+++ /dev/null
-/*
- * Copyright (c) 2013 Qualcomm Atheros, Inc.
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted (subject to the limitations in the
- * disclaimer below) provided that the following conditions are met:
- *
- * * Redistributions of source code must retain the above copyright
- * notice, this list of conditions and the following disclaimer.
- *
- * * Redistributions in binary form must reproduce the above copyright
- * notice, this list of conditions and the following disclaimer in the
- * documentation and/or other materials provided with the
- * distribution.
- *
- * * Neither the name of Qualcomm Atheros nor the names of its
- * contributors may be used to endorse or promote products derived
- * from this software without specific prior written permission.
- *
- * NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE
- * GRANTED BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT
- * HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED
- * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
- * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
- * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
- * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
- * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
- * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
- * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
- * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
- * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
- * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- */
-#include "sys_cfg.h"
-#include "athos_api.h"
-
-#if SYSTEM_MODULE_SFLASH
-
-#include "reg_defs.h"
-#include "sflash_api.h"
-
-/*******************************************
- * Definitions of module internal constant *
- *******************************************/
-
-/* Definitions of base address and Flash sise -> Project dependent */
-#define ZM_SPI_REGISTER_BASE SPI_REG_BASE_ADDRESS /* 0x0005B000 */
-#define ZM_SPI_FLASH_BASE SPI_FLASH_BASE /* 0x0F000000 */
-#define ZM_SPI_FLASH_MAX_ADDR SPI_FLASH_MAX_ADDR /* 0x0FFFFFFF */
-#define ZM_SPI_FLASH_MAX_SIZE SPI_FLASH_MAX_SIZE /* 0x01000000 */
-
-/*
- * Base address of Clock and Reset Control Registers is 0x00050000
- * Offset of Clock Control Register is 0x40
- * SPI_SEL (bit 8) : Switch the function of I/O pin 19~22 between GPIO and SPI.
- * 0 -> act as GPIO5~8;
- * 1 -> act as SPI pins.
- */
-#define ZM_SPI_CLK_CTRL_ADDR 0x00050040
-#define ZM_SPI_SPI_SEL_BIT 0x100
-
-/* Definitions of Serial Flash constants -> According to standard or vendor dependent */
-#define ZM_SFLASH_PAGE_SIZE 256
-
-/* Definitions of OP Code -> According to standard or vendor dependent */
-#define ZM_SFLASH_OP_READ 0x03 /* Read Data Bytes */
-#define ZM_SFLASH_OP_FAST_READ 0x0B /* Read Data Bytes at Higher Speed */
-/*
- * For MXIC, sector erase : Command 0x20, size 4K bytes
- * block erase : Command 0xD8, size 64K bytes
- * chip earse : command 0x60 or 0xC7
- * For Spansion, sector erase : Command 0x20 or 0xD8, size 64K bytes (For 64 KB sector devices, either command is valid and performs the same function.)
- * block erase : Command 0xD8, size 256K bytes
- * chip earse : command 0x60 or 0xC7, Uniform 64 KB Sector Product (For 64 KB sector devices, either command is valid and performs the same function.)
- * 0xC7, Uniform 256 KB Sector Product
- */
-#define ZM_SFLASH_OP_SE 0x20 /* Sector Erase */
-#define ZM_SFLASH_OP_BE 0xD8 /* Block Erase */
-#define ZM_SFLASH_OP_CE 0xC7 /* Chip Erase */
-#define ZM_SFLASH_OP_PP 0x02 /* Page Program */
-#define ZM_SFLASH_OP_RDSR 0x05 /* Read from Status Register */
-#define ZM_SFLASH_OP_WRSR 0x01 /* Write to Status Register */
-#define ZM_SFLASH_OP_WREN 0x06 /* Write Enable */
-#define ZM_SFLASH_OP_WRDI 0x04 /* Write Disable */
-#define ZM_SFLASH_OP_RDID 0x9F /* Read Identification */
-#define ZM_SFLASH_OP_DP 0xB9 /* Deep Power Down */
-#define ZM_SFLASH_OP_RES 0xAB /* Release from Deep Power Down, Release from Deep Power Down and Read Electronic Signature */
-
-/* Definitions of Status Register -> According to standard or vendor dependent */
-/* Write in progress bit
- * 1 = Device Busy. A Write Status Register, program, or erase operation is in progress
- * 0 = Ready. Device is in standby mode and can accept commands.
