kservice.c 33.3 KB
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/*
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 * Copyright (c) 2006-2018, RT-Thread Development Team
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 *
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 * SPDX-License-Identifier: Apache-2.0
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 *
 * Change Logs:
 * Date           Author       Notes
 * 2006-03-16     Bernard      the first version
 * 2006-05-25     Bernard      rewrite vsprintf
 * 2006-08-10     Bernard      add rt_show_version
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 * 2010-03-17     Bernard      remove rt_strlcpy function
 *                             fix gcc compiling issue.
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 * 2010-04-15     Bernard      remove weak definition on ICCM16C compiler
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 * 2012-07-18     Arda         add the alignment display for signed integer
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 * 2012-11-23     Bernard      fix IAR compiler error.
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 * 2012-12-22     Bernard      fix rt_kprintf issue, which found by Grissiom.
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 * 2013-06-24     Bernard      remove rt_kprintf if RT_USING_CONSOLE is not defined.
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 * 2013-09-24     aozima       make sure the device is in STREAM mode when used by rt_kprintf.
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 * 2015-07-06     Bernard      Add rt_assert_handler routine.
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 */

#include <rtthread.h>
#include <rthw.h>

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#ifdef RT_USING_MODULE
#include <dlmodule.h>
#endif

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/* use precision */
#define RT_PRINTF_PRECISION

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/**
 * @addtogroup KernelService
 */
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/**@{*/
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/* global errno in RT-Thread */
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static volatile int __rt_errno;
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#if defined(RT_USING_DEVICE) && defined(RT_USING_CONSOLE)
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static rt_device_t _console_device = RT_NULL;
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#endif
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/*
 * This function will get errno
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 *
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 * @return errno
 */
rt_err_t rt_get_errno(void)
{
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    rt_thread_t tid;
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    if (rt_interrupt_get_nest() != 0)
    {
        /* it's in interrupt context */
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        return __rt_errno;
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    }
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    tid = rt_thread_self();
    if (tid == RT_NULL)
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        return __rt_errno;
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    return tid->error;
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}
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RTM_EXPORT(rt_get_errno);
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/*
 * This function will set errno
 *
 * @param error the errno shall be set
 */
void rt_set_errno(rt_err_t error)
{
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    rt_thread_t tid;
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    if (rt_interrupt_get_nest() != 0)
    {
        /* it's in interrupt context */
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        __rt_errno = error;
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        return;
    }
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    tid = rt_thread_self();
    if (tid == RT_NULL)
    {
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        __rt_errno = error;
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        return;
    }
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    tid->error = error;
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}
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RTM_EXPORT(rt_set_errno);
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/**
 * This function returns errno.
 *
 * @return the errno in the system
 */
int *_rt_errno(void)
{
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    rt_thread_t tid;
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    if (rt_interrupt_get_nest() != 0)
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        return (int *)&__rt_errno;
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    tid = rt_thread_self();
    if (tid != RT_NULL)
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        return (int *) & (tid->error);
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    return (int *)&__rt_errno;
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}
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RTM_EXPORT(_rt_errno);
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/**
 * This function will set the content of memory to specified value
 *
 * @param s the address of source memory
 * @param c the value shall be set in content
 * @param count the copied length
 *
 * @return the address of source memory
 */
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void *rt_memset(void *s, int c, rt_ubase_t count)
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{
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#ifdef RT_USING_TINY_SIZE
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    char *xs = (char *)s;
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    while (count--)
        *xs++ = c;
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    return s;
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#else
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#define LBLOCKSIZE      (sizeof(rt_int32_t))
#define UNALIGNED(X)    ((rt_int32_t)X & (LBLOCKSIZE - 1))
#define TOO_SMALL(LEN)  ((LEN) < LBLOCKSIZE)
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    int i;
    char *m = (char *)s;
    rt_uint32_t buffer;
    rt_uint32_t *aligned_addr;
    rt_uint32_t d = c & 0xff;

    if (!TOO_SMALL(count) && !UNALIGNED(s))
    {
        /* If we get this far, we know that n is large and m is word-aligned. */
        aligned_addr = (rt_uint32_t *)s;

        /* Store D into each char sized location in BUFFER so that
         * we can set large blocks quickly.
         */
        if (LBLOCKSIZE == 4)
        {
            buffer = (d << 8) | d;
            buffer |= (buffer << 16);
        }
        else
        {
            buffer = 0;
            for (i = 0; i < LBLOCKSIZE; i ++)
                buffer = (buffer << 8) | d;
        }

        while (count >= LBLOCKSIZE * 4)
        {
            *aligned_addr++ = buffer;
            *aligned_addr++ = buffer;
            *aligned_addr++ = buffer;
            *aligned_addr++ = buffer;
            count -= 4 * LBLOCKSIZE;
        }

        while (count >= LBLOCKSIZE)
        {
            *aligned_addr++ = buffer;
            count -= LBLOCKSIZE;
        }

