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/*--------------------------------------------------------------------
 * TITLE: Plasma File System
 * AUTHOR: Steve Rhoads (rhoadss@yahoo.com)
 * DATE CREATED: 4/26/07
 * FILENAME: filesys.c
 * PROJECT: Plasma CPU core
 * COPYRIGHT: Software placed into the public domain by the author.
 *    Software 'as is' without warranty.  Author liable for nothing.
 * DESCRIPTION:
 *    Plasma File System.  Supports RAM, flash, and disk file systems.
 *    Possible call tree:
 *      OS_fclose()
 *        FileFindRecursive()      //find the existing file
 *          FileOpen()             //open root file system
 *          FileFind()             //find the next level of directory
 *            OS_fread()           //read the directory file
 *              BlockRead()        //read blocks of directory
 *                MediaBlockRead() //low level read
 *          FileOpen()             //open next directory
 *        OS_fwrite()              //write file entry into directory
 *        BlockRead()              //flush changes to directory
 *--------------------------------------------------------------------*/
#ifdef WIN32
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define  _LIBC
#endif
#include "rtos.h"
 
#define FLASH_SIZE        1024*1024*16
#define FLASH_SECTOR_SIZE 1024*128
#define FLASH_BLOCK_SIZE  512
#define FLASH_LN2_SIZE    9                  //2^FLASH_LN2_SIZE == FLASH_BLOCK_SIZE
#define FLASH_OFFSET      FLASH_SECTOR_SIZE  //offset to start of flash file system
 
#define BLOCK_SIZE        512
#define FILE_NAME_SIZE    40
#define FULL_NAME_SIZE    128
#define BLOCK_MALLOC      0x0
#define BLOCK_EOF         0xffffffff
 
typedef enum {
   FILE_MEDIA_RAM,
   FILE_MEDIA_FLASH,
   FILE_MEDIA_DISK
} OS_MediaType_e;
 
typedef struct OS_FileEntry_s {
   char name[FILE_NAME_SIZE];
   uint32 blockIndex;       //first block of file
   uint32 modifiedTime;
   uint32 length;
   uint8 isDirectory;
   uint8 attributes;
   uint8 valid;
   uint8 mediaType;
   uint16 blockSize;        //Normally BLOCK_SIZE
} OS_FileEntry_t;
 
typedef struct OS_Block_s {
   uint32 next;
   uint8 data[4];
} OS_Block_t;
 
struct OS_FILE_s {
   OS_FileEntry_t fileEntry;  //written to directory upon OS_fclose()
   uint8 fileModified;
   uint8 blockModified;
   uint32 blockIndex;         //index of block
   uint32 blockOffset;        //byte offset into block
   uint32 fileOffset;         //byte offset into file
   char fullname[FULL_NAME_SIZE]; //includes full path
   OS_Block_t *block;
   OS_Block_t *blockLocal;    //local copy for flash or disk file system
};
 
static OS_FileEntry_t rootFileEntry;
static OS_Mutex_t *mutexFilesys;
 
// Public prototypes
#ifndef _FILESYS_
typedef struct OS_FILE_s OS_FILE;
#endif
OS_FILE *OS_fopen(char *name, char *mode);
void OS_fclose(OS_FILE *file);
int OS_fread(void *buffer, int size, int count, OS_FILE *file);
int OS_fwrite(void *buffer, int size, int count, OS_FILE *file);
int OS_fseek(OS_FILE *file, int offset, int mode);
int OS_fmkdir(char *name);
int OS_fdir(OS_FILE *dir, char name[64]);
void OS_fdelete(char *name);
 
 
/***************** Media Functions Start ***********************/
#ifdef INCLUDE_FLASH
#define FLASH_BLOCKS FLASH_SIZE/FLASH_BLOCK_SIZE
#define FLASH_START  (FLASH_OFFSET+FLASH_BLOCKS/8*2)/FLASH_BLOCK_SIZE
static unsigned char FlashBlockEmpty[FLASH_BLOCKS/8];
static unsigned char FlashBlockUsed[FLASH_BLOCKS/8];
static int FlashBlock;
 
//Free unused flash blocks
static int MediaBlockCleanup(void)
{
   int i, sector, block, count=0;
   unsigned char *buf;
 
   printf("FlashCleanup\n");
   buf = (unsigned char*)malloc(FLASH_SECTOR_SIZE);
   if(buf == NULL)
      return 0;
   for(sector = FLASH_OFFSET / FLASH_SECTOR_SIZE; sector < FLASH_SIZE / FLASH_SECTOR_SIZE; ++sector)
   {
      FlashRead((uint16*)buf, FLASH_SECTOR_SIZE*sector, FLASH_SECTOR_SIZE);
      if(sector == FLASH_OFFSET / FLASH_SECTOR_SIZE)
      {
         for(i = 0; i < FLASH_BLOCKS/8; ++i)
            FlashBlockEmpty[i] |= ~FlashBlockUsed[i];
         memcpy(buf, FlashBlockEmpty, sizeof(FlashBlockEmpty));
         memset(FlashBlockUsed, 0xff, sizeof(FlashBlockUsed));
         memset(buf+sizeof(FlashBlockEmpty), 0xff, sizeof(FlashBlockUsed));
      }
      //Erase empty blocks
      for(block = 0; block < FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE; ++block)
      {
         i = sector * FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE + block;
         if(i < FLASH_BLOCKS/8 && (FlashBlockEmpty[i >> 3] & (1 << (i & 7))))
         {
            memset(buf + FLASH_BLOCK_SIZE*block, 0xff, FLASH_BLOCK_SIZE);
            ++count;
         }
      }
      FlashErase(FLASH_SECTOR_SIZE * sector);
      FlashWrite((uint16*)buf, FLASH_SECTOR_SIZE * sector, FLASH_SECTOR_SIZE);
   }
   free(buf);
   return count;
}
 
