void spm_go_to_vcore_dvfs(u32 spm_flags, u32 spm_data)
{
struct pcm_desc *pcmdesc = __spm_vcore_dvfs.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_vcore_dvfs.pwrctrl;
unsigned long flags;
spin_lock_irqsave(&__spm_lock, flags);
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_NORMAL);
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
__spm_kick_pcm_to_run(pwrctrl);
spin_unlock_irqrestore(&__spm_lock, flags);
}
static void __go_to_vcore_dvfs(u32 spm_flags, u8 f26m_req, u8 apsrc_req)
{
struct pcm_desc *pcmdesc = __spm_vcore_dvfs.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_vcore_dvfs.pwrctrl;
set_pwrctrl_pcm_flags(pwrctrl, spm_flags | SPM_MD_VRF18_DIS); /* FIXME */
pwrctrl->pcm_f26m_req = f26m_req;
pwrctrl->pcm_apsrc_req = apsrc_req;
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
__spm_kick_pcm_to_run(pwrctrl);
}
/*
* cpu_pdn:
* true = CPU dormant
* false = CPU standby
* pwrlevel:
* 0 = AXI is off
* 1 = AXI is 26M
* pwake_time:
* >= 0 = specific wakeup period
*/
wake_reason_t spm_go_to_sleep_dpidle(u32 spm_flags, u32 spm_data)
{
u32 sec = 0;
u32 dpidle_timer_val = 0;
u32 dpidle_wake_src = 0;
int wd_ret;
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
struct wd_api *wd_api;
static wake_reason_t last_wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_dpidle.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_dpidle.pwrctrl;
/* backup original dpidle setting */
dpidle_timer_val = pwrctrl->timer_val;
dpidle_wake_src = pwrctrl->wake_src;
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
#if SPM_PWAKE_EN
sec = spm_get_wake_period(-1 /* FIXME */, last_wr);
#endif
pwrctrl->timer_val = sec * 32768;
pwrctrl->wake_src = spm_get_sleep_wakesrc();
wd_ret = get_wd_api(&wd_api);
if (!wd_ret)
wd_api->wd_suspend_notify();
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(SPM_IRQ0_ID);
mt_cirq_clone_gic();
mt_cirq_enable();
/* set PMIC WRAP table for deepidle power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_DEEPIDLE);
spm_crit2("sleep_deepidle, sec = %u, wakesrc = 0x%x [%u]\n",
sec, pwrctrl->wake_src, is_cpu_pdn(pwrctrl->pcm_flags));
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
if (request_uart_to_sleep()) {
last_wr = WR_UART_BUSY;
goto RESTORE_IRQ;
}
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
__spm_kick_pcm_to_run(pwrctrl);
spm_dpidle_pre_process();
spm_trigger_wfi_for_dpidle(pwrctrl);
spm_dpidle_post_process();
__spm_get_wakeup_status(&wakesta);
__spm_clean_after_wakeup();
request_uart_to_wakeup();
last_wr = __spm_output_wake_reason(&wakesta, pcmdesc, true);
RESTORE_IRQ:
/* set PMIC WRAP table for normal power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_NORMAL);
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
if (!wd_ret)
wd_api->wd_resume_notify();
/* restore original dpidle setting */
pwrctrl->timer_val = dpidle_timer_val;
pwrctrl->wake_src = dpidle_wake_src;
return last_wr;
}
wake_reason_t spm_go_to_dpidle(u32 spm_flags, u32 spm_data)
{
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
wake_reason_t wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_dpidle.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_dpidle.pwrctrl;
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(1<<SPM_DEEPIDLE_ENTER);
#endif
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
//pwrctrl->timer_val = 1 * 32768;
spm_dpidle_before_wfi();
lockdep_off();
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(SPM_IRQ0_ID);
mt_cirq_clone_gic();
mt_cirq_enable();
