/*++ Copyright (c) 1989 Microsoft Corporation Module Name: lpipeio.c Abstract: This module implements all file descriptor oriented APIs. Author: Mark Lucovsky (markl) 30-Mar-1989 Revision History: --*/ #include #include "psxsrv.h" BOOLEAN LocalPipeRead ( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd ); BOOLEAN LocalPipeWrite ( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd ); BOOLEAN LocalPipeDup( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd, IN PFILEDESCRIPTOR FdDup ); BOOLEAN LocalPipeLseek ( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd ) /*++ Routine Description: This procedure implements lseek when the device being seeked on is a local or named pipe. Arguments: p - Supplies the address of the process making the call. m - Supplies the address of the message associated with the request. Fd - supplies the address of the file descriptor being seekd Return Value: ??? --*/ { m->Error = ESPIPE; return TRUE; } BOOLEAN LocalPipeStat ( IN PIONODE IoNode, IN HANDLE FileHandle, OUT struct stat *StatBuf, OUT NTSTATUS *pStatus ) /*++ Routine Description: This procedure implements stat when the device being read is a local pipe. Arguments: IoNode - supplies a pointer to the ionode of the pipe for which stat is requested. FileHandle - supplies the Nt file handle of the pipe. NULL for local pipes. StatBuf - Supplies the address of the statbuf portion of the message associated with the request. Return Value: ??? --*/ { // Pipe() sets the IoNode fields. StatBuf->st_mode = IoNode->Mode; StatBuf->st_ino = IoNode->FileSerialNumber; StatBuf->st_dev = IoNode->DeviceSerialNumber; StatBuf->st_uid = IoNode->OwnerId; StatBuf->st_gid = IoNode->GroupId; StatBuf->st_atime = IoNode->AccessDataTime; StatBuf->st_mtime = IoNode->ModifyDataTime; StatBuf->st_ctime = IoNode->ModifyIoNodeTime; StatBuf->st_size = PIPE_BUF; // This implementation dependent. StatBuf->st_nlink = 0; return TRUE; } VOID LocalPipeNewHandle ( IN PPSX_PROCESS p, IN PFILEDESCRIPTOR Fd ) /*++ Routine Description: This function is called any time a handle is created for a pipe. Arguments: p - Supplies a pointer to the process creating the handle to the pipe. Fd - Supplies the file descriptor that refers to the pipe. Return Value: None. --*/ { PLOCAL_PIPE Pipe; Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; RtlEnterCriticalSection(&Pipe->CriticalSection); if (Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) { Pipe->ReadHandleCount++; } if (Fd->SystemOpenFileDesc->Flags & PSX_FD_WRITE) { Pipe->WriteHandleCount++; } RtlLeaveCriticalSection(&Pipe->CriticalSection); } VOID LocalPipeClose ( IN PPSX_PROCESS p, IN PFILEDESCRIPTOR Fd ) /*++ Routine Description: This function is called any time a handle is deleted for a pipe. Arguments: p - Supplies a pointer to the closing the handle to the pipe. Fd - Supplies the file descriptor that refers to the pipe. Return Value: None. --*/ { PLOCAL_PIPE Pipe; PINTCB IntCb; PPSX_PROCESS WaitingProc; PLIST_ENTRY Next; Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; RtlEnterCriticalSection(&Pipe->CriticalSection); if ((Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) && (0 == --Pipe->ReadHandleCount)) { // // Last reader close; any writers hanging around // get EPIPE and a SIGPIPE // RtlEnterCriticalSection(&BlockLock); Next = Pipe->WaitingWriters.Flink; while (Next != &Pipe->WaitingWriters) { IntCb = CONTAINING_RECORD(Next, INTCB, Links); WaitingProc = (PPSX_PROCESS)IntCb->IntContext; UnblockProcess(WaitingProc, IoCompletionInterrupt, TRUE, 