[tpg/acess2.git] / Kernel / vfs / fs / ext2.c

/*\r
 * Acess OS\r
 * Ext2 Driver Version 1\r
 */\r
/**\r
 * \file fs/ext2.c\r
 * \brief Second Extended Filesystem Driver\r
 * \todo Implement file read support\r
 */\r
#define DEBUG   1\r
#include <common.h>\r
#include <vfs.h>\r
#include <modules.h>\r
#include "fs_ext2.h"\r
\r
// === STRUCTURES ===\r
typedef struct {\r
         int    FD;\r
         int    CacheID;\r
        tVFS_Node       RootNode;\r
        \r
        tExt2_SuperBlock        SuperBlock;\r
         int    BlockSize;\r
         \r
         int    GroupCount;\r
        tExt2_Group             Groups[];\r
} tExt2_Disk;\r
\r
// === PROTOTYPES ===\r
 int    Ext2_Install(char **Arguments);\r
// Interface Functions\r
tVFS_Node       *Ext2_InitDevice(char *Device, char **Options);\r
void            Ext2_Unmount(tVFS_Node *Node);\r
Uint64          Ext2_Read(tVFS_Node *node, Uint64 offset, Uint64 length, void *buffer);\r
Uint64          Ext2_Write(tVFS_Node *node, Uint64 offset, Uint64 length, void *buffer);\r
void            Ext2_CloseFile(tVFS_Node *Node);\r
char            *Ext2_ReadDir(tVFS_Node *Node, int Pos);\r
tVFS_Node       *Ext2_FindDir(tVFS_Node *Node, char *FileName);\r
 int            Ext2_MkNod(tVFS_Node *Node, char *Name, Uint Flags);\r
// Internal Helpers\r
 int            Ext2_int_GetInode(tVFS_Node *Node, tExt2_Inode *Inode);\r
tVFS_Node       *Ext2_int_CreateNode(tExt2_Disk *Disk, Uint InodeId, char *Name);\r
 int            Ext2_int_ReadInode(tExt2_Disk *Disk, Uint InodeId, tExt2_Inode *Inode);\r
Uint64          Ext2_int_GetBlockAddr(tExt2_Disk *Disk, Uint32 *Blocks, int BlockNum);\r
\r
// === SEMI-GLOBALS ===\r
MODULE_DEFINE(0, 0x5B /*v0.90*/, EXT2, Ext2_Install, NULL);\r
tExt2_Disk      gExt2_disks[6];\r
 int    giExt2_count = 0;\r
tVFS_Driver     gExt2_FSInfo = {\r
        "ext2", 0, Ext2_InitDevice, Ext2_Unmount, NULL\r
        };\r
\r
// === CODE ===\r
\r
/**\r
 * \fn int Ext2_Install(char **Arguments)\r
 * \brief Install the Ext2 Filesystem Driver\r
 */\r
int Ext2_Install(char **Arguments)\r
{\r
        VFS_AddDriver( &gExt2_FSInfo );\r
        return 1;\r
}\r
\r
/**\r
 \fn tVFS_Node *Ext2_initDevice(char *Device, char **Options)\r
 \brief Initializes a device to be read by by the driver\r
 \param Device  String - Device to read from\r
 \param Options NULL Terminated array of option strings\r
 \return Root Node\r
*/\r
tVFS_Node *Ext2_InitDevice(char *Device, char **Options)\r
{\r
        tExt2_Disk      *disk;\r
         int    fd;\r
         int    groupCount;\r
        tExt2_SuperBlock        sb;\r
        tExt2_Inode     inode;\r
        \r
        ENTER("sDevice pOptions", Device, Options);\r
        \r
        // Open Disk\r
        fd = VFS_Open(Device, VFS_OPENFLAG_READ|VFS_OPENFLAG_WRITE);            //Open Device\r
        if(fd == -1) {\r
                Warning("[EXT2 ] Unable to open '%s'\n", Device);\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        \r
        // Read Superblock at offset 1024\r
        VFS_ReadAt(fd, 1024, 1024, &sb);        // Read Superblock\r
        \r
        // Sanity Check Magic value\r
        if(sb.s_magic != 0xEF53) {\r
                Warning("[EXT2 ] Volume '%s' is not an EXT2 volume\n", Device);\r
                VFS_Close(fd);\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        \r
        // Get Group count\r
        groupCount = DivUp(sb.s_blocks_count, sb.s_blocks_per_group);\r
        LOG("groupCount = %i", groupCount);\r
        \r
        // Allocate Disk Information\r
        disk = malloc(sizeof(tExt2_Disk) + sizeof(tExt2_Group)*groupCount);\r
        if(!disk) {\r
                Warning("[EXT2 ] Unable to allocate disk structure\n");\r
                VFS_Close(fd);\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        disk->FD = fd;\r