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(aee_rr_curr_deepidle_val()|(1<<SPM_DEEPIDLE_ENTER_UART_SLEEP));
#endif
if (request_uart_to_sleep()) {
wr = WR_UART_BUSY;
goto RESTORE_IRQ;
}
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
spm_dpidle_pre_process();
__spm_kick_pcm_to_run(pwrctrl);
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(aee_rr_curr_deepidle_val()|(1<<SPM_DEEPIDLE_ENTER_WFI));
#endif
#ifdef SPM_DEEPIDLE_PROFILE_TIME
gpt_get_cnt(SPM_PROFILE_APXGPT,&dpidle_profile[1]);
#endif
spm_trigger_wfi_for_dpidle(pwrctrl);
#ifdef SPM_DEEPIDLE_PROFILE_TIME
gpt_get_cnt(SPM_PROFILE_APXGPT,&dpidle_profile[2]);
#endif
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(aee_rr_curr_deepidle_val()|(1<<SPM_DEEPIDLE_LEAVE_WFI));
#endif
spm_dpidle_post_process();
__spm_get_wakeup_status(&wakesta);
__spm_clean_after_wakeup();
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(aee_rr_curr_deepidle_val()|(1<<SPM_DEEPIDLE_ENTER_UART_AWAKE));
#endif
request_uart_to_wakeup();
wr = __spm_output_wake_reason(&wakesta, pcmdesc, false);
RESTORE_IRQ:
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
lockdep_on();
spm_dpidle_after_wfi();
#if SPM_AEE_RR_REC
aee_rr_rec_deepidle_val(0);
#endif
return wr;
}
void spm_go_to_sodi(u32 spm_flags, u32 spm_data)
{
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
wake_reason_t wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_sodi.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_sodi.pwrctrl;
int vcore_status = 0; //0:disable, 1:HPM, 2:LPM
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(1<<SPM_SODI_ENTER);
#endif
#if defined (CONFIG_ARM_PSCI)||defined(CONFIG_MTK_PSCI)
spm_flags &= ~SPM_DISABLE_ATF_ABORT;
#else
spm_flags |= SPM_DISABLE_ATF_ABORT;
#endif
if(gSpm_SODI_mempll_pwr_mode == 1)
{
spm_flags |= SPM_MEMPLL_CG_EN; //MEMPLL CG mode
}
else
{
spm_flags &= ~SPM_MEMPLL_CG_EN; //DDRPHY power down mode
}
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
//If Vcore DVFS is disable, force to disable SODI internal Vcore DVS
if (pwrctrl->pcm_flags_cust == 0)
{
if ((pwrctrl->pcm_flags & SPM_VCORE_DVFS_EN) == 0)
{
pwrctrl->pcm_flags |= SPM_VCORE_DVS_EVENT_DIS;
}
}
//SODI will not decrease Vcore voltage in HPM mode.
if ((pwrctrl->pcm_flags & SPM_VCORE_DVS_EVENT_DIS) == 0)
{
if (get_ddr_khz() != FDDR_S1_KHZ)
{
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_VCORE_HPM));
#endif
/* //modify by mtk
//if DRAM freq is high,SPM will not enter event_vector to enter EMI self-refresh
if(pwrctrl->pcm_flags_cust == 0)
{
pwrctrl->pcm_flags|=0x80;
}
*/
vcore_status = 1;
//printk("SODI: get_ddr_khz() = %d\n", get_ddr_khz());
}
else
{
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_VCORE_LPM));
#endif
vcore_status = 2;
}
}
//enable APxGPT timer
soidle_before_wfi(0);
lockdep_off();
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(SPM_IRQ0_ID);
mt_cirq_clone_gic();
mt_cirq_enable();
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_UART_SLEEP));
#endif
if (request_uart_to_sleep()) {
wr = WR_UART_BUSY;
goto RESTORE_IRQ;
}
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_SPM_FLOW));
#endif
__spm_reset_and_init_pcm(pcmdesc);
/*
* When commond-queue is in shut-down mode, SPM will hang if it tries to access commond-queue status.
* Follwoing patch is to let SODI driver to notify SPM that commond-queue is in shut-down mode or not to avoid above SPM hang issue.
* But, now display can automatically notify SPM that command-queue is shut-down or not, so following code is not needed anymore.
