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|
/******************************************************************************
* Copyright(c) 2008 - 2010 Realtek Corporation. All rights reserved.
*
* Based on the r8180 driver, which is:
* Copyright 2004-2005 Andrea Merello <andreamrl@tiscali.it>, et al.
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
* The full GNU General Public License is included in this distribution in the
* file called LICENSE.
*
* Contact Information:
* wlanfae <wlanfae@realtek.com>
*****************************************************************************/
#include "rtl_ps.h"
#include "rtl_core.h"
#include "r8192E_phy.h"
#include "r8192E_phyreg.h"
#include "r8190P_rtl8256.h" /* RTL8225 Radio frontend */
#include "r8192E_cmdpkt.h"
void rtl8192_hw_sleep_down(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
unsigned long flags = 0;
#ifdef CONFIG_ASPM_OR_D3
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
#endif
spin_lock_irqsave(&priv->rf_ps_lock,flags);
if (priv->RFChangeInProgress) {
spin_unlock_irqrestore(&priv->rf_ps_lock,flags);
RT_TRACE(COMP_DBG, "rtl8192_hw_sleep_down(): RF Change in progress! \n");
return;
}
spin_unlock_irqrestore(&priv->rf_ps_lock,flags);
RT_TRACE(COMP_DBG, "%s()============>come to sleep down\n", __func__);
#ifdef CONFIG_RTLWIFI_DEBUGFS
if (priv->debug->hw_holding) {
return;
}
#endif
MgntActSet_RF_State(dev, eRfSleep, RF_CHANGE_BY_PS,false);
#ifdef CONFIG_ASPM_OR_D3
if (pPSC->RegRfPsLevel & RT_RF_LPS_LEVEL_ASPM)
{
RT_ENABLE_ASPM(dev);
RT_SET_PS_LEVEL(pPSC, RT_RF_LPS_LEVEL_ASPM);
}
#endif
}
void rtl8192_hw_sleep_wq(void *data)
{
struct rtllib_device *ieee = container_of_dwork_rsl(data,struct rtllib_device,hw_sleep_wq);
struct net_device *dev = ieee->dev;
rtl8192_hw_sleep_down(dev);
}
void rtl8192_hw_wakeup(struct net_device* dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
unsigned long flags = 0;
#ifdef CONFIG_ASPM_OR_D3
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
#endif
spin_lock_irqsave(&priv->rf_ps_lock,flags);
if (priv->RFChangeInProgress) {
spin_unlock_irqrestore(&priv->rf_ps_lock,flags);
RT_TRACE(COMP_DBG, "rtl8192_hw_wakeup(): RF Change in progress! \n");
queue_delayed_work_rsl(priv->rtllib->wq,&priv->rtllib->hw_wakeup_wq,MSECS(10));
return;
}
spin_unlock_irqrestore(&priv->rf_ps_lock,flags);
#ifdef CONFIG_ASPM_OR_D3
if (pPSC->RegRfPsLevel & RT_RF_LPS_LEVEL_ASPM) {
RT_DISABLE_ASPM(dev);
RT_CLEAR_PS_LEVEL(pPSC, RT_RF_LPS_LEVEL_ASPM);
}
#endif
RT_TRACE(COMP_PS, "%s()============>come to wake up\n", __func__);
MgntActSet_RF_State(dev, eRfOn, RF_CHANGE_BY_PS,false);
}
void rtl8192_hw_wakeup_wq(void *data)
{
struct rtllib_device *ieee = container_of_dwork_rsl(data,struct rtllib_device,hw_wakeup_wq);
struct net_device *dev = ieee->dev;
rtl8192_hw_wakeup(dev);
