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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/include/usr/devicefw/driverif.H $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2011,2019 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
/** @file driverif.H
* @brief Provides the device driver interfaces for performing device access
* and enabling routing registration.
*
* @note These interfaces should only be used by device drivers. User code
* wanting to perform device operations should use userif.H instead.
*/
#ifndef __DEVICEFW_DRIVERIF
#define __DEVICEFW_DRIVERIF
#ifndef PARSER
#include <devicefw/userif.H>
#include <stdarg.h>
#include <builtins.h>
#include <targeting/common/targetservice.H>
#endif // not PARSER
namespace I2C_MUX
{
enum SELECTOR: uint8_t
{
NOT_APPLICABLE = 0xFF,
};
}
namespace DeviceFW
{
/** @enum AccessType_DriverOnly
* @brief Access types to be used internally by drivers for routing
* requests to other drivers.
*/
enum AccessType_DriverOnly
{
XSCOM = LAST_ACCESS_TYPE,
I2C,
FSISCOM,
IBSCOM,
HOSTI2C,
FSI_I2C,
SBEFIFOSCOM,
I2CSCOM,
I2C_MUX,
LAST_DRIVER_ACCESS_TYPE
};
/** @enum OperationType
* @brief Set of operations which can be registered for.
*/
enum OperationType
{
READ = 0,
WRITE,
LAST_OP_TYPE,
FIRST_OP_TYPE = READ
};
/** @enum DriverSpecial
* @brief Special Wildcard enum that can be used for drivers to do
* routing registrations.
*/
enum DriverSpecial
{
WILDCARD = -1,
};
/**
* @brief Enum indicating which type of I2C sub-operation
* to perform
*/
enum I2C_SUBOP : uint64_t
{
I2C_STANDARD = 0, ///< Traditional I2C
I2C_PAGE_OP = 1, ///< Page operation
I2C_SMBUS_BLOCK = 2, ///< I2c SMBUS Block Read/Write
I2C_SMBUS_WORD = 3, ///< I2c SMBUS Read/Write Word
I2C_SMBUS_BYTE = 4, ///< I2c SMBUS Read/Write Byte
I2C_SMBUS_SEND_OR_RECV = 5, ///< I2c SMBUS Send/Receive Byte
};
#ifndef PARSER
/** Construct the device addressing parameters for FSISCOM device ops.
* @param[in] i_address - FSISCOM address to operate on.
*/
#define DEVICE_FSISCOM_ADDRESS(i_address) \
DeviceFW::FSISCOM, static_cast<uint64_t>((i_address))
/** Construct the device addressing parameters for XSCOM device ops.
* @param[in] i_address - XSCom address to operate on.
*/
#define DEVICE_XSCOM_ADDRESS(i_address) \
DeviceFW::XSCOM, static_cast<uint64_t>((i_address)), 0ull
/** Construct the device addressing parameters for XSCOM device ops
* when no error handling is required.
* @param[in] i_address - XSCom address to operate on.
*/
#define DEVICE_XSCOM_ADDRESS_NO_ERROR(i_address) \
DeviceFW::XSCOM, static_cast<uint64_t>((i_address)), 1ull
/** Construct the device addressing parameters for IBSCOM (inband scom)
* device ops.
* @param[in] i_address - IBSCOM address to operate on.
*/
#define DEVICE_IBSCOM_ADDRESS(i_address) \
DeviceFW::IBSCOM, static_cast<uint64_t>((i_address))
/** Construct the device addressing parameters for I2CSCOM (i2c scom)
* device ops.
* @param[in] i_address - I2CSCOM address to operate on.