        memcpy(&disk->SuperBlock, &sb, 1024);\r
        disk->GroupCount = groupCount;\r
        \r
        // Get an inode cache handle\r
        disk->CacheID = Inode_GetHandle();\r
        \r
        // Get Block Size\r
        LOG("s_log_block_size = 0x%x", sb.s_log_block_size);\r
        disk->BlockSize = 1024 << sb.s_log_block_size;\r
        \r
        // Read Group Information\r
        VFS_ReadAt(\r
                disk->FD,\r
                sb.s_first_data_block * disk->BlockSize + 1024,\r
                sizeof(tExt2_Group)*groupCount,\r
                disk->Groups\r
                );\r
        \r
        #if DEBUG\r
        LOG("Block Group 0");\r
        LOG(".bg_block_bitmap = 0x%x", disk->Groups[0].bg_block_bitmap);\r
        LOG(".bg_inode_bitmap = 0x%x", disk->Groups[0].bg_inode_bitmap);\r
        LOG(".bg_inode_table = 0x%x", disk->Groups[0].bg_inode_table);\r
        LOG("Block Group 1");\r
        LOG(".bg_block_bitmap = 0x%x", disk->Groups[1].bg_block_bitmap);\r
        LOG(".bg_inode_bitmap = 0x%x", disk->Groups[1].bg_inode_bitmap);\r
        LOG(".bg_inode_table = 0x%x", disk->Groups[1].bg_inode_table);\r
        #endif\r
        \r
        // Get root Inode\r
        Ext2_int_ReadInode(disk, 2, &inode);\r
        \r
        // Create Root Node\r
        memset(&disk->RootNode, 0, sizeof(tVFS_Node));\r
        disk->RootNode.Inode = 2;       // Root inode ID\r
        disk->RootNode.ImplPtr = disk;  // Save disk pointer\r
        disk->RootNode.Size = -1;       // Fill in later (on readdir)\r
        disk->RootNode.Flags = VFS_FFLAG_DIRECTORY;\r
        \r
        disk->RootNode.ReadDir = Ext2_ReadDir;\r
        disk->RootNode.FindDir = Ext2_FindDir;\r
        //disk->RootNode.Relink = Ext2_Relink;\r
        \r
        // Complete root node\r
        disk->RootNode.UID = inode.i_uid;\r
        disk->RootNode.GID = inode.i_gid;\r
        disk->RootNode.NumACLs = 1;\r
        disk->RootNode.ACLs = &gVFS_ACL_EveryoneRW;\r
        \r
        #if DEBUG\r
        LOG("inode.i_size = 0x%x", inode.i_size);\r
        LOG("inode.i_block[0] = 0x%x", inode.i_block[0]);\r
        #endif\r
        \r
        LEAVE('p', &disk->RootNode);\r
        return &disk->RootNode;\r
}\r
\r
/**\r
 * \fn void Ext2_Unmount(tVFS_Node *Node)\r
 * \brief Close a mounted device\r
 */\r
void Ext2_Unmount(tVFS_Node *Node)\r
{\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        \r
        VFS_Close( disk->FD );\r
        Inode_ClearCache( disk->CacheID );\r
        memset(disk, 0, sizeof(tExt2_Disk)+disk->GroupCount*sizeof(tExt2_Group));\r
        free(disk);\r
}\r
\r
/**\r
 * \fn Uint64 Ext2_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)\r
 * \brief Read from a file\r
 */\r
Uint64 Ext2_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)\r
{\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        tExt2_Inode     inode;\r
        Uint64  base;\r
        Uint    block;\r
        Uint64  remLen;\r
        \r
        ENTER("pNode XOffset XLength pBuffer", Node, Offset, Length, Buffer);\r
        \r
        // Get Inode\r
        Ext2_int_GetInode(Node, &inode);\r
        \r
        // Sanity Checks\r
        if(Offset >= inode.i_size) {\r
                LEAVE('i', 0);\r
                return 0;\r
        }\r
        if(Offset + Length > inode.i_size)\r
                Length = inode.i_size - Offset;\r
        \r
        block = Offset / disk->BlockSize;\r
        Offset = Offset / disk->BlockSize;\r
        base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
        if(base == 0) {\r
                Warning("[EXT2 ] NULL Block Detected in INode 0x%llx\n", Node->Inode);\r
                LEAVE('i', 0);\r
                return 0;\r