*/
#if 0
//check GCE
if(clock_is_on(MT_CG_INFRA_GCE))
{
pwrctrl->pcm_flags &= ~SPM_DDR_HIGH_SPEED;
}
else
{
pwrctrl->pcm_flags |= SPM_DDR_HIGH_SPEED;
}
#endif
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
#if 0 //In D2, can not set apsrc_req bit in SODI. It is used by Vcore DVS for GPU 550M in HPM mode
//Display set SPM_PCM_SRC_REQ[0]=1'b1 to force DRAM not enter self-refresh mode
if((spm_read(SPM_PCM_SRC_REQ)&0x00000001))
{
pwrctrl->pcm_apsrc_req = 1;
}
else
{
pwrctrl->pcm_apsrc_req = 0;
}
#endif
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
#if SODI_DVT_PCM_TIMER_DISABLE
//PCM_Timer is enable in above '__spm_set_wakeup_event(pwrctrl);', disable PCM Timer here
spm_write(SPM_PCM_CON1 ,spm_read(SPM_PCM_CON1)&(~CON1_PCM_TIMER_EN));
#endif
spm_sodi_pre_process();
__spm_kick_pcm_to_run(pwrctrl);
#if SPM_SODI_DUMP_REGS
printk("============SODI Before============\n");
spm_sodi_dump_regs(); //dump debug info
#endif
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_WFI));
#endif
#ifdef SPM_SODI_PROFILE_TIME
gpt_get_cnt(SPM_SODI_PROFILE_APXGPT,&soidle_profile[1]);
#endif
spm_trigger_wfi_for_sodi(pwrctrl);
#ifdef SPM_SODI_PROFILE_TIME
gpt_get_cnt(SPM_SODI_PROFILE_APXGPT,&soidle_profile[2]);
#endif
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_LEAVE_WFI));
#endif
#if SPM_SODI_DUMP_REGS
printk("============SODI After=============\n");
spm_sodi_dump_regs();//dump debug info
#endif
spm_sodi_post_process();
__spm_get_wakeup_status(&wakesta);
sodi_debug("emi-selfrefrsh cnt = %d, pcm_flag = 0x%x, SPM_PCM_RESERVE2 = 0x%x, vcore_status = %d, %s\n",
spm_read(SPM_PCM_PASR_DPD_3), spm_read(SPM_PCM_FLAGS), spm_read(SPM_PCM_RESERVE2), vcore_status, pcmdesc->version);
__spm_clean_after_wakeup();
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_UART_AWAKE));
#endif
request_uart_to_wakeup();
wr = __spm_output_wake_reason(&wakesta, pcmdesc, false);
if (wr == WR_PCM_ASSERT)
{
sodi_err("PCM ASSERT AT %u (%s), r13 = 0x%x, debug_flag = 0x%x\n", wakesta.assert_pc, pcmdesc->version, wakesta.r13, wakesta.debug_flag);
}
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_LEAVE_SPM_FLOW));
#endif
RESTORE_IRQ:
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
lockdep_on();
//stop APxGPT timer and enable caore0 local timer
soidle_after_wfi(0);
#if SODI_DVT_SPM_MEM_RW_TEST
{
static u32 magic_init = 0;
int i =0;
if(magic_init == 0){
magic_init++;
printk("magicNumArray:0x%p",magicArray);
}
for(i=0;i<16;i++)
{
if(magicArray[i]!=SODI_DVT_MAGIC_NUM)
{
printk("Error: sodi magic number no match!!!");
ASSERT(0);
}
}
if (i>=16)
printk("SODI_DVT_SPM_MEM_RW_TEST pass (count = %d)\n", magic_init);
}
#endif
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(0);
#endif
}
wake_reason_t spm_go_to_sleep(u32 spm_flags, u32 spm_data)
{
u32 sec = 0;
int wd_ret;
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
struct wd_api *wd_api;
static wake_reason_t last_wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_suspend.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_suspend.pwrctrl;
struct spm_lp_scen *lpscen;
lpscen = spm_check_talking_get_lpscen(&__spm_suspend, &spm_flags);
pcmdesc = lpscen->pcmdesc;
pwrctrl = lpscen->pwrctrl;
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
set_pwrctrl_pcm_data(pwrctrl, spm_data);
#if SPM_PWAKE_EN
sec = spm_get_wake_period(-1 /* FIXME */, last_wr);
#endif
pwrctrl->timer_val = sec * 32768;
wd_ret = get_wd_api(&wd_api);
if (!wd_ret)
wd_api->wd_suspend_notify();
spm_suspend_pre_process(pwrctrl);
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(MT_SPM_IRQ_ID);
mt_cirq_clone_gic();
mt_cirq_enable();
spm_set_sysclk_settle();
spm_crit2("sec = %u, wakesrc = 0x%x (%u)(%u)\n",
sec, pwrctrl->wake_src, is_cpu_pdn(pwrctrl->pcm_flags), is_infra_pdn(pwrctrl->pcm_flags));
if (request_uart_to_sleep()) {
last_wr = WR_UART_BUSY;
goto RESTORE_IRQ;
}
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
spm_kick_pcm_to_run(pwrctrl);
#if 0
if (1 == spm_snapshot_golden_setting)
{
snapshot_golden_setting(__FUNCTION__, __LINE__);
