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|
/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* LPC module for Chrome EC */
#include "acpi.h"
#include "chipset.h"
#include "clock.h"
#include "common.h"
#include "console.h"
#include "gpio.h"
#include "hooks.h"
#include "host_command.h"
#include "keyboard_protocol.h"
#include "lpc.h"
#include "port80.h"
#include "pwm.h"
#include "registers.h"
#include "system.h"
#include "task.h"
#include "timer.h"
#include "uart.h"
#include "util.h"
#include "system_chip.h"
/* Console output macros */
#if !(DEBUG_LPC)
#define CPUTS(...)
#define CPRINTS(...)
#else
#define CPUTS(outstr) cputs(CC_LPC, outstr)
#define CPRINTS(format, args...) cprints(CC_LPC, format, ## args)
#endif
#define LPC_SYSJUMP_TAG 0x4c50 /* "LP" */
/* PM channel definitions */
#define PMC_ACPI PM_CHAN_1
#define PMC_HOST_CMD PM_CHAN_2
/* Super-IO index and register definitions */
#define SIO_OFFSET 0x4E
#define INDEX_SID 0x20
#define INDEX_CHPREV 0x24
#define INDEX_SRID 0x27
static uint32_t host_events; /* Currently pending SCI/SMI events */
static uint32_t event_mask[3]; /* Event masks for each type */
static struct host_packet lpc_packet;
static struct host_cmd_handler_args host_cmd_args;
static uint8_t host_cmd_flags; /* Flags from host command */
static uint8_t shm_mem_host_cmd[256] __aligned(8);
static uint8_t shm_memmap[256] __aligned(8);
/* Params must be 32-bit aligned */
static uint8_t params_copy[EC_LPC_HOST_PACKET_SIZE] __aligned(4);
static int init_done;
static uint8_t * const cmd_params = (uint8_t *)shm_mem_host_cmd +
EC_LPC_ADDR_HOST_PARAM - EC_LPC_ADDR_HOST_ARGS;
static struct ec_lpc_host_args * const lpc_host_args =
(struct ec_lpc_host_args *)shm_mem_host_cmd;
/*****************************************************************************/
/* IC specific low-level driver */
static void keyboard_irq_assert(void)
{
#ifdef CONFIG_KEYBOARD_IRQ_GPIO
/*
* Enforce signal-high for long enough for the signal to be pulled high
* by the external pullup resistor. This ensures the host will see the
* following falling edge, regardless of the line state before this
* function call.
*/
gpio_set_level(CONFIG_KEYBOARD_IRQ_GPIO, 1);
udelay(4);
/* Generate a falling edge */
gpio_set_level(CONFIG_KEYBOARD_IRQ_GPIO, 0);
udelay(4);
/* Set signal high, now that we've generated the edge */
gpio_set_level(CONFIG_KEYBOARD_IRQ_GPIO, 1);
#else
/*
* SERIRQ is automatically sent by KBC
*/
#endif
}
static void lpc_task_enable_irq(void)
{
task_enable_irq(NPCX_IRQ_KBC_IBF);
task_enable_irq(NPCX_IRQ_PM_CHAN_IBF);
task_enable_irq(NPCX_IRQ_PORT80);
}
static void lpc_task_disable_irq(void)
{
task_disable_irq(NPCX_IRQ_KBC_IBF);
task_disable_irq(NPCX_IRQ_PM_CHAN_IBF);
task_disable_irq(NPCX_IRQ_PORT80);
}
/**
* Generate SMI pulse to the host chipset via GPIO.
*
* If the x86 is in S0, SMI# is sampled at 33MHz, so minimum pulse length is
* 60ns. If the x86 is in S3, SMI# is sampled at 32.768KHz, so we need pulse
* length >61us. Both are short enough and events are infrequent, so just
* delay for 65us.
*/
static void lpc_generate_smi(void)
{
#ifdef CONFIG_SCI_GPIO
/* Enforce signal-high for long enough to debounce high */
gpio_set_level(GPIO_PCH_SMI_L, 1);
udelay(65);
/* Generate a falling edge */
gpio_set_level(GPIO_PCH_SMI_L, 0);
udelay(65);
/* Set signal high, now that we've generated the edge */
gpio_set_level(GPIO_PCH_SMI_L, 1);
#else
NPCX_HIPMIE(PMC_ACPI) |= NPCX_HIPMIE_SMIE;
#endif
if (host_events & event_mask[LPC_HOST_EVENT_SMI])
CPRINTS("smi 0x%08x",
host_events & event_mask[LPC_HOST_EVENT_SMI]);
}
/**
* Generate SCI pulse to the host chipset via LPC0SCI.