*/
#define DEVICE_I2CSCOM_ADDRESS(i_address) \
DeviceFW::I2CSCOM, static_cast<uint64_t>((i_address))
/**
* @brief Macro that handles the I2C parameters
*/
#define DEVICE_I2C_PARMS(port, engine, devAddr, offset_len,\
offset, muxSelector, i_i2cMuxPath)\
static_cast<uint64_t>( DeviceFW::I2C_STANDARD ),\
static_cast<uint64_t>( port ),\
static_cast<uint64_t>( engine ),\
static_cast<uint64_t>( devAddr ),\
static_cast<uint64_t>( offset_len ),\
static_cast<uint8_t*>( offset ),\
static_cast<uint64_t>( muxSelector), \
static_cast<const TARGETING::EntityPath*>(i_i2cMuxPath)
/**
* @brief Macro that handles the I2C SMBUS data transfers that use
* a command code (Read/Write Word/Byte or Block Read/Write)
*/
#define I2C_SMBUS_RW_W_CMD_PARAMS(i_subop,i_engine,i_port,i_devAddr,\
i_commandCode,i_muxSelector,i_i2cMuxPath)\
static_cast<uint64_t>(i_subop),\
static_cast<uint64_t>(i_port),\
static_cast<uint64_t>(i_engine),\
static_cast<uint64_t>(i_devAddr),\
static_cast<uint64_t>(i_commandCode),\
static_cast<uint64_t>(i_muxSelector),\
static_cast<const TARGETING::EntityPath*>(i_i2cMuxPath)
/**
* @brief Macro that handles the I2C SMBUS data transfers that don't use
* a command code byte (Send/Receive Byte)
*/
#define I2C_SMBUS_RW_WO_CMD_PARAMS(i_subop,i_engine,i_port,i_devAddr,\
i_muxSelector,i_i2cMuxPath)\
static_cast<uint64_t>(i_subop),\
static_cast<uint64_t>(i_port),\
static_cast<uint64_t>(i_engine),\
static_cast<uint64_t>(i_devAddr),\
static_cast<uint64_t>(i_muxSelector),\
static_cast<const TARGETING::EntityPath*>(i_i2cMuxPath)
/**
* Construct the device addressing parameters for the I2C device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @param[in] i_i2cMuxBusSelector - The I2C MUX bus selector
* @param[in] i_i2cMuxPath - The I2C MUX entity path
* @note '0' and 'nullptr' added to line up with other DeviceFW::I2C
*/
#define DEVICE_I2C_ADDRESS( i_port, i_engine, i_devAddr, \
i_i2cMuxBusSelector, i_i2cMuxPath )\
DeviceFW::I2C, DEVICE_I2C_PARMS(i_port, i_engine, i_devAddr,\
0, nullptr, i_i2cMuxBusSelector, i_i2cMuxPath)
/**
* @brief Construct the device addressing parameters for the I2C SMBUS
* data transfer commands that have a command parameter
*
* @param[in] i_engine Which I2C master engine to use
* @param[in] i_port Which port to use from the I2C master engine above
* @param[in] i_devAddr The device address to communicate with on a given
* engine/port.
* @param[in] i_commandCode The PMBUS command to execute
* @param[in] i_i2cMuxBusSelector The I2C MUX bus selector
* @param[in] i_i2cMuxPath The I2C MUX entity path
*/
#define DEVICE_I2C_SMBUS_BLOCK(i_engine,i_port,i_devAddr,i_commandCode,\
i_i2cMuxBusSelector,i_i2cMuxPath)\
DeviceFW::I2C, I2C_SMBUS_RW_W_CMD_PARAMS(DeviceFW::I2C_SMBUS_BLOCK,\
i_engine,i_port,i_devAddr,\
i_commandCode,i_i2cMuxBusSelector,i_i2cMuxPath)
#define DEVICE_I2C_SMBUS_WORD(i_engine,i_port,i_devAddr,i_commandCode,\
i_i2cMuxBusSelector,i_i2cMuxPath )\
DeviceFW::I2C, I2C_SMBUS_RW_W_CMD_PARAMS(DeviceFW::I2C_SMBUS_WORD,\
i_engine,i_port,i_devAddr,\
i_commandCode,i_i2cMuxBusSelector,i_i2cMuxPath)
#define DEVICE_I2C_SMBUS_BYTE(i_engine, i_port,i_devAddr,i_commandCode,\
i_i2cMuxBusSelector,i_i2cMuxPath)\
DeviceFW::I2C, I2C_SMBUS_RW_W_CMD_PARAMS(DeviceFW::I2C_SMBUS_BYTE,\
i_engine,i_port,i_devAddr,\
i_commandCode,i_i2cMuxBusSelector,i_i2cMuxPath)
/**
* @brief Construct the device addressing parameters for the I2C SMBUS
* data transfer commands that lack a command parameter
*
* @param[in] i_engine Which I2C master engine to use
* @param[in] i_port Which port to use from the I2C master engine above
* @param[in] i_devAddr The device address to communicate with on a given
* engine/port.