}
#define MIN_SLEEP_TIME 50
#define MAX_SLEEP_TIME 10000
void rtl8192_hw_to_sleep(struct net_device *dev, u32 th, u32 tl)
{
struct r8192_priv *priv = rtllib_priv(dev);
u32 rb = jiffies;
unsigned long flags;
spin_lock_irqsave(&priv->ps_lock,flags);
tl -= MSECS(8+16+7);
if (((tl>=rb)&& (tl-rb) <= MSECS(MIN_SLEEP_TIME))
||((rb>tl)&& (rb-tl) < MSECS(MIN_SLEEP_TIME))) {
spin_unlock_irqrestore(&priv->ps_lock,flags);
printk("too short to sleep::%x, %x, %lx\n",tl, rb, MSECS(MIN_SLEEP_TIME));
return;
}
if (((tl > rb) && ((tl-rb) > MSECS(MAX_SLEEP_TIME)))||
((tl < rb) && (tl>MSECS(69)) && ((rb-tl) > MSECS(MAX_SLEEP_TIME)))||
((tl<rb)&&(tl<MSECS(69))&&((tl+0xffffffff-rb)>MSECS(MAX_SLEEP_TIME)))) {
printk("========>too long to sleep:%x, %x, %lx\n", tl, rb, MSECS(MAX_SLEEP_TIME));
spin_unlock_irqrestore(&priv->ps_lock,flags);
return;
}
{
u32 tmp = (tl>rb)?(tl-rb):(rb-tl);
queue_delayed_work_rsl(priv->rtllib->wq,
&priv->rtllib->hw_wakeup_wq,tmp);
}
queue_delayed_work_rsl(priv->rtllib->wq,
(void *)&priv->rtllib->hw_sleep_wq,0);
spin_unlock_irqrestore(&priv->ps_lock,flags);
}
void InactivePsWorkItemCallback(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
RT_TRACE(COMP_PS, "InactivePsWorkItemCallback() ---------> \n");
pPSC->bSwRfProcessing = true;
RT_TRACE(COMP_PS, "InactivePsWorkItemCallback(): Set RF to %s.\n", \
pPSC->eInactivePowerState == eRfOff?"OFF":"ON");
#ifdef CONFIG_ASPM_OR_D3
if (pPSC->eInactivePowerState == eRfOn)
{
if ((pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_ASPM) && RT_IN_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_ASPM))
{
RT_DISABLE_ASPM(dev);
RT_CLEAR_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_ASPM);
}
#ifdef TODO
else if ((pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_PCI_D3) && RT_IN_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_PCI_D3))
{
RT_LEAVE_D3(dev, false);
RT_CLEAR_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_PCI_D3);
}
#endif
}
#endif
MgntActSet_RF_State(dev, pPSC->eInactivePowerState, RF_CHANGE_BY_IPS,false);
#ifdef CONFIG_ASPM_OR_D3
if (pPSC->eInactivePowerState == eRfOff)
{
if (pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_ASPM)
{
RT_ENABLE_ASPM(dev);
RT_SET_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_ASPM);
}
#ifdef TODO
else if (pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_PCI_D3)
{
RT_ENTER_D3(dev, false);
RT_SET_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_PCI_D3);
}
#endif
}
#endif
pPSC->bSwRfProcessing = false;
RT_TRACE(COMP_PS, "InactivePsWorkItemCallback() <--------- \n");
}
void
IPSEnter(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
RT_RF_POWER_STATE rtState;
if (pPSC->bInactivePs)
{
rtState = priv->rtllib->eRFPowerState;
if (rtState == eRfOn && !pPSC->bSwRfProcessing &&\
(priv->rtllib->state != RTLLIB_LINKED)&&\
