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//==========================================================================

//

//        dram_test.c

//

//        eCos generic DRAM test code

//

//==========================================================================

//####ECOSGPLCOPYRIGHTBEGIN####

// -------------------------------------------

// This file is part of eCos, the Embedded Configurable Operating System.

// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.

//

// eCos 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

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//

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// 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 eCos; if not, write to the Free Software Foundation, Inc.,

// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.

//

// As a special exception, if other files instantiate templates or use macros

// or inline functions from this file, or you compile this file and link it

// with other works to produce a work based on this file, this file does not

// by itself cause the resulting work to be covered by the GNU General Public

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// -------------------------------------------

//####ECOSGPLCOPYRIGHTEND####

//==========================================================================

//#####DESCRIPTIONBEGIN####

//

// Author(s):     gthomas

// Contributors:  gthomas

// Date:          1999-10-22

// Description:   Tool used to test DRAM on eval boards

//####DESCRIPTIONEND####

#include <pkgconf/system.h>

#include <cyg/infra/testcase.h>

#ifdef CYGPKG_KERNEL

#include <pkgconf/kernel.h>   // Configuration header

#ifdef CYGFUN_KERNEL_API_C

#include <cyg/kernel/kapi.h>

#include <cyg/infra/diag.h>

#include <cyg/hal/hal_arch.h>

#include CYGHWR_MEMORY_LAYOUT_H  // Memory layout

#ifndef FALSE

#define FALSE 0

#define TRUE  1

#endif

#define STACK_SIZE CYGNUM_HAL_STACK_SIZE_MINIMUM

static char stack[STACK_SIZE];

static cyg_thread thread_data;

static cyg_handle_t thread_handle;

extern char __bss_end;

int total_errors;

int run_errors;

int error_count;

#define MAX_ERRORS   5

#define NUM_RUNS     4

#define REFRESH_TIME 5

int decay_time[] = { 50, 100, 200, 500, 1000 };

#define NUM_DECAY sizeof(decay_time)/sizeof(decay_time[0])

// FUNCTIONS

static void

new_test(void)

{

    error_count = 0;

}

static void

report_error(void *addr, cyg_uint32 actual, cyg_uint32 expected)

{

    total_errors++;

    run_errors++;

    if (++error_count > MAX_ERRORS) return;

    diag_printf("   0x%08x: expected - 0x%08x, actual - 0x%08x\n",

                addr, expected, actual);

}

// Fill longwords with their own address and verify

static void

addr_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    new_test();

    diag_printf("-- Address test\n");

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)mp;

    }

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)mp) {

            report_error(mp, *mp, (cyg_uint32)mp);

        }

    }

}

// Fill longwords with zeros

static void

zeros_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    new_test();

    diag_printf("-- Zeros test\n");

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)0;

    }

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)0) {

            report_error(mp, *mp, (cyg_uint32)0);

        }

    }

}

// Fill longwords with all ones

static void

ones_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    new_test();

    diag_printf("-- Ones test\n");

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)0xFFFFFFFF;

    }

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)0xFFFFFFFF) {

            report_error(mp, *mp, (cyg_uint32)0xFFFFFFFF);

        }

    }

}

// Fill longwords with a "walking" bit

static void

walking_bit_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    cyg_uint32 bit;

    new_test();

    diag_printf("-- Walking test\n");

    bit = 1;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)bit;

        bit <<= 1;

        if (bit == 0) bit = 1;

    }

    bit = 1;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)bit) {

            report_error(mp, *mp, (cyg_uint32)bit);

        }

        bit <<= 1;

        if (bit == 0) bit = 1;

    }

}

// Fill longwords with an alternating pattern

static void

pattern_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    cyg_uint32 pat;

    new_test();

    diag_printf("-- Pattern test\n");

    pat = 0x55555555;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)pat;

    }

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)pat) {

            report_error(mp, *mp, (cyg_uint32)pat);

        }

    }

    pat = 0xAAAAAAAA;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)pat;

    }

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)pat) {

            report_error(mp, *mp, (cyg_uint32)pat);