0); RtlEnterCriticalSection(&BlockLock); Next = Pipe->WaitingWriters.Flink; } RtlLeaveCriticalSection(&BlockLock); } if ((Fd->SystemOpenFileDesc->Flags & PSX_FD_WRITE) && (0 == --Pipe->WriteHandleCount)) { // // Last writer close; any readers hanging around // get 0. // RtlEnterCriticalSection(&BlockLock); Next = Pipe->WaitingReaders.Flink; while (Next != &Pipe->WaitingReaders) { IntCb = CONTAINING_RECORD(Next, INTCB, Links); WaitingProc = (PPSX_PROCESS)IntCb->IntContext; UnblockProcess(WaitingProc, IoCompletionInterrupt, TRUE, 0); RtlEnterCriticalSection(&BlockLock); Next = Pipe->WaitingReaders.Flink; } RtlLeaveCriticalSection(&BlockLock); } RtlLeaveCriticalSection(&Pipe->CriticalSection); } VOID LocalPipeIoNodeClose ( IN PIONODE IoNode ) /*++ Routine Description: This function is called when the IONODE representing a pipe is closed. Its function is to tear down the pipe. Arguments: IoNode - Supplies the IoNode being deleted Return Value: None. --*/ { PLOCAL_PIPE Pipe; Pipe = (PLOCAL_PIPE) IoNode->Context; RtlDeleteCriticalSection(&Pipe->CriticalSection); RtlFreeHeap(PsxHeap, 0,Pipe); } PSXIO_VECTORS LocalPipeVectors = { NULL, LocalPipeNewHandle, LocalPipeClose, NULL, LocalPipeIoNodeClose, LocalPipeRead, LocalPipeWrite, LocalPipeDup, LocalPipeLseek, LocalPipeStat }; VOID InitializeLocalPipe( IN PLOCAL_PIPE Pipe ) /*++ Routine Description: This function initializes a local pipe Arguments: Pipe - Supplies the address of a local pipe Return Value: None. --*/ { NTSTATUS st; st = RtlInitializeCriticalSection(&Pipe->CriticalSection); ASSERT(NT_SUCCESS(st)); InitializeListHead(&Pipe->WaitingWriters); InitializeListHead(&Pipe->WaitingReaders); Pipe->ReadHandleCount = 0; Pipe->WriteHandleCount = 0; Pipe->BufferSize = PIPE_BUF; Pipe->DataInPipe = 0; Pipe->WritePointer = &Pipe->Buffer[0]; Pipe->ReadPointer = &Pipe->Buffer[0]; } VOID LocalPipeWriteHandler( IN PPSX_PROCESS p, IN PINTCB IntControlBlock, IN PSX_INTERRUPTREASON InterruptReason, IN int Signal // signal causing wakeup, if any ) /*++ Routine Description: This procedure is called when a there is room in a pipe, and a blocked writer exists whose current write request length is less than the amount of room in the pipe. Arguments: p - Supplies the address of the process being interrupted. IntControlBlock - Supplies the address of the interrupt control block. InterruptReason - Supplies the reason that this process is being interrupted. Return Value: None. --*/ { PFILEDESCRIPTOR Fd; BOOLEAN reply; PPSX_API_MSG m; PPSX_WRITE_MSG args; RtlLeaveCriticalSection(&BlockLock); m = IntControlBlock->IntMessage; args = &m->u.Write; if (InterruptReason == SignalInterrupt) { // // The write was interrupted by a signal. Bail out of // service and let the interrupt be handled // RtlFreeHeap(PsxHeap, 0,IntControlBlock); m->Error = EINTR; m->Signal = Signal; ApiReply(p,m,NULL); RtlFreeHeap(PsxHeap, 0,m); return; } Fd = FdIndexToFd(p,args->FileDes); if (!Fd) { Panic("LocalPipeWriteHandler: FdIndex"); } RtlFreeHeap(PsxHeap, 0, IntControlBlock); reply = LocalPipeWrite(p, m, Fd); if (reply) { ApiReply(p, m, NULL); } RtlFreeHeap(PsxHeap, 0,m); } BOOLEAN LocalPipeWrite ( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd ) /*++ Routine Description: This procedure implements write when the device being written is a local pipe. Arguments: p - Supplies the address of the process making the call. m - Supplies the address of the message associated with the request. Fd - supplies the address of the file descriptor being written. Return Value: TRUE - the routine