public void Set(int address, int value)
{
var page = (address & 0xF000) >> 12;
_mem[_mapper[page]][address & 0xFFF] = value & 0xFF;
Written?.Invoke(this, new AddressWrittenEventArgs(address, 1, value & 0xFF));
}
public void DecryptFile(string inputFile, string outputFile)
{
try
{
FSIn = new FileStream(inputFile, FileMode.Open, FileAccess.Read);
FSOut = new FileStream(outputFile, FileMode.Create);
var decryptor = RMCrypto.CreateDecryptor(keyBytes, VIKey);
CStream = new CryptoStream(FSIn, decryptor, CryptoStreamMode.Read);
int data;
while ((data = CStream.ReadByte()) != -1)
{
FSOut.WriteByte((byte)data);
}
CStream.Dispose();
FSIn.Dispose();
FSOut.Dispose();
Written?.Invoke();
} catch (Exception e)
{
FSIn?.Dispose();
FSOut?.Dispose();
File.Delete(outputFile);
Error?.Invoke(e);
}
}
public void NotifySubscribers(IEnumerable <DurableEvent> events, Func <IActorRef, bool> predicate = null)
{
foreach (var e in events)
{
var written = new Written(e);
// in any case, notify all default subscribers
// for which condition evaluates to true
foreach (var subscriber in DefaultRegistry)
{
if (predicate is null || predicate(subscriber))
{
subscriber.Tell(written);
}
}
// notify subscribers with matching aggregate id
foreach (var aggregateId in e.DestinationAggregateIds)
{
foreach (var aggregate in AggregateRegistry[aggregateId])
{
if (predicate is null || predicate(aggregate))
{
aggregate.Tell(written);
}
}
}
}
}
public void PushWriteSuccess(IEnumerable <DurableEvent> events, IActorRef initiator, IActorRef requestor, int instanceId)
{
foreach (var durableEvent in events)
{
requestor.Tell(new WriteSuccess(durableEvent, instanceId));
var written = new Written(durableEvent);
foreach (var actorRef in DefaultRegistry)
{
if (!Equals(actorRef, requestor))
{
actorRef.Tell(written);
}
}
foreach (var aggregateId in durableEvent.DestinationAggregateId)
{
foreach (var aggregate in AggregateRegistry[aggregateId])
{
if (!Equals(aggregate, requestor))
{
aggregate.Tell(written);
}
}
}
}
}
public void Edit(string erased, string replacement)
{
int index = Written.LastIndexOf(erased);
Erase(erased);
if (string.IsNullOrWhiteSpace(Written.Substring(index, erased.Length)))
{
if (replacement.Length == erased.Length)
{
Written = Written.Remove(index, erased.Length).Insert(index, replacement);
}
else if (replacement.Length != erased.Length)
{
var sb = new StringBuilder(Written);
foreach (char c in replacement)
{
int i = index + replacement.IndexOf(c);
if (char.IsWhiteSpace(Written, i))
{
sb.Remove(i, 1).Insert(i, c);
}
else
{
sb.Remove(i, 1).Insert(i, '@');
}
}
Written = sb.ToString();
}
}
}
public void Write(string category, string summary, JSONValue content)
{
var item = new LogItem(category, summary, content);
Entries.Add(item);
Written?.Invoke(this, item);
}
public string GetDay()
{
if (Written != null)
{
return(Written.ToString("dd"));
}
return(string.Empty);
}
public string GetYear()
{
if (Written != null)
{
return(Written.ToString("yyyy"));
}
return(string.Empty);
}
public string GetMonth()
{
if (Written != null)
{
CultureInfo info = new CultureInfo("de-DE");
return(Written.ToString("MMMM", info));
}
return(string.Empty);
}
public void Jira_cat()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
// assert
Written
.ShouldBeEquivalentTo(new[] { "Related JIRA Issue: CRT-123" });
}
public void No_categories()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
// assert
Written
.ShouldBeEquivalentTo(new[] { "Test Category: fixture level cat" });
}
internal static void RemoveAll()
{
if (Written != null)
{
foreach (Delegate d in Written.GetInvocationList())
{
Written -= (LogWriteHandler)d;
}
Written = null;
}
}
internal void WriteIfDifferent(string filePath, CppTypeContext context)
{
if (!Written.Add(Path.GetFullPath(filePath)))
{
throw new InvalidOperationException($"Was about to overwrite existing file: {filePath} with context: {context.LocalType.This}");
}
if (WriteIfDifferent(filePath, rawWriter.BaseStream))
{
NumChangedFiles++;
}
}
public void Other_cat()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
// assert
Written
.ShouldBeEquivalentTo(new[] { "Test Category: some other stuff" });
}
public void Single_jira_category()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
// assert
Written
.ShouldBeEquivalentTo(new[] { "Test Category: fixture level cat", "Related JIRA Issue: CRT-123" });
}
