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1 #region Copyright notice and license
2 // Protocol Buffers - Google's data interchange format
3 // Copyright 2008 Google Inc.  All rights reserved.
4 // https://developers.google.com/protocol-buffers/
5 //
6 // Redistribution and use in source and binary forms, with or without
7 // modification, are permitted provided that the following conditions are
8 // met:
9 //
10 //     * Redistributions of source code must retain the above copyright
11 // notice, this list of conditions and the following disclaimer.
12 //     * Redistributions in binary form must reproduce the above
13 // copyright notice, this list of conditions and the following disclaimer
14 // in the documentation and/or other materials provided with the
15 // distribution.
16 //     * Neither the name of Google Inc. nor the names of its
17 // contributors may be used to endorse or promote products derived from
18 // this software without specific prior written permission.
19 //
20 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
21 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
22 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
23 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
24 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
25 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
26 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
27 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
28 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
29 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
30 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
31 #endregion
32 
33 using System;
34 using System.IO;
35 using Google.Protobuf.TestProtos;
36 using NUnit.Framework;
37 
38 namespace Google.Protobuf
39 {
40     public class CodedInputStreamTest
41     {
42         /// <summary>
43         /// Helper to construct a byte array from a bunch of bytes.  The inputs are
44         /// actually ints so that I can use hex notation and not get stupid errors
45         /// about precision.
46         /// </summary>
Bytes(params int[] bytesAsInts)47         private static byte[] Bytes(params int[] bytesAsInts)
48         {
49             byte[] bytes = new byte[bytesAsInts.Length];
50             for (int i = 0; i < bytesAsInts.Length; i++)
51             {
52                 bytes[i] = (byte) bytesAsInts[i];
53             }
54             return bytes;
55         }
56 
57         /// <summary>
58         /// Parses the given bytes using ReadRawVarint32() and ReadRawVarint64()
59         /// </summary>
AssertReadVarint(byte[] data, ulong value)60         private static void AssertReadVarint(byte[] data, ulong value)
61         {
62             CodedInputStream input = new CodedInputStream(data);
63             Assert.AreEqual((uint) value, input.ReadRawVarint32());
64 
65             input = new CodedInputStream(data);
66             Assert.AreEqual(value, input.ReadRawVarint64());
67             Assert.IsTrue(input.IsAtEnd);
68 
69             // Try different block sizes.
70             for (int bufferSize = 1; bufferSize <= 16; bufferSize *= 2)
71             {
72                 input = new CodedInputStream(new SmallBlockInputStream(data, bufferSize));
73                 Assert.AreEqual((uint) value, input.ReadRawVarint32());
74 
75                 input = new CodedInputStream(new SmallBlockInputStream(data, bufferSize));
76                 Assert.AreEqual(value, input.ReadRawVarint64());
77                 Assert.IsTrue(input.IsAtEnd);
78             }
79 
80             // Try reading directly from a MemoryStream. We want to verify that it
81             // doesn't read past the end of the input, so write an extra byte - this
82             // lets us test the position at the end.
83             MemoryStream memoryStream = new MemoryStream();
84             memoryStream.Write(data, 0, data.Length);
85             memoryStream.WriteByte(0);
86             memoryStream.Position = 0;
87             Assert.AreEqual((uint) value, CodedInputStream.ReadRawVarint32(memoryStream));
88             Assert.AreEqual(data.Length, memoryStream.Position);
89         }
90 
91         /// <summary>
92         /// Parses the given bytes using ReadRawVarint32() and ReadRawVarint64() and
93         /// expects them to fail with an InvalidProtocolBufferException whose
94         /// description matches the given one.
