mojo/system/memory_unittest.cc - Issue 304303006: Mojo: Specify/check alignment of pointers more carefully.

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Issue 304303006: Mojo: Specify/check alignment of pointers more carefully. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: fix msvs Created 6 years, 6 months ago

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	1 // Copyright 2014 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include "mojo/system/memory.h"

	6

	7 #include <stddef.h>

	8 #include <stdint.h>

	9

	10 #include <limits>

	11

	12 #include "mojo/public/c/system/macros.h"

	13 #include "testing/gtest/include/gtest/gtest.h"

	14

	15 namespace mojo {

	16 namespace system {

	17 namespace {

	18

	19 TEST(MemoryTest, Valid) {

	20 char my_char;

	21 int32_t my_int32;

	22 int64_t my_int64;

	23 char my_char_array[5];

	24 int32_t my_int32_array[5];

	25 int64_t my_int64_array[5];

	26

	27 // \|VerifyUserPointer\|:

	28

	29 EXPECT_TRUE(VerifyUserPointer<char>(&my_char));

	30 EXPECT_TRUE(VerifyUserPointer<int32_t>(&my_int32));

	31 EXPECT_TRUE(VerifyUserPointer<int64_t>(&my_int64));

	32

	33 // \|VerifyUserPointerWithCount\|:

	34

	35 EXPECT_TRUE(VerifyUserPointerWithCount<char>(my_char_array, 5));

	36 EXPECT_TRUE(VerifyUserPointerWithCount<int32_t>(my_int32_array, 5));

	37 EXPECT_TRUE(VerifyUserPointerWithCount<int64_t>(my_int64_array, 5));

	38

	39 // It shouldn't care what the pointer is if the count is zero.

	40 EXPECT_TRUE(VerifyUserPointerWithCount<char>(NULL, 0));

	41 EXPECT_TRUE(VerifyUserPointerWithCount<int32_t>(NULL, 0));

	42 EXPECT_TRUE(VerifyUserPointerWithCount<int32_t>(

	43 reinterpret_cast<const int32_t*>(1), 0));

	44 EXPECT_TRUE(VerifyUserPointerWithCount<int64_t>(NULL, 0));

	45 EXPECT_TRUE(VerifyUserPointerWithCount<int64_t>(

	46 reinterpret_cast<const int64_t*>(1), 0));

	47

	48 // \|VerifyUserPointerWithSize\|:

	49

	50 EXPECT_TRUE(VerifyUserPointerWithSize<1>(&my_char, sizeof(my_char)));

	51 EXPECT_TRUE(VerifyUserPointerWithSize<1>(&my_int32, sizeof(my_int32)));

	52 EXPECT_TRUE(VerifyUserPointerWithSize<MOJO_ALIGNOF(int32_t)>(

	53 &my_int32, sizeof(my_int32)));

	54 EXPECT_TRUE(VerifyUserPointerWithSize<1>(&my_int64, sizeof(my_int64)));

	55 EXPECT_TRUE(VerifyUserPointerWithSize<MOJO_ALIGNOF(int64_t)>(

	56 &my_int64, sizeof(my_int64)));

	57

	58 EXPECT_TRUE(VerifyUserPointerWithSize<1>(my_char_array,

	59 sizeof(my_char_array)));

	60 EXPECT_TRUE(VerifyUserPointerWithSize<1>(my_int32_array,

	61 sizeof(my_int32_array)));

	62 EXPECT_TRUE(VerifyUserPointerWithSize<MOJO_ALIGNOF(int32_t)>(

	63 my_int32_array, sizeof(my_int32_array)));

	64 EXPECT_TRUE(VerifyUserPointerWithSize<1>(my_int64_array,

	65 sizeof(my_int64_array)));

	66 EXPECT_TRUE(VerifyUserPointerWithSize<MOJO_ALIGNOF(int64_t)>(

	67 my_int64_array, sizeof(my_int64_array)));

	68 }

	69

	70 TEST(MemoryTest, Invalid) {

	71 // Note: \|VerifyUserPointer...()\| are defined to be "best effort" checks (and

	72 // may always return true). Thus these tests of invalid cases only reflect the

	73 // current implementation.