public void Suite_leval_cat_written_with_each_test()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
Addin.TestStarted(testName);
// assert
Written
.ShouldBeEquivalentTo(new[] { "Related JIRA Issue: CRT-123", "Related JIRA Issue: CRT-123" });
}
public void No_cat()
{
// arrange
var testName = TestNameBasedOnCurrentTestMethod;
// act
Addin.TestStarted(testName);
// assert
Written
.Should()
.BeEmpty();
}
public static void Write(int mask, string format, params object[] args)
{
if ((EnableMask & mask) != mask)
{
return;
}
if (args.Count() > 0)
{
Written?.Invoke(mask, string.Format(format, args));
}
else
{
Written?.Invoke(mask, format);
}
}
public void Erase(string erased)
{
int index = Written.LastIndexOf(erased);
string replacementString = "";
if (EraserDurability >= erased.Length)
{
replacementString = replacementString.PadRight(erased.Length);
Written = Written.Remove(index, erased.Length).Insert(index, replacementString);
EraserDurability -= erased.Length;
}
else
{
string erasedNew = erased.Substring(0, erased.Length - EraserDurability);
replacementString = erasedNew + replacementString.PadRight(EraserDurability);
Written = Written.Remove(index, erased.Length).Insert(index, replacementString);
EraserDurability = 0;
}
}
public void PushReplicateSuccess(IEnumerable <DurableEvent> events)
{
foreach (var durableEvent in events)
{
var written = new Written(durableEvent);
foreach (var actorRef in DefaultRegistry)
{
actorRef.Tell(written);
}
foreach (var aggregateId in durableEvent.DestinationAggregateId)
{
foreach (var aggregate in AggregateRegistry[aggregateId])
{
aggregate.Tell(written);
}
}
}
}
public void Write(BinaryWriter writer,Written written)
{
var startPosition = writer.BaseStream.Position;
writer.Write((ushort)0);
writer.Write(ValueLength);
writer.Write(Type);
writer.WriteUnicode(Name);
//Padding
while((writer.BaseStream.Position % 4) != 0)
writer.Write((byte)0);
written(writer);
var endPosition = writer.BaseStream.Position;
writer.Seek((int)startPosition,SeekOrigin.Begin);
writer.Write((ushort)(endPosition - startPosition));
writer.Seek((int)endPosition,SeekOrigin.Begin);
}
public static void Write(BinaryWriter writer,string name,bool isStringValue,byte[] value,Written written)
{
var startPosition = writer.BaseStream.Position;
var valueLenght = (ushort)(value == null ? 0 : value.Length);
writer.Write((ushort)0);
writer.Write(valueLenght);
writer.Write((ushort)(isStringValue ? 1 : 0));
writer.WriteUnicode(name);
//Padding
while((writer.BaseStream.Position % 4) != 0)
writer.Write((byte)0);
written(writer);
var endPosition = writer.BaseStream.Position;
writer.Seek((int)startPosition,SeekOrigin.Begin);
writer.Write((ushort)(endPosition - startPosition));
writer.Seek((int)endPosition,SeekOrigin.Begin);
}
private void Resize(int desiredBufferSize = 0)
{
if (Enlarge == null)
{
throw new BufferTooSmallException();
}
// double the size; add one to ensure that an empty buffer still resizes
if (desiredBufferSize <= 0)
{
desiredBufferSize = _buffer.Length * 2 + 1;
}
else if (desiredBufferSize < _buffer.Length + 1)
{
throw new ArgumentOutOfRangeException(nameof(desiredBufferSize));
}
var newBuffer = Enlarge(desiredBufferSize).Span;
if (newBuffer.Length <= _buffer.Length)
{
throw new Exception("Enlarge delegate created too small buffer");
}
Written.CopyTo(newBuffer);
_buffer = newBuffer;
}
internal static void InvokeWritten(FileInfo handle)
{
Written?.Invoke(handle);
}
internal void NotifyWritten() => Written?.Invoke();
/// <summary>
/// Updates component with the latest file data.
/// </summary>
/// <param name="fileEntry">Currently processed file entry.</param>
/// <param name="position">The current position of this stream.</param>
/// <param name="data">Curerntly read data.</param>
/// <returns>A task that represents the asynchronous operation.</returns>
internal Task UpdateFileWrittenAsync(IFileEntry fileEntry, long position, byte[] data)
{
return(Written.InvokeAsync(new FileWrittenEventArgs(fileEntry, position, data)));
}
public void Write16(int address, int value)
{
WriteCore(address, value >> 8);
WriteCore(address + 1, value & 0xFF);
Written?.Invoke(this, new AddressWrittenEventArgs(address, 2, value & 0xFFFF));
}
/// <summary>
/// Called when console was written.
/// </summary>
/// <param name="entry">The entry.</param>
protected virtual void OnWritten(string entry)
{
Written?.Invoke(sender: this, e: entry);
}