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384 lines
15 KiB
C
384 lines
15 KiB
C
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/* SPDX-License-Identifier: BSD-3-Clause */
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/**********************************************************************
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* Copyright (C) 2012-2019 Cadence Design Systems, Inc.
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**********************************************************************
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* WARNING: This file is auto-generated using api-generator utility.
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* api-generator: 12.02.13bb8d5
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* Do not edit it manually.
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**********************************************************************
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* Cadence Core Driver for LPDDR4.
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**********************************************************************
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*/
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#ifndef LPDDR4_OBJ_IF_H
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#define LPDDR4_OBJ_IF_H
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#include "lpddr4_if.h"
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/** @defgroup DriverObject Driver API Object
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* API listing for the driver. The API is contained in the object as
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* function pointers in the object structure. As the actual functions
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* resides in the Driver Object, the client software must first use the
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* global GetInstance function to obtain the Driver Object Pointer.
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* The actual APIs then can be invoked using obj->(api_name)() syntax.
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* These functions are defined in the header file of the core driver
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* and utilized by the API.
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* @{
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*/
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/**********************************************************************
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* API methods
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**********************************************************************/
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typedef struct lpddr4_obj_s
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{
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/**
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* Checks configuration object.
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* @param[in] config Driver/hardware configuration required.
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* @param[out] configSize Size of memory allocations required.
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* @return CDN_EOK on success (requirements structure filled).
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* @return ENOTSUP if configuration cannot be supported due to driver/hardware constraints.
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*/
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uint32_t (*probe)(const lpddr4_config* config, uint16_t* configsize);
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/**
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* Init function to be called after LPDDR4_probe() to set up the
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* driver configuration. Memory should be allocated for drv_data
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* (using the size determined using LPDDR4_probe) before calling
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* this API. init_settings should be initialised with base addresses
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* for PHY Indepenent Module, Controller and PHY before calling this
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* function. If callbacks are required for interrupt handling, these
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* should also be configured in init_settings.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] cfg Specifies driver/hardware configuration.
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* @return CDN_EOK on success
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* @return EINVAL if illegal/inconsistent values in cfg.
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* @return ENOTSUP if hardware has an inconsistent configuration or doesn't support feature(s) required by 'config' parameters.
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*/
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uint32_t (*init)(lpddr4_privatedata* pd, const lpddr4_config* cfg);
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/**
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* Start the driver.
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* @param[in] pD Driver state info specific to this instance.
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*/
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uint32_t (*start)(const lpddr4_privatedata* pd);
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/**
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* Read a register from the controller, PHY or PHY Independent Module
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] cpp Indicates whether controller, PHY or PHY Independent Module register
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* @param[in] regOffset Register offset
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* @param[out] regValue Register value read
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* @return CDN_EOK on success.
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* @return EINVAL if regOffset if out of range or regValue is NULL
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*/
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uint32_t (*readreg)(const lpddr4_privatedata* pd, lpddr4_regblock cpp, uint32_t regoffset, uint32_t* regvalue);
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/**
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* Write a register in the controller, PHY or PHY Independent Module
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] cpp Indicates whether controller, PHY or PHY Independent Module register
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* @param[in] regOffset Register offset
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* @param[in] regValue Register value to be written
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* @return CDN_EOK on success.
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* @return EINVAL if regOffset is out of range or regValue is NULL
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*/
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uint32_t (*writereg)(const lpddr4_privatedata* pd, lpddr4_regblock cpp, uint32_t regoffset, uint32_t regvalue);
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/**
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* Read a memory mode register from DRAM
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] readModeRegVal Value to set in 'read_modereg' parameter.
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* @param[out] mmrValue Value which is read from memory mode register(mmr) for all devices.
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* @param[out] mmrStatus Status of mode register read(mrr) instruction.
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* @return CDN_EOK on success.
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* @return EINVAL if regNumber is out of range or regValue is NULL
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*/
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uint32_t (*getmmrregister)(const lpddr4_privatedata* pd, uint32_t readmoderegval, uint64_t* mmrvalue, uint8_t* mmrstatus);
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/**
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* Write a memory mode register in DRAM
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] writeModeRegVal Value to set in 'write_modereg' parameter.
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* @param[out] mrwStatus Status of mode register write(mrw) instruction.
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* @return CDN_EOK on success.