*/
static void lpc_generate_sci(void)
{
#ifdef CONFIG_SCI_GPIO
/* Enforce signal-high for long enough to debounce high */
gpio_set_level(CONFIG_SCI_GPIO, 1);
udelay(65);
/* Generate a falling edge */
gpio_set_level(CONFIG_SCI_GPIO, 0);
udelay(65);
/* Set signal high, now that we've generated the edge */
gpio_set_level(CONFIG_SCI_GPIO, 1);
#else
SET_BIT(NPCX_HIPMIE(PMC_ACPI), NPCX_HIPMIE_SCIE);
#endif
if (host_events & event_mask[LPC_HOST_EVENT_SCI])
CPRINTS("sci 0x%08x",
host_events & event_mask[LPC_HOST_EVENT_SCI]);
}
/**
* Update the level-sensitive wake signal to the AP.
*
* @param wake_events Currently asserted wake events
*/
static void lpc_update_wake(uint32_t wake_events)
{
/*
* Mask off power button event, since the AP gets that through a
* separate dedicated GPIO.
*/
wake_events &= ~EC_HOST_EVENT_MASK(EC_HOST_EVENT_POWER_BUTTON);
/* Signal is asserted low when wake events is non-zero */
gpio_set_level(GPIO_PCH_WAKE_L, !wake_events);
}
uint8_t *lpc_get_memmap_range(void)
{
return (uint8_t *)shm_memmap;
}
static void lpc_send_response(struct host_cmd_handler_args *args)
{
uint8_t *out;
int size = args->response_size;
int csum;
int i;
/* Ignore in-progress on LPC since interface is synchronous anyway */
if (args->result == EC_RES_IN_PROGRESS)
return;
/* Handle negative size */
if (size < 0) {
args->result = EC_RES_INVALID_RESPONSE;
size = 0;
}
/* New-style response */
lpc_host_args->flags =
(host_cmd_flags & ~EC_HOST_ARGS_FLAG_FROM_HOST) |
EC_HOST_ARGS_FLAG_TO_HOST;
lpc_host_args->data_size = size;
csum = args->command + lpc_host_args->flags +
lpc_host_args->command_version +
lpc_host_args->data_size;
for (i = 0, out = (uint8_t *)args->response; i < size; i++, out++)
csum += *out;
lpc_host_args->checksum = (uint8_t)csum;
/* Fail if response doesn't fit in the param buffer */
if (size > EC_PROTO2_MAX_PARAM_SIZE)
args->result = EC_RES_INVALID_RESPONSE;
/* Write result to the data byte. This sets the TOH status bit. */
NPCX_HIPMDO(PMC_HOST_CMD) = args->result;
/* Clear processing flag */
CLEAR_BIT(NPCX_HIPMST(PMC_HOST_CMD), 2);
}
static void lpc_send_response_packet(struct host_packet *pkt)
{
/* Ignore in-progress on LPC since interface is synchronous anyway */
if (pkt->driver_result == EC_RES_IN_PROGRESS)
return;
/* Write result to the data byte. This sets the TOH status bit. */
NPCX_HIPMDO(PMC_HOST_CMD) = pkt->driver_result;
/* Clear processing flag */
CLEAR_BIT(NPCX_HIPMST(PMC_HOST_CMD), 2);
}
int lpc_keyboard_has_char(void)
{
/* if OBF bit is '1', that mean still have a data in DBBOUT */
return (NPCX_HIKMST&0x01) ? 1 : 0;
}
int lpc_keyboard_input_pending(void)
{
/* if IBF bit is '1', that mean still have a data in DBBIN */
return (NPCX_HIKMST&0x02) ? 1 : 0;
}
/* Put a char to host buffer and send IRQ if specified. */
void lpc_keyboard_put_char(uint8_t chr, int send_irq)
{
NPCX_HIKDO = chr;
CPRINTS("KB put %02x", chr);
/* Enable OBE interrupt to detect host read data out */
SET_BIT(NPCX_HICTRL, NPCX_HICTRL_OBECIE);
task_enable_irq(NPCX_IRQ_KBC_OBE);
if (send_irq) {
keyboard_irq_assert();
}
}
void lpc_keyboard_clear_buffer(void)
{
/* Make sure the previous TOH and IRQ has been sent out. */
udelay(4);
/* Clear OBE flag in host STATUS and HIKMST regs*/
SET_BIT(NPCX_HICTRL, NPCX_HICTRL_FW_OBF);
/* Ensure there is no TOH set in this period. */
udelay(4);
}
void lpc_keyboard_resume_irq(void)
{
if (lpc_keyboard_has_char())
keyboard_irq_assert();
}
/**
* Update the host event status.
