[FL-977] Internal Storage (#455)

* Add littlefs submodule
* Furi: add mutex in logging, fix issues with corrupted printf
* ApiHal: disable debug traces in ble glue
* App-loader: more logs
* Passport: fix invalid DolphinState usage
* ApiHal, linker script: flash API is now aware of free space, complete abstraction layer for storage
* Internal Storage: littlefs based storage services with key value API. Migrate dolphin state to new storage API.
This commit is contained in:
あく 2021-05-11 11:29:44 +03:00 committed by GitHub
parent 29d10e1b0a
commit aa24484b99
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
19 changed files with 583 additions and 86 deletions

1
.github/CODEOWNERS vendored
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@ -49,6 +49,7 @@ lib/cyfral/** @DrZlo13
lib/drivers/** @skotopes @gornekich
lib/fatfs/** @DrZlo13
lib/fnv1a-hash/** @DrZlo13
lib/littlefs/** @skotopes
lib/mlib/** @skotopes
lib/onewire/** @DrZlo13
lib/qrcode/** @DrZlo13

3
.gitmodules vendored
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@ -7,3 +7,6 @@
[submodule "applications/floopper-bloopper"]
path = applications/floopper-bloopper
url = https://github.com/Flipper-Zero/floopper-bloopper.git
[submodule "lib/littlefs"]
path = lib/littlefs
url = https://github.com/littlefs-project/littlefs.git

View file

@ -58,7 +58,7 @@ void app_loader_thread_state_callback(FuriThreadState state, void* context) {
}
int32_t app_loader(void* p) {
FURI_LOG_I("APPLOADER", "Started");
FURI_LOG_I("app-loader", "Starting");
state.thread = furi_thread_alloc();
furi_thread_set_state_context(state.thread, &state);
furi_thread_set_state_callback(state.thread, app_loader_thread_state_callback);
@ -67,6 +67,7 @@ int32_t app_loader(void* p) {
state.cli = furi_record_open("cli");
// Main menu
FURI_LOG_I("app-loader", "Building main menu");
with_value_mutex(
menu_mutex, (Menu * menu) {
for(size_t i = 0; i < FLIPPER_APPS_COUNT; i++) {
@ -93,6 +94,7 @@ int32_t app_loader(void* p) {
});
// Plugins
FURI_LOG_I("app-loader", "Building plugins menu");
with_value_mutex(
menu_mutex, (Menu * menu) {
MenuItem* menu_plugins =
@ -124,6 +126,7 @@ int32_t app_loader(void* p) {
});
// Debug
FURI_LOG_I("app-loader", "Building debug menu");
with_value_mutex(
menu_mutex, (Menu * menu) {
MenuItem* menu_debug =
@ -159,7 +162,7 @@ int32_t app_loader(void* p) {
(*FLIPPER_ON_SYSTEM_START[i])();
}
FURI_LOG_I("APPLOADER", "OK");
FURI_LOG_I("app-loader", "Started");
while(1) {
osThreadSuspend(osThreadGetId());

View file

@ -34,6 +34,7 @@ int32_t keypad_test(void* p);
int32_t scene_app(void* p);
int32_t passport(void* p);
int32_t app_accessor(void* p);
int32_t internal_storage_task(void* p);
// On system start hooks declaration
void nfc_cli_init();
@ -73,6 +74,13 @@ const FlipperApplication FLIPPER_SERVICES[] = {
{.app = sd_filesystem, .name = "sd_filesystem", .stack_size = 4096, .icon = A_Plugins_14},
#endif
#ifdef SRV_INTERNAL_STORAGE
{.app = internal_storage_task,
.name = "internal_storage",
.stack_size = 2048,
.icon = A_Plugins_14},
#endif
#ifdef SRV_DOLPHIN
{.app = dolphin_task, .name = "dolphin_task", .stack_size = 1024, .icon = A_Plugins_14},
#endif

