/** @file Debug Agent library implementition with empty functions. Copyright (c) 2010, Intel Corporation. All rights reserved.
This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ #include "GdbDebugAgent.h" UINTN gMaxProcessorIndex = 0; // // Buffers for basic gdb communication // CHAR8 gInBuffer[MAX_BUF_SIZE]; CHAR8 gOutBuffer[MAX_BUF_SIZE]; // // Globals for returning XML from qXfer:libraries:read packet // UINTN gPacketqXferLibraryOffset = 0; UINTN gEfiDebugImageTableEntry = 0; CHAR8 gXferLibraryBuffer[2000]; GLOBAL_REMOVE_IF_UNREFERENCED CONST CHAR8 mHexToStr[] = {'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'}; // add-symbol-file c:/work/edk2/Build/BeagleBoard/DEBUG_GCC48/ARM/BeagleBoardPkg/Sec/Sec/DEBUG/BeagleBoardSec.dll 0x80008360 CHAR8 *qXferHack = ""; UINTN gXferObjectReadResponse ( IN CHAR8 Type, IN CHAR8 *Str ) { CHAR8 *OutBufPtr; // pointer to the output buffer CHAR8 Char; UINTN Count; // responce starts with 'm' or 'l' if it is the end OutBufPtr = gOutBuffer; *OutBufPtr++ = Type; Count = 1; // Binary data encoding OutBufPtr = gOutBuffer; while (*Str != '\0') { Char = *Str++; if ((Char == 0x7d) || (Char == 0x23) || (Char == 0x24) || (Char == 0x2a)) { // escape character *OutBufPtr++ = 0x7d; Char ^= 0x20; } *OutBufPtr++ = Char; Count++; } *OutBufPtr = '\0' ; // the end of the buffer SendPacket (gOutBuffer); return Count; } /** Process "qXfer:object:read:annex:offset,length" request. Returns an XML document that contains loaded libraries. In our case it is infomration in the EFI Debug Inmage Table converted into an XML document. GDB will call with an arbitrary length (it can't know the real length and will reply with chunks of XML that are easy for us to deal with. Gdb will keep calling until we say we are done. XML doc looks like: Since we can not allocate memory in interupt context this module has assumptions about how it will get called: 1) Length will generally be max remote packet size (big enough) 2) First Offset of an XML document read needs to be 0 3) This code will return back small chunks of the XML document on every read. Each subseqent call will ask for the next available part of the document. Note: The only variable size element in the XML is: " \n" and it is based on the file path and name of the symbol file. If the symbol file name is bigger than the max gdb remote packet size we could update this code to respond back in chunks. @param Offset offset into special data area @param Length number of bytes to read starting at Offset **/ VOID QxferLibrary ( IN UINTN Offset, IN UINTN Length ) { gPacketqXferLibraryOffset += gXferObjectReadResponse ('m', "\n"); gPacketqXferLibraryOffset += gXferObjectReadResponse ('m', qXferHack); gXferObjectReadResponse ('l', "\n"); gPacketqXferLibraryOffset = 0; } /** Transfer length bytes of input buffer, starting at Address, to memory. @param length the number of the bytes to be transferred/written @param *address the start address of the transferring/writing the memory @param *new_data the new data to be written to memory **/ VOID TransferFromInBufToMem ( IN UINTN Length, IN unsigned char *Address, IN CHAR8 *NewData ) { CHAR8 c1; CHAR8 c2; while (Length-- > 0) { c1 = (CHAR8)HexCharToInt (*NewData++); c2 = (CHAR8)HexCharToInt (*NewData++); if ((c1 < 0) || (c2 < 0)) { SendError (GDB_EBADMEMDATA); return; } *Address++ = (UINT8)((c1 << 4) + c2); } SendSuccess(); } /** Transfer