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[tpg/acess2.git] / Kernel / drv / vterm.c

/*
 * Acess2 Virtual Terminal Driver
 */
#include <common.h>
#include <fs_devfs.h>
#include <modules.h>
#include <tpl_drv_video.h>
#include <tpl_drv_keyboard.h>
#include <tpl_drv_terminal.h>
#include <errno.h>

// === CONSTANTS ===
#define VERSION ((0<<8)|(50))

#define NUM_VTS 7
#define MAX_INPUT_CHARS32       64
#define MAX_INPUT_CHARS8        (MAX_INPUT_CHARS32*4)
#define VT_SCROLLBACK   1       // 2 Screens of text
#define DEFAULT_OUTPUT  "VGA"
//#define DEFAULT_OUTPUT        "BochsGA"
#define DEFAULT_INPUT   "PS2Keyboard"
#define DEFAULT_WIDTH   80
#define DEFAULT_HEIGHT  25
#define DEFAULT_COLOUR  (VT_COL_BLACK|(0xAAA<<16))

#define VT_FLAG_HIDECSR 0x01
#define VT_FLAG_HASFB   0x10    //!< Set if the VTerm has requested the Framebuffer

enum eVT_InModes {
        VT_INMODE_TEXT8,        // UTF-8 Text Mode (VT100 Emulation)
        VT_INMODE_TEXT32,       // UTF-32 Text Mode (Acess Native)
        NUM_VT_INMODES
};

// === TYPES ===
typedef struct {
         int    Mode;   //!< Current Mode (see ::eTplTerminal_Modes)
         int    Flags;  //!< Flags (see VT_FLAG_*)
        short   Width;  //!< Virtual Width
        short   Height; //!< Virtual Height
        short   RealWidth;      //!< Real Width
        short   RealHeight;     //!< Real Height
        
         int    ViewPos;        //!< View Buffer Offset (Text Only)
         int    WritePos;       //!< Write Buffer Offset (Text Only)
        Uint32  CurColour;      //!< Current Text Colour
        char    Name[2];        //!< Name of the terminal
        
         int    InputRead;      //!< Input buffer read position
         int    InputWrite;     //!< Input buffer write position
        char    InputBuffer[MAX_INPUT_CHARS8];
        union {
                tVT_Char        *Text;
                Uint32          *Buffer;
        };
        tVFS_Node       Node;
} tVTerm;

// === IMPORTS ===
extern void     Debug_SetKTerminal(char *File);

// === PROTOTYPES ===
 int    VT_Install(char **Arguments);
char    *VT_ReadDir(tVFS_Node *Node, int Pos);
tVFS_Node       *VT_FindDir(tVFS_Node *Node, char *Name);
 int    VT_Root_IOCtl(tVFS_Node *Node, int Id, void *Data);
Uint64  VT_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
Uint64  VT_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
 int    VT_Terminal_IOCtl(tVFS_Node *Node, int Id, void *Data);
void    VT_SetTerminal(int ID);
void    VT_KBCallBack(Uint32 Codepoint);
void    VT_int_PutString(tVTerm *Term, Uint8 *Buffer, Uint Count);
 int    VT_int_ParseEscape(tVTerm *Term, char *Buffer);
void    VT_int_PutChar(tVTerm *Term, Uint32 Ch);
void    VT_int_UpdateScreen( tVTerm *Term, int UpdateAll );
void    VT_int_ChangeMode(tVTerm *Term, int NewMode);

// === CONSTANTS ===
const Uint16    caVT100Colours[] = {
                VT_COL_BLACK, 0x700, 0x070, 0x770, 0x007, 0x707, 0x077, 0xAAA,
                VT_COL_GREY, 0xF00, 0x0F0, 0xFF0, 0x00F, 0xF0F, 0x0FF, VT_COL_WHITE
        };