*
* Sends a pulse if masked event status becomes non-zero:
* - SMI pulse via EC_SMI_L GPIO
* - SCI pulse via LPC0SCI
*/
static void update_host_event_status(void)
{
int need_sci = 0;
int need_smi = 0;
if (!init_done)
return;
/* Disable LPC interrupt while updating status register */
lpc_task_disable_irq();
if (host_events & event_mask[LPC_HOST_EVENT_SMI]) {
/* Only generate SMI for first event */
if (!(NPCX_HIPMIE(PMC_ACPI) & NPCX_HIPMIE_SMIE))
need_smi = 1;
SET_BIT(NPCX_HIPMIE(PMC_ACPI), NPCX_HIPMIE_SMIE);
} else
CLEAR_BIT(NPCX_HIPMIE(PMC_ACPI), NPCX_HIPMIE_SMIE);
if (host_events & event_mask[LPC_HOST_EVENT_SCI]) {
/* Generate SCI for every event */
need_sci = 1;
SET_BIT(NPCX_HIPMIE(PMC_ACPI), NPCX_HIPMIE_SCIE);
} else
CLEAR_BIT(NPCX_HIPMIE(PMC_ACPI), NPCX_HIPMIE_SCIE);
/* Copy host events to mapped memory */
*(uint32_t *)host_get_memmap(EC_MEMMAP_HOST_EVENTS) = host_events;
lpc_task_enable_irq();
/* Process the wake events. */
lpc_update_wake(host_events & event_mask[LPC_HOST_EVENT_WAKE]);
/* Send pulse on SMI signal if needed */
if (need_smi)
lpc_generate_smi();
/* ACPI 5.0-12.6.1: Generate SCI for SCI_EVT=1. */
if (need_sci)
lpc_generate_sci();
}
void lpc_set_host_event_state(uint32_t mask)
{
if (mask != host_events) {
host_events = mask;
update_host_event_status();
}
}
int lpc_query_host_event_state(void)
{
const uint32_t any_mask = event_mask[0] | event_mask[1] | event_mask[2];
int evt_index = 0;
int i;
for (i = 0; i < 32; i++) {
const uint32_t e = (1 << i);
if (host_events & e) {
host_clear_events(e);
/*
* If host hasn't unmasked this event, drop it. We do
* this at query time rather than event generation time
* so that the host has a chance to unmask events
* before they're dropped by a query.
*/
if (!(e & any_mask))
continue;
evt_index = i + 1; /* Events are 1-based */
break;
}
}
return evt_index;
}
void lpc_set_host_event_mask(enum lpc_host_event_type type, uint32_t mask)
{
event_mask[type] = mask;
update_host_event_status();
}
uint32_t lpc_get_host_event_mask(enum lpc_host_event_type type)
{
return event_mask[type];
}
void lpc_set_acpi_status_mask(uint8_t mask)
{
NPCX_HIPMST(PMC_ACPI) |= mask;
}
void lpc_clear_acpi_status_mask(uint8_t mask)
{
NPCX_HIPMST(PMC_ACPI) &= ~mask;
}
/* Enable LPC ACPI-EC interrupts */
void lpc_enable_acpi_interrupts(void)
{
SET_BIT(NPCX_HIPMCTL(PMC_ACPI), NPCX_HIPMCTL_IBFIE);
}
/* Disable LPC ACPI-EC interrupts */
void lpc_disable_acpi_interrupts(void)
{
CLEAR_BIT(NPCX_HIPMCTL(PMC_ACPI), NPCX_HIPMCTL_IBFIE);
}
/**
* Handle write to ACPI I/O port
*
* @param is_cmd Is write command (is_cmd=1) or data (is_cmd=0)
*/
static void handle_acpi_write(int is_cmd)
{
uint8_t value, result;
/* Read command/data; this clears the FRMH status bit. */
value = NPCX_HIPMDI(PMC_ACPI);
/* Handle whatever this was. */
if (acpi_ap_to_ec(is_cmd, value, &result))
NPCX_HIPMDO(PMC_ACPI) = result;
/*
* ACPI 5.0-12.6.1: Generate SCI for Input Buffer Empty / Output Buffer
* Full condition on the kernel channel.
