📄 xutil_memtest.c
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/* $Id: xutil_memtest.c,v 1.9 2005/01/04 18:12:29 moleres Exp $ *//******************************************************************************** XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS"* AS A COURTESY TO YOU, SOLELY FOR USE IN DEVELOPING PROGRAMS AND* SOLUTIONS FOR XILINX DEVICES. BY PROVIDING THIS DESIGN, CODE,* OR INFORMATION AS ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE,* APPLICATION OR STANDARD, XILINX IS MAKING NO REPRESENTATION* THAT THIS IMPLEMENTATION IS FREE FROM ANY CLAIMS OF INFRINGEMENT,* AND YOU ARE RESPONSIBLE FOR OBTAINING ANY RIGHTS YOU MAY REQUIRE* FOR YOUR IMPLEMENTATION. XILINX EXPRESSLY DISCLAIMS ANY* WARRANTY WHATSOEVER WITH RESPECT TO THE ADEQUACY OF THE* IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OR* REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM CLAIMS OF* INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS* FOR A PARTICULAR PURPOSE.** (c) Copyright 2002 Xilinx Inc.* All rights reserved.*******************************************************************************//*****************************************************************************//**** @file xutil_memtest.c** Contains the memory test utility functions.** <pre>* MODIFICATION HISTORY:** Ver Who Date Changes* ----- ---- -------- -----------------------------------------------* 1.00a ecm 11/01/01 First release* 1.00a xd 11/03/04 Improved support for doxygen.* </pre>******************************************************************************//***************************** Include Files ********************************/#include "xbasic_types.h"#include "xstatus.h"#include "xutil.h"/************************** Constant Definitions ****************************//************************** Function Prototypes *****************************/static Xuint32 RotateLeft(Xuint32 Input, Xuint8 Width);/* define ROTATE_RIGHT to give access to this functionality *//* #define ROTATE_RIGHT */#ifdef ROTATE_RIGHTstatic Xuint32 RotateRight(Xuint32 Input, Xuint8 Width);#endif /* ROTATE_RIGHT*//*****************************************************************************//**** Performs a destructive 32-bit wide memory test.** @param Addr is a pointer to the region of memory to be tested.* @param Words is the length of the block.* @param Pattern is the constant used for the constant pattern test, if 0,* 0xDEADBEEF is used.* @param Subtest is the test selected. See xutil.h for possible values.** @return** - XST_MEMTEST_FAILED is returned for a failure* - XST_SUCCESS is returned for a pass** @note** Used for spaces where the address range of the region is smaller than* the data width. If the memory range is greater than 2 ** width,* the patterns used in XUT_WALKONES and XUT_WALKZEROS will repeat on a* boundry of a power of two making it more difficult to detect addressing* errors. The XUT_INCREMENT and XUT_INVERSEADDR tests suffer the same* problem. Ideally, if large blocks of memory are to be tested, break* them up into smaller regions of memory to allow the test patterns used* not to repeat over the region tested.******************************************************************************/XStatus XUtil_MemoryTest32(Xuint32 *Addr,Xuint32 Words,Xuint32 Pattern, Xuint8 Subtest){ Xuint32 i; Xuint32 j; Xuint32 Val = XUT_MEMTEST_INIT_VALUE; Xuint32 FirstVal = XUT_MEMTEST_INIT_VALUE; Xuint32 Word; XASSERT_NONVOID(Words != 0); XASSERT_NONVOID(Subtest <= XUT_MAXTEST); /* * Select the proper Subtest */ switch (Subtest) { case XUT_ALLMEMTESTS: /* this case executes all of the Subtests */ /* fall through case statement */ case XUT_INCREMENT: { /* * Fill the memory with incrementing * values starting from 'FirstVal' */ for (i = 0L; i < Words; i++) { Addr[i] = Val; /* write memory location */ Val++; } /* * Restore the reference 'Val' to the * initial value */ Val = FirstVal; /* * Check every word within the Words * of tested memory and compare it * with the incrementing reference * Val */ for (i = 0L; i < Words; i++) { Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } Val++; } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 1 */ /* fall through case statement */ case XUT_WALKONES: { /* * set up to cycle through all possible initial * test Patterns for walking ones test */ for (j = 0L; j < 32; j++) { /* * Generate an initial value for walking ones test to test for bad * data bits */ Val = 1 << j; /* * START walking ones test * Write a one to each data bit indifferent locations */ for (i = 0L; i < 32; i++) { /* write memory location */ Addr[i] = Val; Val = (Xuint32) RotateLeft(Val, 32); } /* * Restore the reference 'Val' to the * initial value */ Val = 1 << j; /* Read the values from each location that was written */ for (i = 0L; i < 32; i++) { /* read memory location */ Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } Val = (Xuint32) RotateLeft(Val, 32); } } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 2 */ /* fall through case statement */ case XUT_WALKZEROS: { /* * set up to cycle through all possible * initial test Patterns for walking zeros test */ for (j = 0L; j < 32; j++) { /* * Generate an initial value for walking ones test to test for * bad data bits */ Val = ~(1 << j); /* * START