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Add flash partitioning system

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This commit is contained in:
Dominic Clifton 2019-05-11 01:21:13 +09:00 committed by jflyper
parent ba047e0559
commit 92999681e3
9 changed files with 215 additions and 56 deletions
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16
src/main/cli/cli.c
View file

@ -2209,16 +2209,24 @@ static void cliSdInfo(char *cmdline)
#endif
#ifdef USE_FLASHFS
#ifdef USE_FLASH_CHIP
static void cliFlashInfo(char *cmdline)
{
const flashGeometry_t *layout = flashfsGetGeometry();
const flashGeometry_t *layout = flashGetGeometry();
UNUSED(cmdline);
cliPrintLinef("Flash sectors=%u, sectorSize=%u, pagesPerSector=%u, pageSize=%u, totalSize=%u, usedSize=%u",
layout->sectors, layout->sectorSize, layout->pagesPerSector, layout->pageSize, layout->totalSize, flashfsGetOffset());
cliPrintLinef("Flash sectors=%u, sectorSize=%u, pagesPerSector=%u, pageSize=%u, totalSize=%u",
layout->sectors, layout->sectorSize, layout->pagesPerSector, layout->pageSize, layout->totalSize);
#ifdef USE_FLASHFS
const flashPartition_t *flashPartition = flashFindPartitionByUsage(FLASH_PARTITION_FLASHFS);
cliPrintLinef("FlashFS size=%u, usedSize=%u",
FLASH_PARTITION_SECTOR_COUNT(flashPartition) * layout->sectorSize,
flashfsGetOffset()
);
#endif
}

6
src/main/cms/cms_menu_blackbox.c
View file

@ -126,9 +126,11 @@ static void cmsx_Blackbox_GetDeviceStatus(void)
if (storageDeviceIsWorking) {
tfp_sprintf(cmsx_BlackboxStatus, "READY");
const flashGeometry_t *geometry = flashfsGetGeometry();
const flashPartition_t *flashPartition = flashFindPartitionByUsage(FLASH_PARTITION_FLASHFS);
const flashGeometry_t *flashGeometry = flashGetGeometry();
storageUsed = flashfsGetOffset() / 1024;
storageFree = (geometry->totalSize / 1024) - storageUsed;
storageFree = ((FLASH_PARTITION_SECTOR_COUNT(flashPartition) * flashGeometry->sectorSize) / 1024) - storageUsed;
} else {
tfp_sprintf(cmsx_BlackboxStatus, "FAULT");
}