// === GLOBALS ===
MODULE_DEFINE(0, VERSION, VTerm, VT_Install, NULL, DEFAULT_OUTPUT, DEFAULT_INPUT, NULL);
tDevFS_Driver   gVT_DrvInfo = {
        NULL, "VTerm",
        {
        .Flags = VFS_FFLAG_DIRECTORY,
        .Size = NUM_VTS,
        .Inode = -1,
        .NumACLs = 0,
        .ReadDir = VT_ReadDir,
        .FindDir = VT_FindDir,
        .IOCtl = VT_Root_IOCtl
        }
};
// --- Terminals ---
tVTerm  gVT_Terminals[NUM_VTS];
 int    giVT_CurrentTerminal = 0;
// --- Driver Handles ---
char    *gsVT_OutputDevice = NULL;
char    *gsVT_InputDevice = NULL;
 int    giVT_OutputDevHandle = -2;
 int    giVT_InputDevHandle = -2;
// --- Key States --- (Used for VT Switching/Magic Combos)
 int    gbVT_CtrlDown = 0;
 int    gbVT_AltDown = 0;
 int    gbVT_SysrqDown = 0;

// === CODE ===
/**
 * \fn int VT_Install(char **Arguments)
 * \brief Installs the Virtual Terminal Driver
 */
int VT_Install(char **Arguments)
{
        char    **args = Arguments;
        char    *arg;
         int    i;
        
        // Scan Arguments
        if(Arguments)
        {
                for( ; (arg = *args); args++ )
                {
                        if(arg[0] != '-')       continue;
                        
                        switch(arg[1])
                        {
                        // Set output device
                        case 'o':
                                if(args[1] ==  NULL)    break;
                                if(gsVT_OutputDevice)   free(gsVT_OutputDevice);
                                gsVT_OutputDevice = malloc(strlen(args[1])+1);
                                strcpy(gsVT_OutputDevice, args[1]);
                                args ++;
                                break;
                        
                        // Set input device
                        case 'i':
                                if(args[1] == NULL)     break;
                                if(gsVT_InputDevice)    free(gsVT_InputDevice);
                                gsVT_InputDevice = malloc(strlen(args[1])+1);
                                strcpy(gsVT_InputDevice, args[1]);
                                args ++;
                                break;
                        
                        }
                }
        }
        
        // Apply Defaults
        if(!gsVT_OutputDevice)  gsVT_OutputDevice = "/Devices/"DEFAULT_OUTPUT;
        if(!gsVT_InputDevice)   gsVT_InputDevice = "/Devices/"DEFAULT_INPUT;
        
        LOG("Using '%s' as output", gsVT_OutputDevice);
        LOG("Using '%s' as input", gsVT_InputDevice);
        
        // Create Nodes
        for( i = 0; i < NUM_VTS; i++ )
        {
                gVT_Terminals[i].Mode = TERM_MODE_TEXT;
                gVT_Terminals[i].Flags = 0;
                gVT_Terminals[i].Width = DEFAULT_WIDTH;
                gVT_Terminals[i].Height = DEFAULT_HEIGHT;
                gVT_Terminals[i].CurColour = DEFAULT_COLOUR;
                gVT_Terminals[i].WritePos = 0;
                gVT_Terminals[i].ViewPos = 0;
                
                gVT_Terminals[i].Buffer = calloc( DEFAULT_WIDTH*DEFAULT_HEIGHT*VT_SCROLLBACK, sizeof(tVT_Char) );
                
                gVT_Terminals[i].Name[0] = '0'+i;
                gVT_Terminals[i].Name[1] = '\0';
                gVT_Terminals[i].Node.Inode = i;
                gVT_Terminals[i].Node.ImplPtr = &gVT_Terminals[i];
                gVT_Terminals[i].Node.NumACLs = 0;      // Only root can open virtual terminals
                
                gVT_Terminals[i].Node.Read = VT_Read;
                gVT_Terminals[i].Node.Write = VT_Write;
                gVT_Terminals[i].Node.IOCtl = VT_Terminal_IOCtl;
        }
        
        // Add to DevFS
        DevFS_AddDevice( &gVT_DrvInfo );
        
        // Set kernel output to VT0
        Debug_SetKTerminal("/Devices/VTerm/0");
        
        return 0;
}

/**
 * \fn void VT_InitOutput()
 * \brief Initialise Video Output
 */
void VT_InitOutput()
{
        giVT_OutputDevHandle = VFS_Open(gsVT_OutputDevice, VFS_OPENFLAG_WRITE);
        VT_SetTerminal( 0 );
}

/**
 * \fn void VT_InitInput()
 * \brief Initialises the input
 */
void VT_InitInput()
{
        giVT_InputDevHandle = VFS_Open(gsVT_InputDevice, VFS_OPENFLAG_READ);
        if(giVT_InputDevHandle == -1)   return ;
        VFS_IOCtl(giVT_InputDevHandle, KB_IOCTL_SETCALLBACK, VT_KBCallBack);
}

