1 // Copyright (c) 2015-2016 The Khronos Group Inc.
2 //
3 // Licensed under the Apache License, Version 2.0 (the "License");
4 // you may not use this file except in compliance with the License.
5 // You may obtain a copy of the License at
6 //
7 // http://www.apache.org/licenses/LICENSE-2.0
8 //
9 // Unless required by applicable law or agreed to in writing, software
10 // distributed under the License is distributed on an "AS IS" BASIS,
11 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 // See the License for the specific language governing permissions and
13 // limitations under the License.
14
15 #include <algorithm>
16 #include <limits>
17 #include <sstream>
18 #include <string>
19 #include <vector>
20
21 #include "gmock/gmock.h"
22 #include "source/latest_version_opencl_std_header.h"
23 #include "source/table.h"
24 #include "source/util/string_utils.h"
25 #include "test/test_fixture.h"
26 #include "test/unit_spirv.h"
27
28 // Returns true if two spv_parsed_operand_t values are equal.
29 // To use this operator, this definition must appear in the same namespace
30 // as spv_parsed_operand_t.
operator ==(const spv_parsed_operand_t & a,const spv_parsed_operand_t & b)31 static bool operator==(const spv_parsed_operand_t& a,
32 const spv_parsed_operand_t& b) {
33 return a.offset == b.offset && a.num_words == b.num_words &&
34 a.type == b.type && a.number_kind == b.number_kind &&
35 a.number_bit_width == b.number_bit_width;
36 }
37
38 namespace spvtools {
39 namespace {
40
41 using ::spvtest::Concatenate;
42 using ::spvtest::MakeInstruction;
43 using utils::MakeVector;
44 using ::spvtest::ScopedContext;
45 using ::testing::_;
46 using ::testing::AnyOf;
47 using ::testing::Eq;
48 using ::testing::InSequence;
49 using ::testing::Return;
50
51 // An easily-constructible and comparable object for the contents of an
52 // spv_parsed_instruction_t. Unlike spv_parsed_instruction_t, owns the memory
53 // of its components.
54 struct ParsedInstruction {
ParsedInstructionspvtools::__anon32d291610111::ParsedInstruction55 explicit ParsedInstruction(const spv_parsed_instruction_t& inst)
56 : words(inst.words, inst.words + inst.num_words),
57 opcode(static_cast<SpvOp>(inst.opcode)),
58 ext_inst_type(inst.ext_inst_type),
59 type_id(inst.type_id),
60 result_id(inst.result_id),
61 operands(inst.operands, inst.operands + inst.num_operands) {}
62
63 std::vector<uint32_t> words;
64 SpvOp opcode;
65 spv_ext_inst_type_t ext_inst_type;
66 uint32_t type_id;
67 uint32_t result_id;
68 std::vector<spv_parsed_operand_t> operands;
69
operator ==spvtools::__anon32d291610111::ParsedInstruction70 bool operator==(const ParsedInstruction& b) const {
71 return words == b.words && opcode == b.opcode &&
72 ext_inst_type == b.ext_inst_type && type_id == b.type_id &&
73 result_id == b.result_id && operands == b.operands;
74 }
75 };
76
77 // Prints a ParsedInstruction object to the given output stream, and returns
78 // the stream.
operator <<(std::ostream & os,const ParsedInstruction & inst)79 std::ostream& operator<<(std::ostream& os, const ParsedInstruction& inst) {
80 os << "\nParsedInstruction( {";
81 spvtest::PrintTo(spvtest::WordVector(inst.words), &os);
82 os << "}, opcode: " << int(inst.opcode)
83 << " ext_inst_type: " << int(inst.ext_inst_type)
84 << " type_id: " << inst.type_id << " result_id: " << inst.result_id;
85 for (const auto& operand : inst.operands) {
86 os << " { offset: " << operand.offset << " num_words: " << operand.num_words
87 << " type: " << int(operand.type)
88 << " number_kind: " << int(operand.number_kind)
89 << " number_bit_width: " << int(operand.number_bit_width) << "}";
90 }
91 os << ")";
92 return os;
93 }
94
95 // Basic check for the equality operator on ParsedInstruction.
TEST(ParsedInstruction,ZeroInitializedAreEqual)96 TEST(ParsedInstruction, ZeroInitializedAreEqual) {
97 spv_parsed_instruction_t pi = {};
98 ParsedInstruction a(pi);
99 ParsedInstruction b(pi);
100 EXPECT_THAT(a, ::testing::TypedEq<ParsedInstruction>(b));
101 }
102
103 // Googlemock class receiving Header/Instruction calls from spvBinaryParse().
104 class MockParseClient {
105 public:
106 MOCK_METHOD6(Header, spv_result_t(spv_endianness_t endian, uint32_t magic,
107 uint32_t version, uint32_t generator,
108 uint32_t id_bound, uint32_t reserved));
109 MOCK_METHOD1(Instruction, spv_result_t(const ParsedInstruction&));
110 };
111
112 // Casts user_data as MockParseClient and invokes its Header().
invoke_header(void * user_data,spv_endianness_t endian,uint32_t magic,uint32_t version,uint32_t generator,uint32_t id_bound,uint32_t reserved)113 spv_result_t invoke_header(void* user_data, spv_endianness_t endian,
114 uint32_t magic, uint32_t version, uint32_t generator,
115 uint32_t id_bound, uint32_t reserved) {
116 return static_cast<MockParseClient*>(user_data)->Header(
117 endian, magic, version, generator, id_bound, reserved);
118 }
119
120 // Casts user_data as MockParseClient and invokes its Instruction().
invoke_instruction(void * user_data,const spv_parsed_instruction_t * parsed_instruction)121 spv_result_t invoke_instruction(
122 void* user_data, const spv_parsed_instruction_t* parsed_instruction) {
123 return static_cast<MockParseClient*>(user_data)->Instruction(
124 ParsedInstruction(*parsed_instruction));
125 }
126
127 // The SPIR-V module header words for the Khronos Assembler generator,
128 // for a module with an ID bound of 1.
129 const uint32_t kHeaderForBound1[] = {
130 SpvMagicNumber, SpvVersion,
131 SPV_GENERATOR_WORD(SPV_GENERATOR_KHRONOS_ASSEMBLER, 0), 1 /*bound*/,
132 0 /*schema*/};
133
134 // Returns the expected SPIR-V module header words for the Khronos
135 // Assembler generator, and with a given Id bound.
