pinebuds/platform/hal/best2300p/hal_cmu_best2300p.c

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/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "plat_addr_map.h"
#include CHIP_SPECIFIC_HDR(reg_cmu)
#include CHIP_SPECIFIC_HDR(reg_aoncmu)
#include CHIP_SPECIFIC_HDR(reg_btcmu)
#include "cmsis_nvic.h"
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#include "hal_aud.h"
#include "hal_bootmode.h"
#include "hal_chipid.h"
#include "hal_cmu.h"
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#include "hal_codec.h"
#include "hal_location.h"
#include "hal_psc.h"
#include "hal_sleep_core_pd.h"
#include "hal_sysfreq.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "pmu.h"
#include "system_cp.h"
#ifdef USB_HIGH_SPEED
#ifndef USB_USE_USBPLL
#define USB_USE_USBPLL
#endif
#endif
#define CODEC_CLK_FROM_ANA
#define HAL_CMU_USB_PLL_CLOCK (192 * 1000 * 1000)
#define HAL_CMU_AUD_PLL_CLOCK (CODEC_FREQ_48K_SERIES * CODEC_CMU_DIV)
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#define HAL_CMU_USB_CLOCK_60M (60 * 1000 * 1000)
#define HAL_CMU_USB_CLOCK_48M (48 * 1000 * 1000)
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#define HAL_CMU_PLL_LOCKED_TIMEOUT US_TO_TICKS(200)
#define HAL_CMU_26M_READY_TIMEOUT MS_TO_TICKS(4)
#define HAL_CMU_LPU_EXTRA_TIMEOUT MS_TO_TICKS(1)
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#ifdef CORE_SLEEP_POWER_DOWN
#define TIMER1_SEL_LOC BOOT_TEXT_SRAM_LOC
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#else
#define TIMER1_SEL_LOC BOOT_TEXT_FLASH_LOC
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#endif
enum CMU_USB_CLK_SRC_T {
CMU_USB_CLK_SRC_PLL_60M = 0,
CMU_USB_CLK_SRC_PLL_60M_ALT = 1,
CMU_USB_CLK_SRC_PLL_48M = 2,
CMU_USB_CLK_SRC_TS = 3,
CMU_USB_CLK_SRC_OSC_48M = 4,
CMU_USB_CLK_SRC_OSC_24M_X2 = 5,
CMU_USB_CLK_SRC_OSC_26M_X4 = 6,
CMU_USB_CLK_SRC_OSC_26M_X2 = 7,
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};
enum CMU_AUD_26M_X4_USER_T {
CMU_AUD_26M_X4_USER_IIR,
CMU_AUD_26M_X4_USER_RS,
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CMU_AUD_26M_X4_USER_QTY,
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};
enum CMU_DEBUG_REG_SEL_T {
CMU_DEBUG_REG_SEL_MCU_PC = 0,
CMU_DEBUG_REG_SEL_MCU_LR = 1,
CMU_DEBUG_REG_SEL_MCU_SP = 2,
CMU_DEBUG_REG_SEL_CP_PC = 3,
CMU_DEBUG_REG_SEL_CP_LR = 4,
CMU_DEBUG_REG_SEL_CP_SP = 5,
CMU_DEBUG_REG_SEL_DEBUG = 7,
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};
struct CP_STARTUP_CFG_T {
__IO uint32_t stack;
__IO uint32_t reset_hdlr;
__IO uint32_t entry;
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};
static struct CMU_T *const cmu = (struct CMU_T *)CMU_BASE;
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static struct AONCMU_T *const aoncmu = (struct AONCMU_T *)AON_CMU_BASE;
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static struct BTCMU_T *const POSSIBLY_UNUSED btcmu =
(struct BTCMU_T *)BT_CMU_BASE;
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static struct CP_STARTUP_CFG_T *const cp_cfg =
(struct CP_STARTUP_CFG_T *)0x200F7FE0;
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#define HAL_CMU_PLL_USB_HS HAL_CMU_PLL_QTY
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#ifdef USB_USE_USBPLL
#define PLL_USER_MAP_NUM (HAL_CMU_PLL_QTY + 1)
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#else
#define PLL_USER_MAP_NUM HAL_CMU_PLL_QTY
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#endif
static uint8_t BOOT_BSS_LOC pll_user_map[PLL_USER_MAP_NUM];
STATIC_ASSERT(HAL_CMU_PLL_USER_QTY <= sizeof(pll_user_map[0]) * 8,
"Too many PLL users");
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#ifdef ROM_BUILD
static enum HAL_CMU_USB_CLOCK_SEL_T usb_clk_sel;
#endif
static bool anc_enabled;
#ifdef __AUDIO_RESAMPLE__
static bool aud_resample_en = true;
#ifdef ANA_26M_X4_ENABLE
static uint8_t aud_26m_x4_map;
STATIC_ASSERT(CMU_AUD_26M_X4_USER_QTY <= sizeof(aud_26m_x4_map) * 8,
"Too many aud_26m_x4 users");
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#endif
#endif
#ifdef LOW_SYS_FREQ
static enum HAL_CMU_LOW_SYS_FREQ_T BOOT_BSS_LOC low_sys_freq;
static bool BOOT_BSS_LOC low_sys_freq_en;
#endif
void hal_cmu_audio_resample_enable(void) {
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#ifdef __AUDIO_RESAMPLE__
aud_resample_en = true;
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#endif
}
void hal_cmu_audio_resample_disable(void) {
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#ifdef __AUDIO_RESAMPLE__
aud_resample_en = false;
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#endif
}
int hal_cmu_get_audio_resample_status(void) {
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#ifdef __AUDIO_RESAMPLE__
return aud_resample_en;
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#else
return false;
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#endif
}
static inline void aocmu_reg_update_wait(void) {
// Make sure AOCMU (26M clock domain) write opertions finish before return
aoncmu->CHIP_ID;
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}
int hal_cmu_clock_enable(enum HAL_CMU_MOD_ID_T id) {
if (id >= HAL_CMU_AON_MCU) {
return 1;
}
if (id < HAL_CMU_MOD_P_CMU) {
cmu->HCLK_ENABLE = (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
cmu->PCLK_ENABLE = (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
cmu->OCLK_ENABLE = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
aoncmu->MOD_CLK_ENABLE = (1 << (id - HAL_CMU_AON_A_CMU));
aocmu_reg_update_wait();
}
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return 0;
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}
int hal_cmu_clock_disable(enum HAL_CMU_MOD_ID_T id) {
if (id >= HAL_CMU_AON_MCU) {
return 1;
}
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if (id < HAL_CMU_MOD_P_CMU) {
cmu->HCLK_DISABLE = (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
cmu->PCLK_DISABLE = (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
cmu->OCLK_DISABLE = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
aoncmu->MOD_CLK_DISABLE = (1 << (id - HAL_CMU_AON_A_CMU));
}
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return 0;
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}
enum HAL_CMU_CLK_STATUS_T hal_cmu_clock_get_status(enum HAL_CMU_MOD_ID_T id) {
uint32_t status;
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if (id >= HAL_CMU_AON_MCU) {
return HAL_CMU_CLK_DISABLED;
}
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if (id < HAL_CMU_MOD_P_CMU) {
status = cmu->HCLK_ENABLE & (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
status = cmu->PCLK_ENABLE & (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
status = cmu->OCLK_ENABLE & (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
status = aoncmu->MOD_CLK_ENABLE & (1 << (id - HAL_CMU_AON_A_CMU));
}
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return status ? HAL_CMU_CLK_ENABLED : HAL_CMU_CLK_DISABLED;
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}
int hal_cmu_clock_set_mode(enum HAL_CMU_MOD_ID_T id,
enum HAL_CMU_CLK_MODE_T mode) {
__IO uint32_t *reg;
uint32_t val;
uint32_t lock;
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if (id >= HAL_CMU_AON_MCU) {
return 1;
}
if (id < HAL_CMU_MOD_P_CMU) {
reg = &cmu->HCLK_MODE;
val = (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
reg = &cmu->PCLK_MODE;
val = (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
reg = &cmu->OCLK_MODE;
val = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
reg = &aoncmu->MOD_CLK_MODE;
val = (1 << (id - HAL_CMU_AON_A_CMU));
}
lock = int_lock();
if (mode == HAL_CMU_CLK_MANUAL) {
*reg |= val;
} else {
*reg &= ~val;
}
int_unlock(lock);
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return 0;
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}
enum HAL_CMU_CLK_MODE_T hal_cmu_clock_get_mode(enum HAL_CMU_MOD_ID_T id) {
uint32_t mode;
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if (id >= HAL_CMU_AON_MCU) {
return HAL_CMU_CLK_AUTO;
}
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if (id < HAL_CMU_MOD_P_CMU) {
mode = cmu->HCLK_MODE & (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
mode = cmu->PCLK_MODE & (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
mode = cmu->OCLK_MODE & (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
mode = aoncmu->MOD_CLK_MODE & (1 << (id - HAL_CMU_AON_A_CMU));
}
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return mode ? HAL_CMU_CLK_MANUAL : HAL_CMU_CLK_AUTO;
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}
int hal_cmu_reset_set(enum HAL_CMU_MOD_ID_T id) {
if (id >= HAL_CMU_MOD_QTY) {
return 1;
}
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if (id < HAL_CMU_MOD_P_CMU) {
cmu->HRESET_SET = (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
cmu->PRESET_SET = (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
cmu->ORESET_SET = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
aoncmu->RESET_SET = (1 << (id - HAL_CMU_AON_A_CMU));
}
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return 0;
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}
int hal_cmu_reset_clear(enum HAL_CMU_MOD_ID_T id) {
if (id >= HAL_CMU_MOD_QTY) {
return 1;
}
if (id < HAL_CMU_MOD_P_CMU) {
cmu->HRESET_CLR = (1 << id);
asm volatile("nop; nop;");
} else if (id < HAL_CMU_MOD_O_SLEEP) {
cmu->PRESET_CLR = (1 << (id - HAL_CMU_MOD_P_CMU));
asm volatile("nop; nop; nop; nop;");
} else if (id < HAL_CMU_AON_A_CMU) {
cmu->ORESET_CLR = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
aoncmu->RESET_CLR = (1 << (id - HAL_CMU_AON_A_CMU));
aocmu_reg_update_wait();
}
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return 0;
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}
enum HAL_CMU_RST_STATUS_T hal_cmu_reset_get_status(enum HAL_CMU_MOD_ID_T id) {
uint32_t status;
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if (id >= HAL_CMU_MOD_QTY) {
return HAL_CMU_RST_SET;
}
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if (id < HAL_CMU_MOD_P_CMU) {
status = cmu->HRESET_SET & (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
status = cmu->PRESET_SET & (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
status = cmu->ORESET_SET & (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
status = aoncmu->RESET_SET & (1 << (id - HAL_CMU_AON_A_CMU));
}
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return status ? HAL_CMU_RST_CLR : HAL_CMU_RST_SET;
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}
int hal_cmu_reset_pulse(enum HAL_CMU_MOD_ID_T id) {
volatile int i;
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if (id >= HAL_CMU_MOD_QTY) {
return 1;
}
if (hal_cmu_reset_get_status(id) == HAL_CMU_RST_SET) {
return hal_cmu_reset_clear(id);
}
if (id < HAL_CMU_MOD_P_CMU) {
cmu->HRESET_PULSE = (1 << id);
} else if (id < HAL_CMU_MOD_O_SLEEP) {
cmu->PRESET_PULSE = (1 << (id - HAL_CMU_MOD_P_CMU));
} else if (id < HAL_CMU_AON_A_CMU) {
cmu->ORESET_PULSE = (1 << (id - HAL_CMU_MOD_O_SLEEP));
} else {
aoncmu->RESET_PULSE = (1 << (id - HAL_CMU_AON_A_CMU));
// Total 3 CLK-26M cycles needed
// AOCMU runs in 26M clock domain and its read operations consume at least 1