/**
 * \fn char *VT_ReadDir(tVFS_Node *Node, int Pos)
 * \brief Read from the VTerm Directory
 */
char *VT_ReadDir(tVFS_Node *Node, int Pos)
{
        if(Pos < 0)     return NULL;
        if(Pos >= NUM_VTS)      return NULL;
        return strdup( gVT_Terminals[Pos].Name );
}

/**
 * \fn tVFS_Node *VT_FindDir(tVFS_Node *Node, char *Name)
 * \brief Find an item in the VTerm directory
 */
tVFS_Node *VT_FindDir(tVFS_Node *Node, char *Name)
{
         int    num;
        
        //ENTER("pNode sName", Node, Name);
        
        // Open the input and output files if needed
        if(giVT_OutputDevHandle == -2)  VT_InitOutput();
        if(giVT_InputDevHandle == -2)   VT_InitInput();
        
        // Sanity check name
        if(Name[0] < '0' || Name[0] > '9' || Name[1] != '\0') {
                LEAVE('n');
                return NULL;
        }
        // Get index
        num = Name[0] - '0';
        if(num >= NUM_VTS) {
                LEAVE('n');
                return NULL;
        }
        // Return node
        //LEAVE('p', &gVT_Terminals[num].Node);
        return &gVT_Terminals[num].Node;
}

/**
 * \fn int VT_Root_IOCtl(tVFS_Node *Node, int Id, void *Data)
 * \brief Control the VTerm Driver
 */
int VT_Root_IOCtl(tVFS_Node *Node, int Id, void *Data)
{
         int    len;
        switch(Id)
        {
        case DRV_IOCTL_TYPE:    return DRV_TYPE_MISC;
        case DRV_IOCTL_IDENT:   memcpy(Data, "VT\0\0", 4);      return 0;
        case DRV_IOCTL_VERSION: return VERSION;
        case DRV_IOCTL_LOOKUP:  return 0;
        
        case 4: // Get Video Driver
                if(Data)        strcpy(Data, gsVT_OutputDevice);
                return strlen(gsVT_OutputDevice);
        
        case 5: // Set Video Driver
                if(!Data)       return -EINVAL;
                if(Threads_GetUID() != 0)       return -EACCES;
                
                len = strlen(Data);
                
                free(gsVT_OutputDevice);
                
                gsVT_OutputDevice = malloc(len+1);
                strcpy(gsVT_OutputDevice, Data);
                
                VFS_Close(giVT_OutputDevHandle);
                giVT_OutputDevHandle = -1;
                
                VT_InitOutput();
                return 1;
        }
        return 0;
}

/**
 * \fn Uint64 VT_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)
 * \brief Read from a virtual terminal
 */
Uint64 VT_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)
{
         int    pos = 0;
        tVTerm  *term = &gVT_Terminals[ Node->Inode ];
        
        // Check current mode
        switch(term->Mode)
        {
        case TERM_MODE_TEXT:
                while(pos < Length)
                {
                        while(term->InputRead == term->InputWrite)      Threads_Yield();
                        
                        ((char*)Buffer)[pos] = term->InputBuffer[term->InputRead];
                        pos ++;
                        term->InputRead ++;
                        term->InputRead %= MAX_INPUT_CHARS8;
                }
                break;
        
        case TERM_MODE_FB:
        case TERM_MODE_OPENGL:
                while(pos < Length)
                {
                        while(term->InputRead == term->InputWrite)      Threads_Yield();
                        ((Uint32*)Buffer)[pos] = ((Uint32*)term->InputBuffer)[term->InputRead];
                        pos ++;
                        term->InputRead ++;
                        term->InputRead %= MAX_INPUT_CHARS32;
                }
                break;
        }
        return 0;
}

/**
 * \fn Uint64 VT_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)
 * \brief Write to a virtual terminal
 */
Uint64 VT_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)
{
        tVTerm  *term = &gVT_Terminals[ Node->Inode ];
        
        //ENTER("pNode XOffset XLength pBuffer",  Node, Offset, Length, Buffer);
        
        // Write
        switch( term->Mode )
        {
        case TERM_MODE_TEXT:
                VT_int_PutString(term, Buffer, Length);
                break;
        }
        
