rt-thread/bsp/rm48x50/HALCoGen/source/sys_pmm.c

349 lines
11 KiB
C

/** @file sys_pmm.c
* @brief PCR Driver Implementation File
* @date 29.May.2013
* @version 03.05.02
*
*/
/* (c) Texas Instruments 2009-2013, All rights reserved. */
#include "sys_pmm.h"
/** @fn void pmmInit(void)
* @brief Initializes the PMM Driver
*
* This function initializes the PMM module.
*/
void pmmInit(void)
{
/*Disable clocks to all logic domains*/
pmmREG->PDCLKDISREG = 0xFU;
/*Enable or disable clock to pmctrl_wakeup block and automatic clock wake up*/
pmmREG->GLOBALCTRL1 = (0U << 8U) | (0U << 0U); /*from GUI*/
/*Power on the logic power domains*/
pmmREG->LOGICPDPWRCTRL0 = PMM_LOGICPDPWRCTRL0_CONFIGVALUE;
/*Power on the memory-only power domains*/
pmmREG->MEMPDPWRCTRL0 = PMM_MEMPDPWRCTRL0_CONFIGVALUE;
/*wait till Logic Power Domain PD2 turns ON*/
while((pmmREG->LOGICPDPWRSTAT[PMM_LOGICPD2] & PMM_LOGICPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
/*wait till Logic Power Domain PD3 turns ON*/
while((pmmREG->LOGICPDPWRSTAT[PMM_LOGICPD3] & PMM_LOGICPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
/*wait till Logic Power Domain PD4 turns OFF*/
while((pmmREG->LOGICPDPWRSTAT[PMM_LOGICPD4] & PMM_LOGICPDPWRSTAT_LOGICPDPWRSTAT) != 0U)
{
}/* Wait */
/*wait till Logic Power Domain PD5 turns ON*/
while((pmmREG->LOGICPDPWRSTAT[PMM_LOGICPD5] & PMM_LOGICPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
/*wait till Memory Only Power Domain RAM_PD1 turns ON*/
while((pmmREG->MEMPDPWRSTAT[PMM_MEMPD1] & PMM_MEMPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
/*wait till Memory Only Power Domain RAM_PD2 turns ON*/
while((pmmREG->MEMPDPWRSTAT[PMM_MEMPD2] & PMM_MEMPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
/*wait till Memory Only Power Domain RAM_PD3 turns ON*/
while((pmmREG->MEMPDPWRSTAT[PMM_MEMPD3] & PMM_MEMPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
if ((pmmREG->GLOBALCTRL1 & PMM_GLOBALCTRL1_AUTOCLKWAKEENA) == 0U)
{
/* Enable clocks for the selected logic domain */
pmmREG->PDCLKDISREG = PMM_PDCLKDISREG_CONFIGVALUE;
}
}
/** @fn void pmmTurnONLogicPowerDomain(pmm_LogicPD_t logicPD)
* @brief Turns on Logic Power Domain
* @param[in] logicPD - Power Domain to be turned on
* - PMM_LOGICPD2: Power domain PD2 will be turned on
* - PMM_LOGICPD3: Power domain PD3 will be turned on
* - PMM_LOGICPD4: Power domain PD4 will be turned on
* - PMM_LOGICPD5: Power domain PD5 will be turned on
*
* This function turns on the selected Logic Power Domain
*
*/
void pmmTurnONLogicPowerDomain(pmm_LogicPD_t logicPD)
{
if (logicPD != PMM_LOGICPD1)
{
/* Power on the domain */
if (logicPD == PMM_LOGICPD2)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xF0FFFFFFU) | (0x5U << 24U);
}
else if (logicPD == PMM_LOGICPD3)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFF0FFFFU) | (0x5U << 16U);
}
else if (logicPD == PMM_LOGICPD4)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFFFF0FFU) | (0x5U << 8U);
}
else
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFFFFFF0U) | (0x5U << 0U);
}
/* Wait until the power domain turns on */
while((pmmREG->LOGICPDPWRSTAT[logicPD] & PMM_LOGICPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
if ((pmmREG->GLOBALCTRL1 & PMM_GLOBALCTRL1_AUTOCLKWAKEENA) == 0U)
{
/* Enable clocks to the power domain */
pmmREG->PDCLKDISCLRREG = 1U << (uint32)logicPD;
}
}
}
/** @fn void pmmTurnONMemPowerDomain(pmm_MemPD_t memPD)
* @brief Turns on Memory Power Domain
* @param[in] memPD - Power Domain to be tured on
* - PMM_MEMPD1: Power domain RAM_PD1 will be turned on