 
int MediaBlockInit(void)
{
   FlashRead((uint16*)FlashBlockEmpty, FLASH_OFFSET, sizeof(FlashBlockEmpty));
   FlashRead((uint16*)FlashBlockUsed, FLASH_OFFSET+sizeof(FlashBlockEmpty),
             sizeof(FlashBlockUsed));
   FlashBlock = FLASH_START;
   return FlashBlockEmpty[FlashBlock >> 3] & (1 << (FlashBlock & 7));
}
#endif
 
 
static uint32 MediaBlockMalloc(OS_FILE *file)
{
   int i, j;
   (void)i; (void)j;
 
   if(file->fileEntry.mediaType == FILE_MEDIA_RAM)
      return (uint32)malloc(file->fileEntry.blockSize);
#ifdef INCLUDE_FLASH
   //Find empty flash block
   for(i = FlashBlock; i < FLASH_BLOCKS; ++i)
   {
      if(FlashBlockEmpty[i >> 3] & (1 << (i & 7)))
      {
         FlashBlock = i + 1;
         FlashBlockEmpty[i >> 3] &= ~(1 << (i & 7));
         j = i >> 3;
         j &= ~1;
         FlashWrite((uint16*)(FlashBlockEmpty + j), FLASH_OFFSET + j, 2);
         return i;
      }
   }
 
   i = MediaBlockCleanup();
   if(i == 0)
      return 0;
   FlashBlock = FLASH_START;
   return MediaBlockMalloc(file);
#else
   return 0;
#endif
}
 
 
static void MediaBlockFree(OS_FILE *file, uint32 blockIndex)
{
   if(file->fileEntry.mediaType == FILE_MEDIA_RAM)
      free((void*)blockIndex);
#ifdef INCLUDE_FLASH
   else
   {
      int i=blockIndex, j;
      FlashBlockUsed[i >> 3] &= ~(1 << (i & 7));
      j = i >> 3;
      j &= ~1;
      FlashWrite((uint16*)(FlashBlockUsed + j), FLASH_OFFSET + sizeof(FlashBlockEmpty) + j, 2);
   }
#endif
}
 
 
static void MediaBlockRead(OS_FILE *file, uint32 blockIndex)
{
   if(file->fileEntry.mediaType == FILE_MEDIA_RAM)
      file->block = (OS_Block_t*)blockIndex;
#ifdef INCLUDE_FLASH
   else
   {
      if(file->blockLocal == NULL)
         file->blockLocal = (OS_Block_t*)malloc(FLASH_BLOCK_SIZE);
      file->block = file->blockLocal;
      FlashRead((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE);
   }
#endif
}
 
 
static void MediaBlockWrite(OS_FILE *file, uint32 blockIndex)
{
   (void)file;
   (void)blockIndex;
#ifdef INCLUDE_FLASH
   if(file->fileEntry.mediaType != FILE_MEDIA_RAM)
      FlashWrite((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE);
#endif
}
 
/***************** Media Functions End *************************/
 
// Get the next block and write the old block if it was modified
static void BlockRead(OS_FILE *file, uint32 blockIndex)
{
   uint32 blockIndexSave = blockIndex;
 
   OS_MutexPend(mutexFilesys);
   if(blockIndex == BLOCK_MALLOC)
   {
      // Get a new block
      blockIndex = MediaBlockMalloc(file);
      if(blockIndex == 0)
         blockIndex = BLOCK_EOF;
      if(file->block)
      {
         // Set next pointer in previous block
         file->block->next = blockIndex;
         file->blockModified = 1;
      }
   }
   if(file->block && file->blockModified)
   {
      // Write block back to flash or disk
      MediaBlockWrite(file, file->blockIndex);
      file->blockModified = 0;
   }
   if(blockIndex == BLOCK_EOF)
   {
      OS_MutexPost(mutexFilesys);
      return;
   }
   file->blockIndex = blockIndex;
   file->blockOffset = 0;
   MediaBlockRead(file, blockIndex);
   if(blockIndexSave == BLOCK_MALLOC)
   {
      memset(file->block, 0xff, file->fileEntry.blockSize);
      file->blockModified = 1;
   }
   OS_MutexPost(mutexFilesys);
}
 
 
int OS_fread(void *buffer, int size, int count, OS_FILE *file)
{
   int items, bytes;
   uint8 *buf = (uint8*)buffer;
 
   for(items = 0; items < count; ++items)
   {
      for(bytes = 0; bytes < size; ++bytes)
      {
         if(file->fileOffset >= file->fileEntry.length &&
            file->fileEntry.isDirectory == 0)
            return items;
         if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32))
         {
            if(file->block->next == BLOCK_EOF)
               return items;
            BlockRead(file, file->block->next);
         }
         *buf++ = file->block->data[file->blockOffset++];
         ++file->fileOffset;
      }
   }
   return items;
}
 
 
int OS_fwrite(void *buffer, int size, int count, OS_FILE *file)
{
   int items, bytes;
   uint8 *buf = (uint8*)buffer;
 
   OS_MutexPend(mutexFilesys);
   file->blockModified = 1;
   for(items = 0; items < count; ++items)
   {
      for(bytes = 0; bytes < size; ++bytes)
      {
         if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32))
         {
            if(file->block->next == BLOCK_EOF)
               file->block->next = BLOCK_MALLOC;
            BlockRead(file, file->block->next);
            if(file->blockIndex == BLOCK_EOF)
            {
               count = 0;
               --items;
               break;
            }
            file->blockModified = 1;
         }
         file->block->data[file->blockOffset++] = *buf++;
         ++file->fileOffset;
      }
   }
   file->blockModified = 1;
   file->fileModified = 1;
   if(file->fileOffset > file->fileEntry.length)
      file->fileEntry.length = file->fileOffset;
   OS_MutexPost(mutexFilesys);
   return items;
}
 
 
int OS_fseek(OS_FILE *file, int offset, int mode)
{
   if(mode == 1)      //SEEK_CUR
      offset += file->fileOffset;
   else if(mode == 2) //SEEK_END
      offset += file->fileEntry.length;
   file->fileOffset = offset;
   BlockRead(file, file->fileEntry.blockIndex);
   while(offset > (int)file->fileEntry.blockSize - (int)sizeof(uint32))
   {
      BlockRead(file, file->block->next);
      offset -= file->fileEntry.blockSize - (int)sizeof(uint32);
   }
   file->blockOffset = offset;
   return 0;
}
 