103
src/main/drivers/flash.c
View file

@ -20,6 +20,7 @@
#include <stdbool.h>
#include <stdint.h>
#include <string.h>
#include "platform.h"
@ -41,6 +42,9 @@ static busDevice_t busInstance;
static busDevice_t *busdev;
static flashDevice_t flashDevice;
static flashPartitionTable_t flashPartitionTable;
static void flashConfigurePartitions(void);
#define FLASH_INSTRUCTION_RDID 0x9F
@ -177,7 +181,7 @@ static bool flashSpiInit(const flashConfig_t *flashConfig)
}
#endif // USE_SPI
bool flashInit(const flashConfig_t *flashConfig)
bool flashDeviceInit(const flashConfig_t *flashConfig)
{
#ifdef USE_SPI
bool useSpi = (SPI_CFG_TO_DEV(flashConfig->spiDevice) != SPIINVALID);
@ -197,6 +201,17 @@ bool flashInit(const flashConfig_t *flashConfig)
return false;
}
bool flashInit(const flashConfig_t *flashConfig)
{
memset(&flashPartitionTable, 0x00, sizeof(flashPartitionTable));
bool haveFlash = flashDeviceInit(flashConfig);
flashConfigurePartitions();
return haveFlash;
}
bool flashIsReady(void)
{
return flashDevice.vTable->isReady(&flashDevice);
@ -259,4 +274,90 @@ const flashGeometry_t *flashGetGeometry(void)
return &noFlashGeometry;
}
/*
* Flash partitioning
*
* Partition table is not currently stored on the flash, in-memory only.
*
* Partitions are required so that Badblock management (inc spare blocks), FlashFS (Blackbox Logging), Configuration and Firmware can be kept separate and tracked.
*
* Currently, to keep things simple (and working), the following rules apply:
*
* 1) order of partitions in the paritions table strictly defined as follows
*
* BAD BLOCK MANAGEMENT
* FIRMWARE
* FLASH FS
*
* 2) If firmware or bootloader doesn't use or care about a particular type partition the corresponding entry should be empty, i.e. partition table entry memset to 0x00.
*
* 3) flash FS must start at sector 0. IMPORTANT: There is existing blackbox/flash FS code the relies on this!!!
*/
static void flashConfigurePartitions(void)
{
const flashGeometry_t *flashGeometry = flashGetGeometry();
if (flashGeometry->totalSize == 0) {
return;
}
flashSector_t startSector = 0;
flashSector_t endSector = flashGeometry->sectors - 1; // 0 based index
const flashPartition_t *badBlockPartition = flashFindPartitionByUsage(FLASH_PARTITION_BADBLOCK_MANAGEMENT);
if (badBlockPartition) {
endSector = badBlockPartition->startSector - 1;
}
#if defined(FIRMWARE_SIZE)
const uint32_t firmwareSize = (FIRMWARE_SIZE * 1024);
flashSector_t firmwareSectors = (firmwareSize / flashGeometry->sectorSize);
if (firmwareSize % flashGeometry->sectorSize > 0) {
firmwareSectors++; // needs a portion of a sector.
}
startSector = (endSector + 1) - firmwareSectors; // + 1 for inclusive
const flashPartition_t firmwarePartition = {
.usage = FLASH_PARTITION_FIRMWARE,
.startSector = startSector,
.endSector = endSector
};
endSector = startSector - 1;
startSector = 0;
flashSetPartition(1, &firmwarePartition);
#endif
#ifdef USE_FLASHFS
const flashPartition_t flashFsPartition = {
.usage = FLASH_PARTITION_FLASHFS,
.startSector = startSector,
.endSector = endSector
};
flashSetPartition(2, &flashFsPartition);
#endif
}
void flashSetPartition(uint8_t index, const flashPartition_t *partition)
{
memcpy(&flashPartitionTable.partitions[index], partition, sizeof(*partition));
}
const flashPartition_t *flashFindPartitionByUsage(uint8_t usage)
{
for (int index = 0; index < FLASH_MAX_PARTITIONS; index++) {
flashPartition_t *candidate = &flashPartitionTable.partitions[index];
if (candidate->usage == usage) {
return candidate;
}
}
return NULL;
}
#endif // USE_FLASH_CHIP

30
src/main/drivers/flash.h
View file

@ -36,8 +36,10 @@ typedef enum {
FLASH_TYPE_NAND
} flashType_e;
typedef uint16_t flashSector_t;
typedef struct flashGeometry_s {
uint16_t sectors; // Count of the number of erasable blocks on the device
flashSector_t sectors; // Count of the number of erasable blocks on the device
uint16_t pageSize; // In bytes
uint32_t sectorSize; // This is just pagesPerSector * pageSize
uint32_t totalSize; // This is just sectorSize * sectors
@ -59,3 +61,29 @@ void flashPageProgram(uint32_t address, const uint8_t *data, int length);
int flashReadBytes(uint32_t address, uint8_t *buffer, int length);
void flashFlush(void);
const flashGeometry_t *flashGetGeometry(void);
//
// flash partitioning api
//
typedef struct flashPartition_s {
uint8_t usage;
flashSector_t startSector;
flashSector_t endSector;
} flashPartition_t;
#define FLASH_PARTITION_SECTOR_COUNT(partition) (partition->endSector + 1 - partition->startSector) // + 1 for inclusive, start and end sector can be the same sector.
#define FLASH_PARTITION_UNKNOWN 0
#define FLASH_PARTITION_FLASHFS 1
#define FLASH_PARTITION_BADBLOCK_MANAGEMENT 2
#define FLASH_PARTITION_FIRMWARE 3
#define FLASH_MAX_PARTITIONS 3
typedef struct flashPartitionTable_s {
flashPartition_t partitions[FLASH_MAX_PARTITIONS];
} flashPartitionTable_t;
void flashSetPartition(uint8_t index, const flashPartition_t *partition);
const flashPartition_t *flashFindPartitionByUsage(uint8_t usage);