* - PMM_MEMPD2: Power domain RAM_PD2 will be turned on
* - PMM_MEMPD3: Power domain RAM_PD3 will be turned on
*
* This function turns on the selected Memory Power Domain
*
*/
void pmmTurnONMemPowerDomain(pmm_MemPD_t memPD)
{
/* Power on the domain */
if (memPD == PMM_MEMPD1)
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xF0FFFFFFU) | (0x5U << 24U);
}
else if (memPD == PMM_MEMPD2)
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xFFF0FFFFU) | (0x5U << 16U);
}
else
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xFFFFF0FFU) | (0x5U << 8U);
}
/*Wait until the power domain turns on*/
while((pmmREG->MEMPDPWRSTAT[memPD] & PMM_MEMPDPWRSTAT_DOMAINON) == 0U)
{
}/* Wait */
}
/** @fn void pmmTurnOFFLogicPowerDomain(pmm_LogicPD_t logicPD)
* @brief Turns off Logic Power Domain
* @param[in] logicPD - Power Domain to be tured off
* - PMM_LOGICPD2: Power domain PD2 will be turned off
* - PMM_LOGICPD3: Power domain PD3 will be turned off
* - PMM_LOGICPD4: Power domain PD4 will be turned off
* - PMM_LOGICPD5: Power doamin PD5 will be turned off
*
* This function turns off the selected Logic Power Domain
*
*/
void pmmTurnOFFLogicPowerDomain(pmm_LogicPD_t logicPD)
{
if (logicPD != PMM_LOGICPD1)
{
/* Disable all clocks to the power domain */
pmmREG->PDCLKDISSETREG = 1U << (uint32)logicPD;
/* Power down the domain */
if (logicPD == PMM_LOGICPD2)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xF0FFFFFFU) | (0xAU << 24U);
}
else if (logicPD == PMM_LOGICPD3)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFF0FFFFU) | (0xAU << 16U);
}
else if (logicPD == PMM_LOGICPD4)
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFFFF0FFU) | (0xAU << 8U);
}
else
{
pmmREG->LOGICPDPWRCTRL0 = (pmmREG->LOGICPDPWRCTRL0 & 0xFFFFFFF0U) | (0xAU << 0U);
}
/* Wait until the power domain turns off */
while((pmmREG->LOGICPDPWRSTAT[logicPD] & PMM_LOGICPDPWRSTAT_LOGICPDPWRSTAT) != 0U)
{
}/* Wait */
}
}
/** @fn void pmmTurnOFFMemPowerDomain(pmm_MemPD_t memPD)
* @brief Turns off Memory Power Domain
* @param[in] memPD - Power Domain to be tured off
* - PMM_MEMPD1: Power domain RAM_PD1 will be turned off
* - PMM_MEMPD2: Power domain RAM_PD2 will be turned off
* - PMM_MEMPD3: Power domain RAM_PD3 will be turned off
*
* This function turns off the selected Memory Power Domain
*
*/
void pmmTurnOFFMemPowerDomain(pmm_MemPD_t memPD)
{
/* Power down the domain */
if (memPD == PMM_MEMPD1)
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xF0FFFFFFU) | (0xAU << 24U);
}
else if (memPD == PMM_MEMPD2)
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xFFF0FFFFU) | (0xAU << 16U);
}
else
{
pmmREG->MEMPDPWRCTRL0 = (pmmREG->MEMPDPWRCTRL0 & 0xFFFFF0FFU) | (0xAU << 8U);
}
/*Wait until the power domain turns off*/
while((pmmREG->MEMPDPWRSTAT[memPD] & PMM_MEMPDPWRSTAT_MEMPDPWRSTAT) != 0U)
{
}/* Wait */
}
/** @fn boolean pmmIsLogicPowerDomainActive(pmm_LogicPD_t logicPD)
* @brief Check if the power domain is active or not
* @param[in] logicPD - Power Domain to be be checked
* - PMM_LOGICPD2: Checks whether Power domain PD2 is active or not
* - PMM_LOGICPD3: Checks whether Power domain PD3 is active or not
* - PMM_LOGICPD4: Checks whether Power domain PD4 is active or not
* - PMM_LOGICPD5: Checks whether Power domain PD5 is active or not
* @return The function will return:
* - TRUE : When the selected power domain is in Active state.
* - FALSE: When the selected power domain is in OFF state.
*
* This function checks whether the selected power domain is active or not.
