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/*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#define BUF_GLOBALS
#include "type.h"
#include "vdef.h"
#include "vreg.h"
#include "crt.h"
#include "vfun.h"
ULONG UnlockSCURegHost(ULONG MMIOBase, ULONG Key)
{
WriteMemoryLongHost(SCU_BASE, SCU_PROTECT_REG, Key);
return ReadMemoryLongHost(SCU_BASE,SCU_PROTECT_REG);
}
void ResetVideoHost(void)
{
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CONTROL_REG, VIDEO_RESET_EN << VIDEO_ENGINE_RESET_BIT, VIDEO_ENGINE_RESET_MASK);
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CONTROL_REG, VIDEO_RESET_OFF << VIDEO_ENGINE_RESET_BIT, VIDEO_ENGINE_RESET_MASK);
}
void StartModeDetectionTriggerHost(ULONG MMIOBase, ULONG offset)
{
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, 0, MODE_DETECTION_TRIGGER);
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, MODE_DETECTION_TRIGGER, MODE_DETECTION_TRIGGER);
}
BOOL ReadVideoInterruptHost(ULONG MMIOBase, ULONG value)
{
return ((ReadMemoryLongHost(VIDEO_REG_BASE, VIDEO_INT_CONTROL_READ_REG) & value) ? TRUE : FALSE);
}
ULONG UnlockVideoRegHost(ULONG MMIOBase, ULONG Key)
{
WriteMemoryLongHost(VIDEO_REG_BASE, KEY_CONTROL_REG, Key);
return ReadMemoryLongHost(VIDEO_REG_BASE,KEY_CONTROL_REG);
}
void StartVideoCaptureTriggerHost(ULONG MMIOBase, ULONG offset)
{
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, 0, VIDEO_CAPTURE_TRIGGER);
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, VIDEO_CAPTURE_TRIGGER, VIDEO_CAPTURE_TRIGGER);
}
void StartVideoCodecTriggerHost(ULONG MMIOBase, ULONG offset)
{
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, 0, VIDEO_CODEC_TRIGGER);
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, VIDEO_CODEC_TRIGGER, VIDEO_CODEC_TRIGGER);
}
void StopModeDetectionTriggerHost(ULONG MMIOBase, ULONG offset)
{
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, offset, 0, MODE_DETECTION_TRIGGER);
}
void ClearVideoInterruptHost(ULONG MMIOBase, ULONG value)
{
//WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO_INT_CONTROL_CLEAR_REG, value, value);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_INT_CONTROL_CLEAR_REG, value);
}
/* UnLock SCU Host and Reset Engine */
BOOL CheckOnStartHost(void)
{
int i=0, dwValue=0;
do
{
dwValue = UnlockSCURegHost(0, SCU_UNLOCK_KEY);
i++;
}
while ((SCU_WRITE_ENABLE != dwValue) && (i<10));
//Clear SCU Reset Register
WriteMemoryLongHost(SCU_BASE, SCU_CONTROL_REG, 0);
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_STOP_REG, (EN_ECLK | EN_V1CLK | EN_V2CLK), (STOP_ECLK_MASK | STOP_V1CLK_MASK | STOP_V2CLK_MASK));
#if defined(CONFIG_AST2300)
WriteMemoryLongWithMASKHost(SCU_BASE, (0x90 + SCU_OFFSET), 0x00000020, 0x00000030); //enable 24bits
WriteMemoryLongWithMASKHost(SCU_BASE, (0x88 + SCU_OFFSET), 0x000fff00, 0x000fff00); //enable video multi-pins
#else //AST2100
//WriteMemoryLongWithMASKHost(SCU_BASE, SCU_PIN_CTRL1_REG, (VIDEO_PORTA_EN | VIDEO_PORTB_EN | VIDEO_VP1_EN | VIDEO_VP2_EN) ,
// (VIDEO_PORTA_MASK | VIDEO_PORTB_MASK | VIDEO_VP1_MASK | VIDEO_VP2_MASK));
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_PIN_CTRL2_REG, (VIDEO_PORTA_SINGLE_EDGE | VIDEO_PORTB_SINGLE_EDGE) ,
(VIDEO_PORTA_SINGLE_EDGE_MASK | VIDEO_PORTB_SINGLE_EDGE_MASK));
#endif
ResetVideoHost();
return TRUE;
}
BOOL CheckOnStartClient(void)
{
int i=0, dwValue=0;
do
{
dwValue = UnlockSCURegHost(0, SCU_UNLOCK_KEY);
i++;
}
while ((SCU_WRITE_ENABLE != dwValue) && (i<10));
//Clear SCU Reset Register
WriteMemoryLongClient(SCU_BASE, SCU_CONTROL_REG, 0);
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_CLOCK_STOP_REG, (EN_ECLK | EN_V1CLK | EN_D1CLK | EN_D2CLK | EN_V2CLK),
(STOP_ECLK_MASK | STOP_D1CLK_MASK | STOP_D2CLK_MASK | STOP_V1CLK_MASK | STOP_V2CLK_MASK));
