/*++ Copyright (c) 1995 Intel Corporation Module Name: i64kd copied from simkd.c Abstract: Kernel debug com support. Author: 14-Apr-1995 Bernard Lint, M. Jayakumar Environment: Kernel mode Revision History: --*/ #include "halp.h" #include "stdio.h" // // Timeout_count 1024 * 200 // #define TIMEOUT_COUNT 2 #define GET_RETRY_COUNT 1024 #define IA64_MSG_DEBUG_ENABLE "Kernel Debugger Using: COM%x (Port 0x%x, Baud Rate %d)\n" #define IA64_MSG2_DEBUG_ENABLE "Kernel Debugger Using named pipe: COM%x (Port 0x%x, Baud Rate %d)\n" PUCHAR KdComPortInUse=NULL; BOOLEAN KdPortInitialize( PDEBUG_PARAMETERS DebugParameters, PLOADER_PARAMETER_BLOCK LoaderBlock, BOOLEAN Initialize ) /*++ Routine Description: This routine initialize a com port to support kernel debug. Arguments: DebugParameters - Supplies a pointer a structure which optionally sepcified the debugging port information. LoaderBlock - supplies a pointer to the loader parameter block. Initialize - Specifies a boolean value that determines whether the debug port is initialized or just the debug port parameters are captured. Returned Value: TRUE - If a debug port is found. --*/ { PUCHAR PortAddress = NULL; ULONG Com = 0; UCHAR DebugMessage[80]; PHYSICAL_ADDRESS LPDebugParameters; if (Initialize) { LPDebugParameters = MmGetPhysicalAddress (DebugParameters); if ( !SscKdInitialize((PVOID) LPDebugParameters.QuadPart, (SSC_BOOL)Initialize )) { // SscKd initialized sucessfully Com = DebugParameters->CommunicationPort; // // initialize port struct. if not named-pipe // if ( Com != 0 ) { // // set port address to default value. // if (PortAddress == NULL) { switch (Com) { case 1: PortAddress = (PUCHAR)0x3f8; break; case 2: PortAddress = (PUCHAR)0x2f8; break; case 3: PortAddress = (PUCHAR)0x3e8; break; case 4: PortAddress = (PUCHAR)0x2e8; } } KdComPortInUse= PortAddress; sprintf( DebugMessage, IA64_MSG_DEBUG_ENABLE, Com, PtrToUlong(PortAddress), DebugParameters->BaudRate ); HalDisplayString("\n"); HalDisplayString(DebugMessage); } // // port = 0, named-pipe // else { sprintf( DebugMessage, IA64_MSG2_DEBUG_ENABLE, Com, PtrToUlong(PortAddress), DebugParameters->BaudRate ); HalDisplayString("\n"); HalDisplayString(DebugMessage); } return(TRUE); } // // SscKdinitialize() failed. // else { return(FALSE); } } // // By pass. do not initialize // else { return(FALSE); } } ULONG KdPortGetByte ( OUT PUCHAR Input ) /*++ Routine Description: Fetch a byte from the debug port and return it. This routine does nothing in the simulation environment. N.B. It is assumed that the IRQL has been raised to the highest level, and necessary multiprocessor synchronization has been performed before this routine is called. Arguments: Input - Returns the data byte. Return Value: CP_GET_SUCCESS is returned if a byte is successfully read from the kernel debugger line. CP_GET_ERROR is returned if error encountered during reading. CP_GET_NODATA is returned if timeout. --*/ { PHYSICAL_ADDRESS LPInput; UCHAR DebugMessage[80]; ULONG limitcount, status; LPInput = MmGetPhysicalAddress (Input); limitcount = GET_RETRY_COUNT; while (limitcount != 0) { limitcount--; status = SscKdPortGetByte((PVOID)LPInput.QuadPart); if (status == CP_GET_SUCCESS) { #ifdef KDDBG sprintf(DebugMessage,"%02x ", *Input); HalDisplayString(DebugMessage); #endif return(CP_GET_SUCCESS); } #ifdef KDDBG else { HalDisplayString("."); } #endif } return status; } ULONG KdPortPollByte ( OUT PUCHAR Input ) /*++ Routine Description: Fetch a byte from the debug port and return it if one is available. This routine does nothing in the simulation environment. N.B. It is assumed that the IRQL has been raised to the highest level, and necessary multiprocessor synchronization has been performed before this routine is called. Arguments: Input - Returns the data byte. Return Value: CP_GET_SUCCESS is returned if a byte is successfully read from the kernel debugger line. CP_GET_ERROR is returned if error encountered during reading. CP_GET_NODATA is returned if timeout. --*/ { PHYSICAL_ADDRESS LPInput; UCHAR DebugMessage[80]; ULONG limitcount, status; LPInput = MmGetPhysicalAddress (Input); limitcount = TIMEOUT_COUNT; while (limitcount != 0) { limitcount--; status = SscKdPortGetByte((PVOID)LPInput.QuadPart); if (status == CP_GET_ERROR) return(CP_GET_ERROR); if (status == CP_GET_SUCCESS) { #ifdef KDDBG sprintf(DebugMessage, "%02x ", *Input); HalDisplayString(DebugMessage); #endif return(CP_GET_SUCCESS); } #ifdef KDDBG HalDisplayString("."); #endif } return (CP_GET_NODATA); } VOID KdPortPutByte ( IN UCHAR Output ) /*++ Routine Description: Write a byte to the debug port. This routine does nothing in the simulation environment. N.B. It is assumed that the IRQL has been raised to the highest level, and necessary multiprocessor synchronization has been performed before this routine is called. Arguments: Output - Supplies the output data byte. Return Value: None. --*/ { #ifdef KDDBG UCHAR DebugMessage[80]; sprintf(DebugMessage, "%02x-", Output); HalDisplayString(DebugMessage); #endif SscKdPortPutByte(Output); } VOID KdPortRestore ( VOID ) /*++ Routine Description: This routine does nothing in the simulation environment. N.B. It is assumed that the IRQL has been raised to the highest level, and necessary multiprocessor synchronization has been performed before this routine is called. Arguments: None. Return Value: None. --*/ { } VOID KdPortSave ( VOID ) /*++ Routine Description: This routine does nothing in the simulation environment. N.B. It is assumed that the IRQL has been raised to the highest level, and necessary multiprocessor synchronization has been performed before this routine is called. Arguments: None. Return Value: None. --*/ { }