 
static int FileOpen(OS_FILE *file, char *name, OS_FileEntry_t *fileEntry)
{
   memset(file, 0, sizeof(OS_FILE));
   if(fileEntry == NULL)
   {
      // Open root file
      memcpy(&file->fileEntry, &rootFileEntry, sizeof(OS_FileEntry_t));
   }
   else if(fileEntry->valid == 1)
   {
      // Open existing file
      memcpy(&file->fileEntry, fileEntry, sizeof(OS_FileEntry_t));
   }
   else
   {
      // Initialize new file
      file->fileModified = 1;
      file->blockModified = 1;
      memset(&file->fileEntry, 0, sizeof(OS_FileEntry_t));
      file->fileEntry.isDirectory = 0;
      file->fileEntry.length = 0;
      strncpy(file->fileEntry.name, name, FILE_NAME_SIZE-1);
      file->fileEntry.blockIndex = 0;
      file->fileEntry.valid = 1;
      file->fileEntry.blockSize = fileEntry->blockSize;
      file->fileEntry.mediaType = fileEntry->mediaType;
   }
   BlockRead(file, file->fileEntry.blockIndex);    //Get first block
   file->fileEntry.blockIndex = file->blockIndex;
   file->fileOffset = 0;
   if(file->blockIndex == BLOCK_EOF)
      return -1;
   return 0;
}
 
 
static int FileFind(OS_FILE *directory, char *name, OS_FileEntry_t *fileEntry)
{
   int count, rc = -1;
   uint32 blockIndex, blockOffset;
   uint32 blockIndexEmpty=BLOCK_EOF, blockOffsetEmpty=0;
 
   // Loop through files in directory
   for(;;)
   {
      blockIndex = directory->blockIndex;
      blockOffset = directory->blockOffset;
      count = OS_fread(fileEntry, sizeof(OS_FileEntry_t), 1, directory);
      if(count == 0 || fileEntry->blockIndex == BLOCK_EOF)
         break;
      if(fileEntry->valid == 1 && strcmp(fileEntry->name, name) == 0)
      {
         rc = 0;  //Found the file in the directory
         break;
      }
      if(fileEntry->valid != 1 && blockIndexEmpty == BLOCK_EOF)
      {
         blockIndexEmpty = blockIndex;
         blockOffsetEmpty = blockOffset;
      }
   }
   if(rc == 0 || directory->fileEntry.mediaType == FILE_MEDIA_FLASH ||
      blockIndexEmpty == BLOCK_EOF)
   {
      // Backup to start of fileEntry or last entry in directory
      if(directory->blockIndex != blockIndex)
         BlockRead(directory, blockIndex);
      directory->blockOffset = blockOffset;
   }
   else
   {
      // Backup to empty slot
      if(directory->blockIndex != blockIndexEmpty)
         BlockRead(directory, blockIndexEmpty);
      directory->blockOffset = blockOffsetEmpty;
   }
   return rc;
}
 
 
static int FileFindRecursive(OS_FILE *directory, char *name,
                             OS_FileEntry_t *fileEntry, char *filename)
{
   int rc, length;
 
   rc = FileOpen(directory, NULL, NULL);            //Open root directory
   for(;;)
   {
      if(name[0] == '/')
         ++name;
      for(length = 0; length < FILE_NAME_SIZE; ++length)
      {
         if(name[length] == 0 || name[length] == '/')
            break;
         filename[length] = name[length];
      }
      filename[length] = 0;
      rc = FileFind(directory, filename, fileEntry);  //Find file
      if(rc)
      {
         // File not found
         fileEntry->mediaType = directory->fileEntry.mediaType;
         fileEntry->blockSize = directory->fileEntry.blockSize;
         fileEntry->valid = 0;
         if(strstr(name, "/") == NULL)
            return rc;
         else
            return -2;  //can't find parent directory
      }
      name += length;
      if(name[0])
         rc = FileOpen(directory, filename, fileEntry);  //Open subdir
      else
         break;
   }
   return rc;
}
 
 
OS_FILE *OS_fopen(char *name, char *mode)
{
   OS_FILE *file;
   OS_FileEntry_t fileEntry;
   OS_FILE dir;
   char filename[FILE_NAME_SIZE];  //Name without directories
   int rc;
 
   if(rootFileEntry.blockIndex == 0)
   {
      // Mount file system
      mutexFilesys = OS_MutexCreate("filesys");
      memset(&dir, 0, sizeof(OS_FILE));
      dir.fileEntry.blockSize = BLOCK_SIZE;
      //dir.fileEntry.mediaType = FILE_MEDIA_FLASH;  //Test flash
      BlockRead(&dir, BLOCK_MALLOC);
      strcpy(rootFileEntry.name, "/");
      rootFileEntry.mediaType = dir.fileEntry.mediaType;
      rootFileEntry.blockIndex = dir.blockIndex;
      rootFileEntry.blockSize = dir.fileEntry.blockSize;
      rootFileEntry.isDirectory = 1;
      BlockRead(&dir, BLOCK_EOF);    //Flush data
#ifdef INCLUDE_FLASH
      file = OS_fopen("flash", "w+");
      if(file == NULL)
         return NULL;
      file->fileEntry.isDirectory = 1;
      file->fileEntry.mediaType = FILE_MEDIA_FLASH;
      file->fileEntry.blockSize = FLASH_BLOCK_SIZE;
      file->blockLocal = file->block;
      file->block = NULL;
      rc = MediaBlockInit();
      if(rc == 1)
         BlockRead(file, BLOCK_MALLOC);
      else
         BlockRead(file, FLASH_START);
      file->fileEntry.blockIndex = file->blockIndex;
      OS_fclose(file);
#endif
   }
 