// 26M-clock cycle. (Whereas its write operations will finish at 1 HCLK
// cycle -- finish once in async bridge fifo)
aoncmu->CHIP_ID;
aoncmu->CHIP_ID;
aoncmu->CHIP_ID;
}
// Delay 5+ PCLK cycles (10+ HCLK cycles)
for (i = 0; i < 3; i++)
;
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return 0;
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}
int hal_cmu_timer_set_div(enum HAL_CMU_TIMER_ID_T id, uint32_t div) {
uint32_t lock;
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if (div < 1) {
return 1;
}
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div -= 1;
if ((div & (CMU_CFG_DIV_TIMER00_MASK >> CMU_CFG_DIV_TIMER00_SHIFT)) != div) {
return 1;
}
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lock = int_lock();
if (id == HAL_CMU_TIMER_ID_00) {
cmu->TIMER0_CLK = SET_BITFIELD(cmu->TIMER0_CLK, CMU_CFG_DIV_TIMER00, div);
} else if (id == HAL_CMU_TIMER_ID_01) {
cmu->TIMER0_CLK = SET_BITFIELD(cmu->TIMER0_CLK, CMU_CFG_DIV_TIMER01, div);
} else if (id == HAL_CMU_TIMER_ID_10) {
cmu->TIMER1_CLK = SET_BITFIELD(cmu->TIMER1_CLK, CMU_CFG_DIV_TIMER10, div);
} else if (id == HAL_CMU_TIMER_ID_11) {
cmu->TIMER1_CLK = SET_BITFIELD(cmu->TIMER1_CLK, CMU_CFG_DIV_TIMER11, div);
} else if (id == HAL_CMU_TIMER_ID_20) {
cmu->TIMER2_CLK = SET_BITFIELD(cmu->TIMER2_CLK, CMU_CFG_DIV_TIMER20, div);
} else if (id == HAL_CMU_TIMER_ID_21) {
cmu->TIMER2_CLK = SET_BITFIELD(cmu->TIMER2_CLK, CMU_CFG_DIV_TIMER21, div);
}
int_unlock(lock);
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return 0;
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_timer0_select_fast(void) {
uint32_t lock;
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lock = int_lock();
// 6.5M
cmu->PERIPH_CLK |= (1 << CMU_SEL_TIMER_FAST_SHIFT);
// AON Timer
aoncmu->CLK_SELECT |= AON_CMU_SEL_TIMER_FAST;
int_unlock(lock);
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_timer0_select_slow(void) {
uint32_t lock;
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lock = int_lock();
// 16K
cmu->PERIPH_CLK &= ~(1 << CMU_SEL_TIMER_FAST_SHIFT);
// AON Timer
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_TIMER_FAST;
int_unlock(lock);
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}
void TIMER1_SEL_LOC hal_cmu_timer1_select_fast(void) {
uint32_t lock;
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lock = int_lock();
// 6.5M
cmu->PERIPH_CLK |= (1 << (CMU_SEL_TIMER_FAST_SHIFT + 1));
int_unlock(lock);
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}
void TIMER1_SEL_LOC hal_cmu_timer1_select_slow(void) {
uint32_t lock;
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lock = int_lock();
// 16K
cmu->PERIPH_CLK &= ~(1 << (CMU_SEL_TIMER_FAST_SHIFT + 1));
int_unlock(lock);
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}
void hal_cmu_timer2_select_fast(void) {
uint32_t lock;
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lock = int_lock();
// 6.5M
cmu->PERIPH_CLK |= (1 << (CMU_SEL_TIMER_FAST_SHIFT + 2));
int_unlock(lock);
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}
void hal_cmu_timer2_select_slow(void) {
uint32_t lock;
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lock = int_lock();
// 16K
cmu->PERIPH_CLK &= ~(1 << (CMU_SEL_TIMER_FAST_SHIFT + 2));
int_unlock(lock);
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}
int hal_cmu_sdmmc_set_pll_div(uint32_t div) {
uint32_t lock;
if (div < 2) {
return 1;
}
div -= 2;
if ((div & (CMU_CFG_DIV_SDMMC_MASK >> CMU_CFG_DIV_SDMMC_SHIFT)) != div) {
return 1;
}
lock = int_lock();
cmu->PERIPH_CLK = SET_BITFIELD(cmu->PERIPH_CLK, CMU_CFG_DIV_SDMMC, div) |
CMU_SEL_OSCX2_SDMMC | CMU_SEL_PLL_SDMMC | CMU_EN_PLL_SDMMC;
int_unlock(lock);
return 0;
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}
#ifdef OSC_26M_X4_AUD2BB
// Any of 78M/104M/208M is changed to 26M x4 (104M)
#define SYS_SET_FREQ_FUNC(f, F, CLK_OV) \
int hal_cmu_##f##_set_freq(enum HAL_CMU_FREQ_T freq) { \
uint32_t enable; \
uint32_t disable; \
if (freq >= HAL_CMU_FREQ_QTY) { \
return 1; \
} \
if (freq == HAL_CMU_FREQ_32K) { \
enable = 0; \
disable = CMU_SEL_OSC_##F##_DISABLE | CMU_SEL_OSCX2_##F##_DISABLE | \
CMU_SEL_PLL_##F##_DISABLE | CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE; \
} else if (freq == HAL_CMU_FREQ_26M) { \
enable = CMU_SEL_OSC_##F##_ENABLE; \
disable = CMU_SEL_OSCX2_##F##_DISABLE | CMU_SEL_PLL_##F##_DISABLE | \
CMU_RSTN_DIV_##F##_DISABLE | CMU_BYPASS_DIV_##F##_DISABLE; \
} else if (freq == HAL_CMU_FREQ_52M) { \
enable = CMU_SEL_OSCX2_##F##_ENABLE; \
disable = CMU_SEL_PLL_##F##_DISABLE | CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE; \
} else { \
enable = CMU_SEL_PLL_##F##_ENABLE | CMU_BYPASS_DIV_##F##_ENABLE; \
disable = CMU_RSTN_DIV_##F##_DISABLE; \
} \
if (enable & CMU_SEL_PLL_##F##_ENABLE) { \
CLK_OV; \
cmu->SYS_CLK_ENABLE = CMU_RSTN_DIV_##F##_ENABLE; \
if (enable & CMU_BYPASS_DIV_##F##_ENABLE) { \
cmu->SYS_CLK_ENABLE = CMU_BYPASS_DIV_##F##_ENABLE; \
} else { \
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_##F##_DISABLE; \
} \
} \
cmu->SYS_CLK_ENABLE = enable; \
if (enable & CMU_SEL_PLL_##F##_ENABLE) { \
cmu->SYS_CLK_DISABLE = disable; \
} else { \
cmu->SYS_CLK_DISABLE = disable & ~(CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE); \
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_##F##_DISABLE; \
cmu->SYS_CLK_DISABLE = CMU_RSTN_DIV_##F##_DISABLE; \
} \
return 0; \
}
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#else // !OSC_26M_X4_AUD2BB
#define SYS_SET_FREQ_FUNC(f, F, CLK_OV) \
int hal_cmu_##f##_set_freq(enum HAL_CMU_FREQ_T freq) { \
uint32_t lock; \
uint32_t enable; \
uint32_t disable; \
int div = -1; \
if (freq >= HAL_CMU_FREQ_QTY) { \
return 1; \
} \
if (freq == HAL_CMU_FREQ_32K) { \
enable = 0; \
disable = CMU_SEL_OSC_##F##_DISABLE | CMU_SEL_OSCX2_##F##_DISABLE | \
CMU_SEL_PLL_##F##_DISABLE | CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE; \
} else if (freq == HAL_CMU_FREQ_26M) { \
enable = CMU_SEL_OSC_##F##_ENABLE; \
disable = CMU_SEL_OSCX2_##F##_DISABLE | CMU_SEL_PLL_##F##_DISABLE | \
CMU_RSTN_DIV_##F##_DISABLE | CMU_BYPASS_DIV_##F##_DISABLE; \
} else if (freq == HAL_CMU_FREQ_52M) { \
enable = CMU_SEL_OSCX2_##F##_ENABLE; \
disable = CMU_SEL_PLL_##F##_DISABLE | CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE; \
} else if (freq == HAL_CMU_FREQ_78M) { \
enable = CMU_SEL_PLL_##F##_ENABLE | CMU_RSTN_DIV_##F##_ENABLE; \
disable = CMU_BYPASS_DIV_##F##_DISABLE; \
div = 1; \
} else if (freq == HAL_CMU_FREQ_104M) { \
enable = CMU_SEL_PLL_##F##_ENABLE | CMU_RSTN_DIV_##F##_ENABLE; \
disable = CMU_BYPASS_DIV_##F##_DISABLE; \
div = 0; \
} else { \
enable = CMU_SEL_PLL_##F##_ENABLE | CMU_BYPASS_DIV_##F##_ENABLE; \
disable = CMU_RSTN_DIV_##F##_DISABLE; \
} \
if (div >= 0) { \
CLK_OV; \
lock = int_lock(); \
cmu->SYS_DIV = SET_BITFIELD(cmu->SYS_DIV, CMU_CFG_DIV_##F, div); \
int_unlock(lock); \
} \
if (enable & CMU_SEL_PLL_##F##_ENABLE) { \
cmu->SYS_CLK_ENABLE = CMU_RSTN_DIV_##F##_ENABLE; \
if (enable & CMU_BYPASS_DIV_##F##_ENABLE) { \
cmu->SYS_CLK_ENABLE = CMU_BYPASS_DIV_##F##_ENABLE; \
} else { \
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_##F##_DISABLE; \
} \
} \
cmu->SYS_CLK_ENABLE = enable; \
if (enable & CMU_SEL_PLL_##F##_ENABLE) { \
cmu->SYS_CLK_DISABLE = disable; \
} else { \
cmu->SYS_CLK_DISABLE = disable & ~(CMU_RSTN_DIV_##F##_DISABLE | \
CMU_BYPASS_DIV_##F##_DISABLE); \
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_##F##_DISABLE; \
cmu->SYS_CLK_DISABLE = CMU_RSTN_DIV_##F##_DISABLE; \
} \
return 0; \
}
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#endif // !OSC_26M_X4_AUD2BB
#ifdef MCU_SYS_CLOCK_400M
#define FLASH_DIV_OFFSET 2
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#elif defined(MCU_SYS_CLOCK_300M)
#define FLASH_DIV_OFFSET 1
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#else
#define FLASH_DIV_OFFSET 0
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#endif
#ifdef OSC_26M_X4_AUD2BB
#define FLASH_FREQ_OV \
{ aoncmu->CLK_OUT |= AON_CMU_SEL_X4_FLS; }
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#else
#define FLASH_FREQ_OV \
{ div += FLASH_DIV_OFFSET; }
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#endif
BOOT_TEXT_SRAM_LOC SYS_SET_FREQ_FUNC(flash, FLS, FLASH_FREQ_OV);
#ifdef LOW_SYS_FREQ
void hal_cmu_low_sys_clock_set(enum HAL_CMU_LOW_SYS_FREQ_T freq) {
uint32_t lock;
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if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
return;
}
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lock = int_lock();
low_sys_freq = freq;
hal_cmu_sys_set_freq(hal_sysfreq_get_hw_freq());
int_unlock(lock);
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}
int hal_cmu_fast_timer_offline(void) {
return low_sys_freq_en && low_sys_freq != HAL_CMU_LOW_SYS_FREQ_13M;
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}
static void hal_cmu_osc_to_dig_x4_enable(void) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_X4_ANA_ENABLE;
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_SYS;
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_DIG;
aoncmu->RESERVED_03C |= AON_CMU_OSC_TO_DIG_X4;
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}
static void hal_cmu_osc_to_dig_x4_disable(void) {
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_DIG;
aoncmu->RESERVED_03C &= ~AON_CMU_OSC_TO_DIG_X4;
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#ifndef OSC_26M_X4_AUD2BB
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_SYS;
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#endif
#ifndef ANA_26M_X4_ENABLE
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_X4_ANA_DISABLE;
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#endif
}
int hal_cmu_sys_set_freq(enum HAL_CMU_FREQ_T freq) {
uint32_t lock;
uint32_t enable;
uint32_t disable;
int div = -1;
bool low_sys_set, low_sys_clr;
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if (freq >= HAL_CMU_FREQ_QTY) {
return 1;
}
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low_sys_set = false;
low_sys_clr = false;
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lock = int_lock();
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if (low_sys_freq == HAL_CMU_LOW_SYS_FREQ_NONE) {
if (aoncmu->RESERVED_03C & AON_CMU_OSC_TO_DIG_X4) {
low_sys_clr = true;
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}
} else {
if (freq == HAL_CMU_FREQ_26M) {
low_sys_set = true;
} else if (freq > HAL_CMU_FREQ_26M) {
if (aoncmu->RESERVED_03C & AON_CMU_OSC_TO_DIG_X4) {
low_sys_clr = true;
}
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}
}
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if (low_sys_clr) {
low_sys_freq_en = false;
cmu->SYS_CLK_ENABLE = CMU_SEL_OSC_SYS_ENABLE;
cmu->SYS_CLK_DISABLE = CMU_SEL_OSCX2_SYS_DISABLE | CMU_SEL_PLL_SYS_DISABLE;
hal_cmu_osc_to_dig_x4_disable();
}
if (low_sys_set) {
low_sys_freq_en = true;
cmu->SYS_CLK_ENABLE = CMU_SEL_OSC_SYS_ENABLE;
cmu->SYS_CLK_DISABLE = CMU_SEL_OSCX2_SYS_DISABLE | CMU_SEL_PLL_SYS_DISABLE;
hal_cmu_osc_to_dig_x4_enable();
freq = HAL_CMU_FREQ_208M;
}
if (freq == HAL_CMU_FREQ_32K) {
enable = 0;
