jni/RedactionInfoTest.cpp - platform/packages/providers/MediaProvider - Git at Google

 /*
  * Copyright (C) 2019 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 specic language governing permissions and
  * limitations under the License.
  */

 #define LOG_TAG "RedactionInfoTest"

 #include <gtest/gtest.h>

 #include <memory>
 #include <ostream>
 #include <vector>

 #include "libfuse_jni/RedactionInfo.h"

 namespace mediaprovider::fuse {

 using std::vector;

 std::ostream& operator<<(std::ostream& os, const ReadRange& rr) {
     os << "{ " << rr.start << ", " << rr.size << ", " << rr.is_redaction << " }";
     return os;
 }

 TEST(RedactionInfoTest, testNoRedactionRanges) {
     RedactionInfo info(0, nullptr);
     EXPECT_EQ(0, info.size());
     EXPECT_EQ(false, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, std::numeric_limits<size_t>::max(), &out);
     EXPECT_EQ(0, out.size());
 }

 // Test the case where there is 1 redaction range.
 TEST(RedactionInfoTest, testSingleRedactionRange) {
     off64_t ranges[2] = {
             1,
             10,
     };

     RedactionInfo info(1, ranges);
     EXPECT_EQ(1, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     // Overlapping ranges
     std::vector<ReadRange> out;
     info.getReadRanges(0, 1000, &out);  // read offsets [0, 1000)
     EXPECT_EQ(3, out.size());
     EXPECT_EQ(ReadRange(0, 1, false), out[0]);
     EXPECT_EQ(ReadRange(1, 9, true), out[1]);
     EXPECT_EQ(ReadRange(10, 990, false), out[2]);

     out.clear();
     info.getReadRanges(0, 5, &out);  // read offsets [0, 5)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(0, 1, false), out[0]);  // offsets: [0, 1) len = 1
     EXPECT_EQ(ReadRange(1, 4, true), out[1]);   // offsets: [1, 5) len = 4

     out.clear();
     info.getReadRanges(1, 10, &out);  // read offsets [1, 11)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(1, 9, true), out[0]);    // offsets: [1, 10) len = 9
     EXPECT_EQ(ReadRange(10, 1, false), out[1]);  // offsets: [10, 11) len = 1

     // Read ranges that start or end with the boundary of the redacted area.
     out.clear();
     info.getReadRanges(5, 5, &out);  // read offsets [5, 10)
     EXPECT_EQ(1, out.size());
     EXPECT_EQ(ReadRange(5, 5, true), out[0]);  // offsets: [5, 10) len = 5

     out.clear();
     info.getReadRanges(1, 5, &out);  // read offsets [1, 6)
     EXPECT_EQ(1, out.size());
     EXPECT_EQ(ReadRange(1, 5, true), out[0]);  // offsets: [1, 6) len = 5

     // Read ranges adjoining the redacted area.
     out.clear();
     info.getReadRanges(10, 10, &out);  // read offsets [10, 20)
     EXPECT_EQ(0, out.size());

     out.clear();
     info.getReadRanges(0, 1, &out);  // read offsets [0, 1)
     EXPECT_EQ(0, out.size());

     // Read Range outside the redacted area.
     out.clear();
     info.getReadRanges(200, 10, &out);  // read offsets [200, 210)
     EXPECT_EQ(0, out.size());
 }

 // Multiple redaction ranges within a given area.
 TEST(RedactionInfoTest, testSortedAndNonOverlappingRedactionRanges) {
     // [10, 20), [30, 40), [40, 50)
     off64_t ranges[4] = {10, 20, 30, 40};

     RedactionInfo info = RedactionInfo(2, ranges);
     EXPECT_EQ(2, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 40, &out);  // read offsets [0, 40)
     EXPECT_EQ(4, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[2]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 10, true), out[3]);   // offsets [30, 40) len = 10

     // Read request straddling two ranges.
     out.clear();
     info.getReadRanges(5, 30, &out);  // read offsets [5, 35)
     EXPECT_EQ(4, out.size());
     EXPECT_EQ(ReadRange(5, 5, false), out[0]);    // offsets: [5, 10) len = 5
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[2]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 5, true), out[3]);    // offsets [30, 35) len = 5

     // Read request overlapping first range only.
     out.clear();
     info.getReadRanges(5, 10, &out);  // read offsets [5, 15)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(5, 5, false), out[0]);  // offsets: [5, 10) len = 5
     EXPECT_EQ(ReadRange(10, 5, true), out[1]);  // offsets: [10, 15) len = 5