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@ -17,6 +17,7 @@ SRV_POWER = 1
SRV_BT = 1
SRV_CLI = 1
SRV_SD_FILESYSTEM = 1
SRV_INTERNAL_STORAGE = 1
SRV_DOLPHIN = 1
# Main Apps
@ -288,11 +289,16 @@ ifeq ($(SRV_GUI), 1)
CFLAGS += -DSRV_GUI
endif
SRV_SD_FILESYSTEM ?= 0
SRV_SD_FILESYSTEM ?= 0
ifeq ($(SRV_SD_FILESYSTEM), 1)
CFLAGS += -DSRV_SD_FILESYSTEM
endif
SRV_INTERNAL_STORAGE ?= 0
ifeq ($(SRV_INTERNAL_STORAGE), 1)
CFLAGS += -DSRV_INTERNAL_STORAGE
endif
SRV_INPUT ?= 0
ifeq ($(SRV_INPUT), 1)
CFLAGS += -DSRV_INPUT

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@ -1,77 +1,129 @@
#include "dolphin_state.h"
#include <internal-storage/internal-storage.h>
#include <furi.h>
#include <api-hal.h>
#include <math.h>
#define DOLPHIN_STORE_KEY "dolphin_state"
#define DOLPHIN_STORE_HEADER_MAGIC 0xD0
#define DOLPHIN_STORE_HEADER_VERSION 0x01
#define DOLPHIN_LVL_THRESHOLD 20.0f
typedef struct {
uint8_t magic;
uint8_t version;
uint8_t checksum;
uint8_t flags;
uint32_t timestamp;
} DolphinStoreHeader;
typedef struct {
uint32_t limit_ibutton;
uint32_t limit_nfc;
uint32_t limit_ir;
uint32_t limit_rfid;
uint32_t flags;
uint32_t icounter;
uint32_t butthurt;
} DolphinStoreData;
typedef struct {
DolphinStoreHeader header;
DolphinStoreData data;
} DolphinStore;
struct DolphinState {
InternalStorage* internal_storage;
DolphinStoreData data;
};
DolphinState* dolphin_state_alloc() {
DolphinState* dolphin_state = furi_alloc(sizeof(DolphinState));
dolphin_state->internal_storage = furi_record_open("internal-storage");
return dolphin_state;
}
void dolphin_state_free(DolphinState* dolphin_state) {
furi_record_close("internal-storage");
free(dolphin_state);
}
bool dolphin_state_save(DolphinState* dolphin_state) {
if(!api_hal_flash_erase(DOLPHIN_DATA_PAGE, 1)) {
return false;
}
DolphinStore store;
FURI_LOG_I("dolphin-state", "Saving state to internal-storage");
// Calculate checksum
uint8_t* source = (uint8_t*)&dolphin_state->data;
uint8_t checksum = 0;
for(size_t i = 0; i < sizeof(DolphinData); i++) {
for(size_t i = 0; i < sizeof(DolphinStoreData); i++) {
checksum += source[i];
}
DolphinDataHeader header;
header.magic = DOLPHIN_DATA_HEADER_MAGIC;
header.version = DOLPHIN_DATA_HEADER_VERSION;
header.checksum = checksum;
header.flags = 0;
header.timestamp = 0;
if(!api_hal_flash_write_dword(DOLPHIN_DATA_HEADER_ADDRESS, *(uint64_t*)&header)) {
// Set header
store.header.magic = DOLPHIN_STORE_HEADER_MAGIC;
store.header.version = DOLPHIN_STORE_HEADER_VERSION;
store.header.checksum = checksum;
store.header.flags = 0;
store.header.timestamp = 0;
// Set data
store.data = dolphin_state->data;
// Store
int ret = internal_storage_write_key(
dolphin_state->internal_storage, DOLPHIN_STORE_KEY, (uint8_t*)&store, sizeof(DolphinStore));
if(ret != sizeof(DolphinStore)) {
FURI_LOG_E("dolphin-state", "Save failed. Storage returned: %d", ret);
return false;
}
uint8_t destination[sizeof(uint64_t)];
size_t block_count = sizeof(DolphinData) / sizeof(uint64_t) + 1;
size_t offset = 0;
for(size_t i = 0; i < block_count; i++) {
for(size_t n = 0; n < sizeof(uint64_t); n++) {