ExpectedHeaderForBound(uint32_t bound)136 std::vector<uint32_t> ExpectedHeaderForBound(uint32_t bound) {
137 return {SpvMagicNumber, 0x10000,
138 SPV_GENERATOR_WORD(SPV_GENERATOR_KHRONOS_ASSEMBLER, 0), bound, 0};
139 }
140
141 // Returns a parsed operand for a non-number value at the given word offset
142 // within an instruction.
MakeSimpleOperand(uint16_t offset,spv_operand_type_t type)143 spv_parsed_operand_t MakeSimpleOperand(uint16_t offset,
144 spv_operand_type_t type) {
145 return {offset, 1, type, SPV_NUMBER_NONE, 0};
146 }
147
148 // Returns a parsed operand for a literal unsigned integer value at the given
149 // word offset within an instruction.
MakeLiteralNumberOperand(uint16_t offset)150 spv_parsed_operand_t MakeLiteralNumberOperand(uint16_t offset) {
151 return {offset, 1, SPV_OPERAND_TYPE_LITERAL_INTEGER, SPV_NUMBER_UNSIGNED_INT,
152 32};
153 }
154
155 // Returns a parsed operand for a literal string value at the given
156 // word offset within an instruction.
MakeLiteralStringOperand(uint16_t offset,uint16_t length)157 spv_parsed_operand_t MakeLiteralStringOperand(uint16_t offset,
158 uint16_t length) {
159 return {offset, length, SPV_OPERAND_TYPE_LITERAL_STRING, SPV_NUMBER_NONE, 0};
160 }
161
162 // Returns a ParsedInstruction for an OpTypeVoid instruction that would
163 // generate the given result Id.
MakeParsedVoidTypeInstruction(uint32_t result_id)164 ParsedInstruction MakeParsedVoidTypeInstruction(uint32_t result_id) {
165 const auto void_inst = MakeInstruction(SpvOpTypeVoid, {result_id});
166 const auto void_operands = std::vector<spv_parsed_operand_t>{
167 MakeSimpleOperand(1, SPV_OPERAND_TYPE_RESULT_ID)};
168 const spv_parsed_instruction_t parsed_void_inst = {
169 void_inst.data(),
170 static_cast<uint16_t>(void_inst.size()),
171 SpvOpTypeVoid,
172 SPV_EXT_INST_TYPE_NONE,
173 0, // type id
174 result_id,
175 void_operands.data(),
176 static_cast<uint16_t>(void_operands.size())};
177 return ParsedInstruction(parsed_void_inst);
178 }
179
180 // Returns a ParsedInstruction for an OpTypeInt instruction that generates
181 // the given result Id for a 32-bit signed integer scalar type.
MakeParsedInt32TypeInstruction(uint32_t result_id)182 ParsedInstruction MakeParsedInt32TypeInstruction(uint32_t result_id) {
183 const auto i32_inst = MakeInstruction(SpvOpTypeInt, {result_id, 32, 1});
184 const auto i32_operands = std::vector<spv_parsed_operand_t>{
185 MakeSimpleOperand(1, SPV_OPERAND_TYPE_RESULT_ID),
186 MakeLiteralNumberOperand(2), MakeLiteralNumberOperand(3)};
187 spv_parsed_instruction_t parsed_i32_inst = {
188 i32_inst.data(),
189 static_cast<uint16_t>(i32_inst.size()),
190 SpvOpTypeInt,
191 SPV_EXT_INST_TYPE_NONE,
192 0, // type id
193 result_id,
194 i32_operands.data(),
195 static_cast<uint16_t>(i32_operands.size())};
196 return ParsedInstruction(parsed_i32_inst);
197 }
198
199 class BinaryParseTest : public spvtest::TextToBinaryTestBase<::testing::Test> {
200 protected:
~BinaryParseTest()201 ~BinaryParseTest() override { spvDiagnosticDestroy(diagnostic_); }
202
Parse(const SpirvVector & words,spv_result_t expected_result,bool flip_words=false)203 void Parse(const SpirvVector& words, spv_result_t expected_result,
204 bool flip_words = false) {
205 SpirvVector flipped_words(words);
206 SCOPED_TRACE(flip_words ? "Flipped Endianness" : "Normal Endianness");
207 if (flip_words) {
208 std::transform(flipped_words.begin(), flipped_words.end(),
209 flipped_words.begin(), [](const uint32_t raw_word) {
210 return spvFixWord(raw_word,
211 I32_ENDIAN_HOST == I32_ENDIAN_BIG
212 ? SPV_ENDIANNESS_LITTLE
213 : SPV_ENDIANNESS_BIG);
214 });
215 }
216 EXPECT_EQ(expected_result,
217 spvBinaryParse(ScopedContext().context, &client_,
218 flipped_words.data(), flipped_words.size(),
219 invoke_header, invoke_instruction, &diagnostic_));
220 }
221
222 spv_diagnostic diagnostic_ = nullptr;
223 MockParseClient client_;
224 };
225
226 // Adds an EXPECT_CALL to client_->Header() with appropriate parameters,
227 // including bound. Returns the EXPECT_CALL result.
228 #define EXPECT_HEADER(bound) \
229 EXPECT_CALL( \
230 client_, \
231 Header(AnyOf(SPV_ENDIANNESS_LITTLE, SPV_ENDIANNESS_BIG), SpvMagicNumber, \
232 0x10000, SPV_GENERATOR_WORD(SPV_GENERATOR_KHRONOS_ASSEMBLER, 0), \
233 bound, 0 /*reserved*/))
234
235 static const bool kSwapEndians[] = {false, true};
236
TEST_F(BinaryParseTest,EmptyModuleHasValidHeaderAndNoInstructionCallbacks)237 TEST_F(BinaryParseTest, EmptyModuleHasValidHeaderAndNoInstructionCallbacks) {
238 for (bool endian_swap : kSwapEndians) {
239 const auto words = CompileSuccessfully("");
240 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
241 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
242 Parse(words, SPV_SUCCESS, endian_swap);
243 EXPECT_EQ(nullptr, diagnostic_);
244 }
245 }
246
TEST_F(BinaryParseTest,NullDiagnosticsIsOkForGoodParse)247 TEST_F(BinaryParseTest, NullDiagnosticsIsOkForGoodParse) {
248 const auto words = CompileSuccessfully("");
249 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
250 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
251 EXPECT_EQ(
252 SPV_SUCCESS,
253 spvBinaryParse(ScopedContext().context, &client_, words.data(),
254 words.size(), invoke_header, invoke_instruction, nullptr));
255 }
256
TEST_F(BinaryParseTest,NullDiagnosticsIsOkForBadParse)257 TEST_F(BinaryParseTest, NullDiagnosticsIsOkForBadParse) {
258 auto words = CompileSuccessfully("");
259 words.push_back(0xffffffff); // Certainly invalid instruction header.
