Nikolai Trushnikov
808
Dependents: Chromatograph_Mobile
src/FT_GPU_Hal.cpp
- Committer:
- cpm219
- Date:
- 2016-09-07
- Revision:
- 0:2d0ef4830603
- Child:
- 1:75efdc9d4bc2
File content as of revision 0:2d0ef4830603:
/* mbed Library for FTDI FT800 Enbedded Video Engine "EVE"
* based on Original Code Sample from FTDI
* ported to mbed by Peter Drescher, DC2PD 2014
* Released under the MIT License: http://mbed.org/license/mit
* 19.09.14 changed to shorter function names
* FTDI was using very long names.
* Ft_App_Flush_Co_Buffer -> Flush_Co_Buffer ... */
#include "FT_Platform.h"
#include "mbed.h"
#include "FT_LCD_Type.h"
Serial pc(USBTX, USBRX);
FT800::FT800(PinName mosi,
PinName miso,
PinName sck,
PinName ss,
PinName intr,
PinName pd)
:
_spi(mosi, miso, sck),
_ss(ss),
_pd(pd),
_f800_isr(InterruptIn(intr))
{
_spi.format(8,0); // 8 bit spi mode 0
_spi.frequency(1000000); // start with 10 Mhz SPI clock
_ss = 1; // cs high
_pd = 1; // PD high
Bootup();
}
ft_bool_t FT800::Bootup(void){
Open();
BootupConfig();
return(1);
}
ft_void_t FT800::BootupConfig(void){
ft_uint8_t chipid;
/* Do a power cycle for safer side */
Powercycle( FT_TRUE);
/*
7/8/16: Curt added the sleep delay below...
*/
// Sleep(30);
/* Set the clk to external clock */
HostCommand( FT_GPU_EXTERNAL_OSC);
Sleep(10);
/* Access address 0 to wake up the FT800 */
HostCommand( FT_GPU_ACTIVE_M);
Sleep(500);
/* Switch PLL output to 48MHz */
// HostCommand( FT_GPU_PLL_48M);
Sleep(10);
/* Do a core reset for safer side */
HostCommand( FT_GPU_CORE_RESET);
Sleep(500);
//Read Register ID to check if FT800 is ready.
chipid = Rd8( REG_ID);
// chipid = Rd8(0x0C0000);
pc.printf("ID%08X\n", chipid);
while(chipid != 0x7C)
// Speed up
_spi.frequency(20000000); // 20 Mhz SPI clock DC
// _spi.frequency(12000000); // 12 Mhz SPI clock
/* Configuration of LCD display */
DispHCycle = my_DispHCycle;
Wr16( REG_HCYCLE, DispHCycle);
DispHOffset = my_DispHOffset;
Wr16( REG_HOFFSET, DispHOffset);
DispWidth = my_DispWidth;
Wr16( REG_HSIZE, DispWidth);
DispHSync0 = my_DispHSync0;
Wr16( REG_HSYNC0, DispHSync0);
DispHSync1 = my_DispHSync1;
Wr16( REG_HSYNC1, DispHSync1);
DispVCycle = my_DispVCycle;
Wr16( REG_VCYCLE, DispVCycle);
DispVOffset = my_DispVOffset;
Wr16( REG_VOFFSET, DispVOffset);
DispHeight = my_DispHeight;
Wr16( REG_VSIZE, DispHeight);
DispVSync0 = my_DispVSync0;
Wr16( REG_VSYNC0, DispVSync0);
DispVSync1 = my_DispVSync1;
Wr16( REG_VSYNC1, DispVSync1);
DispSwizzle = my_DispSwizzle;
Wr8( REG_SWIZZLE, DispSwizzle);
DispPCLKPol = my_DispPCLKPol;
Wr8( REG_PCLK_POL, DispPCLKPol);
Wr8( REG_CSPREAD, 0);
