/* * Copyright (C) 1996-2017 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 03 Configuration File Parsing */ #include "squid.h" #include "cache_cf.h" #include "compat/strtoll.h" #include "ConfigParser.h" #include "Debug.h" #include "globals.h" #include "Parsing.h" /* * These functions is the same as atoi/l/f, except that they check for errors */ double xatof(const char *token) { char *end = NULL; double ret = strtod(token, &end); if (ret == 0 && end == token) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: No digits were found in the input value '" << token << "'."); self_destruct(); } if (*end) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: Invalid value: '" << token << "' is supposed to be a number."); self_destruct(); } return ret; } int xatoi(const char *token) { int64_t input = xatoll(token, 10); int ret = (int) input; if (input != static_cast(ret)) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' is larger than the type 'int'."); self_destruct(); } return ret; } unsigned int xatoui(const char *token, char eov) { int64_t input = xatoll(token, 10, eov); if (input < 0) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The input value '" << token << "' cannot be less than 0."); self_destruct(); } unsigned int ret = (unsigned int) input; if (input != static_cast(ret)) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' is larger than the type 'unsigned int'."); self_destruct(); } return ret; } long xatol(const char *token) { int64_t input = xatoll(token, 10); long ret = (long) input; if (input != static_cast(ret)) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' is larger than the type 'long'."); self_destruct(); } return ret; } int64_t xatoll(const char *token, int base, char eov) { char *end = NULL; int64_t ret = strtoll(token, &end, base); if (end == token) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: No digits were found in the input value '" << token << "'."); self_destruct(); } if (*end != eov) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: Invalid value: '" << token << "' is supposed to be a number."); self_destruct(); } return ret; } unsigned short xatos(const char *token) { long port = xatol(token); if (port < 0) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' cannot be less than 0."); self_destruct(); } if (port & ~0xFFFF) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' is larger than the type 'short'."); self_destruct(); } return port; } int64_t GetInteger64(void) { char *token = ConfigParser::NextToken(); if (token == NULL) self_destruct(); return xatoll(token, 10); } /* * This function is different from others (e.g., GetInteger64, GetShort) * because it supports octal and hexadecimal numbers */ int GetInteger(void) { char *token = ConfigParser::NextToken(); int i; if (token == NULL) self_destruct(); // The conversion must honor 0 and 0x prefixes, which are important for things like umask int64_t ret = xatoll(token, 0); i = (int) ret; if (ret != static_cast(i)) { debugs(0, DBG_PARSE_NOTE(DBG_IMPORTANT), "ERROR: The value '" << token << "' is larger than the type 'int'."); self_destruct(); } return i; } /* * This function is similar as GetInteger() but the token might contain * the percentage symbol (%) and we check whether the value is in the range * of [0, 100] * So, we accept two types of input: 1. XX% or 2. XX , 0<=XX<=100 * unless the limit parameter is set to false. */ double GetPercentage(bool limit) { char *token = ConfigParser::NextToken(); if (!token) { debugs(3, DBG_CRITICAL, "FATAL: A percentage value is missing."); self_destruct(); } //if there is a % in the end of the digits, we remove it and go on. char* end = &token[strlen(token)-1]; if (*end == '%') { *end = '\0'; } int p = xatoi(token); if (p < 0 || (limit && p > 100)) { debugs(3, DBG_CRITICAL, "FATAL: The value '" << token << "' is out of range. A percentage should be within [0, 100]."); self_destruct(); } return static_cast(p) / 100.0; } unsigned short GetShort(void) { char *token = ConfigParser::NextToken(); if (token == NULL) self_destruct(); return xatos(token); } bool StringToInt(const char *s, int &result, const char **p, int base) { if (s) { char *ptr = 0; const int h = (int) strtol(s, &ptr, base); if (ptr != s && ptr) { result = h; if (p) *p = ptr; return true; } } return false; } bool StringToInt64(const char *s, int64_t &result, const char **p, int base) { if (s) { char *ptr = 0; const int64_t h = (int64_t) strtoll(s, &ptr, base); if (ptr != s && ptr) { result = h; if (p) *p = ptr; return true; } } return false; } bool GetHostWithPort(char *token, Ip::Address *ipa) { char *t; char *host; char *tmp; unsigned short port; host = NULL; port = 0; if (*token == '[') { /* [host]:port */ host = token + 1; t = strchr(host, ']'); if (!t) return false; *t = '\0'; ++t; if (*t != ':') return false; port = xatos(t + 1); } else if ((t = strchr(token, ':'))) { /* host:port */ host = token; *t = '\0'; port = xatos(t + 1); if (0 == port) return false; } else if (strtol(token, &tmp, 10) && !*tmp) { port = xatos(token); } else { host = token; port = 0; } if (NULL == host) ipa->setAnyAddr(); else if ( ipa->GetHostByName(host) ) /* dont use ipcache. Accept either FQDN or IPA. */ (void) 0; else return false; /* port MUST be set after the IPA lookup/conversion is performed. */ ipa->port(port); return true; }