        /* Pick up the remainder with a bytewise loop. */
        m = (char *)aligned_addr;
    }

    while (count--)
    {
        *m++ = (char)d;
    }

    return s;
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#undef LBLOCKSIZE
#undef UNALIGNED
#undef TOO_SMALL
#endif
}
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RTM_EXPORT(rt_memset);
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/**
 * This function will copy memory content from source address to destination
 * address.
 *
 * @param dst the address of destination memory
 * @param src  the address of source memory
 * @param count the copied length
 *
 * @return the address of destination memory
 */
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void *rt_memcpy(void *dst, const void *src, rt_ubase_t count)
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{
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#ifdef RT_USING_TINY_SIZE
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    char *tmp = (char *)dst, *s = (char *)src;
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    rt_ubase_t len;
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    if (tmp <= s || tmp > (s + count))
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    {
        while (count--)
            *tmp ++ = *s ++;
    }
    else
    {
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        for (len = count; len > 0; len --)
            tmp[len - 1] = s[len - 1];
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    }
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    return dst;
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#else

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#define UNALIGNED(X, Y)                                               \
                        (((rt_int32_t)X & (sizeof(rt_int32_t) - 1)) | \
                         ((rt_int32_t)Y & (sizeof(rt_int32_t) - 1)))
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#define BIGBLOCKSIZE    (sizeof(rt_int32_t) << 2)
#define LITTLEBLOCKSIZE (sizeof(rt_int32_t))
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#define TOO_SMALL(LEN)  ((LEN) < BIGBLOCKSIZE)

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    char *dst_ptr = (char *)dst;
    char *src_ptr = (char *)src;
    rt_int32_t *aligned_dst;
    rt_int32_t *aligned_src;
    int len = count;

    /* If the size is small, or either SRC or DST is unaligned,
    then punt into the byte copy loop.  This should be rare. */
    if (!TOO_SMALL(len) && !UNALIGNED(src_ptr, dst_ptr))
    {
        aligned_dst = (rt_int32_t *)dst_ptr;
        aligned_src = (rt_int32_t *)src_ptr;

        /* Copy 4X long words at a time if possible. */
        while (len >= BIGBLOCKSIZE)
        {
            *aligned_dst++ = *aligned_src++;
            *aligned_dst++ = *aligned_src++;
            *aligned_dst++ = *aligned_src++;
            *aligned_dst++ = *aligned_src++;
            len -= BIGBLOCKSIZE;
        }

        /* Copy one long word at a time if possible. */
        while (len >= LITTLEBLOCKSIZE)
        {
            *aligned_dst++ = *aligned_src++;
            len -= LITTLEBLOCKSIZE;
        }

        /* Pick up any residual with a byte copier. */
        dst_ptr = (char *)aligned_dst;
        src_ptr = (char *)aligned_src;
    }

    while (len--)
        *dst_ptr++ = *src_ptr++;

    return dst;
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#undef UNALIGNED
#undef BIGBLOCKSIZE
#undef LITTLEBLOCKSIZE
#undef TOO_SMALL
#endif
}
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RTM_EXPORT(rt_memcpy);
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/**
 * This function will move memory content from source address to destination
 * address.
 *
 * @param dest the address of destination memory
 * @param src  the address of source memory
 * @param n the copied length
 *
 * @return the address of destination memory
 */
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void *rt_memmove(void *dest, const void *src, rt_ubase_t n)
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{
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    char *tmp = (char *)dest, *s = (char *)src;

    if (s < tmp && tmp < s + n)
    {
        tmp += n;
        s += n;

        while (n--)
            *(--tmp) = *(--s);
    }
    else
    {
        while (n--)
            *tmp++ = *s++;
    }

    return dest;
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}
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RTM_EXPORT(rt_memmove);
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/**
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 * This function will compare two areas of memory
 *
 * @param cs one area of memory
 * @param ct znother area of memory
 * @param count the size of the area
 *
 * @return the result
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 */
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rt_int32_t rt_memcmp(const void *cs, const void *ct, rt_ubase_t count)
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{
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    const unsigned char *su1, *su2;
    int res = 0;
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    for (su1 = cs, su2 = ct; 0 < count; ++su1, ++su2, count--)
        if ((res = *su1 - *su2) != 0)
            break;
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    return res;
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}
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RTM_EXPORT(rt_memcmp);
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/**
 * This function will return the first occurrence of a string.
 *
 * @param s1 the source string
 * @param s2 the find string
 *
 * @return the first occurrence of a s2 in s1, or RT_NULL if no found.
 */
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char *rt_strstr(const char *s1, const char *s2)
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{
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    int l1, l2;

