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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
*
*/
#include "dm_services.h"
#include "include/logger_interface.h"
/*
* Pre-requisites: headers required by header of this unit
*/
#include "include/i2caux_interface.h"
#include "../engine.h"
#include "../i2c_engine.h"
#include "../i2c_hw_engine.h"
#include "../i2c_generic_hw_engine.h"
/*
* Header of this unit
*/
#include "i2c_hw_engine_dce110.h"
/*
* Post-requisites: headers required by this unit
*/
#include "reg_helper.h"
/*
* This unit
*/
#define DC_LOGGER \
hw_engine->base.base.base.ctx->logger
enum dc_i2c_status {
DC_I2C_STATUS__DC_I2C_STATUS_IDLE,
DC_I2C_STATUS__DC_I2C_STATUS_USED_BY_SW,
DC_I2C_STATUS__DC_I2C_STATUS_USED_BY_HW
};
enum dc_i2c_arbitration {
DC_I2C_ARBITRATION__DC_I2C_SW_PRIORITY_NORMAL,
DC_I2C_ARBITRATION__DC_I2C_SW_PRIORITY_HIGH
};
enum {
/* No timeout in HW
* (timeout implemented in SW by querying status) */
I2C_SETUP_TIME_LIMIT = 255,
I2C_HW_BUFFER_SIZE = 538
};
/*
* @brief
* Cast pointer to 'struct i2c_hw_engine *'
* to pointer 'struct i2c_hw_engine_dce110 *'
*/
#define FROM_I2C_HW_ENGINE(ptr) \
container_of((ptr), struct i2c_hw_engine_dce110, base)
/*
* @brief
* Cast pointer to 'struct i2c_engine *'
* to pointer to 'struct i2c_hw_engine_dce110 *'
*/
#define FROM_I2C_ENGINE(ptr) \
FROM_I2C_HW_ENGINE(container_of((ptr), struct i2c_hw_engine, base))
/*
* @brief
* Cast pointer to 'struct engine *'
* to 'pointer to struct i2c_hw_engine_dce110 *'
*/
#define FROM_ENGINE(ptr) \
FROM_I2C_ENGINE(container_of((ptr), struct i2c_engine, base))
#define CTX \
hw_engine->base.base.base.ctx
#define REG(reg_name)\
(hw_engine->regs->reg_name)
#undef FN
#define FN(reg_name, field_name) \
hw_engine->i2c_shift->field_name, hw_engine->i2c_mask->field_name
#include "reg_helper.h"
static void disable_i2c_hw_engine(
struct i2c_hw_engine_dce110 *hw_engine)
{
REG_UPDATE_N(SETUP, 1, FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_ENABLE), 0);
}
static void release_engine(
struct engine *engine)
{
struct i2c_hw_engine_dce110 *hw_engine = FROM_ENGINE(engine);
struct i2c_engine *base = NULL;
bool safe_to_reset;
base = &hw_engine->base.base;
/* Restore original HW engine speed */
base->funcs->set_speed(base, hw_engine->base.original_speed);
/* Release I2C */
REG_UPDATE(DC_I2C_ARBITRATION, DC_I2C_SW_DONE_USING_I2C_REG, 1);
/* Reset HW engine */
{
uint32_t i2c_sw_status = 0;
REG_GET(DC_I2C_SW_STATUS, DC_I2C_SW_STATUS, &i2c_sw_status);
/* if used by SW, safe to reset */
safe_to_reset = (i2c_sw_status == 1);
}
if (safe_to_reset)
REG_UPDATE_2(
DC_I2C_CONTROL,
DC_I2C_SOFT_RESET, 1,
DC_I2C_SW_STATUS_RESET, 1);
else
REG_UPDATE(DC_I2C_CONTROL, DC_I2C_SW_STATUS_RESET, 1);
/* HW I2c engine - clock gating feature */
