zephyr/soc/xtensa/intel_s1000/soc.c

232 lines
5.5 KiB
C

/*
* Copyright (c) 2018 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#define SYS_LOG_LEVEL SYS_LOG_LEVEL_INFO
#define SYS_LOG_DOMAIN "soc/s1000"
#include <device.h>
#include <xtensa_api.h>
#include <xtensa/xtruntime.h>
#include <logging/sys_log.h>
#include <board.h>
#include <irq_nextlevel.h>
#include <xtensa/hal.h>
#include <init.h>
static u32_t ref_clk_freq;
void _soc_irq_enable(u32_t irq)
{
struct device *dev_cavs, *dev_ictl;
switch (XTENSA_IRQ_NUMBER(irq)) {
case CAVS_ICTL_0_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_0_NAME);
break;
case CAVS_ICTL_1_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_1_NAME);
break;
case CAVS_ICTL_2_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_2_NAME);
break;
case CAVS_ICTL_3_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_3_NAME);
break;
default:
/* regular interrupt */
_xtensa_irq_enable(XTENSA_IRQ_NUMBER(irq));
return;
}
if (!dev_cavs) {
SYS_LOG_DBG("board: CAVS device binding failed\n");
return;
}
/* If the control comes here it means the specified interrupt
* is in either CAVS interrupt logic or DW interrupt controller
*/
_xtensa_irq_enable(XTENSA_IRQ_NUMBER(irq));
switch (CAVS_IRQ_NUMBER(irq)) {
case DW_ICTL_IRQ_CAVS_OFFSET:
dev_ictl = device_get_binding(CONFIG_DW_ICTL_NAME);
break;
default:
/* The source of the interrupt is in CAVS interrupt logic */
irq_enable_next_level(dev_cavs, CAVS_IRQ_NUMBER(irq));
return;
}
if (!dev_ictl) {
SYS_LOG_DBG("board: DW intr_control device binding failed\n");
return;
}
/* If the control comes here it means the specified interrupt
* is in DW interrupt controller
*/
irq_enable_next_level(dev_cavs, CAVS_IRQ_NUMBER(irq));
/* Manipulate the relevant bit in the interrupt controller
* register as needed
*/
irq_enable_next_level(dev_ictl, INTR_CNTL_IRQ_NUM(irq));
}
void _soc_irq_disable(u32_t irq)
{
struct device *dev_cavs, *dev_ictl;
switch (XTENSA_IRQ_NUMBER(irq)) {
case CAVS_ICTL_0_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_0_NAME);
break;
case CAVS_ICTL_1_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_1_NAME);
break;
case CAVS_ICTL_2_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_2_NAME);
break;
case CAVS_ICTL_3_IRQ:
dev_cavs = device_get_binding(CONFIG_CAVS_ICTL_3_NAME);
break;
default:
/* regular interrupt */
_xtensa_irq_disable(XTENSA_IRQ_NUMBER(irq));
return;
}
if (!dev_cavs) {
SYS_LOG_DBG("board: CAVS device binding failed\n");
return;
}
/* If the control comes here it means the specified interrupt
* is in either CAVS interrupt logic or DW interrupt controller
*/
switch (CAVS_IRQ_NUMBER(irq)) {
case DW_ICTL_IRQ_CAVS_OFFSET:
dev_ictl = device_get_binding(CONFIG_DW_ICTL_NAME);
break;
default:
/* The source of the interrupt is in CAVS interrupt logic */
irq_disable_next_level(dev_cavs, CAVS_IRQ_NUMBER(irq));
/* Disable the parent IRQ if all children are disabled */
if (!irq_is_enabled_next_level(dev_cavs)) {
_xtensa_irq_disable(XTENSA_IRQ_NUMBER(irq));
}
return;
}
if (!dev_ictl) {
SYS_LOG_DBG("board: DW intr_control device binding failed\n");
return;
}
/* If the control comes here it means the specified interrupt
* is in DW interrupt controller.
* Manipulate the relevant bit in the interrupt controller
* register as needed
*/
irq_disable_next_level(dev_ictl, INTR_CNTL_IRQ_NUM(irq));
/* Disable the parent IRQ if all children are disabled */
if (!irq_is_enabled_next_level(dev_ictl)) {
irq_disable_next_level(dev_cavs, CAVS_IRQ_NUMBER(irq));
if (!irq_is_enabled_next_level(dev_cavs)) {
_xtensa_irq_disable(XTENSA_IRQ_NUMBER(irq));
}
}
}
static inline void soc_set_resource_ownership(void)
{
volatile struct soc_resource_alloc_regs *regs =
(volatile struct soc_resource_alloc_regs *)
SOC_RESOURCE_ALLOC_REG_BASE;
int index;
/* set ownership of DMA controllers and channels */
for (index = 0; index < SOC_NUM_LPGPDMAC; index++) {
regs->lpgpdmacxo[index] = SOC_LPGPDMAC_OWNER_DSP;
}
/* set ownership of I2S and DMIC controllers */
regs->dspiopo = SOC_DSPIOP_I2S_OWNSEL_DSP |
SOC_DSPIOP_DMIC_OWNSEL_DSP;
/* set ownership of timestamp and M/N dividers */
regs->geno = SOC_GENO_TIMESTAMP_OWNER_DSP |
SOC_GENO_MNDIV_OWNER_DSP;
}
void dcache_writeback_region(void *addr, size_t size)
{
xthal_dcache_region_writeback(addr, size);
}
void dcache_invalidate_region(void *addr, size_t size)
{
xthal_dcache_region_invalidate(addr, size);
}
u32_t soc_get_ref_clk_freq(void)
{
return ref_clk_freq;
}
static void soc_set_power_and_clock(void)
{
volatile struct soc_dsp_shim_regs *regs =
(volatile struct soc_dsp_shim_regs *)
SOC_DSP_SHIM_REG_BASE;
regs->clkctl |= SOC_CLKCTL_REQ_FAST_CLK | SOC_CLKCTL_OCS_FAST_CLK;
regs->pwrctl |= SOC_PWRCTL_DISABLE_PWR_GATING_DSP1 |
SOC_PWRCTL_DISABLE_PWR_GATING_DSP0;
}
static void soc_read_bootstraps(void)
{
u32_t bootstrap;
bootstrap = *((volatile u32_t *)SOC_S1000_GLB_CTRL_STRAPS);
bootstrap &= SOC_S1000_STRAP_REF_CLK;
switch (bootstrap) {
case SOC_S1000_STRAP_REF_CLK_19P2:
ref_clk_freq = 19200000;
break;
case SOC_S1000_STRAP_REF_CLK_24P576:
ref_clk_freq = 24576000;
break;
case SOC_S1000_STRAP_REF_CLK_38P4:
default:
ref_clk_freq = 38400000;
break;
}
}
static int soc_init(struct device *dev)
{
soc_read_bootstraps();
ref_clk_freq = soc_get_ref_clk_freq();
SYS_LOG_INF("Reference clock frequency: %u Hz", ref_clk_freq);
soc_set_resource_ownership();
soc_set_power_and_clock();
return 0;
}
SYS_INIT(soc_init, PRE_KERNEL_1, 99);