260 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
261 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
262 EXPECT_EQ(
263 SPV_ERROR_INVALID_BINARY,
264 spvBinaryParse(ScopedContext().context, &client_, words.data(),
265 words.size(), invoke_header, invoke_instruction, nullptr));
266 }
267
268 // Make sure that we don't blow up when both the consumer and the diagnostic are
269 // null.
TEST_F(BinaryParseTest,NullConsumerNullDiagnosticsForBadParse)270 TEST_F(BinaryParseTest, NullConsumerNullDiagnosticsForBadParse) {
271 auto words = CompileSuccessfully("");
272
273 auto ctx = spvtools::Context(SPV_ENV_UNIVERSAL_1_1);
274 ctx.SetMessageConsumer(nullptr);
275
276 words.push_back(0xffffffff); // Certainly invalid instruction header.
277 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
278 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
279 EXPECT_EQ(SPV_ERROR_INVALID_BINARY,
280 spvBinaryParse(ctx.CContext(), &client_, words.data(), words.size(),
281 invoke_header, invoke_instruction, nullptr));
282 }
283
TEST_F(BinaryParseTest,SpecifyConsumerNullDiagnosticsForGoodParse)284 TEST_F(BinaryParseTest, SpecifyConsumerNullDiagnosticsForGoodParse) {
285 const auto words = CompileSuccessfully("");
286
287 auto ctx = spvtools::Context(SPV_ENV_UNIVERSAL_1_1);
288 int invocation = 0;
289 ctx.SetMessageConsumer([&invocation](spv_message_level_t, const char*,
290 const spv_position_t&,
291 const char*) { ++invocation; });
292
293 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
294 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
295 EXPECT_EQ(SPV_SUCCESS,
296 spvBinaryParse(ctx.CContext(), &client_, words.data(), words.size(),
297 invoke_header, invoke_instruction, nullptr));
298 EXPECT_EQ(0, invocation);
299 }
300
TEST_F(BinaryParseTest,SpecifyConsumerNullDiagnosticsForBadParse)301 TEST_F(BinaryParseTest, SpecifyConsumerNullDiagnosticsForBadParse) {
302 auto words = CompileSuccessfully("");
303
304 auto ctx = spvtools::Context(SPV_ENV_UNIVERSAL_1_1);
305 int invocation = 0;
306 ctx.SetMessageConsumer(
307 [&invocation](spv_message_level_t level, const char* source,
308 const spv_position_t& position, const char* message) {
309 ++invocation;
310 EXPECT_EQ(SPV_MSG_ERROR, level);
311 EXPECT_STREQ("input", source);
312 EXPECT_EQ(0u, position.line);
313 EXPECT_EQ(0u, position.column);
314 EXPECT_EQ(1u, position.index);
315 EXPECT_STREQ("Invalid opcode: 65535", message);
316 });
317
318 words.push_back(0xffffffff); // Certainly invalid instruction header.
319 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
320 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
321 EXPECT_EQ(SPV_ERROR_INVALID_BINARY,
322 spvBinaryParse(ctx.CContext(), &client_, words.data(), words.size(),
323 invoke_header, invoke_instruction, nullptr));
324 EXPECT_EQ(1, invocation);
325 }
326
TEST_F(BinaryParseTest,SpecifyConsumerSpecifyDiagnosticsForGoodParse)327 TEST_F(BinaryParseTest, SpecifyConsumerSpecifyDiagnosticsForGoodParse) {
328 const auto words = CompileSuccessfully("");
329
330 auto ctx = spvtools::Context(SPV_ENV_UNIVERSAL_1_1);
331 int invocation = 0;
332 ctx.SetMessageConsumer([&invocation](spv_message_level_t, const char*,
333 const spv_position_t&,
334 const char*) { ++invocation; });
335
336 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
337 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
338 EXPECT_EQ(SPV_SUCCESS,
339 spvBinaryParse(ctx.CContext(), &client_, words.data(), words.size(),
340 invoke_header, invoke_instruction, &diagnostic_));
341 EXPECT_EQ(0, invocation);
342 EXPECT_EQ(nullptr, diagnostic_);
343 }
344
TEST_F(BinaryParseTest,SpecifyConsumerSpecifyDiagnosticsForBadParse)345 TEST_F(BinaryParseTest, SpecifyConsumerSpecifyDiagnosticsForBadParse) {
346 auto words = CompileSuccessfully("");
347
348 auto ctx = spvtools::Context(SPV_ENV_UNIVERSAL_1_1);
349 int invocation = 0;
350 ctx.SetMessageConsumer([&invocation](spv_message_level_t, const char*,
351 const spv_position_t&,
352 const char*) { ++invocation; });
353
354 words.push_back(0xffffffff); // Certainly invalid instruction header.
355 EXPECT_HEADER(1).WillOnce(Return(SPV_SUCCESS));
356 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
357 EXPECT_EQ(SPV_ERROR_INVALID_BINARY,
358 spvBinaryParse(ctx.CContext(), &client_, words.data(), words.size(),
359 invoke_header, invoke_instruction, &diagnostic_));
360 EXPECT_EQ(0, invocation);
361 EXPECT_STREQ("Invalid opcode: 65535", diagnostic_->error);
362 }
363
TEST_F(BinaryParseTest,ModuleWithSingleInstructionHasValidHeaderAndInstructionCallback)364 TEST_F(BinaryParseTest,
365 ModuleWithSingleInstructionHasValidHeaderAndInstructionCallback) {
366 for (bool endian_swap : kSwapEndians) {
367 const auto words = CompileSuccessfully("%1 = OpTypeVoid");
368 InSequence calls_expected_in_specific_order;
369 EXPECT_HEADER(2).WillOnce(Return(SPV_SUCCESS));
370 EXPECT_CALL(client_, Instruction(MakeParsedVoidTypeInstruction(1)))
371 .WillOnce(Return(SPV_SUCCESS));
372 Parse(words, SPV_SUCCESS, endian_swap);
373 EXPECT_EQ(nullptr, diagnostic_);
374 }
375 }
376
TEST_F(BinaryParseTest,NullHeaderCallbackIsIgnored)377 TEST_F(BinaryParseTest, NullHeaderCallbackIsIgnored) {
378 const auto words = CompileSuccessfully("%1 = OpTypeVoid");
379 EXPECT_CALL(client_, Header(_, _, _, _, _, _))
380 .Times(0); // No header callback.