   file = (OS_FILE*)malloc(sizeof(OS_FILE));
   if(file == NULL)
      return NULL;
   OS_MutexPend(mutexFilesys);
   if(name[0] == 0 || strcmp(name, "/") == 0)
   {
      FileOpen(file, NULL, NULL);
      OS_MutexPost(mutexFilesys);
      return file;
   }
   if(mode[0] == 'w')
   {
      //Don't over write a directory
      fileEntry.isDirectory = 0;
      rc = FileFindRecursive(&dir, name, &fileEntry, filename);
      if(dir.blockLocal)
         free(dir.blockLocal);
      if(rc == 0)
      {
         if(fileEntry.isDirectory)
         {
            free(file);
            return NULL;
         }
         OS_fdelete(name);
      }
   }
   rc = FileFindRecursive(&dir, name, &fileEntry, filename);
   if(dir.blockLocal)
      free(dir.blockLocal);
   if(rc == -2 || (rc && mode[0] == 'r'))
   {
      free(file);
      OS_MutexPost(mutexFilesys);
      return NULL;
   }
   if(rc)
      fileEntry.valid = 0;
   rc = FileOpen(file, filename, &fileEntry);  //Open file
   file->fullname[0] = 0;
   strncat(file->fullname, name, FULL_NAME_SIZE);
   OS_MutexPost(mutexFilesys);
   if(mode[0] == 'a')
      OS_fseek(file, 0, 2);  //goto end of file
   return file;
}
 
 
void OS_fclose(OS_FILE *file)
{
   OS_FileEntry_t fileEntry;
   OS_FILE dir;
   char filename[FILE_NAME_SIZE];
   int rc;
 
   if(file->fileModified)
   {
      // Write file->fileEntry into parent directory
      OS_MutexPend(mutexFilesys);
      BlockRead(file, BLOCK_EOF);
      rc = FileFindRecursive(&dir, file->fullname, &fileEntry, filename);
      if(file->fileEntry.mediaType == FILE_MEDIA_FLASH && rc == 0)
      {
         // Invalidate old entry and add new entry at the end
         fileEntry.valid = 0;
         OS_fwrite(&fileEntry, sizeof(OS_FileEntry_t), 1, &dir);
         FileFind(&dir, "endoffile", &fileEntry);
      }
      OS_fwrite(&file->fileEntry, sizeof(OS_FileEntry_t), 1, &dir);
      BlockRead(&dir, BLOCK_EOF);  //flush data
      if(dir.blockLocal)
         free(dir.blockLocal);
      OS_MutexPost(mutexFilesys);
   }
   if(file->blockLocal)
      free(file->blockLocal);
   free(file);
}
 
 
int OS_fmkdir(char *name)
{
   OS_FILE *file;
   file = OS_fopen(name, "w+");
   if(file == NULL)
      return -1;
   file->fileEntry.isDirectory = 1;
   OS_fclose(file);
   return 0;
}
 
 
void OS_fdelete(char *name)
{
   OS_FILE dir, file;
   OS_FileEntry_t fileEntry;
   int rc;
   uint32 blockIndex;
   char filename[FILE_NAME_SIZE];  //Name without directories
 
   OS_MutexPend(mutexFilesys);
   rc = FileFindRecursive(&dir, name, &fileEntry, filename);
   if(rc == 0)
   {
      FileOpen(&file, NULL, &fileEntry);
      for(blockIndex = file.blockIndex; file.block->next != BLOCK_EOF; blockIndex = file.blockIndex)
      {
         BlockRead(&file, file.block->next);
         MediaBlockFree(&file, blockIndex);
      }
      MediaBlockFree(&file, blockIndex);
      fileEntry.valid = 0;
      OS_fwrite((char*)&fileEntry, sizeof(OS_FileEntry_t), 1, &dir);
      BlockRead(&dir, BLOCK_EOF);
      if(file.blockLocal)
         free(file.blockLocal);
   }
   if(dir.blockLocal)
      free(dir.blockLocal);
   OS_MutexPost(mutexFilesys);
}
 
 
int OS_flength(char *entry)
{
   OS_FileEntry_t *entry2=(OS_FileEntry_t*)entry;
   return entry2->length;
}
 
 
int OS_fdir(OS_FILE *dir, char name[64])
{
   OS_FileEntry_t *fileEntry = (OS_FileEntry_t*)name;
   int count;
   for(;;)
   {
      count = OS_fread(fileEntry, sizeof(OS_FileEntry_t), 1, dir);
      if(count == 0 || fileEntry->blockIndex == BLOCK_EOF)
         return -1;
      if(fileEntry->valid == 1)
         break;
   }
   return 0;
}
 
/*************************************************/
#define TEST_FILES
#ifdef TEST_FILES
int DirRecursive(char *name)
{
   OS_FileEntry_t fileEntry;
   OS_FILE *dir;
   char fullname[FULL_NAME_SIZE];
   int rc;
 
   dir = OS_fopen(name, "r");
   for(;;)
   {
      rc = OS_fdir(dir, (char*)&fileEntry);
      if(rc)
         break;
      printf("%s %d\n", fileEntry.name, fileEntry.length);
      if(fileEntry.isDirectory)
      {
         if(strcmp(name, "/") == 0)
            sprintf(fullname, "/%s", fileEntry.name);
         else
            sprintf(fullname, "%s/%s", name, fileEntry.name);
         DirRecursive(fullname);
      }
   }
   OS_fclose(dir);
   return 0;
}
 
int OS_ftest(void)
{
   OS_FILE *file;
   char *buf;
   int count;
   int i, j;
 
   buf = (char*)malloc(5000);
   memset(buf, 0, 5000);
   for(count = 0; count < 4000; ++count)
      buf[count] = (char)('A' + (count % 26));
   OS_fmkdir("dir");
   OS_fmkdir("/dir/subdir");
   file = OS_fopen("/dir/subdir/test.txt", "w");
   count = OS_fwrite(buf, 1, 4000, file);
   OS_fclose(file);
   memset(buf, 0, 5000);
   file = OS_fopen("/dir/subdir/test.txt", "r");
   count = OS_fread(buf, 1, 5000, file);
   OS_fclose(file);
   printf("(%s)\n", buf);
 