24
src/main/drivers/flash_w25n01g.c
View file

@ -58,6 +58,15 @@ serialPort_t *debugSerialPort = NULL;
#define W25N01G_PAGES_PER_BLOCK 64
#define W25N01G_BLOCKS_PER_DIE 1024
// BB replacement area
#define W25N01G_BB_MARKER_BLOCKS 1
#define W25N01G_BB_REPLACEMENT_BLOCKS 20
#define W25N01G_BB_MANAGEMENT_BLOCKS (W25N01G_BB_REPLACEMENT_BLOCKS + W25N01G_BB_MARKER_BLOCKS)
// blocks are zero-based index
#define W25N01G_BB_REPLACEMENT_START_BLOCK (W25N01G_BLOCKS_PER_DIE - W25N01G_BB_REPLACEMENT_BLOCKS)
#define W25N01G_BB_MANAGEMENT_START_BLOCK (W25N01G_BLOCKS_PER_DIE - W25N01G_BB_MANAGEMENT_BLOCKS)
#define W25N01G_BB_MARKER_BLOCK (W25N01G_BB_REPLACEMENT_START_BLOCK - W25N01G_BB_MARKER_BLOCKS)
// Instructions
#define W25N01G_INSTRUCTION_RDID 0x9F
@ -113,12 +122,6 @@ serialPort_t *debugSerialPort = NULL;
#define W25N01G_BLOCK_TO_PAGE(block) ((block) * W25N01G_PAGES_PER_BLOCK)
#define W25N01G_BLOCK_TO_LINEAR(block) (W25N01G_BLOCK_TO_PAGE(block) * W25N01G_PAGE_SIZE)
// BB replacement area
#define W25N01G_BB_MARKER_BLOCKS 1
#define W25N01G_BB_REPLACEMENT_BLOCKS 21
#define W25N01G_BB_REPLACEMENT_START_BLOCK (W25N01G_BLOCKS_PER_DIE - W25N01G_BB_REPLACEMENT_BLOCKS)
#define W25N01G_BB_MARKER_BLOCK (W25N01G_BB_REPLACEMENT_START_BLOCK - W25N01G_BB_MARKER_BLOCKS)
// The timeout values (2ms minimum to avoid 1 tick advance in consecutive calls to millis).
#define W25N01G_TIMEOUT_PAGE_READ_MS 2 // tREmax = 60us (ECC enabled)
#define W25N01G_TIMEOUT_PAGE_PROGRAM_MS 2 // tPPmax = 700us
@ -322,6 +325,12 @@ static void w25n01g_writeEnable(flashDevice_t *fdevice)
*/
const flashVTable_t w25n01g_vTable;
static const flashPartition_t badBlockPartition = {
.usage = FLASH_PARTITION_BADBLOCK_MANAGEMENT,
.startSector = W25N01G_BB_MANAGEMENT_START_BLOCK,
.endSector = W25N01G_BB_MANAGEMENT_START_BLOCK + W25N01G_BB_MANAGEMENT_BLOCKS - 1 // -1 for inclusive, 0 based.
};
static void w25n01g_deviceInit(flashDevice_t *flashdev);
bool w25n01g_detect(flashDevice_t *fdevice, uint32_t chipID)
@ -354,10 +363,11 @@ bool w25n01g_detect(flashDevice_t *fdevice, uint32_t chipID)
}
fdevice->geometry.flashType = FLASH_TYPE_NAND;
fdevice->geometry.sectors -= W25N01G_BB_REPLACEMENT_BLOCKS;
fdevice->geometry.sectorSize = fdevice->geometry.pagesPerSector * fdevice->geometry.pageSize;
fdevice->geometry.totalSize = fdevice->geometry.sectorSize * fdevice->geometry.sectors;
flashSetPartition(0, &badBlockPartition);
fdevice->couldBeBusy = true; // Just for luck we'll assume the chip could be busy even though it isn't specced to be
w25n01g_deviceReset(fdevice);