     // Read request overlapping last range only.
     out.clear();
     info.getReadRanges(35, 10, &out);  // read offsets [35, 45)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(35, 5, true), out[0]);   // offsets: [35, 40) len = 5
     EXPECT_EQ(ReadRange(40, 5, false), out[1]);  // offsets: [40, 45) len = 5

     // Read request overlapping no ranges.
     out.clear();
     info.getReadRanges(0, 10, &out);  // read offsets [0, 10)
     EXPECT_EQ(0, out.size());
     out.clear();
     info.getReadRanges(21, 5, &out);  // read offsets [21, 26)
     EXPECT_EQ(0, out.size());
     out.clear();
     info.getReadRanges(40, 10, &out);  // read offsets [40, 50)
     EXPECT_EQ(0, out.size());
 }

 // Multiple redaction ranges overlapping with read range.
 TEST(RedactionInfoTest, testReadRangeOverlappingWithRedactionRanges) {
     // [10, 20), [30, 40)
     off64_t ranges[4] = {10, 20, 30, 40};

     RedactionInfo info = RedactionInfo(2, ranges);
     EXPECT_EQ(2, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     // Read request overlaps with end of the ranges.
     info.getReadRanges(20, 20, &out);  // read offsets [20, 40)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(20, 10, false), out[0]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 10, true), out[1]);   // offsets: [30, 40) len = 10

     // Read request overlapping with start of the ranges
     out.clear();
     info.getReadRanges(10, 20, &out);  // read offsets [10, 30)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(10, 10, true), out[0]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[1]);  // offsets: [20, 30) len = 10

     // Read request overlaps with start of one and end of other range.
     out.clear();
     info.getReadRanges(10, 30, &out);  // read offsets [10, 40)
     EXPECT_EQ(3, out.size());
     EXPECT_EQ(ReadRange(10, 10, true), out[0]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[1]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 10, true), out[2]);   // offsets: [30, 40) len = 10

     // Read request overlaps with end of one and start of other range.
     out.clear();
     info.getReadRanges(20, 10, &out);  // read offsets [20, 30)
     EXPECT_EQ(0, out.size());
 }

 TEST(RedactionInfoTest, testRedactionRangesSorted) {
     off64_t ranges[6] = {30, 40, 50, 60, 10, 20};

     RedactionInfo info = RedactionInfo(3, ranges);
     EXPECT_EQ(3, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 60, &out);  // read offsets [0, 60)
     EXPECT_EQ(6, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[2]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 10, true), out[3]);   // offsets [30, 40) len = 10
     EXPECT_EQ(ReadRange(40, 10, false), out[4]);  // offsets [40, 50) len = 10
     EXPECT_EQ(ReadRange(50, 10, true), out[5]);   // offsets [50, 60) len = 10

     // Read request overlapping first range only.
     out.clear();
     info.getReadRanges(5, 10, &out);  // read offsets [5, 15)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(5, 5, false), out[0]);  // offsets: [5, 10) len = 5
     EXPECT_EQ(ReadRange(10, 5, true), out[1]);  // offsets: [10, 15) len = 5

     // Read request overlapping last range only.
     out.clear();
     info.getReadRanges(55, 10, &out);  // read offsets [55, 65)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(55, 5, true), out[0]);   // offsets: [55, 60) len = 5
     EXPECT_EQ(ReadRange(60, 5, false), out[1]);  // offsets: [60, 65) len = 5

     // Read request overlapping no ranges.
     out.clear();
     info.getReadRanges(0, 10, &out);  // read offsets [0, 10)
     EXPECT_EQ(0, out.size());
     out.clear();
     info.getReadRanges(60, 10, &out);  // read offsets [60, 70)
     EXPECT_EQ(0, out.size());
 }

 // Test that the ranges are both sorted and merged
 TEST(RedactionInfoTest, testSortAndMergeRedactionRanges) {
     // Ranges are: [10, 20), [25, 40), [50, 60)
     off64_t ranges[8] = {30, 40, 10, 20, 25, 30, 50, 60};

