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components/storage/blockdevice/COMPONENT_SPIF/SPIFBlockDevice.h
- Committer:
- kevman
- Date:
- 2019-03-13
- Revision:
- 2:7aab896b1a3b
File content as of revision 2:7aab896b1a3b:
/* mbed Microcontroller Library
* Copyright (c) 2018 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MBED_SPIF_BLOCK_DEVICE_H
#define MBED_SPIF_BLOCK_DEVICE_H
#include "SPI.h"
#include "DigitalOut.h"
#include "BlockDevice.h"
/** Enum spif standard error codes
*
* @enum spif_bd_error
*/
enum spif_bd_error {
SPIF_BD_ERROR_OK = 0, /*!< no error */
SPIF_BD_ERROR_DEVICE_ERROR = BD_ERROR_DEVICE_ERROR, /*!< device specific error -4001 */
SPIF_BD_ERROR_PARSING_FAILED = -4002, /* SFDP Parsing failed */
SPIF_BD_ERROR_READY_FAILED = -4003, /* Wait for Mem Ready failed */
SPIF_BD_ERROR_WREN_FAILED = -4004, /* Write Enable Failed */
SPIF_BD_ERROR_INVALID_ERASE_PARAMS = -4005, /* Erase command not on sector aligned addresses or exceeds device size */
};
#define SPIF_MAX_REGIONS 10
#define MAX_NUM_OF_ERASE_TYPES 4
/** BlockDevice for SFDP based flash devices over SPI bus
*
* @code
* // Here's an example using SPI flash device on K82F target
* #include "mbed.h"
* #include "SPIFBlockDevice.h"
*
* // Create flash device on SPI bus with PTE5 as chip select
* SPIFBlockDevice spif(PTE2, PTE4, PTE1, PTE5);
*
* int main() {
* printf("spif test\n");
*
* // Initialize the SPI flash device and print the memory layout
* spif.init();
* printf("spif size: %llu\n", spif.size());
* printf("spif read size: %llu\n", spif.get_read_size());
* printf("spif program size: %llu\n", spif.get_program_size());
* printf("spif erase size: %llu\n", spif.get_erase_size());
*
* // Write "Hello World!" to the first block
* char *buffer = (char*)malloc(spif.get_erase_size());
* sprintf(buffer, "Hello World!\n");
* spif.erase(0, spif.get_erase_size());
* spif.program(buffer, 0, spif.get_erase_size());
*
* // Read back what was stored
* spif.read(buffer, 0, spif.get_erase_size());
* printf("%s", buffer);
*
* // Deinitialize the device
* spif.deinit();
* }
* @endcode
*/
class SPIFBlockDevice : public BlockDevice {
public:
/** Creates a SPIFBlockDevice on a SPI bus specified by pins
*
* @param mosi SPI master out, slave in pin
* @param miso SPI master in, slave out pin
* @param sclk SPI clock pin
* @param csel SPI chip select pin
* @param freq Clock speed of the SPI bus (defaults to 40MHz)
*/
SPIFBlockDevice(PinName mosi, PinName miso, PinName sclk, PinName csel, int freq = 40000000);
/** Initialize a block device
*
* @return SPIF_BD_ERROR_OK(0) - success
* SPIF_BD_ERROR_DEVICE_ERROR - device driver transaction failed
* SPIF_BD_ERROR_READY_FAILED - Waiting for Memory ready failed or timedout
* SPIF_BD_ERROR_PARSING_FAILED - unexpected format or values in one of the SFDP tables
*/
virtual int init();
/** Deinitialize a block device
*
* @return SPIF_BD_ERROR_OK(0) - success
*/
virtual int deinit();
/** Desctruct SPIFBlockDevie
*/
~SPIFBlockDevice()
{
deinit();
}
/** Read blocks from a block device
*
* @param buffer Buffer to write blocks to
* @param addr Address of block to begin reading from
* @param size Size to read in bytes, must be a multiple of read block size
* @return SPIF_BD_ERROR_OK(0) - success
* SPIF_BD_ERROR_DEVICE_ERROR - device driver transaction failed
*/
virtual int read(void *buffer, bd_addr_t addr, bd_size_t size);
/** Program blocks to a block device
*
* The blocks must have been erased prior to being programmed
*
* @param buffer Buffer of data to write to blocks
* @param addr Address of block to begin writing to
* @param size Size to write in bytes, must be a multiple of program block size
* @return SPIF_BD_ERROR_OK(0) - success
* SPIF_BD_ERROR_DEVICE_ERROR - device driver transaction failed
* SPIF_BD_ERROR_READY_FAILED - Waiting for Memory ready failed or timed out
* SPIF_BD_ERROR_WREN_FAILED - Write Enable failed
*/
virtual int program(const void *buffer, bd_addr_t addr, bd_size_t size);
/** Erase blocks on a block device
*
* The state of an erased block is undefined until it has been programmed
*
* @param addr Address of block to begin erasing
* @param size Size to erase in bytes, must be a multiple of erase block size
* @return SPIF_BD_ERROR_OK(0) - success
* SPIF_BD_ERROR_DEVICE_ERROR - device driver transaction failed
* SPIF_BD_ERROR_READY_FAILED - Waiting for Memory ready failed or timed out
* SPIF_BD_ERROR_WREN_FAILED - Write Enable failed
* SPIF_BD_ERROR_INVALID_ERASE_PARAMS - Trying to erase unaligned address or size
*/
virtual int erase(bd_addr_t addr, bd_size_t size);
/** Get the size of a readable block
*
* @return Size of a readable block in bytes
*/
virtual bd_size_t get_read_size() const;
/** Get the size of a programable block
*
* @return Size of a programable block in bytes
* @note Must be a multiple of the read size
*/
virtual bd_size_t get_program_size() const;
/** Get the size of a eraseable block
*
* @return Size of a eraseable block in bytes
* @note Must be a multiple of the program size
*/
virtual bd_size_t get_erase_size() const;
/** Get the size of minimal eraseable sector size of given address
*
* @param addr Any address within block queried for erase sector size (can be any address within flash size offset)
* @return Size of minimal erase sector size, in given address region, in bytes
* @note Must be a multiple of the program size
*/
virtual bd_size_t get_erase_size(bd_addr_t addr);
/** Get the value of storage byte after it was erased
*
* If get_erase_value returns a non-negative byte value, the underlying
* storage is set to that value when erased, and storage containing
* that value can be programmed without another erase.