Length bytes of memory starting at Address to an output buffer, OutBuffer. This function will finally send the buffer as a packet. @param Length the number of the bytes to be transferred/read @param *address pointer to the start address of the transferring/reading the memory **/ VOID TransferFromMemToOutBufAndSend ( IN UINTN Length, IN unsigned char *Address ) { // there are Length bytes and every byte is represented as 2 hex chars CHAR8 OutBuffer[MAX_BUF_SIZE]; CHAR8 *OutBufPtr; // pointer to the output buffer CHAR8 Char; OutBufPtr = OutBuffer; while (Length > 0) { Char = mHexToStr[*Address >> 4]; if ((Char >= 'A') && (Char <= 'F')) { Char = Char - 'A' + 'a'; } *OutBufPtr++ = Char; Char = mHexToStr[*Address & 0x0f]; if ((Char >= 'A') && (Char <= 'F')) { Char = Char - 'A' + 'a'; } *OutBufPtr++ = Char; Address++; Length--; } *OutBufPtr = '\0' ; // the end of the buffer SendPacket (OutBuffer); } /** Send a GDB Remote Serial Protocol Packet $PacketData#checksum PacketData is passed in and this function adds the packet prefix '$', the packet teminating character '#' and the two digit checksum. If an ack '+' is not sent resend the packet, but timeout eventually so we don't end up in an infinit loop. This is so if you unplug the debugger code just keeps running @param PacketData Payload data for the packet @retval Number of bytes of packet data sent. **/ UINTN SendPacket ( IN CHAR8 *PacketData ) { UINT8 CheckSum; UINTN Timeout; CHAR8 *Ptr; CHAR8 TestChar; UINTN Count; Timeout = PcdGet32 (PcdGdbMaxPacketRetryCount); Count = 0; do { Ptr = PacketData; if (Timeout-- == 0) { // Only try a finite number of times so we don't get stuck in the loop return Count; } // Packet prefix GdbPutChar ('$'); for (CheckSum = 0, Count =0 ; *Ptr != '\0'; Ptr++, Count++) { GdbPutChar (*Ptr); CheckSum = CheckSum + *Ptr; } // Packet terminating character and checksum GdbPutChar ('#'); GdbPutChar (mHexToStr[CheckSum >> 4]); GdbPutChar (mHexToStr[CheckSum & 0x0F]); TestChar = GdbGetChar (); } while (TestChar != '+'); return Count; } /** Receive a GDB Remote Serial Protocol Packet $PacketData#checksum PacketData is passed in and this function adds the packet prefix '$', the packet teminating character '#' and the two digit checksum. If host re-starts sending a packet without ending the previous packet, only the last valid packet is processed. (In other words, if received packet is '$12345$12345$123456#checksum', only '$123456#checksum' will be processed.) If an ack '+' is not sent resend the packet @param PacketData Payload data for the packet @retval Number of bytes of packet data received. **/ UINTN ReceivePacket ( OUT CHAR8 *PacketData, IN UINTN PacketDataSize ) { UINT8 CheckSum; UINTN Index; CHAR8 Char; CHAR8 SumString[3]; CHAR8 TestChar; ZeroMem (PacketData, PacketDataSize); for (;;) { // wait for the start of a packet TestChar = GdbGetChar (); while (TestChar != '$') { TestChar = GdbGetChar (); }; retry: for (Index = 0, CheckSum = 0; Index < (PacketDataSize - 1); Index++) { Char = GdbGetChar (); if (Char == '$') { goto retry; } if (Char == '#') { break; } PacketData[Index] = Char; CheckSum = CheckSum + Char; } PacketData[Index] = '\0'; if (Index == PacketDataSize) { continue; } SumString[0] = GdbGetChar (); SumString[1] = GdbGetChar (); SumString[2] = '\0'; if (AsciiStrHexToUintn (SumString) == CheckSum) { // Ack: Success GdbPutChar ('+'); // Null