*/
lpc_generate_sci();
}
/**
* Handle write to host command I/O ports.
*
* @param is_cmd Is write command (1) or data (0)?
*/
static void handle_host_write(int is_cmd)
{
/* Set processing flag before reading command byte */
SET_BIT(NPCX_HIPMST(PMC_HOST_CMD), 2);
/*
* Read the command byte. This clears the FRMH bit in
* the status byte.
*/
host_cmd_args.command = NPCX_HIPMDI(PMC_HOST_CMD);
host_cmd_args.result = EC_RES_SUCCESS;
host_cmd_args.send_response = lpc_send_response;
host_cmd_flags = lpc_host_args->flags;
/* See if we have an old or new style command */
if (host_cmd_args.command == EC_COMMAND_PROTOCOL_3) {
lpc_packet.send_response = lpc_send_response_packet;
lpc_packet.request = (const void *)shm_mem_host_cmd;
lpc_packet.request_temp = params_copy;
lpc_packet.request_max = sizeof(params_copy);
/* Don't know the request size so pass in the entire buffer */
lpc_packet.request_size = EC_LPC_HOST_PACKET_SIZE;
lpc_packet.response = (void *)shm_mem_host_cmd;
lpc_packet.response_max = EC_LPC_HOST_PACKET_SIZE;
lpc_packet.response_size = 0;
lpc_packet.driver_result = EC_RES_SUCCESS;
host_packet_receive(&lpc_packet);
return;
} else if (host_cmd_flags & EC_HOST_ARGS_FLAG_FROM_HOST) {
/* Version 2 (link) style command */
int size = lpc_host_args->data_size;
int csum, i;
/* Clear processing flag */
CLEAR_BIT(NPCX_HIPMST(PMC_HOST_CMD), 2);
host_cmd_args.version = lpc_host_args->command_version;
host_cmd_args.params = params_copy;
host_cmd_args.params_size = size;
host_cmd_args.response = cmd_params;
host_cmd_args.response_max = EC_PROTO2_MAX_PARAM_SIZE;
host_cmd_args.response_size = 0;
/* Verify params size */
if (size > EC_PROTO2_MAX_PARAM_SIZE) {
host_cmd_args.result = EC_RES_INVALID_PARAM;
} else {
const uint8_t *src = cmd_params;
uint8_t *copy = params_copy;
/*
* Verify checksum and copy params out of LPC space.
* This ensures the data acted on by the host command
* handler can't be changed by host writes after the
* checksum is verified.
*/
csum = host_cmd_args.command +
host_cmd_flags +
host_cmd_args.version +
host_cmd_args.params_size;
for (i = 0; i < size; i++) {
csum += *src;
*(copy++) = *(src++);
}
if ((uint8_t)csum != lpc_host_args->checksum)
host_cmd_args.result = EC_RES_INVALID_CHECKSUM;
}
} else {
/* Old style command, now unsupported */
host_cmd_args.result = EC_RES_INVALID_COMMAND;
/* Clear processing flag */
CLEAR_BIT(NPCX_HIPMST(PMC_HOST_CMD), 2);
}
/* Hand off to host command handler */
host_command_received(&host_cmd_args);
}
/*****************************************************************************/
/* Interrupt handlers */
#ifdef HAS_TASK_KEYPROTO
/* KB controller input buffer full ISR */
void lpc_kbc_ibf_interrupt(void)
{
/* If "command" input 0, else 1*/
if (lpc_keyboard_input_pending())
keyboard_host_write(NPCX_HIKMDI, (NPCX_HIKMST & 0x08) ? 1 : 0);
CPRINTS("ibf isr %02x", NPCX_HIKMDI);
task_wake(TASK_ID_KEYPROTO);
}
DECLARE_IRQ(NPCX_IRQ_KBC_IBF, lpc_kbc_ibf_interrupt, 2);
/* KB controller output buffer empty ISR */