if (!hw_engine->engine_keep_power_up_count)
disable_i2c_hw_engine(hw_engine);
}
static bool setup_engine(
struct i2c_engine *i2c_engine)
{
struct i2c_hw_engine_dce110 *hw_engine = FROM_I2C_ENGINE(i2c_engine);
/* Program pin select */
REG_UPDATE_6(
DC_I2C_CONTROL,
DC_I2C_GO, 0,
DC_I2C_SOFT_RESET, 0,
DC_I2C_SEND_RESET, 0,
DC_I2C_SW_STATUS_RESET, 1,
DC_I2C_TRANSACTION_COUNT, 0,
DC_I2C_DDC_SELECT, hw_engine->engine_id);
/* Program time limit */
REG_UPDATE_N(
SETUP, 2,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_TIME_LIMIT), I2C_SETUP_TIME_LIMIT,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_ENABLE), 1);
/* Program HW priority
* set to High - interrupt software I2C at any time
* Enable restart of SW I2C that was interrupted by HW
* disable queuing of software while I2C is in use by HW */
REG_UPDATE_2(
DC_I2C_ARBITRATION,
DC_I2C_NO_QUEUED_SW_GO, 0,
DC_I2C_SW_PRIORITY, DC_I2C_ARBITRATION__DC_I2C_SW_PRIORITY_NORMAL);
return true;
}
static uint32_t get_speed(
const struct i2c_engine *i2c_engine)
{
const struct i2c_hw_engine_dce110 *hw_engine = FROM_I2C_ENGINE(i2c_engine);
uint32_t pre_scale = 0;
REG_GET(SPEED, DC_I2C_DDC1_PRESCALE, &pre_scale);
/* [anaumov] it seems following is unnecessary */
/*ASSERT(value.bits.DC_I2C_DDC1_PRESCALE);*/
return pre_scale ?
hw_engine->reference_frequency / pre_scale :
hw_engine->base.default_speed;
}
static void set_speed(
struct i2c_engine *i2c_engine,
uint32_t speed)
{
struct i2c_hw_engine_dce110 *hw_engine = FROM_I2C_ENGINE(i2c_engine);
if (speed) {
if (hw_engine->i2c_mask->DC_I2C_DDC1_START_STOP_TIMING_CNTL)
REG_UPDATE_N(
SPEED, 3,
FN(DC_I2C_DDC1_SPEED, DC_I2C_DDC1_PRESCALE), hw_engine->reference_frequency / speed,
FN(DC_I2C_DDC1_SPEED, DC_I2C_DDC1_THRESHOLD), 2,
FN(DC_I2C_DDC1_SPEED, DC_I2C_DDC1_START_STOP_TIMING_CNTL), speed > 50 ? 2:1);
else
REG_UPDATE_N(
SPEED, 2,
FN(DC_I2C_DDC1_SPEED, DC_I2C_DDC1_PRESCALE), hw_engine->reference_frequency / speed,
FN(DC_I2C_DDC1_SPEED, DC_I2C_DDC1_THRESHOLD), 2);
}
}
static inline void reset_hw_engine(struct engine *engine)
{
struct i2c_hw_engine_dce110 *hw_engine = FROM_ENGINE(engine);
REG_UPDATE_2(
DC_I2C_CONTROL,
DC_I2C_SW_STATUS_RESET, 1,
DC_I2C_SW_STATUS_RESET, 1);
}
static bool is_hw_busy(struct engine *engine)
{
struct i2c_hw_engine_dce110 *hw_engine = FROM_ENGINE(engine);
uint32_t i2c_sw_status = 0;
REG_GET(DC_I2C_SW_STATUS, DC_I2C_SW_STATUS, &i2c_sw_status);
if (i2c_sw_status == DC_I2C_STATUS__DC_I2C_STATUS_IDLE)
return false;
reset_hw_engine(engine);
REG_GET(DC_I2C_SW_STATUS, DC_I2C_SW_STATUS, &i2c_sw_status);
return i2c_sw_status != DC_I2C_STATUS__DC_I2C_STATUS_IDLE;
}
#define STOP_TRANS_PREDICAT \
((hw_engine->transaction_count == 3) || \
(request->action == I2CAUX_TRANSACTION_ACTION_I2C_WRITE) || \
