qemu-e2k/hw/misc/imx31_ccm.c

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/*
* IMX31 Clock Control Module
*
* Copyright (C) 2012 NICTA
* Updated by Jean-Christophe Dubois <jcd@tribudubois.net>
*
* This work is licensed under the terms of the GNU GPL, version 2 or later.
* See the COPYING file in the top-level directory.
*
* To get the timer frequencies right, we need to emulate at least part of
* the i.MX31 CCM.
*/
#include "qemu/osdep.h"
#include "hw/misc/imx31_ccm.h"
#define CKIH_FREQ 26000000 /* 26MHz crystal input */
#ifndef DEBUG_IMX31_CCM
#define DEBUG_IMX31_CCM 0
#endif
#define DPRINTF(fmt, args...) \
do { \
if (DEBUG_IMX31_CCM) { \
fprintf(stderr, "[%s]%s: " fmt , TYPE_IMX31_CCM, \
__func__, ##args); \
} \
} while (0)
static char const *imx31_ccm_reg_name(uint32_t reg)
{
static char unknown[20];
switch (reg) {
case IMX31_CCM_CCMR_REG:
return "CCMR";
case IMX31_CCM_PDR0_REG:
return "PDR0";
case IMX31_CCM_PDR1_REG:
return "PDR1";
case IMX31_CCM_RCSR_REG:
return "RCSR";
case IMX31_CCM_MPCTL_REG:
return "MPCTL";
case IMX31_CCM_UPCTL_REG:
return "UPCTL";
case IMX31_CCM_SPCTL_REG:
return "SPCTL";
case IMX31_CCM_COSR_REG:
return "COSR";
case IMX31_CCM_CGR0_REG:
return "CGR0";
case IMX31_CCM_CGR1_REG:
return "CGR1";
case IMX31_CCM_CGR2_REG:
return "CGR2";
case IMX31_CCM_WIMR_REG:
return "WIMR";
case IMX31_CCM_LDC_REG:
return "LDC";
case IMX31_CCM_DCVR0_REG:
return "DCVR0";
case IMX31_CCM_DCVR1_REG:
return "DCVR1";
case IMX31_CCM_DCVR2_REG:
return "DCVR2";
case IMX31_CCM_DCVR3_REG:
return "DCVR3";
case IMX31_CCM_LTR0_REG:
return "LTR0";
case IMX31_CCM_LTR1_REG:
return "LTR1";
case IMX31_CCM_LTR2_REG:
return "LTR2";
case IMX31_CCM_LTR3_REG:
return "LTR3";
case IMX31_CCM_LTBR0_REG:
return "LTBR0";
case IMX31_CCM_LTBR1_REG:
return "LTBR1";
case IMX31_CCM_PMCR0_REG:
return "PMCR0";
case IMX31_CCM_PMCR1_REG:
return "PMCR1";
case IMX31_CCM_PDR2_REG:
return "PDR2";
default:
sprintf(unknown, "[%d ?]", reg);
return unknown;
}
}
static const VMStateDescription vmstate_imx31_ccm = {
.name = TYPE_IMX31_CCM,
.version_id = 2,
.minimum_version_id = 2,
.fields = (VMStateField[]) {
VMSTATE_UINT32_ARRAY(reg, IMX31CCMState, IMX31_CCM_MAX_REG),
VMSTATE_END_OF_LIST()
},
};
static uint32_t imx31_ccm_get_pll_ref_clk(IMXCCMState *dev)
{
uint32_t freq = 0;
IMX31CCMState *s = IMX31_CCM(dev);
if ((s->reg[IMX31_CCM_CCMR_REG] & CCMR_PRCS) == 2) {
if (s->reg[IMX31_CCM_CCMR_REG] & CCMR_FPME) {
freq = CKIL_FREQ;
if (s->reg[IMX31_CCM_CCMR_REG] & CCMR_FPMF) {
freq *= 1024;
}
}
} else {
freq = CKIH_FREQ;
}
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_mpll_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
