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x2log/X2Log.Observer.NamedPipe.pas

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unit X2Log.Observer.NamedPipe;
interface
uses
X2Log.Intf,
X2Log.Observer.Custom,
X2Log.Observer.CustomThreaded;
type
TX2LogNamedPipeObserver = class(TX2LogCustomThreadedObserver)
private
FPipeName: string;
protected
function CreateWorkerThread: TX2LogObserverWorkerThread; override;
public
constructor Create(const APipeName: string; ALogLevels: TX2LogLevels = X2LogLevelsDefault);
end;
implementation
uses
System.Classes,
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System.Generics.Collections,
System.SyncObjs,
System.SysUtils,
System.Types,
Winapi.Windows,
X2Log.Details.Registry,
X2Log.Intf.NamedPipe,
X2Log.Util.Stream;
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type
EX2LogSilentException = class(Exception);
EX2LogPipeDisconnected = class(EX2LogSilentException);
TX2LogNamedPipeClientState = (Listening, Connected, Writing);
TX2LogNamedPipeClient = class(TObject)
private
FOverlapped: TOverlapped;
FPipeHandle: THandle;
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FState: TX2LogNamedPipeClientState;
FOverlappedEvent: TEvent;
FWriteQueue: TObjectQueue<TX2LogQueueEntry>;
FWriteBuffer: TMemoryStream;
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protected
function DoSend(AEntry: TX2LogQueueEntry): Boolean;
procedure ClearWriteBuffer;
property PipeHandle: THandle read FPipeHandle;
property WriteBuffer: TMemoryStream read FWriteBuffer;
property WriteQueue: TObjectQueue<TX2LogQueueEntry> read FWriteQueue;
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public
constructor Create(APipe: THandle);
destructor Destroy; override;
procedure Send(AEntry: TX2LogQueueEntry);
procedure SendNext;
procedure Disconnect;
property Pipe: THandle read FPipeHandle;
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property Overlapped: TOverlapped read FOverlapped;
property OverlappedEvent: TEvent read FOverlappedEvent;
property State: TX2LogNamedPipeClientState read FState write FState;
end;
TX2LogNamedPipeWorkerThread = class(TX2LogObserverWorkerThread)
private
FClients: TObjectList<TX2LogNamedPipeClient>;
FPipeName: string;
protected
procedure WaitForEntry; override;
procedure ProcessEntry(AEntry: TX2LogQueueEntry); override;
procedure ProcessClientEvent(AClientIndex: Integer);
procedure AddListener;
procedure RemoveClient(AClientIndex: Integer);
procedure Setup; override;
procedure Cleanup; override;
property Clients: TObjectList<TX2LogNamedPipeClient> read FClients;
property PipeName: string read FPipeName;
public
constructor Create(const APipeName: string);
destructor Destroy; override;
end;
{ Someone went through a lot of trouble to win at Scrabble... }
function ConvertStringSecurityDescriptorToSecurityDescriptorW(StringSecurityDescriptor: PWideChar;
StringSDRevision: DWORD;
SecurityDescriptor: PSECURITY_DESCRIPTOR;
SecurityDescriptorSize: PULONG): BOOL; stdcall; external advapi32;
const
SDDL_REVISION_1 = 1;
PipeNamePrefix = '\\.\pipe\X2Log.';
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{ TX2LogNamedPipeObserver }
constructor TX2LogNamedPipeObserver.Create(const APipeName: string; ALogLevels: TX2LogLevels);
begin
FPipeName := APipeName;
inherited Create(ALogLevels);
end;
function TX2LogNamedPipeObserver.CreateWorkerThread: TX2LogObserverWorkerThread;
begin
Result := TX2LogNamedPipeWorkerThread.Create(FPipeName);
end;
{ TX2LogNamedPipeClient }
constructor TX2LogNamedPipeClient.Create(APipe: THandle);
begin
inherited Create;
FPipeHandle := APipe;
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FState := Listening;
FOverlappedEvent := TEvent.Create(nil, False, False, '');
FOverlapped.hEvent := FOverlappedEvent.Handle;
end;
destructor TX2LogNamedPipeClient.Destroy;
begin
Disconnect;
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FreeAndNil(FOverlappedEvent);
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ClearWriteBuffer;
inherited Destroy;
end;
procedure TX2LogNamedPipeClient.Send(AEntry: TX2LogQueueEntry);
begin
if not Assigned(WriteBuffer) then
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DoSend(AEntry)
