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libusrp/firmware/include/fx2regs.h

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/* -*- c++ -*- */
/*
* Copyright 2003 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
* GNU Radio 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 3, or (at your option)
* any later version.
*
* GNU Radio 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 GNU Radio; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
/*
//-----------------------------------------------------------------------------
// File: FX2regs.h
// Contents: EZ-USB FX2 register declarations and bit mask definitions.
//
// $Archive: /USB/Target/Inc/fx2regs.h $
// $Date$
// $Revision$
//
//
// Copyright (c) 2000 Cypress Semiconductor, All rights reserved
//-----------------------------------------------------------------------------
*/
#ifndef FX2REGS_H /* Header Sentry */
#define FX2REGS_H
#define ALLOCATE_EXTERN // required for "right thing to happen" with fx2regs.h
/*
//-----------------------------------------------------------------------------
// FX2 Related Register Assignments
//-----------------------------------------------------------------------------
// The Ez-USB FX2 registers are defined here. We use FX2regs.h for register
// address allocation by using "#define ALLOCATE_EXTERN".
// When using "#define ALLOCATE_EXTERN", you get (for instance):
// xdata volatile BYTE OUT7BUF[64] _at_ 0x7B40;
// Such lines are created from FX2.h by using the preprocessor.
// Incidently, these lines will not generate any space in the resulting hex
// file; they just bind the symbols to the addresses for compilation.
// You just need to put "#define ALLOCATE_EXTERN" in your main program file;
// i.e. fw.c or a stand-alone C source file.
// Without "#define ALLOCATE_EXTERN", you just get the external reference:
// extern xdata volatile BYTE OUT7BUF[64] ;// 0x7B40;
// This uses the concatenation operator "##" to insert a comment "//"
// to cut off the end of the line, "_at_ 0x7B40;", which is not wanted.
*/
#ifdef ALLOCATE_EXTERN
#define EXTERN
#define _AT_(a) at a
#else
#define EXTERN extern
#define _AT_ ;/ ## /
#endif
typedef unsigned char BYTE;
typedef unsigned short WORD;
EXTERN xdata _AT_(0xE400) volatile BYTE GPIF_WAVE_DATA[128];
EXTERN xdata _AT_(0xE480) volatile BYTE RES_WAVEDATA_END ;
// General Configuration
EXTERN xdata _AT_(0xE600) volatile BYTE CPUCS ; // Control & Status
EXTERN xdata _AT_(0xE601) volatile BYTE IFCONFIG ; // Interface Configuration
EXTERN xdata _AT_(0xE602) volatile BYTE PINFLAGSAB ; // FIFO FLAGA and FLAGB Assignments
EXTERN xdata _AT_(0xE603) volatile BYTE PINFLAGSCD ; // FIFO FLAGC and FLAGD Assignments
EXTERN xdata _AT_(0xE604) volatile BYTE FIFORESET ; // Restore FIFOS to default state
EXTERN xdata _AT_(0xE605) volatile BYTE BREAKPT ; // Breakpoint
EXTERN xdata _AT_(0xE606) volatile BYTE BPADDRH ; // Breakpoint Address H
EXTERN xdata _AT_(0xE607) volatile BYTE BPADDRL ; // Breakpoint Address L
EXTERN xdata _AT_(0xE608) volatile BYTE UART230 ; // 230 Kbaud clock for T0,T1,T2
EXTERN xdata _AT_(0xE609) volatile BYTE FIFOPINPOLAR ; // FIFO polarities
EXTERN xdata _AT_(0xE60A) volatile BYTE REVID ; // Chip Revision
EXTERN xdata _AT_(0xE60B) volatile BYTE REVCTL ; // Chip Revision Control
// Endpoint Configuration
EXTERN xdata _AT_(0xE610) volatile BYTE EP1OUTCFG ; // Endpoint 1-OUT Configuration
EXTERN xdata _AT_(0xE611) volatile BYTE EP1INCFG ; // Endpoint 1-IN Configuration
EXTERN xdata _AT_(0xE612) volatile BYTE EP2CFG ; // Endpoint 2 Configuration
EXTERN xdata _AT_(0xE613) volatile BYTE EP4CFG ; // Endpoint 4 Configuration
EXTERN xdata _AT_(0xE614) volatile BYTE EP6CFG ; // Endpoint 6 Configuration
