ardupilot/libraries/AP_FlashIface/AP_FlashIface_JEDEC.h

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/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Code by
* Andy Piper
* Siddharth Bharat Purohit, Cubepilot Pty. Ltd.
*/
/*
Implements Common Flash Interface Driver based on
Open Standard Published by JEDEC
*/
#include "AP_FlashIface_Abstract.h"
class AP_FlashIface_JEDEC : public AP_FlashIface
{
public:
bool init() override;
/**
* @details Read data from flash chip.
*
* @param[in] offset address offset from where to start the read
* @param[out] data data to be read from the device
* @param[in] size size of the data to be read
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool read(uint32_t offset, uint8_t *data, uint32_t size) override;
/**
* @details Gets number bytes that can be written in one go (page size).
*
* @return page size in bytes.
*
*/
uint32_t get_page_size() const override
{
return _desc.page_size;
}
/**
* @details Gets number pages, each page can written in one go
*
* @return Number of pages.
*
*/
uint32_t get_page_count() const override
{
return _desc.page_count;
}
/**
* @details Sends command to start programming a page of the chip.
*
* @param[in] page Page number to be written to
* @param[in] data data to be written
* @param[out] delay_us Time to wait until next is_device_busy call
* @param[out] timeout_us Time after which the erase should be timedout,
* should be reset at every call.
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool start_program_page(uint32_t page, const uint8_t *data, uint32_t &delay_us, uint32_t &timeout_us) override;
/**
* @details Tries to program as much as possible starting from the offset
* until size. User needs to call this as many times as needed
* taking already programmed bytes into account.
*
* @param[in] offset address offset for program
* @param[in] data data to be programmed
* @param[in] size size desired to be programmed
* @param[out] programming number of bytes programming, taking care of the limits
* @param[out] delay_us Time to wait until program typically finishes
* @param[out] timeout_us Time by which current program should have timedout.
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool start_program_offset(uint32_t offset, const uint8_t* data, uint32_t size, uint32_t &programming,
uint32_t &delay_us, uint32_t &timeout_us) override;
// Erase Methods
/**
* @details Sends command to erase the entire chip.
*
* @param[out] delay_ms Time to wait until next is_device_busy call
* @param[out] timeout_ms Time by which the erase should have timedout
*
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool start_mass_erase(uint32_t &delay_ms, uint32_t &timeout_ms) override;
/**
* @details Gets number bytes that can erased in one go(sector size)
*
* @return Sector size in bytes.
*
*/
uint32_t get_sector_size() const override
{
return _desc.sector_size;
}
/**
* @details Gets number of sectors, each sector can be erased in one go
*
* @return Number of sectors.
*
*/
uint32_t get_sector_count() const override
{
return _desc.sector_count;
}
/**
* @details minimum number of bytes that can be erased
*
* @return Number of bytes.
*
*/
uint32_t min_erase_size() const override
{
return _desc.min_erase_size;
}
/**
* @details Sends command to erase a sector of the chip.
*
* @param[in] sector Sector number to be erased
* @param[out] delay_ms Time to wait until next is_device_busy call
* @param[out] timeout_ms Time by which the erase should have timedout
*
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool start_sector_erase(uint32_t sector, uint32_t &delay_ms, uint32_t &timeout_ms) override;
/**
* @details Tries to erase as much as possible starting from the offset
* until size. User needs to call this as many times as needed
* taking already erased bytes into account, until desired erase
* has taken place
*
* @param[in] offset address offset for erase
* @param[in] size size desired to be erased
* @param[out] erasing number of bytes erasing
* @param[out] delay_ms Time to wait until next is_device_busy call
* @param[out] timeout_ms Time by which the erase should have timedout
*
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool start_erase_offset(uint32_t offset, uint32_t size, uint32_t &erasing,
uint32_t &delay_ms, uint32_t &timeout_ms) override;
/**
* @details Check if selected sector is erased.
*
* @param[in] sector sector for which to check erase
* @return The operation status.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
*/
bool verify_sector_erase(uint32_t sector) override;
/**
* @details Check if the device is busy.
*
* @return device busy with last op.
*
* @retval false if the device is ready.
* @retval true if the device is busy.
*
*/
bool is_device_busy() override;
/**
* @details Starts execution in place mode
*
* @return if successfully entered XIP mode.
*
* @retval false the device failed to enter XIP mode.
* @retval true the device has entered XIP mode.
*
*/
bool start_xip_mode(void** addr) override;
bool stop_xip_mode() override;
protected:
void reset_device();
// Does initial configuration to bring up and setup chip
bool detect_device();
// Configures device to normal working state, currently 4-4-4 WSPI
bool configure_device();
// Enables commands that modify flash data or settings
bool write_enable();
// Disables commands that modify flash data or settings
bool write_disable();
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// wait for the chip to be ready for the next instruction
void wait_ready();
// Read modify write register
bool modify_reg(uint8_t read_ins, uint8_t write_ins,
uint8_t mask, uint8_t va_list);
// reads a register value of chip using instruction
bool read_reg(uint8_t read_ins, uint8_t &read_val);
// sends instruction to write a register value in the chip
bool write_reg(uint8_t read_ins, uint8_t write_val);
// Sends WSPI command without data
bool send_cmd(uint8_t ins);
// Is device in wide spi mode
enum class WSPIMode {
NormalSPI,
QuadSPI,
OctoSPI
} _wide_spi_mode;
AP_HAL::OwnPtr<AP_HAL::WSPIDevice> _dev;
enum xip_entry_methods {
XIP_ENTRY_METHOD_1,
XIP_ENTRY_METHOD_2,
XIP_ENTRY_METHOD_3
};
// Device description extracted from SFDP
struct device_desc {
uint16_t param_rev; //parameter revision
uint8_t param_table_len; // size of parameter table
uint32_t param_table_pointer; // location of parameter table
uint32_t flash_size; // size of flash in bytes
uint32_t page_size; // maximum size that can be written in one transaction
uint32_t page_count; // number of pages each of page size
uint32_t sector_size; // maximum number of bytes that can be erased outside of mass erase
uint32_t sector_count; // number of sectors
uint32_t min_erase_size; // minimum amount of bytes that can be erased
struct {
uint8_t ins; // instruction for the erase
uint32_t size; // number of bytes that will be erased
uint32_t delay_ms; // typical time this command will finish
uint32_t timeout_ms; // time after which the erase cmd caller should time
} erase_type[4];
uint32_t mass_erase_delay_ms; // typical time taken while mass erase
uint32_t mass_erase_timeout_ms; // time after which mass erase cmd caller should timeout
uint8_t write_enable_ins; // instruction to allow enabling modification of register and data
uint32_t page_prog_delay_us; // time taken to write a page worth of data to flash
uint32_t page_prog_timeout_us; // time after which the page program caller should timeout
uint8_t fast_read_ins; // instruction to do fast read, i.e. read any number of bytes in single trx
uint8_t fast_read_dummy_cycles; // number of dummy cycles after which the chip will respond with data
uint8_t quad_mode_ins; // instruction to enter 4-4-4 mode
uint8_t wide_mode_enable;
bool quad_mode_rmw_seq; // use Read modify write sequence to enter 4-4-4 mode supported or not
uint8_t status_read_ins; // read status of the chip, gets us if busy writing/erasing
bool legacy_status_polling; // check if legacy status polling supported or not
bool is_xip_supported; // is execution in place or 0-4-4 mode supported
uint8_t fast_read_mode_clocks;
xip_entry_methods entry_method;
} _desc;
uint8_t _dev_list_idx;
bool initialised;
bool write_enable_called;
};