        }\r
        \r
        // Read only block\r
        if(Length <= disk->BlockSize - Offset)\r
        {\r
                VFS_ReadAt( disk->FD, base+Offset, Length, Buffer);\r
                LEAVE('X', Length);\r
                return Length;\r
        }\r
        \r
        // Read first block\r
        remLen = Length;\r
        VFS_ReadAt( disk->FD, base + Offset, disk->BlockSize - Offset, Buffer);\r
        remLen -= disk->BlockSize - Offset;\r
        Buffer += disk->BlockSize - Offset;\r
        block ++;\r
        \r
        // Read middle blocks\r
        while(remLen > disk->BlockSize)\r
        {\r
                base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
                if(base == 0) {\r
                        Warning("[EXT2 ] NULL Block Detected in INode 0x%llx\n", Node->Inode);\r
                        LEAVE('i', 0);\r
                        return 0;\r
                }\r
                VFS_ReadAt( disk->FD, base, disk->BlockSize, Buffer);\r
                Buffer += disk->BlockSize;\r
                remLen -= disk->BlockSize;\r
                block ++;\r
        }\r
        \r
        // Read last block\r
        base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
        VFS_ReadAt( disk->FD, base, remLen, Buffer);\r
        \r
        LEAVE('X', Length);\r
        return Length;\r
}\r
\r
/**\r
 * \fn Uint64 Ext2_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)\r
 * \brief Write to a file\r
 */\r
Uint64 Ext2_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)\r
{\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        tExt2_Inode     inode;\r
        Uint64  base;\r
        Uint64  retLen;\r
        Uint    block;\r
        Uint64  allocSize;\r
         int    bNewBlocks = 0;\r
        \r
        Ext2_int_GetInode(Node, &inode);\r
        \r
        // Round size up to block size\r
        // block size is a power of two, so this will work\r
        allocSize = (inode.i_size + disk->BlockSize) & ~(disk->BlockSize-1);\r
        if( Offset < allocSize )\r
        {\r
                if(Offset + Length > allocSize) {\r
                        bNewBlocks = 1;\r
                        retLen = allocSize - Offset;\r
                } else\r
                        retLen = Length;\r
                // Within the allocated space\r
                block = Offset / disk->BlockSize;\r
                Offset %= disk->BlockSize;\r
                base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
                \r
                // Write only block (if only one)\r
                if(Offset + retLen <= disk->BlockSize) {\r
                        VFS_WriteAt(disk->FD, base+Offset, retLen, Buffer);\r
                        if(bNewBlocks)  return Length;\r
                        goto addBlocks; // Ugh! A goto, but it seems unavoidable\r
                }\r
                \r
                // Write First Block\r
                VFS_WriteAt(disk->FD, base+Offset, disk->BlockSize-Offset, Buffer);\r
                Buffer += disk->BlockSize-Offset;\r
                retLen -= disk->BlockSize-Offset;\r
                block ++;\r
                \r
                // Write middle blocks\r
                while(retLen > disk->BlockSize)\r
                {\r
                        base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
                        VFS_WriteAt(disk->FD, base, disk->BlockSize, Buffer);\r
                        Buffer += disk->BlockSize;\r
                        retLen -= disk->BlockSize;\r
                        block ++;\r
                }\r
                \r
                // Write last block\r
                base = Ext2_int_GetBlockAddr(disk, inode.i_block, block);\r
