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/*
* Copyright (c) 2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h>
#include <stdbool.h>
#include <arch.h>
#include <lib/mmio.h>
#include <imx_regs.h>
#include <imx_clock.h>
void imx_clock_target_set(unsigned int id, uint32_t val)
{
struct ccm *ccm = ((struct ccm *)CCM_BASE);
uintptr_t addr;
if (id > CCM_ROOT_CTRL_NUM)
return;
addr = (uintptr_t)&ccm->ccm_root_ctrl[id].ccm_target_root;
mmio_write_32(addr, val);
}
void imx_clock_target_clr(unsigned int id, uint32_t val)
{
struct ccm *ccm = ((struct ccm *)CCM_BASE);
uintptr_t addr;
if (id > CCM_ROOT_CTRL_NUM)
return;
addr = (uintptr_t)&ccm->ccm_root_ctrl[id].ccm_target_root_clr;
mmio_write_32(addr, val);
}
void imx_clock_gate_enable(unsigned int id, bool enable)
{
struct ccm *ccm = ((struct ccm *)CCM_BASE);
uintptr_t addr;
if (id > CCM_CLK_GATE_CTRL_NUM)
return;
/* TODO: add support for more than DOMAIN0 clocks */
if (enable)
addr = (uintptr_t)&ccm->ccm_clk_gate_ctrl[id].ccm_ccgr_set;
else
addr = (uintptr_t)&ccm->ccm_clk_gate_ctrl[id].ccm_ccgr_clr;
mmio_write_32(addr, CCM_CCGR_SETTING0_DOM_CLK_ALWAYS);
}
void imx_clock_enable_uart(unsigned int uart_id, uint32_t uart_clk_en_bits)
{
unsigned int ccm_trgt_id = CCM_TRT_ID_UART1_CLK_ROOT + uart_id;
unsigned int ccm_ccgr_id = CCM_CCGR_ID_UART1 + uart_id;
/* Check for error */
if (uart_id > MXC_MAX_UART_NUM)
return;
/* Set target register values */
imx_clock_target_set(ccm_trgt_id, uart_clk_en_bits);
/* Enable the clock gate */
imx_clock_gate_enable(ccm_ccgr_id, true);
}
void imx_clock_disable_uart(unsigned int uart_id)
{
unsigned int ccm_trgt_id = CCM_TRT_ID_UART1_CLK_ROOT + uart_id;
unsigned int ccm_ccgr_id = CCM_CCGR_ID_UART1 + uart_id;
/* Check for error */
if (uart_id > MXC_MAX_UART_NUM)
return;
/* Disable the clock gate */
imx_clock_gate_enable(ccm_ccgr_id, false);
/* Clear the target */
imx_clock_target_clr(ccm_trgt_id, 0xFFFFFFFF);
}
void imx_clock_enable_usdhc(unsigned int usdhc_id, uint32_t usdhc_clk_en_bits)
{
unsigned int ccm_trgt_id = CCM_TRT_ID_USDHC1_CLK_ROOT + usdhc_id;
unsigned int ccm_ccgr_id = CCM_CCGR_ID_USBHDC1 + usdhc_id;
/* Check for error */
if (usdhc_id > MXC_MAX_USDHC_NUM)
return;
/* Set target register values */
imx_clock_target_set(ccm_trgt_id, usdhc_clk_en_bits);
/* Enable the clock gate */
imx_clock_gate_enable(ccm_ccgr_id, true);
}
void imx_clock_enable_wdog(unsigned int wdog_id)
{
unsigned int ccm_ccgr_id = CCM_CCGR_ID_WDOG1 + wdog_id;
/* Check for error */
if (wdog_id > MXC_MAX_WDOG_NUM)
return;
/* Enable the clock gate */
imx_clock_gate_enable(ccm_ccgr_id, true);
}
void imx_clock_disable_wdog(unsigned int wdog_id)
{
unsigned int ccm_trgt_id = CCM_TRT_ID_WDOG_CLK_ROOT;
unsigned int ccm_ccgr_id = CCM_CCGR_ID_WDOG1 + wdog_id;
/* Check for error */
if (wdog_id > MXC_MAX_WDOG_NUM)
return;
/* Disable the clock gate */
imx_clock_gate_enable(ccm_ccgr_id, false);
/* Clear the target */
imx_clock_target_clr(ccm_trgt_id, 0xFFFFFFFF);
}
void imx_clock_set_wdog_clk_root_bits(uint32_t wdog_clk_root_en_bits)
{
/* Enable the common clock root just once */
imx_clock_target_set(CCM_TRT_ID_WDOG_CLK_ROOT, wdog_clk_root_en_bits);
}
void imx_clock_enable_usb(unsigned int ccm_ccgr_usb_id)
{
/* Enable the clock gate */
imx_clock_gate_enable(ccm_ccgr_usb_id, true);
}
void imx_clock_disable_usb(unsigned int ccm_ccgr_usb_id)
{
/* Disable the clock gate */
imx_clock_gate_enable(ccm_ccgr_usb_id, false);
}
void imx_clock_set_usb_clk_root_bits(uint32_t usb_clk_root_en_bits)
{
/* Enable the common clock root just once */
imx_clock_target_set(CCM_TRT_ID_USB_HSIC_CLK_ROOT, usb_clk_root_en_bits);
}