    l2 = rt_strlen(s2);
    if (!l2)
        return (char *)s1;
    l1 = rt_strlen(s1);
    while (l1 >= l2)
    {
        l1 --;
        if (!rt_memcmp(s1, s2, l2))
            return (char *)s1;
        s1 ++;
    }

    return RT_NULL;
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}
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RTM_EXPORT(rt_strstr);
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/**
 * This function will compare two strings while ignoring differences in case
 *
 * @param a the string to be compared
 * @param b the string to be compared
 *
 * @return the result
 */
rt_uint32_t rt_strcasecmp(const char *a, const char *b)
{
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    int ca, cb;

    do
    {
        ca = *a++ & 0xff;
        cb = *b++ & 0xff;
        if (ca >= 'A' && ca <= 'Z')
            ca += 'a' - 'A';
        if (cb >= 'A' && cb <= 'Z')
            cb += 'a' - 'A';
    }
    while (ca == cb && ca != '\0');

    return ca - cb;
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}
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RTM_EXPORT(rt_strcasecmp);
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/**
 * This function will copy string no more than n bytes.
 *
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 * @param dst the string to copy
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 * @param src the string to be copied
 * @param n the maximum copied length
 *
 * @return the result
 */
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char *rt_strncpy(char *dst, const char *src, rt_ubase_t n)
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{
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    if (n != 0)
    {
        char *d = dst;
        const char *s = src;

        do
        {
            if ((*d++ = *s++) == 0)
            {
                /* NUL pad the remaining n-1 bytes */
                while (--n != 0)
                    *d++ = 0;
                break;
            }
        } while (--n != 0);
    }

    return (dst);
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}
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RTM_EXPORT(rt_strncpy);
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/**
 * This function will compare two strings with specified maximum length
 *
 * @param cs the string to be compared
 * @param ct the string to be compared
 * @param count the maximum compare length
 *
 * @return the result
 */
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rt_int32_t rt_strncmp(const char *cs, const char *ct, rt_ubase_t count)
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{
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    register signed char __res = 0;
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    while (count)
    {
        if ((__res = *cs - *ct++) != 0 || !*cs++)
            break;
        count --;
    }
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    return __res;
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}
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RTM_EXPORT(rt_strncmp);
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/**
 * This function will compare two strings without specified length
 *
 * @param cs the string to be compared
 * @param ct the string to be compared
 *
 * @return the result
 */
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rt_int32_t rt_strcmp(const char *cs, const char *ct)
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{
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    while (*cs && *cs == *ct)
        cs++, ct++;
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    return (*cs - *ct);
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}
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RTM_EXPORT(rt_strcmp);
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/**
 * The  strnlen()  function  returns the number of characters in the
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 * string pointed to by s, excluding the terminating null byte ('\0'),
 * but at most maxlen.  In doing this, strnlen() looks only at the
 * first maxlen characters in the string pointed to by s and never
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 * beyond s+maxlen.
 *
 * @param s the string
 * @param maxlen the max size
 * @return the length of string
 */
rt_size_t rt_strnlen(const char *s, rt_ubase_t maxlen)
{
    const char *sc;

    for (sc = s; *sc != '\0' && sc - s < maxlen; ++sc) /* nothing */
        ;
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    return sc - s;
}
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/**
 * This function will return the length of a string, which terminate will
 * null character.
 *
 * @param s the string
 *
 * @return the length of string
 */
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rt_size_t rt_strlen(const char *s)
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{
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    const char *sc;
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    for (sc = s; *sc != '\0'; ++sc) /* nothing */
        ;
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    return sc - s;
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}
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RTM_EXPORT(rt_strlen);
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#ifdef RT_USING_HEAP
/**
 * This function will duplicate a string.
 *
 * @param s the string to be duplicated
 *
 * @return the duplicated string pointer
 */
char *rt_strdup(const char *s)
{
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    rt_size_t len = rt_strlen(s) + 1;
    char *tmp = (char *)rt_malloc(len);
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    if (!tmp)
        return RT_NULL;
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    rt_memcpy(tmp, s, len);
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    return tmp;
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}
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RTM_EXPORT(rt_strdup);
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#if defined(__CC_ARM) || defined(__CLANG_ARM)
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char *strdup(const char *s) __attribute__((alias("rt_strdup")));
#endif
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#endif

