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*
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******************************************************************************/
/*****************************************************************************/
/**
* @file xbram.h
*
* If ECC is not enabled, this driver exists only to allow the tools to
* create a memory test application and to populate xparameters.h with memory
* range constants. In this case there is no source code.
*
* If ECC is enabled, this file contains the software API definition of the
* Xilinx BRAM Interface Controller (XBram) device driver.
*
* The Xilinx BRAM controller is a soft IP core designed for Xilinx
* FPGAs and contains the following general features:
* - LMB v2.0 bus interfaces with byte enable support
* - Used in conjunction with bram_block peripheral to provide fast BRAM
* memory solution for MicroBlaze ILMB and DLMB ports
* - Supports byte, half-word, and word transfers
* - Supports optional BRAM error correction and detection.
*
* The driver provides interrupt management functions. Implementation of
* interrupt handlers is left to the user. Refer to the provided interrupt
* example in the examples directory for details.
*
* This driver is intended to be RTOS and processor independent. Any needs for
* dynamic memory management, threads or thread mutual exclusion, virtual
* memory, or cache control must be satisfied by the layer above this driver.
*
* Initialization & Configuration
*
* The XBram_Config structure is used by the driver to configure
* itself. This configuration structure is typically created by the tool-chain
* based on HW build properties.
*
* To support multiple runtime loading and initialization strategies employed
* by various operating systems, the driver instance can be initialized as
* follows:
*
* - XBram_CfgInitialize(InstancePtr, CfgPtr, EffectiveAddr) -
* Uses a configuration structure provided by the caller. If running in a
* system with address translation, the provided virtual memory base address
* replaces the physical address present in the configuration structure.
*
* @note
*
* This API utilizes 32 bit I/O to the BRAM registers. With less
* than 32 bits, the unused bits from registers are read as zero and written as
* don't cares.
*
*
* MODIFICATION HISTORY:
*
* Ver Who Date Changes
* ----- ---- -------- -----------------------------------------------
* 3.00a sa 05/11/10 Added ECC support
* 3.01a sa 01/13/12 Changed Selftest API from
* XBram_SelfTest(XBram *InstancePtr) to
* XBram_SelfTest(XBram *InstancePtr, u8 IntMask) and
* fixed a problem with interrupt generation for CR 639274
* Modified Selftest example to return XST_SUCCESS when
* ECC is not enabled and return XST_FAILURE when ECC is
* enabled and Control Base Address is zero (CR 636581)
* Modified Selftest to use correct CorrectableCounterBits
* for CR 635655
* Updated to check CorrectableFailingDataRegs in the case
* of LMB BRAM.
* Added CorrectableFailingDataRegs and
* UncorrectableFailingDataRegs to the config structure to
* distinguish between AXI BRAM and LMB BRAM.
* These registers are not present in the current version of
* the AXI BRAM Controller.
* 3.02a sa 04/16/12 Added test of byte and halfword read-modify-write
* 3.02a sa 04/16/12 Modified driver tcl to sort the address parameters
* to support both xps and vivado designs.
* 3.02a adk 24/4/13 Modified the tcl file to avoid warnings
* when ecc is disabled cr:705002.
* 3.03a bss 05/22/13 Added Xil_DCacheFlushRange in xbram_selftest.c to
* flush the Cache after writing to BRAM in InjectErrors
* API(CR #719011)
* 4.0 adk 19/12/13 Updated as per the New Tcl API's
*
*****************************************************************************/
#ifndef XBRAM_H /* prevent circular inclusions */
#define XBRAM_H /* by using protection macros */
#ifdef __cplusplus
extern "C" {
#endif
/***************************** Include Files ********************************/
#include "xil_types.h"
#include "xil_assert.h"
#include "xstatus.h"
#include "xbram_hw.h"
/************************** Constant Definitions ****************************/
/**************************** Type Definitions ******************************/
/**
* This typedef contains configuration information for the device.
*/
typedef struct {
u16 DeviceId; /**< Unique ID of device */
u32 DataWidth; /**< BRAM data width */
int EccPresent; /**< Is ECC supported in H/W */
int FaultInjectionPresent; /**< Is Fault Injection
* supported in H/W */
int CorrectableFailingRegisters; /**< Is Correctable Failing Registers
* supported in H/W */
int CorrectableFailingDataRegs; /**< Is Correctable Failing Data
* Registers supported in H/W */
int UncorrectableFailingRegisters; /**< Is Un-correctable Failing
* Registers supported in H/W */
int UncorrectableFailingDataRegs; /**< Is Un-correctable Failing Data
* Registers supported in H/W */
int EccStatusInterruptPresent; /**< Are ECC status and interrupts
* supported in H/W */
int CorrectableCounterBits; /**< Number of bits in the
* Correctable Error Counter */
int EccOnOffRegister; /**< Is ECC on/off register supported
* in h/w */
int EccOnOffResetValue; /**< Reset value of the ECC on/off
* register in h/w */
int WriteAccess; /**< Is write access enabled in
* h/w */
u32 MemBaseAddress; /**< Device memory base address */
u32 MemHighAddress; /**< Device memory high address */
u32 CtrlBaseAddress; /**< Device register base address.*/
u32 CtrlHighAddress; /**< Device register base address.*/
} XBram_Config;
/**
* The XBram driver instance data. The user is required to
* allocate a variable of this type for every BRAM device in the
* system. A pointer to a variable of this type is then passed to the driver
* API functions.
*/
typedef struct {
XBram_Config Config; /* BRAM config structure */
u32 IsReady; /* Device is initialized and ready */
} XBram;
/***************** Macros (Inline Functions) Definitions ********************/
/************************** Function Prototypes *****************************/
/*
* Functions in xbram_sinit.c
*/
XBram_Config *XBram_LookupConfig(u16 DeviceId);
/*
* Functions implemented in xbram.c
*/
int XBram_CfgInitialize(XBram *InstancePtr, XBram_Config *Config,
u32 EffectiveAddr);
/*
* Functions implemented in xbram_selftest.c
*/
int XBram_SelfTest(XBram *InstancePtr, u8 IntMask);
/*
* Functions implemented in xbram_intr.c
*/
void XBram_InterruptEnable(XBram *InstancePtr, u32 Mask);
void XBram_InterruptDisable(XBram *InstancePtr, u32 Mask);
void XBram_InterruptClear(XBram *InstancePtr, u32 Mask);
u32 XBram_InterruptGetEnabled(XBram *InstancePtr);
u32 XBram_InterruptGetStatus(XBram *InstancePtr);
#ifdef __cplusplus
}
#endif
#endif /* end of protection macro */