unibase_macros.h

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/*
 * Copyright (c) 2023 Texas Instruments Incorporated
 * Copyright (c) 2023 Excelfore Corporation (https://excelfore.com)
 *
 * All rights reserved not granted herein.
 * Limited License.
 *
 * Texas Instruments Incorporated grants a world-wide, royalty-free,
 * non-exclusive license under copyrights and patents it now or hereafter
 * owns or controls to make, have made, use, import, offer to sell and sell ("Utilize")
 * this software subject to the terms herein. With respect to the foregoing patent
 * license, such license is granted solely to the extent that any such patent is necessary
 * to Utilize the software alone. The patent license shall not apply to any combinations which
 * include this software, other than combinations with devices manufactured by or for TI ("TI Devices").
 * No hardware patent is licensed hereunder.
 *
 * Redistributions must preserve existing copyright notices and reproduce this license (including the
 * above copyright notice and the disclaimer and (if applicable) source code license limitations below)
 * in the documentation and/or other materials provided with the distribution
 *
 * Redistribution and use in binary form, without modification, are permitted provided that the following
 * conditions are met:
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 * software provided in binary form.
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 * * Nothing shall obligate TI to provide you with source code for the software licensed and provided to you in object code.
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 * If software source code is provided to you, modification and redistribution of the source code are permitted
 * provided that the following conditions are met:
 *
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 * TI for use only with TI Devices.
 * * any redistribution and use of any object code compiled from the source code and any resulting derivative
 * works, are licensed by TI for use only with TI Devices.
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 * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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*/
#ifndef UNIBASE_MARCORS_H_
#define UNIBASE_MARCORS_H_
 
#include <stdio.h>
 
/************************************************************
 * Utility Macros
 ************************************************************/
#define UB_SEC_NS 1000000000LL 
#define UB_MSEC_NS 1000000 
#define UB_USEC_NS 1000 
#define UB_SEC_US 1000000LL 
#define UB_MSEC_US 1000 
#define UB_SEC_MS 1000 
 
#define UB_CHARS_IN_LINE 384
 
#define UB_BIT(x) (1U<<(x)) 
#define UB_MAX(x,y) ((x)>(y)?(x):(y)) 
#define UB_MIN(x,y) ((x)<(y)?(x):(y)) 
 
#define UB_CONSOLE_PRINT(...)                       \
    {                               \
        char coutstr[UB_CHARS_IN_LINE];             \
        (void)snprintf(coutstr, UB_CHARS_IN_LINE, __VA_ARGS__); \
        ub_console_debug_select_print(true, false, coutstr);    \
    }
 
#define UB_DEBUGMEM_PRINT(...)                      \
    {                               \
        char coutstr[UB_CHARS_IN_LINE];             \
        (void)snprintf(coutstr, UB_CHARS_IN_LINE, __VA_ARGS__); \
        ub_console_debug_select_print(false, true, coutstr);    \
    }
 
#define UB_CONSOLE_DEBUGMEM_PRINT(...)                  \
    {                               \
        char coutstr[UB_CHARS_IN_LINE];             \
        (void)snprintf(coutstr, UB_CHARS_IN_LINE, __VA_ARGS__); \
        ub_console_debug_select_print(true, true, coutstr); \
    }
 
#define UB_SELECT_PRINT(console, debugmem, ...)             \
    {                               \
        char coutstr[UB_CHARS_IN_LINE];             \
        (void)snprintf(coutstr, UB_CHARS_IN_LINE, __VA_ARGS__); \
        ub_console_debug_select_print(console, debugmem, coutstr); \
    }
 
#define UB_LOG(level, ...) UB_LOG_##level(__VA_ARGS__)
 
#define UB_TLOG(level, ...) UB_TLOG_##level(__VA_ARGS__)
 