/**
 * This function will show the version of rt-thread rtos
 */
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void rt_show_version(void)
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{
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    rt_kprintf("\n \\ | /\n");
    rt_kprintf("- RT -     Thread Operating System\n");
    rt_kprintf(" / | \\     %d.%d.%d build %s\n",
               RT_VERSION, RT_SUBVERSION, RT_REVISION, __DATE__);
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    rt_kprintf(" 2006 - 2018 Copyright by rt-thread team\n");
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}
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RTM_EXPORT(rt_show_version);
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/* private function */
#define isdigit(c)  ((unsigned)((c) - '0') < 10)

rt_inline rt_int32_t divide(rt_int32_t *n, rt_int32_t base)
{
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    rt_int32_t res;

    /* optimized for processor which does not support divide instructions. */
    if (base == 10)
    {
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        res = ((rt_uint32_t) * n) % 10U;
        *n = ((rt_uint32_t) * n) / 10U;
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    }
    else
    {
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        res = ((rt_uint32_t) * n) % 16U;
        *n = ((rt_uint32_t) * n) / 16U;
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    }

    return res;
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}

rt_inline int skip_atoi(const char **s)
{
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    register int i = 0;
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    while (isdigit(**s))
        i = i * 10 + *((*s)++) - '0';
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    return i;
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}

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#define ZEROPAD     (1 << 0)    /* pad with zero */
#define SIGN        (1 << 1)    /* unsigned/signed long */
#define PLUS        (1 << 2)    /* show plus */
#define SPACE       (1 << 3)    /* space if plus */
#define LEFT        (1 << 4)    /* left justified */
#define SPECIAL     (1 << 5)    /* 0x */
#define LARGE       (1 << 6)    /* use 'ABCDEF' instead of 'abcdef' */
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#ifdef RT_PRINTF_PRECISION
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static char *print_number(char *buf,
                          char *end,
                          long  num,
                          int   base,
                          int   s,
                          int   precision,
                          int   type)
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#else
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static char *print_number(char *buf,
                          char *end,
                          long  num,
                          int   base,
                          int   s,
                          int   type)
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#endif
{
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    char c, sign;
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#ifdef RT_PRINTF_LONGLONG
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    char tmp[32];
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#else
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    char tmp[16];
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#endif
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    const char *digits;
    static const char small_digits[] = "0123456789abcdef";
    static const char large_digits[] = "0123456789ABCDEF";
    register int i;
    register int size;

    size = s;

    digits = (type & LARGE) ? large_digits : small_digits;
    if (type & LEFT)
        type &= ~ZEROPAD;

    c = (type & ZEROPAD) ? '0' : ' ';

    /* get sign */
    sign = 0;
    if (type & SIGN)
    {
        if (num < 0)
        {
            sign = '-';
            num = -num;
        }
        else if (type & PLUS)
            sign = '+';
        else if (type & SPACE)
            sign = ' ';
    }
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#ifdef RT_PRINTF_SPECIAL
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    if (type & SPECIAL)
    {
        if (base == 16)
            size -= 2;
        else if (base == 8)
            size--;
    }
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#endif

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    i = 0;
    if (num == 0)
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        tmp[i++] = '0';
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    else
    {
        while (num != 0)
            tmp[i++] = digits[divide(&num, base)];
    }
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#ifdef RT_PRINTF_PRECISION
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    if (i > precision)
        precision = i;
    size -= precision;
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#else
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    size -= i;
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#endif

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    if (!(type & (ZEROPAD | LEFT)))
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    {
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        if ((sign) && (size > 0))
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            size--;

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        while (size-- > 0)
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        {
            if (buf <= end)
                *buf = ' ';
            ++ buf;
        }
    }

    if (sign)
    {
        if (buf <= end)
        {
            *buf = sign;
            -- size;
        }
        ++ buf;
    }
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#ifdef RT_PRINTF_SPECIAL
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    if (type & SPECIAL)
    {
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        if (base == 8)
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        {
            if (buf <= end)
                *buf = '0';
            ++ buf;
        }
        else if (base == 16)
        {
            if (buf <= end)
                *buf = '0';
            ++ buf;
            if (buf <= end)
            {
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                *buf = type & LARGE ? 'X' : 'x';
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            }
            ++ buf;
        }
    }
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#endif

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    /* no align to the left */
    if (!(type & LEFT))
    {
        while (size-- > 0)
        {
            if (buf <= end)
                *buf = c;
            ++ buf;
        }
    }
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#ifdef RT_PRINTF_PRECISION
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    while (i < precision--)
    {
        if (buf <= end)
            *buf = '0';
        ++ buf;
    }
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#endif