EXTERN xdata _AT_(0xE615) volatile BYTE EP8CFG ; // Endpoint 8 Configuration
EXTERN xdata _AT_(0xE618) volatile BYTE EP2FIFOCFG ; // Endpoint 2 FIFO configuration
EXTERN xdata _AT_(0xE619) volatile BYTE EP4FIFOCFG ; // Endpoint 4 FIFO configuration
EXTERN xdata _AT_(0xE61A) volatile BYTE EP6FIFOCFG ; // Endpoint 6 FIFO configuration
EXTERN xdata _AT_(0xE61B) volatile BYTE EP8FIFOCFG ; // Endpoint 8 FIFO configuration
EXTERN xdata _AT_(0xE620) volatile BYTE EP2AUTOINLENH ; // Endpoint 2 Packet Length H (IN only)
EXTERN xdata _AT_(0xE621) volatile BYTE EP2AUTOINLENL ; // Endpoint 2 Packet Length L (IN only)
EXTERN xdata _AT_(0xE622) volatile BYTE EP4AUTOINLENH ; // Endpoint 4 Packet Length H (IN only)
EXTERN xdata _AT_(0xE623) volatile BYTE EP4AUTOINLENL ; // Endpoint 4 Packet Length L (IN only)
EXTERN xdata _AT_(0xE624) volatile BYTE EP6AUTOINLENH ; // Endpoint 6 Packet Length H (IN only)
EXTERN xdata _AT_(0xE625) volatile BYTE EP6AUTOINLENL ; // Endpoint 6 Packet Length L (IN only)
EXTERN xdata _AT_(0xE626) volatile BYTE EP8AUTOINLENH ; // Endpoint 8 Packet Length H (IN only)
EXTERN xdata _AT_(0xE627) volatile BYTE EP8AUTOINLENL ; // Endpoint 8 Packet Length L (IN only)
EXTERN xdata _AT_(0xE630) volatile BYTE EP2FIFOPFH ; // EP2 Programmable Flag trigger H
EXTERN xdata _AT_(0xE631) volatile BYTE EP2FIFOPFL ; // EP2 Programmable Flag trigger L
EXTERN xdata _AT_(0xE632) volatile BYTE EP4FIFOPFH ; // EP4 Programmable Flag trigger H
EXTERN xdata _AT_(0xE633) volatile BYTE EP4FIFOPFL ; // EP4 Programmable Flag trigger L
EXTERN xdata _AT_(0xE634) volatile BYTE EP6FIFOPFH ; // EP6 Programmable Flag trigger H
EXTERN xdata _AT_(0xE635) volatile BYTE EP6FIFOPFL ; // EP6 Programmable Flag trigger L
EXTERN xdata _AT_(0xE636) volatile BYTE EP8FIFOPFH ; // EP8 Programmable Flag trigger H
EXTERN xdata _AT_(0xE637) volatile BYTE EP8FIFOPFL ; // EP8 Programmable Flag trigger L
EXTERN xdata _AT_(0xE640) volatile BYTE EP2ISOINPKTS ; // EP2 (if ISO) IN Packets per frame (1-3)
EXTERN xdata _AT_(0xE641) volatile BYTE EP4ISOINPKTS ; // EP4 (if ISO) IN Packets per frame (1-3)
EXTERN xdata _AT_(0xE642) volatile BYTE EP6ISOINPKTS ; // EP6 (if ISO) IN Packets per frame (1-3)
EXTERN xdata _AT_(0xE643) volatile BYTE EP8ISOINPKTS ; // EP8 (if ISO) IN Packets per frame (1-3)
EXTERN xdata _AT_(0xE648) volatile BYTE INPKTEND ; // Force IN Packet End
EXTERN xdata _AT_(0xE649) volatile BYTE OUTPKTEND ; // Force OUT Packet End
// Interrupts
EXTERN xdata _AT_(0xE650) volatile BYTE EP2FIFOIE ; // Endpoint 2 Flag Interrupt Enable
EXTERN xdata _AT_(0xE651) volatile BYTE EP2FIFOIRQ ; // Endpoint 2 Flag Interrupt Request
EXTERN xdata _AT_(0xE652) volatile BYTE EP4FIFOIE ; // Endpoint 4 Flag Interrupt Enable
EXTERN xdata _AT_(0xE653) volatile BYTE EP4FIFOIRQ ; // Endpoint 4 Flag Interrupt Request
EXTERN xdata _AT_(0xE654) volatile BYTE EP6FIFOIE ; // Endpoint 6 Flag Interrupt Enable
EXTERN xdata _AT_(0xE655) volatile BYTE EP6FIFOIRQ ; // Endpoint 6 Flag Interrupt Request
EXTERN xdata _AT_(0xE656) volatile BYTE EP8FIFOIE ; // Endpoint 8 Flag Interrupt Enable
EXTERN xdata _AT_(0xE657) volatile BYTE EP8FIFOIRQ ; // Endpoint 8 Flag Interrupt Request
EXTERN xdata _AT_(0xE658) volatile BYTE IBNIE ; // IN-BULK-NAK Interrupt Enable
EXTERN xdata _AT_(0xE659) volatile BYTE IBNIRQ ; // IN-BULK-NAK interrupt Request
EXTERN xdata _AT_(0xE65A) volatile BYTE NAKIE ; // Endpoint Ping NAK interrupt Enable
EXTERN xdata _AT_(0xE65B) volatile BYTE NAKIRQ ; // Endpoint Ping NAK interrupt Request
EXTERN xdata _AT_(0xE65C) volatile BYTE USBIE ; // USB Int Enables
EXTERN xdata _AT_(0xE65D) volatile BYTE USBIRQ ; // USB Interrupt Requests
EXTERN xdata _AT_(0xE65E) volatile BYTE EPIE ; // Endpoint Interrupt Enables
