/* $Id: VBoxNetAdpCtl.cpp $ */ /** @file * Apps - VBoxAdpCtl, Configuration tool for vboxnetX adapters. */ /* * Copyright (C) 2009-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * 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 * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0-only */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef RT_OS_LINUX # include # include # include /* Older versions of ethtool.h rely on these: */ typedef unsigned long long u64; typedef __uint32_t u32; typedef __uint16_t u16; typedef __uint8_t u8; # include /* for INT_MAX */ # include # include #endif #ifdef RT_OS_SOLARIS # include #endif /** @todo Error codes must be moved to some header file */ #define ADPCTLERR_BAD_NAME 2 #define ADPCTLERR_NO_CTL_DEV 3 #define ADPCTLERR_IOCTL_FAILED 4 #define ADPCTLERR_SOCKET_FAILED 5 /** @todo These are duplicates from src/VBox/HostDrivers/VBoxNetAdp/VBoxNetAdpInternal.h */ #define VBOXNETADP_CTL_DEV_NAME "/dev/vboxnetctl" #define VBOXNETADP_MAX_INSTANCES 128 #define VBOXNETADP_NAME "vboxnet" #define VBOXNETADP_MAX_NAME_LEN 32 #define VBOXNETADP_CTL_ADD _IOWR('v', 1, VBOXNETADPREQ) #define VBOXNETADP_CTL_REMOVE _IOW('v', 2, VBOXNETADPREQ) typedef struct VBoxNetAdpReq { char szName[VBOXNETADP_MAX_NAME_LEN]; } VBOXNETADPREQ; typedef VBOXNETADPREQ *PVBOXNETADPREQ; #define VBOXADPCTL_IFCONFIG_PATH1 "/sbin/ifconfig" #define VBOXADPCTL_IFCONFIG_PATH2 "/bin/ifconfig" bool verbose; bool dry_run; static int usage(void) { fprintf(stderr, "Usage: VBoxNetAdpCtl
([netmask
] | remove)\n"); fprintf(stderr, " | VBoxNetAdpCtl [] add\n"); fprintf(stderr, " | VBoxNetAdpCtl remove\n"); return EXIT_FAILURE; } /* * A wrapper on standard list that provides '<<' operator for adding several list members in a single * line dynamically. For example: "CmdList(arg1) << arg2 << arg3" produces a list with three members. */ class CmdList { public: /** Creates an empty list. */ CmdList() {}; /** Creates a list with a single member. */ CmdList(const char *pcszCommand) { m_list.push_back(pcszCommand); }; /** Provides access to the underlying standard list. */ const std::list& getList(void) const { return m_list; }; /** Adds a member to the list. */ CmdList& operator<<(const char *pcszArgument); private: std::listm_list; }; CmdList& CmdList::operator<<(const char *pcszArgument) { m_list.push_back(pcszArgument); return *this; } /** Simple helper to distinguish IPv4 and IPv6 addresses. */ inline bool isAddrV6(const char *pcszAddress) { return !!(strchr(pcszAddress, ':')); } /********************************************************************************************************************************* * Generic address commands. * *********************************************************************************************************************************/ /** * The base class for all address manipulation commands. While being an abstract class, * it provides a generic implementation of 'set' and 'remove' methods, which rely on * pure virtual methods like 'addV4' and 'removeV4' to perform actual command execution. */ class AddressCommand { public: AddressCommand() : m_pszPath(0) {}; virtual ~AddressCommand() {}; /** returns true if underlying command (executable) is present in the system. */ bool isAvailable(void) { struct stat s; return (!stat(m_pszPath, &s) && S_ISREG(s.st_mode)); }; /* * Someday we may want to support several IP addresses per adapter, but for now we * have 'set' method only, which replaces all addresses with the one specifed. * * virtual int add(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) = 0; */ /** replace existing address(es) */ virtual int