disable = CMU_SEL_OSC_SYS_DISABLE | CMU_SEL_OSCX2_SYS_DISABLE |
CMU_SEL_PLL_SYS_DISABLE | CMU_RSTN_DIV_SYS_DISABLE |
CMU_BYPASS_DIV_SYS_DISABLE;
} else if (freq == HAL_CMU_FREQ_26M) {
enable = CMU_SEL_OSC_SYS_ENABLE;
disable = CMU_SEL_OSCX2_SYS_DISABLE | CMU_SEL_PLL_SYS_DISABLE |
CMU_RSTN_DIV_SYS_DISABLE | CMU_BYPASS_DIV_SYS_DISABLE;
} else if (freq == HAL_CMU_FREQ_52M) {
enable = CMU_SEL_OSCX2_SYS_ENABLE;
disable = CMU_SEL_PLL_SYS_DISABLE | CMU_RSTN_DIV_SYS_DISABLE |
CMU_BYPASS_DIV_SYS_DISABLE;
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#ifndef OSC_26M_X4_AUD2BB
} else if (freq == HAL_CMU_FREQ_78M) {
enable = CMU_SEL_PLL_SYS_ENABLE | CMU_RSTN_DIV_SYS_ENABLE;
disable = CMU_BYPASS_DIV_SYS_DISABLE;
div = 1;
} else if (freq == HAL_CMU_FREQ_104M) {
enable = CMU_SEL_PLL_SYS_ENABLE | CMU_RSTN_DIV_SYS_ENABLE;
disable = CMU_BYPASS_DIV_SYS_DISABLE;
div = 0;
#endif
} else {
if (low_sys_set) {
if (low_sys_freq == HAL_CMU_LOW_SYS_FREQ_13M) {
enable = CMU_SEL_PLL_SYS_ENABLE | CMU_BYPASS_DIV_SYS_ENABLE;
disable = CMU_RSTN_DIV_SYS_DISABLE;
} else {
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enable = CMU_SEL_PLL_SYS_ENABLE | CMU_RSTN_DIV_SYS_ENABLE;
disable = CMU_BYPASS_DIV_SYS_DISABLE;
if (low_sys_freq == HAL_CMU_LOW_SYS_FREQ_6P5M) {
div = 0;
} else if (low_sys_freq == HAL_CMU_LOW_SYS_FREQ_4P33M) {
div = 1;
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} else {
div = 2;
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}
}
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} else {
enable = CMU_SEL_PLL_SYS_ENABLE | CMU_BYPASS_DIV_SYS_ENABLE;
disable = CMU_RSTN_DIV_SYS_DISABLE;
}
}
if (div >= 0) {
cmu->SYS_DIV = SET_BITFIELD(cmu->SYS_DIV, CMU_CFG_DIV_SYS, div);
}
if (enable & CMU_SEL_PLL_SYS_ENABLE) {
cmu->SYS_CLK_ENABLE = CMU_RSTN_DIV_SYS_ENABLE;
if (enable & CMU_BYPASS_DIV_SYS_ENABLE) {
cmu->SYS_CLK_ENABLE = CMU_BYPASS_DIV_SYS_ENABLE;
} else {
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_SYS_DISABLE;
}
}
cmu->SYS_CLK_ENABLE = enable;
if (enable & CMU_SEL_PLL_SYS_ENABLE) {
cmu->SYS_CLK_DISABLE = disable;
} else {
cmu->SYS_CLK_DISABLE =
disable & ~(CMU_RSTN_DIV_SYS_DISABLE | CMU_BYPASS_DIV_SYS_DISABLE);
cmu->SYS_CLK_DISABLE = CMU_BYPASS_DIV_SYS_DISABLE;
cmu->SYS_CLK_DISABLE = CMU_RSTN_DIV_SYS_DISABLE;
}
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int_unlock(lock);
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return 0;
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}
#else
SYS_SET_FREQ_FUNC(sys, SYS, {});
#endif
int hal_cmu_mem_set_freq(enum HAL_CMU_FREQ_T freq) { return 0; }
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enum HAL_CMU_FREQ_T BOOT_TEXT_SRAM_LOC hal_cmu_sys_get_freq(void) {
uint32_t sys_clk;
uint32_t div;
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sys_clk = cmu->SYS_CLK_ENABLE;
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if (sys_clk & CMU_SEL_PLL_SYS_ENABLE) {
if (sys_clk & CMU_BYPASS_DIV_SYS_ENABLE) {
return HAL_CMU_FREQ_208M;
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} else {
div = GET_BITFIELD(cmu->SYS_DIV, CMU_CFG_DIV_SYS);
if (div == 0) {
return HAL_CMU_FREQ_104M;
} else if (div == 1) {
// (div == 1): 69M
return HAL_CMU_FREQ_78M;
} else {
// (div == 2): 52M
// (div == 3): 42M
return HAL_CMU_FREQ_52M;
}
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}
} else if (sys_clk & CMU_SEL_OSCX2_SYS_ENABLE) {
return HAL_CMU_FREQ_52M;
} else if (sys_clk & CMU_SEL_OSC_SYS_ENABLE) {
return HAL_CMU_FREQ_26M;
} else {
return HAL_CMU_FREQ_32K;
}
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}
int BOOT_TEXT_SRAM_LOC hal_cmu_flash_select_pll(enum HAL_CMU_PLL_T pll) {
return hal_cmu_sys_select_pll(pll);
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}
int hal_cmu_mem_select_pll(enum HAL_CMU_PLL_T pll) {
return hal_cmu_sys_select_pll(pll);
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}
// hal_cmu_flash_select_pll() requires in BOOT_TEXT_SRAM_LOC
int BOOT_TEXT_SRAM_LOC hal_cmu_sys_select_pll(enum HAL_CMU_PLL_T pll) {
uint32_t lock;
uint32_t sel;
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if (pll >= HAL_CMU_PLL_QTY) {
return 1;
}
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lock = int_lock();
// 0/1:bbpll, 2:audpll, 3:usbpll
sel = (pll == HAL_CMU_PLL_AUD) ? 2 : 0;
aoncmu->CLK_SELECT =
SET_BITFIELD(aoncmu->CLK_SELECT, AON_CMU_SEL_PLL_SYS, sel);
int_unlock(lock);
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return 0;
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}
int hal_cmu_get_pll_status(enum HAL_CMU_PLL_T pll) {
return !!(aoncmu->TOP_CLK_ENABLE &
((pll == HAL_CMU_PLL_AUD) ? AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE
: AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE));
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}
int hal_cmu_pll_enable(enum HAL_CMU_PLL_T pll, enum HAL_CMU_PLL_USER_T user) {
uint32_t pu_val;
uint32_t en_val;
uint32_t check;
uint32_t lock;
uint32_t sel;
uint32_t start;
uint32_t timeout;
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if (pll >= HAL_CMU_PLL_QTY) {
return 1;
}
if (user >= HAL_CMU_PLL_USER_QTY && user != HAL_CMU_PLL_USER_ALL) {
return 2;
}
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#ifdef USB_USE_USBPLL
if (pll == HAL_CMU_PLL_USB && user == HAL_CMU_PLL_USER_USB) {
pll = HAL_CMU_PLL_USB_HS;
}
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#endif
if (pll == HAL_CMU_PLL_AUD) {
pu_val = AON_CMU_PU_PLLAUD_ENABLE;
en_val = AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE;
check = AON_CMU_LOCK_PLLAUD;
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#ifdef USB_USE_USBPLL
} else if (pll == HAL_CMU_PLL_USB_HS) {
pu_val = AON_CMU_PU_PLLUSB_ENABLE;
en_val = AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE;
check = AON_CMU_LOCK_PLLUSB;
#endif
} else {
pu_val = AON_CMU_PU_PLLBB_ENABLE;
en_val = AON_CMU_EN_CLK_TOP_PLLBB_ENABLE;
check = AON_CMU_LOCK_PLLBB;
}
lock = int_lock();
if (pll_user_map[pll] == 0 || user == HAL_CMU_PLL_USER_ALL) {
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#ifndef ROM_BUILD
pmu_pll_div_reset_set(pll);
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#endif
aoncmu->TOP_CLK_ENABLE = pu_val;
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#ifndef ROM_BUILD
hal_sys_timer_delay_us(20);
pmu_pll_div_reset_clear(pll);
// Wait at least 10us for clock ready
#endif
} else {
check = 0;
}
if (user < HAL_CMU_PLL_USER_QTY) {
pll_user_map[pll] |= (1 << user);
}
if (user == HAL_CMU_PLL_USER_AUD) {
// 0/1:audpll, 2:bbpll, 3:usbpll
sel = (pll == HAL_CMU_PLL_AUD) ? 0 : 2;
aoncmu->CLK_SELECT =
SET_BITFIELD(aoncmu->CLK_SELECT, AON_CMU_SEL_PLL_AUD, sel);
}
// HAL_CMU_PLL_USER_SYS selects PLL in hal_cmu_sys_select_pll()
int_unlock(lock);
start = hal_sys_timer_get();
timeout = HAL_CMU_PLL_LOCKED_TIMEOUT;
do {
if (check) {
if (aoncmu->CODEC_DIV & check) {
// break;
}
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} else {
if (aoncmu->TOP_CLK_ENABLE & en_val) {
break;
}
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}
} while ((hal_sys_timer_get() - start) < timeout);
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aoncmu->TOP_CLK_ENABLE = en_val;
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#ifndef USB_USE_USBPLL
if (pll == HAL_CMU_PLL_USB && user == HAL_CMU_PLL_USER_USB) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLBB2_ENABLE;
}
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#endif
return (aoncmu->CODEC_DIV & check) ? 0 : 2;
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}
int hal_cmu_pll_disable(enum HAL_CMU_PLL_T pll, enum HAL_CMU_PLL_USER_T user) {
uint32_t lock;
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if (pll >= HAL_CMU_PLL_QTY) {
return 1;
}
if (user >= HAL_CMU_PLL_USER_QTY && user != HAL_CMU_PLL_USER_ALL) {
return 2;
}
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if (pll == HAL_CMU_PLL_USB && user == HAL_CMU_PLL_USER_USB) {
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#ifdef USB_USE_USBPLL
pll = HAL_CMU_PLL_USB_HS;
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#else
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLBB2_DISABLE;
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#endif
}
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lock = int_lock();
if (user < HAL_CMU_PLL_USER_ALL) {
pll_user_map[pll] &= ~(1 << user);
}
if (pll_user_map[pll] == 0 || user == HAL_CMU_PLL_USER_ALL) {
if (pll == HAL_CMU_PLL_AUD) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLAUD_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLAUD_DISABLE;
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#ifdef USB_USE_USBPLL
} else if (pll == HAL_CMU_PLL_USB_HS) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLUSB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLUSB_DISABLE;
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#endif
} else {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLBB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLBB_DISABLE;
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}
}
int_unlock(lock);
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return 0;
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_low_freq_mode_init(void) {
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#if defined(MCU_HIGH_PERFORMANCE_MODE)
hal_cmu_sys_select_pll(HAL_CMU_PLL_USB);
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#else
// No need to switch to USB PLL, for there is a clock gate and a clock mux
// in front of the AUD/USB switch
hal_cmu_sys_select_pll(HAL_CMU_PLL_AUD);
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#endif
//#ifdef FLASH_LOW_SPEED
#ifdef OSC_26M_X4_AUD2BB
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_SYS;
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#endif
//#endif
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}
void hal_cmu_low_freq_mode_enable(enum HAL_CMU_FREQ_T old_freq,
enum HAL_CMU_FREQ_T new_freq) {
// TODO: Need to lock irq?
enum HAL_CMU_PLL_T POSSIBLY_UNUSED pll;
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#if defined(MCU_HIGH_PERFORMANCE_MODE)
pll = HAL_CMU_PLL_USB;
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#else
pll = HAL_CMU_PLL_AUD;
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#endif
#ifdef OSC_26M_X4_AUD2BB
if (new_freq <= HAL_CMU_FREQ_52M) {
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_SYS;
}
if (new_freq <= HAL_CMU_FREQ_104M && old_freq > HAL_CMU_FREQ_104M) {
if (new_freq > HAL_CMU_FREQ_52M) {
// PLL is in use now. Switch to X2 first.
hal_cmu_sys_set_freq(HAL_CMU_FREQ_52M);
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_SYS;
// X4 is in use now
hal_cmu_sys_set_freq(new_freq);
}
hal_cmu_pll_disable(pll, HAL_CMU_PLL_USER_SYS);
}
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#else
#ifdef FLASH_LOW_SPEED
if (old_freq > HAL_CMU_FREQ_52M && new_freq <= HAL_CMU_FREQ_52M) {
hal_cmu_pll_disable(pll, HAL_CMU_PLL_USER_SYS);
}
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#endif
#endif
}
void hal_cmu_low_freq_mode_disable(enum HAL_CMU_FREQ_T old_freq,
enum HAL_CMU_FREQ_T new_freq) {
// TODO: Need to lock irq?