void lpc_kbc_obe_interrupt(void)
{
/* Disable KBC OBE interrupt */
CLEAR_BIT(NPCX_HICTRL, NPCX_HICTRL_OBECIE);
task_disable_irq(NPCX_IRQ_KBC_OBE);
CPRINTS("obe isr %02x", NPCX_HIKMST);
task_wake(TASK_ID_KEYPROTO);
}
DECLARE_IRQ(NPCX_IRQ_KBC_OBE, lpc_kbc_obe_interrupt, 2);
#endif
/* PM channel input buffer full ISR */
void lpc_pmc_ibf_interrupt(void)
{
/* Channel-1 for ACPI usage*/
/* Channel-2 for Host Command usage , so the argument data had been
* put on the share memory firstly*/
if (NPCX_HIPMST(PMC_ACPI) & 0x02)
handle_acpi_write((NPCX_HIPMST(PMC_ACPI)&0x08) ? 1 : 0);
else if (NPCX_HIPMST(PMC_HOST_CMD) & 0x02)
handle_host_write((NPCX_HIPMST(PMC_HOST_CMD)&0x08) ? 1 : 0);
}
DECLARE_IRQ(NPCX_IRQ_PM_CHAN_IBF, lpc_pmc_ibf_interrupt, 2);
/* PM channel output buffer empty ISR */
void lpc_pmc_obe_interrupt(void)
{
}
DECLARE_IRQ(NPCX_IRQ_PM_CHAN_OBE, lpc_pmc_obe_interrupt, 2);
void lpc_port80_interrupt(void)
{
/* Send port 80 data to UART continuously if FIFO is not empty */
while (IS_BIT_SET(NPCX_DP80STS, 6))
port_80_write(NPCX_DP80BUF);
/* If FIFO is overflow */
if (IS_BIT_SET(NPCX_DP80STS, 7)) {
SET_BIT(NPCX_DP80STS, 7);
CPRINTS("DP80 FIFO Overflow!");
}
/* Clear pending bit of host writing */
SET_BIT(NPCX_DP80STS, 5);
}
DECLARE_IRQ(NPCX_IRQ_PORT80, lpc_port80_interrupt, 2);
/**
* Preserve event masks across a sysjump.
*/
static void lpc_sysjump(void)
{
system_add_jump_tag(LPC_SYSJUMP_TAG, 1,
sizeof(event_mask), event_mask);
}
DECLARE_HOOK(HOOK_SYSJUMP, lpc_sysjump, HOOK_PRIO_DEFAULT);
/**
* Restore event masks after a sysjump.
*/
static void lpc_post_sysjump(void)
{
const uint32_t *prev_mask;
int size, version;
prev_mask = (const uint32_t *)system_get_jump_tag(LPC_SYSJUMP_TAG,
&version, &size);
if (!prev_mask || version != 1 || size != sizeof(event_mask))
return;
memcpy(event_mask, prev_mask, sizeof(event_mask));
}
/* Super-IO read/write function */
void lpc_sib_write_reg(uint8_t io_offset, uint8_t index_value,
uint8_t io_data)
{
/* Disable interrupts */
interrupt_disable();
/* Lock host CFG module */
SET_BIT(NPCX_LKSIOHA, NPCX_LKSIOHA_LKCFG);
/* Enable Core-to-Host Modules Access */
SET_BIT(NPCX_SIBCTRL, NPCX_SIBCTRL_CSAE);
/* Enable Core access to CFG module */
SET_BIT(NPCX_CRSMAE, NPCX_CRSMAE_CFGAE);
/* Verify Core read/write to host modules is not in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSRD))
;
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSWR))
;
/* Specify the io_offset A0 = 0. the index register is accessed */
NPCX_IHIOA = io_offset;
/* Write the data. This starts the write access to the host module */
NPCX_IHD = index_value;
/* Wait while Core write operation is in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSWR))
;
/* Specify the io_offset A0 = 1. the data register is accessed */
NPCX_IHIOA = io_offset+1;
/* Write the data. This starts the write access to the host module */
NPCX_IHD = io_data;
/* Wait while Core write operation is in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSWR))
