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

194 lines
6.1 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.
*/
/* -*-C-*-
*
* $Revision$
* $Date$
*
*
* Project: ANGEL
*
* Title: Definitions for device driver interface.
*/
#ifndef angsd_drivers_h
#define angsd_drivers_h
#include "rxtx.h"
#ifndef __cplusplus
typedef struct DeviceDescr DeviceDescr;
typedef struct DriverCall DriverCall;
#endif
/*
* used to pass packets across the driver interface
*/
struct DriverCall
{
struct data_packet dc_packet;
void *dc_context;
};
/*
* used to describe a device driver
*/
struct DeviceDescr
{
char *DeviceName;
int (*DeviceOpen)(const char *name, const char *arg);
int (*DeviceMatch)(const char *name, const char *arg);
void (*DeviceClose)(void);
int (*DeviceRead)(DriverCall *dc, bool block);
int (*DeviceWrite)(DriverCall *dc);
int (*DeviceIoctl)(const int opcode, void *args);
void *SwitcherState; /* used by switcher interface */
};
/*
* Function: DeviceOpen
*
* Purpose: Open a communications device
*
* Pre-conditions: No previous open is still active
*
* Params:
* Input: name Identifies which device to open. This can either be
* a host specific identifier (e.g. "/dev/ttya",
* "COM1:"), or a number which is used to refer to
* `standard' interfaces, so "1" would be the first host
* interface, "2" the second, and so on.
*
* arg Driver specific arguments. For example, some serial
* drivers accept speed and control arguments such as
* "9600" or "19200/NO_BREAK". These arguments are
* completely free-form: it is the individual drivers
* which do the necessary interpretation.
*
* Returns:
* OK: 0
* Error: -1
*/
extern int DeviceOpen(const char *name, const char *arg);
/*
* Function: DeviceMatch
*
* Purpose: Check whether parameters are OK to be passed to DeviceOpen
*
* Params:
* Input: name Identifies which device to open. This can either be
* a host specific identifier (e.g. "/dev/ttya",
* "COM1:"), or a number which is used to refer to
* `standard' interfaces, so "1" would be the first host
* interface, "2" the second, and so on.
*
* arg Driver specific arguments. For example, some serial
* drivers accept speed and control arguments such as
* "9600" or "19200/NO_BREAK". These arguments are
* completely free-form: it is the individual drivers
* which do the necessary interpretation.
*
* Returns:
* OK: 0
* Error: -1
*/
extern int DeviceMatch(const char *name, const char *arg);
/*
* Function: DeviceClose
*
* Purpose: Close a communications device
*
* Pre-conditions: Device must have been previously opened
*
* Params: None
*
* Returns: Nothing
*/
extern void DeviceClose(void);
/*
* Function: DeviceRead
*
* Purpose: Try to read a complete packet from a communications device.
* This read must usually be non-blocking, i.e. it should read as
* many data from the device as needed to complete the packet,
* but it should not wait if the packet is not complete, and no
* more data are currently available from the device.
* As an optimisation the read can optionally block when 'block'
* is TRUE, but only for a short time. It is acceptable for the
* 'block' parameter to be ignored in which case all reads
* should be non-blocking.
*
* Pre-conditions: Device has been opened via DeviceOpen()
*
* Params:
* In/Out: dc Describes the packet being read (dc->dc_packet);
* dc->dc_context is for the driver to store private
* context, and is guaranteed to be NULL the first
* time DeviceRead is called for a given packet.
*
* In: block If TRUE, read may safely block for a short period
* of time (say up to 20ms), to avoid high CPU load
* whilst waiting for a reply.
* If FALSE, read MUST NOT block.
*
* Returns:
* OK: 1 (packet is complete)
* 0 (packet is not yet complete)
* Error: -1 bad packet
*
* Post-conditions: should a calamatous error occur panic() will be called
*/
extern int DeviceRead(DriverCall *dc, bool block);
/*
* Function: DeviceWrite
*
* Purpose: Try to write a packet to a communications device. This write
* must be non-blocking, i.e. it should write as many data to
* the device as is immediately possible, but should not wait
* for space to send any more after that.
*
* Pre-conditions: Device has been opened via DeviceOpen()
*
* Params:
* In/Out: dc Describes the packet being written (dc->dc_packet);
* dc->dc_context is for the driver to store private
* context, and is guaranteed to be NULL the first
* time DeviceWrite is called for a given packet.
*
* Returns:
* OK: 1 (all of the packet has been written)
* 0 (some of the packet remains to be written)
* Error: -1
*/
extern int DeviceWrite(DriverCall *dc);
/*
* Function: DeviceIoctl
*
* Purpose: Perform miscellaneous driver operations
*
* Pre-conditions: Device has been open via DeviceOpen()
*
* Params:
* Input: opcode Reason code indicating the operation to perform
* In/Out: args Pointer to opcode-sensitive arguments/result space
*
* Returns:
* OK: 0
* Error: -1
*/
extern int DeviceIoctl(const int opcode, void *args);
#endif /* !defined(angsd_drivers_h) */
/* EOF drivers.h */