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|
/* SPDX-License-Identifier: GPL-2.0-only */
/* This file is part of the coreboot project. */
#include <arch/io.h>
#include <device/mmio.h>
#include <device/pci_ops.h>
#include <console/console.h>
#include <delay.h>
#include <device/device.h>
#include <device/resource.h>
#include <device/pci.h>
#include <stdint.h>
#include <reg_script.h>
#if CONFIG(ARCH_X86)
#include <cpu/x86/msr.h>
#endif
#define HAS_IOSF (CONFIG(SOC_INTEL_BAYTRAIL))
#if HAS_IOSF
#include <soc/iosf.h> /* TODO: wrap in <soc/reg_script.h, remove #ifdef? */
#endif
#define POLL_DELAY 100 /* 100us */
#ifdef __SIMPLE_DEVICE__
#define EMPTY_DEV 0
#else
#define EMPTY_DEV NULL
#endif
#ifdef __SIMPLE_DEVICE__
static inline void reg_script_set_dev(struct reg_script_context *ctx,
pci_devfn_t dev)
#else
static inline void reg_script_set_dev(struct reg_script_context *ctx,
struct device *dev)
#endif
{
ctx->dev = dev;
ctx->res = NULL;
}
static inline void reg_script_set_step(struct reg_script_context *ctx,
const struct reg_script *step)
{
ctx->step = step;
}
static inline const struct reg_script *
reg_script_get_step(struct reg_script_context *ctx)
{
return ctx->step;
}
static struct resource *reg_script_get_resource(struct reg_script_context *ctx)
{
#ifdef __SIMPLE_DEVICE__
return NULL;
#else
struct resource *res;
const struct reg_script *step = reg_script_get_step(ctx);
res = ctx->res;
if (res != NULL && res->index == step->res_index)
return res;
res = find_resource(ctx->dev, step->res_index);
ctx->res = res;
return res;
#endif
}
static uint32_t reg_script_read_pci(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
return pci_read_config8(ctx->dev, step->reg);
case REG_SCRIPT_SIZE_16:
return pci_read_config16(ctx->dev, step->reg);
case REG_SCRIPT_SIZE_32:
return pci_read_config32(ctx->dev, step->reg);
}
return 0;
}
static void reg_script_write_pci(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
pci_write_config8(ctx->dev, step->reg, step->value);
break;
case REG_SCRIPT_SIZE_16:
pci_write_config16(ctx->dev, step->reg, step->value);
break;
case REG_SCRIPT_SIZE_32:
pci_write_config32(ctx->dev, step->reg, step->value);
break;
}
}
static uint32_t reg_script_read_io(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
return inb(step->reg);
case REG_SCRIPT_SIZE_16:
return inw(step->reg);
case REG_SCRIPT_SIZE_32:
return inl(step->reg);
}
return 0;
}
static void reg_script_write_io(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
outb(step->value, step->reg);
break;
case REG_SCRIPT_SIZE_16:
outw(step->value, step->reg);
break;
case REG_SCRIPT_SIZE_32:
outl(step->value, step->reg);
break;
}
}
static uint32_t reg_script_read_mmio(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
return read8((u8 *)step->reg);
case REG_SCRIPT_SIZE_16:
return read16((u16 *)step->reg);
case REG_SCRIPT_SIZE_32:
return read32((u32 *)step->reg);
}
return 0;
}
static void reg_script_write_mmio(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->size) {
case REG_SCRIPT_SIZE_8:
write8((u8 *)step->reg, step->value);
break;
case REG_SCRIPT_SIZE_16:
write16((u16 *)step->reg, step->value);
break;
case REG_SCRIPT_SIZE_32:
write32((u32 *)step->reg, step->value);
break;
}
}
static uint32_t reg_script_read_res(struct reg_script_context *ctx)
{
struct resource *res;
uint32_t val = 0;
const struct reg_script *step = reg_script_get_step(ctx);
res = reg_script_get_resource(ctx);
if (res == NULL)
return val;
if (res->flags & IORESOURCE_IO) {
const struct reg_script io_step = {
.size = step->size,
.reg = res->base + step->reg,
};
reg_script_set_step(ctx, &io_step);
val = reg_script_read_io(ctx);
} else if (res->flags & IORESOURCE_MEM) {
const struct reg_script mmio_step = {
.size = step->size,
.reg = res->base + step->reg,
};
reg_script_set_step(ctx, &mmio_step);
val = reg_script_read_mmio(ctx);