if(offset < sizeof(DolphinData)) {
destination[n] = source[offset];
} else {
destination[n] = 0;
}
offset++;
}
if(!api_hal_flash_write_dword(
DOLPHIN_DATA_DATA_ADDRESS + i * sizeof(uint64_t), *(uint64_t*)destination)) {
return false;
}
}
FURI_LOG_I("dolphin-state", "Saved");
return true;
}
bool dolphin_state_load(DolphinState* dolphin_state) {
const DolphinDataHeader* header = (const DolphinDataHeader*)DOLPHIN_DATA_HEADER_ADDRESS;
if(header->magic == DOLPHIN_DATA_HEADER_MAGIC &&
header->version == DOLPHIN_DATA_HEADER_VERSION) {
DolphinStore store;
// Read Dolphin State Store
FURI_LOG_I("dolphin-state", "Loading state from internal-storage");
int ret = internal_storage_read_key(
dolphin_state->internal_storage, DOLPHIN_STORE_KEY, (uint8_t*)&store, sizeof(DolphinStore));
if(ret != sizeof(DolphinStore)) {
FURI_LOG_E("dolphin-state", "Load failed. Storage returned: %d", ret);
return false;
}
FURI_LOG_I("dolphin-state", "State loaded, verifying header");
if(store.header.magic == DOLPHIN_STORE_HEADER_MAGIC &&
store.header.version == DOLPHIN_STORE_HEADER_VERSION) {
FURI_LOG_I(
"dolphin-state",
"Magic(%d) and Version(%d) match",
store.header.magic,
store.header.version);
uint8_t checksum = 0;
const uint8_t* source = (const uint8_t*)DOLPHIN_DATA_DATA_ADDRESS;
for(size_t i = 0; i < sizeof(DolphinData); i++) {
const uint8_t* source = (const uint8_t*)&store.data;
for(size_t i = 0; i < sizeof(DolphinStoreData); i++) {
checksum += source[i];
}
if(header->checksum == checksum) {
memcpy(
&dolphin_state->data, (const void*)DOLPHIN_DATA_DATA_ADDRESS, sizeof(DolphinData));
if(store.header.checksum == checksum) {
FURI_LOG_I("dolphin-state", "Checksum(%d) match", store.header.checksum);
dolphin_state->data = store.data;
return true;
} else {
FURI_LOG_E(
"dolphin-state", "Checksum(%d != %d) mismatch", store.header.checksum, checksum);
}
} else {
FURI_LOG_E(
"dolphin-state",
"Magic(%d != %d) and Version(%d != %d) mismatch",
store.header.magic,
DOLPHIN_STORE_HEADER_MAGIC,
store.header.version,
DOLPHIN_STORE_HEADER_VERSION);
}
return false;
}
void dolphin_state_clear(DolphinState* dolphin_state) {
memset(&dolphin_state->data, 0, sizeof(DolphinData));
memset(&dolphin_state->data, 0, sizeof(DolphinStoreData));
}
void dolphin_state_on_deed(DolphinState* dolphin_state, DolphinDeed deed) {

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@ -4,38 +4,6 @@
#include <stdbool.h>
#include <stdint.h>
#define DOLPHIN_DATA_PAGE 0xC0
#define DOLPHIN_DATA_HEADER_ADDRESS 0x080C0000U
#define DOLPHIN_DATA_DATA_ADDRESS (DOLPHIN_DATA_HEADER_ADDRESS + sizeof(DolphinDataHeader))
#define DOLPHIN_DATA_HEADER_MAGIC 0xD0
#define DOLPHIN_DATA_HEADER_VERSION 0x01
#define DOLPHIN_LVL_THRESHOLD 20.0f
typedef struct {
uint8_t magic;
uint8_t version;
uint8_t checksum;
uint8_t flags;
uint32_t timestamp;
} DolphinDataHeader;
typedef struct {
uint32_t limit_ibutton;
uint32_t limit_nfc;
uint32_t limit_ir;
uint32_t limit_rfid;
uint32_t flags;
uint32_t icounter;
uint32_t butthurt;
} DolphinData;
struct DolphinState {
DolphinData data;
};
typedef struct DolphinState DolphinState;
DolphinState* dolphin_state_alloc();