EXTERN xdata _AT_(0xE65F) volatile BYTE EPIRQ ; // Endpoint Interrupt Requests
EXTERN xdata _AT_(0xE660) volatile BYTE GPIFIE ; // GPIF Interrupt Enable
EXTERN xdata _AT_(0xE661) volatile BYTE GPIFIRQ ; // GPIF Interrupt Request
EXTERN xdata _AT_(0xE662) volatile BYTE USBERRIE ; // USB Error Interrupt Enables
EXTERN xdata _AT_(0xE663) volatile BYTE USBERRIRQ ; // USB Error Interrupt Requests
EXTERN xdata _AT_(0xE664) volatile BYTE ERRCNTLIM ; // USB Error counter and limit
EXTERN xdata _AT_(0xE665) volatile BYTE CLRERRCNT ; // Clear Error Counter EC[3..0]
EXTERN xdata _AT_(0xE666) volatile BYTE INT2IVEC ; // Interupt 2 (USB) Autovector
EXTERN xdata _AT_(0xE667) volatile BYTE INT4IVEC ; // Interupt 4 (FIFOS & GPIF) Autovector
EXTERN xdata _AT_(0xE668) volatile BYTE INTSETUP ; // Interrupt 2&4 Setup
// Input/Output
EXTERN xdata _AT_(0xE670) volatile BYTE PORTACFG ; // I/O PORTA Alternate Configuration
EXTERN xdata _AT_(0xE671) volatile BYTE PORTCCFG ; // I/O PORTC Alternate Configuration
EXTERN xdata _AT_(0xE672) volatile BYTE PORTECFG ; // I/O PORTE Alternate Configuration
EXTERN xdata _AT_(0xE678) volatile BYTE I2CS ; // Control & Status
EXTERN xdata _AT_(0xE679) volatile BYTE I2DAT ; // Data
EXTERN xdata _AT_(0xE67A) volatile BYTE I2CTL ; // I2C Control
EXTERN xdata _AT_(0xE67B) volatile BYTE XAUTODAT1 ; // Autoptr1 MOVX access
EXTERN xdata _AT_(0xE67C) volatile BYTE XAUTODAT2 ; // Autoptr2 MOVX access
#define EXTAUTODAT1 XAUTODAT1
#define EXTAUTODAT2 XAUTODAT2
// USB Control
EXTERN xdata _AT_(0xE680) volatile BYTE USBCS ; // USB Control & Status
EXTERN xdata _AT_(0xE681) volatile BYTE SUSPEND ; // Put chip into suspend
EXTERN xdata _AT_(0xE682) volatile BYTE WAKEUPCS ; // Wakeup source and polarity
EXTERN xdata _AT_(0xE683) volatile BYTE TOGCTL ; // Toggle Control
EXTERN xdata _AT_(0xE684) volatile BYTE USBFRAMEH ; // USB Frame count H
EXTERN xdata _AT_(0xE685) volatile BYTE USBFRAMEL ; // USB Frame count L
EXTERN xdata _AT_(0xE686) volatile BYTE MICROFRAME ; // Microframe count, 0-7
EXTERN xdata _AT_(0xE687) volatile BYTE FNADDR ; // USB Function address
// Endpoints
EXTERN xdata _AT_(0xE68A) volatile BYTE EP0BCH ; // Endpoint 0 Byte Count H
EXTERN xdata _AT_(0xE68B) volatile BYTE EP0BCL ; // Endpoint 0 Byte Count L
EXTERN xdata _AT_(0xE68D) volatile BYTE EP1OUTBC ; // Endpoint 1 OUT Byte Count
EXTERN xdata _AT_(0xE68F) volatile BYTE EP1INBC ; // Endpoint 1 IN Byte Count
EXTERN xdata _AT_(0xE690) volatile BYTE EP2BCH ; // Endpoint 2 Byte Count H
EXTERN xdata _AT_(0xE691) volatile BYTE EP2BCL ; // Endpoint 2 Byte Count L
EXTERN xdata _AT_(0xE694) volatile BYTE EP4BCH ; // Endpoint 4 Byte Count H
EXTERN xdata _AT_(0xE695) volatile BYTE EP4BCL ; // Endpoint 4 Byte Count L
EXTERN xdata _AT_(0xE698) volatile BYTE EP6BCH ; // Endpoint 6 Byte Count H
EXTERN xdata _AT_(0xE699) volatile BYTE EP6BCL ; // Endpoint 6 Byte Count L
EXTERN xdata _AT_(0xE69C) volatile BYTE EP8BCH ; // Endpoint 8 Byte Count H
EXTERN xdata _AT_(0xE69D) volatile BYTE EP8BCL ; // Endpoint 8 Byte Count L
EXTERN xdata _AT_(0xE6A0) volatile BYTE EP0CS ; // Endpoint Control and Status
EXTERN xdata _AT_(0xE6A1) volatile BYTE EP1OUTCS ; // Endpoint 1 OUT Control and Status
EXTERN xdata _AT_(0xE6A2) volatile BYTE EP1INCS ; // Endpoint 1 IN Control and Status
EXTERN xdata _AT_(0xE6A3) volatile BYTE EP2CS ; // Endpoint 2 Control and Status
EXTERN xdata _AT_(0xE6A4) volatile BYTE EP4CS ; // Endpoint 4 Control and Status
EXTERN xdata _AT_(0xE6A5) volatile BYTE EP6CS ; // Endpoint 6 Control and Status
EXTERN xdata _AT_(0xE6A6) volatile BYTE EP8CS ; // Endpoint 8 Control and Status
EXTERN xdata _AT_(0xE6A7) volatile BYTE EP2FIFOFLGS ; // Endpoint 2 Flags
