/* Copyright (C) 2007-2010 Open Information Security Foundation * * You can copy, redistribute or modify this Program under the terms of * the GNU General Public License version 2 as published by the Free * Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * version 2 along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ /** * \file * * \author Anoop Saldanha * * Host info utility functions */ #include "suricata-common.h" #include "util-host-os-info.h" #include "util-error.h" #include "util-debug.h" #include "util-ip.h" #include "util-radix-tree.h" #include "stream-tcp-private.h" #include "stream-tcp-reassemble.h" #include "conf.h" #include "conf-yaml-loader.h" #include "util-enum.h" #include "util-unittest.h" /** Enum map for the various OS flavours */ SCEnumCharMap sc_hinfo_os_policy_map[ ] = { { "none", OS_POLICY_NONE }, { "bsd", OS_POLICY_BSD }, { "bsd-right", OS_POLICY_BSD_RIGHT }, { "old-linux", OS_POLICY_OLD_LINUX }, { "linux", OS_POLICY_LINUX }, { "old-solaris", OS_POLICY_OLD_SOLARIS }, { "solaris", OS_POLICY_SOLARIS }, { "hpux10", OS_POLICY_HPUX10 }, { "hpux11", OS_POLICY_HPUX11 }, { "irix", OS_POLICY_IRIX }, { "macos", OS_POLICY_MACOS }, { "windows", OS_POLICY_WINDOWS }, { "vista", OS_POLICY_VISTA }, { "windows2k3", OS_POLICY_WINDOWS2K3 }, { NULL, -1 }, }; /** Radix tree that holds the host OS information */ static SCRadixTree *sc_hinfo_tree = NULL; /** * \brief Allocates the host_os flavour wrapped in user_data variable to be sent * along with the key to the radix tree * * \param host_os Pointer to a character string containing the host_os flavour * * \retval user_data On success, pointer to the user_data that has to be sent * along with the key, to be added to the Radix tree; NULL on * failure * \initonly */ static void *SCHInfoAllocUserDataOSPolicy(const char *host_os) { int *user_data = NULL; if ( (user_data = SCMalloc(sizeof(int))) == NULL) { SCLogError(SC_ERR_FATAL, "Error allocating memory. Exiting"); exit(EXIT_FAILURE); } /* the host os flavour that has to be sent as user data */ if ( (*user_data = SCMapEnumNameToValue(host_os, sc_hinfo_os_policy_map)) == -1) { SCLogError(SC_ERR_INVALID_ENUM_MAP, "Invalid enum map inside " "SCHInfoAddHostOSInfo()"); SCFree(user_data); return NULL; } return (void *)user_data; } /** * \brief Used to free the user data that is allocated by host_os_info API * * \param Pointer to the data that has to be freed */ static void SCHInfoFreeUserDataOSPolicy(void *data) { if (data != NULL) SCFree(data); return; } /** * \brief Used to add the host-os-info data obtained from the conf * * \param host_os The host_os name/flavour from the conf file * \param host_os_ip_range Pointer to a char string holding the ip/ip_netblock * for the host_os specified in the first argument * \param is_ipv4 Indicates if the ip address to be considered for the * default configuration is IPV4; if not it is IPV6. * Specified using SC_HINFO_IS_IPV6 or SC_HINFO_IS_IPV4 * * \retval 0 On successfully adding the host os info to the Radix tree * \retval -1 On failure * \initonly (only specified from config, at the startup) */ int SCHInfoAddHostOSInfo(char *host_os, char *host_os_ip_range, int is_ipv4) { char *ip_str = NULL; char *ip_str_rem = NULL; struct in_addr *ipv4_addr = NULL; struct in6_addr *ipv6_addr = NULL; char *netmask_str = NULL; int netmask_value = 0; int *user_data = NULL; char recursive = FALSE; if (host_os == NULL || host_os_ip_range == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Invalid arguments"); return -1; } /* create the radix tree that would hold all the host os info */ if (sc_hinfo_tree == NULL) sc_hinfo_tree = SCRadixCreateRadixTree(SCHInfoFreeUserDataOSPolicy, NULL); /* the host os flavour that has to be sent as user data */ if ( (user_data = SCHInfoAllocUserDataOSPolicy(host_os)) == NULL) { SCLogError(SC_ERR_INVALID_ENUM_MAP, "Invalid enum map inside"); return -1; } /* if we have a default configuration set the appropriate values for the * netblocks */ if ( (strcasecmp(host_os_ip_range, "default")) == 0) { if (is_ipv4) host_os_ip_range = "0.0.0.0/0"; else host_os_ip_range = "::/0"; } if ( (ip_str = SCStrdup(host_os_ip_range)) == NULL) { SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); exit(EXIT_FAILURE); } /* check