本文整理汇总了C++中INREG32函数的典型用法代码示例。如果您正苦于以下问题:C++ INREG32函数的具体用法?C++ INREG32怎么用?C++ INREG32使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了INREG32函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。
示例1: OALTimerUpdate
//------------------------------------------------------------------------------
//
// Function: OALTimerUpdate
//
// This function is called to change length of actual system timer period.
// If end of actual period is closer than margin period isn't changed (so
// original period elapse). Function returns time which already expires
// in new period length units. If end of new period is closer to actual time
// than margin period end is shifted by margin (but next period should fix
// this shift - this is reason why OALTimerRecharge doesn't read back
// compare register and it uses saved value instead).
//
UINT32 OALTimerUpdate(UINT32 period, UINT32 margin)
{
#if (BSP_TYPE == BSP_SMDK2443)
UINT32 tcon, ret;
ret = OALTimerCountsSinceSysTick();
OUTREG32(&g_pPWMRegs->TCNTB4, period);
tcon = INREG32(&g_pPWMRegs->TCON) & ~(0x0F << 20);
OUTREG32(&g_pPWMRegs->TCON, tcon | (0x2 << 20) );
OUTREG32(&g_pPWMRegs->TCON, tcon | (0x5 << 20) );
return (ret);
#elif (BSP_TYPE == BSP_SMDK2450)
#if 0 // Fixed Tick do not Update TImer
UINT32 tcon, ret;
ret = OALTimerCountsSinceSysTick();
OUTREG32(&g_pPWMRegs->TCNTB4, period);
tcon = INREG32(&g_pPWMRegs->TCON) & ~(0x0F << 20);
OUTREG32(&g_pPWMRegs->TCON, tcon | (0x2 << 20) );
OUTREG32(&g_pPWMRegs->TCON, tcon | (0x5 << 20) );
return (ret);
#else
return 0;
#endif
#endif
}
开发者ID:blackfa1con,项目名称:openembed,代码行数:46,代码来源:timer_fixedtick.c
示例2: PrcmVoltSetInitVddLevel
//------------------------------------------------------------------------------
void
PrcmVoltSetInitVddLevel(
VoltageProcessor_e vp,
UINT initVolt
)
{
UINT val;
switch (vp)
{
case kVoltageProcessor1:
val = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP1_CONFIG);
val &= ~SMPS_INITVOLTAGE_MASK;
val |= ((initVolt << SMPS_INITVOLTAGE_SHIFT) & SMPS_INITVOLTAGE_MASK);
OUTREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP1_CONFIG, val);
break;
case kVoltageProcessor2:
val = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP2_CONFIG);
val &= ~SMPS_INITVOLTAGE_MASK;
val |= ((initVolt << SMPS_INITVOLTAGE_SHIFT) & SMPS_INITVOLTAGE_MASK);
OUTREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP2_CONFIG, val);
break;
}
}
开发者ID:zizilala,项目名称:projects_wince_AA,代码行数:26,代码来源:prcm_volt.c
示例3: Omap37xx_dpll4_init
//------------------------------------------------------------------------------
//
// Function: Omap37xx_dpll4_init
//
// Helper function to initialize OMAP 37xx/36xx DPLL4 .