terminate the callers string PacketData[Index] = '\0'; return Index; } else { // Ack: Failure GdbPutChar ('-'); } } //return 0; } /** Empties the given buffer @param Buf pointer to the first element in buffer to be emptied **/ VOID EmptyBuffer ( IN CHAR8 *Buf ) { *Buf = '\0'; } /** Converts an 8-bit Hex Char into a INTN. @param Char the hex character to be converted into UINTN @retval a INTN, from 0 to 15, that corressponds to Char -1 if Char is not a hex character **/ INTN HexCharToInt ( IN CHAR8 Char ) { if ((Char >= 'A') && (Char <= 'F')) { return Char - 'A' + 10; } else if ((Char >= 'a') && (Char <= 'f')) { return Char - 'a' + 10; } else if ((Char >= '0') && (Char <= '9')) { return Char - '0'; } else { // if not a hex value, return a negative value return -1; } } // 'E' + the biggest error number is 255, so its 2 hex digits + buffer end CHAR8 *gError = "E__"; /** 'E NN' Send an error with the given error number after converting to hex. The error number is put into the buffer in hex. '255' is the biggest errno we can send. ex: 162 will be sent as A2. @param errno the error number that will be sent **/ VOID EFIAPI SendError ( IN UINT8 ErrorNum ) { // // Replace _, or old data, with current errno // gError[1] = mHexToStr [ErrorNum >> 4]; gError[2] = mHexToStr [ErrorNum & 0x0f]; SendPacket (gError); // send buffer } /** Send 'OK' when the function is done executing successfully. **/ VOID EFIAPI SendSuccess ( VOID ) { SendPacket ("OK"); // send buffer } /** Send empty packet to specify that particular command/functionality is not supported. **/ VOID EFIAPI SendNotSupported ( VOID ) { SendPacket (""); } /** Translates the EFI mapping to GDB mapping @param EFIExceptionType EFI Exception that is being processed @retval UINTN that corresponds to EFIExceptionType's GDB exception type number **/ UINT8 ConvertEFItoGDBtype ( IN EFI_EXCEPTION_TYPE EFIExceptionType ) { UINTN i; for (i=0; i < MaxEfiException() ; i++) { if (gExceptionType[i].Exception == EFIExceptionType) { return gExceptionType[i].SignalNo; } } return GDB_SIGTRAP; // this is a GDB trap } /** "m addr,length" Find the Length of the area to read and the start addres. Finally, pass them to another function, TransferFromMemToOutBufAndSend, that will read from that memory space and send it as a packet. **/ VOID EFIAPI ReadFromMemory ( CHAR8 *PacketData ) { UINTN Address; UINTN Length; CHAR8 AddressBuffer[MAX_ADDR_SIZE]; // the buffer that will hold the address in hex chars CHAR8 *AddrBufPtr; // pointer to the address buffer CHAR8 *InBufPtr; /// pointer to the input buffer AddrBufPtr = AddressBuffer; InBufPtr = &PacketData[1]; while (*InBufPtr != ',') { *AddrBufPtr++ = *InBufPtr++; } *AddrBufPtr = '\0'; InBufPtr++; // this skips ',' in the buffer /* Error checking */ if (AsciiStrLen(AddressBuffer) >= MAX_ADDR_SIZE) { SendError (GDB_EBADMEMADDRBUFSIZE); return; } // 2 = 'm' + ',' if (AsciiStrLen(PacketData) - AsciiStrLen(AddressBuffer) - 2 >= MAX_LENGTH_SIZE) { SendError (GDB_EBADMEMLENGTH); return; } Address = AsciiStrHexToUintn (AddressBuffer); Length = AsciiStrHexToUintn (InBufPtr); TransferFromMemToOutBufAndSend (Length, (unsigned char *)Address); } /** "M addr,length :XX..." Find the Length of the area in bytes to write and the start addres. Finally, pass them to another function, TransferFromInBufToMem, that will write to that memory space the info in the input buffer. **/ VOID