else
begin
if not Assigned(WriteQueue) then
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FWriteQueue := TObjectQueue<TX2LogQueueEntry>.Create(True);
WriteQueue.Enqueue(TX2LogQueueEntry.Create(AEntry));
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end;
end;
procedure TX2LogNamedPipeClient.SendNext;
var
entry: TX2LogQueueEntry;
begin
ClearWriteBuffer;
if Assigned(WriteQueue) then
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begin
while WriteQueue.Count > 0 do
begin
entry := WriteQueue.Extract;
try
{ Returns False when IO is pending }
if not DoSend(entry) then
break;
finally
FreeAndNil(entry);
end;
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end;
end;
end;
procedure TX2LogNamedPipeClient.Disconnect;
begin
if PipeHandle <> INVALID_HANDLE_VALUE then
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begin
CancelIo(PipeHandle);
DisconnectNamedPipe(PipeHandle);
CloseHandle(PipeHandle);
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FPipeHandle := INVALID_HANDLE_VALUE;
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end;
end;
function TX2LogNamedPipeClient.DoSend(AEntry: TX2LogQueueEntry): Boolean;
var
header: TX2LogMessageHeader;
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bytesWritten: Cardinal;
lastError: Cardinal;
detailsStream: TMemoryStream;
serializerIID: TGUID;
serializer: IX2LogDetailsSerializer;
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begin
ClearWriteBuffer;
FWriteBuffer := TMemoryStream.Create;
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{ Header }
header.ID := X2LogMessageHeader;
header.Version := X2LogMessageVersion;
header.Size := SizeOf(header);
header.Level := AEntry.Level;
header.DateTime := AEntry.DateTime;
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WriteBuffer.WriteBuffer(header, SizeOf(header));
{ Category }
TStreamUtil.WriteString(WriteBuffer, AEntry.Category);
{ Message }
TStreamUtil.WriteString(WriteBuffer, AEntry.Message);
{ Details }
if TX2LogDetailsRegistry.GetSerializer(AEntry.Details, serializer) then
begin
detailsStream := TMemoryStream.Create;
try
serializer.Serialize(AEntry.Details, detailsStream);
serializerIID := AEntry.Details.SerializerIID;
WriteBuffer.WriteBuffer(serializerIID, SizeOf(TGUID));
TStreamUtil.WriteCardinal(WriteBuffer, detailsStream.Size);
WriteBuffer.CopyFrom(detailsStream, 0);
finally
FreeAndNil(detailsStream);
end;
end else
begin
serializerIID := GUID_NULL;
WriteBuffer.WriteBuffer(serializerIID, SizeOf(TGUID));
end;
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Result := WriteFile(Pipe, WriteBuffer.Memory^, WriteBuffer.Size, bytesWritten, @Overlapped);
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if not Result then
begin
lastError := GetLastError;
if lastError in [ERROR_NO_DATA, ERROR_PIPE_NOT_CONNECTED] then
raise EX2LogPipeDisconnected.Create('Client disconnected');
if lastError = ERROR_IO_PENDING then
State := Writing
else
begin
ClearWriteBuffer;
RaiseLastOSError;
end;
end else
begin
ClearWriteBuffer;
State := Connected;
end;
end;
procedure TX2LogNamedPipeClient.ClearWriteBuffer;
begin
FreeAndNil(FWriteBuffer);
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end;
{ TX2LogNamedPipeWorkerThread }
constructor TX2LogNamedPipeWorkerThread.Create(const APipeName: string);
begin
FPipeName := APipeName;
FClients := TObjectList<TX2LogNamedPipeClient>.Create(True);
inherited Create;
end;
destructor TX2LogNamedPipeWorkerThread.Destroy;
begin
inherited Destroy;
FreeAndNil(FClients);
end;
procedure TX2LogNamedPipeWorkerThread.Setup;
begin
inherited Setup;
AddListener;
end;
procedure TX2LogNamedPipeWorkerThread.Cleanup;
var
client: TX2LogNamedPipeClient;
begin
for client in Clients do
client.Disconnect;
inherited Cleanup;
end;
procedure TX2LogNamedPipeWorkerThread.WaitForEntry;
var
eventHandles: array of THandle;
clientIndex: Integer;
waitResult: Cardinal;
begin
repeat
SetLength(eventHandles, Clients.Count + 1);
for clientIndex := 0 to Pred(Clients.Count) do
eventHandles[clientIndex] := Clients[clientIndex].OverlappedEvent.Handle;
eventHandles[Clients.Count] := LogQueueSignal.Handle;
waitResult := WaitForMultipleObjects(Length(eventHandles), @eventHandles[0], False, INFINITE);