}
reg_script_set_step(ctx, step);
return val;
}
static void reg_script_write_res(struct reg_script_context *ctx)
{
struct resource *res;
const struct reg_script *step = reg_script_get_step(ctx);
res = reg_script_get_resource(ctx);
if (res == NULL)
return;
if (res->flags & IORESOURCE_IO) {
const struct reg_script io_step = {
.size = step->size,
.reg = res->base + step->reg,
.value = step->value,
};
reg_script_set_step(ctx, &io_step);
reg_script_write_io(ctx);
} else if (res->flags & IORESOURCE_MEM) {
const struct reg_script mmio_step = {
.size = step->size,
.reg = res->base + step->reg,
.value = step->value,
};
reg_script_set_step(ctx, &mmio_step);
reg_script_write_mmio(ctx);
}
reg_script_set_step(ctx, step);
}
#if HAS_IOSF
static uint32_t reg_script_read_iosf(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->id) {
case IOSF_PORT_AUNIT:
return iosf_aunit_read(step->reg);
case IOSF_PORT_CPU_BUS:
return iosf_cpu_bus_read(step->reg);
case IOSF_PORT_BUNIT:
return iosf_bunit_read(step->reg);
case IOSF_PORT_DUNIT_CH0:
return iosf_dunit_ch0_read(step->reg);
case IOSF_PORT_PMC:
return iosf_punit_read(step->reg);
case IOSF_PORT_USBPHY:
return iosf_usbphy_read(step->reg);
case IOSF_PORT_SEC:
return iosf_sec_read(step->reg);
case IOSF_PORT_0x45:
return iosf_port45_read(step->reg);
case IOSF_PORT_0x46:
return iosf_port46_read(step->reg);
case IOSF_PORT_0x47:
return iosf_port47_read(step->reg);
case IOSF_PORT_SCORE:
return iosf_score_read(step->reg);
case IOSF_PORT_0x55:
return iosf_port55_read(step->reg);
case IOSF_PORT_0x58:
return iosf_port58_read(step->reg);
case IOSF_PORT_0x59:
return iosf_port59_read(step->reg);
case IOSF_PORT_0x5a:
return iosf_port5a_read(step->reg);
case IOSF_PORT_USHPHY:
return iosf_ushphy_read(step->reg);
case IOSF_PORT_SCC:
return iosf_scc_read(step->reg);
case IOSF_PORT_LPSS:
return iosf_lpss_read(step->reg);
case IOSF_PORT_0xa2:
return iosf_porta2_read(step->reg);
case IOSF_PORT_CCU:
return iosf_ccu_read(step->reg);
case IOSF_PORT_SSUS:
return iosf_ssus_read(step->reg);
default:
printk(BIOS_DEBUG, "No read support for IOSF port 0x%x.\n",
step->id);
break;
}
return 0;
}
static void reg_script_write_iosf(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->id) {
case IOSF_PORT_AUNIT:
iosf_aunit_write(step->reg, step->value);
break;
case IOSF_PORT_CPU_BUS:
iosf_cpu_bus_write(step->reg, step->value);
break;
case IOSF_PORT_BUNIT:
iosf_bunit_write(step->reg, step->value);
break;
case IOSF_PORT_DUNIT_CH0:
iosf_dunit_write(step->reg, step->value);
break;
case IOSF_PORT_PMC:
iosf_punit_write(step->reg, step->value);
break;
case IOSF_PORT_USBPHY:
iosf_usbphy_write(step->reg, step->value);
break;
case IOSF_PORT_SEC:
iosf_sec_write(step->reg, step->value);
break;
case IOSF_PORT_0x45:
iosf_port45_write(step->reg, step->value);
break;
case IOSF_PORT_0x46:
iosf_port46_write(step->reg, step->value);
break;
case IOSF_PORT_0x47:
iosf_port47_write(step->reg, step->value);
break;
case IOSF_PORT_SCORE:
iosf_score_write(step->reg, step->value);
break;
case IOSF_PORT_0x55:
iosf_port55_write(step->reg, step->value);
break;
case IOSF_PORT_0x58:
iosf_port58_write(step->reg, step->value);
break;
case IOSF_PORT_0x59:
iosf_port59_write(step->reg, step->value);
break;
case IOSF_PORT_0x5a:
iosf_port5a_write(step->reg, step->value);
break;
case IOSF_PORT_USHPHY:
iosf_ushphy_write(step->reg, step->value);
break;
case IOSF_PORT_SCC:
iosf_scc_write(step->reg, step->value);
break;
case IOSF_PORT_LPSS:
iosf_lpss_write(step->reg, step->value);
break;
case IOSF_PORT_0xa2:
iosf_porta2_write(step->reg, step->value);
break;
case IOSF_PORT_CCU:
iosf_ccu_write(step->reg, step->value);
break;
case IOSF_PORT_SSUS:
iosf_ssus_write(step->reg, step->value);
break;
default:
printk(BIOS_DEBUG, "No write support for IOSF port 0x%x.\n",
step->id);
break;
}
}
#endif /* HAS_IOSF */
