/* Skip everything up to a specified character. * Returns with ParsePointer set BEHIND this character. * Returns RS_RET_OK if found, RS_RET_NOT_FOUND if not * found. In that case, the ParsePointer is moved to the * last character of the string. * 2005-09-19 rgerhards */ rsRetVal parsSkipAfterChar(rsParsObj *pThis, char c) { register unsigned char *pC; DEFiRet; rsCHECKVALIDOBJECT(pThis, OIDrsPars); pC = rsCStrGetBufBeg(pThis->pCStr); while(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) { if(pC[pThis->iCurrPos] == c) break; ++pThis->iCurrPos; } /* delimiter found? */ if(pC[pThis->iCurrPos] == c) { if(pThis->iCurrPos+1 < rsCStrLen(pThis->pCStr)) { iRet = RS_RET_OK; pThis->iCurrPos++; /* 'eat' delimiter */ } else { iRet = RS_RET_FOUND_AT_STRING_END; } } else { iRet = RS_RET_NOT_FOUND; } RETiRet; }
/* parse an integer. The parse pointer is advanced to the * position directly after the last digit. If no digit is * found at all, an error is returned and the parse pointer * is NOT advanced. * PORTABILITY WARNING: this function depends on the * continues representation of digits inside the character * set (as in ASCII). * rgerhards 2005-09-27 */ rsRetVal parsInt(rsParsObj *pThis, int* pInt) { unsigned char *pC; int iVal; rsCHECKVALIDOBJECT(pThis, OIDrsPars); assert(pInt != NULL); iVal = 0; pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; /* order of checks is important, else we might do * mis-addressing! (off by one) */ if(pThis->iCurrPos >= rsCStrLen(pThis->pCStr)) return RS_RET_NO_MORE_DATA; if(!isdigit((int)*pC)) return RS_RET_NO_DIGIT; while(pThis->iCurrPos < rsCStrLen(pThis->pCStr) && isdigit((int)*pC)) { iVal = iVal * 10 + *pC - '0'; ++pThis->iCurrPos; ++pC; } *pInt = iVal; return RS_RET_OK; }
/* Parse a quoted string ("-some-data") from the given position. * Leading whitespace before the first quote is skipped. During * parsing, escape sequences are detected and converted: * \\ - backslash character * \" - quote character * any other value \<somechar> is reserved for future use. * * After return, the parse pointer is paced after the trailing * quote. * * Output: * ppCStr Pointer to the parsed string - must be freed by caller and * does NOT include the quotes. * rgerhards, 2005-09-19 */ rsRetVal parsQuotedCStr(rsParsObj *pThis, cstr_t **ppCStr) { register unsigned char *pC; cstr_t *pCStr; DEFiRet; rsCHECKVALIDOBJECT(pThis, OIDrsPars); if((iRet = parsSkipAfterChar(pThis, '"')) != RS_RET_OK) FINALIZE; pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; /* OK, we most probably can obtain a value... */ CHKiRet(rsCStrConstruct(&pCStr)); while(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) { if(*pC == '"') { break; /* we are done! */ } else if(*pC == '\\') { ++pThis->iCurrPos; ++pC; if(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) { /* in this case, we copy the escaped character * to the output buffer (but do not rely on this, * we might later introduce other things, like \007! */ if((iRet = rsCStrAppendChar(pCStr, *pC)) != RS_RET_OK) { rsCStrDestruct(&pCStr); FINALIZE; } } } else { /* regular character */ if((iRet = rsCStrAppendChar(pCStr, *pC)) != RS_RET_OK) { rsCStrDestruct (&pCStr); FINALIZE; } } ++pThis->iCurrPos; ++pC; } if(*pC == '"') { ++pThis->iCurrPos; /* 'eat' trailing quote */ } else { /* error - improperly quoted string! */ rsCStrDestruct (&pCStr); ABORT_FINALIZE(RS_RET_MISSING_TRAIL_QUOTE); } /* We got the string, let's finish it... */ if((iRet = rsCStrFinish(pCStr)) != RS_RET_OK) { rsCStrDestruct (&pCStr); FINALIZE; } /* done! */ *ppCStr = pCStr; finalize_it: RETiRet; }
/* return the position of the parse pointer */ int rsParsGetParsePointer(rsParsObj *pThis) { rsCHECKVALIDOBJECT(pThis, OIDrsPars); if(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) return pThis->iCurrPos; else return rsCStrLen(pThis->pCStr) - 1; }