//
void Omap37xx_dpll4_init(void)
{
OMAP_PRCM_EMU_CM_REGS* pPrcmEmuCM = OALPAtoUA(OMAP_PRCM_EMU_CM_REGS_PA);
OMAP_PRCM_CAM_CM_REGS* pPrcmCamCM = OALPAtoUA(OMAP_PRCM_CAM_CM_REGS_PA);
OMAP_PRCM_CLOCK_CONTROL_CM_REGS* pPrcmClkCM = OALPAtoUA(OMAP_PRCM_CLOCK_CONTROL_CM_REGS_PA);
//OMAP_PRCM_SGX_CM_REGS* pPrcmSgxCM = OALPAtoUA(OMAP_PRCM_SGX_CM_REGS_PA);
unsigned int val;
// configure timings for all related peripherals
OUTREG32(&pPrcmEmuCM->CM_CLKSEL1_EMU, BSP_CM_CLKSEL1_EMU);
OUTREG32(&pPrcmCamCM->CM_CLKSEL_CAM, BSP_CM_CLKSEL_CAM);
OUTREG32(&pPrcmClkCM->CM_CLKSEL3_PLL, BSP_CM_CLKSEL3_PLL);
//OUTREG32(&pPrcmSgxCM->CM_CLKSEL_SGX, BSP_CM_CLKSEL_SGX);
/* Omap37xx using low jitter DPLL, the output freq is one half of OMAP 35xx DPLL4 */
val = INREG32(&pPrcmClkCM->CM_CLKSEL2_PLL) & 0xfff00000;
val |= (BSP_PERIPH_DPLL_MULT_37xx | BSP_PERIPH_DPLL_DIV);
OUTREG32(&pPrcmClkCM->CM_CLKSEL2_PLL, val);
// lock dpll with correct frequency selection
val = BSP_CM_CLKEN_PLL & (~(7 << 4));
OUTREG32(&pPrcmClkCM->CM_CLKEN_PLL, val);
while ((INREG32(&pPrcmClkCM->CM_IDLEST_CKGEN) & DPLL_STATUS_MASK) != DPLL_STATUS_LOCKED);
}
开发者ID:zizilala,项目名称:projects_wince_AA,代码行数:34,代码来源:platform.c
示例4: PrcmVoltIdleCheck
//-----------------------------------------------------------------------------
BOOL
PrcmVoltIdleCheck(
VoltageProcessor_e vp
)
{
UINT vpStatus;
BOOL rc = FALSE;
switch (vp)
{
case kVoltageProcessor1:
vpStatus = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP1_STATUS);
break;
case kVoltageProcessor2:
vpStatus = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP2_STATUS);
break;
default:
goto cleanUp;
}
if (vpStatus & SMPS_VPINIDLE)
{
rc = TRUE;
}
cleanUp:
return rc;
}
开发者ID:zizilala,项目名称:projects_wince_AA,代码行数:31,代码来源:prcm_volt.c
示例5: OTGDevice_DeInit
//////////
// Function Name : OTGDevice_DeInit
// Function Desctiption : This function de-initializes OTG PHY and LINK.
// Input : NONE
// Output : NONE
// Version :
void OTGDevice_DeInit()
{
DWORD epNum;
// Clear USB Interrupt enable registers
OUTREG32(GINTMSK, 0);
// Disable all RX, TX EPs
if (INREG32(DIEPCTL0) & DEPCTL_EPENA)
OUTREG32(DIEPCTL0, DEPCTL_EPDIS);
if (INREG32(DOEPCTL0) & DEPCTL_EPENA)
OUTREG32(DOEPCTL0, DEPCTL_EPDIS);
for (epNum = 1; epNum < MAX_ENDPTS; epNum++)
{
if (INREG32(DIEPCTL[epNum]) & DEPCTL_EPENA)
OUTREG32(DIEPCTL[epNum], DEPCTL_EPDIS);
if (INREG32(DOEPCTL[epNum]) & DEPCTL_EPENA)
OUTREG32(DOEPCTL[epNum], DEPCTL_EPDIS);
}
SETREG32(PCGCCTL, (1<<0)); //stop pclk
}
开发者ID:HITEG,项目名称:TenByTen6410_SLC,代码行数:31,代码来源:otgdev.c
示例6: OALWatchdogEnable
// Called from OEMPowerOff - no system calls, critical sections, OALMSG, etc., are allowed
//------------------------------------------------------------------------------
// WARNING: This function is called from OEMPowerOff - no system calls, critical
// sections, OALMSG, etc., may be used by this function or any function that it calls.