EXTERN xdata _AT_(0xE6A8) volatile BYTE EP4FIFOFLGS ; // Endpoint 4 Flags
EXTERN xdata _AT_(0xE6A9) volatile BYTE EP6FIFOFLGS ; // Endpoint 6 Flags
EXTERN xdata _AT_(0xE6AA) volatile BYTE EP8FIFOFLGS ; // Endpoint 8 Flags
EXTERN xdata _AT_(0xE6AB) volatile BYTE EP2FIFOBCH ; // EP2 FIFO total byte count H
EXTERN xdata _AT_(0xE6AC) volatile BYTE EP2FIFOBCL ; // EP2 FIFO total byte count L
EXTERN xdata _AT_(0xE6AD) volatile BYTE EP4FIFOBCH ; // EP4 FIFO total byte count H
EXTERN xdata _AT_(0xE6AE) volatile BYTE EP4FIFOBCL ; // EP4 FIFO total byte count L
EXTERN xdata _AT_(0xE6AF) volatile BYTE EP6FIFOBCH ; // EP6 FIFO total byte count H
EXTERN xdata _AT_(0xE6B0) volatile BYTE EP6FIFOBCL ; // EP6 FIFO total byte count L
EXTERN xdata _AT_(0xE6B1) volatile BYTE EP8FIFOBCH ; // EP8 FIFO total byte count H
EXTERN xdata _AT_(0xE6B2) volatile BYTE EP8FIFOBCL ; // EP8 FIFO total byte count L
EXTERN xdata _AT_(0xE6B3) volatile BYTE SUDPTRH ; // Setup Data Pointer high address byte
EXTERN xdata _AT_(0xE6B4) volatile BYTE SUDPTRL ; // Setup Data Pointer low address byte
EXTERN xdata _AT_(0xE6B5) volatile BYTE SUDPTRCTL ; // Setup Data Pointer Auto Mode
EXTERN xdata _AT_(0xE6B8) volatile BYTE SETUPDAT[8] ; // 8 bytes of SETUP data
// GPIF
EXTERN xdata _AT_(0xE6C0) volatile BYTE GPIFWFSELECT ; // Waveform Selector
EXTERN xdata _AT_(0xE6C1) volatile BYTE GPIFIDLECS ; // GPIF Done, GPIF IDLE drive mode
EXTERN xdata _AT_(0xE6C2) volatile BYTE GPIFIDLECTL ; // Inactive Bus, CTL states
EXTERN xdata _AT_(0xE6C3) volatile BYTE GPIFCTLCFG ; // CTL OUT pin drive
EXTERN xdata _AT_(0xE6C4) volatile BYTE GPIFADRH ; // GPIF Address H
EXTERN xdata _AT_(0xE6C5) volatile BYTE GPIFADRL ; // GPIF Address L
EXTERN xdata _AT_(0xE6CE) volatile BYTE GPIFTCB3 ; // GPIF Transaction Count Byte 3
EXTERN xdata _AT_(0xE6CF) volatile BYTE GPIFTCB2 ; // GPIF Transaction Count Byte 2
EXTERN xdata _AT_(0xE6D0) volatile BYTE GPIFTCB1 ; // GPIF Transaction Count Byte 1
EXTERN xdata _AT_(0xE6D1) volatile BYTE GPIFTCB0 ; // GPIF Transaction Count Byte 0
#define EP2GPIFTCH GPIFTCB1 // these are here for backwards compatibility
#define EP2GPIFTCL GPIFTCB0 // before REVE silicon (ie. REVB and REVD)
#define EP4GPIFTCH GPIFTCB1 // these are here for backwards compatibility
#define EP4GPIFTCL GPIFTCB0 // before REVE silicon (ie. REVB and REVD)
#define EP6GPIFTCH GPIFTCB1 // these are here for backwards compatibility
#define EP6GPIFTCL GPIFTCB0 // before REVE silicon (ie. REVB and REVD)
#define EP8GPIFTCH GPIFTCB1 // these are here for backwards compatibility
#define EP8GPIFTCL GPIFTCB0 // before REVE silicon (ie. REVB and REVD)
// EXTERN xdata volatile BYTE EP2GPIFTCH _AT_ 0xE6D0; // EP2 GPIF Transaction Count High
// EXTERN xdata volatile BYTE EP2GPIFTCL _AT_ 0xE6D1; // EP2 GPIF Transaction Count Low
EXTERN xdata _AT_(0xE6D2) volatile BYTE EP2GPIFFLGSEL ; // EP2 GPIF Flag select
EXTERN xdata _AT_(0xE6D3) volatile BYTE EP2GPIFPFSTOP ; // Stop GPIF EP2 transaction on prog. flag
EXTERN xdata _AT_(0xE6D4) volatile BYTE EP2GPIFTRIG ; // EP2 FIFO Trigger
// EXTERN xdata volatile BYTE EP4GPIFTCH _AT_ 0xE6D8; // EP4 GPIF Transaction Count High
// EXTERN xdata volatile BYTE EP4GPIFTCL _AT_ 0xE6D9; // EP4 GPIF Transactionr Count Low
EXTERN xdata _AT_(0xE6DA) volatile BYTE EP4GPIFFLGSEL ; // EP4 GPIF Flag select
EXTERN xdata _AT_(0xE6DB) volatile BYTE EP4GPIFPFSTOP ; // Stop GPIF EP4 transaction on prog. flag
EXTERN xdata _AT_(0xE6DC) volatile BYTE EP4GPIFTRIG ; // EP4 FIFO Trigger
// EXTERN xdata volatile BYTE EP6GPIFTCH _AT_ 0xE6E0; // EP6 GPIF Transaction Count High
// EXTERN xdata volatile BYTE EP6GPIFTCL _AT_ 0xE6E1; // EP6 GPIF Transaction Count Low
EXTERN xdata _AT_(0xE6E2) volatile BYTE EP6GPIFFLGSEL ; // EP6 GPIF Flag select