walking zeros test * Write a one to each data bit indifferent locations */ for (i = 0L; i < 32; i++) { /* write memory location */ Addr[i] = Val; Val = ~((Xuint32) RotateLeft(~Val, 32)); } /* * Restore the reference 'Val' to the * initial value */ Val = ~(1 << j); /* Read the values from each location that was written */ for (i = 0L; i < 32; i++) { /* read memory location */ Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } Val = ~((Xuint32) RotateLeft(~Val, 32)); } } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 3 */ /* fall through case statement */ case XUT_INVERSEADDR: { /* Fill the memory with inverse of address */ for (i = 0L; i < Words; i++) { /* write memory location */ Val = (Xuint32) (~((Xuint32)(&Addr[i]))); Addr[i] = Val; } /* * Check every word within the Words * of tested memory */ for (i = 0L; i < Words; i++) { /* Read the location */ Word = Addr[i]; Val = (Xuint32) (~((Xuint32)(&Addr[i]))); if ((Word ^ Val) != 0x00000000) { return XST_MEMTEST_FAILED; } } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 4 */ /* fall through case statement */ case XUT_FIXEDPATTERN: { /* * Generate an initial value for * memory testing */ if (Pattern == 0) { Val = 0xDEADBEEF; } else { Val = Pattern; } /* * Fill the memory with fixed pattern */ for (i = 0L; i < Words; i++) { /* write memory location */ Addr[i] = Val; } /* * Check every word within the Words * of tested memory and compare it * with the fixed pattern */ for (i = 0L; i < Words; i++) { /* read memory location */ Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 5 */ /* this break is for the prior fall through case statements */ break ; default: { return XST_MEMTEST_FAILED; } } /* end of switch */ /* Successfully passed memory test ! */ return XST_SUCCESS;}/*****************************************************************************//**** Performs a destructive 16-bit wide memory test.** @param Addr is a pointer to the region of memory to be tested.* @param Words is the length of the block.* @param Pattern is the constant used for the constant pattern test, if 0,* 0xDEADBEEF is used.* @param Subtest is the test selected. See xutil.h for possible values.** @return** - XST_MEMTEST_FAILED is returned for a failure* - XST_SUCCESS is returned for a pass** @note** Used for spaces where the address range of the region is smaller than* the data width. If the memory range is greater than 2 ** width,* the patterns used in XUT_WALKONES and XUT_WALKZEROS will repeat on a* boundry of a power of two making it more difficult to detect addressing* errors. The XUT_INCREMENT and XUT_INVERSEADDR tests suffer the same* problem. Ideally, if large blocks of memory are to be tested, break* them up into smaller regions of memory to allow the test patterns used* not to repeat over the region tested.******************************************************************************/XStatus XUtil_MemoryTest16(Xuint16 *Addr,Xuint32 Words, Xuint16 Pattern, Xuint8 Subtest){ Xuint32 i; Xuint32 j; Xuint16 Val= XUT_MEMTEST_INIT_VALUE; Xuint16 FirstVal= XUT_MEMTEST_INIT_VALUE; Xuint16 Word; XASSERT_NONVOID(Words != 0); XASSERT_NONVOID(Subtest <= XUT_MAXTEST); /* * selectthe proper Subtest(s) */ switch (Subtest) { case XUT_ALLMEMTESTS: /* this case executes all of the Subtests */ /* fall through case statement */ case XUT_INCREMENT: { /* * Fill the memory with incrementing * values starting from 'FirstVal' */ for (i = 0L; i < Words; i++) { /* write memory location */ Addr[i] = Val; Val++; } /* * Restore the reference 'Val' to the * initial value */ Val = FirstVal; /* * Check every word within the Words * of tested memory and compare it * with the incrementing reference * Val */ for (i = 0L; i < Words; i++) { /* read memory location */ Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } Val++; } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 1 */ /* fall through case statement */ case XUT_WALKONES: { /* * set up to cycle through all possible initial test * Patterns for walking ones test */ for (j = 0L; j < 16; j++) { /* * Generate an initial value for walking ones test to test for bad * data bits */ Val = 1 << j; /* * START walking ones test * Write a one to each data bit indifferent locations */ for (i = 0L; i < 16; i++) { /* write memory location */ Addr[i] = Val; Val = (Xuint16) RotateLeft(Val, 16); } /* * Restore the reference 'Val' to the * initial value */ Val = 1 << j; /* Read the values from each location that was written */ for (i = 0L; i < 16; i++) { /* read memory location */ Word = Addr[i]; if (Word != Val) { return XST_MEMTEST_FAILED; } Val = (Xuint16) RotateLeft(Val, 16); } } if (Subtest != XUT_ALLMEMTESTS) { return XST_SUCCESS; } } /* end of case 2 */ /* fall through case statement */ case XUT_WALKZEROS: { /* * set up to cycle through all possible initial * test Patterns for walking zeros test */ for (j = 0L; j < 16; j++) { /* * Generate an initial value for walking ones * test to test for bad * data bits */ Val = ~(1 << j); /* * START walking zeros test * Write a one to each data bit indifferent locations */ for (i = 0L; i < 16; i++) { /* write memory location */ Addr[i] = Val; Val = ~((Xuint16) RotateLeft(~Val, 16)); } /* * Restore the reference 'Val' to the⌨️ 快捷键说明
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