static uint64_t reg_script_read_msr(struct reg_script_context *ctx)
{
#if CONFIG(ARCH_X86)
const struct reg_script *step = reg_script_get_step(ctx);
msr_t msr = rdmsr(step->reg);
uint64_t value = msr.hi;
value <<= 32;
value |= msr.lo;
return value;
#endif
}
static void reg_script_write_msr(struct reg_script_context *ctx)
{
#if CONFIG(ARCH_X86)
const struct reg_script *step = reg_script_get_step(ctx);
msr_t msr;
msr.hi = step->value >> 32;
msr.lo = step->value & 0xffffffff;
wrmsr(step->reg, msr);
#endif
}
/* Locate the structure containing the platform specific bus access routines */
static const struct reg_script_bus_entry
*find_bus(const struct reg_script *step)
{
extern const struct reg_script_bus_entry *_rsbe_init_begin[];
extern const struct reg_script_bus_entry *_ersbe_init_begin[];
const struct reg_script_bus_entry * const *bus;
size_t table_entries;
size_t i;
/* Locate the platform specific bus */
bus = _rsbe_init_begin;
table_entries = &_ersbe_init_begin[0] - &_rsbe_init_begin[0];
for (i = 0; i < table_entries; i++) {
if (bus[i]->type == step->type)
return bus[i];
}
/* Bus not found */
return NULL;
}
static void reg_script_display(struct reg_script_context *ctx,
const struct reg_script *step, const char *arrow, uint64_t value)
{
/* Display the register address and data */
if (ctx->display_prefix != NULL)
printk(BIOS_INFO, "%s: ", ctx->display_prefix);
if (ctx->display_features & REG_SCRIPT_DISPLAY_REGISTER)
printk(BIOS_INFO, "0x%08x %s ", step->reg, arrow);
if (ctx->display_features & REG_SCRIPT_DISPLAY_VALUE)
switch (step->size) {
case REG_SCRIPT_SIZE_8:
printk(BIOS_INFO, "0x%02x\n", (uint8_t)value);
break;
case REG_SCRIPT_SIZE_16:
printk(BIOS_INFO, "0x%04x\n", (int16_t)value);
break;
case REG_SCRIPT_SIZE_32:
printk(BIOS_INFO, "0x%08x\n", (uint32_t)value);
break;
default:
printk(BIOS_INFO, "0x%016llx\n", value);
break;
}
}
static uint64_t reg_script_read(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
uint64_t value = 0;
switch (step->type) {
case REG_SCRIPT_TYPE_PCI:
ctx->display_prefix = "PCI";
value = reg_script_read_pci(ctx);
break;
case REG_SCRIPT_TYPE_IO:
ctx->display_prefix = "IO";
value = reg_script_read_io(ctx);
break;
case REG_SCRIPT_TYPE_MMIO:
ctx->display_prefix = "MMIO";
value = reg_script_read_mmio(ctx);
break;
case REG_SCRIPT_TYPE_RES:
ctx->display_prefix = "RES";
value = reg_script_read_res(ctx);
break;
case REG_SCRIPT_TYPE_MSR:
ctx->display_prefix = "MSR";
value = reg_script_read_msr(ctx);
break;
#if HAS_IOSF
case REG_SCRIPT_TYPE_IOSF:
ctx->display_prefix = "IOSF";
value = reg_script_read_iosf(ctx);
break;
#endif /* HAS_IOSF */
default:
{
const struct reg_script_bus_entry *bus;
/* Read from the platform specific bus */
bus = find_bus(step);
if (bus != NULL) {
value = bus->reg_script_read(ctx);
break;
}
}
printk(BIOS_ERR,
"Unsupported read type (0x%x) for this device!\n",
step->type);
return 0;
}
/* Display the register address and data */
if (ctx->display_features)
reg_script_display(ctx, step, "-->", value);
return value;
}
static void reg_script_write(struct reg_script_context *ctx)
{
const struct reg_script *step = reg_script_get_step(ctx);
switch (step->type) {
case REG_SCRIPT_TYPE_PCI:
ctx->display_prefix = "PCI";
reg_script_write_pci(ctx);
break;
case REG_SCRIPT_TYPE_IO:
ctx->display_prefix = "IO";
reg_script_write_io(ctx);
break;
case REG_SCRIPT_TYPE_MMIO:
ctx->display_prefix = "MMIO";
reg_script_write_mmio(ctx);
break;
case REG_SCRIPT_TYPE_RES:
ctx->display_prefix = "RES";
reg_script_write_res(ctx);
break;
case REG_SCRIPT_TYPE_MSR:
ctx->display_prefix = "MSR";
reg_script_write_msr(ctx);
break;
#if HAS_IOSF
case REG_SCRIPT_TYPE_IOSF:
ctx->display_prefix = "IOSF";
reg_script_write_iosf(ctx);
break;
#endif /* HAS_IOSF */
default:
{
const struct reg_script_bus_entry *bus;
/* Write to the platform specific bus */
bus = find_bus(step);
if (bus != NULL) {