(priv->rtllib->iw_mode != IW_MODE_MASTER))
{
RT_TRACE(COMP_PS,"IPSEnter(): Turn off RF.\n");
pPSC->eInactivePowerState = eRfOff;
priv->isRFOff = true;
priv->bInPowerSaveMode = true;
InactivePsWorkItemCallback(dev);
}
}
}
void
IPSLeave(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
RT_RF_POWER_STATE rtState;
if (pPSC->bInactivePs)
{
rtState = priv->rtllib->eRFPowerState;
if (rtState != eRfOn && !pPSC->bSwRfProcessing && priv->rtllib->RfOffReason <= RF_CHANGE_BY_IPS)
{
RT_TRACE(COMP_PS, "IPSLeave(): Turn on RF.\n");
pPSC->eInactivePowerState = eRfOn;
priv->bInPowerSaveMode = false;
InactivePsWorkItemCallback(dev);
}
}
}
void IPSLeave_wq(void *data)
{
struct rtllib_device *ieee = container_of_work_rsl(data,struct rtllib_device,ips_leave_wq);
struct net_device *dev = ieee->dev;
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
down(&priv->rtllib->ips_sem);
IPSLeave(dev);
up(&priv->rtllib->ips_sem);
}
void rtllib_ips_leave_wq(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
RT_RF_POWER_STATE rtState;
rtState = priv->rtllib->eRFPowerState;
if (priv->rtllib->PowerSaveControl.bInactivePs){
if (rtState == eRfOff){
if (priv->rtllib->RfOffReason > RF_CHANGE_BY_IPS)
{
RT_TRACE(COMP_ERR, "%s(): RF is OFF.\n",__func__);
return;
}
else{
printk("=========>%s(): IPSLeave\n",__func__);
queue_work_rsl(priv->rtllib->wq,&priv->rtllib->ips_leave_wq);
}
}
}
}
void rtllib_ips_leave(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
down(&priv->rtllib->ips_sem);
IPSLeave(dev);
up(&priv->rtllib->ips_sem);
}
bool MgntActSet_802_11_PowerSaveMode(struct net_device *dev, u8 rtPsMode)
{
struct r8192_priv *priv = rtllib_priv(dev);
if (priv->rtllib->iw_mode == IW_MODE_ADHOC)
return false;
RT_TRACE(COMP_LPS,"%s(): set ieee->ps = %x\n",__func__,rtPsMode);
if (!priv->ps_force) {
priv->rtllib->ps = rtPsMode;
}
if (priv->rtllib->sta_sleep != LPS_IS_WAKE && rtPsMode == RTLLIB_PS_DISABLED) {
unsigned long flags;
rtl8192_hw_wakeup(dev);
priv->rtllib->sta_sleep = LPS_IS_WAKE;
spin_lock_irqsave(&(priv->rtllib->mgmt_tx_lock), flags);
RT_TRACE(COMP_DBG, "LPS leave: notify AP we are awaked"
" ++++++++++ SendNullFunctionData\n");
rtllib_sta_ps_send_null_frame(priv->rtllib, 0);
spin_unlock_irqrestore(&(priv->rtllib->mgmt_tx_lock), flags);
}
return true;
}
void LeisurePSEnter(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
RT_TRACE(COMP_PS, "LeisurePSEnter()...\n");
RT_TRACE(COMP_PS, "pPSC->bLeisurePs = %d, ieee->ps = %d,pPSC->LpsIdleCount is %d,RT_CHECK_FOR_HANG_PERIOD is %d\n",
pPSC->bLeisurePs, priv->rtllib->ps,pPSC->LpsIdleCount,RT_CHECK_FOR_HANG_PERIOD);
if (!((priv->rtllib->iw_mode == IW_MODE_INFRA) && (priv->rtllib->state == RTLLIB_LINKED))
|| (priv->rtllib->iw_mode == IW_MODE_ADHOC) || (priv->rtllib->iw_mode == IW_MODE_MASTER))
return;