   DirRecursive("/");
 
   for(i = 0; i < 5; ++i)
   {
      sprintf(buf, "/dir%d", i);
      OS_fmkdir(buf);
      for(j = 0; j < 5; ++j)
      {
         sprintf(buf, "/dir%d/file%d%d", i, i, j);
         file = OS_fopen(buf, "w");
         sprintf(buf, "i=%d j=%d", i, j);
         OS_fwrite(buf, 1, 8, file);
         OS_fclose(file);
      }
   }
 
   OS_fdelete("/dir1/file12");
   DirRecursive("/");
   file = OS_fopen("/baddir/myfile.txt", "w");
   if(file)
      printf("ERROR!\n");
 
   for(i = 0; i < 5; ++i)
   {
      for(j = 0; j < 5; ++j)
      {
         sprintf(buf, "/dir%d/file%d%d", i, i, j);
         file = OS_fopen(buf, "r");
         if(file)
         {
            count = OS_fread(buf, 1, 500, file);
            printf("i=%d j=%d count=%d (%s)\n", i, j, count, buf);
            OS_fclose(file);
         }
      }
   }
 
   OS_fdelete("/dir/subdir/test.txt");
   OS_fdelete("/dir/subdir");
   OS_fdelete("/dir");
   for(i = 0; i < 5; ++i)
   {
      for(j = 0; j < 5; ++j)
      {
         sprintf(buf, "/dir%d/file%d%d", i, i, j);
         OS_fdelete(buf);
      }
      sprintf(buf, "/dir%d", i);
      OS_fdelete(buf);
   }
 
   DirRecursive("/");
 
