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/*
* Copyright 2012-15 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Authors: AMD
*
*/
/*
* Pre-requisites: headers required by header of this unit
*/
#include <linux/slab.h>
#include "dm_services.h"
#include "include/gpio_interface.h"
#include "include/gpio_service_interface.h"
#include "hw_translate.h"
#include "hw_factory.h"
/*
* Header of this unit
*/
#include "gpio_service.h"
/*
* Post-requisites: headers required by this unit
*/
#include "hw_gpio.h"
/*
* @brief
* Public API.
*/
struct gpio_service *dal_gpio_service_create(
enum dce_version dce_version,
enum dce_environment dce_environment,
struct dc_context *ctx)
{
struct gpio_service *service;
uint32_t index_of_id;
service = kzalloc(sizeof(struct gpio_service), GFP_KERNEL);
if (!service) {
BREAK_TO_DEBUGGER();
return NULL;
}
if (!dal_hw_translate_init(&service->translate, dce_version,
dce_environment)) {
BREAK_TO_DEBUGGER();
goto failure_1;
}
if (!dal_hw_factory_init(&service->factory, dce_version,
dce_environment)) {
BREAK_TO_DEBUGGER();
goto failure_1;
}
/* allocate and initialize busyness storage */
{
index_of_id = 0;
service->ctx = ctx;
do {
uint32_t number_of_bits =
service->factory.number_of_pins[index_of_id];
uint32_t i = 0;
if (number_of_bits) {
service->busyness[index_of_id] =
kcalloc(number_of_bits, sizeof(char),
GFP_KERNEL);
if (!service->busyness[index_of_id]) {
BREAK_TO_DEBUGGER();
goto failure_2;
}
do {
service->busyness[index_of_id][i] = 0;
++i;
} while (i < number_of_bits);
} else {
service->busyness[index_of_id] = NULL;
}
++index_of_id;
} while (index_of_id < GPIO_ID_COUNT);
}
return service;
failure_2:
while (index_of_id) {
--index_of_id;
kfree(service->busyness[index_of_id]);
}
failure_1:
kfree(service);
return NULL;
}
struct gpio *dal_gpio_service_create_irq(
struct gpio_service *service,
uint32_t offset,
uint32_t mask)
{
enum gpio_id id;
uint32_t en;
if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
ASSERT_CRITICAL(false);
return NULL;
}
return dal_gpio_create_irq(service, id, en);
}
struct gpio *dal_gpio_service_create_generic_mux(
struct gpio_service *service,
uint32_t offset,
uint32_t mask)
{
enum gpio_id id;
uint32_t en;
struct gpio *generic;
if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
ASSERT_CRITICAL(false);
return NULL;
}
generic = dal_gpio_create(
service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
return generic;
}
void dal_gpio_destroy_generic_mux(
struct gpio **mux)
{
if (!mux || !*mux) {
ASSERT_CRITICAL(false);
return;
}
dal_gpio_destroy(mux);
kfree(*mux);
*mux = NULL;
}
struct gpio_pin_info dal_gpio_get_generic_pin_info(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
struct gpio_pin_info pin;
if (service->translate.funcs->id_to_offset) {
service->translate.funcs->id_to_offset(id, en, &pin);
} else {
pin.mask = 0xFFFFFFFF;
pin.offset = 0xFFFFFFFF;
}
return pin;
}
void dal_gpio_service_destroy(
struct gpio_service **ptr)
{
if (!ptr || !*ptr) {
BREAK_TO_DEBUGGER();
return;
}
/* free business storage */
{
uint32_t index_of_id = 0;
do {
kfree((*ptr)->busyness[index_of_id]);
++index_of_id;
} while (index_of_id < GPIO_ID_COUNT);
}
kfree(*ptr);
*ptr = NULL;
}
enum gpio_result dal_mux_setup_config(
struct gpio *mux,
struct gpio_generic_mux_config *config)
{
struct gpio_config_data config_data;
if (!config)
return GPIO_RESULT_INVALID_DATA;
config_data.config.generic_mux = *config;
config_data.type = GPIO_CONFIG_TYPE_GENERIC_MUX;
return dal_gpio_set_config(mux, &config_data);
}
/*
* @brief
* Private API.
