cast<unsigned>(limits.min_blue) &&
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TIFFGetB(rgba) <= static_cast<unsigned>(limits.max_blue) &&
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TIFFGetA(rgba) >= static_cast<unsigned>(limits.min_alpha) &&
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TIFFGetA(rgba) <= static_cast<unsigned>(limits.max_alpha));
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EXPECT_THAT(comp, IsFalse())
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<< "Pixel " << pixel << " did not match expected results.\n"
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<< "Got R=" << TIFFGetR(rgba) << " (expected " << limits.min_red
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<< "..=" << limits.max_red << "), G=" << TIFFGetG(rgba) << " (expected "
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<< limits.min_green << "..=" << limits.max_green
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<< "), B=" << TIFFGetB(rgba) << " (expected " << limits.min_blue
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<< "..=" << limits.max_blue << "), A=" << TIFFGetA(rgba) << " (expected "
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<< limits.min_alpha << "..=" << limits.max_alpha << ")";
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return comp;
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}
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TEST(SandboxTest, RawDecode) {
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tsize_t sz;
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bool pixel_status = false;
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bool cluster_status = false;
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std::string srcfile = GetFilePath("quad-tile.jpg.tiff");
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TiffSapiSandbox sandbox(srcfile);
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ASSERT_THAT(sandbox.Init(), IsOk()) << "Couldn't initialize Sandboxed API";
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sapi::v::UShort h, v;
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absl::StatusOr<TIFF*> status_or_tif;
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absl::StatusOr<int> status_or_int;
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absl::StatusOr<tmsize_t> status_or_long;
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TiffApi api(&sandbox);
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sapi::v::ConstCStr srcfile_var(srcfile.c_str());
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sapi::v::ConstCStr r_var("r");
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status_or_tif = api.TIFFOpen(srcfile_var.PtrBefore(), r_var.PtrBefore());
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ASSERT_THAT(status_or_tif, IsOk()) << "Could not open " << srcfile;
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sapi::v::RemotePtr tif(status_or_tif.value());
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ASSERT_THAT(tif.GetValue(), NotNull())
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<< "Could not open " << srcfile << ", TIFFOpen return NULL";
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status_or_int = api.TIFFGetField2(&tif, TIFFTAG_YCBCRSUBSAMPLING, h.PtrBoth(),
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v.PtrBoth());
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ASSERT_THAT(status_or_int, IsOk()) << "TIFFGetField2 fatal error";
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EXPECT_THAT(
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status_or_int.value() == 0 || h.GetValue() != 2 || v.GetValue() != 2,
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IsFalse())
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<< "Could not retrieve subsampling tag";
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status_or_long = api.TIFFTileSize(&tif);
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ASSERT_THAT(status_or_int, IsOk()) << "TIFFTileSize fatal error";
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EXPECT_THAT(status_or_long.value(), Eq(kClusterImageSize * kClusterSize))
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<< "Unexpected TileSize " << status_or_long.value() << ". Expected "
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<< kClusterImageSize * kClusterSize << " bytes\n";
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sz = status_or_long.value();
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sapi::v::Array<uint8_t> buffer_(sz);
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// Read a tile in decompressed form, but still YCbCr subsampled
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status_or_long =
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api.TIFFReadEncodedTile(&tif, kRawTileNumber, buffer_.PtrBoth(), sz);
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ASSERT_THAT(status_or_long, IsOk()) << "TIFFReadEncodedTile fatal error";
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EXPECT_THAT(status_or_long.value(), Eq(sz))
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<< "Did not get expected result code from TIFFReadEncodedTile()("
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<< (int)status_or_long.value() << " instead of " << (int)sz << ")";
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for (const auto& [id, data] : kClusters) {
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cluster_status |= CheckCluster(id, buffer_, data);
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}
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ASSERT_FALSE(cluster_status) << "Clusters did not match expected results";
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status_or_int =
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api.TIFFSetFieldU1(&tif, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
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ASSERT_THAT(status_or_int, IsOk()) << "TIFFSetFieldU1 fatal error";
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EXPECT_THAT(status_or_int.value(), IsTrue())
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<< "The JPEGCOLORMODE tag cannot be changed";
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status_or_long = api.TIFFTileSize(&tif);
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ASSERT_THAT(status_or_long, IsOk()) << "TIFFTileSize fatal error";
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EXPECT_THAT(status_or_long.value(), Eq(kImageSize * kChannelsInPixel))
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<< "Unexpected TileSize " << status_or_long.value() << ". Expected "
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<< kImageSize * kChannelsInPixel << " bytes\n";
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sz = status_or_long.value();
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sapi::v::Array<uint8_t> buffer2_(sz);
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status_or_long =
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api.TIFFReadEncodedTile(&tif, kRawTileNumber, buffer2_.PtrBoth(), sz);
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ASSERT_THAT(status_or_long, IsOk()) << "TIFFReadEncodedTile fatal error";
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EXPECT_THAT(status_or_long.value(), Eq(sz))
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<< "Did not get expected result code from TIFFReadEncodedTile()("
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<< status_or_long.value() << " instead of " << sz;
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for (const auto& [id, data] : kLimits) {
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pixel_status |= CheckRgbPixel(id, data, buffer2_);
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}
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ASSERT_THAT(api.TIFFClose(&tif), IsOk()) << "TIFFClose fatal error";
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status_or_tif = api.TIFFOpen(srcfile_var.PtrBefore(), r_var.PtrBefore());
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ASSERT_THAT(status_or_tif, IsOk()) << "TIFFOpen fatal error";
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sapi::v::RemotePtr tif2(status_or_tif.value());
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ASSERT_THAT(tif2.GetValue(), NotNull())
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<< "Could not open " << srcfile << ", TIFFOpen return NULL";
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sapi::v::Array<unsigned> rgba_buffer_(kImageSize);
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status_or_int =
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api.TIFFReadRGBATile(&tif2, 1 * 128, 2 * 128, rgba_buffer_.PtrBoth());
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ASSERT_THAT(status_or_int, IsOk()) << "TIFFReadRGBATile fatal error";
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EXPECT_THAT(status_or_int.value(), IsTrue())
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<< "TIFFReadRGBATile() returned failure code";
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for (const auto& [id, data] : kLimits) {
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pixel_status |= CheckRgbaPixel(id, data, rgba_buffer_);
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}
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EXPECT_THAT(api.TIFFClose(&tif2), IsOk()) << "TIFFClose fatal error";
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EXPECT_THAT(pixel_status, IsFalse()) << "wrong encoding";
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}
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} // namespace
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