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/* SPDX-License-Identifier: GPL-2.0-only */
#define __SIMPLE_DEVICE__
#include <arch/io.h>
#include <assert.h>
#include <cpu/x86/mtrr.h>
#include <cpu/x86/cr.h>
#include <console/console.h>
#include <delay.h>
#include <device/pci_ops.h>
#include <soc/pci_devs.h>
#include <soc/ramstage.h>
#include <soc/reg_access.h>
static uint16_t get_gpe0_address(uint32_t reg_address)
{
uint32_t gpe0_base_address;
/* Get the GPE0 base address */
gpe0_base_address = pci_read_config32(LPC_BDF, R_QNC_LPC_GPE0BLK);
ASSERT(gpe0_base_address >= 0x80000000);
gpe0_base_address &= B_QNC_LPC_GPE0BLK_MASK;
/* Return the GPE0 register address */
return (uint16_t)(gpe0_base_address + reg_address);
}
static uint32_t *get_gpio_address(uint32_t reg_address)
{
uint32_t gpio_base_address;
/* Get the GPIO base address */
gpio_base_address = pci_read_config32(I2CGPIO_BDF, PCI_BASE_ADDRESS_1);
gpio_base_address &= ~PCI_BASE_ADDRESS_MEM_ATTR_MASK;
ASSERT(gpio_base_address != 0x00000000);
/* Return the GPIO register address */
return (uint32_t *)(gpio_base_address + reg_address);
}
void *get_i2c_address(void)
{
uint32_t gpio_base_address;
/* Get the GPIO base address */
gpio_base_address = pci_read_config32(I2CGPIO_BDF, PCI_BASE_ADDRESS_0);
gpio_base_address &= ~PCI_BASE_ADDRESS_MEM_ATTR_MASK;
ASSERT(gpio_base_address != 0x00000000);
/* Return the GPIO register address */
return (void *)gpio_base_address;
}
static uint16_t get_legacy_gpio_address(uint32_t reg_address)
{
uint32_t gpio_base_address;
/* Get the GPIO base address */
gpio_base_address = pci_read_config32(LPC_BDF, R_QNC_LPC_GBA_BASE);
ASSERT(gpio_base_address >= 0x80000000);
gpio_base_address &= B_QNC_LPC_GPA_BASE_MASK;
/* Return the GPIO register address */
return (uint16_t)(gpio_base_address + reg_address);
}
static uint32_t mtrr_index_to_host_bridge_register_offset(unsigned long index)
{
uint32_t offset;
/* Convert from MTRR index to host brigde offset (Datasheet 12.7.2) */
if (index == MTRR_CAP_MSR)
offset = QUARK_NC_HOST_BRIDGE_IA32_MTRR_CAP;
else if (index == MTRR_DEF_TYPE_MSR)
offset = QUARK_NC_HOST_BRIDGE_IA32_MTRR_DEF_TYPE;
else if (index == MTRR_FIX_64K_00000)
offset = QUARK_NC_HOST_BRIDGE_MTRR_FIX64K_00000;
else if ((index >= MTRR_FIX_16K_80000) && (index <= MTRR_FIX_16K_A0000))
offset = ((index - MTRR_FIX_16K_80000) << 1)
+ QUARK_NC_HOST_BRIDGE_MTRR_FIX16K_80000;
else if ((index >= MTRR_FIX_4K_C0000) && (index <= MTRR_FIX_4K_F8000))
offset = ((index - MTRR_FIX_4K_C0000) << 1)
+ QUARK_NC_HOST_BRIDGE_IA32_MTRR_PHYSBASE0;
else if ((index >= MTRR_PHYS_BASE(0)) && (index <= MTRR_PHYS_MASK(7)))
offset = (index - MTRR_PHYS_BASE(0))
+ QUARK_NC_HOST_BRIDGE_IA32_MTRR_PHYSBASE0;
else {
printk(BIOS_SPEW, "index: 0x%08lx\n", index);
die("Invalid MTRR index specified!\n");
}
return offset;
}
void mcr_write(uint8_t opcode, uint8_t port, uint32_t reg_address)