enum HAL_CMU_PLL_T POSSIBLY_UNUSED pll;
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#if defined(MCU_HIGH_PERFORMANCE_MODE)
pll = HAL_CMU_PLL_USB;
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#else
pll = HAL_CMU_PLL_AUD;
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#endif
#ifdef OSC_26M_X4_AUD2BB
if (new_freq <= HAL_CMU_FREQ_52M) {
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_SYS;
} else if (new_freq <= HAL_CMU_FREQ_104M) {
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_SYS;
} else {
if (old_freq <= HAL_CMU_FREQ_104M) {
hal_cmu_pll_enable(pll, HAL_CMU_PLL_USER_SYS);
if (old_freq > HAL_CMU_FREQ_52M) {
// X4 is in use now. Switch to X2 before stopping X4
hal_cmu_sys_set_freq(HAL_CMU_FREQ_52M);
}
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_SYS;
}
}
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#else
#ifdef FLASH_LOW_SPEED
if (old_freq <= HAL_CMU_FREQ_52M && new_freq > HAL_CMU_FREQ_52M) {
hal_cmu_pll_enable(pll, HAL_CMU_PLL_USER_SYS);
}
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#endif
#endif
}
int hal_cmu_codec_adc_set_div(uint32_t div) {
uint32_t lock;
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if (div < 2) {
return 1;
}
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div -= 2;
lock = int_lock();
aoncmu->CODEC_DIV =
SET_BITFIELD(aoncmu->CODEC_DIV, AON_CMU_CFG_DIV_CODEC, div);
int_unlock(lock);
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return 0;
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}
uint32_t hal_cmu_codec_adc_get_div(void) {
return GET_BITFIELD(aoncmu->CODEC_DIV, AON_CMU_CFG_DIV_CODEC) + 2;
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}
int hal_cmu_codec_dac_set_div(uint32_t div) {
return hal_cmu_codec_adc_set_div(div);
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}
uint32_t hal_cmu_codec_dac_get_div(void) {
return hal_cmu_codec_adc_get_div();
;
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}
#if defined(__AUDIO_RESAMPLE__) && defined(ANA_26M_X4_ENABLE)
void hal_cmu_audio_26m_x4_enable(enum CMU_AUD_26M_X4_USER_T user) {
uint32_t lock;
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if (user >= CMU_AUD_26M_X4_USER_QTY) {
return;
}
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lock = int_lock();
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if (aud_26m_x4_map == 0) {
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_AUD;
}
aud_26m_x4_map |= (1 << user);
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int_unlock(lock);
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}
void hal_cmu_audio_26m_x4_disable(enum CMU_AUD_26M_X4_USER_T user) {
uint32_t lock;
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if (user >= CMU_AUD_26M_X4_USER_QTY) {
return;
}
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lock = int_lock();
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if (aud_26m_x4_map & (1 << user)) {
aud_26m_x4_map &= ~(1 << user);
if (aud_26m_x4_map == 0) {
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_AUD;
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}
}
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int_unlock(lock);
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}
#endif
void hal_cmu_codec_iir_enable(uint32_t speed) {
uint32_t lock;
uint32_t mask;
uint32_t val;
uint32_t div;
uint32_t cfg_speed = 0;
mask = AON_CMU_SEL_OSC_CODECIIR | AON_CMU_SEL_OSCX2_CODECIIR |
AON_CMU_BYPASS_DIV_CODECIIR;
val = 0;
if (speed <= 26000000) {
val |= AON_CMU_SEL_OSC_CODECIIR | AON_CMU_SEL_OSCX2_CODECIIR;
cfg_speed = 26000000;
} else if (speed <= 52000000) {
val |= AON_CMU_SEL_OSCX2_CODECIIR;
cfg_speed = 52000000;
} else {
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#if defined(__AUDIO_RESAMPLE__) && defined(ANA_26M_X4_ENABLE)
if (hal_cmu_get_audio_resample_status()) {
hal_cmu_audio_26m_x4_enable(CMU_AUD_26M_X4_USER_IIR);
val |= AON_CMU_BYPASS_DIV_CODECIIR;
cfg_speed = 104000000;
} else
#endif
{
// Assume audio stream is one of 48K series
div = HAL_CMU_AUD_PLL_CLOCK / speed;
if (div >= 2) {
hal_cmu_codec_iir_set_div(div);
cfg_speed = HAL_CMU_AUD_PLL_CLOCK / div;
} else {
val |= AON_CMU_BYPASS_DIV_CODECIIR;
cfg_speed = HAL_CMU_AUD_PLL_CLOCK;
}
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}
}
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ASSERT(speed <= cfg_speed, "%s: speed %u should <= cfg_speed %u", __func__,
speed, cfg_speed);
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lock = int_lock();
aoncmu->CODEC_IIR = (aoncmu->CODEC_IIR & ~mask) | val;
int_unlock(lock);
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aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_CODEC_IIR_ENABLE;
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aocmu_reg_update_wait();
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}
void hal_cmu_codec_iir_disable(void) {
uint32_t lock;
uint32_t val;
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aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_CODEC_IIR_DISABLE;
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#if defined(__AUDIO_RESAMPLE__) && defined(ANA_26M_X4_ENABLE)
hal_cmu_audio_26m_x4_disable(CMU_AUD_26M_X4_USER_IIR);
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#endif
val = AON_CMU_SEL_OSC_CODECIIR | AON_CMU_SEL_OSCX2_CODECIIR;
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lock = int_lock();
aoncmu->CODEC_IIR |= val;
int_unlock(lock);
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}
int hal_cmu_codec_iir_set_div(uint32_t div) {
uint32_t lock;
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if (div < 2) {
return 1;
}
div -= 2;
lock = int_lock();
aoncmu->CODEC_IIR =
SET_BITFIELD(aoncmu->CODEC_IIR, AON_CMU_CFG_DIV_CODECIIR, div);
int_unlock(lock);
return 0;
}
void hal_cmu_codec_rs_enable(uint32_t speed) {
uint32_t lock;
uint32_t mask;
uint32_t val;
uint32_t div;
uint32_t cfg_speed = 0;
mask = AON_CMU_SEL_OSC_CODECRS | AON_CMU_SEL_OSCX2_CODECRS |
AON_CMU_BYPASS_DIV_CODECRS;
val = 0;
if (speed <= 26000000) {
val |= AON_CMU_SEL_OSC_CODECRS | AON_CMU_SEL_OSCX2_CODECRS;
cfg_speed = 26000000;
} else if (speed <= 52000000) {
val |= AON_CMU_SEL_OSCX2_CODECRS;
cfg_speed = 52000000;
} else {
#if defined(__AUDIO_RESAMPLE__) && defined(ANA_26M_X4_ENABLE)
if (hal_cmu_get_audio_resample_status()) {
hal_cmu_audio_26m_x4_enable(CMU_AUD_26M_X4_USER_RS);
val |= AON_CMU_BYPASS_DIV_CODECRS;
cfg_speed = 104000000;
} else
#endif
{
// Assume audio stream is one of 48K series
div = HAL_CMU_AUD_PLL_CLOCK / speed;
if (div >= 2) {
hal_cmu_codec_rs_set_div(div);
cfg_speed = HAL_CMU_AUD_PLL_CLOCK / div;
} else {
val |= AON_CMU_BYPASS_DIV_CODECRS;
cfg_speed = HAL_CMU_AUD_PLL_CLOCK;
}
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}
pmu_rs_freq_config(cfg_speed);
}
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ASSERT(speed <= cfg_speed, "%s: speed %u should <= cfg_speed %u", __func__,
speed, cfg_speed);
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lock = int_lock();
aoncmu->CODEC_IIR = (aoncmu->CODEC_IIR & ~mask) | val;
int_unlock(lock);
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aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_CODEC_RS_ENABLE;
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aocmu_reg_update_wait();
}
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void hal_cmu_codec_rs_disable(void) {
uint32_t lock;
bool high_speed;
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aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_CODEC_RS_DISABLE;
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#if defined(__AUDIO_RESAMPLE__) && defined(ANA_26M_X4_ENABLE)
hal_cmu_audio_26m_x4_disable(CMU_AUD_26M_X4_USER_RS);
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#endif
high_speed = !(aoncmu->CODEC_IIR & AON_CMU_SEL_OSC_CODECRS);
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lock = int_lock();
aoncmu->CODEC_IIR |= AON_CMU_SEL_OSC_CODECRS | AON_CMU_SEL_OSCX2_CODECRS;
int_unlock(lock);
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if (high_speed) {
pmu_rs_freq_config(0);
}
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}
int hal_cmu_codec_rs_set_div(uint32_t div) {
uint32_t lock;
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if (div < 2) {
return 1;
}
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div -= 2;
lock = int_lock();
aoncmu->CODEC_IIR =
SET_BITFIELD(aoncmu->CODEC_IIR, AON_CMU_CFG_DIV_CODECRS, div);
int_unlock(lock);
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return 0;
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}
void hal_cmu_anc_enable(enum HAL_CMU_ANC_CLK_USER_T user) {
anc_enabled = true;
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}
void hal_cmu_anc_disable(enum HAL_CMU_ANC_CLK_USER_T user) {
anc_enabled = false;
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}
int hal_cmu_anc_get_status(enum HAL_CMU_ANC_CLK_USER_T user) {
return anc_enabled;
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}
void hal_cmu_codec_clock_enable(void) {
uint32_t clk;
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#ifdef CODEC_CLK_FROM_ANA
// Always use ANA clock
clk = AON_CMU_EN_CLK_CODEC_HCLK_ENABLE | AON_CMU_EN_CLK_CODEC_ENABLE;
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#else
#ifdef __AUDIO_RESAMPLE__
if (hal_cmu_get_audio_resample_status()) {
uint32_t lock;
lock = int_lock();
aoncmu->CODEC_DIV |= AON_CMU_SEL_OSC_CODEC;
int_unlock(lock);
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#ifdef RESAMPLE_CODEC_CLK_ANA
clk = AON_CMU_EN_CLK_CODEC_HCLK_ENABLE | AON_CMU_EN_CLK_CODEC_ENABLE;
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#else
clk = AON_CMU_EN_CLK_PLL_CODEC_ENABLE | AON_CMU_EN_CLK_CODEC_HCLK_ENABLE |
AON_CMU_EN_CLK_CODEC_ENABLE;
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
// Force codec to use analog clock
clk &= ~AON_CMU_EN_CLK_PLL_CODEC_ENABLE;
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}
#endif
} else
#endif
{
clk = AON_CMU_EN_CLK_PLL_CODEC_ENABLE | AON_CMU_EN_CLK_CODEC_HCLK_ENABLE |
AON_CMU_EN_CLK_CODEC_ENABLE;
}
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#endif
aoncmu->TOP_CLK_ENABLE = clk;
hal_cmu_clock_enable(HAL_CMU_MOD_H_CODEC);
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}
void hal_cmu_codec_clock_disable(void) {
uint32_t clk;
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hal_cmu_clock_disable(HAL_CMU_MOD_H_CODEC);
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#ifdef CODEC_CLK_FROM_ANA
clk = AON_CMU_EN_CLK_CODEC_HCLK_DISABLE | AON_CMU_EN_CLK_CODEC_DISABLE;
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#else
#ifdef __AUDIO_RESAMPLE__
if (hal_cmu_get_audio_resample_status()) {
uint32_t lock;
lock = int_lock();
aoncmu->CODEC_DIV &= ~AON_CMU_SEL_OSC_CODEC;
int_unlock(lock);
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clk = AON_CMU_EN_CLK_CODEC_HCLK_DISABLE | AON_CMU_EN_CLK_CODEC_DISABLE;
} else
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#endif
{
clk = AON_CMU_EN_CLK_PLL_CODEC_DISABLE | AON_CMU_EN_CLK_CODEC_HCLK_DISABLE |
AON_CMU_EN_CLK_CODEC_DISABLE;
}
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#endif
aoncmu->TOP_CLK_DISABLE = clk;
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}
void hal_cmu_codec_vad_clock_enable(uint32_t enabled) {
if (enabled) {
aoncmu->TOP_CLK_ENABLE =
AON_CMU_EN_CLK_TOP_OSC_ENABLE | AON_CMU_EN_CLK_32K_CODEC_ENABLE;
} else {
aoncmu->TOP_CLK_DISABLE =
AON_CMU_EN_CLK_TOP_OSC_DISABLE | AON_CMU_EN_CLK_32K_CODEC_DISABLE;
}