EXTERN xdata _AT_(0xE6E3) volatile BYTE EP6GPIFPFSTOP ; // Stop GPIF EP6 transaction on prog. flag
EXTERN xdata _AT_(0xE6E4) volatile BYTE EP6GPIFTRIG ; // EP6 FIFO Trigger
// EXTERN xdata volatile BYTE EP8GPIFTCH _AT_ 0xE6E8; // EP8 GPIF Transaction Count High
// EXTERN xdata volatile BYTE EP8GPIFTCL _AT_ 0xE6E9; // EP8GPIF Transaction Count Low
EXTERN xdata _AT_(0xE6EA) volatile BYTE EP8GPIFFLGSEL ; // EP8 GPIF Flag select
EXTERN xdata _AT_(0xE6EB) volatile BYTE EP8GPIFPFSTOP ; // Stop GPIF EP8 transaction on prog. flag
EXTERN xdata _AT_(0xE6EC) volatile BYTE EP8GPIFTRIG ; // EP8 FIFO Trigger
EXTERN xdata _AT_(0xE6F0) volatile BYTE XGPIFSGLDATH ; // GPIF Data H (16-bit mode only)
EXTERN xdata _AT_(0xE6F1) volatile BYTE XGPIFSGLDATLX ; // Read/Write GPIF Data L & trigger transac
EXTERN xdata _AT_(0xE6F2) volatile BYTE XGPIFSGLDATLNOX ; // Read GPIF Data L, no transac trigger
EXTERN xdata _AT_(0xE6F3) volatile BYTE GPIFREADYCFG ; // Internal RDY,Sync/Async, RDY5CFG
EXTERN xdata _AT_(0xE6F4) volatile BYTE GPIFREADYSTAT ; // RDY pin states
EXTERN xdata _AT_(0xE6F5) volatile BYTE GPIFABORT ; // Abort GPIF cycles
// UDMA
EXTERN xdata _AT_(0xE6C6) volatile BYTE FLOWSTATE ; //Defines GPIF flow state
EXTERN xdata _AT_(0xE6C7) volatile BYTE FLOWLOGIC ; //Defines flow/hold decision criteria
EXTERN xdata _AT_(0xE6C8) volatile BYTE FLOWEQ0CTL ; //CTL states during active flow state
EXTERN xdata _AT_(0xE6C9) volatile BYTE FLOWEQ1CTL ; //CTL states during hold flow state
EXTERN xdata _AT_(0xE6CA) volatile BYTE FLOWHOLDOFF ;
EXTERN xdata _AT_(0xE6CB) volatile BYTE FLOWSTB ; //CTL/RDY Signal to use as master data strobe
EXTERN xdata _AT_(0xE6CC) volatile BYTE FLOWSTBEDGE ; //Defines active master strobe edge
EXTERN xdata _AT_(0xE6CD) volatile BYTE FLOWSTBHPERIOD ; //Half Period of output master strobe
EXTERN xdata _AT_(0xE60C) volatile BYTE GPIFHOLDAMOUNT ; //Data delay shift
EXTERN xdata _AT_(0xE67D) volatile BYTE UDMACRCH ; //CRC Upper byte
EXTERN xdata _AT_(0xE67E) volatile BYTE UDMACRCL ; //CRC Lower byte
EXTERN xdata _AT_(0xE67F) volatile BYTE UDMACRCQUAL ; //UDMA In only, host terminated use only
// Debug/Test
EXTERN xdata _AT_(0xE6F8) volatile BYTE DBUG ; // Debug
EXTERN xdata _AT_(0xE6F9) volatile BYTE TESTCFG ; // Test configuration
EXTERN xdata _AT_(0xE6FA) volatile BYTE USBTEST ; // USB Test Modes
EXTERN xdata _AT_(0xE6FB) volatile BYTE CT1 ; // Chirp Test--Override
EXTERN xdata _AT_(0xE6FC) volatile BYTE CT2 ; // Chirp Test--FSM
EXTERN xdata _AT_(0xE6FD) volatile BYTE CT3 ; // Chirp Test--Control Signals
EXTERN xdata _AT_(0xE6FE) volatile BYTE CT4 ; // Chirp Test--Inputs
// Endpoint Buffers
EXTERN xdata _AT_(0xE740) volatile BYTE EP0BUF[64] ; // EP0 IN-OUT buffer
EXTERN xdata _AT_(0xE780) volatile BYTE EP1OUTBUF[64] ; // EP1-OUT buffer
EXTERN xdata _AT_(0xE7C0) volatile BYTE EP1INBUF[64] ; // EP1-IN buffer
EXTERN xdata _AT_(0xF000) volatile BYTE EP2FIFOBUF[1024] ; // 512/1024-byte EP2 buffer (IN or OUT)
EXTERN xdata _AT_(0xF400) volatile BYTE EP4FIFOBUF[1024] ; // 512 byte EP4 buffer (IN or OUT)
EXTERN xdata _AT_(0xF800) volatile BYTE EP6FIFOBUF[1024] ; // 512/1024-byte EP6 buffer (IN or OUT)
EXTERN xdata _AT_(0xFC00) volatile BYTE EP8FIFOBUF[1024] ; // 512 byte EP8 buffer (IN or OUT)
#undef EXTERN
#undef _AT_
/*-----------------------------------------------------------------------------
Special Function Registers (SFRs)
The byte registers and bits defined in the following list are based
on the Synopsis definition of the 8051 Special Function Registers for EZ-USB.
If you modify the register definitions below, please regenerate the file
"ezregs.inc" which includes the same basic information for assembly inclusion.