//WriteMemoryLongWithMASKClient(SCU_BASE, SCU_CLOCK_SELECTION_REG, PORTB_FROM_D2CLK | PORTB_CLOCK_INV_DELAY_3NS | PORTA_CLOCK_INV_DELAY_3NS, PORTB_CLOCK_SEL | PORTB_CLOCK_DELAY_MASK | PORTA_CLOCK_DELAY_MASK);
//A1EVA
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_CLOCK_SELECTION_REG, (PORTB_FROM_D2CLK | PORTB_CLOCK_INV_DELAY_1NS | PORTA_CLOCK_INV_DELAY_1NS), (PORTB_CLOCK_SEL | PORTB_CLOCK_DELAY_MASK | PORTA_CLOCK_DELAY_MASK));
WriteMemoryLongWithMASKClient(SCU_BASE, 0x202C, (0x03<<9), (0x03<<9));
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_PIN_CTRL1_REG, (VIDEO_PORTA_EN | VIDEO_PORTB_EN | VIDEO_VP1_EN | VIDEO_VP2_EN),
(VIDEO_PORTA_MASK | VIDEO_PORTB_MASK | VIDEO_VP1_MASK | VIDEO_VP2_MASK));
#if CONFIG_AST3000
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_PIN_CTRL2_REG, (VIDEO_PORTA_DUAL_EDGE | VIDEO_PORTB_DUAL_EDGE),
(VIDEO_PORTA_SINGLE_EDGE_MASK | VIDEO_PORTB_SINGLE_EDGE_MASK));
#else
//2100 is single edge
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_PIN_CTRL2_REG, (VIDEO_PORTA_SINGLE_EDGE | VIDEO_PORTB_SINGLE_EDGE),
(VIDEO_PORTA_SINGLE_EDGE_MASK | VIDEO_PORTB_SINGLE_EDGE_MASK));
#endif
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_CLOCK_STOP_REG, (EN_D1CLK | EN_D2CLK), (STOP_D1CLK_MASK | STOP_D2CLK_MASK));
WriteMemoryLongWithMASKClient(SCU_BASE, SCU_PIN_CTRL1_REG, VGA_PIN_OFF, VGA_PIN_MASK);
//ResetVideoHost();
return TRUE;
}
ULONG InitializeVideoEngineHost (ULONG MMIOBase,
int nVideo,
BOOL HorPolarity,
BOOL VerPolarity)
{
//ULONG temp, temp1, temp2;
ULONG dwRegOffset = nVideo * 0x100;
ULONG dwValue;
int i;
/* General Video Control */
//LineBufEn 0
//dwValue = (COMPRESS_MODE << CODEC_DECOMPRESS_MODE_BIT) | DELAY_VSYNC_EN;
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CONTROL_REG, dwValue);
//Video Data Truncation Register
WriteMemoryLongHost(VIDEO_REG_BASE, 0x328, 0);
//D2CLK clock must config according to video's line buffer
if (VIDEO1 == nVideo)
dwValue = LINE_BUFFER_VIDEO1;
else
dwValue = LINE_BUFFER_VIDEO2;
//D2CLK clock must config according to video's line buffer
switch (dwValue)
{
case LINE_BUFFER_OFF:
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_SELECTION_REG, NORMAL_CRT1, D2CLK_CLOCK_SELECTION_MASK);
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_STOP_REG, STOP_D2CLK, STOP_D2CLK_MASK);
break;
case LINE_BUFFER_VIDEO1:
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_SELECTION_REG, V1CLK_VIDEO1 << D2CLK_CLOCK_SELECTION_BIT, D2CLK_CLOCK_SELECTION_MASK);
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_STOP_REG, EN_D2CLK, STOP_D2CLK_MASK);
break;
case LINE_BUFFER_VIDEO2:
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_SELECTION_REG, V1CLK_VIDEO2 << D2CLK_CLOCK_SELECTION_BIT, D2CLK_CLOCK_SELECTION_MASK);
WriteMemoryLongWithMASKHost(SCU_BASE, SCU_CLOCK_STOP_REG, EN_D2CLK, STOP_D2CLK_MASK);
break;
case LINE_BUFFER_VIDEOM:
//If select this option, it will config at videoM INIT
break;
default:
break;
}
dwValue = 0;
//VR30 now is capture window in the compression
dwValue = g_DefHeight << CAPTURE_VER_LINE_BIT |
g_DefWidth << CAPTURE_HOR_PIXEL_BIT;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_CAPTURE_WINDOWS_REG + dwRegOffset, dwValue);
dwValue = 0;
//VR34 now is destionation window in the compression
dwValue = g_DefHeight << COMPRESS_VER_LINE_BIT |
g_DefWidth << COMPRESS_HOR_PIXEL_BIT;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_COMPRESS_WINDOWS_REG + dwRegOffset, dwValue);
//BitCOUNT according compress data format
dwValue = YUV444_MODE;
if (YUV444_MODE == dwValue)
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_BUF_LINE_OFFSET_REG + dwRegOffset, g_DefWidth * INPUT_BITCOUNT_YUV444, BUF_LINE_OFFSET_MASK);
else
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_BUF_LINE_OFFSET_REG + dwRegOffset, g_DefWidth * INPUT_BITCOUNT_YUV420, BUF_LINE_OFFSET_MASK);
