cygwin/pcan_light commit. Changes in configure for dual port handling.
/*
This file is part of CanFestival, a library implementing CanOpen Stack.
canfestival@canopencanada.ca
See COPYING file for copyrights details.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/************************************************************************/
/* */
/* LPC2k_ee.H: Header file enabling EEPROM support */
/* for Philips LPC2000 microcontroller's on-chip Flash memory */
/* (revision 1.0, May 13th, 2005.) */
/* */
/* This file is to be used with LPC2k_ee.c file */
/* */
/* IMPORTANT: on-chip Flash memory sector(s) intended to be used as */
/* an EEPROM will be unavailable for regular code storage! The smallest */
/* amount of Flash memory that can be used as an EEPROM is a single */
/* Flash sector (regardless of the Flash sector actual size). */
/* */
/* If size of desired EEPROM requires several Flash sectors, these */
/* sectors must be a consecutive ones. */
/* */
/************************************************************************/
#define EE_SEC_L 1 //Flash sector where EEPROM begins (see UM for details)
#define EE_SEC_H 3 //Flash sector where EEPROM ends (see UM for details)
#define EE_ADDR_L 0x00001000 //Must match the EE_SEC_L Flash sector start address
#define EE_ADDR_H 0x00003FFF //Must match the EE_SEC_H Flash sector end address
#define EE_CCLK 60000 //system clock cclk expressed in kHz (5*12 MHz)
/************************************************************************/
/* */
/* ee_data structure can be defined differently from this example. */
/* The only requirement is to have _id field as it is defined here */
/* since EE_REC_ID character is used to identify a record's presence */
/* in the EEPROM memory. */
/* */
/* ==================================================================== */
/* */
/* IMPORTANT ARM memory access considerations: */
/* */
/* char : byte alligned. Can be accessed at any location in memory. */
/* */
/* short int: occupies 2 consecutive bytes. It can be read/write */
/* accessed only when half-word alligned. Therefore, it is */
/* located at addresses ending with 0x0, 0x2, 0x4, 0x6, 0x8, */
/* 0xA, 0xC or 0xE. */
/* */
/* int : occupies 4 consecutive bytes. It can be read/write */
/* accessed only when half-word alligned. Therefore, it is */
/* located at addresses ending with 0x0, 0x4, 0x8 or 0xC. */
/* */
/* ==================================================================== */
/* */
/* Due to the LPC2000 Flash memory characteristics, an ee_data */
/* structure size (EE_REC_SIZE) is limited to the following set: */
/* */
/* LPC2101/2/3, LPC2131/2/4/6/8, LPC2141/2/4/6/8: 0x10, 0x20, 0x40, */
/* 0x80 or 0x100 */
/* */
/* LPC2104/5/6, LPC2112/4/9, LPC2124/9, LPC2192/4: 0x10, 0x20, 0x40, */
/* 0x80, 0x100 or 0x200 */
/* */
/* ==================================================================== */
/* */
/* example1: */
/* */
/* struct ee_data{ //structure starts as word alligned */
/* unsigned char _id; //1 byte - no allignement restr. */
/* // 3 BYTE GAP!!!! */
/* unsigned int _rec_count; //4 bytes - must be word alligned! */
/* unsigned char _cs; //1 byte - no allignement restr. */
/*}; // next structure will start as */
/* // word alligned... */
/* Structure in example 1 occupies 12 bytes of memory */
/* */
/* -------------------------------------------------------------------- */
/* */
/* example2: */
/* */
/* struct ee_data{ //structure starts as word alligned */
/* unsigned char _id; //1 byte - no allignement restr. */
/* unsigned char _cs; //1 byte - no allignement restr. */
/* // 2 BYTE GAP!!!! */
/* unsigned int _rec_count; //4 bytes - must be word alligned! */
/*}; // next structure will start as */
/* // word alligned... */
/* Structure in example 2 occupies 8 bytes of memory */
/* */
/************************************************************************/
struct ee_data{
unsigned char _id; // 4 bytes: 1 byte (char) + 3 byte GAP!
unsigned int _rec_count; // 4 bytes (int)
unsigned int _counter; // 4 bytes (int)
unsigned char _cs; // 4 bytes: 1 byte (char) + 3 byte GAP!
}; // 16 bytes total
/************************************************************************/
/* */
/* Disclaimer: all observations presented in example1, example 2 and */
/* ee_data structure defined here are based on Keil's ARM compiler. */
/* If another compiler is used, memory usage would have to be */
/* re-examined and verified. */
/* */
/************************************************************************/
#define EE_REC_SIZE 0x10 //see restrictions from above
/********************************************************************/
/* */
/* Valid combinations for */
/* EE_REC_SIZE, EE_BUFFER_SIZE, EE_BUFFER_MASK and EE_START_MASK */
/* */
/* EE_BUFFER_SIZE ! EE_START_MASK ! EE_REC_SIZE ! EE_BUFFER_MASK */
/* ---------------------------------------------------------------- */
/* 256 0xFFFFFF00 0x010 0xF0 */
/* 256 0xFFFFFF00 0x020 0xE0 */
/* 256 0xFFFFFF00 0x040 0xC0 */
/* 256 0xFFFFFF00 0x080 0x80 */
/* 256 0xFFFFFF00 0x100 0x00 */
/* ---------------------------------------------------------------- */
/* 512 0xFFFFFE00 0x010 0x1F0 */
/* 512 0xFFFFFE00 0x020 0x1E0 */
/* 512 0xFFFFFE00 0x040 0x1C0 */
/* 512 0xFFFFFE00 0x080 0x180 */
/* 512 0xFFFFFE00 0x100 0x100 */
/* 512 0xFFFFFE00 0x200 0x000 */
/********************************************************************/
/* For LPC2101/2/3, LPC213x and LPC214x EE_BUFFER_SIZE is 256. */
/* For all other LPC2000 devices EE_BUFFER_SIZE is always 512. */
/********************************************************************/
#define EE_BUFFER_SIZE 256
#define EE_START_MASK 0xFFFFFF00
#define EE_BUFFER_MASK 0x000000F0
/********************************************************************/
/*!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!*/
/*!! !!*/
/*!! !!*/
/*!! DO NOT MODIFY THE FOLLOWING CODE!!! !!*/
/*!! =================================== !!*/
/*!! !!*/
/*!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!*/
/********************************************************************/
#define EE_REC_ID 0xAA
#define EE_SIZE (EE_ADDR_H+1-EE_ADDR_L)
#define NO_RECORDS_AVAILABLE 500
#define NO_SPACE_IN_EEPROM 501
#define INDEX_OUT_OF_RANGE 502
#ifndef _EEPROM_
extern const unsigned char eeprom[];
extern void ee_erase(unsigned int , unsigned int []); //function erases EEPROM
extern void ee_write(unsigned int , unsigned int []); //function adds a record in EEPROM
extern void ee_read (unsigned int , unsigned int []); //function reads the latest valid record in EEPROM
extern void ee_readn(unsigned int , unsigned int []); //function reads n-th record in EEPROM
extern void ee_count(unsigned int , unsigned int []); //function counts records in EEPROM
#endif