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@ -78,14 +78,14 @@ static void render_callback(Canvas* canvas, void* ctx) {
}
int32_t passport(void* p) {
DolphinState _state;
DolphinState* dolphin_state = dolphin_state_alloc();
ValueMutex state_mutex;
dolphin_state_load(&_state);
dolphin_state_load(dolphin_state);
osMessageQueueId_t event_queue = osMessageQueueNew(2, sizeof(AppEvent), NULL);
furi_check(event_queue);
if(!init_mutex(&state_mutex, &_state, sizeof(DolphinState))) {
if(!init_mutex(&state_mutex, dolphin_state, sizeof(DolphinState*))) {
printf("[Passport] cannot create mutex\r\n");
return 0;
}
@ -121,5 +121,7 @@ int32_t passport(void* p) {
osMessageQueueDelete(event_queue);
dolphin_state_free(dolphin_state);
return 0;
}

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@ -0,0 +1,62 @@
#pragma once
#include "internal-storage.h"
#include <furi.h>
#include <api-hal.h>
#include <lfs.h>
#define INTERNAL_STORAGE_THREAD_FLAG_CALL_COMPLETE (1)
struct InternalStorage {
osMessageQueueId_t queue;
InternalStorageState state;
const size_t start_address;
const size_t start_page;
struct lfs_config config;
lfs_t lfs;
};
typedef struct {
const char* key;
uint8_t* buffer;
size_t size;
int ret;
} InternalStorageCommandKey;
typedef void (*InternalStorageCommandFunction)(InternalStorage* internal_storage, void* data);
typedef struct {
osThreadId thread;
InternalStorageCommandFunction function;
void* data;
} InternalStorageCommand;
int internal_storage_device_read(
const struct lfs_config* c,
lfs_block_t block,
lfs_off_t off,
void* buffer,
lfs_size_t size);
int internal_storage_device_prog(
const struct lfs_config* c,
lfs_block_t block,
lfs_off_t off,
const void* buffer,
lfs_size_t size);
int internal_storage_device_erase(const struct lfs_config* c, lfs_block_t block);
int internal_storage_device_sync(const struct lfs_config* c);
InternalStorage* internal_storage_alloc();
void internal_storage_free(InternalStorage* internal_storage);
int32_t internal_storage_task(void* p);
void _internal_storage_read_key(InternalStorage* internal_storage, InternalStorageCommandKey* data);
void _internal_storage_write_key(
InternalStorage* internal_storage,
InternalStorageCommandKey* data);