381 EXPECT_CALL(client_, Instruction(MakeParsedVoidTypeInstruction(1)))
382 .WillOnce(Return(SPV_SUCCESS));
383 EXPECT_EQ(SPV_SUCCESS, spvBinaryParse(ScopedContext().context, &client_,
384 words.data(), words.size(), nullptr,
385 invoke_instruction, &diagnostic_));
386 EXPECT_EQ(nullptr, diagnostic_);
387 }
388
TEST_F(BinaryParseTest,NullInstructionCallbackIsIgnored)389 TEST_F(BinaryParseTest, NullInstructionCallbackIsIgnored) {
390 const auto words = CompileSuccessfully("%1 = OpTypeVoid");
391 EXPECT_HEADER((2)).WillOnce(Return(SPV_SUCCESS));
392 EXPECT_CALL(client_, Instruction(_)).Times(0); // No instruction callback.
393 EXPECT_EQ(SPV_SUCCESS,
394 spvBinaryParse(ScopedContext().context, &client_, words.data(),
395 words.size(), invoke_header, nullptr, &diagnostic_));
396 EXPECT_EQ(nullptr, diagnostic_);
397 }
398
399 // Check the result of multiple instruction callbacks.
400 //
401 // This test exercises non-default values for the following members of the
402 // spv_parsed_instruction_t struct: words, num_words, opcode, result_id,
403 // operands, num_operands.
TEST_F(BinaryParseTest,TwoScalarTypesGenerateTwoInstructionCallbacks)404 TEST_F(BinaryParseTest, TwoScalarTypesGenerateTwoInstructionCallbacks) {
405 for (bool endian_swap : kSwapEndians) {
406 const auto words = CompileSuccessfully(
407 "%1 = OpTypeVoid "
408 "%2 = OpTypeInt 32 1");
409 InSequence calls_expected_in_specific_order;
410 EXPECT_HEADER(3).WillOnce(Return(SPV_SUCCESS));
411 EXPECT_CALL(client_, Instruction(MakeParsedVoidTypeInstruction(1)))
412 .WillOnce(Return(SPV_SUCCESS));
413 EXPECT_CALL(client_, Instruction(MakeParsedInt32TypeInstruction(2)))
414 .WillOnce(Return(SPV_SUCCESS));
415 Parse(words, SPV_SUCCESS, endian_swap);
416 EXPECT_EQ(nullptr, diagnostic_);
417 }
418 }
419
TEST_F(BinaryParseTest,EarlyReturnWithZeroPassingCallbacks)420 TEST_F(BinaryParseTest, EarlyReturnWithZeroPassingCallbacks) {
421 for (bool endian_swap : kSwapEndians) {
422 const auto words = CompileSuccessfully(
423 "%1 = OpTypeVoid "
424 "%2 = OpTypeInt 32 1");
425 InSequence calls_expected_in_specific_order;
426 EXPECT_HEADER(3).WillOnce(Return(SPV_ERROR_INVALID_BINARY));
427 // Early exit means no calls to Instruction().
428 EXPECT_CALL(client_, Instruction(_)).Times(0);
429 Parse(words, SPV_ERROR_INVALID_BINARY, endian_swap);
430 // On error, the binary parser doesn't generate its own diagnostics.
431 EXPECT_EQ(nullptr, diagnostic_);
432 }
433 }
434
TEST_F(BinaryParseTest,EarlyReturnWithZeroPassingCallbacksAndSpecifiedResultCode)435 TEST_F(BinaryParseTest,
436 EarlyReturnWithZeroPassingCallbacksAndSpecifiedResultCode) {
437 for (bool endian_swap : kSwapEndians) {
438 const auto words = CompileSuccessfully(
439 "%1 = OpTypeVoid "
440 "%2 = OpTypeInt 32 1");
441 InSequence calls_expected_in_specific_order;
442 EXPECT_HEADER(3).WillOnce(Return(SPV_REQUESTED_TERMINATION));
443 // Early exit means no calls to Instruction().
444 EXPECT_CALL(client_, Instruction(_)).Times(0);
445 Parse(words, SPV_REQUESTED_TERMINATION, endian_swap);
446 // On early termination, the binary parser doesn't generate its own
447 // diagnostics.
448 EXPECT_EQ(nullptr, diagnostic_);
449 }
450 }
451
TEST_F(BinaryParseTest,EarlyReturnWithOnePassingCallback)452 TEST_F(BinaryParseTest, EarlyReturnWithOnePassingCallback) {
453 for (bool endian_swap : kSwapEndians) {
454 const auto words = CompileSuccessfully(
455 "%1 = OpTypeVoid "
456 "%2 = OpTypeInt 32 1 "
457 "%3 = OpTypeFloat 32");
458 InSequence calls_expected_in_specific_order;
459 EXPECT_HEADER(4).WillOnce(Return(SPV_SUCCESS));
460 EXPECT_CALL(client_, Instruction(MakeParsedVoidTypeInstruction(1)))
461 .WillOnce(Return(SPV_REQUESTED_TERMINATION));
462 Parse(words, SPV_REQUESTED_TERMINATION, endian_swap);
463 // On early termination, the binary parser doesn't generate its own
464 // diagnostics.