95         /// </summary>
AssertReadVarintFailure(InvalidProtocolBufferException expected, byte[] data)96         private static void AssertReadVarintFailure(InvalidProtocolBufferException expected, byte[] data)
97         {
98             CodedInputStream input = new CodedInputStream(data);
99             var exception = Assert.Throws<InvalidProtocolBufferException>(() => input.ReadRawVarint32());
100             Assert.AreEqual(expected.Message, exception.Message);
101 
102             input = new CodedInputStream(data);
103             exception = Assert.Throws<InvalidProtocolBufferException>(() => input.ReadRawVarint64());
104             Assert.AreEqual(expected.Message, exception.Message);
105 
106             // Make sure we get the same error when reading directly from a Stream.
107             exception = Assert.Throws<InvalidProtocolBufferException>(() => CodedInputStream.ReadRawVarint32(new MemoryStream(data)));
108             Assert.AreEqual(expected.Message, exception.Message);
109         }
110 
111         [Test]
ReadVarint()112         public void ReadVarint()
113         {
114             AssertReadVarint(Bytes(0x00), 0);
115             AssertReadVarint(Bytes(0x01), 1);
116             AssertReadVarint(Bytes(0x7f), 127);
117             // 14882
118             AssertReadVarint(Bytes(0xa2, 0x74), (0x22 << 0) | (0x74 << 7));
119             // 2961488830
120             AssertReadVarint(Bytes(0xbe, 0xf7, 0x92, 0x84, 0x0b),
121                              (0x3e << 0) | (0x77 << 7) | (0x12 << 14) | (0x04 << 21) |
122                              (0x0bL << 28));
123 
124             // 64-bit
125             // 7256456126
126             AssertReadVarint(Bytes(0xbe, 0xf7, 0x92, 0x84, 0x1b),
127                              (0x3e << 0) | (0x77 << 7) | (0x12 << 14) | (0x04 << 21) |
128                              (0x1bL << 28));
129             // 41256202580718336
130             AssertReadVarint(Bytes(0x80, 0xe6, 0xeb, 0x9c, 0xc3, 0xc9, 0xa4, 0x49),
131                              (0x00 << 0) | (0x66 << 7) | (0x6b << 14) | (0x1c << 21) |
132                              (0x43L << 28) | (0x49L << 35) | (0x24L << 42) | (0x49L << 49));
133             // 11964378330978735131
134             AssertReadVarint(Bytes(0x9b, 0xa8, 0xf9, 0xc2, 0xbb, 0xd6, 0x80, 0x85, 0xa6, 0x01),
135                              (0x1b << 0) | (0x28 << 7) | (0x79 << 14) | (0x42 << 21) |
136                              (0x3bUL << 28) | (0x56UL << 35) | (0x00UL << 42) |
137                              (0x05UL << 49) | (0x26UL << 56) | (0x01UL << 63));
138 
139             // Failures
140             AssertReadVarintFailure(
141                 InvalidProtocolBufferException.MalformedVarint(),
142                 Bytes(0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80,
143                       0x00));
144             AssertReadVarintFailure(
145                 InvalidProtocolBufferException.TruncatedMessage(),
146                 Bytes(0x80));
147         }
148 
149         /// <summary>
150         /// Parses the given bytes using ReadRawLittleEndian32() and checks
151         /// that the result matches the given value.
152         /// </summary>
AssertReadLittleEndian32(byte[] data, uint value)153         private static void AssertReadLittleEndian32(byte[] data, uint value)
154         {
155             CodedInputStream input = new CodedInputStream(data);
156             Assert.AreEqual(value, input.ReadRawLittleEndian32());
157             Assert.IsTrue(input.IsAtEnd);
158 
159             // Try different block sizes.
160             for (int blockSize = 1; blockSize <= 16; blockSize *= 2)
161             {
162                 input = new CodedInputStream(
163                     new SmallBlockInputStream(data, blockSize));
164                 Assert.AreEqual(value, input.ReadRawLittleEndian32());
165                 Assert.IsTrue(input.IsAtEnd);
166             }
167         }
168 
169         /// <summary>
170         /// Parses the given bytes using ReadRawLittleEndian64() and checks
171         /// that the result matches the given value.
