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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"
/*
* Pre-requisites: headers required by header of this unit
*/
#include "include/i2caux_interface.h"
#include "dc_bios_types.h"
/*
* Header of this unit
*/
#include "i2caux.h"
/*
* Post-requisites: headers required by this unit
*/
#include "engine.h"
#include "i2c_engine.h"
#include "aux_engine.h"
/*
* This unit
*/
#include "dce80/i2caux_dce80.h"
#include "dce100/i2caux_dce100.h"
#include "dce110/i2caux_dce110.h"
#include "dce112/i2caux_dce112.h"
#if defined(CONFIG_DRM_AMD_DC_DCE12_0)
#include "dce120/i2caux_dce120.h"
#endif
#include "diagnostics/i2caux_diag.h"
/*
* @brief
* Plain API, available publicly
*/
struct i2caux *dal_i2caux_create(
struct dc_context *ctx)
{
if (IS_FPGA_MAXIMUS_DC(ctx->dce_environment)) {
return dal_i2caux_diag_fpga_create(ctx);
}
switch (ctx->dce_version) {
case DCE_VERSION_8_0:
return dal_i2caux_dce80_create(ctx);
case DCE_VERSION_11_2:
return dal_i2caux_dce112_create(ctx);
case DCE_VERSION_11_0:
return dal_i2caux_dce110_create(ctx);
case DCE_VERSION_10_0:
return dal_i2caux_dce100_create(ctx);
#if defined(CONFIG_DRM_AMD_DC_DCE12_0)
case DCE_VERSION_12_0:
return dal_i2caux_dce120_create(ctx);
#endif
default:
BREAK_TO_DEBUGGER();
return NULL;
}
}
bool dal_i2caux_submit_i2c_command(
struct i2caux *i2caux,
struct ddc *ddc,
struct i2c_command *cmd)
{
struct i2c_engine *engine;
uint8_t index_of_payload = 0;
bool result;
if (!ddc) {
BREAK_TO_DEBUGGER();
return false;
}
if (!cmd) {
BREAK_TO_DEBUGGER();
return false;
}
/*
* default will be SW, however there is a feature flag in adapter
* service that determines whether SW i2c_engine will be available or
* not, if sw i2c is not available we will fallback to hw. This feature
* flag is set to not creating sw i2c engine for every dce except dce80
* currently
*/
switch (cmd->engine) {
case I2C_COMMAND_ENGINE_DEFAULT:
case I2C_COMMAND_ENGINE_SW:
/* try to acquire SW engine first,
* acquire HW engine if SW engine not available */
engine = i2caux->funcs->acquire_i2c_sw_engine(i2caux, ddc);
if (!engine)
engine = i2caux->funcs->acquire_i2c_hw_engine(
i2caux, ddc);
break;
case I2C_COMMAND_ENGINE_HW:
default:
/* try to acquire HW engine first,
* acquire SW engine if HW engine not available */
engine = i2caux->funcs->acquire_i2c_hw_engine(i2caux, ddc);
if (!engine)
engine = i2caux->funcs->acquire_i2c_sw_engine(
i2caux, ddc);
}
if (!engine)
return false;
engine->funcs->set_speed(engine, cmd->speed);
result = true;
while (index_of_payload < cmd->number_of_payloads) {
bool mot = (index_of_payload != cmd->number_of_payloads - 1);
struct i2c_payload *payload = cmd->payloads + index_of_payload;
struct i2caux_transaction_request request = { 0 };
request.operation = payload->write ?
I2CAUX_TRANSACTION_WRITE :
I2CAUX_TRANSACTION_READ;
request.payload.address_space =
I2CAUX_TRANSACTION_ADDRESS_SPACE_I2C;
request.payload.address = (payload->address << 1) |
!payload->write;
request.payload.length = payload->length;
request.payload.data = payload->data;
if (!engine->base.funcs->submit_request(
&engine->base, &request, mot)) {
result = false;
break;
}
++index_of_payload;
}
i2caux->funcs->release_engine(i2caux, &engine->base);
return result;
}
bool dal_i2caux_submit_aux_command(
struct i2caux *i2caux,
struct ddc *ddc,
struct aux_command *cmd)
{
struct aux_engine *engine;
uint8_t index_of_payload = 0;
bool result;
if (!ddc) {
BREAK_TO_DEBUGGER();
return false;
}
if (!cmd) {
BREAK_TO_DEBUGGER();
return false;
}
engine = i2caux->funcs->acquire_aux_engine(i2caux, ddc);
if (!engine)
return false;
engine->delay = cmd->defer_delay;
engine->max_defer_write_retry = cmd->max_defer_write_retry;
result = true;
while (index_of_payload < cmd->number_of_payloads) {
bool mot = (index_of_payload != cmd->number_of_payloads - 1);
struct aux_payload *payload = cmd->payloads + index_of_payload;
struct i2caux_transaction_request request = { 0 };
request.operation = payload->write ?