#define UB_VLOG(var, ...) \
    if((var)==UBL_DEBUGV){UB_LOG(UBL_DEBUGV,__VA_ARGS__);}\
    else if((var)==UBL_DEBUG){UB_LOG(UBL_DEBUG,__VA_ARGS__);}\
    else if((var)==UBL_INFOV){UB_LOG(UBL_INFOV,__VA_ARGS__);}\
    else if((var)==UBL_INFO){UB_LOG(UBL_INFO,__VA_ARGS__);}\
    else if((var)==UBL_WARN){UB_LOG(UBL_WARN,__VA_ARGS__);}\
    else if((var)==UBL_ERROR){UB_LOG(UBL_ERROR,__VA_ARGS__);}\
    else if((var)==UBL_FATAL){UB_LOG(UBL_FATAL,__VA_ARGS__);}\
    else{;}
 
#define UB_PRIhexB8 "%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X"
#define UB_ARRAY_B8(x) (x)[0],(x)[1],(x)[2],(x)[3],(x)[4],(x)[5],(x)[6],(x)[7]
 
#define UB_PRIhexB6 "%02X:%02X:%02X:%02X:%02X:%02X"
#define UB_ARRAY_B6(x) (x)[0],(x)[1],(x)[2],(x)[3],(x)[4],(x)[5] 
 
 
#define UB_NON_ZERO_B6(x) (((x)[0]|(x)[1]|(x)[2]|(x)[3]|(x)[4]|(x)[5])!=0u)
 
#define UB_NON_ZERO_B8(x) (((x)[0]|(x)[1]|(x)[2]|(x)[3]|(x)[4]|(x)[5]|(x)[6]|(x)[7])!=0u)
 
#define UB_ALLFF_B6(x) (((x)[0]&(x)[1]&(x)[2]&(x)[3]&(x)[4]&(x)[5])==0xffu)
 
#define UB_ALLFF_B8(x) (((x)[0]&(x)[1]&(x)[2]&(x)[3]&(x)[4]&(x)[5]&(x)[6]&(x)[7])==0xffu)
 
#define UB_ABIT8_FIELD(name, s, m)                    \
    static inline int name##_bit_field(uint8_t x)             \
    { return (x >> (s)) & (m); }                      \
    static inline int name##_set_bit_field(uint8_t x, uint8_t v) \
    { return (x & ~((m) << (s))) | ((v & (m)) << (s)) ; }
 
#define UB_ABIT16_FIELD(name, s, m)                 \
    static inline int name##_bit_field(uint16_t x)          \
    { return (htons(x) >> (s)) & (m); }             \
    static inline int name##_set_bit_field(uint16_t x, uint16_t v) \
    {return ntohs((htons(x) & ~((m) << (s)))            \
                    | ((v & (m)) << (s)));}
 
#define UB_ABIT32_FIELD(name, s, m)                 \
    static inline int name##_bit_field(uint32_t x)          \
    { return (htonl(x) >> (s)) & (m); }             \
    static inline int name##_set_bit_field(uint32_t x, uint32_t v) \
    {return ntohl((htonl(x) & ~((m) << (s)))            \
                    | ((v & (m)) << (s)));}
 
#define UB_ABIT8_TOGGLE_FIELD(name, s, m)               \
    static inline int name##_toggle_bit_field(uint8_t x)        \
    {return (x ^ ((m) << (s)));}
 
#define UB_ABIT16_TOGGLE_FIELD(name, s, m)              \
    static inline int name##_toggle_bit_field(uint16_t x)       \
    {return ntohs((htons(x) ^ ((m) << (s))));}
 
#define UB_ABIT32_TOGGLE_FIELD(name, s, m)              \
    static inline int name##_toggle_bit_field(uint32_t x)       \
    {return ntohl((htonl(x) ^ ((m) << (s))));}
 
#define UB_TS2NSEC(ts) (((int64_t)(ts).tv_sec*1000000000)+(ts).tv_nsec)
 
#define UB_TS2USEC(ts) (((int64_t)(ts).tv_sec*1000000)+(ts).tv_nsec/UB_USEC_NS)
 
#define UB_TS2MSEC(ts) (((int64_t)(ts).tv_sec*UB_SEC_MS)+(ts).tv_nsec/UB_MSEC_NS)
 
#define UB_TV2NSEC(tv) (((int64_t)(tv).tv_sec*1000000000)+(int64_t)(tv).tv_usec*UB_USEC_NS)
 
#define UB_TV2USEC(tv) (((int64_t)(tv).tv_sec*1000000)+(tv).tv_usec)
 