   free(buf);
   return 0;
}
#endif  //TEST_FILES

Line No.	Rev	Author	Line
1	219	rhoads	`/*--------------------------------------------------------------------`
2			`* TITLE: Plasma File System`
3			`* AUTHOR: Steve Rhoads (rhoadss@yahoo.com)`
4			`* DATE CREATED: 4/26/07`
5			`* FILENAME: filesys.c`
6			`* PROJECT: Plasma CPU core`
7			`* COPYRIGHT: Software placed into the public domain by the author.`
8			`* Software 'as is' without warranty. Author liable for nothing.`
9			`* DESCRIPTION:`
10			`* Plasma File System. Supports RAM, flash, and disk file systems.`
11			`* Possible call tree:`
12			`* OS_fclose()`
13			`* FileFindRecursive() //find the existing file`
14			`* FileOpen() //open root file system`
15			`* FileFind() //find the next level of directory`
16			`* OS_fread() //read the directory file`
17			`* BlockRead() //read blocks of directory`
18			`* MediaBlockRead() //low level read`
19			`* FileOpen() //open next directory`
20			`* OS_fwrite() //write file entry into directory`
21			`* BlockRead() //flush changes to directory`
22			`--------------------------------------------------------------------/`
23	302	rhoads	`#ifdef WIN32`
24	219	rhoads	`#include <stdio.h>`
25			`#include <stdlib.h>`
26			`#include <string.h>`
27	302	rhoads	`#define _LIBC`
28	219	rhoads	`#endif`
29	302	rhoads	`#include "rtos.h"`
30	219	rhoads
31	305	rhoads	`#define FLASH_SIZE 1024102416`
32			`#define FLASH_SECTOR_SIZE 1024*128`
33			`#define FLASH_BLOCK_SIZE 512`
34			`#define FLASH_LN2_SIZE 9 //2^FLASH_LN2_SIZE == FLASH_BLOCK_SIZE`
35			`#define FLASH_OFFSET FLASH_SECTOR_SIZE //offset to start of flash file system`
36	219	rhoads
37	305	rhoads	`#define BLOCK_SIZE 512`
38			`#define FILE_NAME_SIZE 40`
39			`#define FULL_NAME_SIZE 128`
40			`#define BLOCK_MALLOC 0x0`
41			`#define BLOCK_EOF 0xffffffff`
42
43	219	rhoads	`typedef enum {`
44			`FILE_MEDIA_RAM,`
45			`FILE_MEDIA_FLASH,`
46			`FILE_MEDIA_DISK`
47			`} OS_MediaType_e;`
48
49			`typedef struct OS_FileEntry_s {`
50			`char name[FILE_NAME_SIZE];`
51			`uint32 blockIndex; //first block of file`
52			`uint32 modifiedTime;`
53			`uint32 length;`
54			`uint8 isDirectory;`
55			`uint8 attributes;`
56			`uint8 valid;`
57			`uint8 mediaType;`
58			`uint16 blockSize; //Normally BLOCK_SIZE`
59			`} OS_FileEntry_t;`
60
61			`typedef struct OS_Block_s {`
62			`uint32 next;`
63			`uint8 data[4];`
64			`} OS_Block_t;`
65
66			`struct OS_FILE_s {`
67			`OS_FileEntry_t fileEntry; //written to directory upon OS_fclose()`
68			`uint8 fileModified;`
69			`uint8 blockModified;`
70			`uint32 blockIndex; //index of block`
71			`uint32 blockOffset; //byte offset into block`
72			`uint32 fileOffset; //byte offset into file`
73			`char fullname[FULL_NAME_SIZE]; //includes full path`
74			`OS_Block_t *block;`
75			`OS_Block_t *blockLocal; //local copy for flash or disk file system`
76			`};`
77
78			`static OS_FileEntry_t rootFileEntry;`
79	302	rhoads	`static OS_Mutex_t *mutexFilesys;`
80	219	rhoads
81			`// Public prototypes`
82			`#ifndef _FILESYS_`
83			`typedef struct OS_FILE_s OS_FILE;`
84			`#endif`
85			`OS_FILE OS_fopen(char name, char *mode);`
86			`void OS_fclose(OS_FILE *file);`
87			`int OS_fread(void buffer, int size, int count, OS_FILE file);`
88			`int OS_fwrite(void buffer, int size, int count, OS_FILE file);`
89			`int OS_fseek(OS_FILE *file, int offset, int mode);`
90			`int OS_fmkdir(char *name);`
91			`int OS_fdir(OS_FILE *dir, char name[64]);`
92			`void OS_fdelete(char *name);`
93
94
95			`/*************** Media Functions Start *********************/`
96	302	rhoads	`#ifdef INCLUDE_FLASH`
97	305	rhoads	`#define FLASH_BLOCKS FLASH_SIZE/FLASH_BLOCK_SIZE`
98			`#define FLASH_START (FLASH_OFFSET+FLASH_BLOCKS/8*2)/FLASH_BLOCK_SIZE`
99	302	rhoads	`static unsigned char FlashBlockEmpty[FLASH_BLOCKS/8];`
100			`static unsigned char FlashBlockUsed[FLASH_BLOCKS/8];`
101	305	rhoads	`static int FlashBlock;`
102	302	rhoads
103			`//Free unused flash blocks`
104			`static int MediaBlockCleanup(void)`
105			`{`
106	305	rhoads	`int i, sector, block, count=0;`
107	302	rhoads	`unsigned char *buf;`
108
109			`printf("FlashCleanup\n");`
110	305	rhoads	`buf = (unsigned char*)malloc(FLASH_SECTOR_SIZE);`
111	302	rhoads	`if(buf == NULL)`
112			`return 0;`
113	305	rhoads	`for(sector = FLASH_OFFSET / FLASH_SECTOR_SIZE; sector < FLASH_SIZE / FLASH_SECTOR_SIZE; ++sector)`
114	302	rhoads	`{`
115	305	rhoads	`FlashRead((uint16)buf, FLASH_SECTOR_SIZEsector, FLASH_SECTOR_SIZE);`
116	307	rhoads	`if(sector == FLASH_OFFSET / FLASH_SECTOR_SIZE)`
117	302	rhoads	`{`
118			`for(i = 0; i < FLASH_BLOCKS/8; ++i)`
119			`FlashBlockEmpty[i] \|= ~FlashBlockUsed[i];`
120			`memcpy(buf, FlashBlockEmpty, sizeof(FlashBlockEmpty));`
121			`memset(FlashBlockUsed, 0xff, sizeof(FlashBlockUsed));`
122			`memset(buf+sizeof(FlashBlockEmpty), 0xff, sizeof(FlashBlockUsed));`
123			`}`
124			`//Erase empty blocks`
125	305	rhoads	`for(block = 0; block < FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE; ++block)`
126	302	rhoads	`{`
127	305	rhoads	`i = sector * FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE + block;`
128	336	rhoads	`if(i < FLASH_BLOCKS/8 && (FlashBlockEmpty[i >> 3] & (1 << (i & 7))))`
129	302	rhoads	`{`
130	305	rhoads	`memset(buf + FLASH_BLOCK_SIZE*block, 0xff, FLASH_BLOCK_SIZE);`
131	302	rhoads	`++count;`
132			`}`
133			`}`
134	305	rhoads	`FlashErase(FLASH_SECTOR_SIZE * sector);`
135			`FlashWrite((uint16)buf, FLASH_SECTOR_SIZE sector, FLASH_SECTOR_SIZE);`
136	302	rhoads	`}`
137			`free(buf);`
138			`return count;`
139			`}`
140
141
142			`int MediaBlockInit(void)`
143			`{`
144	305	rhoads	`FlashRead((uint16*)FlashBlockEmpty, FLASH_OFFSET, sizeof(FlashBlockEmpty));`