        //LEAVE('i', 0);
        return 0;
}

/**
 * \fn int VT_Terminal_IOCtl(tVFS_Node *Node, int Id, void *Data)
 * \brief Call an IO Control on a virtual terminal
 */
int VT_Terminal_IOCtl(tVFS_Node *Node, int Id, void *Data)
{
         int    *iData = Data;
        tVTerm  *term = Node->ImplPtr;
        switch(Id)
        {
        case DRV_IOCTL_TYPE:    return DRV_TYPE_TERMINAL;
        case DRV_IOCTL_IDENT:   memcpy(Data, "VT\0\0", 4);      return 0;
        case DRV_IOCTL_VERSION: return VERSION;
        case DRV_IOCTL_LOOKUP:  return 0;
        
        // Get/Set the mode (and apply any changes)
        case TERM_IOCTL_MODETYPE:
                if(Data == NULL)        return term->Mode;
                
                if(term->Mode != *iData) {
                        VT_int_ChangeMode(term, *iData);
                }
                
                // Update the screen dimensions
                if(giVT_CurrentTerminal == Node->Inode)
                        VT_SetTerminal( giVT_CurrentTerminal );
                break;
        
        // Get/set the terminal width
        case TERM_IOCTL_WIDTH:
                if(Data == NULL)        return term->Width;
                term->Width = *iData;
                break;
        
        // Get/set the terminal height
        case TERM_IOCTL_HEIGHT:
                if(Data == NULL)        return term->Height;
                term->Height = *iData;
                break;
        
        default:
                return -1;
        }
        return 0;
}

/**
 * \fn void VT_SetTerminal(int ID)
 * \brief Set the current terminal
 */
void VT_SetTerminal(int ID)
{
        tVideo_IOCtl_Mode       mode = {0};
         int    modeNum;
        
        // Create the video mode
        mode.width = gVT_Terminals[ ID ].Width;
        mode.height = gVT_Terminals[ ID ].Height;
        // - Text Mode
        if(gVT_Terminals[ ID ].Mode == TERM_MODE_TEXT) {
                mode.bpp = 12;
                mode.flags = VIDEO_FLAG_TEXT;
        }
        // - Framebuffer or 3D
        else {
                mode.bpp = 32;
                mode.flags = 0;
        }
        
        // Set video mode
        VFS_IOCtl( giVT_OutputDevHandle, VIDEO_IOCTL_FINDMODE, &mode );
        modeNum = mode.id;
        gVT_Terminals[ ID ].RealWidth = mode.width;
        gVT_Terminals[ ID ].RealHeight = mode.height;
        VFS_IOCtl( giVT_OutputDevHandle, VIDEO_IOCTL_GETSETMODE, &modeNum );
        
        // Update current terminal ID
        Log("Changed terminal from %i to %i", giVT_CurrentTerminal, ID);
        giVT_CurrentTerminal = ID;
        
        // Update the screen
        VT_int_UpdateScreen( &gVT_Terminals[ ID ], 1 );
}

/**
 * \fn void VT_KBCallBack(Uint32 Codepoint)
 * \brief Called on keyboard interrupt
 */
void VT_KBCallBack(Uint32 Codepoint)
{
        tVTerm  *term = &gVT_Terminals[giVT_CurrentTerminal];
        
        // How the hell did we get a Codepoint of zero?
        if(Codepoint == 0)      return;
        
        // Key Up
        if( Codepoint & 0x80000000 )
        {
                Codepoint &= 0x7FFFFFFF;
                switch(Codepoint)
                {
                case KEY_LALT:
                case KEY_RALT:
                        gbVT_AltDown = 0;
                        break;
                case KEY_LCTRL:
                case KEY_RCTRL:
                        gbVT_CtrlDown = 0;
                        break;
                }
                return;
        }
        
        switch(Codepoint)
        {
        case KEY_LALT:
        case KEY_RALT:
                gbVT_AltDown = 1;
                break;
        case KEY_LCTRL:
        case KEY_RCTRL:
                gbVT_CtrlDown = 1;
                break;
        
        default:
                if(!gbVT_AltDown || !gbVT_CtrlDown)
                        break;
                switch(Codepoint)
                {
                case KEY_F1:    VT_SetTerminal(0);      return;
                case KEY_F2:    VT_SetTerminal(1);      return;
                case KEY_F3:    VT_SetTerminal(2);      return;
                case KEY_F4:    VT_SetTerminal(3);      return;
                case KEY_F5:    VT_SetTerminal(4);      return;
                case KEY_F6:    VT_SetTerminal(5);      return;
                case KEY_F7:    VT_SetTerminal(6);      return;
                case KEY_F8:    VT_SetTerminal(7);      return;
                case KEY_F9:    VT_SetTerminal(8);      return;
                case KEY_F10:   VT_SetTerminal(9);      return;
                case KEY_F11:   VT_SetTerminal(10);     return;
                case KEY_F12:   VT_SetTerminal(11);     return;
                case KEY_PGUP:
                        return;
                case KEY_PGDOWN:
                        return;
                }
        }
        