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@ -0,0 +1,229 @@
#include "internal-storage-i.h"
int internal_storage_device_read(
const struct lfs_config* c,
lfs_block_t block,
lfs_off_t off,
void* buffer,
lfs_size_t size) {
InternalStorage* internal_storage = c->context;
size_t address = internal_storage->start_address + block * c->block_size + off;
FURI_LOG_D(
"internal-storage",
"Device read: block %d, off %d, buffer: %p, size %d, translated address: %p",
block,
off,
buffer,
size,
address);
memcpy(buffer, (void*)address, size);
return 0;
}
int internal_storage_device_prog(
const struct lfs_config* c,
lfs_block_t block,
lfs_off_t off,
const void* buffer,
lfs_size_t size) {
InternalStorage* internal_storage = c->context;
size_t address = internal_storage->start_address + block * c->block_size + off;
FURI_LOG_D(
"internal-storage",
"Device prog: block %d, off %d, buffer: %p, size %d, translated address: %p",
block,
off,
buffer,
size,
address);
int ret = 0;
while(size > 0) {
if(!api_hal_flash_write_dword(address, *(uint64_t*)buffer)) {
ret = -1;
break;
}
address += c->prog_size;
buffer += c->prog_size;
size -= c->prog_size;
}
return ret;
}
int internal_storage_device_erase(const struct lfs_config* c, lfs_block_t block) {
InternalStorage* internal_storage = c->context;
size_t page = internal_storage->start_page + block;
FURI_LOG_D("internal-storage", "Device erase: page %d, translated page: %d", block, page);
if(api_hal_flash_erase(page, 1)) {
return 0;
} else {
return -1;
}
}
int internal_storage_device_sync(const struct lfs_config* c) {
FURI_LOG_D("internal-storage", "Device sync: skipping, cause ");
return 0;
}
InternalStorage* internal_storage_alloc() {
InternalStorage* internal_storage = furi_alloc(sizeof(InternalStorage));
internal_storage->queue = osMessageQueueNew(8, sizeof(InternalStorageCommand), NULL);
// Internal storage start address
internal_storage->state = InternalStorageStateInitializing;
// Internal storage start address
*(size_t*)(&internal_storage->start_address) = api_hal_flash_get_free_page_start_address();
*(size_t*)(&internal_storage->start_page) =
(internal_storage->start_address - api_hal_flash_get_base()) /
api_hal_flash_get_page_size();
// LFS configuration
// Glue and context
internal_storage->config.context = internal_storage;
internal_storage->config.read = internal_storage_device_read;
internal_storage->config.prog = internal_storage_device_prog;
internal_storage->config.erase = internal_storage_device_erase;
internal_storage->config.sync = internal_storage_device_sync;
// Block device description
internal_storage->config.read_size = api_hal_flash_get_read_block_size();
internal_storage->config.prog_size = api_hal_flash_get_write_block_size();
internal_storage->config.block_size = api_hal_flash_get_page_size();
internal_storage->config.block_count = api_hal_flash_get_free_page_count();
internal_storage->config.block_cycles = api_hal_flash_get_cycles_count();
internal_storage->config.cache_size = 16;
internal_storage->config.lookahead_size = 16;
return internal_storage;
}
void internal_storage_free(InternalStorage* internal_storage) {
furi_assert(internal_storage);
free(internal_storage);
}
int32_t internal_storage_task(void* p) {
FURI_LOG_I("internal-storage", "Starting");
InternalStorage* internal_storage = internal_storage_alloc();
FURI_LOG_I(
"internal-storage",
"Config: start %p, read %d, write %d, page size: %d, page count: %d, cycles: %d",
internal_storage->start_address,