/* peek at the character at the parse pointer * the caller must ensure that the parse pointer is not * at the end of the parse buffer (e.g. by first calling * parsIsAtEndOfParseString). * rgerhards, 2005-09-27 */ char parsPeekAtCharAtParsPtr(rsParsObj *pThis) { rsCHECKVALIDOBJECT(pThis, OIDrsPars); assert(pThis->iCurrPos < rsCStrLen(pThis->pCStr)); return(*(pThis->pCStr->pBuf + pThis->iCurrPos)); }
/* Parse string up to a delimiter. * * Input: * cDelim - the delimiter * The following two are for whitespace stripping, * 0 means "no", 1 "yes" * - bTrimLeading * - bTrimTrailing * * Output: * ppCStr Pointer to the parsed string - must be freed by caller! */ rsRetVal parsDelimCStr(rsParsObj *pThis, cstr_t **ppCStr, char cDelim, int bTrimLeading, int bTrimTrailing) { DEFiRet; register unsigned char *pC; cstr_t *pCStr; rsCHECKVALIDOBJECT(pThis, OIDrsPars); CHKiRet(rsCStrConstruct(&pCStr)); if(bTrimLeading) parsSkipWhitespace(pThis); pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; while(pThis->iCurrPos < rsCStrLen(pThis->pCStr) && *pC != cDelim) { if((iRet = rsCStrAppendChar(pCStr, *pC)) != RS_RET_OK) { rsCStrDestruct(&pCStr); FINALIZE; } ++pThis->iCurrPos; ++pC; } if(*pC == cDelim) { ++pThis->iCurrPos; /* eat delimiter */ } /* We got the string, now take it and see if we need to * remove anything at its end. */ if((iRet = rsCStrFinish(pCStr)) != RS_RET_OK) { rsCStrDestruct (&pCStr); FINALIZE; } if(bTrimTrailing) { if((iRet = rsCStrTrimTrailingWhiteSpace(pCStr)) != RS_RET_OK) { rsCStrDestruct (&pCStr); FINALIZE; } } /* done! */ *ppCStr = pCStr; finalize_it: RETiRet; }
/* Skip whitespace. Often used to trim parsable entries. * Returns with ParsePointer set to first non-whitespace * character (or at end of string). */ rsRetVal parsSkipWhitespace(rsParsObj *pThis) { register unsigned char *pC; rsCHECKVALIDOBJECT(pThis, OIDrsPars); pC = rsCStrGetBufBeg(pThis->pCStr); while(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) { if(!isspace((int)*(pC+pThis->iCurrPos))) break; ++pThis->iCurrPos; } return RS_RET_OK; }
/* Parse string up to a delimiter. * * Input: * cDelim - the delimiter. Note that SP within a value always is a delimiter, * so cDelim is actually an *additional* delimiter. * The following two are for whitespace stripping, * 0 means "no", 1 "yes" * - bTrimLeading * - bTrimTrailing * - bConvLower - convert string to lower case? * * Output: * ppCStr Pointer to the parsed string - must be freed by caller! */ rsRetVal parsDelimCStr(rsParsObj *pThis, cstr_t **ppCStr, char cDelim, int bTrimLeading, int bTrimTrailing, int bConvLower) { DEFiRet; register unsigned char *pC; cstr_t *pCStr = NULL; rsCHECKVALIDOBJECT(pThis, OIDrsPars); CHKiRet(rsCStrConstruct(&pCStr)); if(bTrimLeading) parsSkipWhitespace(pThis); pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; while(pThis->iCurrPos < rsCStrLen(pThis->pCStr) && *pC != cDelim) { CHKiRet(cstrAppendChar(pCStr, bConvLower ? tolower(*pC) : *pC)); ++pThis->iCurrPos; ++pC; } if(pThis->iCurrPos < cstrLen(pThis->pCStr)) { //BUGFIX!! ++pThis->iCurrPos; /* eat delimiter */ } /* We got the string, now take it and see if we need to * remove anything at its end. */ CHKiRet(cstrFinalize(pCStr)); if(bTrimTrailing) { CHKiRet(cstrTrimTrailingWhiteSpace(pCStr)); } /* done! */ *ppCStr = pCStr; finalize_it: if(iRet != RS_RET_OK) { if(pCStr != NULL) rsCStrDestruct(&pCStr); } RETiRet; }
/* Skip whitespace. Often used to trim parsable entries. * Returns with ParsePointer set to first non-whitespace * character (or at end of string). * If bRequireOne is set to true, at least one whitespace * must exist, else an error is returned. */ rsRetVal parsSkipWhitespace(rsParsObj *pThis) { register unsigned char *pC; int numSkipped; DEFiRet; rsCHECKVALIDOBJECT(pThis, OIDrsPars); pC = rsCStrGetBufBeg(pThis->pCStr); numSkipped = 0; while(pThis->iCurrPos < rsCStrLen(pThis->pCStr)) { if(!isspace((int)*(pC+pThis->iCurrPos))) break; ++pThis->iCurrPos; ++numSkipped; } RETiRet; }
