get uf2 writing works
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3a2d350c88
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6e9ecad3c8
@ -68,6 +68,8 @@ enum { FL_PAGE_SIZE = 4096 };
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/* UF2
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*------------------------------------------------------------------*/
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void read_block(uint32_t block_no, uint8_t *data);
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int write_block(uint32_t block_no, uint8_t *data, bool quiet/*, WriteState *state*/);
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void ghostfat_init();
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/*------------------------------------------------------------------*/
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/* VARIABLES
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@ -75,7 +77,7 @@ void read_block(uint32_t block_no, uint8_t *data);
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static uint8_t _page_cached[FL_PAGE_SIZE] ATTR_ALIGNED(4);
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volatile static uint8_t _wr10_state;
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static pstorage_handle_t _fat_psh = { .module_id = 0, .block_id = MSC_UF2_FLASH_ADDR_START } ;
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static scsi_inquiry_data_t const mscd_inquiry_data =
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{
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@ -124,44 +126,22 @@ static inline uint32_t lba2addr(uint32_t lba)
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return MSC_UF2_FLASH_ADDR_START + lba*MSC_UF2_BLOCK_SIZE;
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}
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static void fat12_mkfs(void);
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/*------------------------------------------------------------------*/
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/*
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*------------------------------------------------------------------*/
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static void fat_pstorage_cb(pstorage_handle_t * p_handle, uint8_t op_code, uint32_t result, uint8_t * p_data, uint32_t data_len)
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{
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if ( result != NRF_SUCCESS )
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{
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_wr10_state = WRITE10_FAILED;
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TU_ASSERT(false, );
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}
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if ( PSTORAGE_CLEAR_OP_CODE == op_code)
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{
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if ( WRITE10_ERASING == _wr10_state) _wr10_state = WRITE10_ERASED;
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}
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else if ( PSTORAGE_STORE_OP_CODE == op_code)
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{
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if ( WRITE10_WRITING == _wr10_state) _wr10_state = WRITE10_WRITTEN;
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}
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}
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/*------------------------------------------------------------------*/
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/* API
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*------------------------------------------------------------------*/
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void msc_uf2_init(void)
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{
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pstorage_module_param_t fat_psp = { .cb = fat_pstorage_cb};
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pstorage_register(&fat_psp, &_fat_psh);
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ghostfat_init();
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}
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void msc_uf2_mount(void)
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{
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_wr10_state = WRITE10_IDLE;
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// reset every time it is plugged
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}
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void msc_uf2_umount(void)
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@ -252,17 +232,7 @@ int32_t tud_msc_scsi_cb (uint8_t rhport, uint8_t lun, uint8_t const scsi_cmd[16]
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/*------------------------------------------------------------------*/
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/* Tinyusb Flash READ10 & WRITE10
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*------------------------------------------------------------------*/
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static bool fl_page_erase(uint32_t addr)
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{
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_fat_psh.block_id = addr;
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return NRF_SUCCESS == pstorage_clear(&_fat_psh, FL_PAGE_SIZE);
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}
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static bool fl_page_write(uint32_t addr, uint8_t* buf, uint16_t bufsize)
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{
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_fat_psh.block_id = addr;
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return NRF_SUCCESS == pstorage_store(&_fat_psh, buf, bufsize, 0);
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}
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int32_t tud_msc_read10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t offset, void* buffer, uint32_t bufsize)
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{
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@ -289,84 +259,18 @@ int32_t tud_msc_write10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t
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{
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(void) rhport; (void) lun;
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return bufsize;
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uint32_t count = 0;
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int wr_ret;
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uint32_t addr = lba2addr(lba) + offset;
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/* 0. Check if flash is the same as data -> skip if matches
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* 1. queue flash erase pstorage_clear(), return 0 until erasing is done
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* 2. queue flash writing, return 0 until writing is complete
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* 3. return written bytes.