completed, and a reply should be sent FALSE - the routine was blocked, no reply should be sent --*/ { PPSX_WRITE_MSG args; PLOCAL_PIPE Pipe; LONG Chunk, RoomInPipe; LONG cb; PUCHAR WriteDataPoint, ProcessBuffer; NTSTATUS st; PINTCB IntCb; PPSX_PROCESS WaitingReader; LARGE_INTEGER Time; ULONG PosixTime; NTSTATUS Status; args = &m->u.Write; Pipe = (PLOCAL_PIPE) Fd->SystemOpenFileDesc->IoNode->Context; RtlEnterCriticalSection(&Pipe->CriticalSection); // // If we're writing to a pipe with no readers connected, we return // EPIPE and send a SIGPIPE to the process. Broken pipe, call a // plumber. // if (0 == Pipe->ReadHandleCount) { RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EPIPE; AcquireProcessStructureLock(); PsxSignalProcess(p, SIGPIPE); ReleaseProcessStructureLock(); return TRUE; } // // if requested write size is greater than buffer size, // write must be broken up into Pipe->BufferSize atomic // chunks. If this is the case, Scratch1 is used to record // amount of data transfered so far, and Scratch2 is used to // record the number of bytes left in the total transfer // if (args->Nbytes > Pipe->BufferSize) { args->Scratch2 = args->Nbytes - Pipe->BufferSize; args->Nbytes = Pipe->BufferSize; } RoomInPipe = Pipe->BufferSize - Pipe->DataInPipe; if (args->Nbytes > RoomInPipe) { // // There is not enough space in the pipe for the write to // succeed. If the O_NONBLOCK flag is set, write whatever // will fit. Otherwise, block the write and wait for a read // to empty some of the data. // if (Fd->SystemOpenFileDesc->Flags & PSX_FD_NOBLOCK) { args->Nbytes = 1; if (args->Nbytes > RoomInPipe) { m->Error = EAGAIN; return TRUE; } // continue below to write } else { Status = BlockProcess(p, (PVOID)p, LocalPipeWriteHandler, m, &Pipe->WaitingWriters, &Pipe->CriticalSection); if (!NT_SUCCESS(Status)) { m->Error = PsxStatusToErrno(Status); return TRUE; } // // Successfully blocked -- don't reply to message. // return FALSE; } } // // there is room in the pipe for the write to occur // WriteDataPoint = Pipe->WritePointer; ProcessBuffer = (PUCHAR) args->Buf; if ((ULONG)WriteDataPoint + args->Nbytes > (ULONG)&Pipe->Buffer[Pipe->BufferSize-1]) { Chunk = (ULONG) &Pipe->Buffer[Pipe->BufferSize-1] - (ULONG)WriteDataPoint + 1; } else { Chunk = args->Nbytes; } st = NtReadVirtualMemory(p->Process, ProcessBuffer, WriteDataPoint, (ULONG)Chunk, (PULONG)&cb); if (!NT_SUCCESS(st) || cb != Chunk) { // // If the read did not work, then report as IO error // RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EIO; return TRUE; } ProcessBuffer += Chunk; if (Chunk < args->Nbytes) { Chunk = args->Nbytes - Chunk; WriteDataPoint = &Pipe->Buffer[0]; st = NtReadVirtualMemory(p->Process, ProcessBuffer, WriteDataPoint, (ULONG)Chunk, (PULONG)&cb); if (!NT_SUCCESS(st) || cb != Chunk) { // // If the read did not work, then report as IO error // RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EIO; return TRUE; } Pipe->WritePointer = (PUCHAR)((ULONG)WriteDataPoint + Chunk); } else { Pipe->WritePointer = (PUCHAR)((ULONG)WriteDataPoint + Chunk); } if (Pipe->WritePointer > &Pipe->Buffer[Pipe->BufferSize - 1]) { Pipe->WritePointer = &Pipe->Buffer[0]; } Pipe->DataInPipe += args->Nbytes; if (Pipe->DataInPipe > Pipe->BufferSize) { Panic("LocalPipeWrite: Oops\n"); } // Update ctime and mtime in IoNode - done in subsystem for local pipes NtQuerySystemTime(&Time); if (!RtlTimeToSecondsSince1970(&Time, &PosixTime)) { PosixTime = 0L; // Time not within range of 1970 - 2105 } RtlEnterCriticalSection(&Fd->SystemOpenFileDesc->IoNode->IoNodeLock); Fd->SystemOpenFileDesc->IoNode->ModifyDataTime = Fd->SystemOpenFileDesc->IoNode->ModifyIoNodeTime = PosixTime; RtlLeaveCriticalSection(&Fd->SystemOpenFileDesc->IoNode->IoNodeLock); m->ReturnValue += args->Nbytes; args->Buf += args->Nbytes; // // Check for WaitingReaders. If any are found, then kick em // RtlEnterCriticalSection(&BlockLock); if (!IsListEmpty(&Pipe->WaitingReaders)) { IntCb = (PINTCB)Pipe->WaitingReaders.Flink; IntCb = CONTAINING_RECORD(IntCb,INTCB,Links); WaitingReader = (PPSX_PROCESS) IntCb->IntContext; RtlLeaveCriticalSection(&Pipe->CriticalSection); UnblockProcess(WaitingReader, IoCompletionInterrupt, TRUE, 0); // // Determine if this is a broken up long write. If Scratch2 is // non-zero then more transfers need to occur. If Scratch1 is // non-zero, then update to account for data transfered in this // iteration. // } else { RtlLeaveCriticalSection(&BlockLock); RtlLeaveCriticalSection(&Pipe->CriticalSection); } // // If we're doing non-blocking io, we've written what will fit into // the pipe and we should return to the user now. // if (Fd->SystemOpenFileDesc->Flags & PSX_FD_NOBLOCK) { return TRUE; } // // Determine if this is a broken up long write. If Scratch2 is // non-zero then more transfers need to occur. If Scratch1 is // non-zero, then update to account for data transfered in this // iteration. // if (args->Scratch2) { args->Nbytes = args->Scratch2; args->Scratch2 = 0; return LocalPipeWrite(p, m, Fd); } return TRUE; } VOID LocalPipeReadHandler( IN PPSX_PROCESS p, IN PINTCB IntControlBlock, IN PSX_INTERRUPTREASON InterruptReason, IN int Signal // signal causing wakeup, if any ) /*++ Routine Description: This procedure is called when data appears in a pipe and the process specified by p has placed itself on the WaitingReaders queue for the pipe. Arguments: p - Supplies the address of the process being interrupted. IntControlBlock - Supplies the address of the interrupt control block. InterruptReason - Supplies the reason that this process is being interrupted. Not used in this handler. Return Value: None. --*/ { PFILEDESCRIPTOR Fd; BOOLEAN reply; PPSX_API_MSG m; PPSX_READ_MSG args; RtlLeaveCriticalSection(&BlockLock); m = IntControlBlock->IntMessage; args = &m->u.Read; if (InterruptReason == SignalInterrupt) { // // The read was interrupted by a signal. Bail out of // service and let the interrupt be handled // RtlFreeHeap(PsxHeap, 0, IntControlBlock); m->Error = EINTR; m->Signal = Signal; ApiReply(p, m, NULL); RtlFreeHeap(PsxHeap, 0, m); return; } // // IoCompletionInterrupt // Fd = FdIndexToFd(p, args->FileDes); if (!Fd) { Panic("LocalPipeReadHandler: FdIndex"); } reply = LocalPipeRead(p, m, Fd); RtlFreeHeap(PsxHeap, 0, IntControlBlock); if (reply) { ApiReply(p, m, NULL); } RtlFreeHeap(PsxHeap, 0, m); } BOOLEAN LocalPipeRead ( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd ) /*++ Routine Description: This procedure implements read when the device being read is a local pipe. Arguments: p - Supplies the address of the process making the call. m - Supplies the address of the message associated with the request. Fd - supplies the address of the file descriptor being read. Return Value: TRUE if the read completed, FALSE if the process should block. --*/ { PPSX_READ_MSG args, WaitingArgs; PPSX_PROCESS WaitingWriter; PLOCAL_PIPE Pipe; LONG Chunk, RoomInPipe, LargestRead; LONG cb; PUCHAR ReadDataPoint, ProcessBuffer; NTSTATUS st; PPSX_API_MSG WaitingM; PLIST_ENTRY Next; PINTCB IntCb; LARGE_INTEGER Time; ULONG