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    /* put number in the temporary buffer */
    while (i-- > 0)
    {
        if (buf <= end)
            *buf = tmp[i];
        ++ buf;
    }

    while (size-- > 0)
    {
        if (buf <= end)
            *buf = ' ';
        ++ buf;
    }

    return buf;
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}

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rt_int32_t rt_vsnprintf(char       *buf,
                        rt_size_t   size,
                        const char *fmt,
                        va_list     args)
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{
#ifdef RT_PRINTF_LONGLONG
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    unsigned long long num;
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#else
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    rt_uint32_t num;
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#endif
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    int i, len;
    char *str, *end, c;
    const char *s;
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    rt_uint8_t base;            /* the base of number */
    rt_uint8_t flags;           /* flags to print number */
    rt_uint8_t qualifier;       /* 'h', 'l', or 'L' for integer fields */
    rt_int32_t field_width;     /* width of output field */
762 763

#ifdef RT_PRINTF_PRECISION
764
    int precision;      /* min. # of digits for integers and max for a string */
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#endif

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    str = buf;
    end = buf + size - 1;

    /* Make sure end is always >= buf */
    if (end < buf)
    {
773
        end  = ((char *) - 1);
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        size = end - buf;
    }

    for (; *fmt ; ++fmt)
    {
        if (*fmt != '%')
        {
            if (str <= end)
                *str = *fmt;
            ++ str;
            continue;
        }

        /* process flags */
        flags = 0;

        while (1)
        {
            /* skips the first '%' also */
            ++ fmt;
            if (*fmt == '-') flags |= LEFT;
            else if (*fmt == '+') flags |= PLUS;
            else if (*fmt == ' ') flags |= SPACE;
            else if (*fmt == '#') flags |= SPECIAL;
            else if (*fmt == '0') flags |= ZEROPAD;
            else break;
        }

        /* get field width */
        field_width = -1;
        if (isdigit(*fmt)) field_width = skip_atoi(&fmt);
        else if (*fmt == '*')
        {
            ++ fmt;
            /* it's the next argument */
            field_width = va_arg(args, int);
            if (field_width < 0)
            {
                field_width = -field_width;
                flags |= LEFT;
            }
        }
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#ifdef RT_PRINTF_PRECISION
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        /* get the precision */
        precision = -1;
        if (*fmt == '.')
        {
            ++ fmt;
            if (isdigit(*fmt)) precision = skip_atoi(&fmt);
            else if (*fmt == '*')
            {
                ++ fmt;
                /* it's the next argument */
                precision = va_arg(args, int);
            }
            if (precision < 0) precision = 0;
        }
832
#endif
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        /* get the conversion qualifier */
        qualifier = 0;
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#ifdef RT_PRINTF_LONGLONG
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        if (*fmt == 'h' || *fmt == 'l' || *fmt == 'L')
837
#else
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        if (*fmt == 'h' || *fmt == 'l')
839
#endif
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        {
            qualifier = *fmt;
            ++ fmt;
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#ifdef RT_PRINTF_LONGLONG
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            if (qualifier == 'l' && *fmt == 'l')
            {
                qualifier = 'L';
                ++ fmt;
            }
849
#endif
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        }

        /* the default base */
        base = 10;

        switch (*fmt)
        {
        case 'c':
            if (!(flags & LEFT))
            {
                while (--field_width > 0)
                {
                    if (str <= end) *str = ' ';
                    ++ str;
                }
            }

            /* get character */
            c = (rt_uint8_t)va_arg(args, int);
            if (str <= end) *str = c;
            ++ str;

            /* put width */
            while (--field_width > 0)
            {
                if (str <= end) *str = ' ';
                ++ str;
            }
            continue;

        case 's':
            s = va_arg(args, char *);
            if (!s) s = "(NULL)";

            len = rt_strlen(s);
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#ifdef RT_PRINTF_PRECISION
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            if (precision > 0 && len > precision) len = precision;
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#endif

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            if (!(flags & LEFT))
            {
                while (len < field_width--)
                {
                    if (str <= end) *str = ' ';
                    ++ str;
                }
            }

            for (i = 0; i < len; ++i)
            {
                if (str <= end) *str = *s;
                ++ str;
                ++ s;
            }

            while (len < field_width--)
            {
                if (str <= end) *str = ' ';
                ++ str;
            }
            continue;

        case 'p':
            if (field_width == -1)
            {
                field_width = sizeof(void *) << 1;
                flags |= ZEROPAD;
            }
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#ifdef RT_PRINTF_PRECISION
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            str = print_number(str, end,
                               (long)va_arg(args, void *),
                               16, field_width, precision, flags);
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#else
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            str = print_number(str, end,
                               (long)va_arg(args, void *),
                               16, field_width, flags);
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#endif
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            continue;

        case '%':
            if (str <= end) *str = '%';
            ++ str;
            continue;