//------------------------------------------------------------------------------
void OALWatchdogEnable(BOOL bEnable)
{
if (g_WatchdogDevice != OMAP_DEVICE_NONE)
{
if (bEnable == TRUE)
{
// Enable clock
EnableDeviceClocks(g_WatchdogDevice, TRUE);
// Refresh the watchdog timer
while( INREG32(&g_pWatchogTimerRegs->WWPS) );
OUTREG32(&g_pWatchogTimerRegs->WTGR, INREG32(&g_pWatchogTimerRegs->WTGR) + 1);
// Start Watchdog
OUTREG32(&g_pWatchogTimerRegs->WSPR, WDOG_ENABLE_SEQ1);
while( INREG32(&g_pWatchogTimerRegs->WWPS) );
OUTREG32(&g_pWatchogTimerRegs->WSPR, WDOG_ENABLE_SEQ2);
}
else
{
// Ensure the timer is stopped
OUTREG32(&g_pWatchogTimerRegs->WSPR, WDOG_DISABLE_SEQ1);
while( INREG32(&g_pWatchogTimerRegs->WWPS) );
OUTREG32(&g_pWatchogTimerRegs->WSPR, WDOG_DISABLE_SEQ2);
while( INREG32(&g_pWatchogTimerRegs->WWPS) );
// Disable clock
EnableDeviceClocks(g_WatchdogDevice, FALSE);
}
}
}
开发者ID:zizilala,项目名称:projects_etest,代码行数:36,代码来源:watchdog.c
示例7: CloseMediaDevice
////////////////////////////////////////////////////
// 功能: 关闭声音设备
// 输入:
// 输出:
// 返回:
// 说明:
////////////////////////////////////////////////////
void CloseMediaDevice(char channel)
{
int arg;
int time;
arg = ((channel == 0) ? RECORD_CHANNEL : PLAYBACK_CHANNEL );
//等待DMA结束
time = 0;
while( INREG32(A_DMA_DTC(arg)) )
{
#ifdef KPRINTF_DEF
kprintf("close media device : count = %x\n",INREG32(A_DMA_DTC(arg)));
#endif
sTimerSleep(10, NULL);
//加入延迟处理,防止死锁
time++;
if( time > 10 )
{
kdebug(mod_media, PRINT_WARNING, "close media device timer out\n");
break;
}
}
//stop dma
CLRREG32(A_DMA_DCS(arg), DCS_AR | DCS_HLT | DCS_CTE | DCS_CT);
//close aic
CLRREG32(AIC_CR, AIC_CR_ERPL);
SETREG32(AIC_CR, AIC_CR_FLUSH_FIFO);
OUTREG32(AIC_SR, 0x00000000);
#ifndef CODEC_ALWAYS_OPEN
CloseMediaCodecDevice();
#endif
}
开发者ID:DanielGit,项目名称:Intrisit201202,代码行数:42,代码来源:Device.c
示例8: reset_display_controller
// Function: reset_display_controller
// This function resets the display subsystem
void reset_display_controller(void){
unsigned int reg_val,timeout,fclk, iclk;
unsigned short count;
// Enable all display clocks
fclk = INREG32(0x4a009120);//CM_DSS_DSS_CLKCTRL
// iclk = INREG32(CM_ICLKEN_DSS);
// SETREG32(0x4a009120, 0x0502);//enable dss fclk
// OUTREG32(0x4a009120, 0x00000502);//enable dss fclk
// SETREG32(CM_ICLKEN_DSS, CM_CLKEN_DSS);
// Reset the display controller
OUTREG32(0x48041010, 1<<1);//DSI_SYSCONFIG
// Wait until reset completes or timeout occurs
timeout=10000;
while(!((reg_val=INREG32(0x48041014)) & 1<<0) && (timeout > 0)){ //sys state