{
pci_write_config32(MC_BDF, QNC_ACCESS_PORT_MCR,
(opcode << QNC_MCR_OP_OFFSET)
| ((uint32_t)port << QNC_MCR_PORT_OFFSET)
| ((reg_address & QNC_MCR_MASK) << QNC_MCR_REG_OFFSET)
| QNC_MCR_BYTE_ENABLES);
}
uint32_t mdr_read(void)
{
return pci_read_config32(MC_BDF, QNC_ACCESS_PORT_MDR);
}
void mdr_write(uint32_t value)
{
pci_write_config32(MC_BDF, QNC_ACCESS_PORT_MDR, value);
}
void mea_write(uint32_t reg_address)
{
pci_write_config32(MC_BDF, QNC_ACCESS_PORT_MEA, reg_address
& QNC_MEA_MASK);
}
uint32_t port_reg_read(uint8_t port, uint32_t offset)
{
/* Read the port register */
mea_write(offset);
mcr_write(QUARK_OPCODE_READ, port, offset);
return mdr_read();
}
void port_reg_write(uint8_t port, uint32_t offset, uint32_t value)
{
/* Write the port register */
mea_write(offset);
mdr_write(value);
mcr_write(QUARK_OPCODE_WRITE, port, offset);
}
static CRx_TYPE reg_cpu_cr_read(uint32_t reg_address)
{
/* Read the CPU CRx register */
switch (reg_address) {
case 0:
return read_cr0();
case 4:
return read_cr4();
}
die("ERROR - Unsupported CPU register!\n");
}
static void reg_cpu_cr_write(uint32_t reg_address, CRx_TYPE value)
{
/* Write the CPU CRx register */
switch (reg_address) {
default:
die("ERROR - Unsupported CPU register!\n");
case 0:
write_cr0(value);
break;
case 4:
write_cr4(value);
break;
}
}
static uint32_t reg_gpe0_read(uint32_t reg_address)
{
/* Read the GPE0 register */
return inl(get_gpe0_address(reg_address));
}
static void reg_gpe0_write(uint32_t reg_address, uint32_t value)
{
/* Write the GPE0 register */
outl(get_gpe0_address(reg_address), value);
}
static uint32_t reg_gpio_read(uint32_t reg_address)
{
/* Read the GPIO register */
return *get_gpio_address(reg_address);
}
static void reg_gpio_write(uint32_t reg_address, uint32_t value)
{
/* Write the GPIO register */
*get_gpio_address(reg_address) = value;
}
uint32_t reg_host_bridge_unit_read(uint32_t reg_address)
{
/* Read the host bridge register */
mea_write(reg_address);
mcr_write(QUARK_OPCODE_READ, QUARK_NC_HOST_BRIDGE_SB_PORT_ID,
reg_address);
return mdr_read();
}
static void reg_host_bridge_unit_write(uint32_t reg_address, uint32_t value)
{
/* Write the host bridge register */
mea_write(reg_address);
mdr_write(value);
mcr_write(QUARK_OPCODE_WRITE, QUARK_NC_HOST_BRIDGE_SB_PORT_ID,
reg_address);
}
uint32_t reg_legacy_gpio_read(uint32_t reg_address)
{
/* Read the legacy GPIO register */
return inl(get_legacy_gpio_address(reg_address));
}
void reg_legacy_gpio_write(uint32_t reg_address, uint32_t value)
{
/* Write the legacy GPIO register */
outl(value, get_legacy_gpio_address(reg_address));
}
static uint32_t reg_pcie_afe_read(uint32_t reg_address)
{
/* Read the PCIE AFE register */
mea_write(reg_address);
mcr_write(QUARK_OPCODE_IO_READ, QUARK_SC_PCIE_AFE_SB_PORT_ID,
reg_address);
return mdr_read();
}