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* @return EINVAL if regNumber is out of range or regValue is NULL
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*/
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uint32_t (*setmmrregister)(const lpddr4_privatedata* pd, uint32_t writemoderegval, uint8_t* mrwstatus);
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/**
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* Write a set of initialisation values to the controller registers
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] regValues Register values to be written
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*writectlconfig)(const lpddr4_privatedata* pd, const lpddr4_reginitdata* regvalues);
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/**
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* Write a set of initialisation values to the PHY registers
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] regValues Register values to be written
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*writephyconfig)(const lpddr4_privatedata* pd, const lpddr4_reginitdata* regvalues);
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/**
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* Write a set of initialisation values to the PHY Independent Module
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* registers
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] regValues Register values to be written
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*writephyindepconfig)(const lpddr4_privatedata* pd, const lpddr4_reginitdata* regvalues);
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/**
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* Read values of the controller registers in bulk (Set
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* 'updateCtlReg' to read) and store in memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] regValues Register values which are read
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*readctlconfig)(const lpddr4_privatedata* pd, lpddr4_reginitdata* regvalues);
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/**
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* Read the values of the PHY module registers in bulk (Set
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* 'updatePhyReg' to read) and store in memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] regValues Register values which are read
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*readphyconfig)(const lpddr4_privatedata* pd, lpddr4_reginitdata* regvalues);
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/**
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* Read the values of the PHY Independent module registers in
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* bulk(Set 'updatePhyIndepReg' to read) and store in memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] regValues Register values which are read
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* @return CDN_EOK on success.
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* @return EINVAL if regValues is NULL
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*/
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uint32_t (*readphyindepconfig)(const lpddr4_privatedata* pd, lpddr4_reginitdata* regvalues);
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/**
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* Read the current interrupt mask for the controller
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] mask Value of interrupt mask
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* @return CDN_EOK on success.
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* @return EINVAL if mask pointer is NULL
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*/
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uint32_t (*getctlinterruptmask)(const lpddr4_privatedata* pd, uint64_t* mask);
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/**
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* Sets the interrupt mask for the controller
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] mask Value of interrupt mask to be written
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* @return CDN_EOK on success.
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* @return EINVAL if mask pointer is NULL
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*/
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uint32_t (*setctlinterruptmask)(const lpddr4_privatedata* pd, const uint64_t* mask);
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/**
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* Check whether a specific controller interrupt is active
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] intr Interrupt to be checked
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* @param[out] irqStatus Status of the interrupt, TRUE if active
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* @return CDN_EOK on success.
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* @return EINVAL if intr is not valid
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*/
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uint32_t (*checkctlinterrupt)(const lpddr4_privatedata* pd, lpddr4_ctlinterrupt intr, bool* irqstatus);
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/**
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* Acknowledge a specific controller interrupt
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] intr Interrupt to be acknowledged
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* @return CDN_EOK on success.
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* @return EINVAL if intr is not valid
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*/
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uint32_t (*ackctlinterrupt)(const lpddr4_privatedata* pd, lpddr4_ctlinterrupt intr);
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/**
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* Read the current interrupt mask for the PHY Independent Module
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] mask Value of interrupt mask
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* @return CDN_EOK on success.
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* @return EINVAL if mask pointer is NULL
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*/
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uint32_t (*getphyindepinterruptmask)(const lpddr4_privatedata* pd, uint32_t* mask);
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/**
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* Sets the interrupt mask for the PHY Independent Module
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] mask Value of interrupt mask to be written
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* @return CDN_EOK on success.
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* @return EINVAL if mask pointer is NULL
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*/
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uint32_t (*setphyindepinterruptmask)(const lpddr4_privatedata* pd, const uint32_t* mask);
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/**
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* Check whether a specific PHY Independent Module interrupt is
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* active
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] intr Interrupt to be checked
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* @param[out] irqStatus Status of the interrupt, TRUE if active
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* @return CDN_EOK on success.
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* @return EINVAL if intr is not valid
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*/
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uint32_t (*checkphyindepinterrupt)(const lpddr4_privatedata* pd, lpddr4_phyindepinterrupt intr, bool* irqstatus);
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/**
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* Acknowledge a specific PHY Independent Module interrupt
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] intr Interrupt to be acknowledged
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* @return CDN_EOK on success.
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* @return EINVAL if intr is not valid
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*/
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uint32_t (*ackphyindepinterrupt)(const lpddr4_privatedata* pd, lpddr4_phyindepinterrupt intr);
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/**
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* Retrieve status information after a failed init. The
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* DebugStructInfo will be filled in with error codes which can be
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* referenced against the driver documentation for further details.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] debugInfo status
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* @return CDN_EOK on success.
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* @return EINVAL if debugInfo is NULL
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*/
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uint32_t (*getdebuginitinfo)(const lpddr4_privatedata* pd, lpddr4_debuginfo* debuginfo);
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/**
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* Get the current value of Low power Interface wake up time.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] lpiWakeUpParam LPI timing parameter
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* @param[in] fspNum Frequency copy
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* @param[out] cycles Timing value(in cycles)
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* @return CDN_EOK on success.