- */
-#define ZM_SFLASH_STATUS_REG_WIP (1<<0)
-/* Write enable latch bit
- * 1 = Device accepts Write Status Register, program, or erase commands
- * 0 = Ignores Write Status Register, program, or erase commands
- */
-#define ZM_SFLASH_STATUS_REG_WEL (1<<1)
-/* Status register write disable bit
- * 1 = Protects when WP#/ACC is low
- * 0 = No protection, even when WP#/ACC is low
- */
-#define ZM_SFLASH_STATUS_REG_SRWD (1<<7)
-
-/* Definitions of SPI Flash Controller -> SPI Flash Controller dependent */
-/* SPI Flash Controller used in K2 project is part of Falcon's "Driver Support Logic" (DSL) block */
-/*
- * Offset Register
- * ====== ==========================================================
- * 0x0000 SPI control/status register (SPI_CS)
- * 0x0004 SPI address/opcode register (SPI_AO)
- * 0x0008 SPI data register (SPI_D)
- */
-
-/*
- * SPI control/status register (SPI_CS)
- * Access: R/W
- * Cold reset: (See field descriptions)
- * Warm reset: (Same as cold reset)
- * Notes:
- *
- * 3:0 - Transmit byte count. Determines the number of bytes
- * transmitted from Falcon to the SPI device. Values of 1-8 are
- * valid; other values are illegal. See the 'Notes' section below
- * for details on how to use this field. Resets to an undefined
- * value.
- * 7:4 - Receive byte count. Determines the number of bytes received
- * from the SPI device into Falcon. Values of 0-8 are valid;
- * other values are illegal. See the 'Notes' section below for
- * details on how to use this field. Resets to an undefined
- * value.
- * 8 - SPI transaction start. Only writes to this field are
- * meaningful; reads always return 0. Resets to 0x0. For writes:
- * * A write of '1' starts the SPI transaction defined by the
- * transmit byte count, receive byte count, SPI_AO, and SPI_D
- * registers.
- * * A write of '0' has no effect
- * 9 - SPI chip select 1 enable. Resets to 0x0. See bug 12540.
- * 0 - SP0 is enabled and SP1 is forced inactive.
- * 1 - SP1 is enabled and SP0 is forced inactive.
- * 15:10 - Reserved
- * 16 - Transaction busy indication. Read-only; writes to this bit are
- * ignored. Resets to 0x0.
- * 0 - No SPI transaction is ongoing. Software may start a new
- * SPI transaction by writing to the 'SPI transaction start'
- * bit within this register.
- * 1 - An SPI transaction presently is underway. Software must
- * not try to start a new SPI transaction, nor may software
- * alter the value of any field of the SPI_CS, SPI_AO, or
- * SPI_D registers.
- * 18:17 - Automatically-determined SPI address size. Read-only; writes
- * to this bit are ignored. Resets to an undefined value, but
- * then is updated after the autosizing process completes.
- * 0 - SPI address size was determined to be 16 bits
- * 1 - SPI address size was determined to be 24 bits
- * 2 - Reserved
- * 3 - Automatic SPI address size determination failed. Typical
- * causes of this result:
- * * The SPI device is missing
- * * The SPI device is unprogrammed
- * * The SPI device is programmed with an incorrect
- * SPI_MAGIC value
- * 20:19 - SPI autosize override. Resets to 0x0.