/* tell if the parsepointer is at the end of the * to-be-parsed string. Returns 1, if so, 0 * otherwise. rgerhards, 2005-09-27 */ int parsIsAtEndOfParseString(rsParsObj *pThis) { rsCHECKVALIDOBJECT(pThis, OIDrsPars); return (pThis->iCurrPos < rsCStrLen(pThis->pCStr)) ? 0 : 1; }
rsRetVal parsAddrWithBits(rsParsObj *pThis, struct NetAddr **pIP, int *pBits) { register uchar *pC; uchar *pszIP; uchar *pszTmp; struct addrinfo hints, *res = NULL; cstr_t *pCStr; DEFiRet; rsCHECKVALIDOBJECT(pThis, OIDrsPars); assert(pIP != NULL); assert(pBits != NULL); CHKiRet(cstrConstruct(&pCStr)); parsSkipWhitespace(pThis); pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; /* we parse everything until either '/', ',' or * whitespace. Validity will be checked down below. */ while(pThis->iCurrPos < rsCStrLen(pThis->pCStr) && *pC != '/' && *pC != ',' && !isspace((int)*pC)) { if((iRet = cstrAppendChar(pCStr, *pC)) != RS_RET_OK) { cstrDestruct (&pCStr); FINALIZE; } ++pThis->iCurrPos; ++pC; } /* We got the string, let's finish it... */ if((iRet = cstrFinalize(pCStr)) != RS_RET_OK) { cstrDestruct(&pCStr); FINALIZE; } /* now we have the string and must check/convert it to * an NetAddr structure. */ CHKiRet(cstrConvSzStrAndDestruct(pCStr, &pszIP, 0)); *pIP = calloc(1, sizeof(struct NetAddr)); if (*((char*)pszIP) == '[') { pszTmp = (uchar*)strchr ((char*)pszIP, ']'); if (pszTmp == NULL) { free (pszIP); ABORT_FINALIZE(RS_RET_INVALID_IP); } *pszTmp = '\0'; memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_family = AF_INET6; # ifdef AI_ADDRCONFIG hints.ai_flags = AI_ADDRCONFIG | AI_NUMERICHOST; # else hints.ai_flags = AI_NUMERICHOST; # endif switch(getaddrinfo ((char*)pszIP+1, NULL, &hints, &res)) { case 0: (*pIP)->addr.NetAddr = MALLOC (res->ai_addrlen); memcpy ((*pIP)->addr.NetAddr, res->ai_addr, res->ai_addrlen); freeaddrinfo (res); break; case EAI_NONAME: F_SET((*pIP)->flags, ADDR_NAME|ADDR_PRI6); (*pIP)->addr.HostWildcard = strdup ((const char*)pszIP+1); break; default: free (pszIP); free (*pIP); ABORT_FINALIZE(RS_RET_ERR); } if(*pC == '/') { /* mask bits follow, let's parse them! */ ++pThis->iCurrPos; /* eat slash */ if((iRet = parsInt(pThis, pBits)) != RS_RET_OK) { free (pszIP); free (*pIP); FINALIZE; } /* we need to refresh pointer (changed by parsInt()) */ pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; } else { /* no slash, so we assume a single host (/128) */ *pBits = 128; } } else { /* now parse IPv4 */ memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_family = AF_INET; # ifdef AI_ADDRCONFIG hints.ai_flags = AI_ADDRCONFIG | AI_NUMERICHOST; # else hints.ai_flags = AI_NUMERICHOST; # endif switch(getaddrinfo ((char*)pszIP, NULL, &hints, &res)) { case 0: (*pIP)->addr.NetAddr = MALLOC (res->ai_addrlen); memcpy ((*pIP)->addr.NetAddr, res->ai_addr, res->ai_addrlen); freeaddrinfo (res); break; case EAI_NONAME: F_SET((*pIP)->flags, ADDR_NAME); (*pIP)->addr.HostWildcard = strdup ((const char*)pszIP); break; default: free (pszIP); free (*pIP); ABORT_FINALIZE(RS_RET_ERR); } if(*pC == '/') { /* mask bits follow, let's parse them! */ ++pThis->iCurrPos; /* eat slash */ if((iRet = parsInt(pThis, pBits)) != RS_RET_OK) { free (pszIP); free (*pIP); FINALIZE; } /* we need to refresh pointer (changed by parsInt()) */ pC = rsCStrGetBufBeg(pThis->pCStr) + pThis->iCurrPos; } else { /* no slash, so we assume a single host (/32) */ *pBits = 32; } } free(pszIP); /* no longer needed */ /* skip to next processable character */ while(pThis->iCurrPos < rsCStrLen(pThis->pCStr) && (*pC == ',' || isspace((int)*pC))) { ++pThis->iCurrPos; ++pC; } iRet = RS_RET_OK; finalize_it: RETiRet; }