DispPCLK = my_DispPCLK;
Wr8( REG_PCLK, DispPCLK);//after this display is visible on the LCD
Wr16( REG_PWM_HZ, 10000);
#ifdef Inv_Backlite // turn on backlite
Wr16( REG_PWM_DUTY, 0);
#else
Wr16( REG_PWM_DUTY, 100);
#endif
Wr8( REG_GPIO_DIR,0x82); //| Rd8( REG_GPIO_DIR));
Wr8( REG_GPIO,0x080); //| Rd8( REG_GPIO));
Wr32( RAM_DL, CLEAR(1,1,1));
Wr32( RAM_DL+4, DISPLAY());
Wr32( REG_DLSWAP,1);
Wr16( REG_PCLK, DispPCLK);
/* Touch configuration - configure the resistance value to 1200 - this value is specific to customer requirement and derived by experiment */
Wr16( REG_TOUCH_RZTHRESH,2400);
}
/* API to initialize the SPI interface */
ft_bool_t FT800::Init()
{
// is done in constructor
return 1;
}
ft_bool_t FT800::Open()
{
cmd_fifo_wp = dl_buff_wp = 0;
status = OPENED;
return 1;
}
ft_void_t FT800::Close( )
{
status = CLOSED;
}
ft_void_t FT800::DeInit()
{
}
/*The APIs for reading/writing transfer continuously only with small buffer system*/
ft_void_t FT800::StartTransfer( FT_GPU_TRANSFERDIR_T rw,ft_uint32_t addr)
{
if (FT_GPU_READ == rw){
_ss = 0; // cs low
_spi.write(addr >> 16);
_spi.write(addr >> 8);
_spi.write(addr & 0xff);
_spi.write(0); //Dummy Read Byte
status = READING;
}else{
_ss = 0; // cs low
_spi.write(0x80 | (addr >> 16));
_spi.write(addr >> 8);
_spi.write(addr & 0xff);
status = WRITING;
}
}
/*The APIs for writing transfer continuously only*/
ft_void_t FT800::StartCmdTransfer( FT_GPU_TRANSFERDIR_T rw, ft_uint16_t count)
{
StartTransfer( rw, cmd_fifo_wp + RAM_CMD);
}
ft_uint8_t FT800::TransferString( const ft_char8_t *string)
{
ft_uint16_t length = strlen(string);
while(length --){
Transfer8( *string);
string ++;
}
//Append one null as ending flag
Transfer8( 0);
return(1);
}
ft_uint8_t FT800::Transfer8( ft_uint8_t value)
{
return _spi.write(value);
}
ft_uint16_t FT800::Transfer16( ft_uint16_t value)
{
ft_uint16_t retVal = 0;
if (status == WRITING){
Transfer8( value & 0xFF);//LSB first
Transfer8( (value >> 8) & 0xFF);
}else{
retVal = Transfer8( 0);
retVal |= (ft_uint16_t)Transfer8( 0) << 8;
}
return retVal;
}
ft_uint32_t FT800::Transfer32( ft_uint32_t value)
{
ft_uint32_t retVal = 0;
if (status == WRITING){
Transfer16( value & 0xFFFF);//LSB first
Transfer16( (value >> 16) & 0xFFFF);
}else{
retVal = Transfer16( 0);
retVal |= (ft_uint32_t)Transfer16( 0) << 16;
}
return retVal;
}
ft_void_t FT800::EndTransfer( )
{
_ss = 1;
status = OPENED;
}
ft_uint8_t FT800::Rd8( ft_uint32_t addr)
{
ft_uint8_t value;
StartTransfer( FT_GPU_READ,addr);
value = Transfer8( 0);
EndTransfer( );
return value;
}
ft_uint16_t FT800::Rd16( ft_uint32_t addr)