        // Encode key
        if(term->Mode == TERM_MODE_TEXT)
        {
                Uint8   buf[6] = {0};
                 int    len = 0;
                
                // Ignore Modifer Keys
                if(Codepoint > KEY_MODIFIERS)   return;
                
                // Get UTF-8/ANSI Encoding
                switch(Codepoint)
                {
                case KEY_LEFT:
                        buf[0] = '\x1B';        buf[1] = '[';   buf[2] = 'D';
                        len = 3;
                        break;
                case KEY_RIGHT:
                        buf[0] = '\x1B';        buf[1] = '[';   buf[2] = 'C';
                        len = 3;
                        break;
                case KEY_UP:
                        buf[0] = '\x1B';        buf[1] = '[';   buf[2] = 'A';
                        len = 3;
                        break;
                case KEY_DOWN:
                        buf[0] = '\x1B';        buf[1] = '[';   buf[2] = 'B';
                        len = 3;
                        break;
                
                case KEY_PGUP:
                        buf[0] = '\x1B';        buf[1] = '[';   buf[2] = '5';   // Some overline also
                        //len = 4;      // Commented out until I'm sure
                        break;
                case KEY_PGDOWN:
                        len = 0;
                        break;
                
                // Attempt to encode in UTF-8
                default:
                        len = WriteUTF8( buf, Codepoint );
                        if(len == 0) {
                                Warning("Codepoint (%x) is unrepresentable in UTF-8", Codepoint);
                        }
                        break;
                }
                
                if(len == 0) {
                        // Unprintable / Don't Pass
                        return;
                }
                
                // Write
                if( MAX_INPUT_CHARS8 - term->InputWrite >= len )
                        memcpy( &term->InputBuffer[term->InputWrite], buf, len );
                else {
                        memcpy( &term->InputBuffer[term->InputWrite], buf, MAX_INPUT_CHARS8 - term->InputWrite );
                        memcpy( &term->InputBuffer[0], buf, len - (MAX_INPUT_CHARS8 - term->InputWrite) );
                }
                // Roll the buffer over
                term->InputWrite += len;
                term->InputWrite %= MAX_INPUT_CHARS8;
                if( (term->InputWrite - term->InputRead + MAX_INPUT_CHARS8)%MAX_INPUT_CHARS8 < len ) {
                        term->InputRead = term->InputWrite + 1;
                        term->InputRead %= MAX_INPUT_CHARS8;
                }
                
        }
        else
        {
                // Encode the raw UTF-32 Key
                ((Uint32*)term->InputBuffer)[ term->InputWrite ] = Codepoint;
                term->InputWrite ++;
                term->InputWrite %= MAX_INPUT_CHARS32;
                if(term->InputRead == term->InputWrite) {
                        term->InputRead ++;
                        term->InputRead %= MAX_INPUT_CHARS32;
                }
        }
}

/**
 * \fn void VT_int_PutString(tVTerm *Term, Uint8 *Buffer, Uint Count)
 * \brief Print a string to the Virtual Terminal
 */
void VT_int_PutString(tVTerm *Term, Uint8 *Buffer, Uint Count)
{
        Uint32  val;
         int    i;
        for( i = 0; i < Count; i++ )
        {
                if( Buffer[i] == 0x1B ) // Escape Sequence
                {
                        i ++;
                        i += VT_int_ParseEscape(Term, (char*)&Buffer[i]);
                        continue;
                }
                
                if( Buffer[i] < 128 )   // Plain ASCII
                        VT_int_PutChar(Term, Buffer[i]);
                else {  // UTF-8
                        i += ReadUTF8(&Buffer[i], &val);
                        VT_int_PutChar(Term, val);
                }
        }
        