{ WAIT_OBJECT_0 = 0, no check for minimum bounds since it's an unsigned variable ("Comparison always results to true") }
if waitResult < Cardinal(WAIT_OBJECT_0 + High(eventHandles)) then
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begin
{ Connect or write I/O completed }
clientIndex := waitResult - WAIT_OBJECT_0;
if (clientIndex >= 0) and (clientIndex < Clients.Count) then
ProcessClientEvent(clientIndex);
end else if waitResult = Cardinal(WAIT_OBJECT_0 + High(eventHandles)) then
begin
{ Entry queued }
break;
end else if (waitResult >= WAIT_ABANDONED_0) and (waitResult <= Cardinal(WAIT_ABANDONED_0 + High(eventHandles))) then
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begin
{ Client event abandoned }
clientIndex := waitResult - WAIT_ABANDONED_0;
if (clientIndex >= 0) and (clientIndex < Clients.Count) then
RemoveClient(clientIndex)
else if clientIndex = Clients.Count then
Terminate;
end else if waitResult = WAIT_FAILED then
RaiseLastOSError;
until False;
end;
procedure TX2LogNamedPipeWorkerThread.ProcessEntry(AEntry: TX2LogQueueEntry);
var
clientIndex: Integer;
client: TX2LogNamedPipeClient;
begin
{ Broadcast to connected clients }
for clientIndex := Pred(Clients.Count) downto 0 do
begin
client := Clients[clientIndex];
if client.State <> Listening then
try
client.Send(AEntry);
except
on E:EX2LogPipeDisconnected do
RemoveClient(clientIndex);
end;
end;
end;
procedure TX2LogNamedPipeWorkerThread.ProcessClientEvent(AClientIndex: Integer);
var
client: TX2LogNamedPipeClient;
bytesTransferred: Cardinal;
begin
client := Clients[AClientIndex];
case client.State of
Listening:
{ Client connected }
if GetOverlappedResult(client.Pipe, client.Overlapped, bytesTransferred, False) then
begin
client.State := Connected;
AddListener;
end else
RemoveClient(AClientIndex);
Writing:
{ Write operation completed }
if GetOverlappedResult(client.Pipe, client.Overlapped, bytesTransferred, False) and
(bytesTransferred > 0) then
begin
try
client.SendNext;
except
on E:EX2LogPipeDisconnected do
RemoveClient(AClientIndex);
end;
end else
RemoveClient(AClientIndex);
end;
end;
procedure TX2LogNamedPipeWorkerThread.AddListener;
const
BufferSize = 4096;
DefaultTimeout = 5000;
var
security: TSecurityAttributes;
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pipe: THandle;
client: TX2LogNamedPipeClient;
begin
FillChar(security, SizeOf(security), 0);
security.nLength := SizeOf(security);
security.bInheritHandle := False;
pipe := INVALID_HANDLE_VALUE;
{ Thanks to: http://www.osronline.com/showthread.cfm?link=204207
and: http://www.netid.washington.edu/documentation/domains/sddl.aspx
0x12019f =
0x00100000 - SYNCHRONIZE
0x00020000 - READ_CONTROL
0x00000100 - FILE_WRITE_ATTRIBUTES
0x00000080 - FILE_READ_ATTRIBUTES
0x00000010 - FILE_WRITE_EA
0x00000008 - FILE_READ_EA
0x00000004 - FILE_CREATE_PIPE_INSTANCE
0x00000002 - FILE_WRITE_DATA
0x00000001 - FILE_READ_DATA }
if ConvertStringSecurityDescriptorToSecurityDescriptorW('D:' + // Discretionary ACL
'(D;;FA;;;NU)' + // Deny file all access (FA) to network user access (NU)
'(A;;0x12019f;;;WD)', // Allow permissions for everyone (WD)
SDDL_REVISION_1,
@security.lpSecurityDescriptor,
nil) then
begin
try
pipe := CreateNamedPipe(PChar(PipeNamePrefix + PipeName), PIPE_ACCESS_OUTBOUND or FILE_FLAG_OVERLAPPED,
PIPE_TYPE_MESSAGE or PIPE_READMODE_MESSAGE or PIPE_WAIT, PIPE_UNLIMITED_INSTANCES,
BufferSize, BufferSize, DefaultTimeout, @security);
finally
LocalFree(HLOCAL(security.lpSecurityDescriptor));
end;
end else
RaiseLastOSError;
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if pipe <> INVALID_HANDLE_VALUE then
begin
client := TX2LogNamedPipeClient.Create(pipe);
if not ConnectNamedPipe(client.Pipe, @client.Overlapped) then
begin
case GetLastError of
ERROR_IO_PENDING:
Clients.Add(client);
ERROR_PIPE_CONNECTED:
begin
client.State := Connected;
Clients.Add(client);
AddListener;
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end;
else
{ Error occured }
FreeAndNil(client);
end;
end;
end;
end;
procedure TX2LogNamedPipeWorkerThread.RemoveClient(AClientIndex: Integer);
begin
Clients.Delete(AClientIndex);
end;
end.