darling-gdb/gdb/rdi-share/sys.h
1999-04-16 01:35:26 +00:00

320 lines
11 KiB
C

/*
* Copyright (C) 1995 Advanced RISC Machines Limited. All rights reserved.
*
* This software may be freely used, copied, modified, and distributed
* provided that the above copyright notice is preserved in all copies of the
* software.
*/
/* sys.h
***********************************************************************
* Angel C Libary support channel protocol definitions
*
* $Revision$
* $Date$
*
*
*
*
* MESSAGE FORMAT
* --------------
* Format of the "data" section of C Lib Support Channel Messages.
* You will notice that the format is much the same as the format
* of ADP messages - this is so that multi-threaded C Libraries can
* be supported.
*
* unsigned32 reason - Main C Library reason code.
* unsigned32 debugID - Info. describing host debug world;
* private to host and used in any target
* initiated messages.
* unsigned32 OSinfo1 \ Target OS information to identify process/thread
* unsigned32 OSinfo2 / world, etc. These two fields are target defined.
* byte args[n] - Data for message "reason" code.
*
* The "debugID" is defined by the host-end of the protocol, and is used
* by the host to ensure that messages are routed to the correct handler
* program/veneer (eg. imagine several threads having opened stdout and
* each writing to a different window in a windowed debugger).
*
* NOTE: The reason that there is no "size" information, is that the
* message IDs themselves encode the format of any arguments.
*
* For further discussion of the format see adp.h
*
* N.B. All streams are little endian.
*
* CLIB REASON CODE
* ----------------
* The message reason codes contain some information that ties them to
* the channel and direction that the message will be used with. This
* will ensure that even if the message "#define name" is not
* completely descriptive, the message reason code is.
*
* b31 = direction. 0=Host-to-Target; 1=Target-to-Host;
* b30-16 = reserved. should be zero
* b15-0 = message reason code.
*
* Note that typically a request will be initiated by the target side, and
* that the host will then respond with either an acknowledgement or some
* data. In either case the same reason code will be used, but the direction
* bit will be reveresed.
*/
#ifndef __sys_h
#define __sys_h
#ifndef HtoT
#define HtoT ((unsigned)0 << 31) /* Host-to-Target message */
#define TtoH ((unsigned)1 << 31) /* Target-to-Host message */
#endif
/*
* The following are error codes used in the status field returned on
* sending a message. 0 represents no error having occurred, non-zero
* represents a general error. More codes should be added as required.
*/
#ifndef ErrCode
#define NoError 0x0
#endif
/*************************************************************************/
/* The following are direct conversions of the DeMon SWI's */
/* NB: nbytes is the number of bytes INCLUDING THE NULL character where */
/* applicable. */
/* This message is used as a response to a packet whose message
* was not understood. The return parameter, code is the reason
* code which was not understood. Although intended for use as a
* default case on a received message switch it can also be used
* as a proper message*/
#define CL_Unrecognised 0x00
/* Unrecognised()
* return(word code)
*/
/* Write a character to the terminal.
*/
#define CL_WriteC 0x01
/* WriteC(byte data)
* return(word status)
*/
/* Write a NULL terminated string of characters to the terminal. The length
* of the string excluding the NULL terminating character is passed in
* 'nbytes'.
*/
#define CL_Write0 0x02
/* Write0(word nbytes, bytes data)
* return(word status)
*/
/* Read a character from the terminal - probably the keyboard.
*/
#define CL_ReadC 0x04
/* ReadC(void)
* return(word status, byte data)
*/
/* Perform system call, pass NULL terminated string to host's command
* line interpreter(NOT AVAILABLE IN PC/DOS RELEASE). The data byte
* returned holds the return code from the system call.
*/
#define CL_System 0x05
/* CLI(word nbytes, bytes data)
* return(word status, word data)
*/
/* It returns the address of the null terminated command line string used to
* invoke the program. status will be set to NoError if the command line
* can be returned. Other status values will be treated as error conditions.
*/
#define CL_GetCmdLine 0x10
/* GetCmdLine(void)
* return(word status, word nbytes, bytes argline)
*/
/* Return the number of centi-seconds since the support code began
* execution. Only the difference between successive calls can be
* meaningful.
*/
#define CL_Clock 0x61
/* Clock(void)
* return(word status, word clks)
*/
/* Return the number of seconds since the beginning of 1970.
*/
#define CL_Time 0x63
/* Time(void)
* return(word status, word time)
*/
/* Delete(remove, un-link, wipe, destroy) the file named by the
* NULL-terminated string 'name'.
*/
#define CL_Remove 0x64
/* Remove(word nbytes, bytes name)
* return(word status)
*/
/* Rename the file specified by the NULL-terminated string 'oname'
* to 'nname'.