                VFS_WriteAt(disk->FD, base, retLen, Buffer);\r
                if(bNewBlocks)  return Length;  // Writing in only allocated space\r
        }\r
        \r
addBlocks:\r
        ///\todo Implement block allocation\r
        Warning("[EXT2] File extending is not yet supported");\r
        \r
        return 0;\r
}\r
\r
/**\r
 * \fn void Ext2_CloseFile(vfs_node *Node)\r
 * \brief Close a file (Remove it from the cache)\r
 */\r
void Ext2_CloseFile(tVFS_Node *Node)\r
{\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        Inode_UncacheNode(disk->CacheID, Node->Inode);\r
        return ;\r
}\r
\r
/**\r
 \fn char *Ext2_ReadDir(tVFS_Node *Node, int Pos)\r
 \brief Reads a directory entry\r
*/\r
char *Ext2_ReadDir(tVFS_Node *Node, int Pos)\r
{\r
        tExt2_Inode     inode;\r
        char    namebuf[EXT2_NAME_LEN+1];\r
        tExt2_DirEnt    dirent;\r
        Uint64  Base;   // Block's Base Address\r
         int    block = 0, ofs = 0;\r
         int    entNum = 0;\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        Uint    size;\r
        \r
        ENTER("pNode iPos", Node, Pos);\r
        \r
        // Read directory's inode\r
        Ext2_int_GetInode(Node, &inode);\r
        size = inode.i_size;\r
        \r
        LOG("inode.i_block[0] = 0x%x\n", inode.i_block[0]);\r
        \r
        // Find Entry\r
        // Get First Block\r
        // - Do this ourselves as it is a simple operation\r
        Base = inode.i_block[0] * disk->BlockSize;\r
        while(Pos -- && size > 0)\r
        {\r
                VFS_ReadAt( disk->FD, Base+ofs, sizeof(tExt2_DirEnt), &dirent);\r
                ofs += dirent.rec_len;\r
                size -= dirent.rec_len;\r
                entNum ++;\r
                \r
                if(ofs >= disk->BlockSize) {\r
                        block ++;\r
                        if( ofs > disk->BlockSize ) {\r
                                Warning("[EXT2] Directory Entry %i of inode %i extends over a block boundary, ignoring\n",\r
                                        entNum-1, Node->Inode);\r
                        }\r
                        ofs = 0;\r
                        Base = Ext2_int_GetBlockAddr( disk, inode.i_block, block );\r
                }\r
        }\r
        \r
        if(size <= 0)   return NULL;\r
        \r
        // Read Entry\r
        VFS_ReadAt( disk->FD, Base+ofs, sizeof(tExt2_DirEnt), &dirent );\r
        //LOG("dirent.inode = %i\n", dirent.inode);\r
        //LOG("dirent.rec_len = %i\n", dirent.rec_len);\r
        //LOG("dirent.name_len = %i\n", dirent.name_len);\r
        VFS_ReadAt( disk->FD, Base+ofs+sizeof(tExt2_DirEnt), dirent.name_len, namebuf );\r
        namebuf[ dirent.name_len ] = '\0';      // Cap off string\r
        \r
        \r
        // Ignore . and .. (these are done in the VFS)\r
        if( (namebuf[0] == '.' && namebuf[1] == '\0')\r
        ||  (namebuf[0] == '.' && namebuf[1] == '.' && namebuf[2]=='\0')) {\r
                LEAVE('p', VFS_SKIP);\r
                return VFS_SKIP;        // Skip\r
        }\r
        \r
        LEAVE('s', namebuf);\r
        // Create new node\r
        return strdup(namebuf);\r
}\r
\r
/**\r
 \fn tVFS_Node *Ext2_FindDir(tVFS_Node *node, char *filename)\r
 \brief Gets information about a file\r
 \param node    vfs node - Parent Node\r
 \param filename        String - Name of file\r
 \return VFS Node of file\r
*/\r
tVFS_Node *Ext2_FindDir(tVFS_Node *Node, char *Filename)\r
{\r
        tExt2_Disk      *disk = Node->ImplPtr;\r
        tExt2_Inode     inode;\r
        char    namebuf[EXT2_NAME_LEN+1];\r
        tExt2_DirEnt    dirent;\r
        Uint64  Base;   // Block's Base Address\r
         int    block = 0, ofs = 0;\r
         int    entNum = 0;\r
        Uint    size;\r
        \r