        // Update cursor
        if( !(Term->Flags & VT_FLAG_HIDECSR) )
        {
                tVideo_IOCtl_Pos        pos;
                pos.x = Term->WritePos % Term->Width;
                pos.y = Term->WritePos / Term->Width;
                VFS_IOCtl(giVT_OutputDevHandle, VIDEO_IOCTL_SETCURSOR, &pos);
        }
}

/**
 * \fn void VT_int_ClearLine(tVTerm *Term, int Num)
 * \brief Clears a line in a virtual terminal
 */
void VT_int_ClearLine(tVTerm *Term, int Num)
{
         int    i;
        //ENTER("pTerm iNum", Term, Num);
        for( i = Term->Width; i--; )
        {
                Term->Text[ Num*Term->Width + i ].Ch = 0;
                Term->Text[ Num*Term->Width + i ].Colour = Term->CurColour;
        }
        //LEAVE('-');
}

/**
 * \fn int VT_int_ParseEscape(tVTerm *Term, char *Buffer)
 * \brief Parses a VT100 Escape code
 */
int VT_int_ParseEscape(tVTerm *Term, char *Buffer)
{
        char    c;
         int    argc = 0, j = 1;
         int    tmp;
         int    args[4] = {0,0,0,0};
        
        switch(Buffer[0]) {
        //Large Code
        case '[':
                // Get Arguments
                c = Buffer[1];
                do {
                        while('0' <= c && c <= '9') {
                                args[argc] *= 10;
                                args[argc] += c-'0';
                                c = Buffer[++j];
                        }
                        if( j != 1 )    argc ++;
                } while(c == ';');
                
                // Get string (what does this do?)
                if(c == '"') {
                        c = Buffer[++j];
                        while(c != '"')
                                c = Buffer[++j];
                }
                
                // Get Command
                if(     ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z'))
                {
                        switch(c)
                        {
                        // Left
                        case 'D':
                                if(argc == 1)   tmp = args[0];
                                else    tmp = 1;
                                
                                if( Term->WritePos-(tmp-1) % Term->Width == 0 )
                                        Term->WritePos -= Term->WritePos % Term->Width;
                                else
                                        Term->WritePos -= tmp;
                                break;
                        
                        // Right
                        case 'C':
                                if(argc == 1)   tmp = args[0];
                                else    tmp = 1;
                                if( (Term->WritePos + tmp) % Term->Width == 0 ) {
                                        Term->WritePos -= Term->WritePos % Term->Width;
                                        Term->WritePos += Term->Width - 1;
                                } else
                                        Term->WritePos += tmp;
                                break;
                        
                        // Clear By Line
                        case 'J':
                                // Clear Screen
                                switch(args[0])
                                {
                                case 2:
                                        {
                                         int    i = Term->Height * VT_SCROLLBACK;
                                        while( i-- )    VT_int_ClearLine(Term, i);
                                        Term->WritePos = 0;
                                        Term->ViewPos = 0;
                                        VT_int_UpdateScreen(Term, 1);
                                        }
                                        break;
                                }
                                break;
                        // Set Font flags
                        case 'm':
                                for( ; argc--; )
                                {
                                        // Flags
                                        if( 0 <= args[argc] && args[argc] <= 8)
                                        {
                                                switch(args[argc])
                                                {
                                                case 0: Term->CurColour = DEFAULT_COLOUR;       break;  // Reset
                                                case 1: Term->CurColour |= 0x80000000;  break;  // Bright
                                                case 2: Term->CurColour &= ~0x80000000; break;  // Dim
                                                }
                                        }
                                        // Foreground Colour
                                        else if(30 <= args[argc] && args[argc] <= 37) {
                                                Term->CurColour &= 0xF000FFFF;
                                                Term->CurColour |= (Uint32)caVT100Colours[ args[argc]-30+(Term->CurColour>>28) ] << 16;
                                        }
                                        // Background Colour
                                        else if(40 <= args[argc] && args[argc] <= 47) {
                                                Term->CurColour &= 0xFFFF8000;
                                                Term->CurColour |= caVT100Colours[ args[argc]-40+((Term->CurColour>>12)&15) ];
                                        }
                                }
                                break;
                        }
                }
                break;
                
        default:
                break;
        }
        
        return j + 1;
}

/**
 * \fn void VT_int_PutChar(tVTerm *Term, Uint32 Ch)
 * \brief Write a single character to a VTerm
 */
void VT_int_PutChar(tVTerm *Term, Uint32 Ch)
{
         int    i;
        //ENTER("pTerm xCh", Term, Ch);
        //LOG("Term = {WritePos:%i, ViewPos:%i}\n", Term->WritePos, Term->ViewPos);
        