internal_storage->config.read_size,
internal_storage->config.prog_size,
internal_storage->config.block_size,
internal_storage->config.block_count,
internal_storage->config.block_cycles);
int err = lfs_mount(&internal_storage->lfs, &internal_storage->config);
if(err == 0) {
FURI_LOG_I("internal-storage", "Mounted");
internal_storage->state = InternalStorageStateReady;
} else {
FURI_LOG_E("internal-storage", "Mount failed, formatting");
err = lfs_format(&internal_storage->lfs, &internal_storage->config);
if(err == 0) {
FURI_LOG_I("internal-storage", "Format successful, trying to mount");
err = lfs_mount(&internal_storage->lfs, &internal_storage->config);
if(err == 0) {
FURI_LOG_I("internal-storage", "Mounted");
internal_storage->state = InternalStorageStateReady;
} else {
FURI_LOG_E("internal-storage", "Mount after format failed");
internal_storage->state = InternalStorageStateBroken;
}
} else {
FURI_LOG_E("internal-storage", "Format failed");
internal_storage->state = InternalStorageStateBroken;
}
}
furi_record_create("internal-storage", internal_storage);
InternalStorageCommand command;
while(1) {
furi_check(
osMessageQueueGet(internal_storage->queue, &command, NULL, osWaitForever) == osOK);
command.function(internal_storage, command.data);
osThreadFlagsSet(command.thread, INTERNAL_STORAGE_THREAD_FLAG_CALL_COMPLETE);
}
lfs_unmount(&internal_storage->lfs);
internal_storage_free(internal_storage);
return 0;
}
void _internal_storage_read_key(InternalStorage* internal_storage, InternalStorageCommandKey* data) {
lfs_file_t file;
int ret = lfs_file_open(&internal_storage->lfs, &file, data->key, LFS_O_RDONLY);
if(ret == 0) {
ret = lfs_file_read(&internal_storage->lfs, &file, data->buffer, data->size);
lfs_file_close(&internal_storage->lfs, &file);
}
data->ret = ret;
}
int internal_storage_read_key(
InternalStorage* internal_storage,
const char* key,
uint8_t* buffer,
size_t size) {
osThreadId_t caller_thread = osThreadGetId();
if(caller_thread == 0) {
return -1;
}
InternalStorageCommandKey data = {.key = key, .buffer = buffer, .size = size, .ret = 0};
InternalStorageCommand command = {
.thread = caller_thread,
.function = (InternalStorageCommandFunction)_internal_storage_read_key,
.data = &data,
};
furi_check(osMessageQueuePut(internal_storage->queue, &command, 0, osWaitForever) == osOK);
osThreadFlagsWait(INTERNAL_STORAGE_THREAD_FLAG_CALL_COMPLETE, osFlagsWaitAny, osWaitForever);
return data.ret;
}
void _internal_storage_write_key(
InternalStorage* internal_storage,
InternalStorageCommandKey* data) {
lfs_file_t file;
int ret = lfs_file_open(
&internal_storage->lfs, &file, data->key, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC);
if(ret == 0) {
ret = lfs_file_write(&internal_storage->lfs, &file, data->buffer, data->size);
lfs_file_close(&internal_storage->lfs, &file);
}
data->ret = ret;
}
int internal_storage_write_key(
InternalStorage* internal_storage,
const char* key,
uint8_t* buffer,
size_t size) {
osThreadId_t caller_thread = osThreadGetId();
if(caller_thread == 0) {
return -1;
}
InternalStorageCommandKey data = {.key = key, .buffer = buffer, .size = size, .ret = 0};
InternalStorageCommand command = {
.thread = caller_thread,
.function = (InternalStorageCommandFunction)_internal_storage_write_key,
.data = &data,
};
furi_check(osMessageQueuePut(internal_storage->queue, &command, 0, osWaitForever) == osOK);
osThreadFlagsWait(INTERNAL_STORAGE_THREAD_FLAG_CALL_COMPLETE, osFlagsWaitAny, osWaitForever);
return data.ret;
}

