use uf2 ghotsfat

2018-06-21 12:22:42 +07:00 · 2018-06-21 12:22:42 +07:00 · 56f126e715
commit 56f126e715
parent 85c08ee084
5 changed files with 28 additions and 284 deletions
--- a/lib/tinyusb
+++ b/lib/tinyusb
@ -1 +1 @@
-Subproject commit 3ace03cbc7dc98943f6b43cff3e6397302eae23a
+Subproject commit 5f1bec943b2a227d6b6f2188644c7641828787e7
--- a/src/segger/nrf52840_bootloader.emProject
+++ b/src/segger/nrf52840_bootloader.emProject
@ -64,6 +64,7 @@
        <folder Name="uf2">
          <file file_name="../usb/uf2/uf2cfg.h" />
          <file file_name="../usb/uf2/uf2.h" />
          <file file_name="../usb/uf2/ghostfat.c" />
        </folder>
        <file file_name="../usb/msc_uf2.c" />
        <file file_name="../usb/msc_uf2.h" />
--- a/src/usb/msc_uf2.c
+++ b/src/usb/msc_uf2.c
@ -43,8 +43,6 @@
 // for formatting fatfs when Softdevice is not enabled
 #include "nrf_nvmc.h"
 #include "uf2/uf2.h"
 #define SECTORS_PER_FAT   7
 #define ROOT_DIR_SECTOR   8
@ -66,132 +64,18 @@ enum
 enum { FL_PAGE_SIZE = 4096 };
 /*------------------------------------------------------------------*/
 /* FAT12
 *------------------------------------------------------------------*/
 typedef struct ATTR_PACKED {
  uint8_t  jump_code[3]       ; ///< Assembly instruction to jump to boot code.
  uint8_t  oem_name[8]        ; ///< OEM Name in ASCII.
  // Bios Parameter Block
  uint16_t sector_sz          ; ///< Bytes per sector. Allowed values include 512, 1024, 2048, and 4096.
  uint8_t  sector_per_cluster ; ///< Sectors per cluster (data unit). Allowed values are powers of 2, but the cluster size must be 32KB or smaller.
  uint16_t reserved_sectors   ; ///< Size in sectors of the reserved area.
  uint8_t  fat_copies         ; ///< Number of FATs. Typically two for redundancy, but according to Microsoft it can be one for some small storage devices.
  uint16_t root_entry_count   ; ///< Maximum number of files in the root directory for FAT12 and FAT16. This is 0 for FAT32 and typically 512 for FAT16.
  uint16_t sector_count       ; ///< 16-bit number of sectors in file system. If the number of sectors is larger than can be represented in this 2-byte value, a 4-byte value exists later in the data structure and this should be 0.
  uint8_t  media_type         ; ///< 0xf8 should be used for fixed disks and 0xf0 for removable.
  uint16_t sector_per_fat     ; ///< 16-bit size in sectors of each FAT for FAT12 and FAT16. For FAT32, this field is 0.
  uint16_t sector_per_track   ; ///< Sectors per track of storage device.
  uint16_t head_num           ; ///< Number of heads in storage device.
  uint32_t not_used1          ; ///< Number of sectors before the start of partition.
  uint32_t not_used2          ; ///< 32-bit value of number of sectors in file system. Either this value or the 16-bit value above must be 0.
  // Extended BPB
  uint8_t  drive_number       ; ///< Physical drive number (0x00 for (first) removable media, 0x80 for (first) fixed disk
  uint8_t  not_used3          ; ///< Some OS uses this as drive letter (e.g 0 = C:, 1 = D: etc ...), should be 0 when formatted
  uint8_t  ext_boot_signature ; ///< should be 0x29
  uint32_t volume_id          ; ///< Volume serial number, which some versions of Windows will calculate based on the creation date and time.
  uint8_t  volume_label[11]   ;
  uint8_t  fs_type[8]         ; ///< File system type label in ASCII, padded with blank (0x20). Standard values include "FAT," "FAT12," and "FAT16," but nothing is required.
 //  uint8_t  not_used4[448]     ;
 //  uint16_t signature          ; ///< Signature value (0xAA55).