for(count=0; count<DELAY_COUNT; ++count);
timeout--;
}
if(!(reg_val & 1<<0)){
//puts("reset_display_controller: DSS reset timeout.\n");
}
reg_val=INREG32(0x48041010);//DSI_SYSCONFIG
reg_val &=~(1<<1);
OUTREG32(0x48041010,reg_val);
// Restore old clock settings
OUTREG32(0x4a009120, fclk);//CM_DSS_DSS_CLKCTRL
//OUTREG32(CM_ICLKEN_DSS, iclk);
}
开发者ID:ithryn,项目名称:FIREFIREFIRE-Multiboot-PoC,代码行数:37,代码来源:omap4_lcd.c
示例9: CheckDMAStatus
static void
CheckDMAStatus(OMAP2420_DMA_REGS *pDMAReg, BOOL fEnabled)
{
DWORD dwCount = 0;
DWORD dwValConfirm = INREG32(&pDMAReg->DMA4_CCR);
if (fEnabled)
{
while ( !( dwValConfirm & DMA_CCR_ENABLE ) )
{
// Put safety checking in case something is wrong
if (dwCount++>DMA_SAFETY_LOOP_NUM)
break;
dwValConfirm = INREG32(&pDMAReg->DMA4_CCR);
DEBUGMSG(ZONE_ERROR, (L"OMAP2420DMAContext::HWMapDMAMemory: "
L"ERROR DMA safety checking = %d %08X\r\n", fEnabled, dwValConfirm
));
}
}
else
{
while ( dwValConfirm & DMA_CCR_ENABLE )
{
// Put safety checking in case something is wrong
if (dwCount++>DMA_SAFETY_LOOP_NUM)
break;
dwValConfirm = INREG32(&pDMAReg->DMA4_CCR);
DEBUGMSG(ZONE_ERROR, (L"OMAP2420DMAContext::HWMapDMAMemory: "
L"ERROR DMA safety checking = %d %08X\r\n", fEnabled, dwValConfirm
));
}
}
}
开发者ID:zizilala,项目名称:projects_wince_new,代码行数:35,代码来源:dma.cpp
示例10: PrcmVoltSetErrorConfiguration
//------------------------------------------------------------------------------
void
PrcmVoltSetErrorConfiguration(
VoltageProcessor_e vp,
UINT errorOffset,
UINT errorGain
)
{
UINT val;
switch (vp)
{
case kVoltageProcessor1:
val = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP1_CONFIG);
val &= ~(SMPS_ERROROFFSET_MASK | SMPS_ERRORGAIN_MASK);
val |= ((errorGain << SMPS_ERRORGAIN_SHIFT) & SMPS_ERRORGAIN_MASK);
val |= ((errorOffset << SMPS_ERROROFFSET_SHIFT) & SMPS_ERROROFFSET_MASK);
OUTREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP1_CONFIG, val);
break;
case kVoltageProcessor2:
val = INREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP2_CONFIG);
val &= ~(SMPS_ERROROFFSET_MASK | SMPS_ERRORGAIN_MASK);
val |= ((errorGain << SMPS_ERRORGAIN_SHIFT) & SMPS_ERRORGAIN_MASK);
val |= ((errorOffset << SMPS_ERROROFFSET_SHIFT) & SMPS_ERROROFFSET_MASK);
OUTREG32(&g_pPrcmPrm->pOMAP_GLOBAL_PRM->PRM_VP2_CONFIG, val);
break;
}
}
开发者ID:zizilala,项目名称:projects_wince_AA,代码行数:29,代码来源:prcm_volt.c
示例11: nandReadBl
/*****************************************************************************
* 函 数 名 : nandReadBl
*
* 功能描述 : 根据实际长度读取BootLoader
*