* @param[in] i_i2cMuxBusSelector The I2C MUX bus selector
* @param[in] i_i2cMuxPath The I2C MUX entity path
*/
#define DEVICE_I2C_SMBUS_SEND_OR_RECV(i_engine, i_port, i_devAddr,\
i_i2cMuxBusSelector,i_i2cMuxPath)\
DeviceFW::I2C, I2C_SMBUS_RW_WO_CMD_PARAMS(\
DeviceFW::I2C_SMBUS_SEND_OR_RECV,\
i_engine,i_port,i_devAddr,\
i_i2cMuxBusSelector,i_i2cMuxPath)
/**
* Construct the device addressing parameters for the I2C-offset device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @param[in] i_offset_len - Length of offset (in bytes)
* @param[in] i_offset - Offset into I2C device
* @param[in] i_i2cMuxBusSelector - The I2C MUX bus selector
* @param[in] i_i2cMuxPath - The I2C MUX entity path
*/
#define DEVICE_I2C_ADDRESS_OFFSET( i_port, i_engine, i_devAddr,\
i_offset_len, i_offset, i_i2cMuxBusSelector, i_i2cMuxPath)\
DeviceFW::I2C, DEVICE_I2C_PARMS(i_port, i_engine, i_devAddr,\
i_offset_len, i_offset, i_i2cMuxBusSelector, i_i2cMuxPath)
/**
* Construct the device addressing parameters for locking the page
* attribute of an I2C master target
*
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_shouldLock - bool to determine whether we are
* attempting to lock or unlock the page.
* @param[in] i_desired_page - The EEPROM page we want to switch to
* iff a page switch is needed.
* @param[in] i_lockMutex - bool to determine whether we actually
* want to lock the page mutex or not. This bool allows
* us to switch pages mid read without hitting a deadlock.
*/
#define DEVICE_I2C_CONTROL_PAGE_OP( i_port, i_engine, i_shouldLock,\
i_desired_page, i_lockMutex )\
DeviceFW::I2C,\
static_cast<uint64_t>(DeviceFW::I2C_PAGE_OP),\
static_cast<uint64_t>(i_port),\
static_cast<uint64_t>(i_engine),\
0xffffffff,\
static_cast<uint64_t>(i_shouldLock),\
static_cast<uint64_t>(i_desiredPage),\
static_cast<uint64_t>(i_lockMutex)
/**
* Construct the device addressing parameters for the Host I2C device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @note '0' and 'nullptr' added to line up with other DeviceFW::I2C
*/
#define DEVICE_HOSTI2C_ADDRESS( i_port, i_engine, i_devAddr )\
DeviceFW::HOSTI2C, DEVICE_I2C_PARMS(i_port, i_engine, i_devAddr,\
0, nullptr)
/**
* Construct the device addressing parameters for the Host I2C-offset
* device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @param[in] i_offset_len - Length of offset (in bytes)
* @param[in] i_offset - Offset into I2C device
*/
#define DEVICE_HOSTI2C_ADDRESS_OFFSET( i_port, i_engine, i_devAddr,\
i_offset_len, i_offset)\
DeviceFW::HOSTI2C, DEVICE_I2C_PARMS(i_port, i_engine, i_devAddr,\
i_offset_len, i_offset)
/**
* Construct the device addressing parameters for the FSI I2C device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @note '0' and 'nullptr' added to line up with other DeviceFW::I2C
*/
#define DEVICE_FSI_I2C_ADDRESS( i_port, i_engine, i_devAddr )\
DeviceFW::FSI_I2C, DEVICE_I2C_PARMS(i_port, i_engine,\
i_devAddr, 0, nullptr)
/**
* Construct the device addressing parameters for the FSI I2C-offset
* device ops.
* @param[in] i_port - Which port to use from the I2C master.
* @param[in] i_engine - Which I2C master engine to use.
* @param[in] i_devAddr - The device address on a given engine/port.