View file

@ -0,0 +1,40 @@
#pragma once
#include <stddef.h>
#include <stdint.h>
#include <stdbool.h>
/* Internal storage state */
typedef enum {
InternalStorageStateInitializing,
InternalStorageStateReady,
InternalStorageStateBroken,
} InternalStorageState;
typedef struct InternalStorage InternalStorage;
/** Read key, blocking api
* @param internal_storage - InternalStorage instance
* @param key - file name to read data from
* @param buffer - pointer to data buffer
* @param size - buffer size
* @return negative on error, otherwise data read
*/
int internal_storage_read_key(
InternalStorage* internal_storage,
const char* key,
uint8_t* buffer,
size_t size);
/** Write key, blocking api
* @param internal_storage - InternalStorage instance
* @param key - file name to store data to
* @param buffer - pointer to data buffer
* @param size - buffer size
* @return negative on error, otherwise data written
*/
int internal_storage_write_key(
InternalStorage* internal_storage,
const char* key,
uint8_t* buffer,
size_t size);

View file

@ -1,12 +1,14 @@
#include "log.h"
#include <stm32wbxx_hal.h>
#include "check.h"
#include <cmsis_os2.h>
typedef struct {
FuriLogLevel log_level;
FuriLogPrint print;
FuriLogVPrint vprint;
FuriLogTimestamp timetamp;
osMutexId_t mutex;
} FuriLogParams;
static FuriLogParams furi_log;
@ -17,14 +19,17 @@ void furi_log_init() {
furi_log.print = printf;
furi_log.vprint = vprintf;
furi_log.timetamp = HAL_GetTick;
furi_log.mutex = osMutexNew(NULL);
}
void furi_log_print(FuriLogLevel level, const char* format, ...) {
va_list args;
va_start(args, format);
if(level <= furi_log.log_level) {
osMutexAcquire(furi_log.mutex, osWaitForever);
furi_log.print("%lu ", furi_log.timetamp());
furi_log.vprint(format, args);
osMutexRelease(furi_log.mutex);
}
va_end(args);
}

View file

@ -1,6 +1,59 @@
#include <api-hal-flash.h>
#include <api-hal-bt.h>
#include <stm32wbxx.h>
#include <furi.h>
/* Free flash space borders, exported by linker */
extern const void __free_flash_start__;
extern const void __free_flash_end__;
#define API_HAL_FLASH_READ_BLOCK 8
#define API_HAL_FLASH_WRITE_BLOCK 8
#define API_HAL_FLASH_PAGE_SIZE 4096
#define API_HAL_FLASH_CYCLES_COUNT 10000
size_t api_hal_flash_get_base() {
return FLASH_BASE;
}
size_t api_hal_flash_get_read_block_size() {
return API_HAL_FLASH_READ_BLOCK;
}
size_t api_hal_flash_get_write_block_size() {
return API_HAL_FLASH_WRITE_BLOCK;
}
size_t api_hal_flash_get_page_size() {
return API_HAL_FLASH_PAGE_SIZE;
}
size_t api_hal_flash_get_cycles_count() {
return API_HAL_FLASH_CYCLES_COUNT;
}
const void* api_hal_flash_get_free_start_address() {
return &__free_flash_start__;
}
const void* api_hal_flash_get_free_end_address() {
return &__free_flash_end__;
}
size_t api_hal_flash_get_free_page_start_address() {
size_t start = (size_t)api_hal_flash_get_free_start_address();
size_t page_start = start - start % API_HAL_FLASH_PAGE_SIZE;
if (page_start != start) {
page_start += API_HAL_FLASH_PAGE_SIZE;
}
return page_start;
}
size_t api_hal_flash_get_free_page_count() {
size_t end = (size_t)api_hal_flash_get_free_end_address();
size_t page_start = (size_t)api_hal_flash_get_free_page_start_address();
return (end-page_start) / API_HAL_FLASH_PAGE_SIZE;
}
bool api_hal_flash_erase(uint8_t page, uint8_t count) {
if (!api_hal_bt_lock_flash()) {
@ -25,7 +78,7 @@ bool api_hal_flash_write_dword(size_t address, uint64_t data) {
return status == HAL_OK;
}
bool api_hal_flash_write_row(size_t address, size_t source_address) {
bool api_hal_flash_write_dword_from(size_t address, size_t source_address) {
if (!api_hal_bt_lock_flash()) {
return false;
}