(request->action & I2CAUX_TRANSACTION_ACTION_I2C_READ))
#define SET_I2C_TRANSACTION(id) \
do { \
REG_UPDATE_N(DC_I2C_TRANSACTION##id, 5, \
FN(DC_I2C_TRANSACTION0, DC_I2C_STOP_ON_NACK0), 1, \
FN(DC_I2C_TRANSACTION0, DC_I2C_START0), 1, \
FN(DC_I2C_TRANSACTION0, DC_I2C_STOP0), STOP_TRANS_PREDICAT ? 1:0, \
FN(DC_I2C_TRANSACTION0, DC_I2C_RW0), (0 != (request->action & I2CAUX_TRANSACTION_ACTION_I2C_READ)), \
FN(DC_I2C_TRANSACTION0, DC_I2C_COUNT0), length); \
if (STOP_TRANS_PREDICAT) \
last_transaction = true; \
} while (false)
static bool process_transaction(
struct i2c_hw_engine_dce110 *hw_engine,
struct i2c_request_transaction_data *request)
{
uint32_t length = request->length;
uint8_t *buffer = request->data;
uint32_t value = 0;
bool last_transaction = false;
struct dc_context *ctx = NULL;
ctx = hw_engine->base.base.base.ctx;
switch (hw_engine->transaction_count) {
case 0:
SET_I2C_TRANSACTION(0);
break;
case 1:
SET_I2C_TRANSACTION(1);
break;
case 2:
SET_I2C_TRANSACTION(2);
break;
case 3:
SET_I2C_TRANSACTION(3);
break;
default:
/* TODO Warning ? */
break;
}
/* Write the I2C address and I2C data
* into the hardware circular buffer, one byte per entry.
* As an example, the 7-bit I2C slave address for CRT monitor
* for reading DDC/EDID information is 0b1010001.
* For an I2C send operation, the LSB must be programmed to 0;
* for I2C receive operation, the LSB must be programmed to 1. */
if (hw_engine->transaction_count == 0) {
value = REG_SET_4(DC_I2C_DATA, 0,
DC_I2C_DATA_RW, false,
DC_I2C_DATA, request->address,
DC_I2C_INDEX, 0,
DC_I2C_INDEX_WRITE, 1);
hw_engine->buffer_used_write = 0;
} else
value = REG_SET_2(DC_I2C_DATA, 0,
DC_I2C_DATA_RW, false,
DC_I2C_DATA, request->address);
hw_engine->buffer_used_write++;
if (!(request->action & I2CAUX_TRANSACTION_ACTION_I2C_READ)) {
while (length) {
REG_SET_2(DC_I2C_DATA, value,
DC_I2C_INDEX_WRITE, 0,
DC_I2C_DATA, *buffer++);
hw_engine->buffer_used_write++;
--length;
}
}
++hw_engine->transaction_count;
hw_engine->buffer_used_bytes += length + 1;
return last_transaction;
}
static void execute_transaction(
struct i2c_hw_engine_dce110 *hw_engine)
{
REG_UPDATE_N(SETUP, 5,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_DATA_DRIVE_EN), 0,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_CLK_DRIVE_EN), 0,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_DATA_DRIVE_SEL), 0,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_INTRA_TRANSACTION_DELAY), 0,
FN(DC_I2C_DDC1_SETUP, DC_I2C_DDC1_INTRA_BYTE_DELAY), 0);
REG_UPDATE_5(DC_I2C_CONTROL,
DC_I2C_SOFT_RESET, 0,
DC_I2C_SW_STATUS_RESET, 0,
DC_I2C_SEND_RESET, 0,
DC_I2C_GO, 0,
DC_I2C_TRANSACTION_COUNT, hw_engine->transaction_count - 1);
/* start I2C transfer */
REG_UPDATE(DC_I2C_CONTROL, DC_I2C_GO, 1);