// CRC
//Disable
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CRC_PRIMARY_REG, 0x0);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CRC_SECOND_REG, 0x0);
/* Sequence Control register */
//Oonly Encoder need to set
/* Engine Sequence Contol Register */
dwValue = (WATCH_DOG_EN << WATCH_DOG_ENABLE_BIT) |
VIDEO_CAPTURE_AUTO_MODE |
VIDEO_CODEC_AUTO_MODE;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_ENGINE_SEQUENCE_CONTROL_REG + dwRegOffset, dwValue);
/* Control register */
dwValue = (HOR_NEGATIVE == HorPolarity) ? NO_INVERSE_POL : INVERSE_POL;
dwValue = (((VER_NEGATIVE == VerPolarity) ? NO_INVERSE_POL : INVERSE_POL) << VIDEO_VSYNC_POLARITY_BIT) | dwValue;
/* HW Recommand*/
//dwValue = (TILE_MODE << 9) | dwValue;
dwValue = (EXTERNAL_VGA_SOURCE << EXTERNAL_SOURCE_BIT) | dwValue;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_CONTROL_REG + dwRegOffset, dwValue);
/* BCD register */
//NO BCD
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_BCD_CONTROL_REG + dwRegOffset, dwValue);
/* Stream Buffer Size register */
dwValue = (YUV_TEST << SKIP_TEST_MODE_BIT) |
(PACKET_SIZE_32KB << STREAM_PACKET_SIZE_BIT) |
(PACKETS_8 << RING_BUF_PACKET_NUM_BIT);
/* the same with Video1, Video2, and VideoM*/
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_STREAM_BUF_SIZE, dwValue);
/* Comression control register */
dwValue = (USE_UV_CIR656 << UV_CIR656_FORMAT_BIT)|
(JPEG_MIX_MODE << JPEG_ONLY_BIT)|
(VQ_4_COLOR_MODE << VQ_4_COLOR_BIT)|
(QUANTI_CODEC_MODE << QUALITY_CODEC_SETTING_BIT)|
(7 << NORMAL_QUANTI_CHROMI_TABLE_BIT) |
(23 << NORMAL_QUANTI_LUMI_TABLE_BIT);
//Video2 have same value as video1
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_COMPRESS_CONTROL_REG, dwValue);
/* JPEG Quantization Table register */
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_QUANTI_TABLE_LOW_REG, dwValue);
/* Quantization value register */
//Video2 have same value as video1
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_QUANTI_VALUE_REG, dwValue);
//Video BSD Parameter Register
//Video2 have same value as video1
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_BSD_PARA_REG, dwValue);
//no scale
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_SCALE_FACTOR_REG, 0x10001000);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_SCALE_FACTOR_PARAMETER0_REG, 0x00200000);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_SCALE_FACTOR_PARAMETER1_REG, 0x00200000);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_SCALE_FACTOR_PARAMETER2_REG, 0x00200000);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_SCALE_FACTOR_PARAMETER3_REG, 0x00200000);
return TRUE;
}
ULONG InitializeVideoEngineClient (ULONG MMIOBase,
int nVideo)
{
//ULONG temp, temp1, temp2;
ULONG dwRegOffset = nVideo * 0x100;
ULONG dwValue;
int i;
/* General Video Control */
//LineBufEn 0
dwValue = (DECOMPRESS_MODE << CODEC_DECOMPRESS_MODE_BIT);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CONTROL_REG, dwValue);
//Video Data Truncation Register
WriteMemoryLongHost(VIDEO_REG_BASE, 0x328, 0);
//VR30 now is capture window in the compression
dwValue = g_DefHeight << CAPTURE_VER_LINE_BIT |
g_DefWidth << CAPTURE_HOR_PIXEL_BIT;
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_CAPTURE_WINDOWS_REG + dwRegOffset, dwValue, CAPTURE_VER_LINE_MASK | CAPTURE_HOR_PIXEL_MASK);
//VR34 now is destionation window in the compression
dwValue = g_DefHeight << COMPRESS_VER_LINE_BIT |
g_DefWidth << COMPRESS_HOR_PIXEL_BIT;
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_COMPRESS_WINDOWS_REG + dwRegOffset, dwValue, COMPRESS_VER_LINE_MASK | COMPRESS_HOR_PIXEL_MASK);
//BitCOUNT according compress data format
dwValue = YUV444_MODE;