     RedactionInfo info = RedactionInfo(4, ranges);
     EXPECT_EQ(3, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 60, &out);  // read offsets [0, 60)
     EXPECT_EQ(6, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 5, false), out[2]);   // offsets: [20, 25) len = 5
     EXPECT_EQ(ReadRange(25, 15, true), out[3]);   // offsets [25, 40) len = 15
     EXPECT_EQ(ReadRange(40, 10, false), out[4]);  // offsets [40, 50) len = 10
     EXPECT_EQ(ReadRange(50, 10, true), out[5]);   // offsets [50, 60) len = 10
 }

 // Test that the ranges are both sorted and merged when there's an overlap.
 //
 // TODO: Can this ever happen ? Will we ever be in a state where we need to
 // redact exif attributes that have overlapping ranges ?
 TEST(RedactionInfoTest, testSortAndMergeRedactionRanges_overlap) {
     // Ranges are: [10, 20), [25, 40), [50, 60)
     off64_t ranges[8] = {30, 40, 10, 20, 25, 34, 50, 60};

     RedactionInfo info = RedactionInfo(4, ranges);
     EXPECT_EQ(3, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 60, &out);  // read offsets [0, 60)
     EXPECT_EQ(6, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 5, false), out[2]);   // offsets: [20, 25) len = 5
     EXPECT_EQ(ReadRange(25, 15, true), out[3]);   // offsets [25, 40) len = 15
     EXPECT_EQ(ReadRange(40, 10, false), out[4]);  // offsets [40, 50) len = 10
     EXPECT_EQ(ReadRange(50, 10, true), out[5]);   // offsets [50, 60) len = 10
 }

 // WARNING: The tests below assume that merging of ranges happen during
 // object construction (which is asserted by the check on |info.size()|.
 // Therefore, we don't write redundant tests for boundary conditions that
 // we've covered above. If this ever changes, these tests need to be expanded.
 TEST(RedactionInfoTest, testMergeAllRangesIntoSingleRange) {
     // Ranges are: [8, 24)
     off64_t ranges[8] = {10, 20, 8, 14, 14, 24, 12, 16};

     RedactionInfo info = RedactionInfo(4, ranges);
     EXPECT_EQ(1, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 30, &out);  // read offsets [0, 30)
     EXPECT_EQ(3, out.size());
     EXPECT_EQ(ReadRange(0, 8, false), out[0]);   // offsets: [0, 8) len = 8
     EXPECT_EQ(ReadRange(8, 16, true), out[1]);   // offsets: [8, 24) len = 16
     EXPECT_EQ(ReadRange(24, 6, false), out[2]);  // offsets: [24, 30) len = 6

     // Ranges are: [85, 100)
     off64_t ranges2[10] = {90, 95, 95, 100, 85, 91, 92, 94, 99, 100};
     info = RedactionInfo(5, ranges2);
     EXPECT_EQ(1, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     out.clear();
     info.getReadRanges(80, 30, &out);  // read offsets [80, 110)
     EXPECT_EQ(3, out.size());
     EXPECT_EQ(ReadRange(80, 5, false), out[0]);    // offsets: [80, 85) len = 5
     EXPECT_EQ(ReadRange(85, 15, true), out[1]);    // offsets: [85, 100) len = 15
     EXPECT_EQ(ReadRange(100, 10, false), out[2]);  // offsets: [100, 110) len = 10
 }

 TEST(RedactionInfoTest, testMergeMultipleRanges) {
     // Ranges are: [10, 30), [60, 80)
     off64_t ranges[8] = {20, 30, 10, 20, 70, 80, 60, 70};

     RedactionInfo info = RedactionInfo(4, ranges);
     EXPECT_EQ(2, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     std::vector<ReadRange> out;
     info.getReadRanges(0, 100, &out);  // read offsets [0, 100)
     EXPECT_EQ(5, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 20, true), out[1]);   // offsets: [10, 30) len = 20
     EXPECT_EQ(ReadRange(30, 30, false), out[2]);  // offsets: [30, 60) len = 30
     EXPECT_EQ(ReadRange(60, 20, true), out[3]);   // offsets [60, 80) len = 20
     EXPECT_EQ(ReadRange(80, 20, false), out[4]);  // offsets [80, 100) len = 20
 }

 // Redaction ranges of size zero.
 TEST(RedactionInfoTest, testRedactionRangesZeroSize) {
     // [10, 20), [30, 40)
     off64_t ranges[6] = {10, 20, 30, 40, 25, 25};

     RedactionInfo info = RedactionInfo(3, ranges);
     EXPECT_EQ(2, info.size());
     EXPECT_EQ(true, info.isRedactionNeeded());