145			`FlashRead((uint16*)FlashBlockUsed, FLASH_OFFSET+sizeof(FlashBlockEmpty),`
146			`sizeof(FlashBlockUsed));`
147			`FlashBlock = FLASH_START;`
148			`return FlashBlockEmpty[FlashBlock >> 3] & (1 << (FlashBlock & 7));`
149	302	rhoads	`}`
150			`#endif`
151
152
153	219	rhoads	`static uint32 MediaBlockMalloc(OS_FILE *file)`
154			`{`
155	302	rhoads	`int i, j;`
156			`(void)i; (void)j;`
157
158	219	rhoads	`if(file->fileEntry.mediaType == FILE_MEDIA_RAM)`
159			`return (uint32)malloc(file->fileEntry.blockSize);`
160	302	rhoads	`#ifdef INCLUDE_FLASH`
161			`//Find empty flash block`
162	305	rhoads	`for(i = FlashBlock; i < FLASH_BLOCKS; ++i)`
163	302	rhoads	`{`
164			`if(FlashBlockEmpty[i >> 3] & (1 << (i & 7)))`
165			`{`
166	305	rhoads	`FlashBlock = i + 1;`
167	302	rhoads	`FlashBlockEmpty[i >> 3] &= ~(1 << (i & 7));`
168			`j = i >> 3;`
169			`j &= ~1;`
170	305	rhoads	`FlashWrite((uint16*)(FlashBlockEmpty + j), FLASH_OFFSET + j, 2);`
171	302	rhoads	`return i;`
172			`}`
173			`}`
174
175			`i = MediaBlockCleanup();`
176			`if(i == 0)`
177			`return 0;`
178	305	rhoads	`FlashBlock = FLASH_START;`
179	302	rhoads	`return MediaBlockMalloc(file);`
180			`#else`
181			`return 0;`
182			`#endif`
183	219	rhoads	`}`
184
185
186			`static void MediaBlockFree(OS_FILE *file, uint32 blockIndex)`
187			`{`
188			`if(file->fileEntry.mediaType == FILE_MEDIA_RAM)`
189			`free((void*)blockIndex);`
190	302	rhoads	`#ifdef INCLUDE_FLASH`
191	219	rhoads	`else`
192	302	rhoads	`{`
193			`int i=blockIndex, j;`
194			`FlashBlockUsed[i >> 3] &= ~(1 << (i & 7));`
195			`j = i >> 3;`
196			`j &= ~1;`
197	305	rhoads	`FlashWrite((uint16*)(FlashBlockUsed + j), FLASH_OFFSET + sizeof(FlashBlockEmpty) + j, 2);`
198	302	rhoads	`}`
199			`#endif`
200	219	rhoads	`}`
201
202
203			`static void MediaBlockRead(OS_FILE *file, uint32 blockIndex)`
204			`{`
205			`if(file->fileEntry.mediaType == FILE_MEDIA_RAM)`
206			`file->block = (OS_Block_t*)blockIndex;`
207	302	rhoads	`#ifdef INCLUDE_FLASH`
208	219	rhoads	`else`
209			`{`
210			`if(file->blockLocal == NULL)`
211	305	rhoads	`file->blockLocal = (OS_Block_t*)malloc(FLASH_BLOCK_SIZE);`
212	219	rhoads	`file->block = file->blockLocal;`
213	305	rhoads	`FlashRead((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE);`
214	219	rhoads	`}`
215	302	rhoads	`#endif`
216	219	rhoads	`}`
217
218
219	302	rhoads	`static void MediaBlockWrite(OS_FILE *file, uint32 blockIndex)`
220	219	rhoads	`{`
221	302	rhoads	`(void)file;`
222			`(void)blockIndex;`
223			`#ifdef INCLUDE_FLASH`
224	219	rhoads	`if(file->fileEntry.mediaType != FILE_MEDIA_RAM)`
225	305	rhoads	`FlashWrite((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE);`
226	302	rhoads	`#endif`
227	219	rhoads	`}`
228
229			`/*************** Media Functions End ***********************/`
230
231			`// Get the next block and write the old block if it was modified`
232			`static void BlockRead(OS_FILE *file, uint32 blockIndex)`
233			`{`
234			`uint32 blockIndexSave = blockIndex;`
235	302	rhoads
236			`OS_MutexPend(mutexFilesys);`
237	219	rhoads	`if(blockIndex == BLOCK_MALLOC)`
238			`{`
239			`// Get a new block`
240			`blockIndex = MediaBlockMalloc(file);`
241			`if(blockIndex == 0)`
242			`blockIndex = BLOCK_EOF;`
243			`if(file->block)`
244			`{`
245			`// Set next pointer in previous block`
246			`file->block->next = blockIndex;`
247			`file->blockModified = 1;`
248			`}`
249			`}`
250			`if(file->block && file->blockModified)`
251			`{`
252			`// Write block back to flash or disk`
253	302	rhoads	`MediaBlockWrite(file, file->blockIndex);`
254	219	rhoads	`file->blockModified = 0;`
255			`}`
256			`if(blockIndex == BLOCK_EOF)`
257	302	rhoads	`{`
258			`OS_MutexPost(mutexFilesys);`
259	219	rhoads	`return;`
260	302	rhoads	`}`
261	219	rhoads	`file->blockIndex = blockIndex;`
262			`file->blockOffset = 0;`
263			`MediaBlockRead(file, blockIndex);`
264			`if(blockIndexSave == BLOCK_MALLOC)`
265			`{`
266			`memset(file->block, 0xff, file->fileEntry.blockSize);`
267			`file->blockModified = 1;`
268			`}`
269	302	rhoads	`OS_MutexPost(mutexFilesys);`
270	219	rhoads	`}`
271
272
273			`int OS_fread(void buffer, int size, int count, OS_FILE file)`
274			`{`
275			`int items, bytes;`
276			`uint8 buf = (uint8)buffer;`
277
278			`for(items = 0; items < count; ++items)`
279			`{`
280			`for(bytes = 0; bytes < size; ++bytes)`
281			`{`
282			`if(file->fileOffset >= file->fileEntry.length &&`
283			`file->fileEntry.isDirectory == 0)`
284			`return items;`
285			`if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32))`
286			`{`
287			`if(file->block->next == BLOCK_EOF)`
288			`return items;`
289			`BlockRead(file, file->block->next);`
290			`}`
291			`*buf++ = file->block->data[file->blockOffset++];`
292			`++file->fileOffset;`
293			`}`
294			`}`
295			`return items;`
296			`}`
297
298
299			`int OS_fwrite(void buffer, int size, int count, OS_FILE file)`
300			`{`
301			`int items, bytes;`
302			`uint8 buf = (uint8)buffer;`
303
304	302	rhoads	`OS_MutexPend(mutexFilesys);`
305	219	rhoads	`file->blockModified = 1;`
306			`for(items = 0; items < count; ++items)`
307			`{`
308			`for(bytes = 0; bytes < size; ++bytes)`
309			`{`
310			`if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32))`
311			`{`
312			`if(file->block->next == BLOCK_EOF)`
313			`file->block->next = BLOCK_MALLOC;`
314			`BlockRead(file, file->block->next);`
315			`if(file->blockIndex == BLOCK_EOF)`
316			`{`
317			`count = 0;`
318			`--items;`
319			`break;`
320			`}`
321			`file->blockModified = 1;`
322			`}`
323			`file->block->data[file->blockOffset++] = *buf++;`
324			`++file->fileOffset;`
325			`}`
326			`}`
327			`file->blockModified = 1;`
328			`file->fileModified = 1;`
329			`if(file->fileOffset > file->fileEntry.length)`