spm_snapshot_golden_setting = 2;
}
#endif
spm_trigger_wfi_for_sleep(pwrctrl);
__spm_get_wakeup_status(&wakesta);
spm_clean_after_wakeup();
request_uart_to_wakeup();
last_wr = spm_output_wake_reason(&wakesta, pcmdesc);
RESTORE_IRQ:
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
spm_suspend_post_process(pwrctrl);
if (!wd_ret)
wd_api->wd_resume_notify();
return last_wr;
}
wake_reason_t spm_go_to_dpidle(u32 spm_flags, u32 spm_data)
{
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
wake_reason_t wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_dpidle.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_dpidle.pwrctrl;
struct spm_lp_scen *lpscen;
lpscen = spm_check_talking_get_lpscen(&__spm_dpidle, &spm_flags);
pcmdesc = lpscen->pcmdesc;
pwrctrl = lpscen->pwrctrl;
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
/* set PMIC WRAP table for deepidle power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_DEEPIDLE);
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(MT_SPM_IRQ_ID);
mt_cirq_clone_gic();
mt_cirq_enable();
if (request_uart_to_sleep()) {
wr = WR_UART_BUSY;
goto RESTORE_IRQ;
}
__spm_reset_and_init_pcm(pcmdesc);
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
__spm_kick_pcm_to_run(pwrctrl);
spm_dpidle_before_wfi();
spm_trigger_wfi_for_dpidle(pwrctrl);
spm_dpidle_after_wfi();
__spm_get_wakeup_status(&wakesta);
__spm_clean_after_wakeup();
request_uart_to_wakeup();
wr = __spm_output_wake_reason(&wakesta, pcmdesc, false);
RESTORE_IRQ:
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
/* set PMIC WRAP table for normal power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_NORMAL);
return wr;
}
void spm_go_to_sodi(u32 spm_flags, u32 spm_data)
{
struct wake_status wakesta;
unsigned long flags;
struct mtk_irq_mask mask;
wake_reason_t wr = WR_NONE;
struct pcm_desc *pcmdesc = __spm_sodi.pcmdesc;
struct pwr_ctrl *pwrctrl = __spm_sodi.pwrctrl;
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(1<<SPM_SODI_ENTER);
#endif
set_pwrctrl_pcm_flags(pwrctrl, spm_flags);
/* set PMIC WRAP table for deepidle power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_SODI);
soidle_before_wfi(0);
lockdep_off();
spin_lock_irqsave(&__spm_lock, flags);
mt_irq_mask_all(&mask);
mt_irq_unmask_for_sleep(SPM_IRQ0_ID/*MT_SPM_IRQ_ID*/);
mt_cirq_clone_gic();
mt_cirq_enable();
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_SPM_FLOW));
#endif
__spm_reset_and_init_pcm(pcmdesc);
#if 0
/* 0: mempll shutdown mode; 1: cg mode */
gSpm_SODI_mempll_pwr_mode ? (pwrctrl->pcm_flags |= SPM_MEMPLL_CPU) :
(pwrctrl->pcm_flags &= ~SPM_MEMPLL_CPU);
#endif
__spm_kick_im_to_fetch(pcmdesc);
__spm_init_pcm_register();
__spm_init_event_vector(pcmdesc);
/* set pcm_apsrc_req to be 1 if 10006b0c[0] is 1 */
if ((spm_read(SPM_PCM_SRC_REQ) & 1) || pwrctrl->pcm_apsrc_req)
pwrctrl->pcm_apsrc_req = 1;
else
pwrctrl->pcm_apsrc_req = 0;
__spm_set_power_control(pwrctrl);
__spm_set_wakeup_event(pwrctrl);
/* set pcm_flags[18] to be 1 if 10006b08[7] is 1 */
if ((spm_read(SPM_PCM_FLAGS) & SPM_MEMPLL_RESET) ||
gSpm_SODI_mempll_pwr_mode ||
(pwrctrl->pcm_flags_cust & SPM_MEMPLL_CPU))
pwrctrl->pcm_flags |= SPM_MEMPLL_CPU;
else
pwrctrl->pcm_flags &= ~SPM_MEMPLL_CPU;
__spm_kick_pcm_to_run(pwrctrl);
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_ENTER_WFI));
#endif
spm_trigger_wfi_for_sodi(pwrctrl);
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_LEAVE_WFI));
#endif
__spm_get_wakeup_status(&wakesta);
__spm_clean_after_wakeup();
wr = __spm_output_wake_reason(&wakesta, pcmdesc, false);
/* for test */
/* wr = __spm_output_wake_reason(&wakesta, pcmdesc, true); */
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(aee_rr_curr_sodi_val()|(1<<SPM_SODI_LEAVE_SPM_FLOW));
#endif
mt_cirq_flush();
mt_cirq_disable();
mt_irq_mask_restore(&mask);
spin_unlock_irqrestore(&__spm_lock, flags);
lockdep_on();
soidle_after_wfi(0);
/* set PMIC WRAP table for normal power control */
mt_cpufreq_set_pmic_phase(PMIC_WRAP_PHASE_NORMAL);
#if SPM_AEE_RR_REC
aee_rr_rec_sodi_val(0);
#endif
//return wr;
}