freq = imx_ccm_calc_pll(s->reg[IMX31_CCM_MPCTL_REG],
imx31_ccm_get_pll_ref_clk(dev));
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_mcu_main_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
if ((s->reg[IMX31_CCM_CCMR_REG] & CCMR_MDS) ||
!(s->reg[IMX31_CCM_CCMR_REG] & CCMR_MPE)) {
freq = imx31_ccm_get_pll_ref_clk(dev);
} else {
freq = imx31_ccm_get_mpll_clk(dev);
}
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_mcu_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
freq = imx31_ccm_get_mcu_main_clk(dev)
/ (1 + EXTRACT(s->reg[IMX31_CCM_PDR0_REG], MCU));
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_hsp_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
freq = imx31_ccm_get_mcu_main_clk(dev)
/ (1 + EXTRACT(s->reg[IMX31_CCM_PDR0_REG], HSP));
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_hclk_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
freq = imx31_ccm_get_mcu_main_clk(dev)
/ (1 + EXTRACT(s->reg[IMX31_CCM_PDR0_REG], MAX));
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_ipg_clk(IMXCCMState *dev)
{
uint32_t freq;
IMX31CCMState *s = IMX31_CCM(dev);
freq = imx31_ccm_get_hclk_clk(dev)
/ (1 + EXTRACT(s->reg[IMX31_CCM_PDR0_REG], IPG));
DPRINTF("freq = %d\n", freq);
return freq;
}
static uint32_t imx31_ccm_get_clock_frequency(IMXCCMState *dev, IMXClk clock)
{
uint32_t freq = 0;
switch (clock) {
case NOCLK:
break;
case CLK_MCU:
freq = imx31_ccm_get_mcu_clk(dev);
break;
case CLK_HSP:
freq = imx31_ccm_get_hsp_clk(dev);
break;
case CLK_IPG:
freq = imx31_ccm_get_ipg_clk(dev);
break;
case CLK_32k:
freq = CKIL_FREQ;
break;
default:
qemu_log_mask(LOG_GUEST_ERROR, "[%s]%s: unsupported clock %d\n",
TYPE_IMX31_CCM, __func__, clock);
break;
}
DPRINTF("Clock = %d) = %d\n", clock, freq);
return freq;
}
static void imx31_ccm_reset(DeviceState *dev)
{
IMX31CCMState *s = IMX31_CCM(dev);
DPRINTF("()\n");
memset(s->reg, 0, sizeof(uint32_t) * IMX31_CCM_MAX_REG);
s->reg[IMX31_CCM_CCMR_REG] = 0x074b0b7d;
s->reg[IMX31_CCM_PDR0_REG] = 0xff870b48;
s->reg[IMX31_CCM_PDR1_REG] = 0x49fcfe7f;
s->reg[IMX31_CCM_RCSR_REG] = 0x007f0000;
s->reg[IMX31_CCM_MPCTL_REG] = 0x04001800;
s->reg[IMX31_CCM_UPCTL_REG] = 0x04051c03;
s->reg[IMX31_CCM_SPCTL_REG] = 0x04043001;
s->reg[IMX31_CCM_COSR_REG] = 0x00000280;
s->reg[IMX31_CCM_CGR0_REG] = 0xffffffff;
s->reg[IMX31_CCM_CGR1_REG] = 0xffffffff;
s->reg[IMX31_CCM_CGR2_REG] = 0xffffffff;
s->reg[IMX31_CCM_WIMR_REG] = 0xffffffff;
s->reg[IMX31_CCM_LTR1_REG] = 0x00004040;
s->reg[IMX31_CCM_PMCR0_REG] = 0x80209828;
s->reg[IMX31_CCM_PMCR1_REG] = 0x00aa0000;
s->reg[IMX31_CCM_PDR2_REG] = 0x00000285;
}
static uint64_t imx31_ccm_read(void *opaque, hwaddr offset, unsigned size)
{
uint32_t value = 0;