172         /// </summary>
AssertReadLittleEndian64(byte[] data, ulong value)173         private static void AssertReadLittleEndian64(byte[] data, ulong value)
174         {
175             CodedInputStream input = new CodedInputStream(data);
176             Assert.AreEqual(value, input.ReadRawLittleEndian64());
177             Assert.IsTrue(input.IsAtEnd);
178 
179             // Try different block sizes.
180             for (int blockSize = 1; blockSize <= 16; blockSize *= 2)
181             {
182                 input = new CodedInputStream(
183                     new SmallBlockInputStream(data, blockSize));
184                 Assert.AreEqual(value, input.ReadRawLittleEndian64());
185                 Assert.IsTrue(input.IsAtEnd);
186             }
187         }
188 
189         [Test]
ReadLittleEndian()190         public void ReadLittleEndian()
191         {
192             AssertReadLittleEndian32(Bytes(0x78, 0x56, 0x34, 0x12), 0x12345678);
193             AssertReadLittleEndian32(Bytes(0xf0, 0xde, 0xbc, 0x9a), 0x9abcdef0);
194 
195             AssertReadLittleEndian64(Bytes(0xf0, 0xde, 0xbc, 0x9a, 0x78, 0x56, 0x34, 0x12),
196                                      0x123456789abcdef0L);
197             AssertReadLittleEndian64(
198                 Bytes(0x78, 0x56, 0x34, 0x12, 0xf0, 0xde, 0xbc, 0x9a), 0x9abcdef012345678UL);
199         }
200 
201         [Test]
DecodeZigZag32()202         public void DecodeZigZag32()
203         {
204             Assert.AreEqual(0, ParsingPrimitives.DecodeZigZag32(0));
205             Assert.AreEqual(-1, ParsingPrimitives.DecodeZigZag32(1));
206             Assert.AreEqual(1, ParsingPrimitives.DecodeZigZag32(2));
207             Assert.AreEqual(-2, ParsingPrimitives.DecodeZigZag32(3));
208             Assert.AreEqual(0x3FFFFFFF, ParsingPrimitives.DecodeZigZag32(0x7FFFFFFE));
209             Assert.AreEqual(unchecked((int) 0xC0000000), ParsingPrimitives.DecodeZigZag32(0x7FFFFFFF));
210             Assert.AreEqual(0x7FFFFFFF, ParsingPrimitives.DecodeZigZag32(0xFFFFFFFE));
211             Assert.AreEqual(unchecked((int) 0x80000000), ParsingPrimitives.DecodeZigZag32(0xFFFFFFFF));
212         }
213 
214         [Test]
DecodeZigZag64()215         public void DecodeZigZag64()
216         {
217             Assert.AreEqual(0, ParsingPrimitives.DecodeZigZag64(0));
218             Assert.AreEqual(-1, ParsingPrimitives.DecodeZigZag64(1));
219             Assert.AreEqual(1, ParsingPrimitives.DecodeZigZag64(2));
220             Assert.AreEqual(-2, ParsingPrimitives.DecodeZigZag64(3));
221             Assert.AreEqual(0x000000003FFFFFFFL, ParsingPrimitives.DecodeZigZag64(0x000000007FFFFFFEL));
222             Assert.AreEqual(unchecked((long) 0xFFFFFFFFC0000000L), ParsingPrimitives.DecodeZigZag64(0x000000007FFFFFFFL));
223             Assert.AreEqual(0x000000007FFFFFFFL, ParsingPrimitives.DecodeZigZag64(0x00000000FFFFFFFEL));
224             Assert.AreEqual(unchecked((long) 0xFFFFFFFF80000000L), ParsingPrimitives.DecodeZigZag64(0x00000000FFFFFFFFL));
225             Assert.AreEqual(0x7FFFFFFFFFFFFFFFL, ParsingPrimitives.DecodeZigZag64(0xFFFFFFFFFFFFFFFEL));
226             Assert.AreEqual(unchecked((long) 0x8000000000000000L), ParsingPrimitives.DecodeZigZag64(0xFFFFFFFFFFFFFFFFL));
227         }
228 
229         [Test]
ReadWholeMessage_VaryingBlockSizes()230         public void ReadWholeMessage_VaryingBlockSizes()
231         {
232             TestAllTypes message = SampleMessages.CreateFullTestAllTypes();
233 
234             byte[] rawBytes = message.ToByteArray();
235             Assert.AreEqual(rawBytes.Length, message.CalculateSize());
236             TestAllTypes message2 = TestAllTypes.Parser.ParseFrom(rawBytes);
237             Assert.AreEqual(message, message2);
238 
239             // Try different block sizes.