        switch(Ch)
        {
        case '\0':      return; // Ignore NULL byte
        case '\n':
                Term->WritePos += Term->Width;
        case '\r':
                Term->WritePos -= Term->WritePos % Term->Width;
                break;
        
        case '\t':
                do {
                        Term->Text[ Term->WritePos ].Ch = '\0';
                        Term->Text[ Term->WritePos ].Colour = Term->CurColour;
                        Term->WritePos ++;
                } while(Term->WritePos & 7);
                break;
        
        case '\b':
                // Backspace is invalid at Offset 0
                if(Term->WritePos == 0) break;
                
                Term->WritePos --;
                // Singe Character
                if(Term->Text[ Term->WritePos ].Ch != '\0') {
                        Term->Text[ Term->WritePos ].Ch = 0;
                        Term->Text[ Term->WritePos ].Colour = Term->CurColour;
                        break;
                }
                // Tab
                i = 7;  // Limit it to 8
                do {
                        Term->Text[ Term->WritePos ].Ch = 0;
                        Term->Text[ Term->WritePos ].Colour = Term->CurColour;
                        Term->WritePos --;
                } while(Term->WritePos && i-- && Term->Text[ Term->WritePos ].Ch == '\0');
                if(Term->Text[ Term->WritePos ].Ch != '\0')
                        Term->WritePos ++;
                break;
        
        default:
                Term->Text[ Term->WritePos ].Ch = Ch;
                Term->Text[ Term->WritePos ].Colour = Term->CurColour;
                Term->WritePos ++;
                break;
        }
                
        
        // Move Screen
        if(Term->WritePos >= Term->Width*Term->Height*VT_SCROLLBACK)
        {
                 int    base, i;
                Term->WritePos -= Term->Width;
                
                // Update view position
                base = Term->Width*Term->Height*(VT_SCROLLBACK-1);
                if(Term->ViewPos < base)        Term->ViewPos += Term->Width;
                if(Term->ViewPos > base)        Term->ViewPos = base;
                
                // Scroll terminal cache
                base = Term->Width*(Term->Height*VT_SCROLLBACK-1);
                
                // Scroll Back
                memcpy(
                        Term->Text,
                        &Term->Text[Term->Width],
                        Term->Width*(Term->Height-1)*VT_SCROLLBACK*sizeof(tVT_Char)
                        );
                
                // Clear last row
                for( i = 0; i < Term->Width; i ++ )
                {
                        Term->Text[ base + i ].Ch = 0;
                        Term->Text[ base + i ].Colour = Term->CurColour;
                }
                
                VT_int_UpdateScreen( Term, 1 );
        }
        else if(Term->WritePos > Term->Width*Term->Height+Term->ViewPos)
        {
                Term->ViewPos += Term->Width;
                VT_int_UpdateScreen( Term, 1 );
        }
        else
                VT_int_UpdateScreen( Term, 0 );
        
        //LEAVE('-');
}

/**
 * \fn void VT_int_UpdateScreen( tVTerm *Term, int UpdateAll )
 * \brief Updates the video framebuffer
 */
void VT_int_UpdateScreen( tVTerm *Term, int UpdateAll )
{
        // Only update if this is the current terminal
        if( Term != &gVT_Terminals[giVT_CurrentTerminal] )      return;
        
        if( Term->Mode == TERM_MODE_TEXT )
        {
                if(UpdateAll) {
                        VFS_WriteAt(
                                giVT_OutputDevHandle,
                                0,
                                Term->Width*Term->Height*sizeof(tVT_Char),
                                &Term->Text[Term->ViewPos]
                                );
                } else {
                         int    pos = Term->WritePos - Term->WritePos % Term->Width;
                        VFS_WriteAt(
                                giVT_OutputDevHandle,
                                (pos - Term->ViewPos)*sizeof(tVT_Char),
                                Term->Width*sizeof(tVT_Char),
                                &Term->Text[pos]
                                );
                }
        }
        else
        {
                VFS_WriteAt(
                        giVT_OutputDevHandle,
                        0,
                        Term->Width*Term->Height*sizeof(Uint32),
                        &Term->Buffer
                        );
        }
}