        }

    }

}

// Verify if refresh works

static void

refresh_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    cyg_uint32 pat;

    new_test();

    diag_printf("-- Refresh test\n");

    pat = 0x55555555;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)pat;

    }

    cyg_thread_delay(REFRESH_TIME*100);

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)pat) {

            report_error(mp, *mp, (cyg_uint32)pat);

        }

    }

    pat = 0xAAAAAAAA;

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        *mp = (cyg_uint32)pat;

    }

    cyg_thread_delay(REFRESH_TIME*100);

    for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

        if (*mp != (cyg_uint32)pat) {

            report_error(mp, *mp, (cyg_uint32)pat);

        }

    }

}

// See how long we can "sleep" before refresh fails

static void

decay_test(cyg_uint32 start, cyg_uint32 end)

{

    cyg_uint32 *mp;

    cyg_uint32 pat;

    int i;

    diag_printf("-- Decay test\n");

    for (i = 0;  i < NUM_DECAY;  i++) {

        diag_printf("    ... %d.%02d sec delay\n", decay_time[i]/100, decay_time[i]%100);

        new_test();

        pat = 0x55555555;

        for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

            *mp = (cyg_uint32)pat;

        }

        cyg_thread_delay(decay_time[i]);

        for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

            if (*mp != (cyg_uint32)pat) {

                report_error(mp, *mp, (cyg_uint32)pat);

            }

        }

        pat = 0xAAAAAAAA;

        for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

            *mp = (cyg_uint32)pat;

        }

        cyg_thread_delay(decay_time[i]);

        for (mp = (cyg_uint32 *)start;  mp < (cyg_uint32 *)end;  mp++) {

            if (*mp != (cyg_uint32)pat) {

                report_error(mp, *mp, (cyg_uint32)pat);

            }

        }

        diag_printf("    ... %d errors\n", error_count);

    }

}

static void

dram_exercise(cyg_addrword_t p)

{

    cyg_uint32 start_DRAM, end_DRAM;

    int i;

    CYG_TEST_INIT();

    end_DRAM = CYGMEM_REGION_ram+CYGMEM_REGION_ram_SIZE;

    start_DRAM = ((cyg_uint32)&__bss_end + 0x00000FFF) & 0xFFFFF000;

    diag_printf("DRAM test - start: 0x%08x, end: 0x%08x\n", start_DRAM, end_DRAM);

    for (i = 0;  i < NUM_RUNS;  i++) {

        diag_printf("\n*** Start run #%d of %d\n", i+1, NUM_RUNS);

        run_errors = 0;

        addr_test(start_DRAM, end_DRAM);

        ones_test(start_DRAM, end_DRAM);

        zeros_test(start_DRAM, end_DRAM);

        walking_bit_test(start_DRAM, end_DRAM);

        pattern_test(start_DRAM, end_DRAM);

        refresh_test(start_DRAM, end_DRAM);

        decay_test(start_DRAM, end_DRAM);

        diag_printf("\n*** End run, %d errors, %d total errors\n", run_errors, total_errors);

    }

    CYG_TEST_PASS_FINISH("DRAM testing complete");

}

externC void

cyg_start( void )

{

    // Create a main thread, so we can run the scheduler and have time 'pass'

    cyg_thread_create(10,                // Priority - just a number

                      dram_exercise,     // entry

                      0,                 // entry parameter

                      "DRAM test",       // Name

                      &stack[0],         // Stack

                      STACK_SIZE,        // Size

                      &thread_handle,    // Handle

                      &thread_data       // Thread data structure

            );

    cyg_thread_resume(thread_handle);  // Start it

    cyg_scheduler_start();

} // cyg_package_start()

#else /* def CYGFUN_KERNEL_API_C */

# define NA_MSG "Kernel C API layer disabled"

#endif

#else /* def CYGPKG_KERNEL */

# define NA_MSG "No kernel"

#endif

#ifdef NA_MSG

externC void

cyg_start( void )

{

    CYG_TEST_INIT();

    CYG_TEST_NA(NA_MSG);

}

#endif