EFIAPI WriteToMemory ( IN CHAR8 *PacketData ) { UINTN Address; UINTN Length; UINTN MessageLength; CHAR8 AddressBuffer[MAX_ADDR_SIZE]; // the buffer that will hold the Address in hex chars CHAR8 LengthBuffer[MAX_LENGTH_SIZE]; // the buffer that will hold the Length in hex chars CHAR8 *AddrBufPtr; // pointer to the Address buffer CHAR8 *LengthBufPtr; // pointer to the Length buffer CHAR8 *InBufPtr; /// pointer to the input buffer AddrBufPtr = AddressBuffer; LengthBufPtr = LengthBuffer; InBufPtr = &PacketData[1]; while (*InBufPtr != ',') { *AddrBufPtr++ = *InBufPtr++; } *AddrBufPtr = '\0'; InBufPtr++; // this skips ',' in the buffer while (*InBufPtr != ':') { *LengthBufPtr++ = *InBufPtr++; } *LengthBufPtr = '\0'; InBufPtr++; // this skips ':' in the buffer Address = AsciiStrHexToUintn (AddressBuffer); Length = AsciiStrHexToUintn (LengthBuffer); /* Error checking */ //Check if Address is not too long. if (AsciiStrLen(AddressBuffer) >= MAX_ADDR_SIZE) { SendError (GDB_EBADMEMADDRBUFSIZE); return; } //Check if message length is not too long if (AsciiStrLen(LengthBuffer) >= MAX_LENGTH_SIZE) { SendError (GDB_EBADMEMLENGBUFSIZE); return; } // Check if Message is not too long/short. // 3 = 'M' + ',' + ':' MessageLength = (AsciiStrLen(PacketData) - AsciiStrLen(AddressBuffer) - AsciiStrLen(LengthBuffer) - 3); if (MessageLength != (2*Length)) { //Message too long/short. New data is not the right size. SendError (GDB_EBADMEMDATASIZE); return; } TransferFromInBufToMem (Length, (unsigned char *)Address, InBufPtr); } /** Parses breakpoint packet data and captures Breakpoint type, Address and length. In case of an error, function returns particular error code. Returning 0 meaning no error. @param PacketData Pointer to the payload data for the packet. @param Type Breakpoint type @param Address Breakpoint address @param Length Breakpoint length in Bytes (1 byte, 2 byte, 4 byte) @retval 1 Success @retval {other} Particular error code **/ UINTN ParseBreakpointPacket ( IN CHAR8 *PacketData, OUT UINTN *Type, OUT UINTN *Address, OUT UINTN *Length ) { CHAR8 AddressBuffer[MAX_ADDR_SIZE]; CHAR8 *AddressBufferPtr; CHAR8 *PacketDataPtr; PacketDataPtr = &PacketData[1]; AddressBufferPtr = AddressBuffer; *Type = AsciiStrHexToUintn (PacketDataPtr); //Breakpoint/watchpoint type should be between 0 to 4 if (*Type > 4) { return 22; //EINVAL: Invalid argument. } //Skip ',' in the buffer. while (*PacketDataPtr++ != ','); //Parse Address information while (*PacketDataPtr != ',') { *AddressBufferPtr++ = *PacketDataPtr++; } *AddressBufferPtr = '\0'; //Check if Address is not too long. if (AsciiStrLen(AddressBuffer) >= MAX_ADDR_SIZE) { return 40; //EMSGSIZE: Message size too long. } *Address = AsciiStrHexToUintn (AddressBuffer); PacketDataPtr++; //This skips , in the buffer //Parse Length information *Length = AsciiStrHexToUintn (PacketDataPtr); //Length should be 1, 2 or 4 bytes if (*Length > 4) { return 22; //EINVAL: Invalid argument } return 0; //0 = No error } /** Send the T signal with the given exception type (in gdb order) and possibly with n:r pairs related to the watchpoints @param SystemContext Register content at time of the exception @param GdbExceptionType GDB exception type **/ VOID GdbSendTSignal ( IN EFI_SYSTEM_CONTEXT SystemContext, IN UINT8 GdbExceptionType ) { CHAR8 TSignalBuffer[128]; CHAR8 *TSignalPtr; TSignalPtr = &TSignalBuffer[0]; //Construct TSignal