/******************************************************************************
FILE : datapage.c
PURPOSE : paged data access runtime routines
MACHINE : Freescale 68HC12 (Target)
LANGUAGE : ANSI-C
HISTORY : 21.7.96 first version created
******************************************************************************/
#include "hidef.h"
#include "non_bank.sgm"
#include "runtime.sgm"
/*lint --e{957} , MISRA 8.1 REQ, these are runtime support functions and, as such, are not meant to be called in user code; they are only invoked via jumps, in compiler-generated code */
/*lint -estring(553, __OPTION_ACTIVE__) , MISRA 19.11 REQ , __OPTION_ACTIVE__ is a built-in compiler construct to check for active compiler options */
#ifndef __HCS12X__ /* it's different for the HCS12X. See the text below at the #else // __HCS12X__ */
/*
According to the -Cp option of the compiler the
__DPAGE__, __PPAGE__ and __EPAGE__ macros are defined.
If none of them is given as argument, then no page accesses should occur and
this runtime routine should not be used !
To be on the save side, the runtime routines are created anyway.
*/
/* Compile with option -DHCS12 to activate this code */
#if defined(HCS12) || defined(_HCS12) || defined(__HCS12__)
#ifndef PPAGE_ADDR
#ifdef __PPAGE_ADR__
#define PPAGE_ADDR __PPAGE_ADR__
#else
#define PPAGE_ADDR (0x30 + REGISTER_BASE)
#endif
#endif
#ifndef __PPAGE__ /* may be set already by option -CPPPAGE */
#define __PPAGE__
#endif
/* Compile with option -DDG128 to activate this code */
#elif defined DG128 /* HC912DG128 derivative has PPAGE register only at 0xFF */
#ifndef PPAGE_ADDR
#define PPAGE_ADDR (0xFF+REGISTER_BASE)
#endif
#ifndef __PPAGE__ /* may be set already by option -CPPPAGE */
#define __PPAGE__
#endif
#elif defined(HC812A4)
/* all setting default to A4 already */
#endif
#if !defined(__EPAGE__) && !defined(__PPAGE__) && !defined(__DPAGE__)
/* as default use all page registers */
#define __DPAGE__
#define __EPAGE__
#define __PPAGE__
#endif
/* modify the following defines to your memory configuration */
#define EPAGE_LOW_BOUND 0x400u
#define EPAGE_HIGH_BOUND 0x7ffu
#define DPAGE_LOW_BOUND 0x7000u
#define DPAGE_HIGH_BOUND 0x7fffu
#define PPAGE_LOW_BOUND (DPAGE_HIGH_BOUND+1u)
#define PPAGE_HIGH_BOUND 0xBFFFu
#ifndef REGISTER_BASE
#define REGISTER_BASE 0x0u
#endif
#ifndef DPAGE_ADDR
#define DPAGE_ADDR (0x34u+REGISTER_BASE)
#endif
#ifndef EPAGE_ADDR
#define EPAGE_ADDR (0x36u+REGISTER_BASE)
#endif
#ifndef PPAGE_ADDR
#define PPAGE_ADDR (0x35u+REGISTER_BASE)
#endif
/*
The following parts about the defines are assumed in the code of _GET_PAGE_REG :
- the memory region controlled by DPAGE is above the area controlled by the EPAGE and
below the area controlled by the PPAGE.