     // Normal read request, should skip range with zero size
     std::vector<ReadRange> out;
     info.getReadRanges(0, 40, &out);  // read offsets [0, 40)
     EXPECT_EQ(4, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);   // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);   // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 10, false), out[2]);  // offsets: [20, 30) len = 10
     EXPECT_EQ(ReadRange(30, 10, true), out[3]);   // offsets [30, 40) len = 10

     // Read request starting at offset overlapping with zero size range.
     out.clear();
     info.getReadRanges(25, 10, &out);  // read offsets [25, 35)
     EXPECT_EQ(2, out.size());
     EXPECT_EQ(ReadRange(25, 5, false), out[0]);  // offsets: [25, 30) len = 5
     EXPECT_EQ(ReadRange(30, 5, true), out[1]);   // offsets [30, 35) len = 5

     // 1 byte read request starting at offset overlapping with zero size range.
     out.clear();
     info.getReadRanges(25, 1, &out);  // read offsets [25, 26)
     EXPECT_EQ(0, out.size());

     // Read request ending at offset overlapping with zero size range.
     out.clear();
     info.getReadRanges(0, 25, &out);  // read offsets [0, 25)
     EXPECT_EQ(3, out.size());
     EXPECT_EQ(ReadRange(0, 10, false), out[0]);  // offsets: [0, 10) len = 10
     EXPECT_EQ(ReadRange(10, 10, true), out[1]);  // offsets: [10, 20) len = 10
     EXPECT_EQ(ReadRange(20, 5, false), out[2]);  // offsets: [20, 25) len = 10

     // Read request that includes only zero size range
     out.clear();
     info.getReadRanges(20, 10, &out);  // read offsets [20, 27)
     EXPECT_EQ(0, out.size());
 }

 // Single redaction range with zero size
 TEST(RedactionInfoTest, testSingleRedactionRangesZeroSize) {
     off64_t ranges[2] = {10, 10};

     RedactionInfo info = RedactionInfo(1, ranges);
     EXPECT_EQ(0, info.size());
     EXPECT_EQ(false, info.isRedactionNeeded());

     // Normal read request, should skip range with zero size
     std::vector<ReadRange> out;
     info.getReadRanges(0, 40, &out);  // read offsets [0, 40)
     EXPECT_EQ(0, out.size());
 }

 }  // namespace mediaprovider::fuse
	/*
	* Copyright (C) 2019 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 specic language governing permissions and
	* limitations under the License.
	*/

	#define LOG_TAG "RedactionInfoTest"

	#include <gtest/gtest.h>

	#include <memory>
	#include <ostream>
	#include <vector>

	#include "libfuse_jni/RedactionInfo.h"

	namespace mediaprovider::fuse {

	using std::vector;

	std::ostream& operator<<(std::ostream& os, const ReadRange& rr) {
	os << "{ " << rr.start << ", " << rr.size << ", " << rr.is_redaction << " }";
	return os;
	}

	TEST(RedactionInfoTest, testNoRedactionRanges) {
	RedactionInfo info(0, nullptr);
	EXPECT_EQ(0, info.size());
	EXPECT_EQ(false, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, std::numeric_limits<size_t>::max(), &out);
	EXPECT_EQ(0, out.size());
	}

	// Test the case where there is 1 redaction range.
	TEST(RedactionInfoTest, testSingleRedactionRange) {
	off64_t ranges[2] = {
	1,
	10,
	};

	RedactionInfo info(1, ranges);
	EXPECT_EQ(1, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	// Overlapping ranges
	std::vector<ReadRange> out;
	info.getReadRanges(0, 1000, &out); // read offsets [0, 1000)
	EXPECT_EQ(3, out.size());
	EXPECT_EQ(ReadRange(0, 1, false), out[0]);
	EXPECT_EQ(ReadRange(1, 9, true), out[1]);
	EXPECT_EQ(ReadRange(10, 990, false), out[2]);

	out.clear();
	info.getReadRanges(0, 5, &out); // read offsets [0, 5)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(0, 1, false), out[0]); // offsets: [0, 1) len = 1
	EXPECT_EQ(ReadRange(1, 4, true), out[1]); // offsets: [1, 5) len = 4

	out.clear();
	info.getReadRanges(1, 10, &out); // read offsets [1, 11)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(1, 9, true), out[0]); // offsets: [1, 10) len = 9
	EXPECT_EQ(ReadRange(10, 1, false), out[1]); // offsets: [10, 11) len = 1