- * 0 - Use automatically-determined SPI address size (see bits
- * [18:17] of this register)
- * 1 - Force SPI address size to 16 bits
- * 2 - Force SPI address size to 24 bits
- * 3 - Reserved
- * 31:21 - Reserved
- */
-
-#define SPI_CS_ADDRESS MAGPIE_REG_SPI_CS_ADDR //(ZM_SPI_REGISTER_BASE + 0x00000000)
-/* 3:0 - Transmit byte count, values of 1-8 are valid */
-#define SPI_CS_TXBCNT_MSB 3
-#define SPI_CS_TXBCNT_LSB 0
-#define SPI_CS_TXBCNT_MASK 0x0000000f
-#define SPI_CS_TXBCNT_GET(x) (((x) & SPI_CS_TXBCNT_MASK) >> SPI_CS_TXBCNT_LSB)
-#define SPI_CS_TXBCNT_SET(x) (((0x0 | (x)) << SPI_CS_TXBCNT_LSB) & SPI_CS_TXBCNT_MASK)
-
-/* 7:4 - Receive byte count, values of 1-8 are valid */
-#define SPI_CS_RXBCNT_MSB 7
-#define SPI_CS_RXBCNT_LSB 4
-#define SPI_CS_RXBCNT_MASK 0x000000f0
-#define SPI_CS_RXBCNT_GET(x) (((x) & SPI_CS_RXBCNT_MASK) >> SPI_CS_RXBCNT_LSB)
-#define SPI_CS_RXBCNT_SET(x) (((0x0 | (x)) << SPI_CS_RXBCNT_LSB) & SPI_CS_RXBCNT_MASK)
-
-/* 8 - SPI transaction start */
-#define SPI_CS_XCNSTART_MSB 8
-#define SPI_CS_XCNSTART_LSB 8
-#define SPI_CS_XCNSTART_MASK 0x00000100
-#define SPI_CS_XCNSTART_GET(x) 0x0
-#define SPI_CS_XCNSTART_SET(x) (((0x0 | (x)) << SPI_CS_XCNSTART_LSB) & SPI_CS_XCNSTART_MASK)
-#define SPI_CS_XCNSTART_RESET 0x0
-
-/* 9 - SPI chip select */
-#define SPI_CS_CS_MSB 9
-#define SPI_CS_CS_LSB 9
-#define SPI_CS_CS_MASK 0x00000200
-#define SPI_CS_CS_GET(x) (((x) & SPI_CS_CS_MASK) >> SPI_CS_CS_LSB)
-#define SPI_CS_CS_SET(x) (((0x0 | (x)) << SPI_CS_CS_LSB) & SPI_CS_CS_MASK)
-#define SPI_CS_CS_RESET 0x0
-
-/* 16 - Transaction busy indication */
-#define SPI_CS_BUSY_MSB 16
-#define SPI_CS_BUSY_LSB 16
-#define SPI_CS_BUSY_MASK 0x00010000
-#define SPI_CS_BUSY_GET(x) (((x) & SPI_CS_BUSY_MASK) >> SPI_CS_BUSY_LSB)
-#define SPI_CS_BUSY_SET(x) (((0x0 | (x)) << SPI_CS_BUSY_LSB) & SPI_CS_BUSY_MASK)
-#define SPI_CS_BUSY_RESET 0x0
-
-/* 18:17 - Automatically-determined SPI address size */
-#define SPI_CS_AUTOSIZ_MSB 18
-#define SPI_CS_AUTOSIZ_LSB 17
-#define SPI_CS_AUTOSIZ_MASK 0x00060000
-#define SPI_CS_AUTOSIZ_GET(x) (((x) & SPI_CS_AUTOSIZ_MASK) >> SPI_CS_AUTOSIZ_LSB)
-#define SPI_CS_AUTOSIZ_SET(x) (((0x0 | (x)) << SPI_CS_AUTOSIZ_LSB) & SPI_CS_AUTOSIZ_MASK)
-
-/* 20:19 - SPI autosize override */
-#define SPI_CS_AUTOSIZ_OVR_MSB 20
-#define SPI_CS_AUTOSIZ_OVR_LSB 19
-#define SPI_CS_AUTOSIZ_OVR_MASK 0x00180000
-#define SPI_CS_AUTOSIZ_OVR_GET(x) (((x) & SPI_CS_AUTOSIZ_OVR_MASK) >> SPI_CS_AUTOSIZ_OVR_LSB)
-#define SPI_CS_AUTOSIZ_OVR_SET(x) (((0x0 | (x)) << SPI_CS_AUTOSIZ_OVR_LSB) & SPI_CS_AUTOSIZ_OVR_MASK)
-#define SPI_CS_AUTOSIZ_OVR_RESET 0x0
-
-#define SPI_CS_RESET (0x0 | \
- SPI_CS_AUTOSIZ_OVR_SET(SPI_CS_AUTOSIZ_OVR_RESET) | \
- SPI_CS_BUSY_SET(SPI_CS_BUSY_RESET) | \
- SPI_CS_CS_SET(SPI_CS_CS_RESET) | \
- SPI_CS_XCNSTART_SET(SPI_CS_XCNSTART_RESET))
-
-/*
- * SPI address/opcode register (SPI_AO)
- * Access: R/W
- * Cold reset: (See field descriptions)
- * Warm reset: (Same as cold reset)
- * Notes:
- *
- * 7:0 - SPI opcode. Usually this field specifies the 8-bit opcode
- * (aka "instruction") to transmit to the SPI device as the first
- * part of an SPI transaction. See the 'Notes' section below for
- * more details. Resets to an undefined value.