465 EXPECT_EQ(nullptr, diagnostic_);
466 }
467 }
468
TEST_F(BinaryParseTest,EarlyReturnWithTwoPassingCallbacks)469 TEST_F(BinaryParseTest, EarlyReturnWithTwoPassingCallbacks) {
470 for (bool endian_swap : kSwapEndians) {
471 const auto words = CompileSuccessfully(
472 "%1 = OpTypeVoid "
473 "%2 = OpTypeInt 32 1 "
474 "%3 = OpTypeFloat 32");
475 InSequence calls_expected_in_specific_order;
476 EXPECT_HEADER(4).WillOnce(Return(SPV_SUCCESS));
477 EXPECT_CALL(client_, Instruction(MakeParsedVoidTypeInstruction(1)))
478 .WillOnce(Return(SPV_SUCCESS));
479 EXPECT_CALL(client_, Instruction(MakeParsedInt32TypeInstruction(2)))
480 .WillOnce(Return(SPV_REQUESTED_TERMINATION));
481 Parse(words, SPV_REQUESTED_TERMINATION, endian_swap);
482 // On early termination, the binary parser doesn't generate its own
483 // diagnostics.
484 EXPECT_EQ(nullptr, diagnostic_);
485 }
486 }
487
TEST_F(BinaryParseTest,InstructionWithStringOperand)488 TEST_F(BinaryParseTest, InstructionWithStringOperand) {
489 const std::string str =
490 "the future is already here, it's just not evenly distributed";
491 const auto str_words = MakeVector(str);
492 const auto instruction = MakeInstruction(SpvOpName, {99}, str_words);
493 const auto words = Concatenate({ExpectedHeaderForBound(100), instruction});
494 InSequence calls_expected_in_specific_order;
495 EXPECT_HEADER(100).WillOnce(Return(SPV_SUCCESS));
496 const auto operands = std::vector<spv_parsed_operand_t>{
497 MakeSimpleOperand(1, SPV_OPERAND_TYPE_ID),
498 MakeLiteralStringOperand(2, static_cast<uint16_t>(str_words.size()))};
499 EXPECT_CALL(client_,
500 Instruction(ParsedInstruction(spv_parsed_instruction_t{
501 instruction.data(), static_cast<uint16_t>(instruction.size()),
502 SpvOpName, SPV_EXT_INST_TYPE_NONE, 0 /*type id*/,
503 0 /* No result id for OpName*/, operands.data(),
504 static_cast<uint16_t>(operands.size())})))
505 .WillOnce(Return(SPV_SUCCESS));
506 // Since we are actually checking the output, don't test the
507 // endian-swapped version.
508 Parse(words, SPV_SUCCESS, false);
509 EXPECT_EQ(nullptr, diagnostic_);
510 }
511
512 // Checks for non-zero values for the result_id and ext_inst_type members
513 // spv_parsed_instruction_t.
TEST_F(BinaryParseTest,ExtendedInstruction)514 TEST_F(BinaryParseTest, ExtendedInstruction) {
515 const auto words = CompileSuccessfully(
516 "%extcl = OpExtInstImport \"OpenCL.std\" "
517 "%result = OpExtInst %float %extcl sqrt %x");
518 EXPECT_HEADER(5).WillOnce(Return(SPV_SUCCESS));
519 EXPECT_CALL(client_, Instruction(_)).WillOnce(Return(SPV_SUCCESS));
520 // We're only interested in the second call to Instruction():
521 const auto operands = std::vector<spv_parsed_operand_t>{
522 MakeSimpleOperand(1, SPV_OPERAND_TYPE_TYPE_ID),
523 MakeSimpleOperand(2, SPV_OPERAND_TYPE_RESULT_ID),
524 MakeSimpleOperand(3,
525 SPV_OPERAND_TYPE_ID), // Extended instruction set Id
526 MakeSimpleOperand(4, SPV_OPERAND_TYPE_EXTENSION_INSTRUCTION_NUMBER),
527 MakeSimpleOperand(5, SPV_OPERAND_TYPE_ID), // Id of the argument
528 };
529 const auto instruction = MakeInstruction(
530 SpvOpExtInst,
531 {2, 3, 1, static_cast<uint32_t>(OpenCLLIB::Entrypoints::Sqrt), 4});
532 EXPECT_CALL(client_,
533 Instruction(ParsedInstruction(spv_parsed_instruction_t{
534 instruction.data(), static_cast<uint16_t>(instruction.size()),
535 SpvOpExtInst, SPV_EXT_INST_TYPE_OPENCL_STD, 2 /*type id*/,
536 3 /*result id*/, operands.data(),
537 static_cast<uint16_t>(operands.size())})))
538 .WillOnce(Return(SPV_SUCCESS));
539 // Since we are actually checking the output, don't test the
540 // endian-swapped version.
541 Parse(words, SPV_SUCCESS, false);
542 EXPECT_EQ(nullptr, diagnostic_);
543 }
544
545 // A binary parser diagnostic test case where we provide the words array
546 // pointer and word count explicitly.
547 struct WordsAndCountDiagnosticCase {
548 const uint32_t* words;
549 size_t num_words;
550 std::string expected_diagnostic;
551 };
552
553 using BinaryParseWordsAndCountDiagnosticTest = spvtest::TextToBinaryTestBase<
554 ::testing::TestWithParam<WordsAndCountDiagnosticCase>>;
555
TEST_P(BinaryParseWordsAndCountDiagnosticTest,WordAndCountCases)556 TEST_P(BinaryParseWordsAndCountDiagnosticTest, WordAndCountCases) {
557 EXPECT_EQ(
558 SPV_ERROR_INVALID_BINARY,
559 spvBinaryParse(ScopedContext().context, nullptr, GetParam().words,
560 GetParam().num_words, nullptr, nullptr, &diagnostic));
561 ASSERT_NE(nullptr, diagnostic);
562 EXPECT_THAT(diagnostic->error, Eq(GetParam().expected_diagnostic));
563 }
564
565 INSTANTIATE_TEST_SUITE_P(
566 BinaryParseDiagnostic, BinaryParseWordsAndCountDiagnosticTest,
567 ::testing::ValuesIn(std::vector<WordsAndCountDiagnosticCase>{
568 {nullptr, 0, "Missing module."},
569 {kHeaderForBound1, 0,
570 "Module has incomplete header: only 0 words instead of 5"},
571 {kHeaderForBound1, 1,
572 "Module has incomplete header: only 1 words instead of 5"},
573 {kHeaderForBound1, 2,
574 "Module has incomplete header: only 2 words instead of 5"},
575 {kHeaderForBound1, 3,
576 "Module has incomplete header: only 3 words instead of 5"},
577 {kHeaderForBound1, 4,
578 "Module has incomplete header: only 4 words instead of 5"},
579 }));
580
581 // A binary parser diagnostic test case where a vector of words is
582 // provided. We'll use this to express cases that can't be created
583 // via the assembler. Either we want to make a malformed instruction,
584 // or an invalid case the assembler would reject.