6
src/main/fc/init.c
View file

@ -716,11 +716,9 @@ void init(void)
#endif
#ifdef USE_FLASH_CHIP
bool haveFlash = flashInit(flashConfig());
flashInit(flashConfig());
#ifdef USE_FLASHFS
if (haveFlash) {
flashfsInit();
}
flashfsInit();
#endif
#endif

71
src/main/io/flashfs.c
View file

@ -43,6 +43,10 @@
#include "io/flashfs.h"
static const flashPartition_t *flashPartition = NULL;
static const flashGeometry_t *flashGeometry = NULL;
static uint32_t flashfsSize = 0;
static uint8_t flashWriteBuffer[FLASHFS_WRITE_BUFFER_SIZE];
/* The position of our head and tail in the circular flash write buffer.
@ -74,7 +78,10 @@ static void flashfsSetTailAddress(uint32_t address)
void flashfsEraseCompletely(void)
{
flashEraseCompletely();
for (flashSector_t sectorIndex = flashPartition->startSector; sectorIndex <= flashPartition->endSector; sectorIndex++) {
uint32_t sectorAddress = sectorIndex * flashGeometry->sectorSize;
flashEraseSector(sectorAddress);
}
flashfsClearBuffer();
@ -87,24 +94,23 @@ void flashfsEraseCompletely(void)
*/
void flashfsEraseRange(uint32_t start, uint32_t end)
{
const flashGeometry_t *geometry = flashGetGeometry();
if (geometry->sectorSize <= 0)
if (flashGeometry->sectorSize <= 0)
return;
// Round the start down to a sector boundary
int startSector = start / geometry->sectorSize;
int startSector = start / flashGeometry->sectorSize;
// And the end upward
int endSector = end / geometry->sectorSize;
int endRemainder = end % geometry->sectorSize;
int endSector = end / flashGeometry->sectorSize;
int endRemainder = end % flashGeometry->sectorSize;
if (endRemainder > 0) {
endSector++;
}
for (int i = startSector; i < endSector; i++) {
flashEraseSector(i * geometry->sectorSize);
for (int sectorIndex = startSector; sectorIndex < endSector; sectorIndex++) {
uint32_t sectorAddress = sectorIndex * flashGeometry->sectorSize;
flashEraseSector(sectorAddress);
}
}
@ -120,12 +126,12 @@ bool flashfsIsReady(void)
bool flashfsIsSupported(void)
{
return flashfsGetSize() > 0;
return flashfsSize > 0;
}
uint32_t flashfsGetSize(void)
{
return flashGetGeometry()->totalSize;
return flashfsSize;
}
static uint32_t flashfsTransmitBufferUsed(void)
@ -152,11 +158,6 @@ uint32_t flashfsGetWriteBufferFreeSpace(void)
return flashfsGetWriteBufferSize() - flashfsTransmitBufferUsed();
}
const flashGeometry_t* flashfsGetGeometry(void)
{
return flashGetGeometry();
}
/**
* Write the given buffers to flash sequentially at the current tail address, advancing the tail address after
* each write.
@ -192,7 +193,7 @@ static uint32_t flashfsWriteBuffers(uint8_t const **buffers, uint32_t *bufferSiz
uint32_t bytesTotalRemaining = bytesTotal;
uint16_t pageSize = flashfsGetGeometry()->pageSize;
uint16_t pageSize = flashGeometry->pageSize;
while (bytesTotalRemaining > 0) {
uint32_t bytesTotalThisIteration;
@ -482,9 +483,9 @@ int flashfsReadAbs(uint32_t address, uint8_t *buffer, unsigned int len)
int bytesRead;
// Did caller try to read past the end of the volume?
if (address + len > flashfsGetSize()) {
if (address + len > flashfsSize) {
// Truncate their request
len = flashfsGetSize() - address;
len = flashfsSize - address;
}
// Since the read could overlap data in our dirty buffers, force a sync to clear those first
@ -528,7 +529,7 @@ int flashfsIdentifyStartOfFreeSpace(void)
} testBuffer;
int left = 0; // Smallest block index in the search region
int right = flashfsGetSize() / FREE_BLOCK_SIZE; // One past the largest block index in the search region
int right = flashfsSize / FREE_BLOCK_SIZE; // One past the largest block index in the search region
int mid;
int result = right;
int i;
@ -571,12 +572,12 @@ int flashfsIdentifyStartOfFreeSpace(void)
*/
bool flashfsIsEOF(void)
{
return tailAddress >= flashfsGetSize();
return tailAddress >= flashfsSize;
}
void flashfsClose(void)
{
switch(flashfsGetGeometry()->flashType) {
switch(flashGeometry->flashType) {
case FLASH_TYPE_NOR:
break;
@ -584,7 +585,7 @@ void flashfsClose(void)
flashFlush();
// Advance tailAddress to next page boundary.
uint32_t pageSize = flashfsGetGeometry()->pageSize;
uint32_t pageSize = flashGeometry->pageSize;
flashfsSetTailAddress((tailAddress + pageSize - 1) & ~(pageSize - 1));
break;
@ -594,30 +595,36 @@ void flashfsClose(void)
/**
* Call after initializing the flash chip in order to set up the filesystem.
*/
void flashfsInit(void)
void flashfsInit()
{
// If we have a flash chip present at all
if (flashfsGetSize() > 0) {
// Start the file pointer off at the beginning of free space so caller can start writing immediately
flashfsSeekAbs(flashfsIdentifyStartOfFreeSpace());
flashfsSize = 0;
flashPartition = flashFindPartitionByUsage(FLASH_PARTITION_FLASHFS);
flashGeometry = flashGetGeometry();
if (!flashPartition) {
return;
}
flashfsSize = FLASH_PARTITION_SECTOR_COUNT(flashPartition) * flashGeometry->sectorSize;
// Start the file pointer off at the beginning of free space so caller can start writing immediately
flashfsSeekAbs(flashfsIdentifyStartOfFreeSpace());
}
#ifdef USE_FLASH_TOOLS
bool flashfsVerifyEntireFlash(void)
{
flashEraseCompletely();
flashfsEraseCompletely();
flashfsInit();
const flashGeometry_t *flashGeometry = flashfsGetGeometry();
uint32_t address = 0;
flashfsSeekAbs(address);
const int bufferSize = 32;
char buffer[bufferSize + 1];
const uint32_t testLimit = flashGeometry->totalSize;
const uint32_t testLimit = flashfsGetSize();
for (address = 0; address < testLimit; address += bufferSize) {
tfp_sprintf(buffer, "%08x >> **0123456789ABCDEF**", address);