* 输入参数 : dest BootLoader读取的目的地
* 输出参数 :
*
* 返 回 值 : OK 读取成功
* NAND_ECC_ERR ECC出现不可纠正的错误
* SEC_IMAGE_LEN_ERROR 长度错误
*
* 其它说明 :
*
*****************************************************************************/
int nandReadBl( UINT32 dest )
{
UINT32 blLen;
UINT32 ulEccType;
/* 配置IO复用,NAND取默认配置。*/
NF_IOS_SYS_CONFIG();
/* 配置脉宽为16 */
OUTREG32(NANDC_PWIDTH, 0x555);
delay(10);
/* 检查是否为Boot模式,如果不是,则直接重启,再次尝试读取 */
if(NANDC_OPMODE_BOOT != (INREG32(NANDC_CON) & NANDC_OPMODE_MASK))
{
print_info("\r\nnot in boot mode,reboot to try...");
setErrno(NAND_NO_IN_BOOTMODE);
wdtRebootDelayMs(TIME_DELAY_MS_6000_FOR_NF_OPBOOT);
}
/* 获取BootLoader长度 */
blLen = *(volatile UINT32 *)(FLASH_BOOT_ADDR+BL_LEN_INDEX);
/* 获取ECC Type */
ulEccType = INREG32(NANDC_CON) & NAND_ECC_TYPE_MASK;
/* 使能ECC情况下,产生ECC不可纠正的错误 */
if((NAND_ECC_TYPE_0 != ulEccType)
&& (INREG32(NANDC_INTS) & ECC_ERR_INVALID))
{
print_info("\r\necc err!");
return NAND_ECC_ERR;
}
/* 判断长度是否合法:不为零/字对齐/不翻转/不过大 */
/* 0x1234ABCD - read retry failed */
/* 0xABCD1234 - all block(0 to 7) is bad */
if((0 == blLen)
|| (blLen % 4)
|| (blLen + IDIO_LEN + OEM_CA_LEN + IDIO_LEN < blLen)
|| (blLen + IDIO_LEN + OEM_CA_LEN + IDIO_LEN > BOOTLOAD_SIZE_MAX))
{
print_info_with_u32("\r\nBL len err:", blLen);
return SEC_IMAGE_LEN_ERROR;
}
/* 加上镜像签名、OEM CA和OEM CA签名的长度 (安全校验时才添加)*/
blLen += IDIO_LEN + OEM_CA_LEN + IDIO_LEN;
delay(10);
/* Boot模式下直接读取整个BootLoader */
memcpy((void*)dest, (void*)FLASH_BOOT_ADDR, blLen);
return OK;
}
开发者ID:debbiche,项目名称:android_kernel_huawei_p8,代码行数:73,代码来源:secBoot.c
示例12: UFOE_DumpRegisters
void UFOE_DumpRegisters(void)
{
unsigned int i = 0;
for (i = 0; i < 32; i += 16)
{
printk("UFOE+%04x : 0x%08x 0x%08x 0x%08x 0x%08x\n", i, INREG32((DISP_UFOE_BASE + 0x800+i)), INREG32((DISP_UFOE_BASE + 0x800+i+0x4)), INREG32((DISP_UFOE_BASE + 0x800+i+0x8)), INREG32((DISP_UFOE_BASE + 0x800+i+0xc)));
}
for (i = 0x700; i < 0x700 + 96; i += 16)
{
printk("UFOE+%04x : 0x%08x 0x%08x 0x%08x 0x%08x\n", i+0x800, INREG32((DISP_UFOE_BASE + 0x800+i)), INREG32((DISP_UFOE_BASE + 0x800+i+0x4)), INREG32((DISP_UFOE_BASE + 0x800+i+0x8)), INREG32((DISP_UFOE_BASE + 0x800+i+0xc)));
}
}
开发者ID:amadews,项目名称:j608_fly_4511,代码行数:12,代码来源:ufoe_drv.c
示例13: PDrvCryptoSaveDESRegisters
/*-------------------------------------------------------------------------
*Save HWA registers into the specified operation state structure
*-------------------------------------------------------------------------*/
static void PDrvCryptoSaveDESRegisters(u32 DES_CTRL,