*
*/
boolean pmmIsLogicPowerDomainActive(pmm_LogicPD_t logicPD)
{
boolean status;
if ((pmmREG->LOGICPDPWRSTAT[logicPD] & PMM_LOGICPDPWRSTAT_DOMAINON) == 0U)
{
status = FALSE;
}
else
{
status = TRUE;
}
return status;
}
/** @fn boolean pmmIsMemPowerDomainActive(pmm_MemPD_t memPD)
* @brief Check if the power domain is active or not
* @param[in] memPD - Power Domain to be tured off
* - PMM_MEMPD1: Checks whether Power domain RAM_PD1 is active or not
* - PMM_MEMPD2: Checks whether Power domain RAM_PD2 is active or not
* - PMM_MEMPD3: Checks whether Power domain RAM_PD3 is active or not
* @return The function will return:
* - TRUE : When the selected power domain is in Active state.
* - FALSE: When the selected power domain is in OFF state.
*
* This function checks whether the selected power domain is active or not.
*
*/
boolean pmmIsMemPowerDomainActive(pmm_MemPD_t memPD)
{
boolean status;
if ((pmmREG->MEMPDPWRSTAT[memPD] & PMM_MEMPDPWRSTAT_DOMAINON) == 0U)
{
status = FALSE;
}
else
{
status = TRUE;
}
return status;
}
/** @fn void pmmGetConfigValue(pmm_config_reg_t *config_reg, config_value_type_t type)
* @brief Get the initial or current values of the configuration register
* @param[in] *config_reg - pointer to the struct to which the initial or current value of the configuration registers need to be stored
* @param[in] type - whether initial or current value of the configuration registers need to be stored
* - InitialValue: initial value of the configuration registers will be stored in the struct pointed by config_reg
* - CurrentValue: initial value of the configuration registers will be stored in the struct pointed by config_reg
* This function will copy the initial or current value (depending on the parameter 'type') of the configuration registers to the struct pointed by config_reg
*/
void pmmGetConfigValue(pmm_config_reg_t *config_reg, config_value_type_t type)
{
if (type == InitialValue)
{
config_reg->CONFIG_LOGICPDPWRCTRL0 = PMM_LOGICPDPWRCTRL0_CONFIGVALUE;
config_reg->CONFIG_MEMPDPWRCTRL0 = PMM_MEMPDPWRCTRL0_CONFIGVALUE;
config_reg->CONFIG_PDCLKDISREG = PMM_PDCLKDISREG_CONFIGVALUE;
config_reg->CONFIG_GLOBALCTRL1 = PMM_GLOBALCTRL1_CONFIGVALUE;
}
else
{
config_reg->CONFIG_LOGICPDPWRCTRL0 = pmmREG->LOGICPDPWRCTRL0;
config_reg->CONFIG_MEMPDPWRCTRL0 = pmmREG->MEMPDPWRCTRL0;
config_reg->CONFIG_PDCLKDISREG = pmmREG->PDCLKDISREG;
config_reg->CONFIG_GLOBALCTRL1 = pmmREG->GLOBALCTRL1;
}
}
/** @fn void pmmSetMode(pmm_Mode_t mode)
* @brief Set PSCON Compare Block Mode
* @param[in] mode - PSCON Compare Block mode
* - LockStep : PSCON compare block is set to Lock-Step mode
* - SelfTest : PSCON compare block is set to Self-Test mode
* - ErrorForcing : PSCON compare block is set to Error-Forcing mode
* - SelfTestErrorForcing : PSCON compare block is set to Self-Test-Error-Forcing mode
*
* This function sets the PSCON Compare block to the selected mode
*
*/
void pmmSetMode(pmm_Mode_t mode)
{
/* Set PSCON Compare Block Mode */
pmmREG->PRCKEYREG = mode;
}
/** @fn boolean pmmPerformSelfTest(void)
* @brief Perform self test and return the result
*
* @return The function will return
* - TRUE if PSCON compare block passed self-test
* - FALSE if PSCON compare block failed in self-test
*
* This function checks whether PSCON compare block passed the self-test or not.
*
*/
boolean pmmPerformSelfTest(void)
{
boolean status = TRUE;
/*Enter self-test mode*/
pmmREG->PRCKEYREG = SelfTest;
/*Wait till self test is completed*/
while ((pmmREG->LPDDCSTAT1 & 0xFU) != 0xFU)
{
}/* Wait */
while ((pmmREG->MPDDCSTAT1 & 0x7U) != 0x7U)
{
}/* Wait */
/*Check whether self-test passed or not*/
if ((pmmREG->LPDDCSTAT2 & 0xFU) != 0U)
{
status = FALSE;
}
if ((pmmREG->MPDDCSTAT2 & 0x7U) != 0U)
{
status = FALSE;
}
/*Enter lock-step mode*/
pmmREG->PRCKEYREG = LockStep;
return status;
}