- * 31:8 - Address. Usually this field specifies the 24-bit address to
- * transmit to the SPI device. See the 'Notes' section below for
- * more details. Resets to an undefined value.
- */
-
-#define SPI_AO_ADDRESS MAGPIE_REG_SPI_AO_ADDR //(ZM_SPI_REGISTER_BASE + 0x00000004)
-/* 7:0 - SPI opcode */
-#define SPI_AO_OPC_MSB 7
-#define SPI_AO_OPC_LSB 0
-#define SPI_AO_OPC_MASK 0x000000ff
-#define SPI_AO_OPC_GET(x) (((x) & SPI_AO_OPC_MASK) >> SPI_AO_OPC_LSB)
-#define SPI_AO_OPC_SET(x) (((0x0 | (x)) << SPI_AO_OPC_LSB) & SPI_AO_OPC_MASK)
-/* 31:8 - Address */
-#define SPI_AO_ADDR_MSB 31
-#define SPI_AO_ADDR_LSB 8
-#define SPI_AO_ADDR_MASK 0xffffff00
-#define SPI_AO_ADDR_GET(x) (((x) & SPI_AO_ADDR_MASK) >> SPI_AO_ADDR_LSB)
-#define SPI_AO_ADDR_SET(x) (((0x0 | (x)) << SPI_AO_ADDR_LSB)& SPI_AO_ADDR_MASK)
-
-/*
- * SPI data register (SPI_D)
- * Access: R/W
- * Cold reset: (See field descriptions)
- * Warm reset: (Same as cold reset)
- * Notes:
- *
- * 31:0 - SPI data. Usually this register specifies a series of up to
- * four data bytes to transmit to or receive from the SPI device.
- * See the 'Notes' section below for more details. Resets to an
- * undefined value.
- */
-
-#define SPI_D_ADDRESS MAGPIE_REG_SPI_D_ADDR //(ZM_SPI_REGISTER_BASE + 0x00000008)
-/* 31:0 - SPI data */
-#define SPI_D_DATA_MSB 31
-#define SPI_D_DATA_LSB 0
-#define SPI_D_DATA_MASK 0xffffffff
-#define SPI_D_DATA_GET(x) (((x) & SPI_D_DATA_MASK) >> SPI_D_DATA_LSB)
-#define SPI_D_DATA_SET(x) (((0x0 | (x)) << SPI_D_DATA_LSB) & SPI_D_DATA_MASK)
-
-/*
- * SPI clock division register (SPI_CLKDIV)
- * Access: R/W
- * Cold reset: (See field descriptions)
- * Warm reset: (Same as cold reset)
- * Notes:
- *
- * 17:16 - 0b00(fastest), 0b01, 0b10, 0b11(slowest)
- */
-#define SPI_CLKDIV_ADDRESS MAGPIE_REG_SPI_CLKDIV_ADDR //SPI_BASE_ADDRESS + 0x0000001c
-#define SPI_CLKDIV_MSB 17
-#define SPI_CLKDIV_LSB 16
-#define SPI_CLKDIV_MASK 0x00030000
-#define SPI_CLKDIV_GET(x) (((x) & SPI_CLKDIV_MASK) >> SPI_CLKDIV_LSB)
-#define SPI_CLKDIV_SET(x) (((0x0 | (x)) << SPI_CLKDIV_LSB) & SPI_CLKDIV_MASK) // read-then-write
-#define SPI_CLKDIV_RESET 0x3
-
-/*
- * Notes
- * -----
- * * Background
- * An SPI transaction consists of three phases: an opcode transmit
- * phase (always a single byte), followed by an optional address
- * transmit phase of 0-3 bytes, followed by an optional data transmit
- * or receive phase of 0-4 bytes.
- *
- * Combined, then, an SPI transaction consists of a 1- to 8-byte
- * transmit phase from Falcon to the SPI device, followed by a 0- to
- * 8-byte receive phase from the SPI device into Falcon.