240             for (int blockSize = 1; blockSize < 256; blockSize *= 2)
241             {
242                 message2 = TestAllTypes.Parser.ParseFrom(new SmallBlockInputStream(rawBytes, blockSize));
243                 Assert.AreEqual(message, message2);
244             }
245         }
246 
247         [Test]
ReadHugeBlob()248         public void ReadHugeBlob()
249         {
250             // Allocate and initialize a 1MB blob.
251             byte[] blob = new byte[1 << 20];
252             for (int i = 0; i < blob.Length; i++)
253             {
254                 blob[i] = (byte) i;
255             }
256 
257             // Make a message containing it.
258             var message = new TestAllTypes { SingleBytes = ByteString.CopyFrom(blob) };
259 
260             // Serialize and parse it.  Make sure to parse from an InputStream, not
261             // directly from a ByteString, so that CodedInputStream uses buffered
262             // reading.
263             TestAllTypes message2 = TestAllTypes.Parser.ParseFrom(message.ToByteString());
264 
265             Assert.AreEqual(message, message2);
266         }
267 
268         [Test]
ReadMaliciouslyLargeBlob()269         public void ReadMaliciouslyLargeBlob()
270         {
271             MemoryStream ms = new MemoryStream();
272             CodedOutputStream output = new CodedOutputStream(ms);
273 
274             uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
275             output.WriteRawVarint32(tag);
276             output.WriteRawVarint32(0x7FFFFFFF);
277             output.WriteRawBytes(new byte[32]); // Pad with a few random bytes.
278             output.Flush();
279             ms.Position = 0;
280 
281             CodedInputStream input = new CodedInputStream(ms);
282             Assert.AreEqual(tag, input.ReadTag());
283 
284             Assert.Throws<InvalidProtocolBufferException>(() => input.ReadBytes());
285         }
286 
MakeRecursiveMessage(int depth)287         internal static TestRecursiveMessage MakeRecursiveMessage(int depth)
288         {
289             if (depth == 0)
290             {
291                 return new TestRecursiveMessage { I = 5 };
292             }
293             else
294             {
295                 return new TestRecursiveMessage { A = MakeRecursiveMessage(depth - 1) };
296             }
297         }
298 
AssertMessageDepth(TestRecursiveMessage message, int depth)299         internal static void AssertMessageDepth(TestRecursiveMessage message, int depth)
300         {
301             if (depth == 0)
302             {
303                 Assert.IsNull(message.A);
304                 Assert.AreEqual(5, message.I);
305             }
306             else
307             {
308                 Assert.IsNotNull(message.A);
309                 AssertMessageDepth(message.A, depth - 1);
310             }
311         }
312 
313         [Test]
MaliciousRecursion()314         public void MaliciousRecursion()
315         {
316             ByteString atRecursiveLimit = MakeRecursiveMessage(CodedInputStream.DefaultRecursionLimit).ToByteString();
317             ByteString beyondRecursiveLimit = MakeRecursiveMessage(CodedInputStream.DefaultRecursionLimit + 1).ToByteString();
318 
319             AssertMessageDepth(TestRecursiveMessage.Parser.ParseFrom(atRecursiveLimit), CodedInputStream.DefaultRecursionLimit);
320 
321             Assert.Throws<InvalidProtocolBufferException>(() => TestRecursiveMessage.Parser.ParseFrom(beyondRecursiveLimit));
322 
323             CodedInputStream input = CodedInputStream.CreateWithLimits(new MemoryStream(atRecursiveLimit.ToByteArray()), 1000000, CodedInputStream.DefaultRecursionLimit - 1);
324             Assert.Throws<InvalidProtocolBufferException>(() => TestRecursiveMessage.Parser.ParseFrom(input));
325         }
326 
327         [Test]
SizeLimit()328         public void SizeLimit()
329         {
330             // Have to use a Stream rather than ByteString.CreateCodedInput as SizeLimit doesn't
331             // apply to the latter case.