{
ft_uint16_t value;
StartTransfer( FT_GPU_READ,addr);
value = Transfer16( 0);
EndTransfer( );
return value;
}
ft_uint32_t FT800::Rd32( ft_uint32_t addr)
{
ft_uint32_t value;
StartTransfer( FT_GPU_READ,addr);
value = Transfer32( 0);
EndTransfer( );
return value;
}
ft_void_t FT800::Wr8( ft_uint32_t addr, ft_uint8_t v)
{
StartTransfer( FT_GPU_WRITE,addr);
Transfer8( v);
EndTransfer( );
}
ft_void_t FT800::Wr16( ft_uint32_t addr, ft_uint16_t v)
{
StartTransfer( FT_GPU_WRITE,addr);
Transfer16( v);
EndTransfer( );
}
ft_void_t FT800::Wr32( ft_uint32_t addr, ft_uint32_t v)
{
StartTransfer( FT_GPU_WRITE,addr);
Transfer32( v);
EndTransfer( );
}
ft_void_t FT800::HostCommand( ft_uint8_t cmd)
{
_ss = 0;
_spi.write(cmd);
_spi.write(0);
_spi.write(0);
_ss = 1;
}
ft_void_t FT800::ClockSelect( FT_GPU_PLL_SOURCE_T pllsource)
{
HostCommand( pllsource);
}
ft_void_t FT800::PLL_FreqSelect( FT_GPU_PLL_FREQ_T freq)
{
HostCommand( freq);
}
ft_void_t FT800::PowerModeSwitch( FT_GPU_POWER_MODE_T pwrmode)
{
HostCommand( pwrmode);
}
ft_void_t FT800::CoreReset( )
{
HostCommand( 0x68);
}
ft_void_t FT800::Updatecmdfifo( ft_uint16_t count)
{
cmd_fifo_wp = ( cmd_fifo_wp + count) & 4095;
//4 byte alignment
cmd_fifo_wp = ( cmd_fifo_wp + 3) & 0xffc;
Wr16( REG_CMD_WRITE, cmd_fifo_wp);
}
ft_uint16_t FT800::fifo_Freespace( )
{
ft_uint16_t fullness,retval;
fullness = ( cmd_fifo_wp - Rd16( REG_CMD_READ)) & 4095;
retval = (FT_CMD_FIFO_SIZE - 4) - fullness;
return (retval);
}
ft_void_t FT800::WrCmdBuf( ft_uint8_t *buffer,ft_uint16_t count)
{
ft_uint32_t length =0, SizeTransfered = 0;
#define MAX_CMD_FIFO_TRANSFER fifo_Freespace( )
do {
length = count;
if (length > MAX_CMD_FIFO_TRANSFER){
length = MAX_CMD_FIFO_TRANSFER;
}
CheckCmdBuffer( length);
StartCmdTransfer( FT_GPU_WRITE,length);
SizeTransfered = 0;
while (length--) {
Transfer8( *buffer);
buffer++;
SizeTransfered ++;
}
length = SizeTransfered;
EndTransfer( );
Updatecmdfifo( length);
WaitCmdfifo_empty( );
count -= length;
}while (count > 0);
}
ft_void_t FT800::WrCmdBufFromFlash( FT_PROGMEM ft_prog_uchar8_t *buffer,ft_uint16_t count)
{
ft_uint32_t length =0, SizeTransfered = 0;
#define MAX_CMD_FIFO_TRANSFER fifo_Freespace( )
do {
length = count;
if (length > MAX_CMD_FIFO_TRANSFER){
length = MAX_CMD_FIFO_TRANSFER;
}
CheckCmdBuffer( length);
StartCmdTransfer( FT_GPU_WRITE,length);
SizeTransfered = 0;
while (length--) {
Transfer8( ft_pgm_read_byte_near(buffer));
buffer++;
SizeTransfered ++;
}
length = SizeTransfered;
EndTransfer( );
Updatecmdfifo( length);
WaitCmdfifo_empty( );
count -= length;