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}
void hal_cmu_codec_reset_set(void) {
aoncmu->RESET_SET = AON_CMU_SOFT_RSTN_CODEC_SET;
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}
void hal_cmu_codec_reset_clear(void) {
aoncmu->RESET_CLR = AON_CMU_SOFT_RSTN_CODEC_CLR;
aocmu_reg_update_wait();
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}
void hal_cmu_codec_set_fault_mask(uint32_t msk) {
uint32_t lock;
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lock = int_lock();
// If bit set 1, DAC will be muted when some faults occur
cmu->PERIPH_CLK = SET_BITFIELD(cmu->PERIPH_CLK, CMU_MASK_OBS, msk);
int_unlock(lock);
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}
void hal_cmu_i2s_clock_out_enable(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
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if (id == HAL_I2S_ID_0) {
val = CMU_EN_CLK_I2S0_OUT;
} else {
val = CMU_EN_CLK_I2S1_OUT;
}
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lock = int_lock();
cmu->I2C_CLK |= val;
int_unlock(lock);
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}
void hal_cmu_i2s_clock_out_disable(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
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if (id == HAL_I2S_ID_0) {
val = CMU_EN_CLK_I2S0_OUT;
} else {
val = CMU_EN_CLK_I2S1_OUT;
}
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lock = int_lock();
cmu->I2C_CLK &= ~val;
int_unlock(lock);
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}
void hal_cmu_i2s_set_slave_mode(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
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if (id == HAL_I2S_ID_0) {
val = CMU_SEL_I2S0_CLKIN;
} else {
val = CMU_SEL_I2S1_CLKIN;
}
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lock = int_lock();
cmu->I2C_CLK |= val;
int_unlock(lock);
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}
void hal_cmu_i2s_set_master_mode(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
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if (id == HAL_I2S_ID_0) {
val = CMU_SEL_I2S0_CLKIN;
} else {
val = CMU_SEL_I2S1_CLKIN;
}
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lock = int_lock();
cmu->I2C_CLK &= ~val;
int_unlock(lock);
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}
void hal_cmu_i2s_clock_enable(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
volatile uint32_t *reg;
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if (id == HAL_I2S_ID_0) {
val = AON_CMU_EN_CLK_PLL_I2S0;
reg = &aoncmu->PCM_I2S_CLK;
} else {
val = AON_CMU_EN_CLK_PLL_I2S1;
reg = &aoncmu->SPDIF_CLK;
}
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lock = int_lock();
*reg |= val;
int_unlock(lock);
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}
void hal_cmu_i2s_clock_disable(enum HAL_I2S_ID_T id) {
uint32_t lock;
uint32_t val;
volatile uint32_t *reg;
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if (id == HAL_I2S_ID_0) {
val = AON_CMU_EN_CLK_PLL_I2S0;
reg = &aoncmu->PCM_I2S_CLK;
} else {
val = AON_CMU_EN_CLK_PLL_I2S1;
reg = &aoncmu->SPDIF_CLK;
}
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lock = int_lock();
*reg &= ~val;
int_unlock(lock);
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}
int hal_cmu_i2s_set_div(enum HAL_I2S_ID_T id, uint32_t div) {
uint32_t lock;
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if (div < 2) {
return 1;
}
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div -= 2;
if ((div & (AON_CMU_CFG_DIV_I2S0_MASK >> AON_CMU_CFG_DIV_I2S0_SHIFT)) !=
div) {
return 1;
}
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lock = int_lock();
if (id == HAL_I2S_ID_0) {
aoncmu->PCM_I2S_CLK =
SET_BITFIELD(aoncmu->PCM_I2S_CLK, AON_CMU_CFG_DIV_I2S0, div);
} else {
aoncmu->SPDIF_CLK =
SET_BITFIELD(aoncmu->SPDIF_CLK, AON_CMU_CFG_DIV_I2S1, div);
}
int_unlock(lock);
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return 0;
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}
void hal_cmu_pcm_clock_out_enable(void) {
uint32_t lock;
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lock = int_lock();
cmu->I2C_CLK |= CMU_EN_CLK_PCM_OUT;
int_unlock(lock);
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}
void hal_cmu_pcm_clock_out_disable(void) {
uint32_t lock;
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lock = int_lock();
cmu->I2C_CLK &= ~CMU_EN_CLK_PCM_OUT;
int_unlock(lock);
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}
void hal_cmu_pcm_set_slave_mode(int clk_pol) {
uint32_t lock;
uint32_t mask;
uint32_t cfg;
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mask = CMU_SEL_PCM_CLKIN | CMU_POL_CLK_PCM_IN;
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if (clk_pol) {
cfg = CMU_SEL_PCM_CLKIN | CMU_POL_CLK_PCM_IN;
} else {
cfg = CMU_SEL_PCM_CLKIN;
}
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lock = int_lock();
cmu->I2C_CLK = (cmu->I2C_CLK & ~mask) | cfg;
int_unlock(lock);
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}
void hal_cmu_pcm_set_master_mode(void) {
uint32_t lock;
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lock = int_lock();
cmu->I2C_CLK &= ~CMU_SEL_PCM_CLKIN;
int_unlock(lock);
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}
void hal_cmu_pcm_clock_enable(void) {
uint32_t lock;
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lock = int_lock();
aoncmu->PCM_I2S_CLK |= AON_CMU_EN_CLK_PLL_PCM;
int_unlock(lock);
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}
void hal_cmu_pcm_clock_disable(void) {
uint32_t lock;
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lock = int_lock();
aoncmu->PCM_I2S_CLK &= ~AON_CMU_EN_CLK_PLL_PCM;
int_unlock(lock);
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}
int hal_cmu_pcm_set_div(uint32_t div) {
uint32_t lock;
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if (div < 2) {
return 1;
}
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div -= 2;
if ((div & (AON_CMU_CFG_DIV_PCM_MASK >> AON_CMU_CFG_DIV_PCM_SHIFT)) != div) {
return 1;
}
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lock = int_lock();
aoncmu->PCM_I2S_CLK =
SET_BITFIELD(aoncmu->PCM_I2S_CLK, AON_CMU_CFG_DIV_PCM, div);
int_unlock(lock);
return 0;
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}
int hal_cmu_spdif_clock_enable(enum HAL_SPDIF_ID_T id) {
uint32_t lock;
uint32_t mask;
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if (id >= HAL_SPDIF_ID_QTY) {
return 1;
}
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mask = AON_CMU_EN_CLK_PLL_SPDIF0;
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lock = int_lock();
aoncmu->SPDIF_CLK |= mask;
int_unlock(lock);
return 0;
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}
int hal_cmu_spdif_clock_disable(enum HAL_SPDIF_ID_T id) {
uint32_t lock;
uint32_t mask;
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if (id >= HAL_SPDIF_ID_QTY) {
return 1;
}
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mask = AON_CMU_EN_CLK_PLL_SPDIF0;
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lock = int_lock();
aoncmu->SPDIF_CLK &= ~mask;
int_unlock(lock);
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return 0;
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}
int hal_cmu_spdif_set_div(enum HAL_SPDIF_ID_T id, uint32_t div) {
uint32_t lock;
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if (id >= HAL_SPDIF_ID_QTY) {
return 1;
}
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if (div < 2) {
return 2;
}
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div -= 2;
if ((div & (AON_CMU_CFG_DIV_SPDIF0_MASK >> AON_CMU_CFG_DIV_SPDIF0_SHIFT)) !=
div) {
return 2;
}
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lock = int_lock();
aoncmu->SPDIF_CLK =
SET_BITFIELD(aoncmu->SPDIF_CLK, AON_CMU_CFG_DIV_SPDIF0, div);
int_unlock(lock);
return 0;
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}
#ifdef CHIP_HAS_USB
void hal_cmu_usb_set_device_mode(void) {
uint32_t lock;
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lock = int_lock();
cmu->SYS_DIV |= CMU_USB_ID;
int_unlock(lock);
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}
void hal_cmu_usb_set_host_mode(void) {
uint32_t lock;
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lock = int_lock();
cmu->SYS_DIV &= ~CMU_USB_ID;
int_unlock(lock);
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}
#ifdef ROM_BUILD
void hal_cmu_usb_rom_set_clock_source(enum HAL_CMU_USB_CLOCK_SEL_T sel) {
usb_clk_sel = sel;
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}
#endif
static uint32_t hal_cmu_usb_get_clock_source(void) {
uint32_t src;
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#if defined(USB_CLK_SRC_26M_X4) || defined(USB_CLK_SRC_26M_X2) || \
defined(USB_CLK_SRC_24M_X2) || defined(USB_CLK_SRC_48M)
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#ifdef USB_HIGH_SPEED
#error "USB HIGH-SPEED must use PLL"
#endif
#if defined(USB_CLK_SRC_26M_X4) && !defined(ANA_26M_X4_ENABLE)
#error "USB_CLK_SRC_26M_X4 must use ANA_26M_X4_ENABLE"
#endif
#endif
#ifdef ROM_BUILD
#ifdef USB_USE_USBPLL
src = CMU_USB_CLK_SRC_PLL_60M;
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#else
if (usb_clk_sel == HAL_CMU_USB_CLOCK_SEL_24M_X2) {
src = CMU_USB_CLK_SRC_OSC_24M_X2;
} else if (usb_clk_sel == HAL_CMU_USB_CLOCK_SEL_48M) {
src = CMU_USB_CLK_SRC_OSC_48M;
} else if (usb_clk_sel == HAL_CMU_USB_CLOCK_SEL_26M_X2) {
src = CMU_USB_CLK_SRC_OSC_26M_X2;
} else if (usb_clk_sel == HAL_CMU_USB_CLOCK_SEL_26M_X4) {
src = CMU_USB_CLK_SRC_OSC_26M_X4;
} else {
src = CMU_USB_CLK_SRC_PLL_48M;
}
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#endif
#else // !ROM_BUILD
#ifdef USB_USE_USBPLL
src = CMU_USB_CLK_SRC_PLL_60M;
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#else
#ifdef USB_CLK_SRC_24M_X2
src = CMU_USB_CLK_SRC_OSC_24M_X2;
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#elif defined(USB_CLK_SRC_48M)
src = CMU_USB_CLK_SRC_OSC_48M;
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#elif defined(USB_CLK_SRC_26M_X4)
src = CMU_USB_CLK_SRC_OSC_26M_X4;
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#elif defined(USB_CLK_SRC_26M_X2)
src = CMU_USB_CLK_SRC_OSC_26M_X2;
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#else
src = CMU_USB_CLK_SRC_PLL_48M;
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#endif
#endif
#endif // !ROM_BUILD
return src;
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}
void hal_cmu_usb_clock_enable(void) {
enum HAL_CMU_PLL_T pll;
uint32_t lock;
uint32_t src;
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pll = HAL_CMU_PLL_USB;
src = hal_cmu_usb_get_clock_source();
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if (src == CMU_USB_CLK_SRC_PLL_60M || src == CMU_USB_CLK_SRC_PLL_60M_ALT ||
src == CMU_USB_CLK_SRC_PLL_48M) {
hal_cmu_pll_enable(pll, HAL_CMU_PLL_USER_USB);
}
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lock = int_lock();
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#ifdef USB_CLK_SRC_26M_X4
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_USB;
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#endif
cmu->SYS_DIV = SET_BITFIELD(cmu->SYS_DIV, CMU_SEL_USB_SRC, src);
int_unlock(lock);
hal_cmu_clock_enable(HAL_CMU_MOD_H_USBC);
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#ifdef USB_HIGH_SPEED
hal_cmu_clock_enable(HAL_CMU_MOD_H_USBH);
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#endif
hal_cmu_clock_enable(HAL_CMU_MOD_O_USB32K);
hal_cmu_clock_enable(HAL_CMU_MOD_O_USB);
hal_cmu_reset_set(HAL_CMU_MOD_O_USB);