*
* @return The value of storage when erased, or -1 if you can't
* rely on the value of erased storage
*/
virtual int get_erase_value() const;
/** Get the total size of the underlying device
*
* @return Size of the underlying device in bytes
*/
virtual bd_size_t size() const;
private:
// Internal functions
/****************************************/
/* SFDP Detection and Parsing Functions */
/****************************************/
// Parse SFDP Headers and retrieve Basic Param and Sector Map Tables (if exist)
int _sfdp_parse_sfdp_headers(uint32_t &basic_table_addr, size_t &basic_table_size,
uint32_t §or_map_table_addr, size_t §or_map_table_size);
// Parse and Detect required Basic Parameters from Table
int _sfdp_parse_basic_param_table(uint32_t basic_table_addr, size_t basic_table_size);
// Parse and read information required by Regions Secotr Map
int _sfdp_parse_sector_map_table(uint32_t sector_map_table_addr, size_t sector_map_table_size);
// Detect fastest read Bus mode supported by device
int _sfdp_detect_best_bus_read_mode(uint8_t *basic_param_table_ptr, int basic_param_table_size, int &read_inst);
// Set Page size for program
unsigned int _sfdp_detect_page_size(uint8_t *basic_param_table_ptr, int basic_param_table_size);
// Detect all supported erase types
int _sfdp_detect_erase_types_inst_and_size(uint8_t *basic_param_table_ptr, int basic_param_table_size,
int &erase4k_inst,
int *erase_type_inst_arr, unsigned int *erase_type_size_arr);
/***********************/
/* Utilities Functions */
/***********************/
// Find the region to which the given offset belong to
int _utils_find_addr_region(bd_size_t offset);
// Iterate on all supported Erase Types of the Region to which the offset belong to.
// Iterates from highest type to lowest
int _utils_iterate_next_largest_erase_type(uint8_t &bitfield, int size, int offset, int boundry);
/********************************/
/* Calls to SPI Driver APIs */
/********************************/
// Send Program => Write command to Driver
spif_bd_error _spi_send_program_command(int prog_inst, const void *buffer, bd_addr_t addr, bd_size_t size);
// Send Read command to Driver
//spif_bd_error _spi_send_read_command(uint8_t read_inst, void *buffer, bd_addr_t addr, bd_size_t size);
spif_bd_error _spi_send_read_command(int read_inst, uint8_t *buffer, bd_addr_t addr, bd_size_t size);
// Send Erase Instruction using command_transfer command to Driver
spif_bd_error _spi_send_erase_command(int erase_inst, bd_addr_t addr, bd_size_t size);
// Send Generic command_transfer command to Driver
spif_bd_error _spi_send_general_command(int instruction, bd_addr_t addr, char *tx_buffer,
size_t tx_length, char *rx_buffer, size_t rx_length);
// Send set_frequency command to Driver
spif_bd_error _spi_set_frequency(int freq);
/********************************/
// Soft Reset Flash Memory
int _reset_flash_mem();
// Configure Write Enable in Status Register
int _set_write_enable();
// Wait on status register until write not-in-progress
bool _is_mem_ready();
private:
// Master side hardware
mbed::SPI _spi;
// Enable CS control (low/high) for SPI driver operatios
mbed::DigitalOut _cs;
// Mutex is used to protect Flash device for some SPI Driver commands that must be done sequentially with no other commands in between
// e.g. (1)Set Write Enable, (2)Program, (3)Wait Memory Ready
static SingletonPtr<PlatformMutex> _mutex;
// Command Instructions
int _read_instruction;
int _prog_instruction;
int _erase_instruction;
int _erase4k_inst; // Legacy 4K erase instruction (default 0x20h)
// Up To 4 Erase Types are supported by SFDP (each with its own command Instruction and Size)
int _erase_type_inst_arr[MAX_NUM_OF_ERASE_TYPES];
unsigned int _erase_type_size_arr[MAX_NUM_OF_ERASE_TYPES];
// Sector Regions Map
int _regions_count; //number of regions
int _region_size_bytes[SPIF_MAX_REGIONS]; //regions size in bytes
bd_size_t _region_high_boundary[SPIF_MAX_REGIONS]; //region high address offset boundary
//Each Region can support a bit combination of any of the 4 Erase Types
uint8_t _region_erase_types_bitfield[SPIF_MAX_REGIONS];
unsigned int _min_common_erase_size; // minimal common erase size for all regions (0 if none exists)
unsigned int _page_size_bytes; // Page size - 256 Bytes default
bd_size_t _device_size_bytes;
// Bus configuration
unsigned int _address_size; // number of bytes for address
unsigned int _read_dummy_and_mode_cycles; // Number of Dummy and Mode Bits required by Read Bus Mode
unsigned int _write_dummy_and_mode_cycles; // Number of Dummy and Mode Bits required by Write Bus Mode
unsigned int _dummy_and_mode_cycles; // Number of Dummy and Mode Bits required by Current Bus Mode
uint32_t _init_ref_count;
bool _is_initialized;
};
#endif /* MBED_SPIF_BLOCK_DEVICE_H */