if we have more addresses in the host_os_ip_range */ if ((ip_str_rem = index(ip_str, ',')) != NULL) { ip_str_rem[0] = '\0'; ip_str_rem++; recursive = TRUE; } /* check if we have received a netblock */ if ( (netmask_str = index(ip_str, '/')) != NULL) { netmask_str[0] = '\0'; netmask_str++; } if (index(ip_str, ':') == NULL) { /* if we are here, we have an IPV4 address */ if ( (ipv4_addr = ValidateIPV4Address(ip_str)) == NULL) { SCLogError(SC_ERR_INVALID_IPV4_ADDR, "Invalid IPV4 address"); SCHInfoFreeUserDataOSPolicy(user_data); SCFree(ip_str); return -1; } if (netmask_str == NULL) { SCRadixAddKeyIPV4((uint8_t *)ipv4_addr, sc_hinfo_tree, (void *)user_data); } else { netmask_value = atoi(netmask_str); if (netmask_value < 0 || netmask_value > 32) { SCLogError(SC_ERR_INVALID_IP_NETBLOCK, "Invalid IPV4 Netblock"); SCHInfoFreeUserDataOSPolicy(user_data); SCFree(ipv4_addr); SCFree(ip_str); return -1; } MaskIPNetblock((uint8_t *)ipv4_addr, netmask_value, 32); SCRadixAddKeyIPV4Netblock((uint8_t *)ipv4_addr, sc_hinfo_tree, (void *)user_data, netmask_value); } } else { /* if we are here, we have an IPV6 address */ if ( (ipv6_addr = ValidateIPV6Address(ip_str)) == NULL) { SCLogError(SC_ERR_INVALID_IPV6_ADDR, "Invalid IPV6 address inside"); SCHInfoFreeUserDataOSPolicy(user_data); SCFree(ip_str); return -1; } if (netmask_str == NULL) { SCRadixAddKeyIPV6((uint8_t *)ipv6_addr, sc_hinfo_tree, (void *)user_data); } else { netmask_value = atoi(netmask_str); if (netmask_value < 0 || netmask_value > 128) { SCLogError(SC_ERR_INVALID_IP_NETBLOCK, "Invalid IPV6 Netblock"); SCHInfoFreeUserDataOSPolicy(user_data); SCFree(ipv6_addr); SCFree(ip_str); return -1; } MaskIPNetblock((uint8_t *)ipv6_addr, netmask_value, 128); SCRadixAddKeyIPV6Netblock((uint8_t *)ipv6_addr, sc_hinfo_tree, (void *)user_data, netmask_value); } } if (recursive == TRUE) { SCHInfoAddHostOSInfo(host_os, ip_str_rem, is_ipv4); } if (ip_str != NULL) SCFree(ip_str); if (ipv4_addr != NULL) SCFree(ipv4_addr); if (ipv6_addr != NULL) SCFree(ipv6_addr); return *user_data; } /** * \brief Retrieves the host os flavour, given an ipv4/ipv6 address as a string. * * \param Pointer to a string containing an IP address * * \retval The OS flavour on success; -1 on failure, or on not finding the key */ int SCHInfoGetHostOSFlavour(char *ip_addr_str) { struct in_addr *ipv4_addr = NULL; struct in6_addr *ipv6_addr = NULL; void *user_data = NULL; if (ip_addr_str == NULL || index(ip_addr_str, '/') != NULL) return -1; if (index(ip_addr_str, ':') != NULL) { if ( (ipv6_addr = ValidateIPV6Address(ip_addr_str)) == NULL) { SCLogError(SC_ERR_INVALID_IPV4_ADDR, "Invalid IPV4 address"); return -1; } (void)SCRadixFindKeyIPV6BestMatch((uint8_t *)ipv6_addr, sc_hinfo_tree, &user_data); if (user_data == NULL) return -1; else return *((int *)user_data); } else { if ( (ipv4_addr = ValidateIPV4Address(ip_addr_str)) == NULL) { SCLogError(SC_ERR_INVALID_IPV4_ADDR, "Invalid IPV4 address"); return -1; } (void)SCRadixFindKeyIPV4BestMatch((uint8_t *)ipv4_addr, sc_hinfo_tree, &user_data); if (user_data == NULL) return -1; else return *((int *)user_data); } } /** * \brief Retrieves the host os flavour, given an ipv4 address in the raw * address format. * * \param Pointer to a raw ipv4 address. * * \retval The OS flavour on success; -1 on failure, or on not finding the key */ int SCHInfoGetIPv4HostOSFlavour(uint8_t *ipv4_addr) { void *user_data = NULL; (void)SCRadixFindKeyIPV4BestMatch(ipv4_addr, sc_hinfo_tree, &user_data); if (user_data == NULL) return -1; else return *((int *)user_data); } /** * \brief Retrieves the host os flavour, given an ipv6 address in the raw * address format. * * \param Pointer to a raw ipv6 address. * * \retval The OS flavour on success; -1 on failure, or on not finding the key */ int SCHInfoGetIPv6HostOSFlavour(uint8_t *ipv6_addr) { void *user_data = NULL; (void)SCRadixFindKeyIPV6BestMatch(ipv6_addr, sc_hinfo_tree, &user_data); if (user_data == NULL) return -1; else return *((int *)user_data); } void SCHInfoCleanResources(void) { if (sc_hinfo_tree != NULL) { SCRadixReleaseRadixTree(sc_hinfo_tree); sc_hinfo_tree = NULL; } return; } /** * \brief Load the host os policy information from the configuration. * * \initonly (A mem alloc error should cause