IMX31CCMState *s = (IMX31CCMState *)opaque;
if ((offset >> 2) < IMX31_CCM_MAX_REG) {
value = s->reg[offset >> 2];
} else {
qemu_log_mask(LOG_GUEST_ERROR, "[%s]%s: Bad register at offset 0x%"
HWADDR_PRIx "\n", TYPE_IMX31_CCM, __func__, offset);
}
DPRINTF("reg[%s] => 0x%" PRIx32 "\n", imx31_ccm_reg_name(offset >> 2),
value);
return (uint64_t)value;
}
static void imx31_ccm_write(void *opaque, hwaddr offset, uint64_t value,
unsigned size)
{
IMX31CCMState *s = (IMX31CCMState *)opaque;
DPRINTF("reg[%s] <= 0x%" PRIx32 "\n", imx31_ccm_reg_name(offset >> 2),
(uint32_t)value);
switch (offset >> 2) {
case IMX31_CCM_CCMR_REG:
s->reg[IMX31_CCM_CCMR_REG] = CCMR_FPMF | (value & 0x3b6fdfff);
break;
case IMX31_CCM_PDR0_REG:
s->reg[IMX31_CCM_PDR0_REG] = value & 0xff9f3fff;
break;
case IMX31_CCM_PDR1_REG:
s->reg[IMX31_CCM_PDR1_REG] = value;
break;
case IMX31_CCM_MPCTL_REG:
s->reg[IMX31_CCM_MPCTL_REG] = value & 0xbfff3fff;
break;
case IMX31_CCM_SPCTL_REG:
s->reg[IMX31_CCM_SPCTL_REG] = value & 0xbfff3fff;
break;
case IMX31_CCM_CGR0_REG:
s->reg[IMX31_CCM_CGR0_REG] = value;
break;
case IMX31_CCM_CGR1_REG:
s->reg[IMX31_CCM_CGR1_REG] = value;
break;
case IMX31_CCM_CGR2_REG:
s->reg[IMX31_CCM_CGR2_REG] = value;
break;
default:
qemu_log_mask(LOG_GUEST_ERROR, "[%s]%s: Bad register at offset 0x%"
HWADDR_PRIx "\n", TYPE_IMX31_CCM, __func__, offset);
break;
}
}
static const struct MemoryRegionOps imx31_ccm_ops = {
.read = imx31_ccm_read,
.write = imx31_ccm_write,
.endianness = DEVICE_NATIVE_ENDIAN,
.valid = {
/*
* Our device would not work correctly if the guest was doing
* unaligned access. This might not be a limitation on the real
* device but in practice there is no reason for a guest to access
* this device unaligned.
*/
.min_access_size = 4,
.max_access_size = 4,
.unaligned = false,
},
};
static void imx31_ccm_init(Object *obj)
{
DeviceState *dev = DEVICE(obj);
SysBusDevice *sd = SYS_BUS_DEVICE(obj);
IMX31CCMState *s = IMX31_CCM(obj);
memory_region_init_io(&s->iomem, OBJECT(dev), &imx31_ccm_ops, s,
TYPE_IMX31_CCM, 0x1000);
sysbus_init_mmio(sd, &s->iomem);
}
static void imx31_ccm_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
IMXCCMClass *ccm = IMX_CCM_CLASS(klass);
dc->reset = imx31_ccm_reset;
dc->vmsd = &vmstate_imx31_ccm;
dc->desc = "i.MX31 Clock Control Module";
ccm->get_clock_frequency = imx31_ccm_get_clock_frequency;
}
static const TypeInfo imx31_ccm_info = {
.name = TYPE_IMX31_CCM,
.parent = TYPE_IMX_CCM,
.instance_size = sizeof(IMX31CCMState),
.instance_init = imx31_ccm_init,
.class_init = imx31_ccm_class_init,
};
static void imx31_ccm_register_types(void)
{
type_register_static(&imx31_ccm_info);
}
type_init(imx31_ccm_register_types)