- *
- * The 'transmit byte count' field in the SPI_CS register controls the
- * size (number of bytes) of the transmit phase. The source of each
- * of the bytes transmitted is fixed:
- *
- * Byte Source
- * ---- -----------------------------------------------------------
- * 0 SPI_AO[7:0] (the 'SPI opcode' field)
- * 1 SPI_AO[31:24] (the high byte of the 'SPI address' field)
- * 2 SPI_AO[23:16] (the middle byte of the 'SPI address' field)
- * 3 SPI_AO[15:8] (the low byte of the 'SPI address' field)
- * 4 SPI_D[7:0] (the low byte of the 'SPI data' register)
- * 5 SPI_D[15:8] (the next byte of the 'SPI data' register)
- * 6 SPI_D[23:16] (the next byte of the 'SPI data' register)
- * 7 SPI_D[31:24] (the high byte of the 'SPI data' register)
- *
- *
- * The 'receive byte count' field in the SPI_CS register controls the
- * size (number of bytes) of the receive phase. The destination of
- * each of the bytes received is fixed:
- *
- * Byte Destination
- * ---- -----------------------------------------------------------
- * 0 SPI_D[7:0] (the low byte of the 'SPI data' register)
- * 1 SPI_D[15:8] (the next byte of the 'SPI data' register)
- * 2 SPI_D[23:16] (the next byte of the 'SPI data' register)
- * 3 SPI_D[31:24] (the high byte of the 'SPI data' register)
- * 4 SPI_AO[7:0] (the 'SPI opcode' field)
- * 5 SPI_AO[15:8] (the low byte of the 'SPI address' field)
- * 6 SPI_AO[23:16] (the middle byte of the 'SPI address' field)
- * 7 SPI_AO[31:24] (the high byte of the 'SPI address' field)
- *
- *
- * * To perform an SPI transaction:
- * Write the appropriate values into the SPI_AO and SPI_D registers
- * * Write the appropriate values into the 'transmit byte count' and
- * 'received byte count' fields of the SPI_CS register.
- * * Write a '1' to the 'SPI transaction start' bit of the SPI_CS
- * register (this step can be combined with the one above if desired
- * so that only a single SPI_CS write is needed).
- * * Poll the 'transaction busy indication' bit in the SPI_CS register
- * until it is clear, indicating that the SPI transaction has
- * completed.
- * * If the transaction included a receive phase, then retrieve the
- * received data by reading the appropriate bytes from the SPI_D and
- * SPI_AO registers.
- *
- *
- * * Examples:
- * * A "write disable" (WRDI) transaction:
- * * Opcode (SPI_AO[7:0]): 0x04 (for STMicro; varies by
- * manufacturer and device type)
- * * Address (SPI_AO[31:8]): don't care (not used)
- * * Data (SPI_D[31:0]): don't care (not used)
- * * Transmission byte count: 1
- * * Receive byte count: 0
- *
- * * A "read status register" (RDSR) transaction:
- * * Opcode (SPI_AO[7:0]): 0x05 (for STMicro; varies by
- * manufacturer and device type)
- * * Address (SPI_AO[31:8]): don't care (not used)
- * * Data (SPI_D[31:0]): don't care (not used)
- * * Transmission byte count: 1
- * * Receive byte count: 1
- * * Read SPI_D[7:0] to retrieve status register value
- *
- * * A "page program" (PP) transaction to write a value of 0xdeadbeef
- * to address 0x123456:
- * * Opcode (SPI_AO[7:0]): 0x02 (for STMicro; varies by
- * manufacturer and device type)
- * * Address (SPI_AO[31:8]): 0x123456
- * * Data (SPI_D[31:0]): 0xdeadbeef
- * * Transmission byte count: 8
- * * Receive byte count: 0
- */
-
-/* Wait till Transaction busy indication bit in SPI control/status register of Falcon's SPI Flash Controller is clear */
-LOCAL void
-_cmnos_sflash_WaitTillTransactionOver(void)
-{
- A_UINT32 poldata;
- A_UINT32 flg;
-
- do
- {
- poldata = HAL_WORD_REG_READ(SPI_CS_ADDRESS);
-
- flg = SPI_CS_BUSY_GET(poldata);