an exit failure) */ void SCHInfoLoadFromConfig(void) { ConfNode *root = ConfGetNode("host-os-policy"); if (root == NULL) return; ConfNode *policy; TAILQ_FOREACH(policy, &root->head, next) { ConfNode *host; TAILQ_FOREACH(host, &policy->head, next) { int is_ipv4 = 1; if (host->val != NULL && index(host->val, ':') != NULL) is_ipv4 = 0; if (SCHInfoAddHostOSInfo(policy->name, host->val, is_ipv4) == -1) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Failed to add host \"%s\" with policy \"%s\" to host " "info database", host->val, policy->name); exit(EXIT_FAILURE); } } } } /*------------------------------------Unit_Tests------------------------------*/ #ifdef UNITTESTS static SCRadixTree *sc_hinfo_tree_backup = NULL; static void SCHInfoCreateContextBackup(void) { sc_hinfo_tree_backup = sc_hinfo_tree; sc_hinfo_tree = NULL; return; } static void SCHInfoRestoreContextBackup(void) { sc_hinfo_tree = sc_hinfo_tree_backup; sc_hinfo_tree_backup = NULL; return; } /** * \test Check if we the IPs with the right OS flavours are added to the host OS * radix tree, and the IPS with invalid flavours returns an error(-1) */ int SCHInfoTestInvalidOSFlavour01(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("bamboo", "192.168.1.1", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("windows", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("irix", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("bsd", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("bsd", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("old_linux", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("old_linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("macos", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("macos", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("vista", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("windows2k3", "192.168.1.1", SC_HINFO_IS_IPV4) != SCMapEnumNameToValue("windows2k3", sc_hinfo_os_policy_map)) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that invalid ipv4 addresses and ipv4 netblocks are rejected by * the host os info API */ int SCHInfoTestInvalidIPV4Address02(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "192.168.1.566", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.168.1", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.168", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "", SC_HINFO_IS_IPV4) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.168.1.1/33", SC_HINFO_IS_IPV4) != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that invalid ipv4 addresses and ipv4 netblocks are rejected by * the host os info API */ int SCHInfoTestInvalidIPV6Address03(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "2362:7322", SC_HINFO_IS_IPV6) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "19YW:", SC_HINFO_IS_IPV6) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "1235", SC_HINFO_IS_IPV6) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "1922:236115:", SC_HINFO_IS_IPV6) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "", SC_HINFO_IS_IPV6) != -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "1921.6311:6241:6422:7352:ABBB:DDDD:EEEE/129", SC_HINFO_IS_IPV6) != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv4 addresses are inserted into the host os radix * tree, and the host os api retrieves the right value for the host os * flavour, on supplying as arg an ipv4 addresses that has been added to * the host os radix tree. */ int SCHInfoTestValidIPV4Address04(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "192.168.1.1", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "192.192.1.2", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "192.168.1.100", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "192.168.2.4", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.192.1.5", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "192.168.10.20", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "111.163.151.62", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "11.1.120.210", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "19.18.110.210", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "19.18.120.110", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "191.168.11.128", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "191.168.11.192", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.1") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.2") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.192.2.4") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.2.4") != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.192.1.5") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.10.20") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.163.151.62") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("11.1.120.210") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("19.18.110.210") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("19.18.120.110") != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("191.168.11.128") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("191.168.11.192") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("191.168.11.224") != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv4 addresses/netblocks are inserted into the host os * radix tree, and the host os api retrieves the right value for the host * os flavour, on supplying as arg an ipv4 addresses that has been added * to the host os radix tree. */ int SCHInfoTestValidIPV4Address05(void) { SCHInfoCreateContextBackup(); struct in_addr in; int result = 0; if (SCHInfoAddHostOSInfo("linux", "192.168.1.1", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "192.192.1.2", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "192.168.1.100", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "192.168.2.4", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "192.192.1.5", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "192.168.10.20", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "111.163.151.62", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "111.162.208.124/20", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "111.162.240.1", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "111.162.214.100", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "111.162.208.100", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "111.162.194.112", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.1") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.2") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.192.2.4") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.2.4") != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.192.1.5") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.10.20") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.163.151.62") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.208.0") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.210.1") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.214.1") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.0.0") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.240.112") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.240.1") != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.214.100") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (inet_pton(AF_INET, "111.162.208.100", &in) < 0) { goto end; } if (SCHInfoGetIPv4HostOSFlavour((uint8_t *)&in) != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.194.112") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.208.200") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (inet_pton(AF_INET, "111.162.208.200", &in) < 0) { goto end; } if (SCHInfoGetIPv4HostOSFlavour((uint8_t *)&in) != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("111.162.200.201") != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv6 addresses are inserted into the host os radix * tree, and the host os api retrieves the right value for the host os * flavour, on supplying as arg an ipv6 address that has been added to * the host os radix tree. */ int