hal_cmu_reset_set(HAL_CMU_MOD_O_USB32K);
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#ifdef USB_HIGH_SPEED
hal_cmu_reset_set(HAL_CMU_MOD_H_USBH);
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#endif
hal_cmu_reset_set(HAL_CMU_MOD_H_USBC);
hal_sys_timer_delay(US_TO_TICKS(60));
hal_cmu_reset_clear(HAL_CMU_MOD_H_USBC);
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#ifdef USB_HIGH_SPEED
hal_cmu_reset_clear(HAL_CMU_MOD_H_USBH);
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#endif
hal_cmu_reset_clear(HAL_CMU_MOD_O_USB32K);
hal_cmu_reset_clear(HAL_CMU_MOD_O_USB);
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}
void hal_cmu_usb_clock_disable(void) {
enum HAL_CMU_PLL_T pll;
uint32_t src;
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pll = HAL_CMU_PLL_USB;
src = hal_cmu_usb_get_clock_source();
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hal_cmu_reset_set(HAL_CMU_MOD_O_USB);
hal_cmu_reset_set(HAL_CMU_MOD_O_USB32K);
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#ifdef USB_HIGH_SPEED
hal_cmu_reset_set(HAL_CMU_MOD_H_USBH);
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#endif
hal_cmu_reset_set(HAL_CMU_MOD_H_USBC);
hal_cmu_clock_disable(HAL_CMU_MOD_O_USB);
hal_cmu_clock_disable(HAL_CMU_MOD_O_USB32K);
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#ifdef USB_HIGH_SPEED
hal_cmu_clock_disable(HAL_CMU_MOD_H_USBH);
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#endif
hal_cmu_clock_disable(HAL_CMU_MOD_H_USBC);
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if (src == CMU_USB_CLK_SRC_PLL_60M || src == CMU_USB_CLK_SRC_PLL_60M_ALT ||
src == CMU_USB_CLK_SRC_PLL_48M) {
hal_cmu_pll_disable(pll, HAL_CMU_PLL_USER_USB);
}
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}
#endif
void BOOT_TEXT_FLASH_LOC hal_cmu_apb_init_div(void) {
// Divider defaults to 2 (reg_val = div - 2)
// cmu->SYS_DIV = SET_BITFIELD(cmu->SYS_DIV, CMU_CFG_DIV_PCLK, 0);
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}
int hal_cmu_periph_set_div(uint32_t div) {
uint32_t lock;
int ret = 0;
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if (div == 0 ||
div > ((AON_CMU_CFG_DIV_PER_MASK >> AON_CMU_CFG_DIV_PER_SHIFT) + 2)) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_PLL_PER_DISABLE;
if (div > ((AON_CMU_CFG_DIV_PER_MASK >> AON_CMU_CFG_DIV_PER_SHIFT) + 2)) {
ret = 1;
}
} else {
lock = int_lock();
if (div == 1) {
aoncmu->CLK_SELECT |= AON_CMU_BYPASS_DIV_PER;
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} else {
div -= 2;
aoncmu->CLK_SELECT = (aoncmu->CLK_SELECT & ~(AON_CMU_CFG_DIV_PER_MASK |
AON_CMU_BYPASS_DIV_PER)) |
AON_CMU_CFG_DIV_PER(div);
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}
int_unlock(lock);
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_PLL_PER_ENABLE;
}
return ret;
}
#define PERPH_SET_DIV_FUNC(f, F, r) \
int hal_cmu_##f##_set_div(uint32_t div) { \
uint32_t lock; \
int ret = 0; \
lock = int_lock(); \
if (div < 2 || \
div > ((CMU_CFG_DIV_##F##_MASK >> CMU_CFG_DIV_##F##_SHIFT) + 2)) { \
cmu->r &= ~(CMU_SEL_OSCX2_##F | CMU_SEL_PLL_##F | CMU_EN_PLL_##F); \
ret = 1; \
} else { \
div -= 2; \
cmu->r = (cmu->r & ~(CMU_CFG_DIV_##F##_MASK)) | CMU_SEL_OSCX2_##F | \
CMU_SEL_PLL_##F | CMU_CFG_DIV_##F(div); \
cmu->r |= CMU_EN_PLL_##F; \
} \
int_unlock(lock); \
return ret; \
}
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PERPH_SET_DIV_FUNC(uart0, UART0, UART_CLK);
PERPH_SET_DIV_FUNC(uart1, UART1, UART_CLK);
PERPH_SET_DIV_FUNC(uart2, UART2, UART_CLK);
PERPH_SET_DIV_FUNC(spi, SPI1, SYS_DIV);
PERPH_SET_DIV_FUNC(slcd, SPI0, SYS_DIV);
PERPH_SET_DIV_FUNC(i2c, I2C, I2C_CLK);
#define PERPH_SET_FREQ_FUNC(f, F, r) \
int hal_cmu_##f##_set_freq(enum HAL_CMU_PERIPH_FREQ_T freq) { \
uint32_t lock; \
int ret = 0; \
lock = int_lock(); \
if (freq == HAL_CMU_PERIPH_FREQ_26M) { \
cmu->r &= ~(CMU_SEL_OSCX2_##F | CMU_SEL_PLL_##F | CMU_EN_PLL_##F); \
} else if (freq == HAL_CMU_PERIPH_FREQ_52M) { \
cmu->r = \
(cmu->r & ~(CMU_SEL_PLL_##F | CMU_EN_PLL_##F)) | CMU_SEL_OSCX2_##F; \
} else { \
ret = 1; \
} \
int_unlock(lock); \
return ret; \
}
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PERPH_SET_FREQ_FUNC(uart0, UART0, UART_CLK);
PERPH_SET_FREQ_FUNC(uart1, UART1, UART_CLK);
PERPH_SET_FREQ_FUNC(uart2, UART2, UART_CLK);
PERPH_SET_FREQ_FUNC(spi, SPI1, SYS_DIV);
PERPH_SET_FREQ_FUNC(slcd, SPI0, SYS_DIV);
PERPH_SET_FREQ_FUNC(i2c, I2C, I2C_CLK);
int hal_cmu_ispi_set_freq(enum HAL_CMU_PERIPH_FREQ_T freq) {
uint32_t lock;
int ret = 0;
lock = int_lock();
if (freq == HAL_CMU_PERIPH_FREQ_26M) {
cmu->SYS_DIV &= ~CMU_SEL_OSCX2_SPI2;
} else if (freq == HAL_CMU_PERIPH_FREQ_52M) {
cmu->SYS_DIV |= CMU_SEL_OSCX2_SPI2;
} else {
ret = 1;
}
int_unlock(lock);
return ret;
}
int hal_cmu_clock_out_enable(enum HAL_CMU_CLOCK_OUT_ID_T id) {
uint32_t lock;
uint32_t sel;
uint32_t cfg;
enum CMU_CLK_OUT_SEL_T {
CMU_CLK_OUT_SEL_AON = 0,
CMU_CLK_OUT_SEL_CODEC = 1,
CMU_CLK_OUT_SEL_BT = 2,
CMU_CLK_OUT_SEL_MCU = 3,
CMU_CLK_OUT_SEL_QTY
};
sel = CMU_CLK_OUT_SEL_QTY;
cfg = 0;
if (id <= HAL_CMU_CLOCK_OUT_AON_SYS) {
sel = CMU_CLK_OUT_SEL_AON;
cfg = id - HAL_CMU_CLOCK_OUT_AON_32K;
} else if (HAL_CMU_CLOCK_OUT_MCU_32K <= id &&
id <= HAL_CMU_CLOCK_OUT_MCU_SPI1) {
sel = CMU_CLK_OUT_SEL_MCU;
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lock = int_lock();
cmu->PERIPH_CLK = SET_BITFIELD(cmu->PERIPH_CLK, CMU_CFG_CLK_OUT,
id - HAL_CMU_CLOCK_OUT_MCU_32K);
int_unlock(lock);
} else if (HAL_CMU_CLOCK_OUT_CODEC_ADC_ANA <= id &&
id <= HAL_CMU_CLOCK_OUT_CODEC_HCLK) {
sel = CMU_CLK_OUT_SEL_CODEC;
hal_codec_select_clock_out(id - HAL_CMU_CLOCK_OUT_CODEC_ADC_ANA);
} else if (HAL_CMU_CLOCK_OUT_BT_32K <= id && id <= HAL_CMU_CLOCK_OUT_BT_26M) {
sel = CMU_CLK_OUT_SEL_BT;
btcmu->CLK_OUT = SET_BITFIELD(btcmu->CLK_OUT, BT_CMU_CFG_CLK_OUT,
id - HAL_CMU_CLOCK_OUT_BT_32K);
}
if (sel < CMU_CLK_OUT_SEL_QTY) {
lock = int_lock();
aoncmu->CLK_OUT = (aoncmu->CLK_OUT &
~(AON_CMU_SEL_CLK_OUT_MASK | AON_CMU_CFG_CLK_OUT_MASK)) |
AON_CMU_SEL_CLK_OUT(sel) | AON_CMU_CFG_CLK_OUT(cfg) |
AON_CMU_EN_CLK_OUT;
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int_unlock(lock);
return 0;
}
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return 1;
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}
void hal_cmu_clock_out_disable(void) {
uint32_t lock;
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lock = int_lock();
aoncmu->CLK_OUT &= ~AON_CMU_EN_CLK_OUT;
int_unlock(lock);
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}
int hal_cmu_i2s_mclk_enable(enum HAL_CMU_I2S_MCLK_ID_T id) {
uint32_t lock;
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lock = int_lock();
aoncmu->PCM_I2S_CLK =
SET_BITFIELD(aoncmu->PCM_I2S_CLK, AON_CMU_SEL_I2S_MCLK, id) |
AON_CMU_EN_I2S_MCLK;
int_unlock(lock);
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return 0;
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}
void hal_cmu_i2s_mclk_disable(void) {
uint32_t lock;
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lock = int_lock();
aoncmu->PCM_I2S_CLK &= ~AON_CMU_EN_I2S_MCLK;
int_unlock(lock);
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}
int hal_cmu_pwm_set_freq(enum HAL_PWM_ID_T id, uint32_t freq) {
uint32_t lock;
int clk_32k;
uint32_t div;
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if (id >= HAL_PWM_ID_QTY) {
return 1;
}
if (freq == 0) {
clk_32k = 1;
div = 0;
} else {
clk_32k = 0;
div = hal_cmu_get_crystal_freq() / freq;
if (div < 2) {
return 1;
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}
div -= 2;
if ((div & (AON_CMU_CFG_DIV_PWM0_MASK >> AON_CMU_CFG_DIV_PWM0_SHIFT)) !=
div) {
return 1;
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}
}
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lock = int_lock();
if (id == HAL_PWM_ID_0) {
aoncmu->PWM01_CLK =
(aoncmu->PWM01_CLK & ~(AON_CMU_CFG_DIV_PWM0_MASK |
AON_CMU_SEL_OSC_PWM0 | AON_CMU_EN_OSC_PWM0)) |
AON_CMU_CFG_DIV_PWM0(div) |
(clk_32k ? 0 : (AON_CMU_SEL_OSC_PWM0 | AON_CMU_EN_OSC_PWM0));
} else if (id == HAL_PWM_ID_1) {
aoncmu->PWM01_CLK =
(aoncmu->PWM01_CLK & ~(AON_CMU_CFG_DIV_PWM1_MASK |
AON_CMU_SEL_OSC_PWM1 | AON_CMU_EN_OSC_PWM1)) |
AON_CMU_CFG_DIV_PWM1(div) |
(clk_32k ? 0 : (AON_CMU_SEL_OSC_PWM1 | AON_CMU_EN_OSC_PWM1));
} else if (id == HAL_PWM_ID_2) {
aoncmu->PWM23_CLK =
(aoncmu->PWM23_CLK & ~(AON_CMU_CFG_DIV_PWM2_MASK |
AON_CMU_SEL_OSC_PWM2 | AON_CMU_EN_OSC_PWM2)) |
AON_CMU_CFG_DIV_PWM2(div) |
(clk_32k ? 0 : (AON_CMU_SEL_OSC_PWM2 | AON_CMU_EN_OSC_PWM2));
} else {
aoncmu->PWM23_CLK =
(aoncmu->PWM23_CLK & ~(AON_CMU_CFG_DIV_PWM3_MASK |
AON_CMU_SEL_OSC_PWM3 | AON_CMU_EN_OSC_PWM3)) |
AON_CMU_CFG_DIV_PWM3(div) |
(clk_32k ? 0 : (AON_CMU_SEL_OSC_PWM3 | AON_CMU_EN_OSC_PWM3));
}
int_unlock(lock);
return 0;
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}
void hal_cmu_jtag_enable(void) {
uint32_t lock;
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lock = int_lock();
cmu->MCU_TIMER &= ~(CMU_SECURE_BOOT_JTAG | CMU_SECURE_BOOT_I2C);
int_unlock(lock);
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}
void hal_cmu_jtag_disable(void) {
uint32_t lock;
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lock = int_lock();
cmu->MCU_TIMER |= (CMU_SECURE_BOOT_JTAG | CMU_SECURE_BOOT_I2C);
int_unlock(lock);
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}
void hal_cmu_jtag_clock_enable(void) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_JTAG_ENABLE;
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}
void hal_cmu_jtag_clock_disable(void) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_JTAG_DISABLE;
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}
void hal_cmu_rom_clock_init(void) {
aoncmu->CODEC_DIV = (aoncmu->CODEC_DIV & ~AON_CMU_SEL_CLK_OSCX2) |
AON_CMU_BYPASS_LOCK_PLLBB | AON_CMU_BYPASS_LOCK_PLLAUD |
AON_CMU_SEL_CLK_OSC;
// Enable PMU fast clock
aoncmu->CLK_OUT &= ~(AON_CMU_SEL_DCDC_PLL | AON_CMU_SEL_DCDC_OSCX2);
aoncmu->CLK_OUT |= AON_CMU_BYPASS_DIV_DCDC;
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_DCDC0_ENABLE;
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}
void hal_cmu_init_chip_feature(uint16_t feature) {
aoncmu->CHIP_FEATURE = feature | AON_CMU_EFUSE_LOCK;
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_osc_x2_enable(void) {
// Debug Select CMU REG F4
cmu->MCU_TIMER =
SET_BITFIELD(cmu->MCU_TIMER, CMU_DEBUG_REG_SEL, CMU_DEBUG_REG_SEL_DEBUG);
// Enable OSCX2 for MCU peripheral
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_OSCX2_MCU_ENABLE;
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_osc_x4_enable(void) {
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#ifdef ANA_26M_X4_ENABLE
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_X4_ANA_ENABLE;
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#endif
#ifdef OSC_26M_X4_AUD2BB
aoncmu->CLK_SELECT |= AON_CMU_SEL_X4_SYS;
aoncmu->CLK_SELECT &= ~AON_CMU_SEL_X4_DIG;
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#endif
}
void BOOT_TEXT_FLASH_LOC hal_cmu_module_init_state(void) {
aoncmu->CODEC_DIV = (aoncmu->CODEC_DIV & ~AON_CMU_SEL_CLK_OSCX2) |
AON_CMU_BYPASS_LOCK_PLLBB | AON_CMU_BYPASS_LOCK_PLLAUD |
AON_CMU_SEL_CLK_OSC;
// Slow down PMU fast clock
aoncmu->CLK_OUT = (aoncmu->CLK_OUT &
~(AON_CMU_BYPASS_DIV_DCDC | AON_CMU_CFG_DIV_DCDC_MASK)) |
AON_CMU_CFG_DIV_DCDC(2);
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// DMA channel config
cmu->ADMA_CH0_4_REQ =
// codec
CMU_ADMA_CH0_REQ_IDX(0) | CMU_ADMA_CH1_REQ_IDX(1) |
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#ifdef CODEC_DSD
// codec_dsd
CMU_ADMA_CH2_REQ_IDX(16) | CMU_ADMA_CH3_REQ_IDX(17) |