;
/* Disable Core access to CFG module */
CLEAR_BIT(NPCX_CRSMAE, NPCX_CRSMAE_CFGAE);
/* Disable Core-to-Host Modules Access */
CLEAR_BIT(NPCX_SIBCTRL, NPCX_SIBCTRL_CSAE);
/* unlock host CFG module */
CLEAR_BIT(NPCX_LKSIOHA, NPCX_LKSIOHA_LKCFG);
/* Enable interrupts */
interrupt_enable();
}
uint8_t lpc_sib_read_reg(uint8_t io_offset, uint8_t index_value)
{
uint8_t data_value;
/* Disable interrupts */
interrupt_disable();
/* Lock host CFG module */
SET_BIT(NPCX_LKSIOHA, NPCX_LKSIOHA_LKCFG);
/* Enable Core-to-Host Modules Access */
SET_BIT(NPCX_SIBCTRL, NPCX_SIBCTRL_CSAE);
/* Enable Core access to CFG module */
SET_BIT(NPCX_CRSMAE, NPCX_CRSMAE_CFGAE);
/* Verify Core read/write to host modules is not in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSRD))
;
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSWR))
;
/* Specify the io_offset A0 = 0. the index register is accessed */
NPCX_IHIOA = io_offset;
/* Write the data. This starts the write access to the host module */
NPCX_IHD = index_value;
/* Wait while Core write operation is in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSWR))
;
/* Specify the io_offset A0 = 1. the data register is accessed */
NPCX_IHIOA = io_offset+1;
/* Start a Core read from host module */
SET_BIT(NPCX_SIBCTRL, NPCX_SIBCTRL_CSRD);
/* Wait while Core read operation is in progress */
while (IS_BIT_SET(NPCX_SIBCTRL, NPCX_SIBCTRL_CSRD))
;
/* Read the data */
data_value = NPCX_IHD;
/* Disable Core access to CFG module */
CLEAR_BIT(NPCX_CRSMAE, NPCX_CRSMAE_CFGAE);
/* Disable Core-to-Host Modules Access */
CLEAR_BIT(NPCX_SIBCTRL, NPCX_SIBCTRL_CSAE);
/* unlock host CFG module */
CLEAR_BIT(NPCX_LKSIOHA, NPCX_LKSIOHA_LKCFG);
/* Enable interrupts */
interrupt_enable();
return data_value;
}
/* For LPC host register initial via SIB module */
void lpc_host_register_init(void)
{
/* enable ACPI*/
lpc_sib_write_reg(SIO_OFFSET, 0x07, 0x11);
lpc_sib_write_reg(SIO_OFFSET, 0x30, 0x01);
/* enable KBC*/
lpc_sib_write_reg(SIO_OFFSET, 0x07, 0x06);
lpc_sib_write_reg(SIO_OFFSET, 0x30, 0x01);
/* Setting PMC2 */
/* LDN register = 0x12(PMC2) */
lpc_sib_write_reg(SIO_OFFSET, 0x07, 0x12);
/* CMD port is 0x200 */
lpc_sib_write_reg(SIO_OFFSET, 0x60, 0x02);
lpc_sib_write_reg(SIO_OFFSET, 0x61, 0x00);
/* Data port is 0x204 */
lpc_sib_write_reg(SIO_OFFSET, 0x62, 0x02);
lpc_sib_write_reg(SIO_OFFSET, 0x63, 0x04);
/* enable PMC2 */
lpc_sib_write_reg(SIO_OFFSET, 0x30, 0x01);
/* Setting SHM */
/* LDN register = 0x0F(SHM) */
lpc_sib_write_reg(SIO_OFFSET, 0x07, 0x0F);
/* WIN1&2 mapping to IO */
lpc_sib_write_reg(SIO_OFFSET, 0xF1,
lpc_sib_read_reg(SIO_OFFSET, 0xF1) | 0x30);
/* Host Command on the IO:0x0800 */
lpc_sib_write_reg(SIO_OFFSET, 0xF7, 0x00);
lpc_sib_write_reg(SIO_OFFSET, 0xF6, 0x00);
lpc_sib_write_reg(SIO_OFFSET, 0xF5, 0x08);
lpc_sib_write_reg(SIO_OFFSET, 0xF4, 0x00);
/* WIN1 as Host Command on the IO:0x0800 */
lpc_sib_write_reg(SIO_OFFSET, 0xFB, 0x00);
lpc_sib_write_reg(SIO_OFFSET, 0xFA, 0x00);
/* WIN2 as MEMMAP on the IO:0x900 */