SCHInfoTestValidIPV6Address06(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "2351:2512:6211:6246:235A:6242:2352:62AD", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "6961:6121:2132:6241:423A:2135:2461:621D", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "DD13:613D:F312:62DD:6213:421A:6212:2652", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "9891:2131:2151:6426:1342:674D:622F:2342", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "3525:2351:4223:6211:2311:2667:6242:2154", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "1511:6211:6726:7777:1212:2333:6222:7722", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "2666:6222:7222:2335:6223:7722:3425:2362", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "8762:2352:6241:7245:EE23:21AD:2312:622C", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "6422:EE1A:2621:34AD:2462:432D:642E:E13A", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "3521:7622:6241:6242:7277:1234:2352:6234", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "2141:6232:6252:2223:7734:2345:6245:6222", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "5222:6432:6432:2322:6662:3423:4322:3245", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:62AD") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:6FFFE") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2652") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2222") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("9891:2131:2151:6426:1342:674D:622F:2342") != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("3525:2351:4223:6211:2311:2667:6242:2154") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("1511:6211:6726:7777:1212:2333:6222:7722") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2666:6222:7222:2335:6223:7722:3425:2362") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:622C") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("6422:EE1A:2621:34AD:2462:432D:642E:E13A") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("3521:7622:6241:6242:7277:1234:2352:6234") != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2141:6232:6252:2223:7734:2345:6245:6222") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("5222:6432:6432:2322:6662:3423:4322:3245") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("5222:6432:6432:2322:6662:3423:4322:DDDD") != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv6 addresses/netblocks are inserted into the host os * radix tree, and the host os api retrieves the right value for the host * os flavour, on supplying as arg an ipv6 address that has been added to * the host os radix tree. */ int SCHInfoTestValidIPV6Address07(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "2351:2512:6211:6246:235A:6242:2352:62AD", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "6961:6121:2132:6241:423A:2135:2461:621D", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "DD13:613D:F312:62DD:6213:421A:6212:2652", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "9891:2131:2151:6426:1342:674D:622F:2342", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "3525:2351:4223:6211:2311:2667:6242:2154", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "1511:6211:6726:7777:1212:2333:6222:7722", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "2666:6222:7222:2335:6223:7722:3425:2362", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "8762:2352:6241:7245:EE23:21AD:2312:622C/68", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "8762:2352:6241:7245:EE23:21AD:2412:622C", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "8762:2352:6241:7245:EE23:21AD:FFFF:622C", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "8762:2352:6241:7245:EE23:21AD:2312:62FF", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "8762:2352:6241:7245:EE23:21AD:2121:1212", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:62AD") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:6FFFE") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2652") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2222") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("9891:2131:2151:6426:1342:674D:622F:2342") != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("3525:2351:4223:6211:2311:2667:6242:2154") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("1511:6211:6726:7777:1212:2333:6222:7722") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2666:6222:7222:2335:6223:7722:3425:2362") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:622C") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2412:622C") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:FFFF:622C") != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:62FF") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2121:1212") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("5222:6432:6432:2322:6662:3423:4322:DDDD") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2121:1DDD") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:FFFF:2121:1DDD") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:622C") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE00:0000:0000:0000") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:E000:0000:0000:0000") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv6 addresses/netblocks are inserted into the host os * radix tree, and the host os api retrieves the right value for the host * os flavour, on supplying as arg an ipv6 address that has been added to * the host os radix tree. */ int SCHInfoTestValidIPV6Address08(void) { SCHInfoCreateContextBackup(); struct in6_addr in6; int result = 0; if (SCHInfoAddHostOSInfo("linux", "2351:2512:6211:6246:235A:6242:2352:62AD", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "6961:6121:2132:6241:423A:2135:2461:621D", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "DD13:613D:F312:62DD:6213:421A:6212:2652", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux10", "9891:2131:2151:6426:1342:674D:622F:2342", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "3525:2351:4223:6211:2311:2667:6242:2154", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "1511:6211:6726:7777:1212:2333:6222:7722", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "2666:6222:7222:2335:6223:7722:3425:2362", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "8762:2352:6241:7245:EE23:21AD:2312:622C/68", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("linux", "8762:2352:6241:7245:EE23:21AD:2412:622C", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "8762:2352:6241:7245:EE23:21AD:FFFF:622C", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("hpux11", "8762:2352:6241:7245:EE23:21AD:2312:62FF", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("vista", "8762:2352:6241:7245:EE23:21AD:2121:1212", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoAddHostOSInfo("irix", "default", SC_HINFO_IS_IPV6) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:62AD") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2351:2512:6211:6246:235A:6242:2352:6FFF") != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2652") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("DD13:613D:F312:62DD:6213:421A:6212:2222") != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("9891:2131:2151:6426:1342:674D:622F:2342") != SCMapEnumNameToValue("hpux10", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("3525:2351:4223:6211:2311:2667:6242:2154") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("1511:6211:6726:7777:1212:2333:6222:7722") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("2666:6222:7222:2335:6223:7722:3425:2362") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:622C") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2412:622C") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:FFFF:622C") != SCMapEnumNameToValue("windows", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:62FF") != SCMapEnumNameToValue("hpux11", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2121:1212") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("5222:6432:6432:2322:6662:3423:4322:DDDD") != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2121:1DDD") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:FFFF:2121:1DDD") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE23:21AD:2312:622C") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("8762:2352:6241:7245:EE00:0000:0000:0000") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (inet_pton(AF_INET6, "8762:2352:6241:7245:E000:0000:0000:0000", &in6) < 0) { goto end; } if (SCHInfoGetIPv6HostOSFlavour((uint8_t *)&in6) != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } if (inet_pton(AF_INET6, "AD23:2DDA:6D1D:A223:E235:0232:1241:1666", &in6) < 0) { goto end; } if (SCHInfoGetIPv6HostOSFlavour((uint8_t *)&in6) != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check that valid ipv4 addresses are inserted into the host os radix * tree, and the host os api retrieves the right value for the host os * flavour, on supplying as arg an ipv4 addresses that has been added to * the host os radix tree. */ int SCHInfoTestValidIPV4Address09(void) { SCHInfoCreateContextBackup(); int result = 0; if (SCHInfoAddHostOSInfo("linux", "192.168.1.0", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("windows", "192.192.1.2", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.0") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "192.168.1.0/16", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("macos", "192.168.1.0/20", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.0") != SCMapEnumNameToValue("linux", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("vista", "192.168.50.128/25", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.50.128") != SCMapEnumNameToValue("vista", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoAddHostOSInfo("irix", "192.168.50.128", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.50.128") != SCMapEnumNameToValue("irix", sc_hinfo_os_policy_map)) { goto end; } if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("macos", sc_hinfo_os_policy_map)) { goto end; } struct sockaddr_in servaddr; bzero(&servaddr, sizeof(servaddr)); if (inet_pton(AF_INET, "192.168.0.0", &servaddr.sin_addr) <= 0) { goto end; } SCRadixRemoveKeyIPV4Netblock((uint8_t *)&servaddr.sin_addr, sc_hinfo_tree, 16); if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("macos", sc_hinfo_os_policy_map)) { goto end; } bzero(&servaddr, sizeof(servaddr)); if (inet_pton(AF_INET, "192.168.0.0", &servaddr.sin_addr) <= 0) { goto end; } SCRadixRemoveKeyIPV4Netblock((uint8_t *)&servaddr.sin_addr, sc_hinfo_tree, 20); if (SCHInfoGetHostOSFlavour("192.168.1.100") != -1) { goto end; } if (SCHInfoAddHostOSInfo("solaris", "192.168.1.0/16", SC_HINFO_IS_IPV4) == -1) { goto end; } if (SCHInfoAddHostOSInfo("macos", "192.168.1.0/20", SC_HINFO_IS_IPV4) == -1) { goto end; } /* 192.168.1.100 should match "macos" as its more specific than * "solaris". */ if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("macos", sc_hinfo_os_policy_map)) { goto end; } /* Remove the 192.168.1.0/20 -> macos entry. */ bzero(&servaddr, sizeof(servaddr)); if (inet_pton(AF_INET, "192.168.0.0", &servaddr.sin_addr) <= 0) { goto end; } SCRadixRemoveKeyIPV4Netblock((uint8_t *)&servaddr.sin_addr, sc_hinfo_tree, 20); if (SCHInfoGetHostOSFlavour("192.168.1.100") != SCMapEnumNameToValue("solaris", sc_hinfo_os_policy_map)) { goto end; } /* Remove the 192.168.1.0/16 -> solaris entry. */ bzero(&servaddr, sizeof(servaddr)); if (inet_pton(AF_INET, "192.168.0.0", &servaddr.sin_addr) <= 0) { goto end; } SCRadixRemoveKeyIPV4Netblock((uint8_t *)&servaddr.sin_addr, sc_hinfo_tree, 16); if (SCHInfoGetHostOSFlavour("192.168.1.100") != -1) { goto end; } result = 1; end: SCHInfoCleanResources(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check the loading of host info from a configuration file. */ int SCHInfoTestLoadFromConfig01(void) { char config[] = "\ %YAML 1.1\n\ ---\n\ host-os-policy:\n\ bsd: [0.0.0.0/0]\n\ windows: [10.0.0.0/8, 192.168.1.0/24]\n\ linux: [10.0.0.5/32]\n\ \n"; int result = 0; SCHInfoCreateContextBackup(); ConfCreateContextBackup(); ConfInit(); ConfYamlLoadString(config, strlen(config)); SCHInfoLoadFromConfig(); if (SCHInfoGetHostOSFlavour("10.0.0.4") != OS_POLICY_WINDOWS) goto end; if (SCHInfoGetHostOSFlavour("10.0.0.5") != OS_POLICY_LINUX) goto end; if (SCHInfoGetHostOSFlavour("192.168.1.1") != OS_POLICY_WINDOWS) goto end; if (SCHInfoGetHostOSFlavour("172.168.1.1") != OS_POLICY_BSD) goto end; result = 1; end: ConfDeInit(); ConfRestoreContextBackup(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check the loading of host info from a configuration file. */ int SCHInfoTestLoadFromConfig02(void) { char config[] = "\ %YAML 1.1\n\ ---\n\ host-os-policy:\n\ one-two: [0.0.0.0/0]\n\ one-two-three:\n\ four_five:\n\ six-seven_eight: [10.0.0.0/8, 192.168.1.0/24]\n\ nine_ten_eleven: [10.0.0.5/32]\n\ \n"; int result = 0; SCHInfoCreateContextBackup(); ConfCreateContextBackup(); ConfInit(); ConfYamlLoadString(config, strlen(config)); ConfNode *root = ConfGetNode("host-os-policy"); if (root == NULL) goto end; int count = 0; ConfNode *policy; TAILQ_FOREACH(policy, &root->head, next) { switch (count) { case 0: if (strcmp("one-two", policy->name) != 0) goto end; break; case 1: if (strcmp("one-two-three", policy->name) != 0) goto end; break; case 2: if (strcmp("four-five", policy->name) != 0) goto end; break; case 3: if (strcmp("six-seven-eight", policy->name) != 0) goto end; break; case 4: if (strcmp("nine-ten-eleven", policy->name) != 0) goto end; break; } count++; } result = 1; end: ConfDeInit(); ConfRestoreContextBackup(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check the loading of host info from a configuration file. */ int SCHInfoTestLoadFromConfig03(void) { char config[] = "\ %YAML 1.1\n\ ---\n\ host-os-policy:\n\ bsd-right: [0.0.0.1]\n\ old-linux: [0.0.0.2]\n\ old-solaris: [0.0.0.3]\n\ windows: [0.0.0.4]\n\ vista: [0.0.0.5]\n\ \n"; int result = 0; SCHInfoCreateContextBackup(); ConfCreateContextBackup(); ConfInit(); ConfYamlLoadString(config, strlen(config)); ConfNode *root = ConfGetNode("host-os-policy"); if (root == NULL) goto end; ConfNode *policy; TAILQ_FOREACH(policy, &root->head, next) { if (SCMapEnumNameToValue(policy->name, sc_hinfo_os_policy_map) == -1) { printf("Invalid enum map inside\n"); goto end; } } result = 1; end: ConfDeInit(); ConfRestoreContextBackup(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check the loading of host info from a configuration file. */ int SCHInfoTestLoadFromConfig04(void) { char config[] = "\ %YAML 1.1\n\ ---\n\ host-os-policy:\n\ bsd_right: [0.0.0.1]\n\ old_linux: [0.0.0.2]\n\ old_solaris: [0.0.0.3]\n\ windows: [0.0.0.4]\n\ vista: [0.0.0.5]\n\ \n"; int result = 0; SCHInfoCreateContextBackup(); ConfCreateContextBackup(); ConfInit(); ConfYamlLoadString(config, strlen(config)); ConfNode *root = ConfGetNode("host-os-policy"); if (root == NULL) goto end; ConfNode *policy; TAILQ_FOREACH(policy, &root->head, next) { if (SCMapEnumNameToValue(policy->name, sc_hinfo_os_policy_map) == -1) { printf("Invalid enum map inside\n"); goto end; } } result = 1; end: ConfDeInit(); ConfRestoreContextBackup(); SCHInfoRestoreContextBackup(); return result; } /** * \test Check the loading of host info from a configuration file. */ int SCHInfoTestLoadFromConfig05(void) { char config[] = "\ %YAML 1.1\n\ ---\n\ host-os-policy:\n\ bsd_right: [0.0.0.1]\n\ old_linux: [0.0.0.2]\n\ old-solaris: [0.0.0.3]\n\ windows: [0.0.0.4]\n\ linux: [0.0.0.5]\n\ \n"; int result = 0; SCHInfoCreateContextBackup(); ConfCreateContextBackup(); ConfInit(); ConfYamlLoadString(config, strlen(config)); SCHInfoLoadFromConfig(); if (SCHInfoGetHostOSFlavour("0.0.0.1") != OS_POLICY_BSD_RIGHT) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.2") != OS_POLICY_OLD_LINUX) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.3") != OS_POLICY_OLD_SOLARIS) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.4") != OS_POLICY_WINDOWS) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.5") != OS_POLICY_VISTA) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.0") != -1) { goto end; } if (SCHInfoGetHostOSFlavour("0.0.0.6") != -1) { goto end; } result = 1; end: ConfDeInit(); ConfRestoreContextBackup(); SCHInfoRestoreContextBackup(); return result; } #endif /* UNITTESTS */ void SCHInfoRegisterTests(void) { #ifdef UNITTESTS UtRegisterTest("SCHInfoTesInvalidOSFlavour01", SCHInfoTestInvalidOSFlavour01, 1); UtRegisterTest("SCHInfoTestInvalidIPV4Address02", SCHInfoTestInvalidIPV4Address02, 1); UtRegisterTest("SCHInfoTestInvalidIPV6Address03", SCHInfoTestInvalidIPV6Address03, 1); UtRegisterTest("SCHInfoTestValidIPV4Address04", SCHInfoTestValidIPV4Address04, 1); UtRegisterTest("SCHInfoTestValidIPV4Address05", SCHInfoTestValidIPV4Address05, 1); UtRegisterTest("SCHInfoTestValidIPV6Address06", SCHInfoTestValidIPV6Address06, 1); UtRegisterTest("SCHInfoTestValidIPV6Address07", SCHInfoTestValidIPV6Address07, 1); UtRegisterTest("SCHInfoTestValidIPV6Address08", SCHInfoTestValidIPV6Address08, 1); UtRegisterTest("SCHInfoTestValidIPV4Address09", SCHInfoTestValidIPV4Address09, 1); UtRegisterTest("SCHInfoTestLoadFromConfig01", SCHInfoTestLoadFromConfig01, 1); UtRegisterTest("SCHInfoTestLoadFromConfig02", SCHInfoTestLoadFromConfig02, 1); UtRegisterTest("SCHInfoTestLoadFromConfig03", SCHInfoTestLoadFromConfig03, 1); UtRegisterTest("SCHInfoTestLoadFromConfig04", SCHInfoTestLoadFromConfig04, 1); #endif /* UNITTESTS */ }