- the lower bound of the PPAGE area is equal to be the higher bound of the DPAGE area + 1
*/
#if (EPAGE_LOW_BOUND >= EPAGE_HIGH_BOUND) || (EPAGE_HIGH_BOUND >= DPAGE_LOW_BOUND) || (DPAGE_LOW_BOUND >= DPAGE_HIGH_BOUND) || (DPAGE_HIGH_BOUND >= PPAGE_LOW_BOUND) || (PPAGE_LOW_BOUND >= PPAGE_HIGH_BOUND)
#error /* please adapt _GET_PAGE_REG for this non default page configuration */
#endif
#if (DPAGE_HIGH_BOUND+1u) != PPAGE_LOW_BOUND
#error /* please adapt _GET_PAGE_REG for this non default page configuration */
#endif
/* this module does either control if any access is in the bounds of the specified page or */
/* ,if only one page is specified, just use this page. */
/* This behavior is controlled by the define USE_SEVERAL_PAGES. */
/* If !USE_SEVERAL_PAGES does increase the performance significantly */
/* NOTE : When !USE_SEVERAL_PAGES, the page is also set for accesses outside of the area controlled */
/* by this single page. But this is should not cause problems because the page is restored to the old value before any other access could occur */
#if !defined(__DPAGE__) && !defined(__EPAGE__) && !defined(__PPAGE__)
/* no page at all is specified */
/* only specifying the right pages will speed up these functions a lot */
#define USE_SEVERAL_PAGES 1
#elif (defined(__DPAGE__) && defined(__EPAGE__)) || (defined(__DPAGE__) && defined(__PPAGE__)) || (defined(__EPAGE__) && defined(__PPAGE__))
/* more than one page register is used */
#define USE_SEVERAL_PAGES 1
#else
#define USE_SEVERAL_PAGES 0
#if defined(__DPAGE__) /* check which pages are used */
#define PAGE_ADDR PPAGE_ADDR
#elif defined(__EPAGE__)
#define PAGE_ADDR EPAGE_ADDR
#elif defined(__PPAGE__)
#define PAGE_ADDR PPAGE_ADDR
#else /* we do not know which page, decide it at runtime */
#error /* must not happen */
#endif
#endif
#if USE_SEVERAL_PAGES /* only needed for several pages support */
/*--------------------------- _GET_PAGE_REG --------------------------------
Runtime routine to detect the right register depending on the 16 bit offset part
of an address.
This function is only used by the functions below.
Depending on the compiler options -Cp different versions of _GET_PAGE_REG are produced.
Arguments :
- Y : offset part of an address
Result :
if address Y is controlled by a page register :
- X : address of page register if Y is controlled by an page register
- Zero flag cleared
- all other registers remain unchanged
if address Y is not controlled by a page register :
- Zero flag is set
- all registers remain unchanged
--------------------------- _GET_PAGE_REG ----------------------------------*/
#if defined(__DPAGE__)
#ifdef __cplusplus
extern "C"
#endif
#pragma NO_ENTRY
#pragma NO_EXIT
#pragma NO_FRAME
static void NEAR _GET_PAGE_REG(void) { /*lint -esym(528, _GET_PAGE_REG) used in asm code */
asm {
L_DPAGE:
CPY #DPAGE_LOW_BOUND ;/* test of lower bound of DPAGE */
#if defined(__EPAGE__)
BLO L_EPAGE ;/* EPAGE accesses are possible */
#else
BLO L_NOPAGE ;/* no paged memory below accesses */
#endif
CPY #DPAGE_HIGH_BOUND ;/* test of higher bound DPAGE/lower bound PPAGE */
#if defined(__PPAGE__)
BHI L_PPAGE ;/* EPAGE accesses are possible */
#else
BHI L_NOPAGE ;/* no paged memory above accesses */
#endif
FOUND_DPAGE:
LDX #DPAGE_ADDR ;/* load page register address and clear zero flag */
RTS
#if defined(__PPAGE__)
L_PPAGE:
CPY #PPAGE_HIGH_BOUND ;/* test of higher bound of PPAGE */