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        /* integer number formats - set up the flags and "break" */
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        case 'o':
            base = 8;
            break;

        case 'X':
            flags |= LARGE;
        case 'x':
            base = 16;
            break;

        case 'd':
        case 'i':
            flags |= SIGN;
        case 'u':
            break;

        default:
            if (str <= end) *str = '%';
            ++ str;

            if (*fmt)
            {
                if (str <= end) *str = *fmt;
                ++ str;
            }
            else
            {
                -- fmt;
            }
            continue;
        }
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#ifdef RT_PRINTF_LONGLONG
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        if (qualifier == 'L') num = va_arg(args, long long);
        else if (qualifier == 'l')
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#else
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        if (qualifier == 'l')
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#endif
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        {
            num = va_arg(args, rt_uint32_t);
            if (flags & SIGN) num = (rt_int32_t)num;
        }
        else if (qualifier == 'h')
        {
            num = (rt_uint16_t)va_arg(args, rt_int32_t);
            if (flags & SIGN) num = (rt_int16_t)num;
        }
        else
        {
            num = va_arg(args, rt_uint32_t);
            if (flags & SIGN) num = (rt_int32_t)num;
        }
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#ifdef RT_PRINTF_PRECISION
988
        str = print_number(str, end, num, base, field_width, precision, flags);
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#else
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        str = print_number(str, end, num, base, field_width, flags);
991
#endif
992
    }
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    if (str <= end) *str = '\0';
    else *end = '\0';
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    /* the trailing null byte doesn't count towards the total
    * ++str;
    */
    return str - buf;
1001
}
1002
RTM_EXPORT(rt_vsnprintf);
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/**
 * This function will fill a formatted string to buffer
 *
 * @param buf the buffer to save formatted string
 * @param size the size of buffer
 * @param fmt the format
 */
rt_int32_t rt_snprintf(char *buf, rt_size_t size, const char *fmt, ...)
{
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    rt_int32_t n;
    va_list args;
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1016
    va_start(args, fmt);
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    n = rt_vsnprintf(buf, size, fmt, args);
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    va_end(args);
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    return n;
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}
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RTM_EXPORT(rt_snprintf);
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/**
 * This function will fill a formatted string to buffer
 *
 * @param buf the buffer to save formatted string
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 * @param arg_ptr the arg_ptr
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 * @param format the format
 */
rt_int32_t rt_vsprintf(char *buf, const char *format, va_list arg_ptr)
{
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    return rt_vsnprintf(buf, (rt_size_t) - 1, format, arg_ptr);
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}
1035
RTM_EXPORT(rt_vsprintf);
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/**
 * This function will fill a formatted string to buffer
 *
 * @param buf the buffer to save formatted string
 * @param format the format
 */
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rt_int32_t rt_sprintf(char *buf, const char *format, ...)
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{
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    rt_int32_t n;
    va_list arg_ptr;
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    va_start(arg_ptr, format);
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    n = rt_vsprintf(buf, format, arg_ptr);
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    va_end(arg_ptr);
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    return n;
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}
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RTM_EXPORT(rt_sprintf);
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#ifdef RT_USING_CONSOLE

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#ifdef RT_USING_DEVICE
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/**
 * This function returns the device using in console.
 *
 * @return the device using in console or RT_NULL
 */
rt_device_t rt_console_get_device(void)
{
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    return _console_device;
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}
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RTM_EXPORT(rt_console_get_device);
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/**
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 * This function will set a device as console device.
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 * After set a device to console, all output of rt_kprintf will be
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 * redirected to this new device.
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 *
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 * @param name the name of new console device
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 *
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 * @return the old console device handler
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 */
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rt_device_t rt_console_set_device(const char *name)
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{
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    rt_device_t new, old;

    /* save old device */
    old = _console_device;

    /* find new console device */
    new = rt_device_find(name);
    if (new != RT_NULL)
    {
        if (_console_device != RT_NULL)
        {
            /* close old console device */
            rt_device_close(_console_device);
        }

        /* set new console device */
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        rt_device_open(new, RT_DEVICE_OFLAG_RDWR | RT_DEVICE_FLAG_STREAM);
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        _console_device = new;
    }

    return old;
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}
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RTM_EXPORT(rt_console_set_device);
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#endif
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RT_WEAK void rt_hw_console_output(const char *str)
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{
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    /* empty console output */
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}
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RTM_EXPORT(rt_hw_console_output);
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/**
 * This function will put string to the console.
 *
 * @param str the string output to the console.
 */
void rt_kputs(const char *str)
{
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    if (!str) return;

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#ifdef RT_USING_DEVICE
    if (_console_device == RT_NULL)
    {
        rt_hw_console_output(str);
    }
    else
    {
        rt_uint16_t old_flag = _console_device->open_flag;