}while (count > 0);
}
ft_void_t FT800::CheckCmdBuffer( ft_uint16_t count)
{
ft_uint16_t getfreespace;
do{
getfreespace = fifo_Freespace( );
}while(getfreespace < count);
}
ft_void_t FT800::WaitCmdfifo_empty( )
{
while(Rd16( REG_CMD_READ) != Rd16( REG_CMD_WRITE));
cmd_fifo_wp = Rd16( REG_CMD_WRITE);
}
ft_void_t FT800::WaitLogo_Finish( )
{
ft_int16_t cmdrdptr,cmdwrptr;
do{
cmdrdptr = Rd16( REG_CMD_READ);
cmdwrptr = Rd16( REG_CMD_WRITE);
}while ((cmdwrptr != cmdrdptr) || (cmdrdptr != 0));
cmd_fifo_wp = 0;
}
ft_void_t FT800::ResetCmdFifo( )
{
cmd_fifo_wp = 0;
}
ft_void_t FT800::WrCmd32( ft_uint32_t cmd)
{
CheckCmdBuffer( sizeof(cmd));
Wr32( RAM_CMD + cmd_fifo_wp,cmd);
Updatecmdfifo( sizeof(cmd));
}
ft_void_t FT800::ResetDLBuffer( )
{
dl_buff_wp = 0;
}
/* Toggle PD_N pin of FT800 board for a power cycle*/
ft_void_t FT800::Powercycle( ft_bool_t up)
{
if (up)
{
//Toggle PD_N from low to high for power up switch
_pd = 0;
Sleep(20);
_pd = 1;
Sleep(20);
}else
{
//Toggle PD_N from high to low for power down switch
_pd = 1;
Sleep(20);
_pd = 0;
Sleep(20);
}
}
ft_void_t FT800::WrMemFromFlash( ft_uint32_t addr,const ft_prog_uchar8_t *buffer, ft_uint32_t length)
{
//ft_uint32_t SizeTransfered = 0;
StartTransfer( FT_GPU_WRITE,addr);
while (length--) {
Transfer8( ft_pgm_read_byte_near(buffer));
buffer++;
}
EndTransfer( );
}
ft_void_t FT800::WrMem( ft_uint32_t addr,const ft_uint8_t *buffer, ft_uint32_t length)
{
//ft_uint32_t SizeTransfered = 0;
StartTransfer( FT_GPU_WRITE,addr);
while (length--) {
Transfer8( *buffer);
buffer++;
}
EndTransfer( );
}
ft_void_t FT800::RdMem( ft_uint32_t addr, ft_uint8_t *buffer, ft_uint32_t length)
{
//ft_uint32_t SizeTransfered = 0;
StartTransfer( FT_GPU_READ,addr);
while (length--) {
*buffer = Transfer8( 0);
buffer++;
}
EndTransfer( );
}
ft_int32_t FT800::Dec2Ascii(ft_char8_t *pSrc,ft_int32_t value)
{
ft_int16_t Length;
ft_char8_t *pdst,charval;
ft_int32_t CurrVal = value,tmpval,i;
ft_char8_t tmparray[16],idx = 0;
Length = strlen(pSrc);
pdst = pSrc + Length;
if(0 == value)
{
*pdst++ = '0';
*pdst++ = '\0';
return 0;
}
if(CurrVal < 0)
{
*pdst++ = '-';
CurrVal = - CurrVal;
}
/* insert the value */
while(CurrVal > 0){
tmpval = CurrVal;
CurrVal /= 10;
tmpval = tmpval - CurrVal*10;
charval = '0' + tmpval;
tmparray[idx++] = charval;
}
for(i=0;i<idx;i++)
{
*pdst++ = tmparray[idx - i - 1];
}
*pdst++ = '\0';
return 0;
}
ft_void_t FT800::Sleep(ft_uint16_t ms)
{
wait_ms(ms);
}
ft_void_t FT800::Sound_ON(){
Wr8( REG_GPIO, 0x02 | Rd8( REG_GPIO));
}
ft_void_t FT800::Sound_OFF(){
Wr8( REG_GPIO, 0xFD & Rd8( REG_GPIO));
}