rt-thread/bsp/fujitsu/mb9x/mb9bf568r/CMSIS/DeviceSupport/system_mb9abxxx.c

241 lines
8.9 KiB
C

/*******************************************************************************
* Copyright (C) 2013 Spansion LLC. All Rights Reserved.
*
* This software is owned and published by:
* Spansion LLC, 915 DeGuigne Dr. Sunnyvale, CA 94088-3453 ("Spansion").
*
* BY DOWNLOADING, INSTALLING OR USING THIS SOFTWARE, YOU AGREE TO BE BOUND
* BY ALL THE TERMS AND CONDITIONS OF THIS AGREEMENT.
*
* This software contains source code for use with Spansion
* components. This software is licensed by Spansion to be adapted only
* for use in systems utilizing Spansion components. Spansion shall not be
* responsible for misuse or illegal use of this software for devices not
* supported herein. Spansion is providing this software "AS IS" and will
* not be responsible for issues arising from incorrect user implementation
* of the software.
*
* SPANSION MAKES NO WARRANTY, EXPRESS OR IMPLIED, ARISING BY LAW OR OTHERWISE,
* REGARDING THE SOFTWARE (INCLUDING ANY ACOOMPANYING WRITTEN MATERIALS),
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* WITHOUT LIMITATION, THE IMPLIED WARRANTY OF MERCHANTABILITY, THE IMPLIED
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*
* This software may be replicated in part or whole for the licensed use,
* with the restriction that this Disclaimer and Copyright notice must be
* included with each copy of this software, whether used in part or whole,
* at all times.
*/
/**
******************************************************************************
** \file system_mb9abxxx.c
**
** FM3 system initialization functions
** All adjustments can be done in belonging header file.
**
** History:
** 2013-01-21 0.1 MWi AI: Unification to be done
** 2013-01-23 0.2 MWi mcu.h inclusion changed to pdl.h
** 2013-06-28 0.3 EH Added Trace Buffer enable
******************************************************************************/
#include "mcu.h"
/**
******************************************************************************
** System Clock Frequency (Core Clock) Variable according CMSIS
******************************************************************************/
uint32_t SystemCoreClock = __HCLK;
/**
******************************************************************************
** \brief Update the System Core Clock with current core Clock retrieved from
** cpu registers.
** \param none
** \return none
******************************************************************************/
void SystemCoreClockUpdate (void) {
uint32_t masterClk;
uint32_t u32RegisterRead; // Workaround variable for MISRA C rule conformance
switch ((FM4_CRG->SCM_CTL >> 5U) & 0x07U) {
case 0u: /* internal High-speed Cr osc. */
masterClk = __CLKHC;
break;
case 1u: /* external main osc. */
masterClk = __CLKMO;
break;
case 2u: /* PLL clock */
// Workaround for preventing MISRA C:1998 Rule 46 (MISRA C:2004 Rule 12.2)
// violation:
// "Unordered accesses to a volatile location"
u32RegisterRead = (__CLKMO * (((uint32_t)(FM4_CRG->PLL_CTL2) & 0x3Fu) + 1u));
masterClk = (u32RegisterRead / ((((uint32_t)(FM4_CRG->PLL_CTL1) >> 4ul) & 0x0Fu) + 1u));
break;
case 4u: /* internal Low-speed CR osc. */
masterClk = __CLKLC;
break;
case 5u: /* external Sub osc. */
masterClk = __CLKSO;
break;
default:
masterClk = 0ul;
break;
}
switch (FM4_CRG->BSC_PSR & 0x07u) {
case 0u:
SystemCoreClock = masterClk;
break;
case 1u:
SystemCoreClock = masterClk / 2u;
break;
case 2u:
SystemCoreClock = masterClk / 3u;
break;
case 3u:
SystemCoreClock = masterClk / 4u;
break;
case 4u:
SystemCoreClock = masterClk / 6u;
break;
case 5u:
SystemCoreClock = masterClk /8u;
break;
case 6u:
SystemCoreClock = masterClk /16u;
break;
default:
SystemCoreClock = 0ul;
break;