585 struct WordVectorDiagnosticCase {
586 std::vector<uint32_t> words;
587 std::string expected_diagnostic;
588 };
589
590 using BinaryParseWordVectorDiagnosticTest = spvtest::TextToBinaryTestBase<
591 ::testing::TestWithParam<WordVectorDiagnosticCase>>;
592
TEST_P(BinaryParseWordVectorDiagnosticTest,WordVectorCases)593 TEST_P(BinaryParseWordVectorDiagnosticTest, WordVectorCases) {
594 const auto& words = GetParam().words;
595 EXPECT_THAT(spvBinaryParse(ScopedContext().context, nullptr, words.data(),
596 words.size(), nullptr, nullptr, &diagnostic),
597 AnyOf(SPV_ERROR_INVALID_BINARY, SPV_ERROR_INVALID_ID));
598 ASSERT_NE(nullptr, diagnostic);
599 EXPECT_THAT(diagnostic->error, Eq(GetParam().expected_diagnostic));
600 }
601
602 INSTANTIATE_TEST_SUITE_P(
603 BinaryParseDiagnostic, BinaryParseWordVectorDiagnosticTest,
604 ::testing::ValuesIn(std::vector<WordVectorDiagnosticCase>{
605 {Concatenate({ExpectedHeaderForBound(1), {spvOpcodeMake(0, SpvOpNop)}}),
606 "Invalid instruction word count: 0"},
607 {Concatenate(
608 {ExpectedHeaderForBound(1),
609 {spvOpcodeMake(1, static_cast<SpvOp>(
610 std::numeric_limits<uint16_t>::max()))}}),
611 "Invalid opcode: 65535"},
612 {Concatenate({ExpectedHeaderForBound(1),
613 MakeInstruction(SpvOpNop, {42})}),
614 "Invalid instruction OpNop starting at word 5: expected "
615 "no more operands after 1 words, but stated word count is 2."},
616 // Supply several more unexpectd words.
617 {Concatenate({ExpectedHeaderForBound(1),
618 MakeInstruction(SpvOpNop, {42, 43, 44, 45, 46, 47})}),
619 "Invalid instruction OpNop starting at word 5: expected "
620 "no more operands after 1 words, but stated word count is 7."},
621 {Concatenate({ExpectedHeaderForBound(1),
622 MakeInstruction(SpvOpTypeVoid, {1, 2})}),
623 "Invalid instruction OpTypeVoid starting at word 5: expected "
624 "no more operands after 2 words, but stated word count is 3."},
625 {Concatenate({ExpectedHeaderForBound(1),
626 MakeInstruction(SpvOpTypeVoid, {1, 2, 5, 9, 10})}),
627 "Invalid instruction OpTypeVoid starting at word 5: expected "
628 "no more operands after 2 words, but stated word count is 6."},
629 {Concatenate({ExpectedHeaderForBound(1),
630 MakeInstruction(SpvOpTypeInt, {1, 32, 1, 9})}),
631 "Invalid instruction OpTypeInt starting at word 5: expected "
632 "no more operands after 4 words, but stated word count is 5."},
633 {Concatenate({ExpectedHeaderForBound(1),
634 MakeInstruction(SpvOpTypeInt, {1})}),
635 "End of input reached while decoding OpTypeInt starting at word 5:"
636 " expected more operands after 2 words."},
637
638 // Check several cases for running off the end of input.
639
640 // Detect a missing single word operand.
641 {Concatenate({ExpectedHeaderForBound(1),
642 {spvOpcodeMake(2, SpvOpTypeStruct)}}),
643 "End of input reached while decoding OpTypeStruct starting at word"
644 " 5: missing result ID operand at word offset 1."},
645 // Detect this a missing a multi-word operand to OpConstant.
646 // We also lie and say the OpConstant instruction has 5 words when
647 // it only has 3. Corresponds to something like this:
648 // %1 = OpTypeInt 64 0
649 // %2 = OpConstant %1 <missing>
650 {Concatenate({ExpectedHeaderForBound(3),
651 {MakeInstruction(SpvOpTypeInt, {1, 64, 0})},
652 {spvOpcodeMake(5, SpvOpConstant), 1, 2}}),
653 "End of input reached while decoding OpConstant starting at word"
654 " 9: missing possibly multi-word literal number operand at word "
655 "offset 3."},
656 // Detect when we provide only one word from the 64-bit literal,
657 // and again lie about the number of words in the instruction.
658 {Concatenate({ExpectedHeaderForBound(3),
659 {MakeInstruction(SpvOpTypeInt, {1, 64, 0})},
660 {spvOpcodeMake(5, SpvOpConstant), 1, 2, 42}}),
661 "End of input reached while decoding OpConstant starting at word"
662 " 9: truncated possibly multi-word literal number operand at word "
663 "offset 3."},
664 // Detect when a required string operand is missing.
665 // Also, lie about the length of the instruction.
666 {Concatenate({ExpectedHeaderForBound(3),
667 {spvOpcodeMake(3, SpvOpString), 1}}),
668 "End of input reached while decoding OpString starting at word"
669 " 5: missing literal string operand at word offset 2."},
670 // Detect when a required string operand is truncated: it's missing
671 // a null terminator. Catching the error avoids a buffer overrun.
672 {Concatenate({ExpectedHeaderForBound(3),
673 {spvOpcodeMake(4, SpvOpString), 1, 0x41414141,
674 0x41414141}}),
675 "End of input reached while decoding OpString starting at word"
676 " 5: truncated literal string operand at word offset 2."},
677 // Detect when an optional string operand is truncated: it's missing
678 // a null terminator. Catching the error avoids a buffer overrun.
679 // (It is valid for an optional string operand to be absent.)
680 {Concatenate({ExpectedHeaderForBound(3),
681 {spvOpcodeMake(6, SpvOpSource),
682 static_cast<uint32_t>(SpvSourceLanguageOpenCL_C), 210,
683 1 /* file id */,
684 /*start of string*/ 0x41414141, 0x41414141}}),
685 "End of input reached while decoding OpSource starting at word"
686 " 5: truncated literal string operand at word offset 4."},
687
688 // (End of input exhaustion test cases.)