set(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0); /** remove address */ virtual int remove(const char *pcszAdapter, const char *pcszAddress); protected: /** IPv4-specific handler used by generic implementation of 'set' method if 'setV4' is not supported. */ virtual int addV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) = 0; /** IPv6-specific handler used by generic implementation of 'set' method. */ virtual int addV6(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) = 0; /** IPv4-specific handler used by generic implementation of 'set' method. */ virtual int setV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) = 0; /** IPv4-specific handler used by generic implementation of 'remove' method. */ virtual int removeV4(const char *pcszAdapter, const char *pcszAddress) = 0; /** IPv6-specific handler used by generic implementation of 'remove' method. */ virtual int removeV6(const char *pcszAdapter, const char *pcszAddress) = 0; /** Composes the argument list of command that obtains all addresses assigned to the adapter. */ virtual CmdList getShowCommand(const char *pcszAdapter) const = 0; /** Prepares an array of C strings needed for 'exec' call. */ char * const * allocArgv(const CmdList& commandList); /** Hides process creation details. To be used in derived classes. */ int execute(CmdList& commandList); /** A path to executable command. */ const char *m_pszPath; private: /** Removes all previously asssigned addresses of a particular protocol family. */ int removeAddresses(const char *pcszAdapter, const char *pcszFamily); }; /* * A generic implementation of 'ifconfig' command for all platforms. */ class CmdIfconfig : public AddressCommand { public: CmdIfconfig() { struct stat s; if ( !stat(VBOXADPCTL_IFCONFIG_PATH1, &s) && S_ISREG(s.st_mode)) m_pszPath = (char*)VBOXADPCTL_IFCONFIG_PATH1; else m_pszPath = (char*)VBOXADPCTL_IFCONFIG_PATH2; }; protected: /** Returns platform-specific subcommand to add an address. */ virtual const char *addCmdArg(void) const = 0; /** Returns platform-specific subcommand to remove an address. */ virtual const char *delCmdArg(void) const = 0; virtual CmdList getShowCommand(const char *pcszAdapter) const { return CmdList(pcszAdapter); }; virtual int addV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { return ENOTSUP; NOREF(pcszAdapter); NOREF(pcszAddress); NOREF(pcszNetmask); }; virtual int addV6(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { return execute(CmdList(pcszAdapter) << "inet6" << addCmdArg() << pcszAddress); NOREF(pcszNetmask); }; virtual int setV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { if (!pcszNetmask) return execute(CmdList(pcszAdapter) << pcszAddress); return execute(CmdList(pcszAdapter) << pcszAddress << "netmask" << pcszNetmask); }; virtual int removeV4(const char *pcszAdapter, const char *pcszAddress) { return execute(CmdList(pcszAdapter) << delCmdArg() << pcszAddress); }; virtual int removeV6(const char *pcszAdapter, const char *pcszAddress) { return execute(CmdList(pcszAdapter) << "inet6" << delCmdArg() << pcszAddress); }; }; /********************************************************************************************************************************* * Platform-specific commands * *********************************************************************************************************************************/ class CmdIfconfigLinux : public CmdIfconfig { protected: virtual int removeV4(const char *pcszAdapter, const char *pcszAddress) { return execute(CmdList(pcszAdapter) << "0.0.0.0"); NOREF(pcszAddress); }; virtual const char *addCmdArg(void) const { return "add"; }; virtual const char *delCmdArg(void) const { return "del"; }; }; class CmdIfconfigDarwin : public CmdIfconfig { protected: virtual const char *addCmdArg(void) const { return "add"; }; virtual const char *delCmdArg(void) const { return "delete"; }; }; class CmdIfconfigSolaris : public CmdIfconfig { public: virtual int set(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { const char *pcszFamily = isAddrV6(pcszAddress) ? "inet6" : "inet"; int status; status = execute(CmdList(pcszAdapter) << pcszFamily); if (status != EXIT_SUCCESS) status = execute(CmdList(pcszAdapter) << pcszFamily << "plumb" << "up"); if (status != EXIT_SUCCESS) return status; return CmdIfconfig::set(pcszAdapter, pcszAddress, pcszNetmask); }; protected: /* We can umplumb IPv4 interfaces only! */ virtual int removeV4(const char *pcszAdapter, const char *pcszAddress) { int rc = CmdIfconfig::removeV4(pcszAdapter, pcszAddress); /** @todo Do we really need to unplumb inet here? */ execute(CmdList(pcszAdapter) << "inet" << "unplumb"); return rc; }; virtual const char *addCmdArg(void) const { return "addif"; }; virtual const char *delCmdArg(void) const { return "removeif"; }; }; #ifdef RT_OS_LINUX /* * Helper class to incapsulate IPv4 address conversion. * * Note that this class relies on NetworkAddress to have been used for * checking validity of IP addresses prior calling any methods of this * class. */ class AddressIPv4 { public: AddressIPv4(const char *pcszAddress, const char *pcszNetmask = 0) { m_Prefix = 0; memset(&m_Address, 0, sizeof(m_Address)); if (pcszNetmask) m_Prefix = maskToPrefix(pcszNetmask); else { /* * Since guessing network mask is probably futile we simply use 24, * as it matches our defaults. When non-default values are used * providing a proper netmask is up to the user. */ m_Prefix = 24; } int rc = RTNetStrToIPv4Addr(pcszAddress, &m_Address); AssertRCReturnVoid(rc); snprintf(m_szAddressAndMask, sizeof(m_szAddressAndMask), "%s/%d", pcszAddress, m_Prefix); deriveBroadcast(&m_Address, m_Prefix); } const char *getBroadcast() const { return m_szBroadcast; }; const char *getAddressAndMask() const { return m_szAddressAndMask; }; private: int maskToPrefix(const char *pcszNetmask); void deriveBroadcast(PCRTNETADDRIPV4 pcAddress, int uPrefix); int m_Prefix; RTNETADDRIPV4 m_Address; char m_szAddressAndMask[INET_ADDRSTRLEN + 3]; /* e.g. 192.168.56.101/24 */ char m_szBroadcast[INET_ADDRSTRLEN]; }; int AddressIPv4::maskToPrefix(const char *pcszNetmask) { RTNETADDRIPV4 mask; int prefix = 0; int rc = RTNetStrToIPv4Addr(pcszNetmask, &mask); AssertRCReturn(rc, 0); rc = RTNetMaskToPrefixIPv4(&mask, &prefix); AssertRCReturn(rc, 0); return prefix; } void AddressIPv4::deriveBroadcast(PCRTNETADDRIPV4 pcAddress, int iPrefix) { RTNETADDRIPV4 mask, broadcast; int rc = RTNetPrefixToMaskIPv4(iPrefix, &mask); AssertRCReturnVoid(rc); broadcast.au32[0] = (pcAddress->au32[0] & mask.au32[0]) | ~mask.au32[0]; inet_ntop(AF_INET, broadcast.au32, m_szBroadcast, sizeof(m_szBroadcast)); } /* * Linux-specific implementation of 'ip' command, as other platforms do not support it. */ class CmdIpLinux : public AddressCommand { public: CmdIpLinux() { m_pszPath = "/sbin/ip"; }; /** * IPv4 and IPv6 syntax is the same, so we override `remove` instead of implementing * family-specific commands. It would be easier to use the same body in both * 'removeV4' and 'removeV6', so we override 'remove' to illustrate how to do common * implementation. */ virtual int remove(const char *pcszAdapter, const char *pcszAddress) { return execute(CmdList("addr") << "del" << pcszAddress << "dev" << pcszAdapter); }; protected: virtual int addV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { AddressIPv4 addr(pcszAddress, pcszNetmask); bringUp(pcszAdapter); return