if (pPSC->bLeisurePs) {
if (pPSC->LpsIdleCount >= RT_CHECK_FOR_HANG_PERIOD) {
if (priv->rtllib->ps == RTLLIB_PS_DISABLED) {
RT_TRACE(COMP_LPS, "LeisurePSEnter(): Enter 802.11 power save mode...\n");
if (!pPSC->bFwCtrlLPS) {
if (priv->rtllib->SetFwCmdHandler)
priv->rtllib->SetFwCmdHandler(dev, FW_CMD_LPS_ENTER);
}
MgntActSet_802_11_PowerSaveMode(dev, RTLLIB_PS_MBCAST|RTLLIB_PS_UNICAST);
}
} else
pPSC->LpsIdleCount++;
}
}
void LeisurePSLeave(struct net_device *dev)
{
struct r8192_priv *priv = rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
RT_TRACE(COMP_PS, "LeisurePSLeave()...\n");
RT_TRACE(COMP_PS, "pPSC->bLeisurePs = %d, ieee->ps = %d\n",
pPSC->bLeisurePs, priv->rtllib->ps);
if (pPSC->bLeisurePs)
{
if (priv->rtllib->ps != RTLLIB_PS_DISABLED)
{
#ifdef CONFIG_ASPM_OR_D3
if (pPSC->RegRfPsLevel & RT_RF_LPS_LEVEL_ASPM && RT_IN_PS_LEVEL(pPSC, RT_RF_LPS_LEVEL_ASPM))
{
RT_DISABLE_ASPM(dev);
RT_CLEAR_PS_LEVEL(pPSC, RT_RF_LPS_LEVEL_ASPM);
}
#endif
RT_TRACE(COMP_LPS, "LeisurePSLeave(): Busy Traffic , Leave 802.11 power save..\n");
MgntActSet_802_11_PowerSaveMode(dev, RTLLIB_PS_DISABLED);
if (!pPSC->bFwCtrlLPS)
{
if (priv->rtllib->SetFwCmdHandler)
{
priv->rtllib->SetFwCmdHandler(dev, FW_CMD_LPS_LEAVE);
}
}
}
}
}
#ifdef CONFIG_ASPM_OR_D3
void
PlatformDisableHostL0s(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
u32 PciCfgAddrPort=0;
u8 Num4Bytes;
u8 uPciBridgeASPMSetting = 0;
if ( (priv->NdisAdapter.BusNumber == 0xff && priv->NdisAdapter.DevNumber == 0xff && priv->NdisAdapter.FuncNumber == 0xff) ||
(priv->NdisAdapter.PciBridgeBusNum == 0xff && priv->NdisAdapter.PciBridgeDevNum == 0xff && priv->NdisAdapter.PciBridgeFuncNum == 0xff) )
{
printk("PlatformDisableHostL0s(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
return;
}
PciCfgAddrPort= (priv->NdisAdapter.PciBridgeBusNum << 16)|(priv->NdisAdapter.PciBridgeDevNum<< 11)|(priv->NdisAdapter.PciBridgeFuncNum << 8)|(1 << 31);
Num4Bytes = (priv->NdisAdapter.PciBridgePCIeHdrOffset+0x10)/4;
NdisRawWritePortUlong(PCI_CONF_ADDRESS , PciCfgAddrPort+(Num4Bytes << 2));
NdisRawReadPortUchar(PCI_CONF_DATA, &uPciBridgeASPMSetting);
if (uPciBridgeASPMSetting & BIT0)
uPciBridgeASPMSetting &= ~(BIT0);
NdisRawWritePortUlong(PCI_CONF_ADDRESS , PciCfgAddrPort+(Num4Bytes << 2));
NdisRawWritePortUchar(PCI_CONF_DATA, uPciBridgeASPMSetting);
udelay(50);
printk("PlatformDisableHostL0s():PciBridge BusNumber[%x], DevNumbe[%x], FuncNumber[%x], Write reg[%x] = %x\n",
priv->NdisAdapter.PciBridgeBusNum, priv->NdisAdapter.PciBridgeDevNum, priv->NdisAdapter.PciBridgeFuncNum,
(priv->NdisAdapter.PciBridgePCIeHdrOffset+0x10), (priv->NdisAdapter.PciBridgeLinkCtrlReg | (priv->RegDevicePciASPMSetting&~BIT0)));
}
bool
PlatformEnable92CEBackDoor(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
bool bResult = true;
u8 value;