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*
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* Note since CFG_TUD_MSC_BUFSIZE is 4KB, bufsize is cap at 4KB
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*/
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switch(_wr10_state)
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while ( (count < bufsize) && ((wr_ret = write_block(lba, buffer, false)) > 0) )
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{
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case WRITE10_IDLE:
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{
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// No need to write if flash's content matches with data
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if ( 0 == memcmp(buffer, (void*) addr, bufsize) ) return bufsize;
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uint32_t page_addr = align4k(addr);
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uint32_t off4k = offset4k(addr);
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// Cache contents from start of page to current address
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if ( off4k )
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{
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memcpy(_page_cached, (uint8_t*) page_addr, off4k);
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lba++;
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buffer += 512;
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count += 512;
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}
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// Copy new data
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memcpy(_page_cached+off4k, buffer, bufsize);
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// Cache contents after data to end of page
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if ( off4k + bufsize < FL_PAGE_SIZE)
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{
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memcpy(_page_cached+off4k+bufsize, (uint8_t*) (addr+bufsize), FL_PAGE_SIZE - (off4k + bufsize ) );
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}
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// Start erasing
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TU_ASSERT( fl_page_erase(align4k(addr)), -1);
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_wr10_state = WRITE10_ERASING;
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// Tell tinyusb that we are not ready to consume its data
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// The stack will keep the data and call again
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return 0;
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}
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break;
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case WRITE10_ERASING:
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// still erasing, nothing else to do
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return 0;
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break;
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case WRITE10_ERASED:
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// Start writing
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TU_ASSERT( fl_page_write(align4k(addr), _page_cached, FL_PAGE_SIZE), -1);
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_wr10_state = WRITE10_WRITING;
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return 0;
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break;
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case WRITE10_WRITING:
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return 0;
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break;
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case WRITE10_WRITTEN:
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_wr10_state = WRITE10_IDLE; // back to idle
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// positive return means we complete the operation, tinyusb can receiving next write10
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return bufsize;
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break;
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case WRITE10_FAILED:
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_wr10_state = WRITE10_IDLE;
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return -1;
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break;
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default: return -1; break;
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}
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// Consider non-uf2 block write as successful
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return (wr_ret < 0) ? bufsize : count;
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}
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#endif
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@ -4,9 +4,10 @@
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#include <string.h>
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#include "tusb.h"
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// to determine application size
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#include "bootloader_settings.h"
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#include "bootloader.h"
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#include "pstorage.h"
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typedef struct {
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uint8_t JumpInstruction[3];
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@ -117,11 +118,19 @@ static const FAT_BootBlock BootBlock = {
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#define NO_CACHE 0xffffffff
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#define NRF_LOG_DEBUG(...)
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#define NRF_LOG_WARNING(...)
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uint32_t flashAddr = NO_CACHE;
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uint8_t flashBuf[FLASH_PAGE_SIZE] __attribute__((aligned(4)));
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bool firstFlush = true;
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bool hadWrite = false;
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//bool hadWrite = false;
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static WriteState uf2_wr_state = { 0 };
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static WriteState* state = &uf2_wr_state;
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volatile bool _is_flashing = false;
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static pstorage_handle_t _fat_psh = { .module_id = 0, .block_id = USER_FLASH_END } ;
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static uint32_t get_flash_size(void)
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@ -147,19 +156,59 @@ static uint32_t get_flash_size(void)
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return flash_sz;
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}
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#if 0
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void fat_pstorage_cb(pstorage_handle_t * p_handle, uint8_t op_code, uint32_t result, uint8_t * p_data, uint32_t data_len)
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{
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if ( result != NRF_SUCCESS )
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{
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TU_ASSERT(false, );
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}
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if ( PSTORAGE_CLEAR_OP_CODE == op_code)
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{
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// erase complete start writing
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_fat_psh.block_id = p_handle->block_id;
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TU_ASSERT( pstorage_store(&_fat_psh, flashBuf, FLASH_PAGE_SIZE, 0), );
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}
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else if ( PSTORAGE_STORE_OP_CODE == op_code)
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{
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// write completes
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_is_flashing = false;
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// whole uf2 file is written, inform bootloader to update setting and reset
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if ( state->numWritten >= state->numBlocks )
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{
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dfu_update_status_t update_status;
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memset(&update_status, 0, sizeof(dfu_update_status_t ));
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update_status.status_code = DFU_UPDATE_APP_COMPLETE;
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update_status.app_crc = 0; // skip CRC checking with uf2 upgrade
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update_status.app_size = state->numBlocks*256;
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bootloader_dfu_update_process(update_status);
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}
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}
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}
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void ghostfat_init(void)
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{
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pstorage_module_param_t fat_psp = { .cb = fat_pstorage_cb};
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pstorage_register(&fat_psp, &_fat_psh);
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}
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void flushFlash() {
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if (flashAddr == NO_CACHE)
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return;
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if (firstFlush) {
