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/* usb1401.h
Header file for the CED 1401 USB device driver for Linux
Copyright (C) 2010 Cambridge Electronic Design Ltd
Author Greg P Smith (greg@ced.co.uk)
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifndef __USB1401_H__
#define __USB1401_H__
#include "use1401.h"
#include "ced_ioctl.h"
#ifndef UINT
#define UINT unsigned int
#endif
/// Device type codes, but these don't need to be extended - a succession is assumed
/// These are set for usb from the bcdDevice field (suitably mangled). Future devices
/// will be added in order of device creation to the list, so the names here are just
/// to help use remember which device is which. The U14ERR_... values follow the same
/// pattern for modern devices.
#define TYPEUNKNOWN -1 // dont know
#define TYPE1401 0 // standard 1401
#define TYPEPLUS 1 // 1401 plus
#define TYPEU1401 2 // u1401
#define TYPEPOWER 3 // Power1401
#define TYPEU14012 4 // u1401 mkII
#define TYPEPOWER2 5 // Power1401 mk II
#define TYPEMICRO3 6 // Micro1401-3
#define TYPEPOWER3 7 // Power1401-3
/// Some useful defines of constants. DONT FORGET to change the version in the
/// resources whenever you change it here!.
#define DRIVERMAJREV 2 // driver revision level major (match windows)
#define DRIVERMINREV 0 // driver revision level minor
/// Definitions of the various block transfer command codes
#define TM_EXTTOHOST 8 // extended tohost
#define TM_EXTTO1401 9 // extended to1401
/// Definitions of values in usbReqtype. Used in sorting out setup actions
#define H_TO_D 0x00
#define D_TO_H 0x80
#define VENDOR 0x40
#define DEVREQ 0x00
#define INTREQ 0x01
#define ENDREQ 0x02
/// Definition of values in usbRequest, again used to sort out setup
#define GET_STATUS 0x00
#define CLEAR_FEATURE 0x01
#define SET_FEATURE 0x03
#define SET_ADDRESS 0x05
#define GET_DESC 0x06
#define SET_DESC 0x07
#define GET_CONF 0x08
#define SET_CONF 0x09
#define GET_INTERFACE 0x0a
#define SET_INTERFACE 0x0b
#define SYNCH_FRAME 0x0c
/// Definitions of the various debug command codes understood by the 1401. These
/// are used in various vendor-specific commands to achieve the desired effect
#define DB_GRAB 0x50 /* Grab is a NOP for USB */
#define DB_FREE 0x51 /* Free is a NOP for the USB */
#define DB_SETADD 0x52 /* Set debug address (double) */
#define DB_SELFTEST 0x53 /* Start self test */
#define DB_SETMASK 0x54 /* Set enable mask (double) */
#define DB_SETDEF 0x55 /* Set default mask (double) */
#define DB_PEEK 0x56 /* Peek address, save result */
#define DB_POKE 0x57 /* Poke address with data (double) */
#define DB_RAMPD 0x58 /* Ramp data at debug address */
#define DB_RAMPA 0x59 /* Ramp address bus */
#define DB_REPEATS 0x5A /* Set repeats for operations (double) */
#define DB_WIDTH 0x5B /* Set width for operations (byte) */
#define DB_DATA 0x5C /* Get 4-byte data read by PEEK */
#define DB_CHARS 0x5D /* Send chars via EP0 control write */
#define CR_CHAR 0x0D /* The carriage return character */
#define CR_CHAR_80 0x8d /* and with bit 7 set */
/// A structure holding information about a block of memory for use in circular transfers
typedef struct circBlk
{
volatile UINT dwOffset; /* Offset within area of block start */
volatile UINT dwSize; /* Size of the block, in bytes (0 = unused) */
} CIRCBLK;
/// A structure holding all of the information about a transfer area - an area of
/// memory set up for use either as a source or destination in DMA transfers.
typedef struct transarea
{
void* lpvBuff; // User address of xfer area saved for completeness
UINT dwBaseOffset; // offset to start of xfer area in first page
UINT dwLength; // Length of xfer area, in bytes
struct page **pPages; // Points at array of locked down pages
int nPages; // number of pages that are locked down
bool bUsed; // Is this structure in use?
bool bCircular; // Is this area for circular transfers?
bool bCircToHost; // Flag for direction of circular transfer
bool bEventToHost; // Set event on transfer to host?
int iWakeUp; // Set 1 on event, cleared by TestEvent()
UINT dwEventSt; // Defines section within xfer area for...