        // Read directory's inode\r
        Ext2_int_GetInode(Node, &inode);\r
        size = inode.i_size;\r
        \r
        // Get First Block\r
        // - Do this ourselves as it is a simple operation\r
        Base = inode.i_block[0] * disk->BlockSize;\r
        // Find File\r
        while(size > 0)\r
        {\r
                VFS_ReadAt( disk->FD, Base+ofs, sizeof(tExt2_DirEnt), &dirent);\r
                VFS_ReadAt( disk->FD, Base+ofs+sizeof(tExt2_DirEnt), dirent.name_len, namebuf );\r
                namebuf[ dirent.name_len ] = '\0';      // Cap off string\r
                // If it matches, create a node and return it\r
                if(strcmp(namebuf, Filename) == 0)\r
                        return Ext2_int_CreateNode( disk, dirent.inode, namebuf );\r
                // Increment pointers\r
                ofs += dirent.rec_len;\r
                size -= dirent.rec_len;\r
                entNum ++;\r
                \r
                // Check for end of block\r
                if(ofs >= disk->BlockSize) {\r
                        block ++;\r
                        if( ofs > disk->BlockSize ) {\r
                                Warning("[EXT2 ] Directory Entry %i of inode %i extends over a block boundary, ignoring\n",\r
                                        entNum-1, Node->Inode);\r
                        }\r
                        ofs = 0;\r
                        Base = Ext2_int_GetBlockAddr( disk, inode.i_block, block );\r
                }\r
        }\r
        \r
        return NULL;\r
}\r
\r
/**\r
 * \fn int Ext2_MkNod(tVFS_Node *Parent, char *Name, Uint Flags)\r
 * \brief Create a new node\r
 */\r
int Ext2_MkNod(tVFS_Node *Parent, char *Name, Uint Flags)\r
{\r
        return 0;\r
}\r
\r
//==================================\r
//=       INTERNAL FUNCTIONS       =\r
//==================================\r
\r
\r
/**\r
 \internal\r
 \fn int Ext2_int_GetInode(vfs_node *Node, tExt2_Inode *Inode)\r
 \brief Gets the inode descriptor for a node\r
 \param node    node to get the Inode of\r
 \param inode   Destination\r
*/\r
int Ext2_int_GetInode(tVFS_Node *Node, tExt2_Inode *Inode)\r
{\r
        return Ext2_int_ReadInode(Node->ImplPtr, Node->Inode, Inode);\r
}\r
\r
/**\r
 * \fn vfs_node *Ext2_int_CreateNode(tExt2_Disk *Disk, Uint InodeID, char *Name)\r
 * \brief Create a new VFS Node\r
 */\r
tVFS_Node *Ext2_int_CreateNode(tExt2_Disk *Disk, Uint InodeID, char *Name)\r
{\r
        tExt2_Inode     inode;\r
        tVFS_Node       retNode;\r
        tVFS_Node       *tmpNode;\r
        \r
        if( !Ext2_int_ReadInode(Disk, InodeID, &inode) )\r
                return NULL;\r
        \r
        if( (tmpNode = Inode_GetCache(Disk->CacheID, InodeID)) )\r
                return tmpNode;\r
        \r
        \r
        // Set identifiers\r
        retNode.Inode = InodeID;\r
        retNode.ImplPtr = Disk;\r
        \r
        // Set file length\r
        retNode.Size = inode.i_size;\r
        \r
        // Set Access Permissions\r
        retNode.UID = inode.i_uid;\r
        retNode.GID = inode.i_gid;\r
        retNode.NumACLs = 3;\r
        retNode.ACLs = VFS_UnixToAcessACL(inode.i_mode & 0777, inode.i_uid, inode.i_gid);\r
        \r
        //  Set Function Pointers\r
        retNode.Read = Ext2_Read;\r
        retNode.Write = Ext2_Write;\r
        retNode.Close = Ext2_CloseFile;\r
        \r
        switch(inode.i_mode & EXT2_S_IFMT)\r
        {\r
        // Symbolic Link\r
        case EXT2_S_IFLNK:\r
                retNode.Flags = VFS_FFLAG_SYMLINK;\r
                break;\r
        // Regular File\r
        case EXT2_S_IFREG:\r
                retNode.Flags = 0;\r
                break;\r
        // Directory\r
        case EXT2_S_IFDIR:\r
                retNode.ReadDir = Ext2_ReadDir;\r