PosixTime; args = &m->u.Read; // // check to see if any process has the pipe open for write // Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; ASSERT(NULL != Pipe); RtlEnterCriticalSection(&Pipe->CriticalSection); if (0 == Pipe->WriteHandleCount && !Pipe->DataInPipe) { // // Reading from an empty pipe with no writers attached gets you // 0 (EOF). // RtlLeaveCriticalSection(&Pipe->CriticalSection); m->ReturnValue = 0; return TRUE; } if (!Pipe->DataInPipe) { // // if we have the pipe open O_NOBLOCK, then simply // return EAGAIN // if (Fd->SystemOpenFileDesc->Flags & PSX_FD_NOBLOCK) { RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EAGAIN; return TRUE; } // // There is no data in the pipe. Set up an interrupt control // block to wait for data and then block. // st = BlockProcess(p, (PVOID)p, LocalPipeReadHandler, m, &Pipe->WaitingReaders, &Pipe->CriticalSection); if (!NT_SUCCESS(st)) { m->Error = PsxStatusToErrno(st); return TRUE; } // // Successfully blocked -- don't reply to api request. // return FALSE; } // // If there is any data in the pipe, then compute the largest // read size. Then figure out if it has to be broken into two // transfers in order to turn the circular buffer boundary. // if (args->Nbytes > Pipe->DataInPipe) { LargestRead = Pipe->DataInPipe; } else { LargestRead = args->Nbytes; } ReadDataPoint = Pipe->ReadPointer; ProcessBuffer = (PUCHAR)args->Buf; // // determine if read can be done in one piece, or if // the read has to be done in two pieces. // if ((ULONG)ReadDataPoint + LargestRead > (ULONG)&Pipe->Buffer[Pipe->BufferSize - 1]) { Chunk = (ULONG)&Pipe->Buffer[Pipe->BufferSize - 1] - (ULONG)ReadDataPoint + 1; } else { Chunk = LargestRead; } // // transfer from the pipe to the reading process // st = NtWriteVirtualMemory(p->Process, ProcessBuffer, ReadDataPoint, (ULONG)Chunk, (PULONG)&cb); if (!NT_SUCCESS(st) || cb != Chunk ) { // // If the write did not work, then report as IO error // RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EIO; return TRUE; } ProcessBuffer += Chunk; if (Chunk < LargestRead) { // // the read wraps the pipe boundry. Transfer the second part of // the read. // Chunk = LargestRead - Chunk; ReadDataPoint = &Pipe->Buffer[0]; st = NtWriteVirtualMemory(p->Process, ProcessBuffer, ReadDataPoint, (ULONG)Chunk, (PULONG)&cb); if (!NT_SUCCESS(st) || cb != Chunk) { // // If the read did not work, then report as IO error // RtlLeaveCriticalSection(&Pipe->CriticalSection); m->Error = EIO; return TRUE; } Pipe->ReadPointer = (PUCHAR)((ULONG)ReadDataPoint + Chunk); } else { Pipe->ReadPointer = (PUCHAR)((ULONG)ReadDataPoint + Chunk); } if (Pipe->ReadPointer > &Pipe->Buffer[Pipe->BufferSize - 1]) { Pipe->ReadPointer = &Pipe->Buffer[0]; } // // Adjust DataInPipe to account for read. Then check if there // are any writers present. Pick a writer and kick him // Pipe->DataInPipe -= LargestRead; m->ReturnValue = LargestRead; RoomInPipe = Pipe->BufferSize - Pipe->DataInPipe; // Update atime in IoNode - done in subsystem for local pipes NtQuerySystemTime(&Time); if ( !RtlTimeToSecondsSince1970(&Time, &PosixTime) ) { PosixTime = 0L; // Time not within range of 1970 - 2105 } RtlEnterCriticalSection(&Fd->SystemOpenFileDesc->IoNode->IoNodeLock); Fd->SystemOpenFileDesc->IoNode->AccessDataTime = PosixTime; RtlLeaveCriticalSection(&Fd->SystemOpenFileDesc->IoNode->IoNodeLock); // // Check for WaitingWriters. If any are found, then kick em // RtlEnterCriticalSection(&BlockLock); if (!IsListEmpty(&Pipe->WaitingWriters)) { // // If there are