*/
#define CL_Rename 0x65
/* Rename(word nbytes, bytes oname, word nbytes, bytes nname)
* return(word status)
*/
/* 'name' specifies a NULL-terminated string containing a file name or a
* device name. Opens the file/device and returns a non-zero handle on
* success that can be quoted to CL_Close, CL_Read, CL_Write, CL_Seek,
* CL_Flen or CL_IsTTY. The mode is an integer in the range 0-11:-
*
* Mode: 0 1 2 3 4 5 6 7 8 9 10 11
* ANSI C fopen mode: r rb r+ r+b w wb w+ w+b a ab a+ a+b
*
* Values 12-15 are illegal. If 'name' is ":tt" the stdin/stdout is
* opened depending on whether 'mode' is read or write.
*/
#define CL_Open 0x66
/* Open(word nbytes, bytes name, word mode)
* return(word handle)
*/
/* 'handle' is a file handle previously returned by CL_Open. CL_Close
* closes the file.
*/
#define CL_Close 0x68
/* Close(word handle)
* return(word status)
*/
/* Writes data of length nbytes to the file/device specified by
* handle. nbtotal represents the total number of bytes to be
* written, whereas nbytes is the number of bytes in this packet
*
* If nbtotal is <= DATASIZE - CL_Write message header size in the
* packet then nbytes = nbtotal and the number of bytes not written
* is returned. If nbtotal is > the packet size then the CL_Write
* must be followed by a number of CL_WriteX's to complete the write,
* the nbytes returned by CL_Write can be ignored
* If the status word returned is non zero, an error has occurred and
* the write request has been aborted.
*
*/
#define CL_Write 0x69
/* Write(word handle, word nbtotal, word nbytes, bytes data)
* return(word status, word nbytes)
*/
/* Write Extension is a reads a continuation of data from a CL_Write
* which was too big to fit in a single packet.
* nbytes is the number of bytes of data in this packet, the
* returned value of nbytes can be ignored except if it is the
* last packet, in which case it is the number of bytes that were NOT
* written
*/
#define CL_WriteX 0x6A
/* WriteX(word nbytes, bytes data)
* return(word status, word nbytes)
*/
/* Reads 'nbytes' from the file/device specified by 'handle'.
*
* If nbytes <= DATASIZE then the read will occur in a single packet
* and the returned value of nbytes will be the number of bytes actually
* read and nbmore will be 0. If nbytes> DATASIZE then multiple packets
* will have to be used ie CL_Read followed by 1 or more CL_ReadX
* packets. In this case CL_Read will return nbytes read in the current
* packet and nbmore representing how many more bytes are expected to be
* read
* If the status word is non zero then the request has completed with an
* error. If the status word is 0xFFFFFFFF (-1) then an EOF condition
* has been reached.
*/
#define CL_Read 0x6B
/* Read(word handle, word nbytes)
* return(word status, word nbytes, word nbmore, bytes data)
*/
/* Read eXtension returns a continuation of the data that was opened for
* read in the earlier CL_Read. The return value nbytes is the number of
* data bytes in the packet, nbmore is the number of bytes more that are
* expected to be read in subsequent packets.
*/
#define CL_ReadX 0x6C
/* ReadX()
* return(word status, word nbytes, word nbmore, bytes data)
*/
/* Seeks to byte position 'posn' in the file/device specified by 'handle'.
*/
#define CL_Seek 0x6D
/* Seek(word handle, word posn)
* return(word status)
*/
/* Returns the current length of the file specified by 'handle' in 'len'.
* If an error occurs 'len' is set to -1.
*/
#define CL_Flen 0x6E
/* Flen(word handle)
* return(word len)
*/
/* Returns NoError if 'handle' specifies an interactive device, otherwise
* returns GenError
*/
#define CL_IsTTY 0x6F
/* IsTTY(word handle)
* return(word status)
*/
/* Returns a temporary host file name. The maximum length of a file name
* is passed to the host. The TargetID is some identifier from the target
* for this particular temporary filename. This value is could be used
* directly in the generation of the filename.
*
* If the host cannot create a suitable name or the generated name is too
* long then status is non zero. status will be NoError if the host can create
* a name.
*/
#define CL_TmpNam 0x70
/* TmpNam(word maxlength, word TargetID)
* return(word status, word nbytes, bytes fname)
*/
/* Note there is no message for Exit, EnterOS, InstallHandler or
* GenerateError as these will be supported entirely at the host end,
* or by the underlying Operating system.
*/
#define CL_UnknownReason (-1)
extern unsigned int GetRaiseHandler( void );
extern unsigned int SysLibraryHandler(unsigned int sysCode, unsigned int *args);
extern void angel_SysLibraryInit(void);
/*
* Function: Angel_IsSysHandlerRunning
* Purpose: return whether or not SysLibraryHandler is running
*
* No paramaters
*
* Returns 1 if SysLibraryHandler is running
* 0 otherwise
*/
extern int Angel_IsSysHandlerRunning(void);
#ifdef ICEMAN2
/* This function exists in an ICEman2 system only, and can be called by
* debug support code when the debugger tells it how much memory the
* target has. This will then be used to deal with the HEAPINFO SWI
*/
extern void angel_SetTopMem(unsigned addr);
#endif
#endif