}
}
/**
******************************************************************************
** \brief Setup the microcontroller system. Initialize the System and update
** the SystemCoreClock variable.
**
** \param none
** \return none
******************************************************************************/
void SystemInit (void) {
static uint8_t u8IoRegisterRead; // Workaround variable for MISRA C rule conformance
#if (HWWD_DISABLE) /* HW Watchdog Disable */
FM4_HWWDT->WDG_LCK = 0x1ACCE551u; /* HW Watchdog Unlock */
FM4_HWWDT->WDG_LCK = 0xE5331AAEu;
FM4_HWWDT->WDG_CTL = 0u; /* HW Watchdog stop */
#endif
#if (TRACE_BUFFER_ENABLE)
FM4_FLASH_IF->FBFCR = 0x01; /* Trace Buffer enable */
#endif
#if (CLOCK_SETUP) /* Clock Setup */
FM4_CRG->BSC_PSR = (uint8_t)BSC_PSR_Val; /* set System Clock presacaler */
FM4_CRG->APBC0_PSR = (uint8_t)APBC0_PSR_Val; /* set APB0 presacaler */
FM4_CRG->APBC1_PSR = (uint8_t)APBC1_PSR_Val; /* set APB1 presacaler */
FM4_CRG->APBC2_PSR = (uint8_t)APBC2_PSR_Val; /* set APB2 presacaler */
FM4_CRG->SWC_PSR = (uint8_t)(SWC_PSR_Val | (1ul << 7u)); /* set SW Watchdog presacaler */
FM4_CRG->TTC_PSR = (uint8_t)TTC_PSR_Val; /* set Trace Clock presacaler */
FM4_CRG->CSW_TMR = (uint8_t)CSW_TMR_Val; /* set oscillation stabilization wait time */
if (SCM_CTL_Val & (1ul << 1u)) { /* Main clock oscillator enabled ? */
FM4_CRG->SCM_CTL |= (uint8_t)(1ul << 1u); /* enable main oscillator */
while (!((FM4_CRG->SCM_STR) & (uint8_t)(1ul << 1u))) /* wait for Main clock oscillation stable */
{}
}
if (SCM_CTL_Val & (1UL << 3)) { /* Sub clock oscillator enabled ? */
// Initialize VBAT (Temporary process)
FM4_RTC->VDET = 0x00;
FM4_RTC->VBPFR = 0x1C;
FM4_RTC->CCB = 0x10;
FM4_RTC->CCS = 0x08;
// VB_CLK is less or equal to 1MHz (Temporary process)
FM4_RTC->VB_CLKDIV = 0x4E;
FM4_RTC->BOOST = 0x03;
// Enable SUB CLK oscilation (Temporary process)
FM4_RTC->WTOSCCNT_f.SOSCEX = 0;
FM4_RTC->WTOSCCNT_f.SOSCNTL = 1;
// Transmit to VBAT domain (Temporary process)
FM4_RTC->WTCR20_f.PWRITE = 1;
// Wait to complete transmission
while(0 != FM4_RTC->WTCR10_f.TRANS)
FM4_CRG->SCM_CTL |= (1UL << 3); /* enable sub oscillator */
while (!(FM4_CRG->SCM_STR & (1UL << 3))); /* wait for Sub clock oscillation stable */
}
FM4_CRG->PSW_TMR = (uint8_t)PSW_TMR_Val; /* set PLL stabilization wait time */
FM4_CRG->PLL_CTL1 = (uint8_t) PLL_CTL1_Val; /* set PLLM and PLLK */
FM4_CRG->PLL_CTL2 = (uint8_t)PLL_CTL2_Val; /* set PLLN */
if (SCM_CTL_Val & (uint8_t)(1ul << 4u)) { /* PLL enabled ? */
FM4_CRG->SCM_CTL |= (uint8_t)(1ul << 4u); /* enable PLL */
while (!(FM4_CRG->SCM_STR & (uint8_t)(1ul << 4u))) /* wait for PLL stable */
{}
}
FM4_CRG->SCM_CTL |= (uint8_t)(SCM_CTL_Val & 0xE0u); /* Set Master Clock switch */
// Workaround for preventing MISRA C:1998 Rule 46 (MISRA C:2004 Rule 12.2)
// violations:
// "Unordered reads and writes to or from same location" and
// "Unordered accesses to a volatile location"
do
{
u8IoRegisterRead = (FM4_CRG->SCM_CTL & 0xE0u);
}while ((FM4_CRG->SCM_STR & 0xE0u) != u8IoRegisterRead);
#endif // (CLOCK_SETUP)
#if (CR_TRIM_SETUP)
/* CR Trimming Data */
if( 0x000003FFu != (FM4_FLASH_IF->CRTRMM & 0x000003FFu) )
{
/* UnLock (MCR_FTRM) */
FM4_CRTRIM->MCR_RLR = (uint32_t)0x1ACCE554u;
/* Set MCR_FTRM */
FM4_CRTRIM->MCR_FTRM = (uint16_t)FM4_FLASH_IF->CRTRMM;
/* Lock (MCR_FTRM) */
FM4_CRTRIM->MCR_RLR = (uint32_t)0x00000000u;
}
#endif // (CR_TRIM_SETUP)
}