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#else
// btpcm
CMU_ADMA_CH2_REQ_IDX(2) | CMU_ADMA_CH3_REQ_IDX(3) |
#endif
// i2s0
CMU_ADMA_CH4_REQ_IDX(4);
cmu->ADMA_CH5_9_REQ =
// i2s0
CMU_ADMA_CH5_REQ_IDX(5) |
// fir
CMU_ADMA_CH6_REQ_IDX(6) | CMU_ADMA_CH7_REQ_IDX(7) |
// spdif
CMU_ADMA_CH8_REQ_IDX(8) | CMU_ADMA_CH9_REQ_IDX(9);
cmu->ADMA_CH10_14_REQ =
// iir
CMU_ADMA_CH10_REQ_IDX(10) | CMU_ADMA_CH11_REQ_IDX(11) |
// btdump
CMU_ADMA_CH12_REQ_IDX(12) |
// mc
CMU_ADMA_CH13_REQ_IDX(13) |
// i2s1
CMU_ADMA_CH14_REQ_IDX(18);
cmu->ADMA_CH15_REQ =
// i2s1
CMU_ADMA_CH15_REQ_IDX(19);
cmu->GDMA_CH0_4_REQ =
// flash
CMU_GDMA_CH0_REQ_IDX(20) |
// sdmmc
CMU_GDMA_CH1_REQ_IDX(21) |
// i2c0
CMU_GDMA_CH2_REQ_IDX(22) | CMU_GDMA_CH3_REQ_IDX(23) |
// spi
CMU_GDMA_CH4_REQ_IDX(24);
cmu->GDMA_CH5_9_REQ =
// spi
CMU_GDMA_CH5_REQ_IDX(25) |
// spilcd
CMU_GDMA_CH6_REQ_IDX(26) | CMU_GDMA_CH7_REQ_IDX(27) |
// uart0
CMU_GDMA_CH8_REQ_IDX(28) | CMU_GDMA_CH9_REQ_IDX(29);
cmu->GDMA_CH10_14_REQ =
// uart1
CMU_GDMA_CH10_REQ_IDX(30) | CMU_GDMA_CH11_REQ_IDX(31) |
// i2c1
CMU_GDMA_CH12_REQ_IDX(32) | CMU_GDMA_CH13_REQ_IDX(33) |
// uart2
CMU_GDMA_CH14_REQ_IDX(34);
cmu->GDMA_CH15_REQ =
// uart2
CMU_GDMA_CH15_REQ_IDX(35);
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#ifndef SIMU
cmu->ORESET_SET = SYS_ORST_USB | SYS_ORST_SDMMC | SYS_ORST_WDT |
SYS_ORST_TIMER2 | SYS_ORST_I2C0 | SYS_ORST_I2C1 |
SYS_ORST_SPI | SYS_ORST_SLCD | SYS_ORST_SPI_PHY |
SYS_ORST_UART0 | SYS_ORST_UART1 | SYS_ORST_UART2 |
SYS_ORST_I2S0 | SYS_ORST_SPDIF0 | SYS_ORST_PCM |
SYS_ORST_USB32K | SYS_ORST_I2S1;
cmu->PRESET_SET = SYS_PRST_WDT | SYS_PRST_TIMER2 | SYS_PRST_I2C0 |
SYS_PRST_I2C1 | SYS_PRST_SPI | SYS_PRST_SLCD |
SYS_PRST_SPI_PHY | SYS_PRST_UART0 | SYS_PRST_UART1 |
SYS_PRST_UART2 | SYS_PRST_PCM | SYS_PRST_I2S0 |
SYS_PRST_SPDIF0 | SYS_PRST_I2S1 | SYS_PRST_BCM;
cmu->HRESET_SET = SYS_HRST_SDMMC | SYS_HRST_USBC | SYS_HRST_CODEC |
SYS_HRST_FFT | SYS_HRST_USBH | SYS_HRST_SENSOR_HUB |
SYS_HRST_BT_DUMP | SYS_HRST_CP | SYS_HRST_BCM |
SYS_HRST_ICACHE0;
cmu->OCLK_DISABLE = SYS_OCLK_USB | SYS_OCLK_SDMMC | SYS_OCLK_WDT |
SYS_OCLK_TIMER2 | SYS_OCLK_I2C0 | SYS_OCLK_I2C1 |
SYS_OCLK_SPI | SYS_OCLK_SLCD | SYS_OCLK_SPI_PHY |
SYS_OCLK_UART0 | SYS_OCLK_UART1 | SYS_OCLK_UART2 |
SYS_OCLK_I2S0 | SYS_OCLK_SPDIF0 | SYS_OCLK_PCM |
SYS_OCLK_USB32K | SYS_OCLK_I2S1;
cmu->PCLK_DISABLE = SYS_PCLK_WDT | SYS_PCLK_TIMER2 | SYS_PCLK_I2C0 |
SYS_PCLK_I2C1 | SYS_PCLK_SPI | SYS_PCLK_SLCD |
SYS_PCLK_SPI_PHY | SYS_PCLK_UART0 | SYS_PCLK_UART1 |
SYS_PCLK_UART2 | SYS_PCLK_PCM | SYS_PCLK_I2S0 |
SYS_PCLK_SPDIF0 | SYS_PCLK_I2S1 | SYS_PCLK_BCM;
cmu->HCLK_DISABLE = SYS_HCLK_SDMMC | SYS_HCLK_USBC | SYS_HCLK_CODEC |
SYS_HCLK_FFT | SYS_HCLK_USBH | SYS_HCLK_SENSOR_HUB |
SYS_HCLK_BT_DUMP | SYS_HCLK_CP | SYS_HCLK_BCM |
SYS_HCLK_ICACHE0;
aoncmu->TOP_CLK_DISABLE =
AON_CMU_EN_CLK_PLL_CODEC_DISABLE | AON_CMU_EN_CLK_CODEC_HCLK_DISABLE |
AON_CMU_EN_CLK_CODEC_DISABLE | AON_CMU_EN_CLK_CODEC_IIR_DISABLE |
AON_CMU_EN_CLK_PLL_BT_DISABLE | AON_CMU_EN_CLK_60M_BT_DISABLE |
AON_CMU_EN_CLK_OSCX2_BT_DISABLE | AON_CMU_EN_CLK_OSC_BT_DISABLE |
AON_CMU_EN_CLK_32K_BT_DISABLE | AON_CMU_EN_CLK_PLL_PER_DISABLE;
aoncmu->RESET_SET = AON_CMU_ARESETN_SET(AON_ARST_PWM) |
AON_CMU_ORESETN_SET(AON_ORST_PWM0 | AON_ORST_PWM1 |
AON_ORST_PWM2 | AON_ORST_PWM3) |
AON_CMU_SOFT_RSTN_CODEC_SET | AON_CMU_SOFT_RSTN_BT_SET |
AON_CMU_SOFT_RSTN_BTCPU_SET;
aoncmu->MOD_CLK_DISABLE =
AON_CMU_MANUAL_ACLK_DISABLE(AON_ACLK_PWM) |
AON_CMU_MANUAL_OCLK_DISABLE(AON_OCLK_PWM0 | AON_OCLK_PWM1 |
AON_OCLK_PWM2 | AON_OCLK_PWM3);
aoncmu->MOD_CLK_MODE &= ~AON_CMU_MODE_ACLK(
AON_ACLK_CMU | AON_ACLK_GPIO_INT | AON_ACLK_WDT | AON_ACLK_PWM |
AON_ACLK_TIMER | AON_ACLK_PSC | AON_ACLK_IOMUX);
cmu->PCLK_MODE &= ~(SYS_PCLK_CMU | SYS_PCLK_WDT | SYS_PCLK_TIMER0 |
SYS_PCLK_TIMER1 | SYS_PCLK_TIMER2);
// cmu->HCLK_MODE = 0;
// cmu->PCLK_MODE = SYS_PCLK_UART0 | SYS_PCLK_UART1 | SYS_PCLK_UART2;
// cmu->OCLK_MODE = 0;
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#endif
#ifdef CORE_SLEEP_POWER_DOWN
hal_cmu_set_wakeup_pc((uint32_t)hal_sleep_core_power_up);
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#endif
hal_psc_init();
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}
void BOOT_TEXT_FLASH_LOC hal_cmu_ema_init(void) {
// Never change EMA in best2300
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}
void hal_cmu_lpu_wait_26m_ready(void) {
while ((cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_26M) == 0)
;
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}
int hal_cmu_lpu_busy(void) {
if ((cmu->WAKEUP_CLK_CFG & CMU_LPU_AUTO_SWITCH26) &&
(cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_26M) == 0) {
return 1;
}
if ((cmu->WAKEUP_CLK_CFG & CMU_LPU_AUTO_SWITCHPLL) &&
(cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_PLL) == 0) {
return 1;
}
return 0;
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}
int BOOT_TEXT_FLASH_LOC hal_cmu_lpu_init(enum HAL_CMU_LPU_CLK_CFG_T cfg) {
uint32_t lpu_clk;
uint32_t timer_26m;
uint32_t timer_pll;
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timer_26m = LPU_TIMER_US(TICKS_TO_US(HAL_CMU_26M_READY_TIMEOUT));
timer_pll = LPU_TIMER_US(TICKS_TO_US(HAL_CMU_PLL_LOCKED_TIMEOUT));
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if (cfg >= HAL_CMU_LPU_CLK_QTY) {
return 1;
}
if ((timer_26m & (CMU_TIMER_WT26_MASK >> CMU_TIMER_WT26_SHIFT)) !=
timer_26m) {
return 2;
}
if ((timer_pll & (CMU_TIMER_WTPLL_MASK >> CMU_TIMER_WTPLL_SHIFT)) !=
timer_pll) {
return 3;
}
if (hal_cmu_lpu_busy()) {
return -1;
}
if (cfg == HAL_CMU_LPU_CLK_26M) {
lpu_clk = CMU_LPU_AUTO_SWITCH26;
} else if (cfg == HAL_CMU_LPU_CLK_PLL) {
lpu_clk = CMU_LPU_AUTO_SWITCHPLL | CMU_LPU_AUTO_SWITCH26;
} else {
lpu_clk = 0;
}
if (lpu_clk & CMU_LPU_AUTO_SWITCH26) {
// Disable RAM wakeup early
cmu->MCU_TIMER &= ~CMU_RAM_RETN_UP_EARLY;
// MCU/ROM/RAM auto clock gating (which depends on RAM gating signal)
cmu->HCLK_MODE &=
~(SYS_HCLK_MCU | SYS_HCLK_ROM0 | SYS_HCLK_ROM1 | SYS_HCLK_ROM2 |
SYS_HCLK_RAM0 | SYS_HCLK_RAM1 | SYS_HCLK_RAM2 | SYS_HCLK_RAMRET |
SYS_HCLK_RAM3 | SYS_HCLK_RAM4 | SYS_HCLK_RAM5 | SYS_HCLK_RAM6);
// AON_CMU enable auto switch 26M (AON_CMU must have selected 26M and
// disabled 52M/32K already)
aoncmu->CLK_SELECT |= AON_CMU_LPU_AUTO_SWITCH26;
} else {
// AON_CMU disable auto switch 26M
aoncmu->CLK_SELECT &= ~AON_CMU_LPU_AUTO_SWITCH26;
}
cmu->WAKEUP_CLK_CFG =
CMU_TIMER_WT26(timer_26m) | CMU_TIMER_WTPLL(0) | lpu_clk;
if (timer_pll) {
hal_sys_timer_delay(US_TO_TICKS(60));
cmu->WAKEUP_CLK_CFG =
CMU_TIMER_WT26(timer_26m) | CMU_TIMER_WTPLL(timer_pll) | lpu_clk;
}
return 0;
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}
#ifdef CORE_SLEEP_POWER_DOWN
static int SRAM_TEXT_LOC hal_cmu_lpu_sleep_pd(void) {
uint32_t start;
uint32_t timeout;
uint32_t saved_hclk;
uint32_t saved_oclk;
uint32_t saved_top_clk;
uint32_t saved_clk_cfg;
uint32_t saved_periph_clk;
uint32_t saved_sys_div;
uint32_t saved_uart_clk;
uint32_t saved_codec_div;
uint32_t pll_locked;
uint32_t saved_cpu_regs[50];
register uint32_t sp asm("sp");
uint32_t stack_limit;
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#ifdef ROM_BUILD
extern uint32_t __rom_StackLimit[];
stack_limit = (uint32_t)__rom_StackLimit;
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#else
extern uint32_t __StackLimit[];
stack_limit = (uint32_t)__StackLimit;
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#endif
if (sp < stack_limit + 20 * 4) {
do {
asm volatile("nop; nop; nop; nop");
} while (1);
}
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NVIC_PowerDownSleep(saved_cpu_regs, ARRAY_SIZE(saved_cpu_regs));
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saved_hclk = cmu->HCLK_ENABLE;
saved_oclk = cmu->OCLK_ENABLE;
saved_periph_clk = cmu->PERIPH_CLK;
saved_sys_div = cmu->SYS_DIV;
saved_uart_clk = cmu->UART_CLK;
saved_codec_div = aoncmu->CODEC_DIV;
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saved_top_clk = aoncmu->TOP_CLK_ENABLE;
saved_clk_cfg = cmu->SYS_CLK_ENABLE;
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// Switch VAD clock to AON and disable codec HCLK
aoncmu->CODEC_DIV |= AON_CMU_SEL_CODEC_HCLK_AON;
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_CODEC_HCLK_DISABLE;
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// Disable memory/flash clock
cmu->OCLK_DISABLE = SYS_OCLK_FLASH;
cmu->HCLK_DISABLE = SYS_HCLK_FLASH;
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#ifndef ROM_BUILD
// Reset pll div if pll is enabled
if (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE) {
pmu_pll_div_reset_set(HAL_CMU_PLL_AUD);
}
if (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE) {
pmu_pll_div_reset_set(HAL_CMU_PLL_USB);
}
#endif
// Switch system freq to 26M
cmu->SYS_CLK_ENABLE = CMU_SEL_OSC_SYS_ENABLE;
cmu->SYS_CLK_DISABLE = CMU_SEL_OSCX2_SYS_DISABLE | CMU_SEL_PLL_SYS_DISABLE;
cmu->SYS_CLK_DISABLE = CMU_RSTN_DIV_SYS_DISABLE;
// Shutdown PLLs
if (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLAUD_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLAUD_DISABLE;
}
if (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLBB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLBB_DISABLE;
}
if (saved_top_clk & AON_CMU_PU_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLUSB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLUSB_DISABLE;
}
// Set power down wakeup bootmode
aoncmu->BOOTMODE = (aoncmu->BOOTMODE | HAL_SW_BOOTMODE_POWER_DOWN_WAKEUP) &
HAL_SW_BOOTMODE_MASK;
// Set AON_CMU clock to 32K
aoncmu->CODEC_DIV &= ~(AON_CMU_SEL_CLK_OSC | AON_CMU_SEL_CLK_OSCX2);
hal_sleep_core_power_down();
while ((cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_26M) == 0)
;
// Restore AON_CMU clock
aoncmu->CODEC_DIV = saved_codec_div;
// Clear power down wakeup bootmode
aoncmu->BOOTMODE = (aoncmu->BOOTMODE & ~HAL_SW_BOOTMODE_POWER_DOWN_WAKEUP) &
HAL_SW_BOOTMODE_MASK;
// Disable memory/flash clock
cmu->OCLK_DISABLE = SYS_OCLK_FLASH;
cmu->HCLK_DISABLE = SYS_HCLK_FLASH;
// Restore PLLs
if (saved_top_clk & (AON_CMU_PU_PLLAUD_ENABLE | AON_CMU_PU_PLLUSB_ENABLE |
AON_CMU_PU_PLLBB_ENABLE)) {
pll_locked = 0;
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if (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLAUD_ENABLE;
pll_locked |= AON_CMU_LOCK_PLLAUD;
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}
if (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLBB_ENABLE;
pll_locked |= AON_CMU_LOCK_PLLBB;
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}
if (saved_top_clk & AON_CMU_PU_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLUSB_ENABLE;
pll_locked |= AON_CMU_LOCK_PLLUSB;
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}
#ifndef ROM_BUILD
hal_sys_timer_delay_us(10);
// Clear pll div reset if pll is enabled
if (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_AUD);
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}
if (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_USB);
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}
#endif
start = hal_sys_timer_get();
timeout = HAL_CMU_PLL_LOCKED_TIMEOUT;
while ( //(aoncmu->CODEC_DIV & pll_locked) != pll_locked &&
(hal_sys_timer_get() - start) < timeout)
;
if (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE;
}
if (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLBB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLBB_ENABLE;
}
if (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE;
}
}
// Restore system freq
cmu->SYS_CLK_ENABLE =
saved_clk_cfg & (CMU_RSTN_DIV_FLS_ENABLE | CMU_RSTN_DIV_SYS_ENABLE);