BHI L_NOPAGE
FOUND_PPAGE:
LDX #PPAGE_ADDR ;/* load page register address and clear zero flag */
RTS
#endif
#if defined(__EPAGE__)
L_EPAGE:
CPY #EPAGE_LOW_BOUND ;/* test of lower bound of EPAGE */
BLO L_NOPAGE
CPY #EPAGE_HIGH_BOUND ;/* test of higher bound of EPAGE */
BHI L_NOPAGE
FOUND_EPAGE:
LDX #EPAGE_ADDR ;/* load page register address and clear zero flag */
RTS
#endif
L_NOPAGE:
ORCC #0x04 ;/* sets zero flag */
RTS
}
}
#else /* !defined(__DPAGE__) */
#if defined( __PPAGE__ )
#ifdef __cplusplus
extern "C"
#endif
#pragma NO_ENTRY
#pragma NO_EXIT
#pragma NO_FRAME
static void NEAR _GET_PAGE_REG(void) { /*lint -esym(528, _GET_PAGE_REG) used in asm code */
asm {
L_PPAGE:
CPY #PPAGE_LOW_BOUND ;/* test of lower bound of PPAGE */
#if defined( __EPAGE__ )
BLO L_EPAGE
#else
BLO L_NOPAGE ;/* no paged memory below */
#endif
CPY #PPAGE_HIGH_BOUND ;/* test of higher bound PPAGE */
BHI L_NOPAGE
FOUND_PPAGE:
LDX #PPAGE_ADDR ;/* load page register address and clear zero flag */
RTS
#if defined( __EPAGE__ )
L_EPAGE:
CPY #EPAGE_LOW_BOUND ;/* test of lower bound of EPAGE */
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MC9S12XEP100.rar_CAN驱动开发_MC9S12XEP100_MC9S12XEP100 CAN_XEP100开发板
共78个文件
cmd:14个
h:10个
o:10个
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MC9S12XEP100开发板的示例程序,包含IO,AD及CAN通讯驱动程序
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MC9S12XEP100.rar (78个子文件)
MC9S12XEP100
bin
P&E_Multilink_USB.abs 379KB
P&E_Multilink_USB.abs.s19 480B
Project.abs 483KB
Project.abs.glo 4KB
P&E_Multilink_USB.map 232KB
Project.xpr 255B
Project.abs.s19 4KB
P&E_Multilink_USB.abs.glo 488B
Project.map 250KB
cmd
P&E_Multilink_USB_Vppon.cmd 78B
P&E_Multilink_USB_Postload.cmd 59B
P&E_Multilink_USB_Startup.cmd 59B
P&E_Multilink_USB_Vppoff.cmd 77B
P&E_Multilink_USB_Erase_unsecure_hcs12xe.cmd 1KB
P&E_Multilink_USB_Reset.cmd 60B
P&E_Multilink_USB_Preload.cmd 60B
P&E_Multilink_USB.hwc 0B
Default.mem 161B
VehicleControl_Data
Standard
ObjectCode
main.c.o 8KB
MC9S12XEP100.c.o 406KB
XEP100.c.o 114KB
datapage.c.o 14KB
Start12.c.o 6KB
TargetDataWindows.tdt 1.52MB
CWSettingsWindows.stg 4KB
C_Layout.hwl 1KB
prm
Project.prm 16KB
burner.bbl 10KB
Sources
main_asm.h 282B
Global
GlobalDef.h 249B
TypeDef.h 632B
derivative.h 264B
main.c 1KB
XEP100.h 417B
Start12.c 23KB
datapage.c 68KB
XEP100.c 10KB
VCU_H
bin
P&E_Multilink_USB.abs 379KB
P&E_Multilink_USB.abs.s19 480B
Project.abs 483KB
Project.abs.glo 4KB
P&E_Multilink_USB.map 232KB
Project.xpr 255B
Project.abs.s19 4KB
P&E_Multilink_USB.abs.glo 488B
Project.map 250KB
cmd
P&E_Multilink_USB_Vppon.cmd 78B
P&E_Multilink_USB_Postload.cmd 59B
P&E_Multilink_USB_Startup.cmd 59B
P&E_Multilink_USB_Vppoff.cmd 77B
P&E_Multilink_USB_Erase_unsecure_hcs12xe.cmd 1KB
P&E_Multilink_USB_Reset.cmd 60B
P&E_Multilink_USB_Preload.cmd 60B
P&E_Multilink_USB.hwc 0B
Default.mem 161B
VehicleControl_Data
Standard
ObjectCode
main.c.o 8KB
MC9S12XEP100.c.o 406KB
XEP100.c.o 114KB
datapage.c.o 14KB
Start12.c.o 6KB
TargetDataWindows.tdt 1.52MB
CWSettingsWindows.stg 4KB
C_Layout.hwl 1KB
prm
Project.prm 16KB
burner.bbl 10KB
Sources
main_asm.h 282B
Global
GlobalDef.h 249B
TypeDef.h 632B
derivative.h 264B
main.c 1KB
XEP100.h 417B
Start12.c 23KB
datapage.c 68KB
XEP100.c 10KB
VehicleControl.mcp 60KB
P&E_Multilink_USB.ini 3KB
VehicleControl.mcp 60KB
P&E_Multilink_USB.ini 3KB
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