-----------------------------------------------------------------------------*/
sfr at 0x80 IOA;
sfr at 0x81 SP;
sfr at 0x82 DPL;
sfr at 0x83 DPH;
sfr at 0x84 DPL1;
sfr at 0x85 DPH1;
sfr at 0x86 DPS;
/* DPS */
sbit at 0x86+0 SEL;
sfr at 0x87 PCON; /* PCON */
//sbit IDLE = 0x87+0;
//sbit STOP = 0x87+1;
//sbit GF0 = 0x87+2;
//sbit GF1 = 0x87+3;
//sbit SMOD0 = 0x87+7;
sfr at 0x88 TCON;
/* TCON */
sbit at 0x88+0 IT0;
sbit at 0x88+1 IE0;
sbit at 0x88+2 IT1;
sbit at 0x88+3 IE1;
sbit at 0x88+4 TR0;
sbit at 0x88+5 TF0;
sbit at 0x88+6 TR1;
sbit at 0x88+7 TF1;
sfr at 0x89 TMOD;
/* TMOD */
//sbit M00 = 0x89+0;
//sbit M10 = 0x89+1;
//sbit CT0 = 0x89+2;
//sbit GATE0 = 0x89+3;
//sbit M01 = 0x89+4;
//sbit M11 = 0x89+5;
//sbit CT1 = 0x89+6;
//sbit GATE1 = 0x89+7;
sfr at 0x8A TL0;
sfr at 0x8B TL1;
sfr at 0x8C TH0;
sfr at 0x8D TH1;
sfr at 0x8E CKCON;
/* CKCON */
//sbit MD0 = 0x89+0;
//sbit MD1 = 0x89+1;
//sbit MD2 = 0x89+2;
//sbit T0M = 0x89+3;
//sbit T1M = 0x89+4;
//sbit T2M = 0x89+5;
// sfr at 0x8F SPC_FNC; // Was WRS in Reg320
/* CKCON */
//sbit WRS = 0x8F+0;
sfr at 0x90 IOB;
sfr at 0x91 EXIF; // EXIF Bit Values differ from Reg320
/* EXIF */
//sbit USBINT = 0x91+4;
//sbit I2CINT = 0x91+5;
//sbit IE4 = 0x91+6;
//sbit IE5 = 0x91+7;
sfr at 0x92 MPAGE;
sfr at 0x98 SCON0;
/* SCON0 */
sbit at 0x98+0 RI;
sbit at 0x98+1 TI;
sbit at 0x98+2 RB8;
sbit at 0x98+3 TB8;
sbit at 0x98+4 REN;
sbit at 0x98+5 SM2;
sbit at 0x98+6 SM1;
sbit at 0x98+7 SM0;
sfr at 0x99 SBUF0;
sfr at 0x9A APTR1H;
sfr at 0x9B APTR1L;
sfr at 0x9C AUTODAT1;
sfr at 0x9D AUTOPTRH2;
sfr at 0x9E AUTOPTRL2;
sfr at 0x9F AUTODAT2;
sfr at 0xA0 IOC;
sfr at 0xA1 INT2CLR;
sfr at 0xA2 INT4CLR;
#define AUTOPTRH1 APTR1H
#define AUTOPTRL1 APTR1L
sfr at 0xA8 IE;
/* IE */
sbit at 0xA8+0 EX0;
sbit at 0xA8+1 ET0;
sbit at 0xA8+2 EX1;
sbit at 0xA8+3 ET1;
sbit at 0xA8+4 ES0;
sbit at 0xA8+5 ET2;
sbit at 0xA8+6 ES1;
sbit at 0xA8+7 EA;
sfr at 0xAA EP2468STAT;
/* EP2468STAT */
//sbit EP2E = 0xAA+0;
//sbit EP2F = 0xAA+1;
//sbit EP4E = 0xAA+2;
//sbit EP4F = 0xAA+3;
//sbit EP6E = 0xAA+4;
//sbit EP6F = 0xAA+5;
//sbit EP8E = 0xAA+6;
//sbit EP8F = 0xAA+7;
sfr at 0xAB EP24FIFOFLGS;
sfr at 0xAC EP68FIFOFLGS;
sfr at 0xAF AUTOPTRSETUP;
/* AUTOPTRSETUP */
// sbit EXTACC = 0xAF+0;
// sbit APTR1FZ = 0xAF+1;
// sbit APTR2FZ = 0xAF+2;
sfr at 0xB0 IOD;
sfr at 0xB1 IOE;
sfr at 0xB2 OEA;
sfr at 0xB3 OEB;
sfr at 0xB4 OEC;
sfr at 0xB5 OED;
sfr at 0xB6 OEE;
sfr at 0xB8 IP;
/* IP */
sbit at 0xB8+0 PX0;
sbit at 0xB8+1 PT0;
sbit at 0xB8+2 PX1;
sbit at 0xB8+3 PT1;
sbit at 0xB8+4 PS0;
sbit at 0xB8+5 PT2;
sbit at 0xB8+6 PS1;
sfr at 0xBA EP01STAT;
sfr at 0xBB GPIFTRIG;
sfr at 0xBD GPIFSGLDATH;
sfr at 0xBE GPIFSGLDATLX;
sfr at 0xBF GPIFSGLDATLNOX;
sfr at 0xC0 SCON1;
/* SCON1 */
sbit at 0xC0+0 RI1;
sbit at 0xC0+1 TI1;
sbit at 0xC0+2 RB81;
sbit at 0xC0+3 TB81;
sbit at 0xC0+4 REN1;
sbit at 0xC0+5 SM21;
sbit at 0xC0+6 SM11;
sbit at 0xC0+7 SM01;
sfr at 0xC1 SBUF1;
sfr at 0xC8 T2CON;
/* T2CON */
sbit at 0xC8+0 CP_RL2;
sbit at 0xC8+1 C_T2;
sbit at 0xC8+2 TR2;
sbit at 0xC8+3 EXEN2;
sbit at 0xC8+4 TCLK;
sbit at 0xC8+5 RCLK;
sbit at 0xC8+6 EXF2;
sbit at 0xC8+7 TF2;
sfr at 0xCA RCAP2L;
sfr at 0xCB RCAP2H;