        _console_device->open_flag |= RT_DEVICE_FLAG_STREAM;
        rt_device_write(_console_device, 0, str, rt_strlen(str));
        _console_device->open_flag = old_flag;
    }
#else
    rt_hw_console_output(str);
#endif
}

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/**
 * This function will print a formatted string on system console
 *
 * @param fmt the format
 */
void rt_kprintf(const char *fmt, ...)
{
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    va_list args;
    rt_size_t length;
    static char rt_log_buf[RT_CONSOLEBUF_SIZE];

    va_start(args, fmt);
    /* the return value of vsnprintf is the number of bytes that would be
     * written to buffer had if the size of the buffer been sufficiently
     * large excluding the terminating null byte. If the output string
     * would be larger than the rt_log_buf, we have to adjust the output
     * length. */
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    length = rt_vsnprintf(rt_log_buf, sizeof(rt_log_buf) - 1, fmt, args);
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    if (length > RT_CONSOLEBUF_SIZE - 1)
        length = RT_CONSOLEBUF_SIZE - 1;
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#ifdef RT_USING_DEVICE
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    if (_console_device == RT_NULL)
    {
        rt_hw_console_output(rt_log_buf);
    }
    else
    {
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        rt_uint16_t old_flag = _console_device->open_flag;
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        _console_device->open_flag |= RT_DEVICE_FLAG_STREAM;
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        rt_device_write(_console_device, 0, rt_log_buf, length);
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        _console_device->open_flag = old_flag;
1171
    }
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#else
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    rt_hw_console_output(rt_log_buf);
1174
#endif
1175
    va_end(args);
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}
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RTM_EXPORT(rt_kprintf);
1178
#endif
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struct tm *rt_gmtime_r(const time_t *timep, struct tm *result)
{
#define IS_LEAP_YEAR(year) (year % 4 == 0 && (year % 100 != 0 || year % 400 == 0))

    const rt_uint32_t mon_table[12] = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
    rt_uint32_t year = 1970, month = 0;
    rt_uint32_t daycount = 0, second = 0, number = 0;

    second = *timep % (24 * 60 * 60);
    result->tm_hour = second / 3600;
    result->tm_min = (second % 3600) / 60;
    result->tm_sec = (second % 3600) % 60;

    daycount = *timep / (24 * 60 * 60);
    result->tm_wday = (daycount + 4) % 7;
    if (daycount != 0)
    {
        while (daycount >= 365)
        {
            number = IS_LEAP_YEAR(year) ? 366 : 365;
            if (daycount >= number)
            {
                daycount -= number;
                year++;
            }
            else
                break;
        }
        result->tm_year = year - 1900;

        while (daycount >= 28)
        {
            if (month == 1 && IS_LEAP_YEAR(year))
            {
                if (daycount >= 29)
                    daycount -= 29;
                else
                    break;
            }
            else
            {
                if (daycount >= mon_table[month])
                    daycount -= mon_table[month];
                else
                    break;
            }
            month++;
        }
        result->tm_mon = month + 1;
        result->tm_mday = daycount + 1;
    }
    return result;
}
RTM_EXPORT(rt_gmtime_r);

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#ifdef RT_USING_HEAP
/**
 * This function allocates a memory block, which address is aligned to the
 * specified alignment size.
 *
 * @param size the allocated memory block size
 * @param align the alignment size
 *
 * @return the allocated memory block on successful, otherwise returns RT_NULL
 */
1245
void *rt_malloc_align(rt_size_t size, rt_size_t align)
1246
{
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    void *align_ptr;
    void *ptr;
    rt_size_t align_size;

    /* align the alignment size to 4 byte */
    align = ((align + 0x03) & ~0x03);

    /* get total aligned size */
    align_size = ((size + 0x03) & ~0x03) + align;
    /* allocate memory block from heap */
    ptr = rt_malloc(align_size);
    if (ptr != RT_NULL)
    {
1260
        /* the allocated memory block is aligned */
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        if (((rt_uint32_t)ptr & (align - 1)) == 0)
        {
            align_ptr = (void *)((rt_uint32_t)ptr + align);
        }
        else
        {
            align_ptr = (void *)(((rt_uint32_t)ptr + (align - 1)) & ~(align - 1));
        }

        /* set the pointer before alignment pointer to the real pointer */
        *((rt_uint32_t *)((rt_uint32_t)align_ptr - sizeof(void *))) = (rt_uint32_t)ptr;

        ptr = align_ptr;
    }

    return ptr;
1277
}
1278
RTM_EXPORT(rt_malloc_align);
1279 1280

/**
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 * This function release the memory block, which is allocated by
 * rt_malloc_align function and address is aligned.
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 *
 * @param ptr the memory block pointer
 */
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void rt_free_align(void *ptr)
1287
{
1288
    void *real_ptr;
1289