waiting writers, then pick a writer // and unblock him. The first writer whose current // write count that is less than or equal to the room // in pipe is chosen. // Next = Pipe->WaitingWriters.Flink; while (Next != &Pipe->WaitingWriters) { IntCb = CONTAINING_RECORD(Next, INTCB, Links); WaitingM = IntCb->IntMessage; WaitingArgs = &WaitingM->u.Read; WaitingWriter = (PPSX_PROCESS) IntCb->IntContext; if (WaitingArgs->Nbytes <= RoomInPipe) { RtlLeaveCriticalSection(&Pipe->CriticalSection); UnblockProcess(WaitingWriter, IoCompletionInterrupt, TRUE, 0); return TRUE; } Next = Next->Flink; } } RtlLeaveCriticalSection(&BlockLock); RtlLeaveCriticalSection(&Pipe->CriticalSection); return TRUE; } BOOLEAN LocalPipeDup( IN PPSX_PROCESS p, IN OUT PPSX_API_MSG m, IN PFILEDESCRIPTOR Fd, IN PFILEDESCRIPTOR FdDup ) { PPSX_DUP_MSG args; PLOCAL_PIPE Pipe; args = &m->u.Dup; // // Copy contents of source file descriptor // Note that FD_CLOEXEC must be CLEAR in FdDup. // *FdDup = *Fd; FdDup->Flags &= ~PSX_FD_CLOSE_ON_EXEC; // // Increment reference count assocated with the SystemOpenFile // descriptor for this file. // RtlEnterCriticalSection(&SystemOpenFileLock); Fd->SystemOpenFileDesc->HandleCount++; RtlLeaveCriticalSection(&SystemOpenFileLock); Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; RtlEnterCriticalSection(&Pipe->CriticalSection); if (Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) { ++Pipe->ReadHandleCount; } if (Fd->SystemOpenFileDesc->Flags & PSX_FD_WRITE) { ++Pipe->WriteHandleCount; } RtlLeaveCriticalSection(&Pipe->CriticalSection); return TRUE; } // // Named Pipes are very similar to local pipes // once the opens have completed. For that reason, // they share read/write io routines. // VOID NamedPipeOpenHandler( IN PPSX_PROCESS p, IN PINTCB IntControlBlock, IN PSX_INTERRUPTREASON InterruptReason, IN int Signal // Signal causing interruption, if any ) /*++ Routine Description: This procedure is called when a process waiting for a named pipe open to complete is either interrupted, or the pipe is opened. Arguments: p - Supplies the address of the process being interrupted. IntControlBlock - Supplies the address of the interrupt control block. InterruptReason - Supplies the reason that this process is being interrupted. Not used in this handler. Return Value: None. --*/ { PFILEDESCRIPTOR Fd; PPSX_API_MSG m; PPSX_OPEN_MSG args; PLOCAL_PIPE Pipe; PLIST_ENTRY ListToScan; PPSX_PROCESS Waiter; PPSX_API_MSG WaitingM; PLIST_ENTRY Next; PINTCB IntCb; RtlLeaveCriticalSection(&BlockLock); m = IntControlBlock->IntMessage; args = &m->u.Open; RtlFreeHeap(PsxHeap, 0, IntControlBlock); if (InterruptReason == SignalInterrupt) { // // The open was interrupted by a signal. Bail out of // service by closing the half opened pipe and let // the interrupt be handled // m->Error = EINTR; m->Signal = Signal; DeallocateFd(p, m->ReturnValue); ApiReply(p, m, NULL); RtlFreeHeap(PsxHeap, 0,m); return; } // // This Open Should be completed. // Determine the list to scan to // see if more opens should be completed // at this time. // Fd = FdIndexToFd(p, m->ReturnValue); ASSERT(Fd); Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; // // The list to scan is the list this process just came off // if (Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) { ListToScan = &Pipe->WaitingReaders; } else { ListToScan = &Pipe->WaitingWriters; } RtlEnterCriticalSection(&Pipe->CriticalSection); RtlEnterCriticalSection(&BlockLock); if (!IsListEmpty(ListToScan)) { // // Scan list to see if there are processes