if (YUV444_MODE == dwValue)
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_BUF_LINE_OFFSET_REG + dwRegOffset, g_DefWidth * INPUT_BITCOUNT_YUV444, BUF_LINE_OFFSET_MASK);
else
WriteMemoryLongWithMASKHost(VIDEO_REG_BASE, VIDEO1_BUF_LINE_OFFSET_REG + dwRegOffset, g_DefWidth * INPUT_BITCOUNT_YUV420, BUF_LINE_OFFSET_MASK);
// CRC
//Disable
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CRC_PRIMARY_REG, 0x0);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO_CRC_SECOND_REG, 0x0);
/* Sequence Control register */
//Oonly Encoder need to set
/* Engine Sequence Contol Register */
dwValue = VIDEO_CAPTURE_AUTO_MODE |
VIDEO_CODEC_AUTO_MODE;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_ENGINE_SEQUENCE_CONTROL_REG + dwRegOffset, dwValue);
/* Control register */
/* HW Recommand*/
dwValue = (TILE_MODE << 9);
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_CONTROL_REG + dwRegOffset, dwValue);
/* BCD register */
//NO BCD
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_BCD_CONTROL_REG + dwRegOffset, dwValue);
/* Stream Buffer Size register */
dwValue = (YUV_TEST << SKIP_TEST_MODE_BIT) |
(PACKET_SIZE_32KB << STREAM_PACKET_SIZE_BIT) |
(PACKETS_8 << RING_BUF_PACKET_NUM_BIT);
/* the same with Video1, Video2, and VideoM*/
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_STREAM_BUF_SIZE, dwValue);
/* Comression control register */
dwValue = (USE_UV_CIR656 << UV_CIR656_FORMAT_BIT)|
(JPEG_MIX_MODE << JPEG_ONLY_BIT)|
(VQ_4_COLOR_MODE << VQ_4_COLOR_BIT)|
(QUANTI_CODEC_MODE << QUALITY_CODEC_SETTING_BIT)|
(7 << NORMAL_QUANTI_CHROMI_TABLE_BIT) |
(23 << NORMAL_QUANTI_LUMI_TABLE_BIT);
//Video2 have same value as video1
if (VIDEO1 == nVideo)
{
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_COMPRESS_CONTROL_REG, dwValue);
}
else
{
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEOM_COMPRESS_CONTROL_REG, dwValue);
}
/* JPEG Quantization Table register */
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_QUANTI_TABLE_LOW_REG, dwValue);
/* Quantization value register */
//Video2 have same value as video1
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_QUANTI_VALUE_REG, dwValue);
//Video BSD Parameter Register
//Video2 have same value as video1
dwValue = 0;
WriteMemoryLongHost(VIDEO_REG_BASE, VIDEO1_BSD_PARA_REG, dwValue);
return TRUE;
}
BYTE GetI2CRegClient(ULONG MMIOBase,
BYTE DeviceSelect,
BYTE DeviceAddress,
BYTE RegisterIndex)
{
BYTE Data;
ULONG Status;
// Reset
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x00, 0);
// Set AC Timing and Speed
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x04, AC_TIMING);
// Lower Speed
// WriteMemoryLongWithANDData (VideoEngineInfo->VGAPCIInfo.ulMMIOBaseAddress, I2C_BASE + DeviceSelect * 0x40 + 0x04, 0, 0x33317805);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x08, 0);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Enable Master Mode
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x00, 1);
// Enable Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0xAF);
// BYTE I2C Mode
// Start and Send Device Address
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, DeviceAddress);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x3);
// Wait TX ACK
do {
Status = ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x03;
} while (Status != 1);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Send Device Register Index
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, RegisterIndex);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x2);
// Wait Tx ACK
do {
Status = ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x03;
} while (Status != 1);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Start, Send Device Address + 1(Read Mode), Receive Data