- } while (flg != 0x0);
-}
-
-/* Wait till Write In Progress bit in Status Register of Serial Flash is clear */
-LOCAL void
-_cmnos_sflash_WaitTillNotWriteInProcess(void)
-{
- A_UINT32 poldata;
- A_UINT32 flg;
-
- do
- {
- _cmnos_sflash_WaitTillTransactionOver();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(ZM_SFLASH_OP_RDSR) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(1) | SPI_CS_RXBCNT_SET(1) | SPI_CS_XCNSTART_SET(1) );
-
- _cmnos_sflash_WaitTillTransactionOver();
-
- poldata = HAL_WORD_REG_READ(SPI_D_ADDRESS);
- flg = poldata & ZM_SFLASH_STATUS_REG_WIP;
-
- } while (flg != 0x0);
-}
-
-/************************************************************************/
-/* Function to Send WREN(Write Enable) Operation */
-/************************************************************************/
-LOCAL void
-_cmnos_sflash_WriteEnable()
-{
- _cmnos_sflash_WaitTillNotWriteInProcess();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(ZM_SFLASH_OP_WREN) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(1) | SPI_CS_RXBCNT_SET(0) | SPI_CS_XCNSTART_SET(1) );
-
- _cmnos_sflash_WaitTillTransactionOver();
-}
-
-/************************************************************************/
-/* Function to In itialize SPI Flash Controller */
-/************************************************************************/
-LOCAL void
-cmnos_sflash_init(void)
-{
-#if defined(PROJECT_K2)
- /* Switch the function of I/O pin 19~22 to act as SPI pins */
- HAL_WORD_REG_WRITE( MAGPIE_REG_CLOCK_CTRL_ADDR, HAL_WORD_REG_READ(MAGPIE_REG_CLOCK_CTRL_ADDR)|BIT8 );
-#endif
-
- /* "Autosize-determination of the address size of serial flash" is obsolete according to Brian Yang's mail :
- * The designers reached an conclusion that the spi master (the apb_spi interface control) will be
- * modified as ¡§presuming the attached flash model to be 24-bit addressing¡¨, i.e., no more
- * auto-size detection!
- * Hence you are free to force the 24-bit addressing in the *.c test code.
- */
-
- /* Force SPI address size to 24 bits */
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_AUTOSIZ_OVR_SET(2) );
-}
-
-/************************************************************************/
-/* Function to Send Sector/Block/Chip Erase Operation */
-/************************************************************************/
-LOCAL void
-cmnos_sflash_erase(A_UINT32 erase_type, A_UINT32 addr)
-{
- A_UINT32 erase_opcode;
- A_UINT32 tx_len;
-
- if (erase_type == ZM_SFLASH_SECTOR_ERASE)
- {
- erase_opcode = ZM_SFLASH_OP_SE;
- tx_len = 4;
- }
- else if (erase_type == ZM_SFLASH_BLOCK_ERASE)
- {
- erase_opcode = ZM_SFLASH_OP_BE;
- tx_len = 4;
- }
- else
- {
- erase_opcode = ZM_SFLASH_OP_CE;
- tx_len = 1;
- }
-
- _cmnos_sflash_WriteEnable();
- _cmnos_sflash_WaitTillNotWriteInProcess();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(erase_opcode) | SPI_AO_ADDR_SET(addr) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(tx_len) | SPI_CS_RXBCNT_SET(0) | SPI_CS_XCNSTART_SET(1) );
-
-#if 0
- /* Do not wait(let it be completed in background) */
- _cmnos_sflash_WaitTillTransactionOver();
-#else
- /* Wait till completion */
- _cmnos_sflash_WaitTillNotWriteInProcess(); /* Chip Erase takes 80 - 200 seconds to complete */
-#endif
-}
-
-/************************************************************************/
-/* Function to Perform Page Program Operation */
-/* Notes: */
-/* Serial Flash has the following characteristics : */
-/* 1) In datasheet, 1-256 data bytes can be sent at a time, but */
-/* Falcon supports only 4 bytes at a time. */