*/
static bool is_pin_busy(
const struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
return service->busyness[id][en];
}
static void set_pin_busy(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
service->busyness[id][en] = true;
}
static void set_pin_free(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
service->busyness[id][en] = false;
}
enum gpio_result dal_gpio_service_lock(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
if (!service->busyness[id]) {
ASSERT_CRITICAL(false);
return GPIO_RESULT_OPEN_FAILED;
}
set_pin_busy(service, id, en);
return GPIO_RESULT_OK;
}
enum gpio_result dal_gpio_service_unlock(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
if (!service->busyness[id]) {
ASSERT_CRITICAL(false);
return GPIO_RESULT_OPEN_FAILED;
}
set_pin_free(service, id, en);
return GPIO_RESULT_OK;
}
enum gpio_result dal_gpio_service_open(
struct gpio *gpio)
{
struct gpio_service *service = gpio->service;
enum gpio_id id = gpio->id;
uint32_t en = gpio->en;
enum gpio_mode mode = gpio->mode;
struct hw_gpio_pin **pin = &gpio->pin;
if (!service->busyness[id]) {
ASSERT_CRITICAL(false);
return GPIO_RESULT_OPEN_FAILED;
}
if (is_pin_busy(service, id, en)) {
ASSERT_CRITICAL(false);
return GPIO_RESULT_DEVICE_BUSY;
}
switch (id) {
case GPIO_ID_DDC_DATA:
*pin = service->factory.funcs->get_ddc_pin(gpio);
service->factory.funcs->define_ddc_registers(*pin, en);
break;
case GPIO_ID_DDC_CLOCK:
*pin = service->factory.funcs->get_ddc_pin(gpio);
service->factory.funcs->define_ddc_registers(*pin, en);
break;
case GPIO_ID_GENERIC:
*pin = service->factory.funcs->get_generic_pin(gpio);
service->factory.funcs->define_generic_registers(*pin, en);
break;
case GPIO_ID_HPD:
*pin = service->factory.funcs->get_hpd_pin(gpio);
service->factory.funcs->define_hpd_registers(*pin, en);
break;
//TODO: gsl and sync support? create_sync and create_gsl are NULL
case GPIO_ID_SYNC:
case GPIO_ID_GSL:
break;
default:
ASSERT_CRITICAL(false);
return GPIO_RESULT_NON_SPECIFIC_ERROR;
}
if (!*pin) {
ASSERT_CRITICAL(false);
return GPIO_RESULT_NON_SPECIFIC_ERROR;
}
if (!(*pin)->funcs->open(*pin, mode)) {
ASSERT_CRITICAL(false);
dal_gpio_service_close(service, pin);
return GPIO_RESULT_OPEN_FAILED;
}
set_pin_busy(service, id, en);
return GPIO_RESULT_OK;
}
void dal_gpio_service_close(
struct gpio_service *service,
struct hw_gpio_pin **ptr)
{
struct hw_gpio_pin *pin;
if (!ptr) {
ASSERT_CRITICAL(false);
return;
}
pin = *ptr;
if (pin) {
set_pin_free(service, pin->id, pin->en);
pin->funcs->close(pin);
*ptr = NULL;
}
}
enum dc_irq_source dal_irq_get_source(
const struct gpio *irq)
{
enum gpio_id id = dal_gpio_get_id(irq);
switch (id) {
case GPIO_ID_HPD:
return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1 +
dal_gpio_get_enum(irq));
case GPIO_ID_GPIO_PAD:
return (enum dc_irq_source)(DC_IRQ_SOURCE_GPIOPAD0 +
dal_gpio_get_enum(irq));
default:
return DC_IRQ_SOURCE_INVALID;
}
}
enum dc_irq_source dal_irq_get_rx_source(
const struct gpio *irq)
{
enum gpio_id id = dal_gpio_get_id(irq);
switch (id) {
case GPIO_ID_HPD:
return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1RX +
dal_gpio_get_enum(irq));
default:
return DC_IRQ_SOURCE_INVALID;
}
}
enum gpio_result dal_irq_setup_hpd_filter(
struct gpio *irq,
struct gpio_hpd_config *config)
{
struct gpio_config_data config_data;
if (!config)
return GPIO_RESULT_INVALID_DATA;
config_data.type = GPIO_CONFIG_TYPE_HPD;
config_data.config.hpd = *config;
return dal_gpio_set_config(irq, &config_data);
}
/*
* @brief
* Creation and destruction
*/
struct gpio *dal_gpio_create_irq(
struct gpio_service *service,
enum gpio_id id,
uint32_t en)
{
struct gpio *irq;
switch (id) {
case GPIO_ID_HPD:
case GPIO_ID_GPIO_PAD:
break;
default:
id = GPIO_ID_HPD;
ASSERT_CRITICAL(false);
return NULL;
}
irq = dal_gpio_create(
service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
if (irq)