waiting in an // open whose wait can be satisfied. // Next = ListToScan->Flink; while ( Next != ListToScan ) { IntCb = CONTAINING_RECORD(Next,INTCB,Links); WaitingM = IntCb->IntMessage; if ( WaitingM->ApiNumber == PsxOpenApi ) { Waiter = (PPSX_PROCESS) IntCb->IntContext; RtlLeaveCriticalSection(&Pipe->CriticalSection); UnblockProcess(Waiter, IoCompletionInterrupt, TRUE, 0); ApiReply(p, m, NULL); RtlFreeHeap(PsxHeap, 0, m); return; } Next = Next->Flink; } } RtlLeaveCriticalSection(&BlockLock); RtlLeaveCriticalSection(&Pipe->CriticalSection); ApiReply(p, m, NULL); RtlFreeHeap(PsxHeap, 0, m); } BOOLEAN NamedPipeOpenNewHandle ( IN PPSX_PROCESS p, IN PFILEDESCRIPTOR Fd, IN OUT PPSX_API_MSG m ) { NTSTATUS Status; PLOCAL_PIPE Pipe; PULONG CountToTest; PLIST_ENTRY ListToBlockOn; PLIST_ENTRY ListToScan; PPSX_PROCESS Waiter; PPSX_API_MSG WaitingM; PLIST_ENTRY Next; PINTCB IntCb; Pipe = (PLOCAL_PIPE)Fd->SystemOpenFileDesc->IoNode->Context; LocalPipeNewHandle(p, Fd); if ((Fd->SystemOpenFileDesc->Flags & (PSX_FD_READ | PSX_FD_WRITE)) == (PSX_FD_READ | PSX_FD_WRITE)) { return TRUE; } if (Fd->SystemOpenFileDesc->Flags & PSX_FD_NOBLOCK) { if (Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) { return TRUE; } else { RtlEnterCriticalSection(&Pipe->CriticalSection); if (!Pipe->ReadHandleCount) { m->Error = ENXIO; RtlLeaveCriticalSection(&Pipe->CriticalSection); DeallocateFd(p,m->ReturnValue); } else { RtlLeaveCriticalSection(&Pipe->CriticalSection); } return TRUE; } } else { // // Pipe is not being opened O_NONBLOCK. If pipe is being opened // for read, then wait for a writer; otherwise, wait for // a reader // if (Fd->SystemOpenFileDesc->Flags & PSX_FD_READ) { CountToTest = &Pipe->WriteHandleCount; ListToBlockOn = &Pipe->WaitingReaders; ListToScan = &Pipe->WaitingWriters; } else { CountToTest = &Pipe->ReadHandleCount; ListToBlockOn = &Pipe->WaitingWriters; ListToScan = &Pipe->WaitingReaders; } RtlEnterCriticalSection(&Pipe->CriticalSection); if (!*CountToTest) { Status = BlockProcess(p, (PVOID)p, NamedPipeOpenHandler, m, ListToBlockOn, &Pipe->CriticalSection); if (!NT_SUCCESS(Status)) { m->Error = PsxStatusToErrno(Status); return TRUE; } // // The process is successfully blocked -- do not reply to the api // request. // return FALSE; } else { RtlEnterCriticalSection(&BlockLock); if (!IsListEmpty(ListToScan)) { // // Scan list to see if there are processes waiting in an // open whose wait can be satisfied. // Next = ListToScan->Flink; while (Next != ListToScan) { IntCb = CONTAINING_RECORD(Next,INTCB,Links); WaitingM = IntCb->IntMessage; if (WaitingM->ApiNumber == PsxOpenApi) { Waiter = (PPSX_PROCESS) IntCb->IntContext; RtlLeaveCriticalSection(&Pipe->CriticalSection); UnblockProcess(Waiter, IoCompletionInterrupt, TRUE, 0); return TRUE; } Next = Next->Flink; } } RtlLeaveCriticalSection(&BlockLock); } RtlLeaveCriticalSection(&Pipe->CriticalSection); return TRUE; } } VOID NamedPipeLastClose ( IN PPSX_PROCESS p, IN PSYSTEMOPENFILE SystemOpenFile ) /*++ Routine Description: This function is called when the last handle to a local pipe is closed. Its function is to tear down the pipe. Arguments: SystemOpenFile - Supplies the system open file describing the pipe being closed. Return Value: None. --*/ { NTSTATUS st; st = NtClose(SystemOpenFile->NtIoHandle); ASSERT(NT_SUCCESS(st)); } PSXIO_VECTORS NamedPipeVectors = { NamedPipeOpenNewHandle, LocalPipeNewHandle, LocalPipeClose, NamedPipeLastClose, LocalPipeIoNodeClose, LocalPipeRead, LocalPipeWrite, LocalPipeDup, LocalPipeLseek, LocalPipeStat };