1*f5c631daSSadaf Ebrahimi // Copyright 2014, VIXL authors
2*f5c631daSSadaf Ebrahimi // All rights reserved.
3*f5c631daSSadaf Ebrahimi //
4*f5c631daSSadaf Ebrahimi // Redistribution and use in source and binary forms, with or without
5*f5c631daSSadaf Ebrahimi // modification, are permitted provided that the following conditions are met:
6*f5c631daSSadaf Ebrahimi //
7*f5c631daSSadaf Ebrahimi // * Redistributions of source code must retain the above copyright notice,
8*f5c631daSSadaf Ebrahimi // this list of conditions and the following disclaimer.
9*f5c631daSSadaf Ebrahimi // * Redistributions in binary form must reproduce the above copyright notice,
10*f5c631daSSadaf Ebrahimi // this list of conditions and the following disclaimer in the documentation
11*f5c631daSSadaf Ebrahimi // and/or other materials provided with the distribution.
12*f5c631daSSadaf Ebrahimi // * Neither the name of ARM Limited nor the names of its contributors may be
13*f5c631daSSadaf Ebrahimi // used to endorse or promote products derived from this software without
14*f5c631daSSadaf Ebrahimi // specific prior written permission.
15*f5c631daSSadaf Ebrahimi //
16*f5c631daSSadaf Ebrahimi // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
17*f5c631daSSadaf Ebrahimi // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18*f5c631daSSadaf Ebrahimi // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19*f5c631daSSadaf Ebrahimi // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
20*f5c631daSSadaf Ebrahimi // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21*f5c631daSSadaf Ebrahimi // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
22*f5c631daSSadaf Ebrahimi // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
23*f5c631daSSadaf Ebrahimi // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
24*f5c631daSSadaf Ebrahimi // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
25*f5c631daSSadaf Ebrahimi // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26*f5c631daSSadaf Ebrahimi
27*f5c631daSSadaf Ebrahimi #include <cstdlib>
28*f5c631daSSadaf Ebrahimi #include <string>
29*f5c631daSSadaf Ebrahimi
30*f5c631daSSadaf Ebrahimi #include "test-runner.h"
31*f5c631daSSadaf Ebrahimi
32*f5c631daSSadaf Ebrahimi #include "aarch64/decoder-aarch64.h"
33*f5c631daSSadaf Ebrahimi #include "aarch64/disasm-aarch64.h"
34*f5c631daSSadaf Ebrahimi
35*f5c631daSSadaf Ebrahimi #define TEST(name) TEST_(AARCH64_FUZZ_##name)
36*f5c631daSSadaf Ebrahimi
37*f5c631daSSadaf Ebrahimi
38*f5c631daSSadaf Ebrahimi namespace vixl {
39*f5c631daSSadaf Ebrahimi namespace aarch64 {
40*f5c631daSSadaf Ebrahimi
FuzzHelper(std::string mode,int step_size,int offset,int shift)41*f5c631daSSadaf Ebrahimi static void FuzzHelper(std::string mode, int step_size, int offset, int shift) {
42*f5c631daSSadaf Ebrahimi Decoder decoder;
43*f5c631daSSadaf Ebrahimi PrintDisassembler disasm(stdout);
44*f5c631daSSadaf Ebrahimi Instruction buffer[kInstructionSize];
45*f5c631daSSadaf Ebrahimi
46*f5c631daSSadaf Ebrahimi if (mode == "disasm") {
47*f5c631daSSadaf Ebrahimi decoder.AppendVisitor(&disasm);
48*f5c631daSSadaf Ebrahimi } else {
49*f5c631daSSadaf Ebrahimi VIXL_CHECK(mode == "decoder");
50*f5c631daSSadaf Ebrahimi }
51*f5c631daSSadaf Ebrahimi
52*f5c631daSSadaf Ebrahimi for (uint64_t i = offset << shift; i < (UINT64_C(1) << 32); i += step_size) {
53*f5c631daSSadaf Ebrahimi buffer->SetInstructionBits(static_cast<uint32_t>(i));
54*f5c631daSSadaf Ebrahimi decoder.Decode(buffer);
55*f5c631daSSadaf Ebrahimi }
56*f5c631daSSadaf Ebrahimi }
57*f5c631daSSadaf Ebrahimi
58*f5c631daSSadaf Ebrahimi // Number of shards used to split fuzz tests. This value isn't used in the macro
59*f5c631daSSadaf Ebrahimi // below, so if you change this, ensure more FUZZ_SHARD instances are
60*f5c631daSSadaf Ebrahimi // instantiated.
61*f5c631daSSadaf Ebrahimi static const int kShardCount = 16;
62*f5c631daSSadaf Ebrahimi
63*f5c631daSSadaf Ebrahimi // Test approximately 1% of the instruction space for the decoder, and 0.2% for
64*f5c631daSSadaf Ebrahimi // the disassembler. Multiply the step size by the number of shards issued.
65*f5c631daSSadaf Ebrahimi static const int kDecoderStep = 100 * kShardCount + 1;
66*f5c631daSSadaf Ebrahimi static const int kDisasmStep = 500 * kShardCount + 1;
67*f5c631daSSadaf Ebrahimi
68*f5c631daSSadaf Ebrahimi // Shift the offset argument into the top-level opcode bits, which helps to
69*f5c631daSSadaf Ebrahimi // spread the fuzz coverage across instruction classes.
70*f5c631daSSadaf Ebrahimi static const int kOpFieldShift = 25;
71*f5c631daSSadaf Ebrahimi
72*f5c631daSSadaf Ebrahimi #define FUZZ_SHARD(mode, step, i, shift) \
73*f5c631daSSadaf Ebrahimi TEST(mode##_##i) { FuzzHelper(#mode, step, i, shift); }
74*f5c631daSSadaf Ebrahimi
75*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 0, kOpFieldShift)
76*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 1, kOpFieldShift)
77*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 2, kOpFieldShift)
78*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 3, kOpFieldShift)
79*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 4, kOpFieldShift)
80*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 5, kOpFieldShift)
81*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 6, kOpFieldShift)
82*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 7, kOpFieldShift)
83*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 8, kOpFieldShift)
84*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 9, kOpFieldShift)
85*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 10, kOpFieldShift)
86*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 11, kOpFieldShift)
87*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 12, kOpFieldShift)
88*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 13, kOpFieldShift)
89*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 14, kOpFieldShift)
90*f5c631daSSadaf Ebrahimi FUZZ_SHARD(decoder, kDecoderStep, 15, kOpFieldShift)
91*f5c631daSSadaf Ebrahimi
92*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 0, kOpFieldShift)
93*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 1, kOpFieldShift)
94*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 2, kOpFieldShift)
95*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 3, kOpFieldShift)
96*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 4, kOpFieldShift)
97*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 5, kOpFieldShift)
98*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 6, kOpFieldShift)
99*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 7, kOpFieldShift)
100*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 8, kOpFieldShift)
101*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 9, kOpFieldShift)
102*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 10, kOpFieldShift)
103*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 11, kOpFieldShift)
104*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 12, kOpFieldShift)
105*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 13, kOpFieldShift)
106*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 14, kOpFieldShift)
107*f5c631daSSadaf Ebrahimi FUZZ_SHARD(disasm, kDisasmStep, 15, kOpFieldShift)
108*f5c631daSSadaf Ebrahimi
109*f5c631daSSadaf Ebrahimi } // namespace aarch64
110*f5c631daSSadaf Ebrahimi } // namespace vixl
111