sfr at 0xCC TL2;
sfr at 0xCD TH2;
sfr at 0xD0 PSW;
/* PSW */
sbit at 0xD0+0 P;
sbit at 0xD0+1 FL;
sbit at 0xD0+2 OV;
sbit at 0xD0+3 RS0;
sbit at 0xD0+4 RS1;
sbit at 0xD0+5 F0;
sbit at 0xD0+6 AC;
sbit at 0xD0+7 CY;
sfr at 0xD8 EICON; // Was WDCON in DS80C320 EICON; Bit Values differ from Reg320
/* EICON */
sbit at 0xD8+3 INT6;
sbit at 0xD8+4 RESI;
sbit at 0xD8+5 ERESI;
sbit at 0xD8+7 SMOD1;
sfr at 0xE0 ACC;
sfr at 0xE8 EIE; // EIE Bit Values differ from Reg320
/* EIE */
sbit at 0xE8+0 EIUSB;
sbit at 0xE8+1 EI2C;
sbit at 0xE8+2 EIEX4;
sbit at 0xE8+3 EIEX5;
sbit at 0xE8+4 EIEX6;
sfr at 0xF0 B;
sfr at 0xF8 EIP; // EIP Bit Values differ from Reg320
/* EIP */
sbit at 0xF8+0 PUSB;
sbit at 0xF8+1 PI2C;
sbit at 0xF8+2 EIPX4;
sbit at 0xF8+3 EIPX5;
sbit at 0xF8+4 EIPX6;
/*-----------------------------------------------------------------------------
Bit Masks
-----------------------------------------------------------------------------*/
#define bmBIT0 1
#define bmBIT1 2
#define bmBIT2 4
#define bmBIT3 8
#define bmBIT4 16
#define bmBIT5 32
#define bmBIT6 64
#define bmBIT7 128
/* CPU Control & Status Register (CPUCS) */
#define bmPRTCSTB bmBIT5
#define bmCLKSPD (bmBIT4 | bmBIT3)
#define bmCLKSPD1 bmBIT4
#define bmCLKSPD0 bmBIT3
#define bmCLKINV bmBIT2
#define bmCLKOE bmBIT1
#define bm8051RES bmBIT0
/* Port Alternate Configuration Registers */
/* Port A (PORTACFG) */
#define bmFLAGD bmBIT7
#define bmINT1 bmBIT1
#define bmINT0 bmBIT0
/* Port C (PORTCCFG) */
#define bmGPIFA7 bmBIT7
#define bmGPIFA6 bmBIT6
#define bmGPIFA5 bmBIT5
#define bmGPIFA4 bmBIT4
#define bmGPIFA3 bmBIT3
#define bmGPIFA2 bmBIT2
#define bmGPIFA1 bmBIT1
#define bmGPIFA0 bmBIT0
/* Port E (PORTECFG) */
#define bmGPIFA8 bmBIT7
#define bmT2EX bmBIT6
#define bmINT6 bmBIT5
#define bmRXD1OUT bmBIT4
#define bmRXD0OUT bmBIT3
#define bmT2OUT bmBIT2
#define bmT1OUT bmBIT1
#define bmT0OUT bmBIT0
/* I2C Control & Status Register (I2CS) */
#define bmSTART bmBIT7
#define bmSTOP bmBIT6
#define bmLASTRD bmBIT5
#define bmID (bmBIT4 | bmBIT3)
#define bmBERR bmBIT2
#define bmACK bmBIT1
#define bmDONE bmBIT0
/* I2C Control Register (I2CTL) */
#define bmSTOPIE bmBIT1
#define bm400KHZ bmBIT0
/* Interrupt 2 (USB) Autovector Register (INT2IVEC) */
#define bmIV4 bmBIT6
#define bmIV3 bmBIT5
#define bmIV2 bmBIT4
#define bmIV1 bmBIT3
#define bmIV0 bmBIT2
/* USB Interrupt Request & Enable Registers (USBIE/USBIRQ) */
#define bmEP0ACK bmBIT6
#define bmHSGRANT bmBIT5
#define bmURES bmBIT4
#define bmSUSP bmBIT3
#define bmSUTOK bmBIT2
#define bmSOF bmBIT1
#define bmSUDAV bmBIT0
/* Breakpoint register (BREAKPT) */
#define bmBREAK bmBIT3
#define bmBPPULSE bmBIT2
#define bmBPEN bmBIT1
/* Interrupt 2 & 4 Setup (INTSETUP) */
#define bmAV2EN bmBIT3
#define bmINT4IN bmBIT1
#define bmAV4EN bmBIT0
/* USB Control & Status Register (USBCS) */
#define bmHSM bmBIT7
#define bmDISCON bmBIT3
#define bmNOSYNSOF bmBIT2
#define bmRENUM bmBIT1
#define bmSIGRESUME bmBIT0
/* Wakeup Control and Status Register (WAKEUPCS) */
#define bmWU2 bmBIT7
#define bmWU bmBIT6
#define bmWU2POL bmBIT5
#define bmWUPOL bmBIT4
#define bmDPEN bmBIT2
#define bmWU2EN bmBIT1
#define bmWUEN bmBIT0