View file

@ -4,6 +4,51 @@
#include <stdint.h>
#include <stddef.h>
/** Get flash base address
* @return pointer to flash base
*/
size_t api_hal_flash_get_base();
/** Get flash read block size
* @return size in bytes
*/
size_t api_hal_flash_get_read_block_size();
/** Get flash write block size
* @return size in bytes
*/
size_t api_hal_flash_get_write_block_size();
/** Get flash page size
* @return size in bytes
*/
size_t api_hal_flash_get_page_size();
/** Get expected flash cycles count
* @return count of erase-write operations
*/
size_t api_hal_flash_get_cycles_count();
/** Get free flash start address
* @return pointer to free region start
*/
const void* api_hal_flash_get_free_start_address();
/** Get free flash end address
* @return pointer to free region end
*/
const void* api_hal_flash_get_free_end_address();
/** Get first free page start address
* @return first free page memory address
*/
size_t api_hal_flash_get_free_page_start_address();
/** Get free page count
* @return free page count
*/
size_t api_hal_flash_get_free_page_count();
/*
* Erase Flash
* Locking operation, uses HSEM to manage shared access.
@ -21,9 +66,9 @@ bool api_hal_flash_erase(uint8_t page, uint8_t count);
bool api_hal_flash_write_dword(size_t address, uint64_t data);
/*
* Write page (4096 bytes or 64 rows of double words).
* Write double word (64 bits) from address
* Locking operation, uses HSEM to manage shared access.
* @param address - destination address, must be page aligned
* @param address - destination address, must be block aligned
* @param source_address - source address
*/
bool api_hal_flash_write_page(size_t address, size_t source_address);
bool api_hal_flash_write_dword_from(size_t address, size_t source_address);

View file

@ -50,7 +50,7 @@ extern UART_HandleTypeDef DEBUG_UART;
#define TL_HCI_EVT_DBG_EN 0 /* Reports BLE Asynchronous Events received from CPU2 */
#define TL_HCI_EVT_DBG_RAW_EN 0 /* Reports raw data BLE Asynchronous Events received from CPU2 */
#define TL_MM_DBG_EN 1 /* Reports the informations of the buffer released to CPU2 */
#define TL_MM_DBG_EN 0 /* Reports the informations of the buffer released to CPU2 */
/**
* Macro definition

View file

@ -168,7 +168,13 @@ SECTIONS
. = ALIGN(8);
} >RAM1
/* Free Flash space, that can be used for internal storage */
.free_flash(NOLOAD):
{
__free_flash_start__ = .;
. = ORIGIN(FLASH) + LENGTH(FLASH);
__free_flash_end__ = .;
} >FLASH
/* Remove information from the standard libraries */
/DISCARD/ :

View file

@ -49,8 +49,8 @@ ENTRY(Reset_Handler)
/* Highest address of the user mode stack */
_estack = 0x20030000; /* end of RAM */
/* Generate a link error if heap and stack don't fit into RAM */
_Min_Heap_Size = 0x200; /* required amount of heap */
_Min_Stack_Size = 0x400; /* required amount of stack */
_Min_Heap_Size = 0x400; /* required amount of heap */
_Min_Stack_Size = 0x1000; /* required amount of stack */
/* Specify the memory areas */
MEMORY
@ -168,7 +168,13 @@ SECTIONS
. = ALIGN(8);
} >RAM1
/* Free Flash space, that can be used for internal storage */
.free_flash(NOLOAD):
{
__free_flash_start__ = .;
. = ORIGIN(FLASH) + LENGTH(FLASH);
__free_flash_end__ = .;
} >FLASH
/* Remove information from the standard libraries */
/DISCARD/ :

View file

@ -36,6 +36,13 @@ C_SOURCES += $(FATFS_DIR)/ff_gen_drv.c
C_SOURCES += $(FATFS_DIR)/diskio.c
C_SOURCES += $(FATFS_DIR)/option/unicode.c
ifeq ($(SRV_INTERNAL_STORAGE), 1)
LITTLEFS_DIR = $(LIB_DIR)/littlefs
CFLAGS += -I$(LITTLEFS_DIR)
C_SOURCES += $(LITTLEFS_DIR)/lfs.c
C_SOURCES += $(LITTLEFS_DIR)/lfs_util.c
endif
ifeq ($(APP_NFC), 1)
ST25RFAL002_DIR = $(LIB_DIR)/ST25RFAL002
CFLAGS += -I$(ST25RFAL002_DIR)

1
lib/littlefs Submodule

@ -0,0 +1 @@
Subproject commit 1863dc7883d82bd6ca79faa164b65341064d1c16