689
690 // In this case the instruction word count is too small, where
691 // it would truncate a multi-word operand to OpConstant.
692 {Concatenate({ExpectedHeaderForBound(3),
693 {MakeInstruction(SpvOpTypeInt, {1, 64, 0})},
694 {spvOpcodeMake(4, SpvOpConstant), 1, 2, 44, 44}}),
695 "Invalid word count: OpConstant starting at word 9 says it has 4"
696 " words, but found 5 words instead."},
697 // Word count is to small, where it would truncate a literal string.
698 {Concatenate({ExpectedHeaderForBound(2),
699 {spvOpcodeMake(3, SpvOpString), 1, 0x41414141, 0}}),
700 "Invalid word count: OpString starting at word 5 says it has 3"
701 " words, but found 4 words instead."},
702 // Word count is too large. The string terminates before the last
703 // word.
704 {Concatenate({ExpectedHeaderForBound(2),
705 {spvOpcodeMake(4, SpvOpString), 1 /* result id */},
706 MakeVector("abc"),
707 {0 /* this word does not belong*/}}),
708 "Invalid instruction OpString starting at word 5: expected no more"
709 " operands after 3 words, but stated word count is 4."},
710 // Word count is too large. There are too many words after the string
711 // literal. A linkage attribute decoration is the only case in SPIR-V
712 // where a string operand is followed by another operand.
713 {Concatenate({ExpectedHeaderForBound(2),
714 {spvOpcodeMake(6, SpvOpDecorate), 1 /* target id */,
715 static_cast<uint32_t>(SpvDecorationLinkageAttributes)},
716 MakeVector("abc"),
717 {static_cast<uint32_t>(SpvLinkageTypeImport),
718 0 /* does not belong */}}),
719 "Invalid instruction OpDecorate starting at word 5: expected no more"
720 " operands after 5 words, but stated word count is 6."},
721 // Like the previous case, but with 5 extra words.
722 {Concatenate({ExpectedHeaderForBound(2),
723 {spvOpcodeMake(10, SpvOpDecorate), 1 /* target id */,
724 static_cast<uint32_t>(SpvDecorationLinkageAttributes)},
725 MakeVector("abc"),
726 {static_cast<uint32_t>(SpvLinkageTypeImport),
727 /* don't belong */ 0, 1, 2, 3, 4}}),
728 "Invalid instruction OpDecorate starting at word 5: expected no more"
729 " operands after 5 words, but stated word count is 10."},
730 // Like the previous two cases, but with OpMemberDecorate.
731 {Concatenate({ExpectedHeaderForBound(2),
732 {spvOpcodeMake(7, SpvOpMemberDecorate), 1 /* target id */,
733 42 /* member index */,
734 static_cast<uint32_t>(SpvDecorationLinkageAttributes)},
735 MakeVector("abc"),
736 {static_cast<uint32_t>(SpvLinkageTypeImport),
737 0 /* does not belong */}}),
738 "Invalid instruction OpMemberDecorate starting at word 5: expected no"
739 " more operands after 6 words, but stated word count is 7."},
740 {Concatenate({ExpectedHeaderForBound(2),
741 {spvOpcodeMake(11, SpvOpMemberDecorate),
742 1 /* target id */, 42 /* member index */,
743 static_cast<uint32_t>(SpvDecorationLinkageAttributes)},
744 MakeVector("abc"),
745 {static_cast<uint32_t>(SpvLinkageTypeImport),
746 /* don't belong */ 0, 1, 2, 3, 4}}),
747 "Invalid instruction OpMemberDecorate starting at word 5: expected no"
748 " more operands after 6 words, but stated word count is 11."},
749 // Word count is too large. There should be no more words
750 // after the RelaxedPrecision decoration.
751 {Concatenate({ExpectedHeaderForBound(2),
752 {spvOpcodeMake(4, SpvOpDecorate), 1 /* target id */,
753 static_cast<uint32_t>(SpvDecorationRelaxedPrecision),
754 0 /* does not belong */}}),
755 "Invalid instruction OpDecorate starting at word 5: expected no"
756 " more operands after 3 words, but stated word count is 4."},
757 // Word count is too large. There should be only one word after
758 // the SpecId decoration enum word.
759 {Concatenate({ExpectedHeaderForBound(2),
760 {spvOpcodeMake(5, SpvOpDecorate), 1 /* target id */,
761 static_cast<uint32_t>(SpvDecorationSpecId),
762 42 /* the spec id */, 0 /* does not belong */}}),
763 "Invalid instruction OpDecorate starting at word 5: expected no"
764 " more operands after 4 words, but stated word count is 5."},
765 {Concatenate({ExpectedHeaderForBound(2),
766 {spvOpcodeMake(2, SpvOpTypeVoid), 0}}),
767 "Error: Result Id is 0"},
768 {Concatenate({
769 ExpectedHeaderForBound(2),
770 {spvOpcodeMake(2, SpvOpTypeVoid), 1},
771 {spvOpcodeMake(2, SpvOpTypeBool), 1},
772 }),
773 "Id 1 is defined more than once"},
774 {Concatenate({ExpectedHeaderForBound(3),
775 MakeInstruction(SpvOpExtInst, {2, 3, 100, 4, 5})}),
776 "OpExtInst set Id 100 does not reference an OpExtInstImport result "
777 "Id"},
778 {Concatenate({ExpectedHeaderForBound(101),
779 MakeInstruction(SpvOpExtInstImport, {100},
780 MakeVector("OpenCL.std")),
781 // OpenCL cos is #14
782 MakeInstruction(SpvOpExtInst, {2, 3, 100, 14, 5, 999})}),
783 "Invalid instruction OpExtInst starting at word 10: expected no "
784 "more operands after 6 words, but stated word count is 7."},
785 // In this case, the OpSwitch selector refers to an invalid ID.
786 {Concatenate({ExpectedHeaderForBound(3),
787 MakeInstruction(SpvOpSwitch, {1, 2, 42, 3})}),
788 "Invalid OpSwitch: selector id 1 has no type"},
789 // In this case, the OpSwitch selector refers to an ID that has
790 // no type.
