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/**
 * @file tms570_selftest_par_can.c
 *
 * @ingroup tms570
 *
 * @brief Test MibSPI module parity based protection logic to work.
 */
/*
 * Copyright (c) 2016 Pavel Pisa <pisa@cmp.felk.cvut.cz>
 *
 * Czech Technical University in Prague
 * Zikova 1903/4
 * 166 36 Praha 6
 * Czech Republic
 *
 * The license and distribution terms for this file may be
 * found in the file LICENSE in this distribution or at
 * http://www.rtems.org/license/LICENSE.
 *
 * Algorithms are based on Ti manuals and Ti HalCoGen generated
 * code.
 */

#include <stdint.h>
#include <stddef.h>
#include <bsp/tms570.h>
#include "tms570_selftest.h"
#include "tms570_selftest_parity.h"

/**
 * @brief run test to check that parity protection works for MibSPI modules RAM
 *
 * @param[in] desc module registers addresses end ESM channels descriptor
 *
 * @return Void, in the case of error invokes bsp_selftest_fail_notification()
 *
 * The descriptor provides address of the module registers and address
 * of internal RAM memory and corresponding parity area test access window.
 */
void tms570_selftest_par_check_mibspi( const tms570_selftest_par_desc_t *desc )
{
  volatile uint32_t      test_read_data;
  volatile tms570_spi_t *spi_regs = (volatile tms570_spi_t *) desc->fnc_data;
  uint32_t               mibspie_bak;
  uint32_t               uerrctl_bak;
  int                    perr;
  int                    wait_timeout = 10000;

  /* wait for MibSPI RAM to complete initialization */
  while ( ( spi_regs->FLG & TMS570_SPI_FLG_BUFINITACTIVE ) ==
          TMS570_SPI_FLG_BUFINITACTIVE ) {
    if ( !wait_timeout-- ) {
      bsp_selftest_fail_notification( desc->fail_code );
    }
  }

  /* Store previous configuration of MibSPI */
  mibspie_bak = spi_regs->MIBSPIE;
  uerrctl_bak = spi_regs->UERRCTRL;

  /* enable multi-buffered mode */
  spi_regs->MIBSPIE = TMS570_SPI_MIBSPIE_MSPIENA;

  /* enable parity error detection */
  spi_regs->UERRCTRL = TMS570_SPI_UERRCTRL_EDEN_SET( spi_regs->UERRCTRL,
                                                    TMS570_SELFTEST_PAR_CR_KEY );

  /* enable parity test mode */
  spi_regs->UERRCTRL |= TMS570_SPI_UERRCTRL_PTESTEN;

  /* flip parity bit */
  *desc->par_loc ^= desc->par_xor;

  /* disable parity TEST mode */
  spi_regs->UERRCTRL &= ~TMS570_SPI_UERRCTRL_PTESTEN;

  /* read to cause parity error */
  test_read_data = *desc->ram_loc;
  (void) test_read_data;

  /* check if ESM channel is flagged */
  perr = tms570_esm_channel_sr_get( desc->esm_prim_grp, desc->esm_prim_chan );

  if ( !perr ) {
    /* RAM parity error was not flagged to ESM. */
    bsp_selftest_fail_notification( desc->fail_code );
  } else {
    /* clear parity error flags */
    spi_regs->UERRSTAT = TMS570_SPI_UERRSTAT_EDFLG1 |
                         TMS570_SPI_UERRSTAT_EDFLG0;

    /* clear ESM flag */
    tms570_esm_channel_sr_clear( desc->esm_prim_grp, desc->esm_prim_chan );

    /* enable parity test mode */
    spi_regs->UERRCTRL |= TMS570_SPI_UERRCTRL_PTESTEN;

    /* Revert back to correct data by flipping parity location */
    *desc->par_loc ^= desc->par_xor;
  }

  /* Restore MIBSPI control registers */
  spi_regs->UERRCTRL = uerrctl_bak;
  spi_regs->MIBSPIE = mibspie_bak;
}