 }fat12_boot_sector_t;
 VERIFY_STATIC(sizeof(fat12_boot_sector_t) == 62, "size is not correct");
 typedef struct ATTR_PACKED {
  uint8_t name[11];
  ATTR_PACKED_STRUCT(struct){
    uint8_t readonly       : 1;
    uint8_t hidden         : 1;
    uint8_t system         : 1;
    uint8_t volume_label   : 1;
    uint8_t directory      : 1;
    uint8_t archive        : 1;
  } attr; // Long File Name = 0x0f
  uint8_t reserved;
  uint8_t created_time_tenths_of_seconds;
  uint16_t created_time;
  uint16_t created_date;
  uint16_t accessed_date;
  uint16_t cluster_high;
  uint16_t written_time;
  uint16_t written_date;
  uint16_t cluster_low;
  uint32_t file_size;
 }fat_dirent_t;
 VERIFY_STATIC(sizeof(fat_dirent_t) == 32, "size is not correct");
 typedef struct ATTR_PACKED {
  uint16_t dir0 : 12;
  uint16_t dir1 : 12;
 }fat12_dirpair_t;
 VERIFY_STATIC(sizeof(fat12_dirpair_t) == 3, "size is not correct");
 /*------------------------------------------------------------------*/
 /* UF2
 *------------------------------------------------------------------*/
-const char infoUf2File[] = //
+void read_block(uint32_t block_no, uint8_t *data);
    "UF2 Bootloader " UF2_VERSION "\r\n"
    "Model: " PRODUCT_NAME "\r\n"
    "Board-ID: " BOARD_ID "\r\n";
 const char indexFile[] = //
    "<!doctype html>\n"
    "<html>"
    "<body>"
    "<script>\n"
    "location.replace(\"" INDEX_URL "\");\n"
    "</script>"
    "</body>"
    "</html>\n";
 const char readme_contents[] = "Adafruit Feather nRF52840";
 struct TextFile {
    const char name[11];
    const char *content;
 };
 static const struct TextFile info[] = {
    {.name = "INFO_UF2TXT", .content = infoUf2File},
    {.name = "INDEX   HTM", .content = indexFile},
    {.name = "CURRENT UF2", .content = readme_contents},
 };
 /*------------------------------------------------------------------*/
 /* VARIABLES
 *------------------------------------------------------------------*/
 struct
 {
  // Boot sector
  fat12_boot_sector_t boot;
  uint8_t  not_used4[448] ;
  uint16_t signature      ; ///< Signature value (0xAA55).
  // Fat
  uint8_t fat[SECTORS_PER_FAT*MSC_FLASH_BLOCK_SIZE];
  // Root Dir
  struct {
    fat_dirent_t dirent[(ROOT_DIR_SECTOR*MSC_FLASH_BLOCK_SIZE)/32];
  }root;
 } _disk_ram ATTR_ALIGNED(4);
 VERIFY_STATIC(sizeof(_disk_ram) == 16*MSC_FLASH_BLOCK_SIZE, "size is not correct");
 static uint8_t _page_cached[FL_PAGE_SIZE] ATTR_ALIGNED(4);
 volatile static uint8_t _wr10_state;
-static pstorage_handle_t _fat_psh = { .module_id = 0, .block_id = MSC_FLASH_ADDR_START } ;
+static pstorage_handle_t _fat_psh = { .module_id = 0, .block_id = MSC_UF2_FLASH_ADDR_START } ;
 static scsi_inquiry_data_t const mscd_inquiry_data =
 {
@ -205,8 +89,8 @@ static scsi_inquiry_data_t const mscd_inquiry_data =
 static scsi_read_capacity10_data_t const mscd_read_capacity10_data =
 {
-    .last_lba   = ENDIAN_BE(MSC_FLASH_BLOCK_NUM-1), // read capacity
+    .last_lba   = ENDIAN_BE(MSC_UF2_BLOCK_NUM-1), // read capacity
-    .block_size = ENDIAN_BE(MSC_FLASH_BLOCK_SIZE)
+    .block_size = ENDIAN_BE(MSC_UF2_BLOCK_SIZE)
 };
 static scsi_sense_fixed_data_t mscd_sense_data =
@ -219,9 +103,9 @@ static scsi_sense_fixed_data_t mscd_sense_data =
 static scsi_read_format_capacity_data_t const mscd_format_capacity_data =
 {
    .list_length     = 8,
-    .block_num       = ENDIAN_BE(MSC_FLASH_BLOCK_NUM), // write capacity
+    .block_num       = ENDIAN_BE(MSC_UF2_BLOCK_NUM), // write capacity