* @param[in] i_offset_len - Length of offset (in bytes)
* @param[in] i_offset - Offset into I2C device
*/
#define DEVICE_FSI_I2C_ADDRESS_OFFSET( i_port, i_engine, i_devAddr,\
i_offset_len, i_offset)\
DeviceFW::FSI_I2C, DEVICE_I2C_PARMS(i_port, i_engine, i_devAddr,\
i_offset_len, i_offset)
/** Construct the device addressing parameters for the SBE FIFO Scom
* device ops.
* @param[in] i_address - scom address to operate on.
*/
#define DEVICE_SBEFIFOSCOM_ADDRESS(i_address) \
DeviceFW::SBEFIFOSCOM, static_cast<uint64_t>((i_address))
/** @class InvalidParameterType
* @brief Unused type to cause compiler fails for invalid template types.
*
* Forward Declaration of type that is never actually used anywhere.
*
* Assists in making more developer friendly compiler fails when a
* template function is called for which there is no specialization and
* the default template function should never be used. This is used for
* allowing function calls that take multiple enum types but still provide
* type-safety above a int-parameter.
*/
class InvalidParameterType;
/** @typedef deviceOp_t
* @brief Function prototype for registered device-driver operations.
*/
typedef errlHndl_t(*deviceOp_t)(OperationType,
TARGETING::Target*,
void*, size_t&,
int64_t, va_list);
/**
* @brief Register a device driver routing function with the framework.
*
* @param[in] i_opType - Enumeration specifying the operation this
* driver performs. (Read, Write, Wildcard)
* @param[in] i_accessType - Enumeration specifying the access type this
* driver performs. (SCOM, XSCOM, PNOR, etc.)
* @param[in] i_targetType - Enumeration specifying the target type this
* driver performs. (Proc, MC, Wildcard, etc.)
* @param[in] i_regRoute - The function being registered.
*
* This function call be called to register a device driver routing
* function with the framework. If it is desired to always register a
* device driver when the module associated with that driver is loaded,
* the DEVICE_REGISTER_ROUTE macro can be used.
*
* <PRE>
* Example usage:
* // High-level address manipulation routing function.
* deviceRegisterRoute(WILDCARD,
* SCOM,
* TYPE_CORE,
* &scomAdjustCoreAddresses);
*
* // Low-level (internal) XSCOM read operation.
* deviceRegisterRoute(READ,
* XSCOM,
* TYPE_PROC,
* &xscomPerformRead);
* </PRE>
*
* @note Valid OpType are OperatorType enum or WILDCARD.
* @note Valid TargType are TargetType enum or WILDCARD.
* @note Valid AccType are AccessType or AccessType_DriverOnly; WILDCARD is
* not permitted.
*
* @note Any unsupported enumeration type will result in a compile error
* referencing a InvalidParameterType class.
*/
template <typename OpType, typename AccType, typename TargType>
void deviceRegisterRoute(OpType i_opType,
AccType i_accessType,
TargType i_targetType,
deviceOp_t i_regRoute)
{
// Cause a compile fail if not one of
// the explicit template specializations.
static_assert(sizeof(OpType) != sizeof(OpType), "Must use an "
"explicitly supported template specialization");
}
/** Assistance macro for stringification. */
#define __DEVICE_REGISTER_ROUTE_XYZ(X,Y,Z) X##Y##Z
/** Assistance macro for stringification. */
#define __DEVICE_REGISTER_ROUTE_MAKENAME(X,Y,Z) \
__DEVICE_REGISTER_ROUTE_XYZ(X,Y,Z)
/**
* @brief Create a static constructed registration of a device driver
* function when a module is loaded.
*
* Parameters are the same as DeviceFW::deviceRegisterRoute, except the
* route function should be passed by name as opposed to pointer.
*
* If the route function is in a namespace, then this definition must
* also be placed into that namespace.
*/
#define DEVICE_REGISTER_ROUTE(i_opType, i_accessType, \
i_targetType, i_regRoute) \
class __DEVICE_REGISTER_ROUTE_MAKENAME(DeviceRouteRegistrator_, \
i_regRoute, __LINE__) \
{ \
public: \
__DEVICE_REGISTER_ROUTE_MAKENAME(DeviceRouteRegistrator_, \
i_regRoute, __LINE__)() \
{ \
DeviceFW::deviceRegisterRoute(i_opType, i_accessType, \
i_targetType, &i_regRoute); \
} \
}; \
__DEVICE_REGISTER_ROUTE_MAKENAME(DeviceRouteRegistrator_, \
i_regRoute, __LINE__) \
__DEVICE_REGISTER_ROUTE_MAKENAME(DeviceRouteRegistrator_instance_, \
i_regRoute, __LINE__);
/**
* @brief Perform a device operation by routing through the framework and
* calling the appropriate registered operation.