332             MemoryStream ms = new MemoryStream(SampleMessages.CreateFullTestAllTypes().ToByteArray());
333             CodedInputStream input = CodedInputStream.CreateWithLimits(ms, 16, 100);
334             Assert.Throws<InvalidProtocolBufferException>(() => TestAllTypes.Parser.ParseFrom(input));
335         }
336 
337         /// <summary>
338         /// Tests that if we read an string that contains invalid UTF-8, no exception
339         /// is thrown.  Instead, the invalid bytes are replaced with the Unicode
340         /// "replacement character" U+FFFD.
341         /// </summary>
342         [Test]
ReadInvalidUtf8()343         public void ReadInvalidUtf8()
344         {
345             MemoryStream ms = new MemoryStream();
346             CodedOutputStream output = new CodedOutputStream(ms);
347 
348             uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
349             output.WriteRawVarint32(tag);
350             output.WriteRawVarint32(1);
351             output.WriteRawBytes(new byte[] {0x80});
352             output.Flush();
353             ms.Position = 0;
354 
355             CodedInputStream input = new CodedInputStream(ms);
356 
357             Assert.AreEqual(tag, input.ReadTag());
358             string text = input.ReadString();
359             Assert.AreEqual('\ufffd', text[0]);
360         }
361 
362         /// <summary>
363         /// A stream which limits the number of bytes it reads at a time.
364         /// We use this to make sure that CodedInputStream doesn't screw up when
365         /// reading in small blocks.
366         /// </summary>
367         private sealed class SmallBlockInputStream : MemoryStream
368         {
369             private readonly int blockSize;
370 
SmallBlockInputStream(byte[] data, int blockSize)371             public SmallBlockInputStream(byte[] data, int blockSize)
372                 : base(data)
373             {
374                 this.blockSize = blockSize;
375             }
376 
Read(byte[] buffer, int offset, int count)377             public override int Read(byte[] buffer, int offset, int count)
378             {
379                 return base.Read(buffer, offset, Math.Min(count, blockSize));
380             }
381         }
382 
383         [Test]
TestNegativeEnum()384         public void TestNegativeEnum()
385         {
386             byte[] bytes = { 0xFE, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x01 };
387             CodedInputStream input = new CodedInputStream(bytes);
388             Assert.AreEqual((int)SampleEnum.NegativeValue, input.ReadEnum());
389             Assert.IsTrue(input.IsAtEnd);
390         }
391 
392         //Issue 71:	CodedInputStream.ReadBytes go to slow path unnecessarily
393         [Test]
TestSlowPathAvoidance()394         public void TestSlowPathAvoidance()
395         {
396             using (var ms = new MemoryStream())
397             {
398                 CodedOutputStream output = new CodedOutputStream(ms);
399                 output.WriteTag(1, WireFormat.WireType.LengthDelimited);
400                 output.WriteBytes(ByteString.CopyFrom(new byte[100]));
401                 output.WriteTag(2, WireFormat.WireType.LengthDelimited);
402                 output.WriteBytes(ByteString.CopyFrom(new byte[100]));
403                 output.Flush();
404 
405                 ms.Position = 0;
406                 CodedInputStream input = new CodedInputStream(ms, new byte[ms.Length / 2], 0, 0, false);
407 
408                 uint tag = input.ReadTag();
409                 Assert.AreEqual(1, WireFormat.GetTagFieldNumber(tag));
410                 Assert.AreEqual(100, input.ReadBytes().Length);
411 
412                 tag = input.ReadTag();
413                 Assert.AreEqual(2, WireFormat.GetTagFieldNumber(tag));
414                 Assert.AreEqual(100, input.ReadBytes().Length);
415             }
416         }
417 
418         [Test]
Tag0Throws()419         public void Tag0Throws()
420         {
421             var input = new CodedInputStream(new byte[] { 0 });
