/** * Copyright (c) 2019, The Linux Foundation. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* ======================================================================= FILE: std.c SERVICES: apiOne std lib string stuff ======================================================================= */ // // someday, drop this #include, implement our own memmove() // #include #include "AEEstd.h" #include "version.h" int std_getversion(char *pcDst, int nDestSize) { return std_strlcpy(pcDst, VERSION_STRING, nDestSize); } char std_tolower(char c) { if ((c >= 'A') && (c <= 'Z')) { c |= 32; } return c; } char std_toupper(char c) { if ((c >= 'a') && (c <= 'z')) { c &= ~32; } return c; } static __inline int x_casecmp(unsigned char c1, unsigned char c2) { int diff = c1 - c2; if (c1 >= 'A' && c1 <= 'Z') { diff += 32; } if (c2 >= 'A' && c2 <= 'Z') { diff -= 32; } return diff; } int std_strncmp(const char* s1, const char* s2, int n) { if (n > 0) { int i = 0; do { unsigned char c1 = (unsigned char)s1[i]; unsigned char c2 = (unsigned char)s2[i]; int diff = c1 - c2; if (diff) { return diff; } if ('\0' == c1) { break; } i++; } while (i < n); } return 0; } int std_strcmp(const char* s1, const char* s2) { return std_strncmp(s1, s2, MAX_INT32); } int std_strnicmp(const char* s1, const char* s2, int n) { if (n > 0) { int i = -n; s1 += n; s2 += n; do { unsigned char c1 = (unsigned char)s1[i]; unsigned char c2 = (unsigned char)s2[i]; int diff = x_casecmp(c1,c2); if (diff) { return diff; } if ('\0' == c1) { break; } } while (++i); } return 0; } int std_stricmp(const char* s1, const char* s2) { return std_strnicmp(s1, s2, MAX_INT32); } int std_strlcpy(char* pcDst, const char* cpszSrc, int nDestSize) { int nLen = std_strlen(cpszSrc); if (0 < nDestSize) { int n; n = STD_MIN(nLen, nDestSize - 1); (void)std_memmove(pcDst, cpszSrc, n); pcDst[n] = 0; } return nLen; } int std_strlcat(char* pcDst, const char* cpszSrc, int nDestSize) { int nLen = 0; while ((nLen < nDestSize) && (0 != pcDst[nLen])) { ++nLen; } return nLen + std_strlcpy(pcDst+nLen, cpszSrc, nDestSize-nLen); } char* std_strstr(const char* cpszHaystack, const char* cpszNeedle) { /* Check the empty needle string as a special case */ if ('\0' == *cpszNeedle ) { return (char*)cpszHaystack; } while ('\0' != *cpszHaystack) { /* Find the first character of the needle string in the haystack string */ if (*cpszHaystack == *cpszNeedle) { /* check if the rest of the string matches */ const char* pHaystack = cpszHaystack; const char* pNeedle = cpszNeedle; do { if ('\0' == *++pNeedle) { /* Found a match */ return (char*)cpszHaystack; } } while (*++pHaystack == *pNeedle); } cpszHaystack++; } return 0; } int std_memcmp(const void* p1, const void* p2, int length) { const unsigned char *cpc1 = p1; const unsigned char *cpc2 = p2; while (length-- > 0) { int diff = *cpc1++ - *cpc2++; if (0 != diff) { return diff; } } return 0; } int std_wstrlen(const AECHAR* s) { const AECHAR *sEnd = s; if (! *sEnd) return 0; do { ++sEnd; } while (*sEnd); return sEnd - s; } int std_wstrlcpy(AECHAR* pwcDst, const AECHAR* cpwszSrc, int nDestSize) { int nLen = std_wstrlen(cpwszSrc); if (0 < nDestSize) { int n; n = STD_MIN(nLen, nDestSize - 1); /* call memmove, in case n is larger than 1G */ (void)std_memsmove(pwcDst, nDestSize*sizeof(AECHAR), cpwszSrc, ((size_t)n)*sizeof(AECHAR)); pwcDst[n] = 0; } return nLen; } int std_wstrlcat(AECHAR* pwcDst, const AECHAR* cpwszSrc, int nDestSize) { int nLen = 0; while ((nLen < nDestSize) && (0 != pwcDst[nLen])) { ++nLen; } return nLen + std_wstrlcpy(pwcDst+nLen, cpwszSrc, nDestSize-nLen); } char* std_strchrend(const char* cpsz, char c) { while (*cpsz && *cpsz != c) { ++cpsz; } return (char*)cpsz; } char* std_strchr(const char* cpszSrch, int c) { const char *pc = std_strchrend(cpszSrch, (char)c); return (*pc == c ? (char*)pc : 0); } void* std_memstr(const char* cpHaystack, const char* cpszNeedle, int nHaystackLen) { int nLen = 0; /* Handle empty needle string as a special case */ if ('\0' == *cpszNeedle ) { return (char*)cpHaystack; } /* Find the first character of the needle string in the haystack string */ while (nLen < nHaystackLen) { if (cpHaystack[nLen] == *cpszNeedle) { /* check if the rest of the string matches */ const char* cpNeedle = cpszNeedle; int nRetIndex = nLen; do { if ('\0' == *++cpNeedle) { /* Found a match */ return (void*)(cpHaystack + nRetIndex); } nLen++; } while(cpHaystack[nLen] == *cpNeedle); } else { nLen++; } } return 0; } void* std_memchrend(const void* p, int c, int nLen) { const char* cpc = (const char*)p + nLen; int i = -nLen; if (nLen > 0) { do { if (cpc[i] == c) { break; } } while (++i); } return (void*) (cpc + i); } void* std_memchr(const void* s, int c, int n) { const char *pEnd = (const char*)std_memchrend(s,c,n); int nEnd = pEnd - (const char*)s; if (nEnd < n) { return (void*)pEnd; } return 0; } void* std_memrchr(const void* p, int c, int nLen) { const char* cpc = (const char*)p - 1; if (nLen > 0) { do { if (cpc[nLen] == c) { return (void*) (cpc + nLen); } } while (--nLen); } return 0; } char* std_strrchr(const char* cpsz, int c) { return std_memrchr(cpsz, c, std_strlen(cpsz) + 1); } void* std_memrchrbegin(const void* p, int c, int n) { void *pOut = std_memrchr(p, c, n); return (pOut ? pOut : (void*)p); } // x_scanbytes: internal function; WARNING: nLen must be >0 // // cStop = character at which to stop (in addition to cpszChars[...]) // // Using a bit mask provides a constant-time check for a terminating // character: 10 instructions for inner loop on ADS12arm9. Initialization // overhead is increased, but this is quickly made up for as searching begins. // // static char *x_scanbytes(const char *pcBuf, const char* cpszChars, int nLen, unsigned char cStop, boolean bTestEqual) { int n; unsigned a[8]; // Initialize bit mask based on the input flag that specifies whether // we are looking for a character that matches "any" or "none" // of the characters in the search string #define ENTRY(c) a[((c)&7)] // c's bit lives here #define SHIFT(c) ((c)>>3) // c's bit is shifted by this much if (bTestEqual) { std_memset(a, 0, STD_SIZEOF(a)); do { ENTRY(cStop) |= (0x80000000U >> SHIFT(cStop)); cStop = (unsigned char)*cpszChars++; } while (cStop); } else { std_memset(a, 0xFF, STD_SIZEOF(a)); while (0 != (cStop = (unsigned char)*cpszChars++)) { ENTRY(cStop) ^= (0x80000000U >> SHIFT(cStop)); } } // Search buffer pcBuf += nLen; n = -nLen; do { unsigned char uc = (unsigned char)pcBuf[n]; // testing for negative after shift is quicker than comparison if ( (int)(ENTRY(uc) << SHIFT(uc)) < 0) { break; } } while (++n); return (char*)(pcBuf+n); } void* std_memchrsend(const void* pBuf, const char* cpszChars, int nLen) { if (nLen <= 0) { return (void*)pBuf; } if ('\0' == *cpszChars) { return (char*)pBuf + nLen; } return x_scanbytes((const char*)pBuf, cpszChars+1, nLen, (unsigned char)*cpszChars, TRUE); } char* std_strchrsend(const char* cpszSrch, const char* cpszChars) { return x_scanbytes(cpszSrch, cpszChars, MAX_INT32, '\0', TRUE); } char *std_strchrs(const char* cpszSrch, const char* cpszChars) { const char *pc = std_strchrsend(cpszSrch, cpszChars); return (*pc ? (char*)pc : 0); } char* std_striends(const char* cpsz, const char* cpszSuffix) { int nOffset = std_strlen(cpsz) - std_strlen(cpszSuffix); if ((0 <= nOffset) && (0 == std_stricmp(cpsz+nOffset, cpszSuffix))) { return (char*)(cpsz+nOffset); } return 0; } char* std_strends(const char* cpsz, const char* cpszSuffix) { int nOffset = std_strlen(cpsz) - std_strlen(cpszSuffix); if ((0 <= nOffset) && (0 == std_strcmp(cpsz+nOffset, cpszSuffix))) { return (char*)(cpsz + nOffset); } return 0; } char* std_strbegins(const char* cpsz, const char* cpszPrefix) { for (;;) { if ('\0' == *cpszPrefix) { return (char*)cpsz; } if (*cpszPrefix != *cpsz) { return 0; } ++cpszPrefix; ++cpsz; } // not reached } char* std_stribegins(const char* cpsz, const char* cpszPrefix) { for (;;) { if ('\0' == *cpszPrefix) { return (char*)cpsz; } if (x_casecmp((unsigned char)*cpszPrefix, (unsigned char)*cpsz)) { return 0; } ++cpszPrefix; ++cpsz; } // not reached } int std_strcspn(const char* cpszSrch, const char* cpszChars) { const char *pc = x_scanbytes(cpszSrch, cpszChars, MAX_INT32, '\0', TRUE); return (pc - cpszSrch); } int std_strspn(const char* cpszSrch, const char* cpszChars) { const char *pc = x_scanbytes(cpszSrch, cpszChars, MAX_INT32, '\0', FALSE); return (pc - cpszSrch); } int std_wstrncmp(const AECHAR* s1, const AECHAR* s2, int nLen) { if (nLen > 0) { int i; s1 += nLen; s2 += nLen; i = -nLen; do { AECHAR c1 = s1[i]; AECHAR c2 = s2[i]; int diff = c1 - c2; if (diff) { return diff; } if ('\0' == c1) { break; } } while (++i); } return 0; } int std_wstrcmp(const AECHAR* s1, const AECHAR* s2) { return std_wstrncmp(s1, s2, MAX_INT32); } AECHAR* std_wstrchr(const AECHAR* cpwszText, AECHAR ch) { for (; ; cpwszText++) { AECHAR chn = *cpwszText; if (chn == ch) { return (AECHAR *)cpwszText; } else if ( chn == (AECHAR)0 ) { return 0; } } } AECHAR* std_wstrrchr(const AECHAR* cpwszText, AECHAR ch) { const AECHAR* p = 0; do { if (*cpwszText == ch) { p = cpwszText; } } while (*cpwszText++ != (AECHAR)0); return (AECHAR*)p; }