if ( (priv->NdisAdapter.BusNumber == 0xff && priv->NdisAdapter.DevNumber == 0xff && priv->NdisAdapter.FuncNumber == 0xff) ||
(priv->NdisAdapter.PciBridgeBusNum == 0xff && priv->NdisAdapter.PciBridgeDevNum == 0xff && priv->NdisAdapter.PciBridgeFuncNum == 0xff) )
{
RT_TRACE(COMP_INIT, "PlatformEnableASPM(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
return false;
}
pci_read_config_byte(priv->pdev, 0x70f, &value);
if (priv->NdisAdapter.PciBridgeVendor == PCI_BRIDGE_VENDOR_INTEL)
{
value |= BIT7;
}
else
{
value = 0x23;
}
pci_write_config_byte(priv->pdev, 0x70f, value);
pci_read_config_byte(priv->pdev, 0x719, &value);
value |= (BIT3|BIT4);
pci_write_config_byte(priv->pdev, 0x719, value);
return bResult;
}
bool PlatformSwitchDevicePciASPM(struct net_device *dev, u8 value)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
bool bResult = false;
pci_write_config_byte(priv->pdev, 0x80, value);
return bResult;
}
bool PlatformSwitchClkReq(struct net_device *dev, u8 value)
{
bool bResult = false;
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
u8 Buffer;
Buffer= value;
#ifdef MERGE_TO_DO
if (Adapter->bDriverIsGoingToPnpSetPowerSleep && pDevice->RegSupportLowPowerState
&& value == 0x0)
return false;
#endif
pci_write_config_byte(priv->pdev,0x81,value);
bResult = true;
#ifdef TODO
if (Buffer) {
priv->ClkReqState = true;
} else {
priv->ClkReqState = false;
}
#endif
#ifdef RTL8192SE
udelay(100);
#endif
return bResult;
}
void
PlatformDisableASPM(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
#if 1
u32 PciCfgAddrPort=0;
u8 Num4Bytes;
#endif
u8 LinkCtrlReg;
u16 PciBridgeLinkCtrlReg, ASPMLevel=0;
if (priv->NdisAdapter.PciBridgeVendor == PCI_BRIDGE_VENDOR_UNKNOWN)
{
RT_TRACE(COMP_POWER, "%s(): Disable ASPM. Recognize the Bus of PCI(Bridge) as UNKNOWN.\n",__func__);
}
LinkCtrlReg = priv->NdisAdapter.LinkCtrlReg;
PciBridgeLinkCtrlReg = priv->NdisAdapter.PciBridgeLinkCtrlReg;
ASPMLevel |= BIT0|BIT1;
LinkCtrlReg &=~ASPMLevel;
PciBridgeLinkCtrlReg &=~(BIT0|BIT1);
if ( (priv->NdisAdapter.BusNumber == 0xff && priv->NdisAdapter.DevNumber == 0xff && priv->NdisAdapter.FuncNumber == 0xff) ||
(priv->NdisAdapter.PciBridgeBusNum == 0xff && priv->NdisAdapter.PciBridgeDevNum == 0xff && priv->NdisAdapter.PciBridgeFuncNum == 0xff) )
{
} else {
PciCfgAddrPort= (priv->NdisAdapter.PciBridgeBusNum << 16)|(priv->NdisAdapter.PciBridgeDevNum<< 11)|(priv->NdisAdapter.PciBridgeFuncNum << 8)|(1 << 31);
Num4Bytes = (priv->NdisAdapter.PciBridgePCIeHdrOffset+0x10)/4;
NdisRawWritePortUlong(PCI_CONF_ADDRESS , PciCfgAddrPort+(Num4Bytes << 2));
NdisRawWritePortUchar(PCI_CONF_DATA, PciBridgeLinkCtrlReg);
RT_TRACE(COMP_POWER, "PlatformDisableASPM():PciBridge BusNumber[%x], DevNumbe[%x], FuncNumber[%x], Write reg[%x] = %x\n",
priv->NdisAdapter.PciBridgeBusNum, priv->NdisAdapter.PciBridgeDevNum, priv->NdisAdapter.PciBridgeFuncNum,