	// Read ranges that start or end with the boundary of the redacted area.
	out.clear();
	info.getReadRanges(5, 5, &out); // read offsets [5, 10)
	EXPECT_EQ(1, out.size());
	EXPECT_EQ(ReadRange(5, 5, true), out[0]); // offsets: [5, 10) len = 5

	out.clear();
	info.getReadRanges(1, 5, &out); // read offsets [1, 6)
	EXPECT_EQ(1, out.size());
	EXPECT_EQ(ReadRange(1, 5, true), out[0]); // offsets: [1, 6) len = 5

	// Read ranges adjoining the redacted area.
	out.clear();
	info.getReadRanges(10, 10, &out); // read offsets [10, 20)
	EXPECT_EQ(0, out.size());

	out.clear();
	info.getReadRanges(0, 1, &out); // read offsets [0, 1)
	EXPECT_EQ(0, out.size());

	// Read Range outside the redacted area.
	out.clear();
	info.getReadRanges(200, 10, &out); // read offsets [200, 210)
	EXPECT_EQ(0, out.size());
	}

	// Multiple redaction ranges within a given area.
	TEST(RedactionInfoTest, testSortedAndNonOverlappingRedactionRanges) {
	// [10, 20), [30, 40), [40, 50)
	off64_t ranges[4] = {10, 20, 30, 40};

	RedactionInfo info = RedactionInfo(2, ranges);
	EXPECT_EQ(2, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 40, &out); // read offsets [0, 40)
	EXPECT_EQ(4, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[2]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 10, true), out[3]); // offsets [30, 40) len = 10

	// Read request straddling two ranges.
	out.clear();
	info.getReadRanges(5, 30, &out); // read offsets [5, 35)
	EXPECT_EQ(4, out.size());
	EXPECT_EQ(ReadRange(5, 5, false), out[0]); // offsets: [5, 10) len = 5
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[2]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 5, true), out[3]); // offsets [30, 35) len = 5

	// Read request overlapping first range only.
	out.clear();
	info.getReadRanges(5, 10, &out); // read offsets [5, 15)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(5, 5, false), out[0]); // offsets: [5, 10) len = 5
	EXPECT_EQ(ReadRange(10, 5, true), out[1]); // offsets: [10, 15) len = 5

	// Read request overlapping last range only.
	out.clear();
	info.getReadRanges(35, 10, &out); // read offsets [35, 45)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(35, 5, true), out[0]); // offsets: [35, 40) len = 5
	EXPECT_EQ(ReadRange(40, 5, false), out[1]); // offsets: [40, 45) len = 5

	// Read request overlapping no ranges.
	out.clear();
	info.getReadRanges(0, 10, &out); // read offsets [0, 10)
	EXPECT_EQ(0, out.size());
	out.clear();
	info.getReadRanges(21, 5, &out); // read offsets [21, 26)
	EXPECT_EQ(0, out.size());
	out.clear();
	info.getReadRanges(40, 10, &out); // read offsets [40, 50)
	EXPECT_EQ(0, out.size());
	}

	// Multiple redaction ranges overlapping with read range.
	TEST(RedactionInfoTest, testReadRangeOverlappingWithRedactionRanges) {
	// [10, 20), [30, 40)
	off64_t ranges[4] = {10, 20, 30, 40};

	RedactionInfo info = RedactionInfo(2, ranges);
	EXPECT_EQ(2, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	// Read request overlaps with end of the ranges.
	info.getReadRanges(20, 20, &out); // read offsets [20, 40)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(20, 10, false), out[0]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 10, true), out[1]); // offsets: [30, 40) len = 10

	// Read request overlapping with start of the ranges
	out.clear();
	info.getReadRanges(10, 20, &out); // read offsets [10, 30)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(10, 10, true), out[0]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[1]); // offsets: [20, 30) len = 10

	// Read request overlaps with start of one and end of other range.
	out.clear();
	info.getReadRanges(10, 30, &out); // read offsets [10, 40)
	EXPECT_EQ(3, out.size());
	EXPECT_EQ(ReadRange(10, 10, true), out[0]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[1]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 10, true), out[2]); // offsets: [30, 40) len = 10

	// Read request overlaps with end of one and start of other range.
	out.clear();
	info.getReadRanges(20, 10, &out); // read offsets [20, 30)
	EXPECT_EQ(0, out.size());
	}