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, DeviceAddress + 1);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x1B);
// Wait Rx Done
do {
Status = (ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x04) >> 2;
} while (Status != 1);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Enable STOP Interrupt
WriteMemoryLongWithMASKClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0x10, 0x10);
// Issue STOP Command
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x20);
// Wait STOP
do {
Status = (ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x10) >> 4;
} while (Status != 1);
// Disable STOP Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0x10);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Read Received Data
Data = (BYTE)((ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20) & 0xFF00) >> 8);
return Data;
}
ULONG SetI2CRegClient(ULONG MMIOBase,
BYTE DeviceSelect,
BYTE DeviceAddress,
BYTE RegisterIndex,
BYTE RegisterValue)
{
ULONG Status;
ULONG Count = 0;
// Reset
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x00, 0);
// Set Speed
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x04, AC_TIMING);
// Lower Speed
// WriteMemoryLongWithANDData (VideoEngineInfo->VGAPCIInfo.ulMMIOBaseAddress, I2C_BASE + DeviceSelect * 0x40 + 0x04, 0, 0x33317805);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x08, 0);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Enable Master Mode
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x00, 1);
// Enable Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0xAF);
// BYTE I2C Mode
// Start and Send Device Address
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, DeviceAddress);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x3);
// Wait Tx ACK
do {
Count++;
Status = ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x03;
if (2 == Status)
{
//Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
//Re-Send Start and Send Device Address while NACK return
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, DeviceAddress);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x3);
}
//else
{
if (Count > LOOP_COUNT) {
return CAN_NOT_FIND_DEVICE;
}
}
} while (Status != 1);
Count = 0;
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Send Device Register Index
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, RegisterIndex);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x2);
// Wait Tx ACK
do {
Count++;
Status = ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x03;
if (Count > LOOP_COUNT) {
return CAN_NOT_FIND_DEVICE;
}
} while (Status != 1);
Count = 0;
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Send Device Register Value and Stop
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x20, RegisterValue);
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x2);
// Wait Tx ACK
do {
Count++;
Status = ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x03;
if (Count > LOOP_COUNT) {
return CAN_NOT_FIND_DEVICE;
}
} while (Status != 1);
Count = 0;
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
// Enable STOP Interrupt
WriteMemoryLongWithMASKClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0x10, 0x10);
// Issue STOP Command
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x14, 0x20);
// Wait STOP
do {
Count++;
Status = (ReadMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10) & 0x10) >> 4;
if (Count > LOOP_COUNT) {
return CAN_NOT_FIND_DEVICE;
}
} while (Status != 1);
// Disable STOP Interrupt
WriteMemoryLongWithMASKClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x0C, 0, 0x10);
// Clear Interrupt
WriteMemoryLongClient(APB_BRIDGE_2_BASE, I2C_BASE + DeviceSelect * 0x40 + 0x10, 0xFFFFFFFF);
return SET_I2C_DONE;
}
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