/*
* Copyright (C) 2017 BlueKitchen GmbH
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. Neither the name of the copyright holders nor the names of
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD 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 MATTHIAS
* RINGWALD 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.
*
*/
#define __BTSTACK_FILE__ "btstack_tlv_flash_bank.c"
#include "btstack_tlv.h"
#include "btstack_tlv_flash_bank.h"
#include "btstack_debug.h"
#include "btstack_util.h"
#include "btstack_debug.h"
#include <string.h>
// Header:
// - Magic: 'BTstack'
// - Status:
// - bits 765432: reserved
// - bits 10: epoch
// Entries
// - Tag: 32 bit
// - Len: 32 bit
// - Value: Len in bytes
#define BTSTACK_TLV_HEADER_LEN 8
static const char * btstack_tlv_header_magic = "BTstack";
// TLV Iterator
typedef struct {
int bank;
uint32_t offset;
uint32_t tag;
uint32_t len;
} tlv_iterator_t;
static void btstack_tlv_flash_bank_iterator_fetch_tag_len(btstack_tlv_flash_bank_t * self, tlv_iterator_t * it){
uint8_t entry[8];
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, it->bank, it->offset, entry, 8);
it->tag = big_endian_read_32(entry, 0);
it->len = big_endian_read_32(entry, 4);
}
static void btstack_tlv_flash_bank_iterator_init(btstack_tlv_flash_bank_t * self, tlv_iterator_t * it, int bank){
memset(it, 0, sizeof(tlv_iterator_t));
it->bank = bank;
it->offset = BTSTACK_TLV_HEADER_LEN;
btstack_tlv_flash_bank_iterator_fetch_tag_len(self, it);
}
static int btstack_tlv_flash_bank_iterator_has_next(btstack_tlv_flash_bank_t * self, tlv_iterator_t * it){
if (it->tag == 0xffffffff) return 0;
return 1;
}
static void tlv_iterator_fetch_next(btstack_tlv_flash_bank_t * self, tlv_iterator_t * it){
it->offset += 8 + it->len;
if (it->offset >= self->hal_flash_bank_impl->get_size(self->hal_flash_bank_context)) {
it->tag = 0xffffffff;
it->len = 0;
return;
}
btstack_tlv_flash_bank_iterator_fetch_tag_len(self, it);
}
//
// check both banks for headers and pick the one with the higher epoch % 4
// @returns bank or -1 if something is invalid
static int btstack_tlv_flash_bank_get_latest_bank(btstack_tlv_flash_bank_t * self){
uint8_t header0[BTSTACK_TLV_HEADER_LEN];
uint8_t header1[BTSTACK_TLV_HEADER_LEN];
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, 0, 0, &header0[0], BTSTACK_TLV_HEADER_LEN);
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, 1, 0, &header1[0], BTSTACK_TLV_HEADER_LEN);
int valid0 = memcmp(header0, btstack_tlv_header_magic, BTSTACK_TLV_HEADER_LEN-1) == 0;
int valid1 = memcmp(header1, btstack_tlv_header_magic, BTSTACK_TLV_HEADER_LEN-1) == 0;
if (!valid0 && !valid1) return -1;
if ( valid0 && !valid1) return 0;
if (!valid0 && valid1) return 1;
int epoch0 = header0[BTSTACK_TLV_HEADER_LEN-1] & 0x03;
int epoch1 = header1[BTSTACK_TLV_HEADER_LEN-1] & 0x03;
if (epoch0 == ((epoch1 + 1) & 0x03)) return 0;
if (epoch1 == ((epoch0 + 1) & 0x03)) return 1;
return -1; // invalid, must not happen
}
static void btstack_tlv_flash_bank_write_header(btstack_tlv_flash_bank_t * self, int bank, int epoch){
uint8_t header[BTSTACK_TLV_HEADER_LEN];
memcpy(&header[0], btstack_tlv_header_magic, BTSTACK_TLV_HEADER_LEN-1);
header[BTSTACK_TLV_HEADER_LEN-1] = epoch;
self->hal_flash_bank_impl->write(self->hal_flash_bank_context, bank, 0, header, BTSTACK_TLV_HEADER_LEN);
}
/**
* @brief Check if erased from offset
*/
static int btstack_tlv_flash_bank_test_erased(btstack_tlv_flash_bank_t * self, int bank, uint32_t offset){
log_info("test erased: bank %u, offset %u", bank, offset);
uint32_t size = self->hal_flash_bank_impl->get_size(self->hal_flash_bank_context);
uint8_t buffer[16];
uint8_t empty16[16];
memset(empty16, 0xff, sizeof(empty16));
while (offset < size){
uint32_t copy_size = (offset + sizeof(empty16) < size) ? sizeof(empty16) : (size - offset);
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, bank, offset, buffer, copy_size);