struct PUBLIC_CRYPTO_DES_OPERATION_STATE *pDESState)
{
dprintk(KERN_INFO
"PDrvCryptoSaveDESRegisters in pDESState=%p CTRL=0x%08x\n",
pDESState, DES_CTRL);
/*Save the IV if we are in CBC mode */
if (DES_CTRL_GET_MODE(DES_CTRL) == DES_CTRL_MODE_CBC) {
pDESState->DES_IV_L = INREG32(&pDESReg_t->DES_IV_L);
pDESState->DES_IV_H = INREG32(&pDESReg_t->DES_IV_H);
}
}
开发者ID:AdiPat,项目名称:i9003_Kernel,代码行数:16,代码来源:scx_public_crypto_DES.c
示例14: reset_display_controller
//------------------------------------------------------------------------------
//
// Function: reset_display_controller
//
// This function resets the Display Sub System on omap24xx
//
void reset_display_controller( void )
{
UINT32 reg_val;
UINT16 count;
UINT32 timeout;
UINT32 fclk, iclk;
OMAP_PRCM_DSS_CM_REGS *pPrcmRegs = OALPAtoUA(OMAP_PRCM_DSS_CM_REGS_PA);
OMAP_DISPC_REGS *pDisplayRegs = OALPAtoUA(OMAP_DISC1_REGS_PA);
//OALMSG(OAL_INFO, (L"reset_display_controller+\r\n"));
// enable all display clocks
fclk = INREG32(&pPrcmRegs->CM_FCLKEN_DSS);
iclk = INREG32(&pPrcmRegs->CM_ICLKEN_DSS);
OUTREG32(&pPrcmRegs->CM_FCLKEN_DSS, (fclk | CM_CLKEN_DSS1 | CM_CLKEN_DSS2 | CM_CLKEN_TV));
OUTREG32(&pPrcmRegs->CM_ICLKEN_DSS, (iclk | CM_CLKEN_DSS));
// disable the display controller
disable_dss();
// reset the display controller
OUTREG32(&pDisplayRegs->DISPC_SYSCONFIG, DISPC_SYSCONFIG_SOFTRESET);
// wait until reset completes OR timeout occurs
timeout=10000;
while(!((reg_val=INREG32(&pDisplayRegs->DISPC_SYSSTATUS)) & DISPC_SYSSTATUS_RESETDONE) && (timeout > 0))
{
// delay
for(count=0;count<DELAY_COUNT;++count);
timeout--;
}
if(!(reg_val & DISPC_SYSSTATUS_RESETDONE))
{
// OALMSG(OAL_INFO, (L"reset_display_controller: DSS reset timeout\r\n"));
}
reg_val=INREG32(&pDisplayRegs->DISPC_SYSCONFIG);
reg_val &=~(DISPC_SYSCONFIG_SOFTRESET);
OUTREG32(&pDisplayRegs->DISPC_SYSCONFIG,reg_val);
// restore old clock settings
OUTREG32(&pPrcmRegs->CM_FCLKEN_DSS, fclk);
OUTREG32(&pPrcmRegs->CM_ICLKEN_DSS, iclk);
//OALMSG(OAL_INFO, (L"reset_display_controller-\r\n"));
}
开发者ID:blueskycoco,项目名称:dm3730-spi,代码行数:56,代码来源:bsp_logo.c
示例15: LcdPdd_LCD_Initialize
void LcdPdd_LCD_Initialize(void){
unsigned int val = 0;
val = INREG32(0x4a009120);//CM_DSS_DSS_CLKCTRL
val = val & ~(0x0502);
// Setup the DSS1 clock divider - disable DSS1 clock, change divider, enable DSS clock
OUTREG32(0x4a009120, val);//CM_DSS_DSS_CLKCTRL
udelay(10000);
SETREG32(0x4a00815c, 8<<0);//CM_DIV_M5_DPLL_PER
udelay(10000);
//printf("CM_CLKSEL_DSS= %x\n",INREG32(CM_CLKSEL_DSS));
val = INREG32(0x4a009120) ;//CM_DSS_DSS_CLKCTRL