lpc_sib_write_reg(SIO_OFFSET, 0xF9, 0x09);
lpc_sib_write_reg(SIO_OFFSET, 0xF8, 0x00);
/* enable SHM */
lpc_sib_write_reg(SIO_OFFSET, 0x30, 0x01);
/* An active LRESET or PLTRST does not generate host domain reset */
SET_BIT(NPCX_RSTCTL, NPCX_RSTCTL_LRESET_PLTRST_MODE);
CPRINTS("Host settings are done!");
}
#ifdef CONFIG_CHIPSET_RESET_HOOK
static void lpc_chipset_reset(void)
{
hook_notify(HOOK_CHIPSET_RESET);
}
DECLARE_DEFERRED(lpc_chipset_reset);
#endif
int lpc_get_pltrst_asserted(void)
{
/* Read current PLTRST status */
return (NPCX_MSWCTL1 & 0x04) ? 1 : 0;
}
/* Initialize host settings by interrupt */
void lpc_lreset_pltrst_handler(void)
{
/* Clear pending bit of WUI */
SET_BIT(NPCX_WKPCL(MIWU_TABLE_0 , MIWU_GROUP_5), 7);
/* Ignore PLTRST# from SOC if it is not valid */
if (chipset_pltrst_is_valid && !chipset_pltrst_is_valid())
return;
ccprintf("[%T PLTRST deasserted]\n");
/*
* Once LRESET is de-asserted (low -> high), we need to intialize lpc
* settings once. If RSTCTL_LRESET_PLTRST_MODE is active, LPC registers
* won't be reset by Host domain reset but Core domain does.
*/
lpc_host_register_init();
#ifdef CONFIG_CHIPSET_RESET_HOOK
if (lpc_get_pltrst_asserted()) {
/* Notify HOOK_CHIPSET_RESET */
hook_call_deferred(&lpc_chipset_reset_data, MSEC);
}
#endif
}
static void lpc_init(void)
{
/* Enable clock for LPC peripheral */
clock_enable_peripheral(CGC_OFFSET_LPC, CGC_LPC_MASK,
CGC_MODE_RUN | CGC_MODE_SLEEP);
/* Switching to LPC interface */
NPCX_DEVCNT |= 0x04;
/* Enable 4E/4F */
if (!IS_BIT_SET(NPCX_MSWCTL1, 3)) {
NPCX_HCBAL = 0x4E;
NPCX_HCBAH = 0x0;
}
/* Clear Host Access Hold state */
NPCX_SMC_CTL = 0xC0;
/*
* Set alternative pin from GPIO to CLKRUN no matter SERIRQ is under
* continuous or quiet mode.
*/
SET_BIT(NPCX_DEVALT(1), NPCX_DEVALT1_CLKRN_SL);
/* Initialize Hardware for UART Host */
#if CONFIG_UART_HOST
/* Init COMx LPC UART */
/* FMCLK have to using 50MHz */
NPCX_DEVALT(0xB) = 0xFF;
/* Make sure Host Access unlock */
CLEAR_BIT(NPCX_LKSIOHA, 2);
/* Clear Host Access Lock Violation */
SET_BIT(NPCX_SIOLV, 2);
#endif
/* Don't stall SHM transactions */
NPCX_SHM_CTL = NPCX_SHM_CTL & ~0x40;
/* Semaphore and Indirect access disable */
NPCX_SHCFG = 0xE0;
/* Disable Protect Win1&2*/
NPCX_WIN_WR_PROT(0) = 0;
NPCX_WIN_WR_PROT(1) = 0;
NPCX_WIN_RD_PROT(0) = 0;
NPCX_WIN_RD_PROT(1) = 0;
/* Open Win1 256 byte for Host CMD, Win2 256 for MEMMAP*/
NPCX_WIN_SIZE = 0x88;
NPCX_WIN_BASE(0) = (uint32_t)shm_mem_host_cmd;
NPCX_WIN_BASE(1) = (uint32_t)shm_memmap;
/* Write protect of Share memory */
NPCX_WIN_WR_PROT(1) = 0xFF;
/* Turn on PMC2 for Host Command usage */
SET_BIT(NPCX_HIPMCTL(PMC_HOST_CMD), 0);
SET_BIT(NPCX_HIPMCTL(PMC_HOST_CMD), 1);
/*
* Set required control value (avoid setting HOSTWAIT bit at this stage)
*/
NPCX_SMC_CTL = NPCX_SMC_CTL&~0x7F;
/* Clear status */
NPCX_SMC_STS = NPCX_SMC_STS;
/* Create mailbox */
/*
* Init KBC
* Clear OBF status flag, PM1 IBF/OBE INT enable, IRQ11 enable,
* IBF(K&M) INT enable, OBE(K&M) empty INT enable ,