8
src/main/msp/msp.c
View file

@ -337,10 +337,12 @@ static void serializeDataflashSummaryReply(sbuf_t *dst)
if (flashfsIsSupported()) {
uint8_t flags = MSP_FLASHFS_FLAG_SUPPORTED;
flags |= (flashfsIsReady() ? MSP_FLASHFS_FLAG_READY : 0);
const flashGeometry_t *geometry = flashfsGetGeometry();
const flashPartition_t *flashPartition = flashFindPartitionByUsage(FLASH_PARTITION_FLASHFS);
sbufWriteU8(dst, flags);
sbufWriteU32(dst, geometry->sectors);
sbufWriteU32(dst, geometry->totalSize);
sbufWriteU32(dst, FLASH_PARTITION_SECTOR_COUNT(flashPartition));
sbufWriteU32(dst, flashfsGetSize());
sbufWriteU32(dst, flashfsGetOffset()); // Effectively the current number of bytes stored on the volume
} else
#endif

7
src/main/osd/osd.c
View file

@ -432,8 +432,11 @@ static void osdGetBlackboxStatusString(char * buff)
#ifdef USE_FLASHFS
case BLACKBOX_DEVICE_FLASH:
if (storageDeviceIsWorking) {
const flashGeometry_t *geometry = flashfsGetGeometry();
storageTotal = geometry->totalSize / 1024;
const flashPartition_t *flashPartition = flashFindPartitionByUsage(FLASH_PARTITION_FLASHFS);
const flashGeometry_t *flashGeometry = flashGetGeometry();
storageTotal = ((FLASH_PARTITION_SECTOR_COUNT(flashPartition) * flashGeometry->sectorSize) / 1024);
storageUsed = flashfsGetOffset() / 1024;
}
break;