if (memcmp(buffer, empty16, copy_size)) {
log_info("not erased %x - %x", offset, offset + copy_size);
return 0;
}
offset += copy_size;
}
return 1;
}
/**
* @brief erase bank (only if not already erased)
*/
static void btstack_tlv_flash_bank_erase_bank(btstack_tlv_flash_bank_t * self, int bank){
if (btstack_tlv_flash_bank_test_erased(self, bank, 0)){
log_info("bank %u already erased", bank);
} else {
log_info("bank %u not empty, erase bank", bank);
self->hal_flash_bank_impl->erase(self->hal_flash_bank_context, bank);
}
}
static void btstack_tlv_flash_bank_migrate(btstack_tlv_flash_bank_t * self){
int next_bank = 1 - self->current_bank;
log_info("migrate bank %u -> bank %u", self->current_bank, next_bank);
// erase bank (if needed)
btstack_tlv_flash_bank_erase_bank(self, next_bank);
int next_write_pos = 8;
tlv_iterator_t it;
btstack_tlv_flash_bank_iterator_init(self, &it, self->current_bank);
while (btstack_tlv_flash_bank_iterator_has_next(self, &it)){
// skip deleted entries
if (it.tag) {
uint32_t tag_len = it.len;
uint32_t tag_index = it.offset;
// copy
int bytes_to_copy = 8 + tag_len;
log_info("migrate pos %u, tag '%x' len %u -> new pos %u", tag_index, it.tag, bytes_to_copy, next_write_pos);
uint8_t copy_buffer[32];
while (bytes_to_copy){
int bytes_this_iteration = btstack_min(bytes_to_copy, sizeof(copy_buffer));
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, self->current_bank, tag_index, copy_buffer, bytes_this_iteration);
self->hal_flash_bank_impl->write(self->hal_flash_bank_context, next_bank, next_write_pos, copy_buffer, bytes_this_iteration);
tag_index += bytes_this_iteration;
next_write_pos += bytes_this_iteration;
bytes_to_copy -= bytes_this_iteration;
}
}
tlv_iterator_fetch_next(self, &it);
}
// prepare new one
uint8_t epoch_buffer;
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, self->current_bank, BTSTACK_TLV_HEADER_LEN-1, &epoch_buffer, 1);
btstack_tlv_flash_bank_write_header(self, next_bank, (epoch_buffer + 1) & 3);
self->current_bank = next_bank;
self->write_offset = next_write_pos;
}
// returns 1 == ok
static int btstack_tlv_flash_bank_verify_alignment(btstack_tlv_flash_bank_t * self, uint32_t value_size){
uint32_t aligment = self->hal_flash_bank_impl->get_alignment(self->hal_flash_bank_context);
if (value_size % aligment){
log_error("Value size %u not a multiply of flash alignment %u", value_size, aligment);
return 0;
};
return 1;
}
static void btstack_tlv_flash_bank_delete_tag_until_offset(btstack_tlv_flash_bank_t * self, uint32_t tag, uint32_t offset){
tlv_iterator_t it;
btstack_tlv_flash_bank_iterator_init(self, &it, self->current_bank);
while (btstack_tlv_flash_bank_iterator_has_next(self, &it) && it.offset < offset){
if (it.tag == tag){
log_info("Erase tag '%x' at position %u", tag, it.offset);
// overwrite tag with invalid tag
uint32_t zero_tag = 0;
self->hal_flash_bank_impl->write(self->hal_flash_bank_context, self->current_bank, it.offset, (uint8_t*) &zero_tag, sizeof(zero_tag));
}
tlv_iterator_fetch_next(self, &it);
}
}
/**
* Get Value for Tag
* @param tag
* @param buffer
* @param buffer_size
* @returns size of value
*/
static int btstack_tlv_flash_bank_get_tag(void * context, uint32_t tag, uint8_t * buffer, uint32_t buffer_size){
btstack_tlv_flash_bank_t * self = (btstack_tlv_flash_bank_t *) context;
// abort if data size not aligned with flash requirements
if (!btstack_tlv_flash_bank_verify_alignment(self, buffer_size)) return 0;
uint32_t tag_index = 0;
uint32_t tag_len = 0;
tlv_iterator_t it;
btstack_tlv_flash_bank_iterator_init(self, &it, self->current_bank);
while (btstack_tlv_flash_bank_iterator_has_next(self, &it)){
if (it.tag == tag){
log_info("Found tag '%x' at position %u", tag, it.offset);
tag_index = it.offset;
tag_len = it.len;
break;
}
tlv_iterator_fetch_next(self, &it);
}
if (tag_index == 0) return 0;
if (!buffer) return tag_len;
int copy_size = btstack_min(buffer_size, tag_len);