1290
    real_ptr = (void *) * (rt_uint32_t *)((rt_uint32_t)ptr - sizeof(void *));
1291
    rt_free(real_ptr);
1292
}
1293
RTM_EXPORT(rt_free_align);
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#endif

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#ifndef RT_USING_CPU_FFS
const rt_uint8_t __lowest_bit_bitmap[] =
{
    /* 00 */ 0, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 10 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 20 */ 5, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 30 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 40 */ 6, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 50 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 60 */ 5, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 70 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 80 */ 7, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* 90 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* A0 */ 5, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* B0 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* C0 */ 6, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* D0 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* E0 */ 5, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0,
    /* F0 */ 4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0
};

/**
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 * This function finds the first bit set (beginning with the least significant bit)
1319 1320
 * in value and return the index of that bit.
 *
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 * Bits are numbered starting at 1 (the least significant bit).  A return value of
1322
 * zero from any of these functions means that the argument was zero.
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 *
 * @return return the index of the first bit set. If value is 0, then this function
1325 1326
 * shall return 0.
 */
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int __rt_ffs(int value)
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{
    if (value == 0) return 0;

    if (value & 0xff)
        return __lowest_bit_bitmap[value & 0xff] + 1;

    if (value & 0xff00)
        return __lowest_bit_bitmap[(value & 0xff00) >> 8] + 9;
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1337 1338
    if (value & 0xff0000)
        return __lowest_bit_bitmap[(value & 0xff0000) >> 16] + 17;
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    return __lowest_bit_bitmap[(value & 0xff000000) >> 24] + 25;
}
#endif

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#ifdef RT_DEBUG
/* RT_ASSERT(EX)'s hook */
1346
void (*rt_assert_hook)(const char *ex, const char *func, rt_size_t line);
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/**
 * This function will set a hook function to RT_ASSERT(EX). It will run when the expression is false.
 *
 * @param hook the hook function
 */
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void rt_assert_set_hook(void (*hook)(const char *ex, const char *func, rt_size_t line))
{
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    rt_assert_hook = hook;
}
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/**
 * The RT_ASSERT function.
 *
 * @param ex the assertion condition string
 * @param func the function name when assertion.
 * @param line the file line number when assertion.
 */
1364
void rt_assert_handler(const char *ex_string, const char *func, rt_size_t line)
1365 1366 1367 1368 1369 1370
{
    volatile char dummy = 0;

    if (rt_assert_hook == RT_NULL)
    {
#ifdef RT_USING_MODULE
1371
        if (dlmodule_self())
1372
        {
1373 1374
            /* close assertion module */
            dlmodule_exit(-1);
1375 1376
        }
        else
1377
#endif
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        {
            rt_kprintf("(%s) assertion failed at function:%s, line number:%d \n", ex_string, func, line);
            while (dummy == 0);
        }
1382
    }
1383 1384
    else
    {
1385
        rt_assert_hook(ex_string, func, line);
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    }
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}
RTM_EXPORT(rt_assert_handler);
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#endif /* RT_DEBUG */

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#if !defined (RT_USING_NEWLIB) && defined (RT_USING_MINILIBC) && defined (__GNUC__)
#include <sys/types.h>
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void *memcpy(void *dest, const void *src, size_t n) __attribute__((weak, alias("rt_memcpy")));
void *memset(void *s, int c, size_t n) __attribute__((weak, alias("rt_memset")));
void *memmove(void *dest, const void *src, size_t n) __attribute__((weak, alias("rt_memmove")));
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int   memcmp(const void *s1, const void *s2, size_t n) __attribute__((weak, alias("rt_memcmp")));

size_t strlen(const char *s) __attribute__((weak, alias("rt_strlen")));
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char *strstr(const char *s1, const char *s2) __attribute__((weak, alias("rt_strstr")));
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int strcasecmp(const char *a, const char *b) __attribute__((weak, alias("rt_strcasecmp")));
char *strncpy(char *dest, const char *src, size_t n) __attribute__((weak, alias("rt_strncpy")));
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int strncmp(const char *cs, const char *ct, size_t count) __attribute__((weak, alias("rt_strncmp")));
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#ifdef RT_USING_HEAP
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char *strdup(const char *s) __attribute__((weak, alias("rt_strdup")));
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#endif
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int sprintf(char *buf, const char *format, ...) __attribute__((weak, alias("rt_sprintf")));
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int snprintf(char *buf, rt_size_t size, const char *fmt, ...) __attribute__((weak, alias("rt_snprintf")));
int vsprintf(char *buf, const char *format, va_list arg_ptr) __attribute__((weak, alias("rt_vsprintf")));

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#endif

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/**@}*/