val = val | 0x0502;
OUTREG32(0x4a009120, 0x00000502);
udelay(10000);
// LCD control xxxx xxxx xxxx 0000 0000 0010 0000 1001
OUTREG32(0x48041238, DISPC_CONTROL_TFTDATALINES_24 | DISPC_CONTROL_STNTFT);//DISPC_CONTROL2
// Default Color
OUTREG32(0x480413ac, 0x00000000);//DISPC_DEFAULT_COLOR2
// LCD control xxxx xxxx xxxx 0000 0000 0010 0000 1001
SETREG32(0x48041238, 0<<12);//DISPC_CONTROL2 OVERLAYOPTIMIZATION
// Default Transparency Color
OUTREG32(0x480413b0, 0);//DISPC_TRANS_COLOR2
SETREG32(0x48041044, 0x4<<0);//DISPC_CONFIG1 LOAD_MODE: Frame data only loaded every frame
////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Signal configuration
// OUTREG32(0x48041408,DISPC_POL_FREQ_ONOFF);//DISPC_POL_FREQ2
OUTREG32(0x48041408,0x00003000);//DISPC_POL_FREQ2
udelay(10000);
// Configure the divisor
OUTREG32(0x4804140c,DISPC_DIVISOR_R(LCD_PIXCLKDIV,LCD_LOGCLKDIV));//DISPC_DIVISOR2 (PCD 4,LCD 1)
// Configure the panel size
OUTREG32(0x480413cc,DISPC_SIZE_LCD_R(LCD_HEIGHT,LCD_WIDTH));//DISPC_SIZE_LCD2 (1024,600)
// Timing logic for HSYNC signal
OUTREG32(0x48041400,DISPC_TIMING(LCD_HSW-1,LCD_HFP-1,LCD_HBP-1));//DISPC_TIMING_H2
// Timing logic for VSYNC signal
OUTREG32(0x48041404,DISPC_TIMING(LCD_VSW-1,LCD_VFP,LCD_VBP));//DISPC_TIMING_V2
///////////////////////////////////////////////////////////////////////////////////////////////////////////////
}
开发者ID:ithryn,项目名称:FIREFIREFIRE-Multiboot-PoC,代码行数:48,代码来源:omap4_lcd.c
示例16: enable_tv_detect
static void enable_tv_detect(bool tv_enable)
{
// disable ACCDET unit before switch the detect way
OUTREG32(ACCDET_CTRL, ACCDET_DISABLE);
OUTREG32(ACCDET_STATE_SWCTRL, 0);
if(tv_enable)
{
}
else
{
// switch analog switch from tv out to mic
OUTREG32(ACCDET_STATE_SWCTRL, ACCDET_SWCTRL_EN);
// init the accdet MIC detect unit
SETREG32(ACCDET_RSTB, MIC_INIT_BIT);
CLRREG32(ACCDET_RSTB, MIC_INIT_BIT);
}
ACCFIX_DEBUG("[accfix]enable_tv_detect:ACCDET_STATE_SWCTRL =%x\n",
INREG32(ACCDET_STATE_SWCTRL));
// enable ACCDET unit
OUTREG32(ACCDET_CTRL, ACCDET_ENABLE);
}
开发者ID:Demeterp,项目名称:w732_accfix,代码行数:27,代码来源:accfix.c
示例17: ReadReg32
uint32 ReadReg32(uint32 addr)
{
if (gInfo.sharedInfo->chipType == S3_TRIO64)
return ReadPIO(addr, 4);
return INREG32(addr);
}
开发者ID:mmanley,项目名称:Antares,代码行数:7,代码来源:register_io.cpp
示例18: Omap37xx_per_dpll_init
//------------------------------------------------------------------------------
//
// Function: Omap37xx_per_dpll_init
//
// Helper function to initialize OMAP 37xx/36xx Peripheral DPLL.