I2CAUX_TRANSACTION_WRITE :
I2CAUX_TRANSACTION_READ;
if (payload->i2c_over_aux) {
request.payload.address_space =
I2CAUX_TRANSACTION_ADDRESS_SPACE_I2C;
request.payload.address = (payload->address << 1) |
!payload->write;
} else {
request.payload.address_space =
I2CAUX_TRANSACTION_ADDRESS_SPACE_DPCD;
request.payload.address = payload->address;
}
request.payload.length = payload->length;
request.payload.data = payload->data;
if (!engine->base.funcs->submit_request(
&engine->base, &request, mot)) {
result = false;
break;
}
++index_of_payload;
}
i2caux->funcs->release_engine(i2caux, &engine->base);
return result;
}
static bool get_hw_supported_ddc_line(
struct ddc *ddc,
enum gpio_ddc_line *line)
{
enum gpio_ddc_line line_found;
if (!ddc) {
BREAK_TO_DEBUGGER();
return false;
}
if (!ddc->hw_info.hw_supported)
return false;
line_found = dal_ddc_get_line(ddc);
if (line_found >= GPIO_DDC_LINE_COUNT)
return false;
*line = line_found;
return true;
}
void dal_i2caux_configure_aux(
struct i2caux *i2caux,
struct ddc *ddc,
union aux_config cfg)
{
struct aux_engine *engine =
i2caux->funcs->acquire_aux_engine(i2caux, ddc);
if (!engine)
return;
engine->funcs->configure(engine, cfg);
i2caux->funcs->release_engine(i2caux, &engine->base);
}
void dal_i2caux_destroy(
struct i2caux **i2caux)
{
if (!i2caux || !*i2caux) {
BREAK_TO_DEBUGGER();
return;
}
(*i2caux)->funcs->destroy(i2caux);
*i2caux = NULL;
}
/*
* @brief
* An utility function used by 'struct i2caux' and its descendants
*/
uint32_t dal_i2caux_get_reference_clock(
struct dc_bios *bios)
{
struct firmware_info info = { { 0 } };
if (bios->funcs->get_firmware_info(bios, &info) != BP_RESULT_OK)
return 0;
return info.pll_info.crystal_frequency;
}
/*
* @brief
* i2caux
*/
enum {
/* following are expressed in KHz */
DEFAULT_I2C_SW_SPEED = 50,
DEFAULT_I2C_HW_SPEED = 50,
/* This is the timeout as defined in DP 1.2a,
* 2.3.4 "Detailed uPacket TX AUX CH State Description". */
AUX_TIMEOUT_PERIOD = 400,
/* Ideally, the SW timeout should be just above 550usec
* which is programmed in HW.
* But the SW timeout of 600usec is not reliable,
* because on some systems, delay_in_microseconds()
* returns faster than it should.
* EPR #379763: by trial-and-error on different systems,
* 700usec is the minimum reliable SW timeout for polling
* the AUX_SW_STATUS.AUX_SW_DONE bit.
* This timeout expires *only* when there is
* AUX Error or AUX Timeout conditions - not during normal operation.
* During normal operation, AUX_SW_STATUS.AUX_SW_DONE bit is set
* at most within ~240usec. That means,
* increasing this timeout will not affect normal operation,
* and we'll timeout after
* SW_AUX_TIMEOUT_PERIOD_MULTIPLIER * AUX_TIMEOUT_PERIOD = 1600usec.
* This timeout is especially important for
* resume from S3 and CTS. */
SW_AUX_TIMEOUT_PERIOD_MULTIPLIER = 4
};
struct i2c_engine *dal_i2caux_acquire_i2c_sw_engine(
struct i2caux *i2caux,
struct ddc *ddc)
{
enum gpio_ddc_line line;
struct i2c_engine *engine = NULL;
if (get_hw_supported_ddc_line(ddc, &line))
engine = i2caux->i2c_sw_engines[line];
if (!engine)
engine = i2caux->i2c_generic_sw_engine;
if (!engine)
return NULL;
if (!engine->base.funcs->acquire(&engine->base, ddc))
return NULL;
return engine;
}
struct aux_engine *dal_i2caux_acquire_aux_engine(
struct i2caux *i2caux,
struct ddc *ddc)
{
enum gpio_ddc_line line;
struct aux_engine *engine;
if (!get_hw_supported_ddc_line(ddc, &line))
return NULL;
engine = i2caux->aux_engines[line];
if (!engine)
return NULL;
if (!engine->base.funcs->acquire(&engine->base, ddc))
return NULL;
return engine;
}
void dal_i2caux_release_engine(
struct i2caux *i2caux,
struct engine *engine)
{
engine->funcs->release_engine(engine);
dal_ddc_close(engine->ddc);
engine->ddc = NULL;
}
bool dal_i2caux_construct(
struct i2caux *i2caux,
struct dc_context *ctx)
{
uint32_t i = 0;
i2caux->ctx = ctx;
do {
i2caux->i2c_sw_engines[i] = NULL;
i2caux->i2c_hw_engines[i] = NULL;
i2caux->aux_engines[i] = NULL;
++i;
} while (i < GPIO_DDC_LINE_COUNT);
i2caux->i2c_generic_sw_engine = NULL;
i2caux->i2c_generic_hw_engine = NULL;
i2caux->aux_timeout_period =
SW_AUX_TIMEOUT_PERIOD_MULTIPLIER * AUX_TIMEOUT_PERIOD;
i2caux->default_i2c_sw_speed = DEFAULT_I2C_SW_SPEED;
i2caux->default_i2c_hw_speed = DEFAULT_I2C_HW_SPEED;
return true;
}
void dal_i2caux_destruct(
struct i2caux *i2caux)
{
uint32_t i = 0;
if (i2caux->i2c_generic_hw_engine)
i2caux->i2c_generic_hw_engine->funcs->destroy(
&i2caux->i2c_generic_hw_engine);
if (i2caux->i2c_generic_sw_engine)
i2caux->i2c_generic_sw_engine->funcs->destroy(
&i2caux->i2c_generic_sw_engine);
do {
if (i2caux->aux_engines[i])
i2caux->aux_engines[i]->funcs->destroy(
&i2caux->aux_engines[i]);
if (i2caux->i2c_hw_engines[i])
i2caux->i2c_hw_engines[i]->funcs->destroy(
&i2caux->i2c_hw_engines[i]);
if (i2caux->i2c_sw_engines[i])
i2caux->i2c_sw_engines[i]->funcs->destroy(
&i2caux->i2c_sw_engines[i]);
++i;
} while (i < GPIO_DDC_LINE_COUNT);
}
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