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* @return EINVAL if powerMode is NULL
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*/
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uint32_t (*getlpiwakeuptime)(const lpddr4_privatedata* pd, const lpddr4_lpiwakeupparam* lpiwakeupparam, const lpddr4_ctlfspnum* fspnum, uint32_t* cycles);
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/**
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* Set the current value of Low power Interface wake up time.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] lpiWakeUpParam LPI timing parameter
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* @param[in] fspNum Frequency copy
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* @param[in] cycles Timing value(in cycles)
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* @return CDN_EOK on success.
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* @return EINVAL if powerMode is NULL
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*/
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uint32_t (*setlpiwakeuptime)(const lpddr4_privatedata* pd, const lpddr4_lpiwakeupparam* lpiwakeupparam, const lpddr4_ctlfspnum* fspnum, const uint32_t* cycles);
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/**
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* Get the current value for ECC auto correction
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] eccParam ECC parameter setting
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* @return CDN_EOK on success.
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* @return EINVAL if on_off is NULL
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*/
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uint32_t (*geteccenable)(const lpddr4_privatedata* pd, lpddr4_eccenable* eccparam);
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/**
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* Set the value for ECC auto correction. This API must be called
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* before startup of memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] eccParam ECC control parameter setting
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* @return CDN_EOK on success.
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* @return EINVAL if on_off is NULL
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*/
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uint32_t (*seteccenable)(const lpddr4_privatedata* pd, const lpddr4_eccenable* eccparam);
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/**
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* Get the current value for the Half Datapath option
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] mode Half Datapath setting
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* @return CDN_EOK on success.
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* @return EINVAL if mode is NULL
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*/
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uint32_t (*getreducmode)(const lpddr4_privatedata* pd, lpddr4_reducmode* mode);
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/**
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* Set the value for the Half Datapath option. This API must be
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* called before startup of memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] mode Half Datapath setting
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* @return CDN_EOK on success.
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* @return EINVAL if mode is NULL
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*/
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uint32_t (*setreducmode)(const lpddr4_privatedata* pd, const lpddr4_reducmode* mode);
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/**
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* Get the current value for Data Bus Inversion setting. This will
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* be compared with the current DRAM setting using the MR3
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* register.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] on_off DBI read value
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* @return CDN_EOK on success.
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* @return EINVAL if on_off is NULL
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*/
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uint32_t (*getdbireadmode)(const lpddr4_privatedata* pd, bool* on_off);
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/**
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* Get the current value for Data Bus Inversion setting. This will
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* be compared with the current DRAM setting using the MR3
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* register.
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* @param[in] pD Driver state info specific to this instance.
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* @param[out] on_off DBI write value
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* @return CDN_EOK on success.
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* @return EINVAL if on_off is NULL
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*/
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uint32_t (*getdbiwritemode)(const lpddr4_privatedata* pd, bool* on_off);
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/**
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* Set the mode for Data Bus Inversion. This will also be set in DRAM
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* using the MR3 controller register. This API must be called
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* before startup of memory.
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] mode status
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* @return CDN_EOK on success.
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* @return EINVAL if mode is NULL
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*/
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uint32_t (*setdbimode)(const lpddr4_privatedata* pd, const lpddr4_dbimode* mode);
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/**
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* Get the current value for the refresh rate (reading Refresh per
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* command timing).
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] fspNum Frequency set number
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* @param[out] cycles Refresh rate (in cycles)
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* @return CDN_EOK on success.
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* @return EINVAL if rate is NULL
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*/
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uint32_t (*getrefreshrate)(const lpddr4_privatedata* pd, const lpddr4_ctlfspnum* fspnum, uint32_t* cycles);
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/**
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* Set the refresh rate (writing Refresh per command timing).
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] fspNum Frequency set number
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* @param[in] cycles Refresh rate (in cycles)
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* @return CDN_EOK on success.
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* @return EINVAL if rate is NULL
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*/
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uint32_t (*setrefreshrate)(const lpddr4_privatedata* pd, const lpddr4_ctlfspnum* fspnum, const uint32_t* cycles);
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/**
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* Handle Refreshing per chip select
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* @param[in] pD Driver state info specific to this instance.
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* @param[in] trefInterval status
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* @return CDN_EOK on success.
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* @return EINVAL if chipSelect is invalid
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*/
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uint32_t (*refreshperchipselect)(const lpddr4_privatedata* pd, const uint32_t trefinterval);
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} LPDDR4_OBJ;
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/**
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* In order to access the LPDDR4 APIs, the upper layer software must call
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||
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* this global function to obtain the pointer to the driver object.
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* @return LPDDR4_OBJ* Driver Object Pointer
|
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|
*/
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extern LPDDR4_OBJ *lpddr4_getinstance(void);
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#endif /* LPDDR4_OBJ_IF_H */
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