	TEST(RedactionInfoTest, testRedactionRangesSorted) {
	off64_t ranges[6] = {30, 40, 50, 60, 10, 20};

	RedactionInfo info = RedactionInfo(3, ranges);
	EXPECT_EQ(3, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 60, &out); // read offsets [0, 60)
	EXPECT_EQ(6, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[2]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 10, true), out[3]); // offsets [30, 40) len = 10
	EXPECT_EQ(ReadRange(40, 10, false), out[4]); // offsets [40, 50) len = 10
	EXPECT_EQ(ReadRange(50, 10, true), out[5]); // offsets [50, 60) len = 10

	// Read request overlapping first range only.
	out.clear();
	info.getReadRanges(5, 10, &out); // read offsets [5, 15)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(5, 5, false), out[0]); // offsets: [5, 10) len = 5
	EXPECT_EQ(ReadRange(10, 5, true), out[1]); // offsets: [10, 15) len = 5

	// Read request overlapping last range only.
	out.clear();
	info.getReadRanges(55, 10, &out); // read offsets [55, 65)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(55, 5, true), out[0]); // offsets: [55, 60) len = 5
	EXPECT_EQ(ReadRange(60, 5, false), out[1]); // offsets: [60, 65) len = 5

	// Read request overlapping no ranges.
	out.clear();
	info.getReadRanges(0, 10, &out); // read offsets [0, 10)
	EXPECT_EQ(0, out.size());
	out.clear();
	info.getReadRanges(60, 10, &out); // read offsets [60, 70)
	EXPECT_EQ(0, out.size());
	}

	// Test that the ranges are both sorted and merged
	TEST(RedactionInfoTest, testSortAndMergeRedactionRanges) {
	// Ranges are: [10, 20), [25, 40), [50, 60)
	off64_t ranges[8] = {30, 40, 10, 20, 25, 30, 50, 60};

	RedactionInfo info = RedactionInfo(4, ranges);
	EXPECT_EQ(3, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 60, &out); // read offsets [0, 60)
	EXPECT_EQ(6, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 5, false), out[2]); // offsets: [20, 25) len = 5
	EXPECT_EQ(ReadRange(25, 15, true), out[3]); // offsets [25, 40) len = 15
	EXPECT_EQ(ReadRange(40, 10, false), out[4]); // offsets [40, 50) len = 10
	EXPECT_EQ(ReadRange(50, 10, true), out[5]); // offsets [50, 60) len = 10
	}

	// Test that the ranges are both sorted and merged when there's an overlap.
	//
	// TODO: Can this ever happen ? Will we ever be in a state where we need to
	// redact exif attributes that have overlapping ranges ?
	TEST(RedactionInfoTest, testSortAndMergeRedactionRanges_overlap) {
	// Ranges are: [10, 20), [25, 40), [50, 60)
	off64_t ranges[8] = {30, 40, 10, 20, 25, 34, 50, 60};

	RedactionInfo info = RedactionInfo(4, ranges);
	EXPECT_EQ(3, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 60, &out); // read offsets [0, 60)
	EXPECT_EQ(6, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 5, false), out[2]); // offsets: [20, 25) len = 5
	EXPECT_EQ(ReadRange(25, 15, true), out[3]); // offsets [25, 40) len = 15
	EXPECT_EQ(ReadRange(40, 10, false), out[4]); // offsets [40, 50) len = 10
	EXPECT_EQ(ReadRange(50, 10, true), out[5]); // offsets [50, 60) len = 10
	}

	// WARNING: The tests below assume that merging of ranges happen during
	// object construction (which is asserted by the check on \|info.size()\|.
	// Therefore, we don't write redundant tests for boundary conditions that
	// we've covered above. If this ever changes, these tests need to be expanded.
	TEST(RedactionInfoTest, testMergeAllRangesIntoSingleRange) {
	// Ranges are: [8, 24)
	off64_t ranges[8] = {10, 20, 8, 14, 14, 24, 12, 16};

	RedactionInfo info = RedactionInfo(4, ranges);
	EXPECT_EQ(1, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 30, &out); // read offsets [0, 30)
	EXPECT_EQ(3, out.size());
	EXPECT_EQ(ReadRange(0, 8, false), out[0]); // offsets: [0, 8) len = 8
	EXPECT_EQ(ReadRange(8, 16, true), out[1]); // offsets: [8, 24) len = 16
	EXPECT_EQ(ReadRange(24, 6, false), out[2]); // offsets: [24, 30) len = 6