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firstFlush = false;
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#if 0
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if (sdRunning) {
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// disable SD - we need sync access to flash, and we might be also overwriting the SD
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nrf_sdh_disable_request();
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nrf_dfu_settings_init(false);
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}
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firstFlush = false;
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s_dfu_settings.write_offset = 0;
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s_dfu_settings.sd_size = 0;
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@ -170,17 +219,21 @@ void flushFlash() {
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memset(&s_dfu_settings.bank_1, 0, sizeof(s_dfu_settings.bank_1));
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nrf_dfu_settings_write(NULL);
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#endif
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}
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int32_t sz = flashAddr + FLASH_PAGE_SIZE;
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if (s_dfu_settings.bank_0.image_size < sz)
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s_dfu_settings.bank_0.image_size = sz;
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// int32_t sz = flashAddr + FLASH_PAGE_SIZE;
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// if (s_dfu_settings.bank_0.image_size < sz)
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// s_dfu_settings.bank_0.image_size = sz;
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NRF_LOG_DEBUG("Flush at %x", flashAddr);
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if (memcmp(flashBuf, (void *)flashAddr, FLASH_PAGE_SIZE) != 0) {
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NRF_LOG_DEBUG("Write flush at %x", flashAddr);
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nrf_nvmc_page_erase(flashAddr);
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nrf_nvmc_write_words(flashAddr, (uint32_t *)flashBuf, FLASH_PAGE_SIZE / sizeof(uint32_t));
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_is_flashing = true;
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// Writing to flash will be done in erase complete callback
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_fat_psh.block_id = flashAddr;
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TU_ASSERT ( pstorage_clear(&_fat_psh, FLASH_PAGE_SIZE), );
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}
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flashAddr = NO_CACHE;
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@ -191,16 +244,22 @@ void flushFlash() {
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void flash_write(uint32_t dst, const uint8_t *src, int len) {
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uint32_t newAddr = dst & ~(FLASH_PAGE_SIZE - 1);
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hadWrite = true;
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// hadWrite = true;
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if (newAddr != flashAddr) {
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flushFlash();
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// writing previous cached data, skip current data until flashing is done
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// tinyusb stack will invoke write_block() with the same parameters later on
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if ( _is_flashing ) return;
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flashAddr = newAddr;
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memcpy(flashBuf, (void *)newAddr, FLASH_PAGE_SIZE);
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}
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memcpy(flashBuf + (dst & (FLASH_PAGE_SIZE - 1)), src, len);
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}
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#if 0
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void uf2_timer(void *p_context) {
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UNUSED_PARAMETER(p_context);
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if (hadWrite) {
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@ -229,6 +288,9 @@ void padded_memcpy(char *dst, const char *src, int len) {
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}
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/*------------------------------------------------------------------*/
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/*
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*------------------------------------------------------------------*/
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void read_block(uint32_t block_no, uint8_t *data) {
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memset(data, 0, 512);
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uint32_t sectionIdx = block_no;
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@ -290,16 +352,25 @@ void read_block(uint32_t block_no, uint8_t *data) {
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}
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}
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#if 0
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void write_block(uint32_t block_no, uint8_t *data, bool quiet, WriteState *state) {
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/** Write an block
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*
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* @return number of bytes processed, only 3 following values
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* -1 : if not an uf2 block
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* 512 : write is successful
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* 0 : is busy with flashing, tinyusb stack will call write_block again with the same parameters later on
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*/
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int write_block(uint32_t block_no, uint8_t *data, bool quiet/*, WriteState *state*/) {
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UF2_Block *bl = (void *)data;
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// NRF_LOG_DEBUG("Write magic: %x", bl->magicStart0);
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NRF_LOG_DEBUG("Write magic: %x", bl->magicStart0);
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if (!is_uf2_block(bl)) {
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return;
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return -1;
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}
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// still busy with flashing previous blocks
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if ( _is_flashing ) return 0;
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if ((bl->flags & UF2_FLAG_NOFLASH) || bl->payloadSize > 256 || (bl->targetAddr & 0xff) ||
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bl->targetAddr < USER_FLASH_START || bl->targetAddr + bl->payloadSize > USER_FLASH_END) {
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#if USE_DBG_MSC
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@ -315,7 +386,10 @@ void write_block(uint32_t block_no, uint8_t *data, bool quiet, WriteState *state
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flash_write(bl->targetAddr, bl->data, bl->payloadSize);
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}
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bool isSet = false;
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// flash_write cause a flush to write previous cached data, this write data is not consumed yet
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if ( _is_flashing ) return 0;
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// bool isSet = false;
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if (state && bl->numBlocks) {
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if (state->numBlocks != bl->numBlocks) {
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@ -336,16 +410,21 @@ void write_block(uint32_t block_no, uint8_t *data, bool quiet, WriteState *state
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// wait a little bit before resetting, to avoid Windows transmit error
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// https://github.com/Microsoft/uf2-samd21/issues/11
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if (!quiet) {
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uf2_timer_start(30);
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isSet = true;
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// uf2_timer_start(30);
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// isSet = true;
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}
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// flush last blocks
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flushFlash();
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}
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}
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NRF_LOG_DEBUG("wr %d=%d (of %d)", state->numWritten, bl->blockNo, bl->numBlocks);
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}
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if (!isSet && !quiet) {
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// uf2_timer_start(500);
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}
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// if (!isSet && !quiet) {
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// // uf2_timer_start(500);
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// }
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return 512;
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}
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#endif
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