    .descriptor_type = 2, // TODO formatted media, refractor to const
-    .block_size_u16  = ENDIAN_BE16(MSC_FLASH_BLOCK_SIZE)
+    .block_size_u16  = ENDIAN_BE16(MSC_UF2_BLOCK_SIZE)
 };
 static scsi_mode_parameters_t const msc_dev_mode_para =
@ -237,7 +121,7 @@ static scsi_mode_parameters_t const msc_dev_mode_para =
 *------------------------------------------------------------------*/
 static inline uint32_t lba2addr(uint32_t lba)
 {
-  return MSC_FLASH_ADDR_START + lba*MSC_FLASH_BLOCK_SIZE;
+  return MSC_UF2_FLASH_ADDR_START + lba*MSC_UF2_BLOCK_SIZE;
 }
 static void fat12_mkfs(void);
@ -278,7 +162,6 @@ void msc_uf2_mount(void)
  _wr10_state = WRITE10_IDLE;
  // reset every time it is plugged
  fat12_mkfs();
 }
 void msc_uf2_umount(void)
@ -385,39 +268,30 @@ int32_t tud_msc_read10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t o
 {
  (void) rhport; (void) lun;
-  if ( lba < SECTOR_DATA )
+  // since we return block size each, offset should always be zero
  TU_ASSERT(offset == 0, -1);
  uint32_t count = 0;
  while ( count < bufsize )
  {
-    memcpy(buffer, ((uint8_t*) &_disk_ram) + lba*MSC_FLASH_BLOCK_SIZE, bufsize);
+    read_block(lba, buffer);
  }
  else
  {
    lba -= SECTOR_DATA;
-    if ( lba <  arrcount_(info) - 1 )
+    lba++;
-    {
+    buffer += 512;
-      strcpy(buffer, info[lba].content); // INFO_UF2.TXT & INDEX.HTM contents
+    count  += 512;
    }
    else
    {
      lba -= (arrcount_(info) - 1);
    }
  }
-  return bufsize;
+  return count;
 }
 int32_t tud_msc_write10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t offset, void* buffer, uint32_t bufsize)
 {
  (void) rhport; (void) lun;
-  uint32_t addr = lba2addr(lba) + offset;
+  return bufsize;
-  if ( lba < SECTOR_DATA )
+  uint32_t addr = lba2addr(lba) + offset;
  {
    memcpy(((uint8_t*) &_disk_ram) + lba*MSC_FLASH_BLOCK_SIZE, buffer, bufsize);
  }
  /* 0. Check if flash is the same as data -> skip if matches
   * 1. queue flash erase pstorage_clear(), return 0 until erasing is done
@ -495,132 +369,4 @@ int32_t tud_msc_write10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t
  }
 }
 //--------------------------------------------------------------------+
 // FAT12
 //--------------------------------------------------------------------+
 /* 0  ______________
 *   | Boot Sector |  Fat copies = 1, Fat size = 7
 *   |_____________|  Root Dir = 16*8 (4KB), sector per cluster = 1
 * 1 |    FAT0     |
 * . |             |
 * . |  ( 7x512 )  |
 * 7 |_____________|
 * 8 |   Root Dir  |
 * . |             |
 * . |  ( 8x512 )  |
 * 15|_____________|
 * 16|             |
 * . |             |
 * . |             |
 * . |    Data     |
 * . |    Area     |
 * . |             |
 * . |             |
 *   |_____________|
 */
 fat12_boot_sector_t const _boot_sect =
 {
    .jump_code          = { 0xEB, 0xFE, 0x90 },
    .oem_name           = "MSDOS5.0",
    .sector_sz          = MSC_FLASH_BLOCK_SIZE,
    .sector_per_cluster = 1,
    .reserved_sectors   = 1,
    .fat_copies         = 1,
    .root_entry_count   = (ROOT_DIR_SECTOR*MSC_FLASH_BLOCK_SIZE)/32,
    .sector_count       = MSC_FLASH_BLOCK_NUM,
    .media_type         = 0xf8, // fixed disk
    .sector_per_fat     = SECTORS_PER_FAT,
    .sector_per_track   = 1,
    .head_num           = 1,
    .not_used1          = 0,
    .not_used2          = 0,
    .drive_number       = 0,
    .not_used3          = 0,
    .ext_boot_signature = 0x29,
    .volume_id          = 0x00420042, // change later to typically date + time
