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/*
* Copyright (C) 2010 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.
*/
#define LOG_TAG "Unicode_test"
#include <sys/mman.h>
#include <unistd.h>
#include <log/log.h>
#include <utils/Unicode.h>
#include <gtest/gtest.h>
namespace android {
class UnicodeTest : public testing::Test {
protected:
virtual void SetUp() {
}
virtual void TearDown() {
}
char16_t const * const kSearchString = u"I am a leaf on the wind.";
};
TEST_F(UnicodeTest, UTF8toUTF16ZeroLength) {
ssize_t measured;
const uint8_t str[] = { };
measured = utf8_to_utf16_length(str, 0);
EXPECT_EQ(0, measured)
<< "Zero length input should return zero length output.";
}
TEST_F(UnicodeTest, UTF8toUTF16ASCIILength) {
ssize_t measured;
// U+0030 or ASCII '0'
const uint8_t str[] = { 0x30 };
measured = utf8_to_utf16_length(str, sizeof(str));
EXPECT_EQ(1, measured)
<< "ASCII glyphs should have a length of 1 char16_t";
}
TEST_F(UnicodeTest, UTF8toUTF16Plane1Length) {
ssize_t measured;
// U+2323 SMILE
const uint8_t str[] = { 0xE2, 0x8C, 0xA3 };
measured = utf8_to_utf16_length(str, sizeof(str));
EXPECT_EQ(1, measured)
<< "Plane 1 glyphs should have a length of 1 char16_t";
}
TEST_F(UnicodeTest, UTF8toUTF16SurrogateLength) {
ssize_t measured;
// U+10000
const uint8_t str[] = { 0xF0, 0x90, 0x80, 0x80 };
measured = utf8_to_utf16_length(str, sizeof(str));
EXPECT_EQ(2, measured)
<< "Surrogate pairs should have a length of 2 char16_t";
}
TEST_F(UnicodeTest, UTF8toUTF16TruncatedUTF8) {
ssize_t measured;
// Truncated U+2323 SMILE
// U+2323 SMILE
const uint8_t str[] = { 0xE2, 0x8C };
measured = utf8_to_utf16_length(str, sizeof(str));
EXPECT_EQ(-1, measured)
<< "Truncated UTF-8 should return -1 to indicate invalid";
}
TEST_F(UnicodeTest, UTF8toUTF16Normal) {
const uint8_t str[] = {
0x30, // U+0030, 1 UTF-16 character
0xC4, 0x80, // U+0100, 1 UTF-16 character
0xE2, 0x8C, 0xA3, // U+2323, 1 UTF-16 character
0xF0, 0x90, 0x80, 0x80, // U+10000, 2 UTF-16 character
};
char16_t output[1 + 1 + 1 + 2 + 1]; // Room for NULL
utf8_to_utf16(str, sizeof(str), output, sizeof(output) / sizeof(output[0]));
EXPECT_EQ(0x0030, output[0])
<< "should be U+0030";
EXPECT_EQ(0x0100, output[1])
<< "should be U+0100";
EXPECT_EQ(0x2323, output[2])
<< "should be U+2323";
EXPECT_EQ(0xD800, output[3])
<< "should be first half of surrogate U+10000";
EXPECT_EQ(0xDC00, output[4])
<< "should be second half of surrogate U+10000";
EXPECT_EQ(NULL, output[5])
<< "should be NULL terminated";
}
TEST_F(UnicodeTest, strstr16EmptyTarget) {
EXPECT_EQ(strstr16(kSearchString, u""), kSearchString)
<< "should return the original pointer";
}
TEST_F(UnicodeTest, strstr16EmptyTarget_bug) {
// In the original code when target is an empty string strlen16() would
// start reading the memory until a "terminating null" (that is, zero)
// character is found. This happens because "*target++" in the original
// code would increment the pointer beyond the actual string.
void* memptr;
const size_t alignment = sysconf(_SC_PAGESIZE);
const size_t size = 2 * alignment;
ASSERT_EQ(posix_memalign(&memptr, alignment, size), 0);
// Fill allocated memory.
memset(memptr, 'A', size);
// Create a pointer to an "empty" string on the first page.
char16_t* const emptyString = (char16_t* const)((char*)memptr + alignment - 4);
*emptyString = (char16_t)0;
// Protect the second page to show that strstr16() violates that.
ASSERT_EQ(mprotect((char*)memptr + alignment, alignment, PROT_NONE), 0);
// Test strstr16(): when bug is present a segmentation fault is raised.
ASSERT_EQ(strstr16((char16_t*)memptr, emptyString), (char16_t*)memptr)
<< "should not read beyond the first char16_t.";
// Reset protection of the second page
ASSERT_EQ(mprotect((char*)memptr + alignment, alignment, PROT_READ | PROT_WRITE), 0);
// Free allocated memory.
free(memptr);
}
TEST_F(UnicodeTest, strstr16SameString) {
const char16_t* result = strstr16(kSearchString, kSearchString);
EXPECT_EQ(kSearchString, result)
<< "should return the original pointer";
}
TEST_F(UnicodeTest, strstr16TargetStartOfString) {
const char16_t* result = strstr16(kSearchString, u"I am");
EXPECT_EQ(kSearchString, result)
<< "should return the original pointer";
}
TEST_F(UnicodeTest, strstr16TargetEndOfString) {
const char16_t* result = strstr16(kSearchString, u"wind.");
EXPECT_EQ(kSearchString+19, result);
}
TEST_F(UnicodeTest, strstr16TargetWithinString) {
const char16_t* result = strstr16(kSearchString, u"leaf");
EXPECT_EQ(kSearchString+7, result);
}
TEST_F(UnicodeTest, strstr16TargetNotPresent) {
const char16_t* result = strstr16(kSearchString, u"soar");
EXPECT_EQ(nullptr, result);
}
// http://b/29267949
// Test that overreading in utf8_to_utf16_length is detected
TEST_F(UnicodeTest, InvalidUtf8OverreadDetected) {
// An utf8 char starting with \xc4 is two bytes long.
// Add extra zeros so no extra memory is read in case the code doesn't
// work as expected.
static char utf8[] = "\xc4\x00\x00\x00";
ASSERT_DEATH(utf8_to_utf16_length((uint8_t *) utf8, strlen(utf8),
true /* overreadIsFatal */), "" /* regex for ASSERT_DEATH */);
}
}