	74

	75 // These tests depend on \|int32_t\| and \|int64_t\| having nontrivial alignment.

	76 MOJO_COMPILE_ASSERT(MOJO_ALIGNOF(int32_t) != 1,

	77 int32_t_does_not_have_to_be_aligned);

	78 MOJO_COMPILE_ASSERT(MOJO_ALIGNOF(int64_t) != 1,

	79 int64_t_does_not_have_to_be_aligned);

	80

	81 int32_t my_int32;

	82 int64_t my_int64;

	83

	84 // \|VerifyUserPointer\|:

	85

	86 EXPECT_FALSE(VerifyUserPointer<char>(NULL));

	87 EXPECT_FALSE(VerifyUserPointer<int32_t>(NULL));

	88 EXPECT_FALSE(VerifyUserPointer<int64_t>(NULL));

	89

	90 // Unaligned:

	91 EXPECT_FALSE(VerifyUserPointer<int32_t>(reinterpret_cast<const int32_t*>(1)));

	92 EXPECT_FALSE(VerifyUserPointer<int64_t>(reinterpret_cast<const int64_t*>(1)));

	93

	94 // \|VerifyUserPointerWithCount\|:

	95

	96 EXPECT_FALSE(VerifyUserPointerWithCount<char>(NULL, 1));

	97 EXPECT_FALSE(VerifyUserPointerWithCount<int32_t>(NULL, 1));

	98 EXPECT_FALSE(VerifyUserPointerWithCount<int64_t>(NULL, 1));

	99

	100 // Unaligned:

	101 EXPECT_FALSE(VerifyUserPointerWithCount<int32_t>(

	102 reinterpret_cast<const int32_t*>(1), 1));

	103 EXPECT_FALSE(VerifyUserPointerWithCount<int64_t>(

	104 reinterpret_cast<const int64_t*>(1), 1));

	105

	106 // Count too big:

	107 EXPECT_FALSE(VerifyUserPointerWithCount<int32_t>(

	108 &my_int32, std::numeric_limits<size_t>::max()));

	109 EXPECT_FALSE(VerifyUserPointerWithCount<int64_t>(

	110 &my_int64, std::numeric_limits<size_t>::max()));

	111

	112 // \|VerifyUserPointerWithSize\|:

	113

	114 EXPECT_FALSE(VerifyUserPointerWithSize<1>(NULL, 1));

	115 EXPECT_FALSE(VerifyUserPointerWithSize<4>(NULL, 1));

	116 EXPECT_FALSE(VerifyUserPointerWithSize<4>(NULL, 4));

	117 EXPECT_FALSE(VerifyUserPointerWithSize<8>(NULL, 1));

	118 EXPECT_FALSE(VerifyUserPointerWithSize<8>(NULL, 4));

	119 EXPECT_FALSE(VerifyUserPointerWithSize<8>(NULL, 8));

	120

	121 // Unaligned:

	122 EXPECT_FALSE(VerifyUserPointerWithSize<4>(reinterpret_cast<const int32_t*>(1),

	123 1));

	124 EXPECT_FALSE(VerifyUserPointerWithSize<4>(reinterpret_cast<const int32_t*>(1),

	125 4));

	126 EXPECT_FALSE(VerifyUserPointerWithSize<8>(reinterpret_cast<const int32_t*>(1),

	127 1));

	128 EXPECT_FALSE(VerifyUserPointerWithSize<8>(reinterpret_cast<const int32_t*>(1),

	129 4));

	130 EXPECT_FALSE(VerifyUserPointerWithSize<8>(reinterpret_cast<const int32_t*>(1),

	131 8));

	132 }

	133

	134 } // namespace

	135 } // namespace system

	136 } // namespace mojo

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