/*
* Copyright (c) 2018 The Linux Foundation. All rights reserved.
*
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all
* copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
/*********************************************************************************
*
* DESCRIPTION
* - This is an extension of standard msmhwio.h to support relative addressing
* scheme used in SCALe auto-generated sequences.
* - The objective of this new addressing scheme is enable the same C function
* definition to be applicable to multiple baseances of the same block.
* - Such code reuse is not feasible with the standard HWIO macros that use a
* absolute addressing scheme.
* - Compared to the standard HWIO macros, the new macros defined here take an
* additional parameter 'baseance offset'. So are the C functions generated
* by SCALe Autoseq from .seq inputs.
* - As such, macros defined in this file must be used with 'seq_msmhwiobase.h',
* 'seq_msmhwioreg.h', and the C codes generated from SCALe Autoseq.
* - Macros defined in this file leverage the lower-level macros from the
* standard 'msmhwio.h', and the two sets of macros are compatible.
********************************************************************************/
#ifndef __SEQ_H__
#define __SEQ_H__
#include "HALhwio.h"
/**** Register Ref Read ****/
#define SEQ_INH(base, regtype, reg) \
SEQ_##regtype##_INH(base, reg)
/**** Masked Register Read ****/
#define SEQ_INMH(base, regtype, reg, mask) \
SEQ_##regtype##_INMH(base, reg, mask)
/**** Ref Reg Field Read ****/
#define SEQ_INFH(base, regtype, reg, fld) \
(SEQ_##regtype##_INMH(base, reg, HWIO_FMSK(regtype, fld)) >> HWIO_SHFT(regtype, fld))
/**** Ref Register Write ****/
#define SEQ_OUTH(base, regtype, reg, val) \
SEQ_##regtype##_OUTH(base, reg, val)
/**** Ref Register Masked Write ****/
#define SEQ_OUTMH(base, regtype, reg, mask, val) \
SEQ_##regtype##_OUTMH(base, reg, mask, val)
/**** Ref Register Field Write ****/
#define SEQ_OUTFH(base, regtype, reg, fld, val) \
SEQ_##regtype##_OUTMH(base, reg, HWIO_FMSK(regtype, fld), val << HWIO_SHFT(regtype, fld))
/**** seq_msg() ****
typedef enum {
DEBUG,
INFO,
WARNING,
ERROR,
FATAL
} SeverityLevel ;
void seq_msg(SeverityLevel severity, unsigned int msg_id, const char *format_str, ... );
*/
/************ seq_wait() ************/
typedef enum {
SEC,
MS,
US,
NS
} SEQ_TimeUnit;
extern void seq_wait(uint32 time_value, SEQ_TimeUnit time_unit);
/************ seq_poll() ************/
extern uint32 seq_poll(uint32 reg_offset, uint32 expect_value, uint32 value_mask, uint32 value_shift, uint32 max_poll_cnt);
#endif /* __SEQ_H__ */