/* all transactions were executed and HW buffer became empty
* (even though it actually happens when status becomes DONE) */
hw_engine->transaction_count = 0;
hw_engine->buffer_used_bytes = 0;
}
static void submit_channel_request(
struct i2c_engine *engine,
struct i2c_request_transaction_data *request)
{
request->status = I2C_CHANNEL_OPERATION_SUCCEEDED;
if (!process_transaction(FROM_I2C_ENGINE(engine), request))
return;
if (is_hw_busy(&engine->base)) {
request->status = I2C_CHANNEL_OPERATION_ENGINE_BUSY;
return;
}
execute_transaction(FROM_I2C_ENGINE(engine));
}
static void process_channel_reply(
struct i2c_engine *engine,
struct i2c_reply_transaction_data *reply)
{
uint32_t length = reply->length;
uint8_t *buffer = reply->data;
struct i2c_hw_engine_dce110 *hw_engine =
FROM_I2C_ENGINE(engine);
REG_SET_3(DC_I2C_DATA, 0,
DC_I2C_INDEX, hw_engine->buffer_used_write,
DC_I2C_DATA_RW, 1,
DC_I2C_INDEX_WRITE, 1);
while (length) {
/* after reading the status,
* if the I2C operation executed successfully
* (i.e. DC_I2C_STATUS_DONE = 1) then the I2C controller
* should read data bytes from I2C circular data buffer */
uint32_t i2c_data;
REG_GET(DC_I2C_DATA, DC_I2C_DATA, &i2c_data);
*buffer++ = i2c_data;
--length;
}
}
static enum i2c_channel_operation_result get_channel_status(
struct i2c_engine *i2c_engine,
uint8_t *returned_bytes)
{
uint32_t i2c_sw_status = 0;
struct i2c_hw_engine_dce110 *hw_engine = FROM_I2C_ENGINE(i2c_engine);
uint32_t value =
REG_GET(DC_I2C_SW_STATUS, DC_I2C_SW_STATUS, &i2c_sw_status);
if (i2c_sw_status == DC_I2C_STATUS__DC_I2C_STATUS_USED_BY_SW)
return I2C_CHANNEL_OPERATION_ENGINE_BUSY;
else if (value & hw_engine->i2c_mask->DC_I2C_SW_STOPPED_ON_NACK)
return I2C_CHANNEL_OPERATION_NO_RESPONSE;
else if (value & hw_engine->i2c_mask->DC_I2C_SW_TIMEOUT)
return I2C_CHANNEL_OPERATION_TIMEOUT;
else if (value & hw_engine->i2c_mask->DC_I2C_SW_ABORTED)
return I2C_CHANNEL_OPERATION_FAILED;
else if (value & hw_engine->i2c_mask->DC_I2C_SW_DONE)
return I2C_CHANNEL_OPERATION_SUCCEEDED;
/*
* this is the case when HW used for communication, I2C_SW_STATUS
* could be zero
*/
return I2C_CHANNEL_OPERATION_SUCCEEDED;
}
static uint32_t get_hw_buffer_available_size(
const struct i2c_hw_engine *engine)
{
return I2C_HW_BUFFER_SIZE -
FROM_I2C_HW_ENGINE(engine)->buffer_used_bytes;
}
static uint32_t get_transaction_timeout(
const struct i2c_hw_engine *engine,
uint32_t length)
{
uint32_t speed = engine->base.funcs->get_speed(&engine->base);
uint32_t period_timeout;
uint32_t num_of_clock_stretches;
if (!speed)
return 0;
period_timeout = (1000 * TRANSACTION_TIMEOUT_IN_I2C_CLOCKS) / speed;
num_of_clock_stretches = 1 + (length << 3) + 1;
num_of_clock_stretches +=
(FROM_I2C_HW_ENGINE(engine)->buffer_used_bytes << 3) +
(FROM_I2C_HW_ENGINE(engine)->transaction_count << 1);