#define UB_TV2MSEC(tv) (((int64_t)(tv).tv_sec*UB_SEC_MS)+(tv).tv_usec/UB_MSEC_US)
 
#define UB_NSEC2TS(ns, ts) {(ts).tv_sec=(ns)/1000000000;(ts).tv_nsec=(ns)%1000000000;}
 
#define UB_USEC2TS(us, ts) {(ts).tv_sec=(us)/1000000;(ts).tv_nsec=((us)%1000000)*UB_USEC_NS;}
 
#define UB_MSEC2TS(ms, ts) {(ts).tv_sec=(ms)/UB_SEC_MS;(ts).tv_nsec=((ms)%UB_SEC_MS)*UB_MSEC_NS;}
 
#define UB_NSEC2TV(ns, tv) {(tv).tv_sec=(ns)/1000000000;(tv).tv_usec=((ns)%1000000000)/UB_USEC_NS;}
 
#define UB_USEC2TV(us, tv) {(tv).tv_sec=(us)/1000000;(tv).tv_usec=(us)%1000000;}
 
#define UB_MSEC2TV(ms, tv) {(tv).tv_sec=(ms)/UB_SEC_MS;(tv).tv_usec=((ms)%UB_SEC_MS)*UB_MSEC_US;}
 
#define UB_TV_DIFF64NS(tv1,tv2) (UB_TV2NSEC(tv1)-UB_TV2NSEC(tv2))
 
#define UB_TV_ADD64NS(tv1,tv2) (UB_TV2NSEC(tv1)+UB_TV2NSEC(tv2))
 
#define UB_TS_DIFF64NS(ts1,ts2) (UB_TS2NSEC(ts1)-UB_TS2NSEC(ts2))
 
#define UB_TS_ADD64NS(ts1,ts2) (UB_TS2NSEC(ts1)+UB_TS2NSEC(ts2))
 
#define UB_TV_DIFF_TV(rtv,tv1,tv2) {                \
        int64_t ns_ub_m_=(int64_t)UB_TV_DIFF64NS(tv1,tv2);  \
        UB_NSEC2TV(ns_ub_m_,rtv);           \
    }
 
#define UB_TS_DIFF_TS(rts,ts1,ts2) {                \
        int64_t ns_ub_m_=(int64_t)UB_TS_DIFF64NS(ts1,ts2);  \
        UB_NSEC2TS(ns_ub_m_,rts);           \
    }
 
#define UB_TV_ADD_TV(rtv,tv1,tv2) {             \
        int64_t ns_ub_m_=(int64_t)UB_TV_ADD64NS(tv1,tv2);   \
        UB_NSEC2TV(ns_ub_m_,rtv);           \
    }
 
#define UB_TS_ADD_TS(rts,ts1,ts2) {             \
        int64_t ns_ub_m_=(int64_t)UB_TS_ADD64NS(ts1,ts2);   \
        UB_NSEC2TS(ns_ub_m_,rts);           \
    }
 
#define UB_HTONLL(x) ((1==htonl(1)) ? (x) : ((uint64_t)htonl((x) & 0xFFFFFFFF) << 32) | \
           htonl((x) >> 32))
 
#define UB_NTOHLL(x) ((1==ntohl(1)) ? (x) : ((uint64_t)ntohl((x) & 0xFFFFFFFF) << 32) | \
           ntohl((x) >> 32))
 
#define UB_STATIC_ASSERT(cond, error) typedef char type[(cond) ? 1 : -1]
 
#define UB_PROTECTED_FUNC(cbfunc, rval, ...) \
    int ub_func_private_mutex_lock(void); \
    int ub_func_private_mutex_unlock(void); \
    ub_func_private_mutex_lock(); \
    rval=cbfunc(__VA_ARGS__); \
    ub_func_private_mutex_unlock();
 
#define UB_PROTECTED_FUNC_VOID(cbfunc, ...) \
    int ub_func_private_mutex_lock(void); \
    int ub_func_private_mutex_unlock(void); \
    ub_func_private_mutex_lock(); \
    cbfunc(__VA_ARGS__); \
    ub_func_private_mutex_unlock();
 
#endif