330			`file->fileEntry.length = file->fileOffset;`
331	302	rhoads	`OS_MutexPost(mutexFilesys);`
332	219	rhoads	`return items;`
333			`}`
334
335
336			`int OS_fseek(OS_FILE *file, int offset, int mode)`
337			`{`
338			`if(mode == 1) //SEEK_CUR`
339			`offset += file->fileOffset;`
340			`else if(mode == 2) //SEEK_END`
341			`offset += file->fileEntry.length;`
342			`file->fileOffset = offset;`
343			`BlockRead(file, file->fileEntry.blockIndex);`
344			`while(offset > (int)file->fileEntry.blockSize - (int)sizeof(uint32))`
345			`{`
346			`BlockRead(file, file->block->next);`
347			`offset -= file->fileEntry.blockSize - (int)sizeof(uint32);`
348			`}`
349			`file->blockOffset = offset;`
350			`return 0;`
351			`}`
352
353
354			`static int FileOpen(OS_FILE file, char name, OS_FileEntry_t *fileEntry)`
355			`{`
356			`memset(file, 0, sizeof(OS_FILE));`
357			`if(fileEntry == NULL)`
358			`{`
359			`// Open root file`
360			`memcpy(&file->fileEntry, &rootFileEntry, sizeof(OS_FileEntry_t));`
361			`}`
362			`else if(fileEntry->valid == 1)`
363			`{`
364			`// Open existing file`
365			`memcpy(&file->fileEntry, fileEntry, sizeof(OS_FileEntry_t));`
366			`}`
367			`else`
368			`{`
369			`// Initialize new file`
370			`file->fileModified = 1;`
371			`file->blockModified = 1;`
372			`memset(&file->fileEntry, 0, sizeof(OS_FileEntry_t));`
373			`file->fileEntry.isDirectory = 0;`
374			`file->fileEntry.length = 0;`
375			`strncpy(file->fileEntry.name, name, FILE_NAME_SIZE-1);`
376			`file->fileEntry.blockIndex = 0;`
377			`file->fileEntry.valid = 1;`
378			`file->fileEntry.blockSize = fileEntry->blockSize;`
379			`file->fileEntry.mediaType = fileEntry->mediaType;`
380			`}`
381			`BlockRead(file, file->fileEntry.blockIndex); //Get first block`
382			`file->fileEntry.blockIndex = file->blockIndex;`
383			`file->fileOffset = 0;`
384			`if(file->blockIndex == BLOCK_EOF)`
385			`return -1;`
386			`return 0;`
387			`}`
388
389
390			`static int FileFind(OS_FILE directory, char name, OS_FileEntry_t *fileEntry)`
391			`{`
392			`int count, rc = -1;`
393			`uint32 blockIndex, blockOffset;`
394			`uint32 blockIndexEmpty=BLOCK_EOF, blockOffsetEmpty=0;`
395
396			`// Loop through files in directory`
397			`for(;;)`
398			`{`
399			`blockIndex = directory->blockIndex;`
400			`blockOffset = directory->blockOffset;`
401			`count = OS_fread(fileEntry, sizeof(OS_FileEntry_t), 1, directory);`
402			`if(count == 0 \|\| fileEntry->blockIndex == BLOCK_EOF)`
403			`break;`
404			`if(fileEntry->valid == 1 && strcmp(fileEntry->name, name) == 0)`
405			`{`
406			`rc = 0; //Found the file in the directory`
407			`break;`
408			`}`
409			`if(fileEntry->valid != 1 && blockIndexEmpty == BLOCK_EOF)`
410			`{`
411			`blockIndexEmpty = blockIndex;`
412			`blockOffsetEmpty = blockOffset;`
413			`}`
414			`}`
415			`if(rc == 0 \|\| directory->fileEntry.mediaType == FILE_MEDIA_FLASH \|\|`
416			`blockIndexEmpty == BLOCK_EOF)`
417			`{`
418			`// Backup to start of fileEntry or last entry in directory`
419			`if(directory->blockIndex != blockIndex)`
420			`BlockRead(directory, blockIndex);`
421			`directory->blockOffset = blockOffset;`
422			`}`
423			`else`
424			`{`
425			`// Backup to empty slot`
426			`if(directory->blockIndex != blockIndexEmpty)`
427			`BlockRead(directory, blockIndexEmpty);`
428			`directory->blockOffset = blockOffsetEmpty;`
429			`}`
430			`return rc;`
431			`}`
432
433
434			`static int FileFindRecursive(OS_FILE directory, char name,`
435			`OS_FileEntry_t fileEntry, char filename)`
436			`{`
437			`int rc, length;`
438
439			`rc = FileOpen(directory, NULL, NULL); //Open root directory`
440			`for(;;)`
441			`{`
442			`if(name[0] == '/')`
443			`++name;`
444			`for(length = 0; length < FILE_NAME_SIZE; ++length)`
445			`{`
446			`if(name[length] == 0 \|\| name[length] == '/')`
447			`break;`
448			`filename[length] = name[length];`
449			`}`
450			`filename[length] = 0;`
451			`rc = FileFind(directory, filename, fileEntry); //Find file`
452			`if(rc)`
453			`{`
454			`// File not found`
455			`fileEntry->mediaType = directory->fileEntry.mediaType;`
456			`fileEntry->blockSize = directory->fileEntry.blockSize;`
457	338	rhoads	`fileEntry->valid = 0;`
458	219	rhoads	`if(strstr(name, "/") == NULL)`
459			`return rc;`
460			`else`
461			`return -2; //can't find parent directory`
462			`}`
463			`name += length;`
464			`if(name[0])`
465			`rc = FileOpen(directory, filename, fileEntry); //Open subdir`
466			`else`
467			`break;`
468			`}`
469			`return rc;`
470			`}`
471
472
473			`OS_FILE OS_fopen(char name, char *mode)`
474			`{`
475			`OS_FILE *file;`
476			`OS_FileEntry_t fileEntry;`
477			`OS_FILE dir;`
478			`char filename[FILE_NAME_SIZE]; //Name without directories`
479			`int rc;`
480
481			`if(rootFileEntry.blockIndex == 0)`
482			`{`
483			`// Mount file system`
484	302	rhoads	`mutexFilesys = OS_MutexCreate("filesys");`
485	219	rhoads	`memset(&dir, 0, sizeof(OS_FILE));`
486			`dir.fileEntry.blockSize = BLOCK_SIZE;`
487			`//dir.fileEntry.mediaType = FILE_MEDIA_FLASH; //Test flash`
488			`BlockRead(&dir, BLOCK_MALLOC);`
489			`strcpy(rootFileEntry.name, "/");`
490			`rootFileEntry.mediaType = dir.fileEntry.mediaType;`
491			`rootFileEntry.blockIndex = dir.blockIndex;`
492			`rootFileEntry.blockSize = dir.fileEntry.blockSize;`
493			`rootFileEntry.isDirectory = 1;`
494			`BlockRead(&dir, BLOCK_EOF); //Flush data`
495	302	rhoads	`#ifdef INCLUDE_FLASH`
496			`file = OS_fopen("flash", "w+");`
497			`if(file == NULL)`
498			`return NULL;`
499			`file->fileEntry.isDirectory = 1;`
500			`file->fileEntry.mediaType = FILE_MEDIA_FLASH;`

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[/] [plasma/] [trunk/] [kernel/] [filesys.c] - Blame information for rev 369