return period_timeout * num_of_clock_stretches;
}
static void destroy(
struct i2c_engine **i2c_engine)
{
struct i2c_hw_engine_dce110 *engine_dce110 =
FROM_I2C_ENGINE(*i2c_engine);
dal_i2c_hw_engine_destruct(&engine_dce110->base);
kfree(engine_dce110);
*i2c_engine = NULL;
}
static const struct i2c_engine_funcs i2c_engine_funcs = {
.destroy = destroy,
.get_speed = get_speed,
.set_speed = set_speed,
.setup_engine = setup_engine,
.submit_channel_request = submit_channel_request,
.process_channel_reply = process_channel_reply,
.get_channel_status = get_channel_status,
.acquire_engine = dal_i2c_hw_engine_acquire_engine,
};
static const struct engine_funcs engine_funcs = {
.release_engine = release_engine,
.get_engine_type = dal_i2c_hw_engine_get_engine_type,
.acquire = dal_i2c_engine_acquire,
.submit_request = dal_i2c_hw_engine_submit_request,
};
static const struct i2c_hw_engine_funcs i2c_hw_engine_funcs = {
.get_hw_buffer_available_size = get_hw_buffer_available_size,
.get_transaction_timeout = get_transaction_timeout,
.wait_on_operation_result = dal_i2c_hw_engine_wait_on_operation_result,
};
static void construct(
struct i2c_hw_engine_dce110 *hw_engine,
const struct i2c_hw_engine_dce110_create_arg *arg)
{
uint32_t xtal_ref_div = 0;
dal_i2c_hw_engine_construct(&hw_engine->base, arg->ctx);
hw_engine->base.base.base.funcs = &engine_funcs;
hw_engine->base.base.funcs = &i2c_engine_funcs;
hw_engine->base.funcs = &i2c_hw_engine_funcs;
hw_engine->base.default_speed = arg->default_speed;
hw_engine->regs = arg->regs;
hw_engine->i2c_shift = arg->i2c_shift;
hw_engine->i2c_mask = arg->i2c_mask;
hw_engine->engine_id = arg->engine_id;
hw_engine->buffer_used_bytes = 0;
hw_engine->transaction_count = 0;
hw_engine->engine_keep_power_up_count = 1;
REG_GET(MICROSECOND_TIME_BASE_DIV, XTAL_REF_DIV, &xtal_ref_div);
if (xtal_ref_div == 0) {
DC_LOG_WARNING("Invalid base timer divider\n",
__func__);
xtal_ref_div = 2;
}
/*Calculating Reference Clock by divding original frequency by
* XTAL_REF_DIV.
* At upper level, uint32_t reference_frequency =
* dal_i2caux_get_reference_clock(as) >> 1
* which already divided by 2. So we need x2 to get original
* reference clock from ppll_info
*/
hw_engine->reference_frequency =
(arg->reference_frequency * 2) / xtal_ref_div;
}
struct i2c_engine *dal_i2c_hw_engine_dce110_create(
const struct i2c_hw_engine_dce110_create_arg *arg)
{
struct i2c_hw_engine_dce110 *engine_dce10;
if (!arg) {
ASSERT_CRITICAL(false);
return NULL;
}
if (!arg->reference_frequency) {
ASSERT_CRITICAL(false);
return NULL;
}
engine_dce10 = kzalloc(sizeof(struct i2c_hw_engine_dce110),
GFP_KERNEL);
if (!engine_dce10) {
ASSERT_CRITICAL(false);
return NULL;
}
construct(engine_dce10, arg);
return &engine_dce10->base.base;
}
|