    .volume_label       = MSC_FLASH_VOL_LABEL,
    .fs_type            = "FAT12   "
 };
 static void fat12_mkfs(void)
 {
  varclr_(&_disk_ram);
  /*------------- Sector 0: Boot Sector -------------*/
  _disk_ram.boot = _boot_sect;
  _disk_ram.signature = 0xAA55;
  //------------- Sector 1: FAT12 Table  -------------//
  // Dir entry 0 & 1 are always FF8 and FF8
  fat12_dirpair_t* dirpair;
  dirpair = (fat12_dirpair_t*) _disk_ram.fat;
  dirpair->dir0 = dirpair->dir1 = 0xFF8;
  // Dir entry 2 & 3 are FFF (end) of info and index since their size are less than 512
  dirpair = (fat12_dirpair_t*) (_disk_ram.fat+3);
  dirpair->dir0 = dirpair->dir1 = 0xFFF;
  // Dir entry chain for uf2 file
  dirpair = (fat12_dirpair_t*) (_disk_ram.fat+6);
  dirpair->dir0 = 0xFFF;
  dirpair->dir1 = 0x000;
  //------------- Root Directory -------------//
  // first entry is volume label
  _disk_ram.root.dirent[0] = (fat_dirent_t)
  {
    .name = MSC_FLASH_VOL_LABEL,
    .attr.volume_label = 1,
  };
  uint16_t data_cluster = 2; // logical data cluster always start from 2
  for(int i=0; i<arrcount_(info); i++)
  {
    fat_dirent_t* p_dir = _disk_ram.root.dirent+1+i;
    (*p_dir) = (fat_dirent_t)
    {
      .name = { 0 },
      .attr = { 0 },
      .reserved = 0,
      .created_time_tenths_of_seconds = 0,
      .created_time = 0x6D52,
      .created_date = 0x4365,
      .accessed_date = 0x4365,
      .cluster_high = 0,
      .written_time = 0x6D52,
      .written_date = 0x4365,
      .cluster_low = data_cluster,
      .file_size = strlen(info[i].content)
    };
    memcpy(p_dir->name, info[i].name, 11);
    data_cluster++;
  }
  //------------- Data Contents -------------//
 //  memclr_(_page_cached, sizeof(_page_cached));
 //
 //  for(int i=0; i<arrcount_(info); i++)
 //  {
 //    memcpy(_page_cached + i*512, info[i].content, strlen(info[i].content));
 //  }
 //
 //  // Erase and Write data cluster.
 //  fat12_write_sector(16, _page_cached, FL_PAGE_SIZE);
 }
 #endif
--- a/src/usb/msc_uf2.h
+++ b/src/usb/msc_uf2.h
@ -49,16 +49,13 @@
 /*------------------------------------------------------------------*/
 /* FLASH Configuration
 *------------------------------------------------------------------*/
-#define MSC_FLASH_ADDR_START    0xAD000
+#define MSC_UF2_FLASH_ADDR_START  0xAD000
-#define MSC_FLASH_SIZE          (256*1024)
+#define MSC_UF2_FLASH_SIZE        (256*1024)
-#define MSC_UF2_BLOCK_SIZE      512
+#define MSC_UF2_BLOCK_SIZE        512
-#define MSC_UF2_BLOCK_NUM       UF2_NUM_BLOCKS
+#define MSC_UF2_BLOCK_NUM         UF2_NUM_BLOCKS
-// must be 11 bytes padded with space
+VERIFY_STATIC( MSC_UF2_FLASH_ADDR_START+MSC_UF2_FLASH_SIZE == BOOTLOADER_REGION_START-DFU_APP_DATA_RESERVED, );
 #define MSC_FLASH_VOL_LABEL       "NRF52BOOT  "
 VERIFY_STATIC( MSC_FLASH_ADDR_START+MSC_FLASH_SIZE == BOOTLOADER_REGION_START-DFU_APP_DATA_RESERVED, );
 /*------------------------------------------------------------------*/
 /* Note ATTR_WEAK is used when CFG_TUD_MSC = 0
--- a/src/usb/uf2/uf2cfg.h
+++ b/src/usb/uf2/uf2cfg.h
@ -3,7 +3,7 @@
 #define BOARD_ID "NRF52-Bluefruit-v0"
 #define INDEX_URL "https://www.adafruit.com/product/0000"
 #define UF2_NUM_BLOCKS 8000
-#define VOLUME_LABEL "NRF52BOOT"
+#define VOLUME_LABEL "NRF52BOOT  "
 #define FLASH_SIZE (BOOTLOADER_REGION_START-USER_FLASH_START)
 // Only allow to write application
		`@ -1 +1 @@`
			`Subproject commit 3ace03cbc7dc98943f6b43cff3e6397302eae23a`				`Subproject commit 5f1bec943b2a227d6b6f2188644c7641828787e7`