(priv->NdisAdapter.PciBridgePCIeHdrOffset+0x10), PciBridgeLinkCtrlReg);
udelay(50);
}
}
void PlatformEnableASPM(struct net_device *dev)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
PRT_POWER_SAVE_CONTROL pPSC = (PRT_POWER_SAVE_CONTROL)(&(priv->rtllib->PowerSaveControl));
u16 ASPMLevel = 0;
u32 PciCfgAddrPort=0;
u8 Num4Bytes;
u8 uPciBridgeASPMSetting = 0;
u8 uDeviceASPMSetting = 0;
if ( (priv->NdisAdapter.BusNumber == 0xff && priv->NdisAdapter.DevNumber == 0xff && priv->NdisAdapter.FuncNumber == 0xff) ||
(priv->NdisAdapter.PciBridgeBusNum == 0xff && priv->NdisAdapter.PciBridgeDevNum == 0xff && priv->NdisAdapter.PciBridgeFuncNum == 0xff) )
{
RT_TRACE(COMP_INIT, "PlatformEnableASPM(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
return;
}
#ifdef RTL8192SE
if (priv->NdisAdapter.PciBridgeVendor != PCI_BRIDGE_VENDOR_INTEL )
{
RT_TRACE(COMP_POWER, "%s(): Dont modify ASPM for non intel chipset. For Bridge Vendor %d.\n"
,__func__,priv->NdisAdapter.PciBridgeVendor);
return;
}
#endif
ASPMLevel |= priv->RegDevicePciASPMSetting;
uDeviceASPMSetting = priv->NdisAdapter.LinkCtrlReg;
uDeviceASPMSetting |= ASPMLevel;
PlatformSwitchDevicePciASPM(dev, uDeviceASPMSetting);
if (pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_CLK_REQ) {
PlatformSwitchClkReq(dev,(pPSC->RegRfPsLevel & RT_RF_OFF_LEVL_CLK_REQ) ? 1 : 0);
RT_SET_PS_LEVEL(pPSC, RT_RF_OFF_LEVL_CLK_REQ);
}
udelay(100);
udelay(100);
}
u32 PlatformResetPciSpace(struct net_device *dev,u8 Value)
{
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
pci_write_config_byte(priv->pdev,0x04,Value);
return 1;
}
bool PlatformSetPMCSR(struct net_device *dev,u8 value,bool bTempSetting)
{
bool bResult = false;
struct r8192_priv *priv = (struct r8192_priv *)rtllib_priv(dev);
u8 Buffer;
bool bActuallySet=false, bSetFunc=false;
unsigned long flag;
Buffer= value;
spin_lock_irqsave(&priv->D3_lock,flag);
#ifdef TODO
if (bTempSetting)
{
if (Buffer==0x00)
{
priv->LeaveD3Cnt++;
{
bActuallySet =true;
}
}
else
{
priv->LeaveD3Cnt--;
if (priv->LeaveD3Cnt == 0)
{
bActuallySet=true;
}
}
}
else
{
priv->LeaveD3Cnt=0;
bActuallySet=true;
bSetFunc=true;
}
#endif
if (bActuallySet) {
if (Buffer) {
PlatformSwitchClkReq(dev, 0x01);
} else {
PlatformSwitchClkReq(dev, 0x00);
}
pci_write_config_byte(priv->pdev,0x44,Buffer);
RT_TRACE(COMP_POWER, "PlatformSetPMCSR(): D3(value: %d)\n", Buffer);
bResult = true;
if (!Buffer) {
PlatformResetPciSpace(dev, 0x06);
PlatformResetPciSpace(dev, 0x07);
}
if (bSetFunc) {
if (Buffer) {
#ifdef TO_DO_LIST
RT_DISABLE_FUNC(Adapter, DF_IO_D3_BIT);
#endif
} else {
#ifdef TO_DO_LIST
RT_ENABLE_FUNC(Adapter, DF_IO_D3_BIT);
#endif
}
}
}
spin_unlock_irqrestore(&priv->D3_lock,flag);
return bResult;
}
#endif
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