static void reg_pcie_afe_write(uint32_t reg_address, uint32_t value)
{
/* Write the PCIE AFE register */
mea_write(reg_address);
mdr_write(value);
mcr_write(QUARK_OPCODE_IO_WRITE, QUARK_SC_PCIE_AFE_SB_PORT_ID,
reg_address);
}
uint32_t reg_rmu_temp_read(uint32_t reg_address)
{
/* Read the RMU temperature register */
mea_write(reg_address);
mcr_write(QUARK_OPCODE_READ, QUARK_NC_RMU_SB_PORT_ID, reg_address);
return mdr_read();
}
static void reg_rmu_temp_write(uint32_t reg_address, uint32_t value)
{
/* Write the RMU temperature register */
mea_write(reg_address);
mdr_write(value);
mcr_write(QUARK_OPCODE_WRITE, QUARK_NC_RMU_SB_PORT_ID, reg_address);
}
static uint32_t reg_soc_unit_read(uint32_t reg_address)
{
/* Read the temperature sensor register */
mea_write(reg_address);
mcr_write(QUARK_ALT_OPCODE_READ, QUARK_SCSS_SOC_UNIT_SB_PORT_ID,
reg_address);
return mdr_read();
}
static void reg_soc_unit_write(uint32_t reg_address, uint32_t value)
{
/* Write the temperature sensor register */
mea_write(reg_address);
mdr_write(value);
mcr_write(QUARK_ALT_OPCODE_WRITE, QUARK_SCSS_SOC_UNIT_SB_PORT_ID,
reg_address);
}
static uint32_t reg_usb_read(uint32_t reg_address)
{
/* Read the USB register */
mea_write(reg_address);
mcr_write(QUARK_ALT_OPCODE_READ, QUARK_SC_USB_AFE_SB_PORT_ID,
reg_address);
return mdr_read();
}
static void reg_usb_write(uint32_t reg_address, uint32_t value)
{
/* Write the USB register */
mea_write(reg_address);
mdr_write(value);
mcr_write(QUARK_ALT_OPCODE_WRITE, QUARK_SC_USB_AFE_SB_PORT_ID,
reg_address);
}
static uint64_t reg_read(struct reg_script_context *ctx)
{
const struct reg_script *step = ctx->step;
uint64_t value = 0;
switch (step->id) {
default:
printk(BIOS_ERR,
"ERROR - Unknown register set (0x%08x)!\n",
step->id);
ctx->display_features = REG_SCRIPT_DISPLAY_NOTHING;
return 0;
case CPU_CR:
ctx->display_prefix = "CPU CR";
value = reg_cpu_cr_read(step->reg);
break;
case GPE0_REGS:
ctx->display_prefix = "GPE0";
value = reg_gpe0_read(step->reg);
break;
case GPIO_REGS:
ctx->display_prefix = "GPIO";
value = reg_gpio_read(step->reg);
break;
case HOST_BRIDGE:
ctx->display_prefix = "Host Bridge";
value = reg_host_bridge_unit_read(step->reg);
break;
case LEG_GPIO_REGS:
ctx->display_prefix = "Legacy GPIO";
value = reg_legacy_gpio_read(step->reg);
break;
case PCIE_AFE_REGS:
ctx->display_prefix = "PCIe AFE";
value = reg_pcie_afe_read(step->reg);
break;
case RMU_TEMP_REGS:
ctx->display_prefix = "RMU TEMP";
value = reg_rmu_temp_read(step->reg);
break;
case SOC_UNIT_REGS:
ctx->display_prefix = "SOC Unit";
value = reg_soc_unit_read(step->reg);
break;
case USB_PHY_REGS:
ctx->display_prefix = "USB PHY";
value = reg_usb_read(step->reg);
break;
}
return value;
}
static void reg_write(struct reg_script_context *ctx)
{
const struct reg_script *step = ctx->step;
switch (step->id) {
default:
printk(BIOS_ERR,
"ERROR - Unknown register set (0x%08x)!\n",