-/* 2) If the eight least significant address bits(A7-A0) are not */
-/* all 0, all transmitted data which goes beyond the end of the */
-/* current page are programmed from the start address in the */
-/* same page. */
-/* This API hides the complexity of the above. */
-/************************************************************************/
-LOCAL void
-cmnos_sflash_program(A_UINT32 addr, A_UINT32 len, A_UINT8 *buf)
-{
- A_UINT32 s_addr, e_addr;
- A_UINT32 reminder, write_byte;
- A_UINT32 data_offset;
- A_UINT32 next_page_base;
- A_UINT32 t_word_data;
-
- e_addr = addr + len;
- for (s_addr = addr; s_addr < e_addr; )
- {
- next_page_base = (s_addr - s_addr%ZM_SFLASH_PAGE_SIZE) + ZM_SFLASH_PAGE_SIZE;
-
- reminder = e_addr - s_addr;
-
- write_byte = next_page_base - s_addr;
-
- if (write_byte >= 4)
- write_byte = 4;
-
- if (write_byte > reminder)
- write_byte = reminder;
-
- data_offset = s_addr - addr;
-
- A_MEMCPY(&t_word_data, buf + data_offset, write_byte);
-
- _cmnos_sflash_WriteEnable();
- _cmnos_sflash_WaitTillNotWriteInProcess();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(ZM_SFLASH_OP_PP) | SPI_AO_ADDR_SET(s_addr) );
- HAL_WORD_REG_WRITE( SPI_D_ADDRESS, SPI_D_DATA_SET(t_word_data) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(4 + write_byte) | SPI_CS_RXBCNT_SET(0) | SPI_CS_XCNSTART_SET(1) );
-
- _cmnos_sflash_WaitTillTransactionOver();
-
- s_addr += write_byte;
- }
-}
-
-/************************************************************************/
-/* Function to Send Read/Fast Read Data Operation */
-/************************************************************************/
-LOCAL void
-cmnos_sflash_read(A_UINT32 fast, A_UINT32 addr, A_UINT32 len, A_UINT8 *buf)
-{
- A_UINT32 read_opcode;
- A_UINT32 i;
- A_UINT32 read_cnt, remainder;
- A_UINT32 write_byte, read_byte;
-
- if (fast)
- {
- read_opcode = ZM_SFLASH_OP_FAST_READ;
- write_byte = 5;
- }
- else
- {
- read_opcode = ZM_SFLASH_OP_READ;
- write_byte = 4;
- }
-
- read_cnt = len/4;
- remainder = len%4;
- if (remainder)
- read_cnt++;
-
- read_byte = 4;
- for (i = 0; i < read_cnt; i ++)
- {
- if (i == read_cnt-1 && remainder)
- read_byte = remainder;
-
- _cmnos_sflash_WaitTillNotWriteInProcess();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(read_opcode) | SPI_AO_ADDR_SET(addr + i*4) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(write_byte) | SPI_CS_RXBCNT_SET(read_byte) | SPI_CS_XCNSTART_SET(1) );
-
- _cmnos_sflash_WaitTillTransactionOver();
-
- A_MEMCPY(buf + i*4, (A_UINT8 *)(SPI_D_ADDRESS), read_byte);
- }
-}
-
-/************************************************************************/
-/* Function to Read Flash Status Register */
-/************************************************************************/
-LOCAL A_UINT32
-cmnos_sflash_rdsr(void)
-{
- A_UINT32 word_data;
-
- _cmnos_sflash_WaitTillTransactionOver();
-
- HAL_WORD_REG_WRITE( SPI_AO_ADDRESS, SPI_AO_OPC_SET(ZM_SFLASH_OP_RDSR) );
- HAL_WORD_REG_WRITE( SPI_CS_ADDRESS, SPI_CS_TXBCNT_SET(1) | SPI_CS_RXBCNT_SET(1) | SPI_CS_XCNSTART_SET(1) );
-
- _cmnos_sflash_WaitTillTransactionOver();
-
- word_data = HAL_WORD_REG_READ(SPI_D_ADDRESS) & 0x000000FF;
-
- return word_data;
-}
-
-void
-cmnos_sflash_module_install(struct sflash_api *tbl)
-{
- /* Indispensable functions */
- tbl->_sflash_init = cmnos_sflash_init;
- tbl->_sflash_erase = cmnos_sflash_erase;
- tbl->_sflash_program = cmnos_sflash_program;
- tbl->_sflash_read = cmnos_sflash_read;
-
- /* Dispensable functions */
- tbl->_sflash_rdsr = cmnos_sflash_rdsr;
-}
-
-#endif /* SYSTEM_MODULE_SFLASH */
-