//
void Omap37xx_per_dpll_init(void)
{
OMAP_PRCM_CLOCK_CONTROL_CM_REGS* pPrcmClkCM = OALPAtoUA(OMAP_PRCM_CLOCK_CONTROL_CM_REGS_PA);
unsigned int val;
//---------------------------------
// setup dpll timings for core and peripheral dpll
//
// configure clock ratios for 120m
OUTREG32(&pPrcmClkCM->CM_CLKSEL5_PLL, BSP_CM_CLKSEL5_PLL);
// configure m:n clock ratios as well as frequency selection for core dpll
OUTREG32(&pPrcmClkCM->CM_CLKSEL4_PLL, BSP_CM_CLKSEL4_PLL);
// lock dpll with correct frequency selection
/* val = (BSP_EN_PERIPH2_DPLL_LPMODE | BSP_PERIPH2_DPLL_RAMPTIME | \
BSP_EN_PERIPH2_DPLL_DRIFTGUARD | BSP_EN_PERIPH2_DPLL);*/
val = (BSP_EN_PERIPH2_DPLL_LPMODE | BSP_PERIPH2_DPLL_RAMPTIME | \
BSP_EN_PERIPH2_DPLL);
OUTREG32(&pPrcmClkCM->CM_CLKEN2_PLL, val);
while ((INREG32(&pPrcmClkCM->CM_IDLEST2_CKGEN) & DPLL_STATUS_MASK) != DPLL_STATUS_LOCKED);
}
开发者ID:zizilala,项目名称:projects_wince_AA,代码行数:32,代码来源:platform.c
示例19: InitSystemControl
//------------------------------------------------------------------------------
BOOL InitSystemControl()
{
#if 0
OALMSG(OAL_ETHER&&OAL_FUNC, (L"+USBFN:: Initialize System Control\r\n"));
{
DWORD temp, mode;
OMAP2420_SYSC1_REGS *pSysConRegs = OALPAtoUA(OMAP2420_SYSC1_REGS_PA);
temp = INREG32(&pSysConRegs->ulCONTROL_DEVCONF);
mode = USBX_TRX_MODE;
// Clear USBT0WRIMODEI. This places the USB Controls in Unidirectional Mode
temp &= 0xFF3FFFFF;
// Set the Transceiver Interface Mode for USB Port 0
if ((mode == 0x01) || (mode == 0x02))
{
// Change the mode to Bidirectional.
temp |= 0x00800000;
}
// Make sure the USB Enable signal is being used as an Active-High signal
temp &= 0xFFFEFFFF;
// Make sure the USB module standby signal is not asserted
temp &= 0xFFFF7FFF;
OUTREG32(&pSysConRegs->ulCONTROL_DEVCONF, temp);
}
OALMSG(OAL_ETHER&&OAL_FUNC, (L"-USBFN:: Initialize System Control\r\n"));
#endif
return TRUE;
}
开发者ID:zizilala,项目名称:projects_wince_new,代码行数:36,代码来源:hwinit.c
示例20: PrcmDomainResetStatus
//------------------------------------------------------------------------------
BOOL
PrcmDomainResetStatus(
UINT powerDomain,
UINT *pResetStatus,
BOOL bClear
)
{
// get the prm register for the domain
//
BOOL rc = FALSE;
UINT resetStatus;
OMAP_PRM_REGS *pPrmRegs = GetPrmRegisterSet(powerDomain);
if (powerDomain == POWERDOMAIN_WAKEUP || pPrmRegs == NULL) goto cleanUp;
// get current status
resetStatus = INREG32(&pPrmRegs->RM_RSTST_xxx);
if (pResetStatus) *pResetStatus = resetStatus;
// clear status if requested
if (bClear) OUTREG32(&pPrmRegs->RM_RSTST_xxx, resetStatus);
rc = TRUE;
cleanUp:
return rc;
}
开发者ID:zizilala,项目名称:projects_etest,代码行数:27,代码来源:prcm_reset.c
注:本文中的INREG32函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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