/**
 * \fn void VT_int_ChangeMode(tVTerm *Term, int NewMode)
 * \brief Change the mode of a VTerm
 */
void VT_int_ChangeMode(tVTerm *Term, int NewMode)
{       
        switch(NewMode)
        {
        case TERM_MODE_TEXT:
                free(Term->Buffer);
                Term->Text = calloc( Term->Width*Term->Height*VT_SCROLLBACK, sizeof(tVT_Char) );
                break;
        case TERM_MODE_FB:
                free(Term->Text);
                Term->Buffer = calloc( Term->Width*Term->Height, sizeof(Uint32) );
                break;
        case TERM_MODE_OPENGL:
                return;
        }
        
        Term->Mode = NewMode;
}

// ---
// Font Render
// ---
#define MONOSPACE_FONT  10816

#if MONOSPACE_FONT == 10808     // 8x8
# include "vterm_font_8x8.h"
#elif MONOSPACE_FONT == 10816   // 8x16
# include "vterm_font_8x16.h"
#endif

// === PROTOTYPES ===
Uint8   *VT_Font_GetChar(Uint32 Codepoint);

// === GLOBALS ===
int     giVT_CharWidth = FONT_WIDTH+1;
int     giVT_CharHeight = FONT_HEIGHT;

// === CODE ===
/**
 * \fn void VT_Font_Render(Uint32 Codepoint, void *Buffer, int Pitch, Uint32 BGC, Uint32 FGC)
 * \brief Render a font character
 */
void VT_Font_Render(Uint32 Codepoint, void *Buffer, int Pitch, Uint32 BGC, Uint32 FGC)
{
        Uint8   *font;
        Uint32  *buf = Buffer;
         int    x, y;
        
        font = VT_Font_GetChar(Codepoint);
        
        for(y = 0; y < FONT_HEIGHT; y ++)
        {
                for(x = 0; x < FONT_WIDTH; x ++)
                {
                        if(*font & (1 << (FONT_WIDTH-x-1)))
                                buf[x] = FGC;
                        else
                                buf[x] = BGC;
                }
                buf += Pitch;
                font ++;
        }
}

/**
 * \fn Uint32 VT_Colour12to24(Uint16 Col12)
 * \brief Converts a 
 */
Uint32 VT_Colour12to24(Uint16 Col12)
{
        Uint32  ret;
         int    tmp;
        tmp = Col12 & 0xF;
        ret  = (tmp << 0) | (tmp << 4);
        tmp = (Col12 & 0xF0) >> 4;
        ret |= (tmp << 8) | (tmp << 12);
        tmp = (Col12 & 0xF00) >> 8;
        ret |= (tmp << 16) | (tmp << 20);
        return ret;
}

/**
 * \fn Uint8 *VT_Font_GetChar(Uint32 Codepoint)
 * \brief Gets an index into the font array given a Unicode Codepoint
 * \note See http://en.wikipedia.org/wiki/CP437
 */
Uint8 *VT_Font_GetChar(Uint32 Codepoint)
{
         int    index = 0;
        if(Codepoint < 128)
                return &VTermFont[Codepoint*FONT_HEIGHT];
        switch(Codepoint)
        {
        case 0xC7:      index = 128;    break;  // Ç
        case 0xFC:      index = 129;    break;  // ü
        case 0xE9:      index = 130;    break;  // é
        case 0xE2:      index = 131;    break;  // â
        case 0xE4:      index = 132;    break;  // ä
        case 0xE0:      index = 133;    break;  // à
        case 0xE5:      index = 134;    break;  // å
        case 0xE7:      index = 135;    break;  // ç
        case 0xEA:      index = 136;    break;  // ê
        case 0xEB:      index = 137;    break;  // ë
        case 0xE8:      index = 138;    break;  // è
        case 0xEF:      index = 139;    break;  // ï
        case 0xEE:      index = 140;    break;  // î
        case 0xEC:      index = 141;    break;  // ì
        case 0xC4:      index = 142;    break;  // Ä
        case 0xC5:      index = 143;    break;  // Å
        }
        
        return &VTermFont[index*FONT_HEIGHT];
}

EXPORTAS(&giVT_CharWidth, giVT_CharWidth);
EXPORTAS(&giVT_CharHeight, giVT_CharHeight);
EXPORT(VT_Font_Render);
EXPORT(VT_Colour12to24);