UINT dwEventSz; // ...notification by the event SZ is 0 if unset
CIRCBLK aBlocks[2]; // Info on a pair of circular blocks
wait_queue_head_t wqEvent; // The wait queue for events in this area MUST BE LAST
} TRANSAREA;
/// The DMADESC structure is used to hold information on the transfer in progress. It
/// is set up by ReadDMAInfo, using information sent by the 1401 in an escape sequence.
typedef struct dmadesc
{
unsigned short wTransType; /* transfer type as TM_xxx above */
unsigned short wIdent; /* identifier word */
unsigned int dwSize; /* bytes to transfer */
unsigned int dwOffset; /* offset into transfer area for trans */
bool bOutWard; /* true when data is going TO 1401 */
} DMADESC;
#define INBUF_SZ 256 /* input buffer size */
#define OUTBUF_SZ 256 /* output buffer size */
#define STAGED_SZ 0x10000 // size of coherent buffer for staged transfers
/// Structure to hold all of our device specific stuff. We are making this as similar as we
/// can to the Windows driver to help in our understanding of what is going on.
typedef struct _DEVICE_EXTENSION
{
char inputBuffer[INBUF_SZ]; /* The two buffers */
char outputBuffer[OUTBUF_SZ]; /* accessed by the host functions */
volatile unsigned int dwNumInput; /* num of chars in input buffer */
volatile unsigned int dwInBuffGet; /* where to get from input buffer */
volatile unsigned int dwInBuffPut; /* where to put into input buffer */
volatile unsigned int dwNumOutput; /* num of chars in output buffer */
volatile unsigned int dwOutBuffGet; /* where to get from output buffer*/
volatile unsigned int dwOutBuffPut; /* where to put into output buffer*/
volatile bool bSendCharsPending; /* Flag to indicate sendchar active */
volatile bool bReadCharsPending; /* Flag to indicate a read is primed */
char* pCoherCharOut; /* special aligned buffer for chars to 1401 */
struct urb* pUrbCharOut; /* urb used for chars to 1401 */
char* pCoherCharIn; /* special aligned buffer for chars to host */
struct urb* pUrbCharIn; /* urb used for chars to host */
spinlock_t charOutLock; /* to protect the outputBuffer and outputting */
spinlock_t charInLock; /* to protect the inputBuffer and char reads */
__u8 bInterval; /* Interrupt end point interval */
volatile unsigned int dwDMAFlag; /* state of DMA */
TRANSAREA rTransDef[MAX_TRANSAREAS];/* transfer area info */
volatile DMADESC rDMAInfo; // info on current DMA transfer
volatile bool bXFerWaiting; // Flag set if DMA transfer stalled
volatile bool bInDrawDown; // Flag that we want to halt transfers
// Parameters relating to a block read\write that is in progress. Some of these values
// are equivalent to values in rDMAInfo. The values here are those in use, while those
// in rDMAInfo are those received from the 1401 via an escape sequence. If another
// escape sequence arrives before the previous xfer ends, rDMAInfo values are updated while these
// are used to finish off the current transfer.