self->hal_flash_bank_impl->read(self->hal_flash_bank_context, self->current_bank, tag_index + 8, buffer, copy_size);
return copy_size;
}
/**
* Store Tag
* @param tag
* @param data
* @param data_size
*/
static int btstack_tlv_flash_bank_store_tag(void * context, uint32_t tag, const uint8_t * data, uint32_t data_size){
btstack_tlv_flash_bank_t * self = (btstack_tlv_flash_bank_t *) context;
// abort if data size not aligned with flash requirements
if (!btstack_tlv_flash_bank_verify_alignment(self, data_size)) return 1;
// trigger migration if not enough space
if (self->write_offset + 8 + data_size > self->hal_flash_bank_impl->get_size(self->hal_flash_bank_context)){
btstack_tlv_flash_bank_migrate(self);
}
if (self->write_offset + 8 + data_size > self->hal_flash_bank_impl->get_size(self->hal_flash_bank_context)){
log_error("couldn't write entry, not enough space left");
return 2;
}
// prepare entry
uint8_t entry[8];
big_endian_store_32(entry, 0, tag);
big_endian_store_32(entry, 4, data_size);
log_info("write '%x', len %u at %u", tag, data_size, self->write_offset);
// write value first
self->hal_flash_bank_impl->write(self->hal_flash_bank_context, self->current_bank, self->write_offset + 8, data, data_size);
// then entry
self->hal_flash_bank_impl->write(self->hal_flash_bank_context, self->current_bank, self->write_offset, entry, sizeof(entry));
// overwrite old entries (if exists)
btstack_tlv_flash_bank_delete_tag_until_offset(self, tag, self->write_offset);
// done
self->write_offset += sizeof(entry) + data_size;
return 0;
}
/**
* Delete Tag
* @param tag
*/
static void btstack_tlv_flash_bank_delete_tag(void * context, uint32_t tag){
btstack_tlv_flash_bank_t * self = (btstack_tlv_flash_bank_t *) context;
btstack_tlv_flash_bank_delete_tag_until_offset(self, tag, self->write_offset);
}
static const btstack_tlv_t btstack_tlv_flash_bank = {
/* int (*get_tag)(..); */ &btstack_tlv_flash_bank_get_tag,
/* int (*store_tag)(..); */ &btstack_tlv_flash_bank_store_tag,
/* void (*delete_tag)(v..); */ &btstack_tlv_flash_bank_delete_tag,
};
/**
* Init Tag Length Value Store
*/
const btstack_tlv_t * btstack_tlv_flash_bank_init_instance(btstack_tlv_flash_bank_t * self, const hal_flash_bank_t * hal_flash_bank_impl, void * hal_flash_bank_context){
self->hal_flash_bank_impl = hal_flash_bank_impl;
self->hal_flash_bank_context = hal_flash_bank_context;
// try to find current bank
self->current_bank = btstack_tlv_flash_bank_get_latest_bank(self);
log_info("found bank %d", self->current_bank);
if (self->current_bank >= 0){
// find last entry and write offset
tlv_iterator_t it;
uint32_t last_tag = 0;
uint32_t last_offset = 0;
btstack_tlv_flash_bank_iterator_init(self, &it, self->current_bank);
while (btstack_tlv_flash_bank_iterator_has_next(self, &it)){
last_tag = it.tag;
last_offset = it.offset;
tlv_iterator_fetch_next(self, &it);
}
self->write_offset = it.offset;
if (self->write_offset < self->hal_flash_bank_impl->get_size(self->hal_flash_bank_context)){
// delete older instances of last_tag
// this handles the unlikely case where MCU did reset after new value + header was written but before delete did complete
if (last_tag){
btstack_tlv_flash_bank_delete_tag_until_offset(self, last_tag, last_offset);
}
// verify that rest of bank is empty
// this handles the unlikely case where MCU did reset after new value was written, but not the tag
if (!btstack_tlv_flash_bank_test_erased(self, self->current_bank, self->write_offset)){
log_info("Flash not empty after last found tag -> migrate");
btstack_tlv_flash_bank_migrate(self);
} else {
log_info("Flash clean after last found tag");
}
} else {
// failure!
self->current_bank = -1;
}
}
if (self->current_bank < 0) {
btstack_tlv_flash_bank_erase_bank(self, 0);
self->current_bank = 0;
btstack_tlv_flash_bank_write_header(self, self->current_bank, 0); // epoch = 0;
self->write_offset = 8;
}
log_info("write offset %u", self->write_offset);
return &btstack_tlv_flash_bank;
}