791 {Concatenate({ExpectedHeaderForBound(3),
792 MakeInstruction(SpvOpLabel, {1}),
793 MakeInstruction(SpvOpSwitch, {1, 2, 42, 3})}),
794 "Invalid OpSwitch: selector id 1 has no type"},
795 {Concatenate({ExpectedHeaderForBound(3),
796 MakeInstruction(SpvOpTypeInt, {1, 32, 0}),
797 MakeInstruction(SpvOpSwitch, {1, 3, 42, 3})}),
798 "Invalid OpSwitch: selector id 1 is a type, not a value"},
799 {Concatenate({ExpectedHeaderForBound(3),
800 MakeInstruction(SpvOpTypeFloat, {1, 32}),
801 MakeInstruction(SpvOpConstant, {1, 2, 0x78f00000}),
802 MakeInstruction(SpvOpSwitch, {2, 3, 42, 3})}),
803 "Invalid OpSwitch: selector id 2 is not a scalar integer"},
804 {Concatenate({ExpectedHeaderForBound(3),
805 MakeInstruction(SpvOpExtInstImport, {1},
806 MakeVector("invalid-import"))}),
807 "Invalid extended instruction import 'invalid-import'"},
808 {Concatenate({
809 ExpectedHeaderForBound(3),
810 MakeInstruction(SpvOpTypeInt, {1, 32, 0}),
811 MakeInstruction(SpvOpConstant, {2, 2, 42}),
812 }),
813 "Type Id 2 is not a type"},
814 {Concatenate({
815 ExpectedHeaderForBound(3),
816 MakeInstruction(SpvOpTypeBool, {1}),
817 MakeInstruction(SpvOpConstant, {1, 2, 42}),
818 }),
819 "Type Id 1 is not a scalar numeric type"},
820 }));
821
822 // A binary parser diagnostic case generated from an assembly text input.
823 struct AssemblyDiagnosticCase {
824 std::string assembly;
825 std::string expected_diagnostic;
826 };
827
828 using BinaryParseAssemblyDiagnosticTest = spvtest::TextToBinaryTestBase<
829 ::testing::TestWithParam<AssemblyDiagnosticCase>>;
830
TEST_P(BinaryParseAssemblyDiagnosticTest,AssemblyCases)831 TEST_P(BinaryParseAssemblyDiagnosticTest, AssemblyCases) {
832 auto words = CompileSuccessfully(GetParam().assembly);
833 EXPECT_THAT(spvBinaryParse(ScopedContext().context, nullptr, words.data(),
834 words.size(), nullptr, nullptr, &diagnostic),
835 AnyOf(SPV_ERROR_INVALID_BINARY, SPV_ERROR_INVALID_ID));
836 ASSERT_NE(nullptr, diagnostic);
837 EXPECT_THAT(diagnostic->error, Eq(GetParam().expected_diagnostic));
838 }
839
840 INSTANTIATE_TEST_SUITE_P(
841 BinaryParseDiagnostic, BinaryParseAssemblyDiagnosticTest,
842 ::testing::ValuesIn(std::vector<AssemblyDiagnosticCase>{
843 {"%1 = OpConstant !0 42", "Error: Type Id is 0"},
844 // A required id is 0.
845 {"OpName !0 \"foo\"", "Id is 0"},
846 // An optional id is 0, in this case the optional
847 // initializer.
848 {"%2 = OpVariable %1 CrossWorkgroup !0", "Id is 0"},
849 {"OpControlBarrier !0 %1 %2", "scope ID is 0"},
850 {"OpControlBarrier %1 !0 %2", "scope ID is 0"},
851 {"OpControlBarrier %1 %2 !0", "memory semantics ID is 0"},
852 {"%import = OpExtInstImport \"GLSL.std.450\" "
853 "%result = OpExtInst %type %import !999999 %x",
854 "Invalid extended instruction number: 999999"},
855 {"%2 = OpSpecConstantOp %1 !1000 %2",
856 "Invalid OpSpecConstantOp opcode: 1000"},
857 {"OpCapability !9999", "Invalid capability operand: 9999"},
858 {"OpSource !9999 100", "Invalid source language operand: 9999"},
859 {"OpEntryPoint !9999", "Invalid execution model operand: 9999"},
860 {"OpMemoryModel !9999", "Invalid addressing model operand: 9999"},
861 {"OpMemoryModel Logical !9999", "Invalid memory model operand: 9999"},
862 {"OpExecutionMode %1 !9999", "Invalid execution mode operand: 9999"},
863 {"OpTypeForwardPointer %1 !9999",
864 "Invalid storage class operand: 9999"},
865 {"%2 = OpTypeImage %1 !9999", "Invalid dimensionality operand: 9999"},
866 {"%2 = OpTypeImage %1 1D 0 0 0 0 !9999",
867 "Invalid image format operand: 9999"},
868 {"OpDecorate %1 FPRoundingMode !9999",
869 "Invalid floating-point rounding mode operand: 9999"},
870 {"OpDecorate %1 LinkageAttributes \"C\" !9999",
871 "Invalid linkage type operand: 9999"},
872 {"%1 = OpTypePipe !9999", "Invalid access qualifier operand: 9999"},
873 {"OpDecorate %1 FuncParamAttr !9999",
874 "Invalid function parameter attribute operand: 9999"},
875 {"OpDecorate %1 !9999", "Invalid decoration operand: 9999"},
876 {"OpDecorate %1 BuiltIn !9999", "Invalid built-in operand: 9999"},
877 {"%2 = OpGroupIAdd %1 %3 !9999",
878 "Invalid group operation operand: 9999"},
879 {"OpDecorate %1 FPFastMathMode !63",
880 "Invalid floating-point fast math mode operand: 63 has invalid mask "
881 "component 32"},
882 {"%2 = OpFunction %2 !31",
883 "Invalid function control operand: 31 has invalid mask component 16"},
884 {"OpLoopMerge %1 %2 !1027",
885 "Invalid loop control operand: 1027 has invalid mask component 1024"},
886 {"%2 = OpImageFetch %1 %image %coord !32770",
887 "Invalid image operand: 32770 has invalid mask component 32768"},
888 {"OpSelectionMerge %1 !7",
889 "Invalid selection control operand: 7 has invalid mask component 4"},
890 }));
891
892 } // namespace
893 } // namespace spvtools
894