/* End Point 0 Control & Status Register (EP0CS) */
#define bmHSNAK bmBIT7
/* End Point 0-1 Control & Status Registers (EP0CS/EP1OUTCS/EP1INCS) */
#define bmEPBUSY bmBIT1
#define bmEPSTALL bmBIT0
/* End Point 2-8 Control & Status Registers (EP2CS/EP4CS/EP6CS/EP8CS) */
#define bmNPAK (bmBIT6 | bmBIT5 | bmBIT4)
#define bmEPFULL bmBIT3
#define bmEPEMPTY bmBIT2
/* Endpoint Status (EP2468STAT) SFR bits */
#define bmEP8FULL bmBIT7
#define bmEP8EMPTY bmBIT6
#define bmEP6FULL bmBIT5
#define bmEP6EMPTY bmBIT4
#define bmEP4FULL bmBIT3
#define bmEP4EMPTY bmBIT2
#define bmEP2FULL bmBIT1
#define bmEP2EMPTY bmBIT0
/* SETUP Data Pointer Auto Mode (SUDPTRCTL) */
#define bmSDPAUTO bmBIT0
/* Endpoint Data Toggle Control (TOGCTL) */
#define bmQUERYTOGGLE bmBIT7
#define bmSETTOGGLE bmBIT6
#define bmRESETTOGGLE bmBIT5
#define bmTOGCTLEPMASK bmBIT3 | bmBIT2 | bmBIT1 | bmBIT0
/* IBN (In Bulk Nak) enable and request bits (IBNIE/IBNIRQ) */
#define bmEP8IBN bmBIT5
#define bmEP6IBN bmBIT4
#define bmEP4IBN bmBIT3
#define bmEP2IBN bmBIT2
#define bmEP1IBN bmBIT1
#define bmEP0IBN bmBIT0
/* PING-NAK enable and request bits (NAKIE/NAKIRQ) */
#define bmEP8PING bmBIT7
#define bmEP6PING bmBIT6
#define bmEP4PING bmBIT5
#define bmEP2PING bmBIT4
#define bmEP1PING bmBIT3
#define bmEP0PING bmBIT2
#define bmIBN bmBIT0
/* Interface Configuration bits (IFCONFIG) */
#define bmIFCLKSRC bmBIT7 // set == INTERNAL
#define bm3048MHZ bmBIT6 // set == 48 MHz
#define bmIFCLKOE bmBIT5
#define bmIFCLKPOL bmBIT4
#define bmASYNC bmBIT3
#define bmGSTATE bmBIT2
#define bmIFCFG1 bmBIT1
#define bmIFCFG0 bmBIT0
#define bmIFCFGMASK (bmIFCFG0 | bmIFCFG1)
#define bmIFGPIF bmIFCFG1
/* EP 2468 FIFO Configuration bits (EP2FIFOCFG,EP4FIFOCFG,EP6FIFOCFG,EP8FIFOCFG) */
#define bmINFM bmBIT6
#define bmOEP bmBIT5
#define bmAUTOOUT bmBIT4
#define bmAUTOIN bmBIT3
#define bmZEROLENIN bmBIT2
// must be zero bmBIT1
#define bmWORDWIDE bmBIT0
/*
* Chip Revision Control Bits (REVCTL) - used to ebable/disable revision specific features
*/
#define bmNOAUTOARM bmBIT1 // these don't match the docs
#define bmSKIPCOMMIT bmBIT0 // these don't match the docs
#define bmDYN_OUT bmBIT1 // these do...
#define bmENH_PKT bmBIT0
/* Fifo Reset bits (FIFORESET) */
#define bmNAKALL bmBIT7
/* Endpoint Configuration (EPxCFG) */
#define bmVALID bmBIT7
#define bmIN bmBIT6
#define bmTYPE1 bmBIT5
#define bmTYPE0 bmBIT4
#define bmISOCHRONOUS bmTYPE0
#define bmBULK bmTYPE1
#define bmINTERRUPT (bmTYPE1 | bmTYPE0)
#define bm1KBUF bmBIT3
#define bmBUF1 bmBIT1
#define bmBUF0 bmBIT0
#define bmQUADBUF 0
#define bmINVALIDBUF bmBUF0
#define bmDOUBLEBUF bmBUF1
#define bmTRIPLEBUF (bmBUF1 | bmBUF0)
/* OUTPKTEND */
#define bmSKIP bmBIT7 // low 4 bits specify which end point
/* GPIFTRIG defs */
#define bmGPIF_IDLE bmBIT7 // status bit
#define bmGPIF_EP2_START 0
#define bmGPIF_EP4_START 1
#define bmGPIF_EP6_START 2
#define bmGPIF_EP8_START 3
#define bmGPIF_READ bmBIT2
#define bmGPIF_WRITE 0
/* EXIF bits */
#define bmEXIF_USBINT bmBIT4
#define bmEXIF_I2CINT bmBIT5
#define bmEXIF_IE4 bmBIT6
#define bmEXIF_IE5 bmBIT7
#endif /* FX2REGS_H */
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