422             Assert.Throws<InvalidProtocolBufferException>(() => input.ReadTag());
423         }
424 
425         [Test]
SkipGroup()426         public void SkipGroup()
427         {
428             // Create an output stream with a group in:
429             // Field 1: string "field 1"
430             // Field 2: group containing:
431             //   Field 1: fixed int32 value 100
432             //   Field 2: string "ignore me"
433             //   Field 3: nested group containing
434             //      Field 1: fixed int64 value 1000
435             // Field 3: string "field 3"
436             var stream = new MemoryStream();
437             var output = new CodedOutputStream(stream);
438             output.WriteTag(1, WireFormat.WireType.LengthDelimited);
439             output.WriteString("field 1");
440 
441             // The outer group...
442             output.WriteTag(2, WireFormat.WireType.StartGroup);
443             output.WriteTag(1, WireFormat.WireType.Fixed32);
444             output.WriteFixed32(100);
445             output.WriteTag(2, WireFormat.WireType.LengthDelimited);
446             output.WriteString("ignore me");
447             // The nested group...
448             output.WriteTag(3, WireFormat.WireType.StartGroup);
449             output.WriteTag(1, WireFormat.WireType.Fixed64);
450             output.WriteFixed64(1000);
451             // Note: Not sure the field number is relevant for end group...
452             output.WriteTag(3, WireFormat.WireType.EndGroup);
453 
454             // End the outer group
455             output.WriteTag(2, WireFormat.WireType.EndGroup);
456 
457             output.WriteTag(3, WireFormat.WireType.LengthDelimited);
458             output.WriteString("field 3");
459             output.Flush();
460             stream.Position = 0;
461 
462             // Now act like a generated client
463             var input = new CodedInputStream(stream);
464             Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
465             Assert.AreEqual("field 1", input.ReadString());
466             Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
467             input.SkipLastField(); // Should consume the whole group, including the nested one.
468             Assert.AreEqual(WireFormat.MakeTag(3, WireFormat.WireType.LengthDelimited), input.ReadTag());
469             Assert.AreEqual("field 3", input.ReadString());
470         }
471 
472         [Test]
SkipGroup_WrongEndGroupTag()473         public void SkipGroup_WrongEndGroupTag()
474         {
475             // Create an output stream with:
476             // Field 1: string "field 1"
477             // Start group 2
478             //   Field 3: fixed int32
479             // End group 4 (should give an error)
480             var stream = new MemoryStream();
481             var output = new CodedOutputStream(stream);
482             output.WriteTag(1, WireFormat.WireType.LengthDelimited);
483             output.WriteString("field 1");
484 
485             // The outer group...
486             output.WriteTag(2, WireFormat.WireType.StartGroup);
487             output.WriteTag(3, WireFormat.WireType.Fixed32);
488             output.WriteFixed32(100);
489             output.WriteTag(4, WireFormat.WireType.EndGroup);
490             output.Flush();
491             stream.Position = 0;
492 
493             // Now act like a generated client
494             var input = new CodedInputStream(stream);
495             Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
496             Assert.AreEqual("field 1", input.ReadString());
497             Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
498             Assert.Throws<InvalidProtocolBufferException>(input.SkipLastField);
499         }
500 
501         [Test]
RogueEndGroupTag()502         public void RogueEndGroupTag()
503         {
504             // If we have an end-group tag without a leading start-group tag, generated
505             // code will just call SkipLastField... so that should fail.