* OBF Mouse Full INT enable and OBF KB Full INT enable
*/
NPCX_HICTRL = 0xFF;
/* Normally Polarity IRQ1,12,11 type (level + high) setting */
NPCX_HIIRQC = 0x00; /* Make sure to default */
/*
* Init PORT80
* Enable Port80, Enable Port80 function & Interrupt & Read auto
*/
NPCX_DP80CTL = 0x29;
SET_BIT(NPCX_GLUE_SDP_CTS, 3);
#if SUPPORT_P80_SEG
SET_BIT(NPCX_GLUE_SDP_CTS, 0);
#endif
lpc_task_enable_irq();
/* Initialize host args and memory map to all zero */
memset(lpc_host_args, 0, sizeof(*lpc_host_args));
memset(lpc_get_memmap_range(), 0, EC_MEMMAP_SIZE);
/* We support LPC args and version 3 protocol */
*(lpc_get_memmap_range() + EC_MEMMAP_HOST_CMD_FLAGS) =
EC_HOST_CMD_FLAG_LPC_ARGS_SUPPORTED |
EC_HOST_CMD_FLAG_VERSION_3;
/* Restore event masks if needed */
lpc_post_sysjump();
/* Sufficiently initialized */
init_done = 1;
/* Update host events now that we can copy them to memmap */
update_host_event_status();
/*
* TODO: For testing LPC with Chromebox, please make sure LPC_CLK is
* generated before executing this function. EC needs LPC_CLK to access
* LPC register through SIB module. For Chromebook platform, this
* functionality should be done by BIOS or executed in hook function of
* HOOK_CHIPSET_STARTUP
*/
#ifdef BOARD_NPCX_EVB
/* initial IO port address via SIB-write modules */
lpc_host_register_init();
#else
/* Initialize LRESET# interrupt */
/* Set detection mode to edge */
CLEAR_BIT(NPCX_WKMOD(MIWU_TABLE_0, MIWU_GROUP_5), 7);
/* Handle interrupting on rising edge */
CLEAR_BIT(NPCX_WKAEDG(MIWU_TABLE_0, MIWU_GROUP_5), 7);
SET_BIT(NPCX_WKEDG(MIWU_TABLE_0, MIWU_GROUP_5), 7);
/* Enable wake-up input sources */
SET_BIT(NPCX_WKEN(MIWU_TABLE_0, MIWU_GROUP_5), 7);
#endif
}
/*
* Set prio to higher than default; this way LPC memory mapped data is ready
* before other inits try to initialize their memmap data.
*/
DECLARE_HOOK(HOOK_INIT, lpc_init, HOOK_PRIO_INIT_LPC);
static void lpc_resume(void)
{
#ifdef CONFIG_POWER_S0IX
if (chipset_in_state(CHIPSET_STATE_SUSPEND | CHIPSET_STATE_ON))
#endif
{
/* Mask all host events until the host unmasks them itself. */
lpc_set_host_event_mask(LPC_HOST_EVENT_SMI, 0);
lpc_set_host_event_mask(LPC_HOST_EVENT_SCI, 0);
lpc_set_host_event_mask(LPC_HOST_EVENT_WAKE, 0);
}
/* Store port 80 event so we know where resume happened */
port_80_write(PORT_80_EVENT_RESUME);
}
DECLARE_HOOK(HOOK_CHIPSET_RESUME, lpc_resume, HOOK_PRIO_DEFAULT);
/* Get protocol information */
static int lpc_get_protocol_info(struct host_cmd_handler_args *args)
{
struct ec_response_get_protocol_info *r = args->response;
memset(r, 0, sizeof(*r));
r->protocol_versions = (1 << 2) | (1 << 3);
r->max_request_packet_size = EC_LPC_HOST_PACKET_SIZE;
r->max_response_packet_size = EC_LPC_HOST_PACKET_SIZE;
r->flags = 0;
args->response_size = sizeof(*r);
return EC_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_GET_PROTOCOL_INFO,
lpc_get_protocol_info,
EC_VER_MASK(0));
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