                retNode.FindDir = Ext2_FindDir;\r
                retNode.MkNod = Ext2_MkNod;\r
                //retNode.Relink = Ext2_Relink;\r
                retNode.Flags = VFS_FFLAG_DIRECTORY;\r
                break;\r
        // Unknown, Write protect and hide it to be safe \r
        default:\r
                retNode.Flags = VFS_FFLAG_READONLY;//|VFS_FFLAG_HIDDEN;\r
                break;\r
        }\r
        \r
        // Check if the file should be hidden\r
        //if(Name[0] == '.')    retNode.Flags |= VFS_FFLAG_HIDDEN;\r
        \r
        // Set Timestamps\r
        retNode.ATime = now();\r
        retNode.MTime = inode.i_mtime * 1000;\r
        retNode.CTime = inode.i_ctime * 1000;\r
        \r
        // Save in node cache and return saved node\r
        return Inode_CacheNode(Disk->CacheID, &retNode);\r
}\r
\r
/**\r
 * \fn int Ext2_int_ReadInode(tExt2_Disk *Disk, Uint InodeId, tExt2_Inode *Inode)\r
 * \brief Read an inode into memory\r
 */\r
int Ext2_int_ReadInode(tExt2_Disk *Disk, Uint InodeId, tExt2_Inode *Inode)\r
{\r
         int    group, subId;\r
        \r
        //LogF("Ext2_int_ReadInode: (Disk=%p, InodeId=%i, Inode=%p)\n", Disk, InodeId, Inode);\r
        \r
        if(InodeId == 0)        return 0;\r
        \r
        InodeId --;     // Inodes are numbered starting at 1\r
        \r
        group = InodeId / Disk->SuperBlock.s_inodes_per_group;\r
        subId = InodeId % Disk->SuperBlock.s_inodes_per_group;\r
        \r
        //LogF(" Ext2_int_ReadInode: group=%i, subId = %i\n", group, subId);\r
        \r
        // Read Inode\r
        VFS_ReadAt(Disk->FD,\r
                Disk->Groups[group].bg_inode_table * Disk->BlockSize + sizeof(tExt2_Inode)*subId,\r
                sizeof(tExt2_Inode),\r
                Inode);\r
        return 1;\r
}\r
\r
/**\r
 * \fn Uint64 Ext2_int_GetBlockAddr(tExt2_Disk *Disk, Uint32 *Blocks, int BlockNum)\r
 * \brief Get the address of a block from an inode's list\r
 * \param Disk  Disk information structure\r
 * \param Blocks        Pointer to an inode's block list\r
 * \param BlockNum      Block index in list\r
 */\r
Uint64 Ext2_int_GetBlockAddr(tExt2_Disk *Disk, Uint32 *Blocks, int BlockNum)\r
{\r
        Uint32  *iBlocks;\r
        // Direct Blocks\r
        if(BlockNum < 12)\r
                return (Uint64)Blocks[BlockNum] * Disk->BlockSize;\r
        \r
        // Single Indirect Blocks\r
        iBlocks = malloc( Disk->BlockSize );\r
        VFS_ReadAt(Disk->FD, (Uint64)Blocks[12]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
        \r
        BlockNum -= 12;\r
        if(BlockNum < 256) {\r
                BlockNum = iBlocks[BlockNum];\r
                free(iBlocks);\r
                return (Uint64)BlockNum * Disk->BlockSize;\r
        }\r
        \r
        // Double Indirect Blocks\r
        if(BlockNum < 256*256)\r
        {\r
                VFS_ReadAt(Disk->FD, (Uint64)Blocks[13]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
                VFS_ReadAt(Disk->FD, (Uint64)iBlocks[BlockNum/256]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
                BlockNum = iBlocks[BlockNum%256];\r
                free(iBlocks);\r
                return (Uint64)BlockNum * Disk->BlockSize;\r
        }\r
        // Triple Indirect Blocks\r
        VFS_ReadAt(Disk->FD, (Uint64)Blocks[14]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
        VFS_ReadAt(Disk->FD, (Uint64)iBlocks[BlockNum/(256*256)]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
        VFS_ReadAt(Disk->FD, (Uint64)iBlocks[(BlockNum/256)%256]*Disk->BlockSize, Disk->BlockSize, iBlocks);\r
        BlockNum = iBlocks[BlockNum%256];\r
        free(iBlocks);\r
        return (Uint64)BlockNum * Disk->BlockSize;\r
}\r