bus->reg_script_write(ctx);
break;
}
}
printk(BIOS_ERR,
"Unsupported write type (0x%x) for this device!\n",
step->type);
return;
}
/* Display the register address and data */
if (ctx->display_features)
reg_script_display(ctx, step, "<--", step->value);
}
static void reg_script_rmw(struct reg_script_context *ctx)
{
uint64_t value;
const struct reg_script *step = reg_script_get_step(ctx);
struct reg_script write_step = *step;
value = reg_script_read(ctx);
value &= step->mask;
value |= step->value;
write_step.value = value;
reg_script_set_step(ctx, &write_step);
reg_script_write(ctx);
reg_script_set_step(ctx, step);
}
static void reg_script_rxw(struct reg_script_context *ctx)
{
uint64_t value;
const struct reg_script *step = reg_script_get_step(ctx);
struct reg_script write_step = *step;
/*
* XOR logic table
* Input XOR Value
* 0 0 0
* 0 1 1
* 1 0 1
* 1 1 0
*
* Supported operations
*
* Input Mask Temp XOR Value Operation
* 0 0 0 0 0 Clear bit
* 1 0 0 0 0
* 0 0 0 1 1 Set bit
* 1 0 0 1 1
* 0 1 0 0 0 Preserve bit
* 1 1 1 0 1
* 0 1 0 1 1 Toggle bit
* 1 1 1 1 0
*/
value = reg_script_read(ctx);
value &= step->mask;
value ^= step->value;
write_step.value = value;
reg_script_set_step(ctx, &write_step);
reg_script_write(ctx);
reg_script_set_step(ctx, step);
}
/* In order to easily chain scripts together handle the REG_SCRIPT_COMMAND_NEXT
* as recursive call with a new context that has the same dev and resource
* as the previous one. That will run to completion and then move on to the
* next step of the previous context. */
static void reg_script_run_next(struct reg_script_context *ctx,
const struct reg_script *step);
static void reg_script_run_step(struct reg_script_context *ctx,
const struct reg_script *step)
{
uint64_t value = 0, try;
ctx->display_features = ctx->display_state;
ctx->display_prefix = NULL;
switch (step->command) {
case REG_SCRIPT_COMMAND_READ:
(void)reg_script_read(ctx);
break;
case REG_SCRIPT_COMMAND_WRITE:
reg_script_write(ctx);
break;
case REG_SCRIPT_COMMAND_RMW:
reg_script_rmw(ctx);
break;
case REG_SCRIPT_COMMAND_RXW:
reg_script_rxw(ctx);
break;
case REG_SCRIPT_COMMAND_POLL:
for (try = 0; try < step->timeout; try += POLL_DELAY) {
value = reg_script_read(ctx) & step->mask;
if (value == step->value)
break;
udelay(POLL_DELAY);
}
if (try >= step->timeout)
printk(BIOS_WARNING, "%s: POLL timeout waiting for "
"0x%x to be 0x%lx, got 0x%lx\n", __func__,
step->reg, (unsigned long)step->value,
(unsigned long)value);
break;
case REG_SCRIPT_COMMAND_SET_DEV:
reg_script_set_dev(ctx, step->dev);
break;
case REG_SCRIPT_COMMAND_NEXT:
reg_script_run_next(ctx, step->next);
break;
case REG_SCRIPT_COMMAND_DISPLAY:
ctx->display_state = step->value;
break;
default:
printk(BIOS_WARNING, "Invalid command: %08x\n",
step->command);
break;
}
}
static void reg_script_run_with_context(struct reg_script_context *ctx)
{
while (1) {
const struct reg_script *step = reg_script_get_step(ctx);
if (step->command == REG_SCRIPT_COMMAND_END)
break;
reg_script_run_step(ctx, step);
reg_script_set_step(ctx, step + 1);
}
}
static void reg_script_run_next(struct reg_script_context *prev_ctx,
const struct reg_script *step)
{
struct reg_script_context ctx;
/* Use prev context as a basis but start at a new step. */
ctx = *prev_ctx;
reg_script_set_step(&ctx, step);
reg_script_run_with_context(&ctx);
}
#ifdef __SIMPLE_DEVICE__
void reg_script_run_on_dev(pci_devfn_t dev, const struct reg_script *step)
#else
void reg_script_run_on_dev(struct device *dev, const struct reg_script *step)
#endif
{
struct reg_script_context ctx;
ctx.display_state = REG_SCRIPT_DISPLAY_NOTHING;
reg_script_set_dev(&ctx, dev);
reg_script_set_step(&ctx, step);
reg_script_run_with_context(&ctx);
}
void reg_script_run(const struct reg_script *step)
{
reg_script_run_on_dev(EMPTY_DEV, step);
}
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