return irq;
ASSERT_CRITICAL(false);
return NULL;
}
void dal_gpio_destroy_irq(
struct gpio **irq)
{
if (!irq || !*irq) {
ASSERT_CRITICAL(false);
return;
}
dal_gpio_destroy(irq);
kfree(*irq);
*irq = NULL;
}
struct ddc *dal_gpio_create_ddc(
struct gpio_service *service,
uint32_t offset,
uint32_t mask,
struct gpio_ddc_hw_info *info)
{
enum gpio_id id;
uint32_t en;
struct ddc *ddc;
if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en))
return NULL;
ddc = kzalloc(sizeof(struct ddc), GFP_KERNEL);
if (!ddc) {
BREAK_TO_DEBUGGER();
return NULL;
}
ddc->pin_data = dal_gpio_create(
service, GPIO_ID_DDC_DATA, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
if (!ddc->pin_data) {
BREAK_TO_DEBUGGER();
goto failure_1;
}
ddc->pin_clock = dal_gpio_create(
service, GPIO_ID_DDC_CLOCK, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
if (!ddc->pin_clock) {
BREAK_TO_DEBUGGER();
goto failure_2;
}
ddc->hw_info = *info;
ddc->ctx = service->ctx;
return ddc;
failure_2:
dal_gpio_destroy(&ddc->pin_data);
failure_1:
kfree(ddc);
return NULL;
}
void dal_gpio_destroy_ddc(
struct ddc **ddc)
{
if (!ddc || !*ddc) {
BREAK_TO_DEBUGGER();
return;
}
dal_ddc_close(*ddc);
dal_gpio_destroy(&(*ddc)->pin_data);
dal_gpio_destroy(&(*ddc)->pin_clock);
kfree(*ddc);
*ddc = NULL;
}
enum gpio_result dal_ddc_open(
struct ddc *ddc,
enum gpio_mode mode,
enum gpio_ddc_config_type config_type)
{
enum gpio_result result;
struct gpio_config_data config_data;
struct hw_gpio *hw_data;
struct hw_gpio *hw_clock;
result = dal_gpio_open_ex(ddc->pin_data, mode);
if (result != GPIO_RESULT_OK) {
BREAK_TO_DEBUGGER();
return result;
}
result = dal_gpio_open_ex(ddc->pin_clock, mode);
if (result != GPIO_RESULT_OK) {
BREAK_TO_DEBUGGER();
goto failure;
}
/* DDC clock and data pins should belong
* to the same DDC block id,
* we use the data pin to set the pad mode. */
if (mode == GPIO_MODE_INPUT)
/* this is from detect_sink_type,
* we need extra delay there */
config_data.type = GPIO_CONFIG_TYPE_I2C_AUX_DUAL_MODE;
else
config_data.type = GPIO_CONFIG_TYPE_DDC;
config_data.config.ddc.type = config_type;
hw_data = FROM_HW_GPIO_PIN(ddc->pin_data->pin);
hw_clock = FROM_HW_GPIO_PIN(ddc->pin_clock->pin);
config_data.config.ddc.data_en_bit_present = hw_data->store.en != 0;
config_data.config.ddc.clock_en_bit_present = hw_clock->store.en != 0;
result = dal_gpio_set_config(ddc->pin_data, &config_data);
if (result == GPIO_RESULT_OK)
return result;
BREAK_TO_DEBUGGER();
dal_gpio_close(ddc->pin_clock);
failure:
dal_gpio_close(ddc->pin_data);
return result;
}
enum gpio_result dal_ddc_change_mode(
struct ddc *ddc,
enum gpio_mode mode)
{
enum gpio_result result;
enum gpio_mode original_mode =
dal_gpio_get_mode(ddc->pin_data);
result = dal_gpio_change_mode(ddc->pin_data, mode);
/* [anaumov] DAL2 code returns GPIO_RESULT_NON_SPECIFIC_ERROR
* in case of failures;
* set_mode() is so that, in case of failure,
* we must explicitly set original mode */
if (result != GPIO_RESULT_OK)
goto failure;
result = dal_gpio_change_mode(ddc->pin_clock, mode);
if (result == GPIO_RESULT_OK)
return result;
dal_gpio_change_mode(ddc->pin_clock, original_mode);
failure:
dal_gpio_change_mode(ddc->pin_data, original_mode);
return result;
}
enum gpio_ddc_line dal_ddc_get_line(
const struct ddc *ddc)
{
return (enum gpio_ddc_line)dal_gpio_get_enum(ddc->pin_data);
}
enum gpio_result dal_ddc_set_config(
struct ddc *ddc,
enum gpio_ddc_config_type config_type)
{
struct gpio_config_data config_data;
config_data.type = GPIO_CONFIG_TYPE_DDC;
config_data.config.ddc.type = config_type;
config_data.config.ddc.data_en_bit_present = false;
config_data.config.ddc.clock_en_bit_present = false;
return dal_gpio_set_config(ddc->pin_data, &config_data);
}
void dal_ddc_close(
struct ddc *ddc)
{
dal_gpio_close(ddc->pin_clock);
dal_gpio_close(ddc->pin_data);
}
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