	// Ranges are: [85, 100)
	off64_t ranges2[10] = {90, 95, 95, 100, 85, 91, 92, 94, 99, 100};
	info = RedactionInfo(5, ranges2);
	EXPECT_EQ(1, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	out.clear();
	info.getReadRanges(80, 30, &out); // read offsets [80, 110)
	EXPECT_EQ(3, out.size());
	EXPECT_EQ(ReadRange(80, 5, false), out[0]); // offsets: [80, 85) len = 5
	EXPECT_EQ(ReadRange(85, 15, true), out[1]); // offsets: [85, 100) len = 15
	EXPECT_EQ(ReadRange(100, 10, false), out[2]); // offsets: [100, 110) len = 10
	}

	TEST(RedactionInfoTest, testMergeMultipleRanges) {
	// Ranges are: [10, 30), [60, 80)
	off64_t ranges[8] = {20, 30, 10, 20, 70, 80, 60, 70};

	RedactionInfo info = RedactionInfo(4, ranges);
	EXPECT_EQ(2, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	std::vector<ReadRange> out;
	info.getReadRanges(0, 100, &out); // read offsets [0, 100)
	EXPECT_EQ(5, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 20, true), out[1]); // offsets: [10, 30) len = 20
	EXPECT_EQ(ReadRange(30, 30, false), out[2]); // offsets: [30, 60) len = 30
	EXPECT_EQ(ReadRange(60, 20, true), out[3]); // offsets [60, 80) len = 20
	EXPECT_EQ(ReadRange(80, 20, false), out[4]); // offsets [80, 100) len = 20
	}

	// Redaction ranges of size zero.
	TEST(RedactionInfoTest, testRedactionRangesZeroSize) {
	// [10, 20), [30, 40)
	off64_t ranges[6] = {10, 20, 30, 40, 25, 25};

	RedactionInfo info = RedactionInfo(3, ranges);
	EXPECT_EQ(2, info.size());
	EXPECT_EQ(true, info.isRedactionNeeded());

	// Normal read request, should skip range with zero size
	std::vector<ReadRange> out;
	info.getReadRanges(0, 40, &out); // read offsets [0, 40)
	EXPECT_EQ(4, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 10, false), out[2]); // offsets: [20, 30) len = 10
	EXPECT_EQ(ReadRange(30, 10, true), out[3]); // offsets [30, 40) len = 10

	// Read request starting at offset overlapping with zero size range.
	out.clear();
	info.getReadRanges(25, 10, &out); // read offsets [25, 35)
	EXPECT_EQ(2, out.size());
	EXPECT_EQ(ReadRange(25, 5, false), out[0]); // offsets: [25, 30) len = 5
	EXPECT_EQ(ReadRange(30, 5, true), out[1]); // offsets [30, 35) len = 5

	// 1 byte read request starting at offset overlapping with zero size range.
	out.clear();
	info.getReadRanges(25, 1, &out); // read offsets [25, 26)
	EXPECT_EQ(0, out.size());

	// Read request ending at offset overlapping with zero size range.
	out.clear();
	info.getReadRanges(0, 25, &out); // read offsets [0, 25)
	EXPECT_EQ(3, out.size());
	EXPECT_EQ(ReadRange(0, 10, false), out[0]); // offsets: [0, 10) len = 10
	EXPECT_EQ(ReadRange(10, 10, true), out[1]); // offsets: [10, 20) len = 10
	EXPECT_EQ(ReadRange(20, 5, false), out[2]); // offsets: [20, 25) len = 10

	// Read request that includes only zero size range
	out.clear();
	info.getReadRanges(20, 10, &out); // read offsets [20, 27)
	EXPECT_EQ(0, out.size());
	}

	// Single redaction range with zero size
	TEST(RedactionInfoTest, testSingleRedactionRangesZeroSize) {
	off64_t ranges[2] = {10, 10};

	RedactionInfo info = RedactionInfo(1, ranges);
	EXPECT_EQ(0, info.size());
	EXPECT_EQ(false, info.isRedactionNeeded());

	// Normal read request, should skip range with zero size
	std::vector<ReadRange> out;
	info.getReadRanges(0, 40, &out); // read offsets [0, 40)
	EXPECT_EQ(0, out.size());
	}

	} // namespace mediaprovider::fuse