506 
507             var stream = new MemoryStream();
508             var output = new CodedOutputStream(stream);
509             output.WriteTag(1, WireFormat.WireType.EndGroup);
510             output.Flush();
511             stream.Position = 0;
512 
513             var input = new CodedInputStream(stream);
514             Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.EndGroup), input.ReadTag());
515             Assert.Throws<InvalidProtocolBufferException>(input.SkipLastField);
516         }
517 
518         [Test]
EndOfStreamReachedWhileSkippingGroup()519         public void EndOfStreamReachedWhileSkippingGroup()
520         {
521             var stream = new MemoryStream();
522             var output = new CodedOutputStream(stream);
523             output.WriteTag(1, WireFormat.WireType.StartGroup);
524             output.WriteTag(2, WireFormat.WireType.StartGroup);
525             output.WriteTag(2, WireFormat.WireType.EndGroup);
526 
527             output.Flush();
528             stream.Position = 0;
529 
530             // Now act like a generated client
531             var input = new CodedInputStream(stream);
532             input.ReadTag();
533             Assert.Throws<InvalidProtocolBufferException>(input.SkipLastField);
534         }
535 
536         [Test]
RecursionLimitAppliedWhileSkippingGroup()537         public void RecursionLimitAppliedWhileSkippingGroup()
538         {
539             var stream = new MemoryStream();
540             var output = new CodedOutputStream(stream);
541             for (int i = 0; i < CodedInputStream.DefaultRecursionLimit + 1; i++)
542             {
543                 output.WriteTag(1, WireFormat.WireType.StartGroup);
544             }
545             for (int i = 0; i < CodedInputStream.DefaultRecursionLimit + 1; i++)
546             {
547                 output.WriteTag(1, WireFormat.WireType.EndGroup);
548             }
549             output.Flush();
550             stream.Position = 0;
551 
552             // Now act like a generated client
553             var input = new CodedInputStream(stream);
554             Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.StartGroup), input.ReadTag());
555             Assert.Throws<InvalidProtocolBufferException>(input.SkipLastField);
556         }
557 
558         [Test]
Construction_Invalid()559         public void Construction_Invalid()
560         {
561             Assert.Throws<ArgumentNullException>(() => new CodedInputStream((byte[]) null));
562             Assert.Throws<ArgumentNullException>(() => new CodedInputStream(null, 0, 0));
563             Assert.Throws<ArgumentNullException>(() => new CodedInputStream((Stream) null));
564             Assert.Throws<ArgumentOutOfRangeException>(() => new CodedInputStream(new byte[10], 100, 0));
565             Assert.Throws<ArgumentOutOfRangeException>(() => new CodedInputStream(new byte[10], 5, 10));
566         }
567 
568         [Test]
CreateWithLimits_InvalidLimits()569         public void CreateWithLimits_InvalidLimits()
570         {
571             var stream = new MemoryStream();
572             Assert.Throws<ArgumentOutOfRangeException>(() => CodedInputStream.CreateWithLimits(stream, 0, 1));
573             Assert.Throws<ArgumentOutOfRangeException>(() => CodedInputStream.CreateWithLimits(stream, 1, 0));
574         }
575 
576         [Test]
Dispose_DisposesUnderlyingStream()577         public void Dispose_DisposesUnderlyingStream()
578         {
579             var memoryStream = new MemoryStream();
580             Assert.IsTrue(memoryStream.CanRead);
581             using (var cis = new CodedInputStream(memoryStream))
582             {
583             }
584             Assert.IsFalse(memoryStream.CanRead); // Disposed
585         }
586 
587         [Test]
Dispose_WithLeaveOpen()588         public void Dispose_WithLeaveOpen()
589         {
590             var memoryStream = new MemoryStream();
591             Assert.IsTrue(memoryStream.CanRead);
592             using (var cis = new CodedInputStream(memoryStream, true))
593             {
594             }
595             Assert.IsTrue(memoryStream.CanRead); // We left the stream open
596         }
597     }
598 }