volatile short StagedId; // The transfer area id for this transfer
volatile bool StagedRead; // Flag TRUE for read from 1401, FALSE for write
volatile unsigned int StagedLength; // Total length of this transfer
volatile unsigned int StagedOffset; // Offset within memory area for transfer start
volatile unsigned int StagedDone; // Bytes transferred so far
volatile bool bStagedUrbPending; // Flag to indicate active
char* pCoherStagedIO; // buffer used for block transfers
struct urb* pStagedUrb; // The URB to use
spinlock_t stagedLock; // protects ReadWriteMem() and circular buffer stuff
short s1401Type; // type of 1401 attached
short sCurrentState; // current error state
bool bIsUSB2; // type of the interface we connect to
bool bForceReset; // Flag to make sure we get a real reset
__u32 statBuf[2]; // buffer for 1401 state info
unsigned long ulSelfTestTime; // used to timeout self test
int nPipes; // Should be 3 or 4 depending on 1401 usb chip
int bPipeError[4]; // set non-zero if an error on one of the pipe
__u8 epAddr[4]; // addresses of the 3/4 end points
struct usb_device *udev; // the usb device for this device
struct usb_interface *interface; // the interface for this device, NULL if removed
struct usb_anchor submitted; // in case we need to retract our submissions
struct mutex io_mutex; // synchronize I/O with disconnect, one user-mode caller at a time
int errors; // the last request tanked
int open_count; // count the number of openers
spinlock_t err_lock; // lock for errors
struct kref kref;
}DEVICE_EXTENSION, *PDEVICE_EXTENSION;
#define to_DEVICE_EXTENSION(d) container_of(d, DEVICE_EXTENSION, kref)
/// Definitions of routimes used between compilation object files
// in usb1401.c
extern int Allowi(DEVICE_EXTENSION* pdx, bool bInCallback);
extern int SendChars(DEVICE_EXTENSION* pdx);
extern void ced_draw_down(DEVICE_EXTENSION *pdx);
extern int ReadWriteMem(DEVICE_EXTENSION *pdx, bool Read, unsigned short wIdent,
unsigned int dwOffs, unsigned int dwLen);
// in ced_ioc.c
extern int ClearArea(DEVICE_EXTENSION *pdx, int nArea);
extern int SendString(DEVICE_EXTENSION* pdx, const char __user* pData, unsigned int n);
extern int SendChar(DEVICE_EXTENSION *pdx, char c);
extern int Get1401State(DEVICE_EXTENSION* pdx, __u32* state, __u32* error);
extern int ReadWrite_Cancel(DEVICE_EXTENSION *pdx);
extern bool Is1401(DEVICE_EXTENSION* pdx);
extern bool QuickCheck(DEVICE_EXTENSION* pdx, bool bTestBuff, bool bCanReset);
extern int Reset1401(DEVICE_EXTENSION *pdx);
extern int GetChar(DEVICE_EXTENSION *pdx);
extern int GetString(DEVICE_EXTENSION *pdx, char __user* pUser, int n);
extern int SetTransfer(DEVICE_EXTENSION *pdx, TRANSFERDESC __user *pTD);
extern int UnsetTransfer(DEVICE_EXTENSION *pdx, int nArea);
extern int SetEvent(DEVICE_EXTENSION *pdx, TRANSFEREVENT __user*pTE);
extern int Stat1401(DEVICE_EXTENSION *pdx);
extern int LineCount(DEVICE_EXTENSION *pdx);
extern int GetOutBufSpace(DEVICE_EXTENSION *pdx);
extern int GetTransfer(DEVICE_EXTENSION *pdx, TGET_TX_BLOCK __user *pGTB);
extern int KillIO1401(DEVICE_EXTENSION *pdx);
extern int BlkTransState(DEVICE_EXTENSION *pdx);
extern int StateOf1401(DEVICE_EXTENSION *pdx);
extern int StartSelfTest(DEVICE_EXTENSION *pdx);
extern int CheckSelfTest(DEVICE_EXTENSION *pdx, TGET_SELFTEST __user *pGST);
extern int TypeOf1401(DEVICE_EXTENSION *pdx);
extern int TransferFlags(DEVICE_EXTENSION *pdx);
extern int DbgPeek(DEVICE_EXTENSION *pdx, TDBGBLOCK __user* pDB);
extern int DbgPoke(DEVICE_EXTENSION *pdx, TDBGBLOCK __user *pDB);
extern int DbgRampData(DEVICE_EXTENSION *pdx, TDBGBLOCK __user *pDB);
extern int DbgRampAddr(DEVICE_EXTENSION *pdx, TDBGBLOCK __user *pDB);
extern int DbgGetData(DEVICE_EXTENSION *pdx, TDBGBLOCK __user *pDB);
extern int DbgStopLoop(DEVICE_EXTENSION *pdx);
extern int SetCircular(DEVICE_EXTENSION *pdx, TRANSFERDESC __user *pTD);
extern int GetCircBlock(DEVICE_EXTENSION *pdx, TCIRCBLOCK __user* pCB);
extern int FreeCircBlock(DEVICE_EXTENSION *pdx, TCIRCBLOCK __user* pCB);
extern int WaitEvent(DEVICE_EXTENSION *pdx, int nArea, int msTimeOut);
extern int TestEvent(DEVICE_EXTENSION *pdx, int nArea);
#endif