*
* @param[in] i_opType - Operation request (READ vs WRITE).
* @param[in] i_target - Target to perform operation on.
* @param[in,out] io_buffer - Data buffer for operation.
* @param[in,out] io_buflen - Length of buffer / result size.
* @param[in] i_accessType - Type of hardware access method to perform.
*
* This function has similar behavior as the user-visible deviceRead and
* deviceWrite functions and is meant as a method for device drivers to
* perform accesses which may be only visible to internal drivers.
*/
template <typename AccType>
errlHndl_t deviceOp(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccType i_accessType, ...)
{
// Cause a compile fail if not one of
// the explicit template specializations.
static_assert(sizeof(AccType) != sizeof(AccType), "Must use"
" an explicitly supported template specialization");
errlHndl_t errl = nullptr;
return errl;
}
/**
* @brief Perform a device operation by routing through the framework and
* calling the appropriate registered operation.
*
* @param[in] i_opType - Operation request (READ vs WRITE).
* @param[in] i_target - Target to perform operation on.
* @param[in,out] io_buffer - Data buffer for operation.
* @param[in,out] io_buflen - Length of buffer / result size.
* @param[in] i_accessType - Type of hardware access method to perform.
* @param[in] i_args - va_list of parameters for device operation.
*
* This function has similar behavior as the user-visible deviceRead and
* deviceWrite functions and is meant as a method for device drivers to
* perform accesses which may be only visible to internal drivers.
*/
template <typename AccType>
errlHndl_t deviceOpValist(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccType i_accessType, va_list i_args)
{
// Cause a compile fail if not one of
// the explicit template specializations.
static_assert(sizeof(AccType) != sizeof(AccType), "Must use"
" an explicitly supported template specialization");
errlHndl_t errl = nullptr;
return errl;
}
// --- Below are template specializations to aid in type-safety. ---
// deviceRegisterRoute:
// OpType - OperationType or WILDCARD
// TargType - TargetType or WILDCARD
// AccType - AccessType, AccessType_DriverOnly (no WILDCARD).
template <>
void deviceRegisterRoute<>(OperationType i_opType,
AccessType i_accessType,
TARGETING::TYPE i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(OperationType i_opType,
AccessType_DriverOnly i_accessType,
TARGETING::TYPE i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(OperationType i_opType,
AccessType i_accessType,
DriverSpecial i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(OperationType i_opType,
AccessType_DriverOnly i_accessType,
DriverSpecial i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(DriverSpecial i_opType,
AccessType i_accessType,
TARGETING::TYPE i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(DriverSpecial i_opType,
AccessType_DriverOnly i_accessType,
TARGETING::TYPE i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(DriverSpecial i_opType,
AccessType i_accessType,
DriverSpecial i_targetType,
deviceOp_t i_regRoute);
template <>
void deviceRegisterRoute<>(DriverSpecial i_opType,
AccessType_DriverOnly i_accessType,
DriverSpecial i_targetType,
deviceOp_t i_regRoute);
// deviceOp:
// OpType - OperationType only.
// TargType - TargetType only.
// AccType - AccessType, AccessType_DriverOnly (no WILDCARD).
template <>
errlHndl_t deviceOp<>(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccessType i_accessType, ...);
template <>
errlHndl_t deviceOp<>(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccessType_DriverOnly i_accessType, ...);
// deviceOpValist:
// OpType - OperationType only.
// TargType - TargetType only.
// AccType - AccessType, AccessType_DriverOnly (no WILDCARD).
// args - va_list of parameters
template <>
errlHndl_t deviceOpValist<>(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccessType i_accessType, va_list i_args);
template <>
errlHndl_t deviceOpValist<>(OperationType i_opType,
TARGETING::Target* i_target,
void* io_buffer, size_t& io_buflen,
AccessType_DriverOnly i_accessType, va_list i_args);
#endif // not PARSER
};
#endif
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