packet *TSignalPtr++ = 'T'; // // replace _, or previous value, with Exception type // *TSignalPtr++ = mHexToStr [GdbExceptionType >> 4]; *TSignalPtr++ = mHexToStr [GdbExceptionType & 0x0f]; ProcessorSendTSignal (SystemContext, GdbExceptionType, TSignalPtr, sizeof (TSignalBuffer) - 2); SendPacket (TSignalBuffer); } VOID GdbFWrite ( IN UINTN Fd, IN CHAR8 *Data, IN UINTN DataSize ) { CHAR8 Buffer[128]; AsciiSPrint (Buffer, sizeof (Buffer), "Fwrite,%x,%x,%x", Fd, Data, DataSize); SendPacket (Buffer); for( ; ; ) { ReceivePacket (gInBuffer, MAX_BUF_SIZE); switch (gInBuffer[0]) { case 'm': ReadFromMemory (gInBuffer); break; case 'M': WriteToMemory (gInBuffer); break; case 'F': return; } } } VOID GdbFPutString ( IN CHAR8 *String ) { UINTN Len = AsciiStrSize (String); GdbFWrite (2, String, Len); } /** Exception Hanldler for GDB. It will be called for all exceptions registered via the gExceptionType[] array. @param ExceptionType Exception that is being processed @param SystemContext Register content at time of the exception **/ VOID EFIAPI GdbExceptionHandler ( IN EFI_EXCEPTION_TYPE ExceptionType, IN OUT EFI_SYSTEM_CONTEXT SystemContext ) { UINT8 GdbExceptionType; CHAR8 *Ptr; if (ProcessorControlC (ExceptionType, SystemContext)) { // We tried to process a control C handler and there is nothing to do return; } GdbExceptionType = ConvertEFItoGDBtype (ExceptionType); GdbSendTSignal (SystemContext, GdbExceptionType); for( ; ; ) { ReceivePacket (gInBuffer, MAX_BUF_SIZE); switch (gInBuffer[0]) { case '?': GdbSendTSignal (SystemContext, GdbExceptionType); break; case 'c': ContinueAtAddress (SystemContext, gInBuffer); return; case 'D': // gdb wants to disconnect so return "OK" packet since. SendSuccess (); return; case 'g': ReadGeneralRegisters (SystemContext); break; case 'G': WriteGeneralRegisters (SystemContext, gInBuffer); break; case 'H': //Return "OK" packet since we don't have more than one thread. SendSuccess (); break; case 'm': ReadFromMemory (gInBuffer); break; case 'M': WriteToMemory (gInBuffer); break; case 'P': WriteNthRegister (SystemContext, gInBuffer); break; // // Still debugging this code. Not used in Darwin // case 'q': // General Query Packets if (AsciiStrnCmp (gInBuffer, "qSupported", 10) == 0) { // return what we currently support, we don't parse what gdb suports AsciiSPrint (gOutBuffer, MAX_BUF_SIZE, "qXfer:libraries:read+;PacketSize=%d", MAX_BUF_SIZE); SendPacket (gOutBuffer); } else if (AsciiStrnCmp (gInBuffer, "qXfer:libraries:read::", 22) == 0) { // ‘qXfer:libraries:read::offset,length // gInBuffer[22] is offset string, ++Ptr is length string’ for (Ptr = &gInBuffer[22]; *Ptr != ','; Ptr++); // Not sure if multi-radix support is required. Currently only support decimal QxferLibrary (AsciiStrHexToUintn (&gInBuffer[22]), AsciiStrHexToUintn (++Ptr)); } else if (AsciiStrnCmp (gInBuffer, "qOffsets", 8) == 0) { AsciiSPrint (gOutBuffer, MAX_BUF_SIZE, "Text=1000;Data=f000;Bss=f000"); SendPacket (gOutBuffer); } else if (AsciiStrnCmp (gInBuffer, "qAttached", 9) == 0) { // remote server attached to an existing process SendPacket ("1"); } else { //Send empty packet SendNotSupported (); } break; case 's': SingleStep (SystemContext, gInBuffer); return; case 'z': RemoveBreakPoint (SystemContext, gInBuffer); break; case 'Z': InsertBreakPoint (SystemContext, gInBuffer); break; default: //Send empty packet SendNotSupported (); break; } } }