cmu->SYS_CLK_ENABLE = saved_clk_cfg;
// The original system freq are at least 26M
// cmu->SYS_CLK_DISABLE = ~saved_clk_cfg;
cmu->PERIPH_CLK = saved_periph_clk;
cmu->SYS_DIV = saved_sys_div;
cmu->UART_CLK = saved_uart_clk;
// Switch VAD clock to MCU and enable codec HCLK if it is on before entering
// sleep
// aoncmu->CODEC_DIV &= ~AON_CMU_SEL_CODEC_HCLK_AON;
aoncmu->TOP_CLK_ENABLE = saved_top_clk & AON_CMU_EN_CLK_CODEC_HCLK_ENABLE;
int_lock();
NVIC_PowerDownWakeup(saved_cpu_regs, ARRAY_SIZE(saved_cpu_regs));
// TODO:
// 1) Restore hardware modules, e.g., timer, cache, flash, psram, dma, usb,
// uart, spi, i2c, sdmmc, codec 2) Recover system timer in rt_suspend() and
// rt_resume() 3) Dynamically select 32K sleep or power down sleep
if (saved_oclk & SYS_OCLK_FLASH) {
// Enable memory/flash clock
cmu->HCLK_ENABLE = saved_hclk;
cmu->OCLK_ENABLE = saved_oclk;
// Wait until memory/flash clock ready
hal_sys_timer_delay_us(2);
}
return 0;
}
#endif
__STATIC_FORCEINLINE void cpu_sleep(uint32_t wakeup_cfg) {
__DSB();
if (wakeup_cfg & (CMU_LPU_AUTO_SWITCHPLL | CMU_LPU_AUTO_SWITCH26)) {
// 1) Avoid race condition between LPU state machine entry and IRQ wakeup:
// wait 4 (at least 2) cycles of 32K clock, or 3248 cycles of 26M clock
// 2) Avoid race condition between CPU clock gating and RAM access when
// waiting:
// No consecutive RAM access is allowed (all instructions must be 16-bit
// and must have no data access)
asm volatile("wfi;"
"movs.n r0, #0x3;"
"lsls r0, #8;"
"adds.n r0, #0x2c;"
"1:;"
"nop;"
"nop;"
"subs r0, 1;"
"bne.n 1b;"
:
:
: "r0", "cc");
} else {
__WFI();
}
}
static int SRAM_TEXT_LOC
hal_cmu_lpu_sleep_normal(enum HAL_CMU_LPU_SLEEP_MODE_T mode) {
uint32_t start;
uint32_t timeout;
uint32_t saved_hclk;
uint32_t saved_oclk;
uint32_t saved_top_clk;
uint32_t saved_clk_cfg;
uint32_t saved_codec_div;
uint32_t wakeup_cfg;
bool pd_aud_pll;
bool pd_bb_pll;
bool wait_pll_locked;
pd_aud_pll = true;
pd_bb_pll = true;
saved_hclk = cmu->HCLK_ENABLE;
saved_oclk = cmu->OCLK_ENABLE;
saved_codec_div = aoncmu->CODEC_DIV;
saved_top_clk = aoncmu->TOP_CLK_ENABLE;
saved_clk_cfg = cmu->SYS_CLK_ENABLE;
if (mode == HAL_CMU_LPU_SLEEP_MODE_CHIP) {
wakeup_cfg = cmu->WAKEUP_CLK_CFG;
} else {
wakeup_cfg = 0;
if (pll_user_map[HAL_CMU_PLL_AUD] & (1 << HAL_CMU_PLL_USER_AUD)) {
pd_aud_pll = false;
}
if (pll_user_map[HAL_CMU_PLL_USB] & (1 << HAL_CMU_PLL_USER_AUD)) {
pd_bb_pll = false;
}
}
// Switch VAD clock to AON and disable codec HCLK
aoncmu->CODEC_DIV |= AON_CMU_SEL_CODEC_HCLK_AON;
if (mode == HAL_CMU_LPU_SLEEP_MODE_CHIP) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_CODEC_HCLK_DISABLE;
}
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// Disable memory/flash clock
cmu->OCLK_DISABLE = SYS_OCLK_FLASH;
cmu->HCLK_DISABLE = SYS_HCLK_FLASH;
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#ifndef ROM_BUILD
// Reset pll div if pll is enabled
if (pd_aud_pll && (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE)) {
pmu_pll_div_reset_set(HAL_CMU_PLL_AUD);
}
if (pd_bb_pll && (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE)) {
pmu_pll_div_reset_set(HAL_CMU_PLL_USB);
}
#endif
// Setup wakeup mask
cmu->WAKEUP_MASK0 = NVIC->ISER[0];
cmu->WAKEUP_MASK1 = NVIC->ISER[1];
if (wakeup_cfg & CMU_LPU_AUTO_SWITCHPLL) {
// Do nothing
// Hardware will switch system freq to 32K and shutdown PLLs automatically
} else {
// Switch system freq to 26M
cmu->SYS_CLK_ENABLE = CMU_SEL_OSC_SYS_ENABLE;
cmu->SYS_CLK_DISABLE = CMU_SEL_OSCX2_SYS_DISABLE | CMU_SEL_PLL_SYS_DISABLE;
cmu->SYS_CLK_DISABLE = CMU_RSTN_DIV_SYS_DISABLE;
// Shutdown PLLs
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if (pd_aud_pll && (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE)) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLAUD_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLAUD_DISABLE;
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}
if (pd_bb_pll && (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE)) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLBB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLBB_DISABLE;
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}
if (saved_top_clk & AON_CMU_PU_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_TOP_PLLUSB_DISABLE;
aoncmu->TOP_CLK_DISABLE = AON_CMU_PU_PLLUSB_DISABLE;
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}
if (wakeup_cfg & CMU_LPU_AUTO_SWITCH26) {
// Do nothing
// Hardware will switch system freq to 32K automatically
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} else {
// Manually switch AON_CMU clock to 32K
aoncmu->CODEC_DIV &= ~(AON_CMU_SEL_CLK_OSC | AON_CMU_SEL_CLK_OSCX2);
// Switch system freq to 32K
cmu->SYS_CLK_DISABLE = CMU_SEL_OSC_SYS_DISABLE;
}
}
if (wakeup_cfg & CMU_LPU_AUTO_SWITCH26) {
// Enable auto memory retention
cmu->SLEEP = (cmu->SLEEP & ~CMU_MANUAL_RAM_RETN) | CMU_DEEPSLEEP_EN |
CMU_DEEPSLEEP_ROMRAM_EN | CMU_DEEPSLEEP_START;
} else {
// Disable auto memory retention
cmu->SLEEP = (cmu->SLEEP & ~CMU_DEEPSLEEP_ROMRAM_EN) | CMU_DEEPSLEEP_EN |
CMU_MANUAL_RAM_RETN | CMU_DEEPSLEEP_START;
}
if (mode == HAL_CMU_LPU_SLEEP_MODE_CHIP) {
SCB->SCR = SCB_SCR_SLEEPDEEP_Msk;
} else {
SCB->SCR = 0;
}
cpu_sleep(wakeup_cfg);
if (wakeup_cfg & CMU_LPU_AUTO_SWITCHPLL) {
start = hal_sys_timer_get();
timeout = HAL_CMU_26M_READY_TIMEOUT + HAL_CMU_PLL_LOCKED_TIMEOUT +
HAL_CMU_LPU_EXTRA_TIMEOUT;
while ((cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_PLL) == 0 &&
(hal_sys_timer_get() - start) < timeout)
;
// !!! CAUTION !!!
// Hardware will switch system freq to PLL divider and enable PLLs
// automatically
#ifndef ROM_BUILD
hal_sys_timer_delay_us(10);
// Clear pll div reset if pll is enabled
if (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_AUD);
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}
if (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_USB);
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}
#endif
} else {
// Wait for 26M ready
if (wakeup_cfg & CMU_LPU_AUTO_SWITCH26) {
start = hal_sys_timer_get();
timeout = HAL_CMU_26M_READY_TIMEOUT + HAL_CMU_LPU_EXTRA_TIMEOUT;
while ((cmu->WAKEUP_CLK_CFG & CMU_LPU_STATUS_26M) == 0 &&
(hal_sys_timer_get() - start) < timeout)
;
// Hardware will switch system freq to 26M automatically
} else {
if (mode == HAL_CMU_LPU_SLEEP_MODE_CHIP) {
timeout = HAL_CMU_26M_READY_TIMEOUT;
hal_sys_timer_delay(timeout);
}
// Switch system freq to 26M
cmu->SYS_CLK_ENABLE = CMU_SEL_OSC_SYS_ENABLE;
// Restore AON_CMU clock
aoncmu->CODEC_DIV = saved_codec_div;
}
// System freq is 26M now and will be restored later
// Restore PLLs
if (saved_top_clk & (AON_CMU_PU_PLLAUD_ENABLE | AON_CMU_PU_PLLUSB_ENABLE |
AON_CMU_PU_PLLBB_ENABLE)) {
wait_pll_locked = false;
if (pd_aud_pll && (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE)) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLAUD_ENABLE;
wait_pll_locked = true;
}
if (pd_bb_pll && (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE)) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLBB_ENABLE;
wait_pll_locked = true;
}
if (saved_top_clk & AON_CMU_PU_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_PU_PLLUSB_ENABLE;
wait_pll_locked = true;
}
if (wait_pll_locked) {
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#ifndef ROM_BUILD
hal_sys_timer_delay_us(10);
// Clear pll div reset if pll is enabled
if (pd_aud_pll && (saved_top_clk & AON_CMU_PU_PLLAUD_ENABLE)) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_AUD);
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}
if (pd_bb_pll && (saved_top_clk & AON_CMU_PU_PLLBB_ENABLE)) {
pmu_pll_div_reset_clear(HAL_CMU_PLL_USB);
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}
#endif
start = hal_sys_timer_get();
timeout = HAL_CMU_PLL_LOCKED_TIMEOUT;
while ((hal_sys_timer_get() - start) < timeout)
;
}
if (pd_aud_pll && (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE)) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLAUD_ENABLE;
}
if (pd_bb_pll && (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLBB_ENABLE)) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLBB_ENABLE;
}
if (saved_top_clk & AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_TOP_PLLUSB_ENABLE;
}
}
}
// Restore system freq
cmu->SYS_CLK_ENABLE =
saved_clk_cfg & (CMU_RSTN_DIV_FLS_ENABLE | CMU_RSTN_DIV_SYS_ENABLE);
cmu->SYS_CLK_ENABLE = saved_clk_cfg;
// The original system freq are at least 26M
// cmu->SYS_CLK_DISABLE = ~saved_clk_cfg;
// Switch VAD clock to MCU and enable codec HCLK if it is on before entering
// sleep
aoncmu->CODEC_DIV &= ~AON_CMU_SEL_CODEC_HCLK_AON;
if (mode == HAL_CMU_LPU_SLEEP_MODE_CHIP) {
aoncmu->TOP_CLK_ENABLE = saved_top_clk & AON_CMU_EN_CLK_CODEC_HCLK_ENABLE;
}
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if (saved_oclk & SYS_OCLK_FLASH) {
// Enable memory/flash clock
cmu->HCLK_ENABLE = saved_hclk;
cmu->OCLK_ENABLE = saved_oclk;
// Wait until memory/flash clock ready
hal_sys_timer_delay_us(2);
}
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return 0;
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}
int SRAM_TEXT_LOC hal_cmu_lpu_sleep(enum HAL_CMU_LPU_SLEEP_MODE_T mode) {
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#ifdef CORE_SLEEP_POWER_DOWN
if (mode == HAL_CMU_LPU_SLEEP_MODE_POWER_DOWN) {
return hal_cmu_lpu_sleep_pd();
}
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#endif
return hal_cmu_lpu_sleep_normal(mode);
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}
volatile uint32_t *hal_cmu_get_bootmode_addr(void) { return &aoncmu->BOOTMODE; }
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SRAM_TEXT_LOC
volatile uint32_t *hal_cmu_get_memsc_addr(void) { return &aoncmu->MEMSC[0]; }
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void hal_cmu_bt_clock_enable(void) {
aoncmu->TOP_CLK_ENABLE = AON_CMU_EN_CLK_OSCX2_BT_ENABLE |
AON_CMU_EN_CLK_OSC_BT_ENABLE |
AON_CMU_EN_CLK_32K_BT_ENABLE;
aocmu_reg_update_wait();
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}
void hal_cmu_bt_clock_disable(void) {
aoncmu->TOP_CLK_DISABLE = AON_CMU_EN_CLK_OSCX2_BT_DISABLE |
AON_CMU_EN_CLK_OSC_BT_DISABLE |
AON_CMU_EN_CLK_32K_BT_DISABLE;
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}
void hal_cmu_bt_reset_set(void) {
aoncmu->RESET_SET = AON_CMU_SOFT_RSTN_BT_SET | AON_CMU_SOFT_RSTN_BTCPU_SET;
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}
void hal_cmu_bt_reset_clear(void) {
aoncmu->RESET_CLR = AON_CMU_SOFT_RSTN_BT_CLR | AON_CMU_SOFT_RSTN_BTCPU_CLR;
aocmu_reg_update_wait();
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}
void hal_cmu_bt_module_init(void) {
// btcmu->CLK_MODE = 0;
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}
uint32_t hal_cmu_get_aon_chip_id(void) { return aoncmu->CHIP_ID; }
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uint32_t hal_cmu_get_aon_revision_id(void) {
return GET_BITFIELD(aoncmu->CHIP_ID, AON_CMU_REVISION_ID);
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}
void hal_cmu_cp_enable(uint32_t sp, uint32_t entry) {
cp_cfg->stack = sp;
cp_cfg->reset_hdlr = (uint32_t)system_cp_reset_handler;
cp_cfg->entry = entry;
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hal_cmu_clock_enable(HAL_CMU_MOD_H_CP);
hal_cmu_reset_clear(HAL_CMU_MOD_H_CP);
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}
void hal_cmu_cp_disable(void) {
hal_cmu_reset_set(HAL_CMU_MOD_H_CP);
hal_cmu_clock_disable(HAL_CMU_MOD_H_CP);
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}
uint32_t hal_cmu_cp_get_entry_addr(void) { return cp_cfg->entry; }