step->id);
ctx->display_features = REG_SCRIPT_DISPLAY_NOTHING;
return;
case CPU_CR:
ctx->display_prefix = "CPU CR";
reg_cpu_cr_write(step->reg, step->value);
break;
case GPE0_REGS:
ctx->display_prefix = "GPE0";
reg_gpe0_write(step->reg, (uint32_t)step->value);
break;
case GPIO_REGS:
ctx->display_prefix = "GPIO";
reg_gpio_write(step->reg, (uint32_t)step->value);
break;
case HOST_BRIDGE:
ctx->display_prefix = "Host Bridge";
reg_host_bridge_unit_write(step->reg, (uint32_t)step->value);
break;
case LEG_GPIO_REGS:
ctx->display_prefix = "Legacy GPIO";
reg_legacy_gpio_write(step->reg, (uint32_t)step->value);
break;
case PCIE_AFE_REGS:
ctx->display_prefix = "PCIe AFE";
reg_pcie_afe_write(step->reg, (uint32_t)step->value);
break;
case PCIE_RESET:
if (ctx->display_features) {
ctx->display_prefix = "PCIe reset";
ctx->display_features &= ~REG_SCRIPT_DISPLAY_REGISTER;
}
mainboard_gpio_pcie_reset(step->value);
break;
case RMU_TEMP_REGS:
ctx->display_prefix = "RMU TEMP";
reg_rmu_temp_write(step->reg, (uint32_t)step->value);
break;
case SOC_UNIT_REGS:
ctx->display_prefix = "SOC Unit";
reg_soc_unit_write(step->reg, (uint32_t)step->value);
break;
case MICROSECOND_DELAY:
/* The actual delay is >= the requested delay */
if (ctx->display_features) {
/* Higher baud-rates will reduce the impact of
* displaying this message
*/
printk(BIOS_INFO, "Delay %lld uSec\n", step->value);
ctx->display_features = REG_SCRIPT_DISPLAY_NOTHING;
}
udelay(step->value);
break;
case USB_PHY_REGS:
ctx->display_prefix = "USB PHY";
reg_usb_write(step->reg, (uint32_t)step->value);
break;
}
}
msr_t soc_msr_read(unsigned int index)
{
uint32_t offset;
union {
uint64_t u64;
msr_t msr;
} value;
/* Read the low 32-bits of the register */
offset = mtrr_index_to_host_bridge_register_offset(index);
value.u64 = port_reg_read(QUARK_NC_HOST_BRIDGE_SB_PORT_ID, offset);
/* For 64-bit registers, read the upper 32-bits */
if ((offset >= QUARK_NC_HOST_BRIDGE_MTRR_FIX64K_00000)
&& (offset <= QUARK_NC_HOST_BRIDGE_MTRR_FIX4K_F8000)) {
offset += 1;
value.u64 |= port_reg_read(QUARK_NC_HOST_BRIDGE_SB_PORT_ID,
offset);
}
return value.msr;
}
void soc_msr_write(unsigned int index, msr_t msr)
{
uint32_t offset;
union {
uint32_t u32[2];
msr_t msr;
} value;
/* Write the low 32-bits of the register */
value.msr = msr;
offset = mtrr_index_to_host_bridge_register_offset(index);
port_reg_write(QUARK_NC_HOST_BRIDGE_SB_PORT_ID, offset, value.u32[0]);
/* For 64-bit registers, write the upper 32-bits */
if ((offset >= QUARK_NC_HOST_BRIDGE_MTRR_FIX64K_00000)
&& (offset <= QUARK_NC_HOST_BRIDGE_MTRR_FIX4K_F8000)) {
offset += 1;
port_reg_write(QUARK_NC_HOST_BRIDGE_SB_PORT_ID, offset,
value.u32[1]);
}
}
const struct reg_script_bus_entry soc_reg_script_bus_table = {
SOC_TYPE, reg_read, reg_write
};
REG_SCRIPT_BUS_ENTRY(soc_reg_script_bus_table);
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