execute(CmdList("addr") << "add" << addr.getAddressAndMask() << "broadcast" << addr.getBroadcast() << "dev" << pcszAdapter); }; virtual int addV6(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { bringUp(pcszAdapter); return execute(CmdList("addr") << "add" << pcszAddress << "dev" << pcszAdapter); NOREF(pcszNetmask); }; /** * Our command does not support 'replacing' addresses. Reporting this fact to generic implementation * of 'set' causes it to remove all assigned addresses, then 'add' the new one. */ virtual int setV4(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask = 0) { return ENOTSUP; NOREF(pcszAdapter); NOREF(pcszAddress); NOREF(pcszNetmask); }; /** We use family-agnostic command syntax. See 'remove' above. */ virtual int removeV4(const char *pcszAdapter, const char *pcszAddress) { return ENOTSUP; NOREF(pcszAdapter); NOREF(pcszAddress); }; /** We use family-agnostic command syntax. See 'remove' above. */ virtual int removeV6(const char *pcszAdapter, const char *pcszAddress) { return ENOTSUP; NOREF(pcszAdapter); NOREF(pcszAddress); }; virtual CmdList getShowCommand(const char *pcszAdapter) const { return CmdList("addr") << "show" << "dev" << pcszAdapter; }; private: /** Brings up the adapter */ void bringUp(const char *pcszAdapter) { execute(CmdList("link") << "set" << "dev" << pcszAdapter << "up"); }; }; #endif /* RT_OS_LINUX */ /********************************************************************************************************************************* * Generic address command implementations * *********************************************************************************************************************************/ int AddressCommand::set(const char *pcszAdapter, const char *pcszAddress, const char *pcszNetmask) { if (isAddrV6(pcszAddress)) { removeAddresses(pcszAdapter, "inet6"); return addV6(pcszAdapter, pcszAddress, pcszNetmask); } int rc = setV4(pcszAdapter, pcszAddress, pcszNetmask); if (rc == ENOTSUP) { removeAddresses(pcszAdapter, "inet"); rc = addV4(pcszAdapter, pcszAddress, pcszNetmask); } return rc; } int AddressCommand::remove(const char *pcszAdapter, const char *pcszAddress) { if (isAddrV6(pcszAddress)) return removeV6(pcszAdapter, pcszAddress); return removeV4(pcszAdapter, pcszAddress); } /* * Allocate an array of exec arguments. In addition to arguments provided * we need to include the full path to the executable as well as "terminating" * null pointer marking the end of the array. */ char * const * AddressCommand::allocArgv(const CmdList& list) { int i = 0; std::list::const_iterator it; const char **argv = (const char **)calloc(list.getList().size() + 2, sizeof(const char *)); if (argv) { argv[i++] = m_pszPath; for (it = list.getList().begin(); it != list.getList().end(); ++it) argv[i++] = *it; argv[i++] = NULL; } return (char * const*)argv; } int AddressCommand::execute(CmdList& list) { char * const pEnv[] = { (char*)"LC_ALL=C", NULL }; char * const* argv = allocArgv(list); if (argv == NULL) return EXIT_FAILURE; if (verbose) { const char *sep = ""; for (const char * const *pArg = argv; *pArg != NULL; ++pArg) { printf("%s%s", sep, *pArg); sep = " "; } printf("\n"); } if (dry_run) { free((void *)argv); return EXIT_SUCCESS; } int rc = EXIT_FAILURE; /* o/~ hope for the best, expect the worst */ pid_t childPid = fork(); switch (childPid) { case -1: /* Something went wrong. */ perror("fork"); break; case 0: /* Child process. */ if (execve(argv[0], argv, pEnv) == -1) { perror("execve"); exit(EXIT_FAILURE); /* NOTREACHED */ } break; default: /* Parent process. */ { int status; pid_t waited = waitpid(childPid, &status, 0); if (waited == childPid) /* likely*/ { if (WIFEXITED(status) && WEXITSTATUS(status) == EXIT_SUCCESS) rc = EXIT_SUCCESS; } else if (waited == (pid_t)-1) { perror("waitpid"); } else { /* should never happen */ fprintf(stderr, "waitpid: unexpected pid %lld\n", (long long int)waited); } break; } } free((void*)argv); return rc; } #define MAX_ADDRESSES 128 #define MAX_ADDRLEN 64 int AddressCommand::removeAddresses(const char *pcszAdapter, const char *pcszFamily) { char szBuf[1024]; char aszAddresses[MAX_ADDRESSES][MAX_ADDRLEN]; int rc = EXIT_SUCCESS; int fds[2]; memset(aszAddresses, 0, sizeof(aszAddresses)); rc = pipe(fds); if (rc < 0) return errno; pid_t pid = fork(); if (pid < 0) return errno; if (pid == 0) { /* child */ close(fds[0]); close(STDOUT_FILENO); rc = dup2(fds[1], STDOUT_FILENO); if (rc >= 0) { char * const * argv = allocArgv(getShowCommand(pcszAdapter)); char * const envp[] = { (char*)"LC_ALL=C", NULL }; if (execve(argv[0], argv, envp) == -1) { free((void *)argv); return errno; } free((void *)argv); } return rc; } /* parent */ close(fds[1]); FILE *fp = fdopen(fds[0], "r"); if (!fp) return false; int cAddrs; for (cAddrs = 0; cAddrs < MAX_ADDRESSES && fgets(szBuf, sizeof(szBuf), fp);) { int cbSkipWS = strspn(szBuf, " \t"); char *pszWord = strtok(szBuf + cbSkipWS, " "); /* We are concerned with particular family address lines only. */ if (!pszWord || strcmp(pszWord, pcszFamily)) continue; pszWord = strtok(NULL, " "); /* Skip "addr:" word if present. */ if (pszWord && !strcmp(pszWord, "addr:")) pszWord = strtok(NULL, " "); /* Skip link-local address lines. */ if (!pszWord || !strncmp(pszWord, "fe80", 4)) continue; strncpy(aszAddresses[cAddrs++], pszWord, MAX_ADDRLEN-1); } fclose(fp); for (int i = 0; i < cAddrs && rc == EXIT_SUCCESS; i++) rc = remove(pcszAdapter, aszAddresses[i]); return rc; } /********************************************************************************************************************************* * Adapter creation/removal implementations * *********************************************************************************************************************************/ /* * A generic implementation of adapter creation/removal ioctl calls. */ class Adapter { public: int add(char *pszNameInOut); int remove(const char *pcszName); int checkName(const char *pcszNameIn, char *pszNameOut, size_t cbNameOut); protected: virtual int doIOCtl(unsigned long iCmd, VBOXNETADPREQ *pReq); }; /* * Solaris does not support dynamic creation/removal of adapters. */ class AdapterSolaris : public Adapter { protected: virtual int doIOCtl(unsigned long iCmd, VBOXNETADPREQ *pReq) { return 1 /*ENOTSUP*/; NOREF(iCmd); NOREF(pReq); }; }; #if defined(RT_OS_LINUX) /* * Linux implementation provides a 'workaround' to obtain adapter speed. */ class AdapterLinux : public Adapter { public: int getSpeed(const char *pszName, unsigned *puSpeed); }; int AdapterLinux::getSpeed(const char *pszName, unsigned *puSpeed) { struct ifreq IfReq; struct ethtool_value EthToolVal; struct ethtool_cmd EthToolReq; int fd = socket(AF_INET, SOCK_DGRAM, 0); if (fd < 0) { fprintf(stderr, "VBoxNetAdpCtl: Error while retrieving link " "speed for %s: ", pszName); perror("VBoxNetAdpCtl: failed to open control socket"); return ADPCTLERR_SOCKET_FAILED; } /* Get link status first. */ memset(&EthToolVal, 0, sizeof(EthToolVal)); memset(&IfReq, 0, sizeof(IfReq)); snprintf(IfReq.ifr_name, sizeof(IfReq.ifr_name), "%s", pszName); EthToolVal.cmd = ETHTOOL_GLINK; IfReq.ifr_data = (caddr_t)&EthToolVal; int rc = ioctl(fd, SIOCETHTOOL, &IfReq); if (rc == 0) { if (EthToolVal.data) { memset(&IfReq, 0, sizeof(IfReq)); snprintf(IfReq.ifr_name, sizeof(IfReq.ifr_name), "%s", pszName); EthToolReq.cmd = ETHTOOL_GSET; IfReq.ifr_data = (caddr_t)&EthToolReq; rc = ioctl(fd, SIOCETHTOOL, &IfReq); if (rc == 0) { *puSpeed = EthToolReq.speed; } else { fprintf(stderr, "VBoxNetAdpCtl: Error while retrieving link " "speed for %s: ", pszName); perror("VBoxNetAdpCtl: ioctl failed"); rc = ADPCTLERR_IOCTL_FAILED; } } else *puSpeed = 0; } else { fprintf(stderr, "VBoxNetAdpCtl: Error while retrieving link " "status for %s: ", pszName); perror("VBoxNetAdpCtl: ioctl failed"); rc = ADPCTLERR_IOCTL_FAILED; } close(fd); return rc; } #endif /* defined(RT_OS_LINUX) */ int Adapter::add(char *pszName /* in/out */) { VBOXNETADPREQ Req; memset(&Req, '\0', sizeof(Req)); snprintf(Req.szName, sizeof(Req.szName), "%s", pszName); int rc = doIOCtl(VBOXNETADP_CTL_ADD, &Req); if (rc == 0) strncpy(pszName, Req.szName, VBOXNETADP_MAX_NAME_LEN); return rc; } int Adapter::remove(const char *pcszName) { VBOXNETADPREQ Req; memset(&Req, '\0', sizeof(Req)); snprintf(Req.szName, sizeof(Req.szName), "%s", pcszName); return doIOCtl(VBOXNETADP_CTL_REMOVE, &Req); } int Adapter::checkName(const char *pcszNameIn, char *pszNameOut, size_t cbNameOut) { int iAdapterIndex = -1; if ( strlen(pcszNameIn) >= VBOXNETADP_MAX_NAME_LEN || sscanf(pcszNameIn, "vboxnet%d", &iAdapterIndex) != 1 || iAdapterIndex < 0 || iAdapterIndex >= VBOXNETADP_MAX_INSTANCES ) { fprintf(stderr, "VBoxNetAdpCtl: Setting configuration for '%s' is not supported.\n", pcszNameIn); return ADPCTLERR_BAD_NAME; } snprintf(pszNameOut, cbNameOut, "vboxnet%d", iAdapterIndex); if (strcmp(pszNameOut, pcszNameIn)) { fprintf(stderr, "VBoxNetAdpCtl: Invalid adapter name '%s'.\n", pcszNameIn); return ADPCTLERR_BAD_NAME; } return 0; } int Adapter::doIOCtl(unsigned long iCmd, VBOXNETADPREQ *pReq) { int fd = open(VBOXNETADP_CTL_DEV_NAME, O_RDWR); if (fd == -1) { fprintf(stderr, "VBoxNetAdpCtl: Error while %s %s: ", iCmd == VBOXNETADP_CTL_REMOVE ? "removing" : "adding", pReq->szName[0] ? pReq->szName : "new interface"); perror("failed to open " VBOXNETADP_CTL_DEV_NAME); return ADPCTLERR_NO_CTL_DEV; } int rc = ioctl(fd, iCmd, pReq); if (rc == -1) { fprintf(stderr, "VBoxNetAdpCtl: Error while %s %s: ", iCmd == VBOXNETADP_CTL_REMOVE ? "removing" : "adding", pReq->szName[0] ? pReq->szName : "new interface"); perror("VBoxNetAdpCtl: ioctl failed for " VBOXNETADP_CTL_DEV_NAME); rc = ADPCTLERR_IOCTL_FAILED; } close(fd); return rc; } /********************************************************************************************************************************* * Global config file implementation * *********************************************************************************************************************************/ #define VBOX_GLOBAL_NETWORK_CONFIG_PATH "/etc/vbox/networks.conf" #define VBOXNET_DEFAULT_IPV4MASK "255.255.255.0" class NetworkAddress { public: bool isValidString(const char *pcszNetwork); bool isValid() { return m_fValid; }; virtual bool matches(const char *pcszNetwork) = 0; virtual const char *defaultNetwork() = 0; protected: bool m_fValid; }; bool NetworkAddress::isValidString(const char *pcszNetwork) { RTNETADDRIPV4 addrv4; RTNETADDRIPV6 addrv6; int prefix; int rc = RTNetStrToIPv4Cidr(pcszNetwork, &addrv4, &prefix); if (RT_SUCCESS(rc)) return true; rc = RTNetStrToIPv6Cidr(pcszNetwork, &addrv6, &prefix); return RT_SUCCESS(rc); } class NetworkAddressIPv4 : public NetworkAddress { public: NetworkAddressIPv4(const char *pcszIpAddress, const char *pcszNetMask = VBOXNET_DEFAULT_IPV4MASK); virtual bool matches(const char *pcszNetwork); virtual const char *defaultNetwork() { return "192.168.56.1/21"; }; /* Matches defaults in VBox/Main/include/netif.h, see @bugref{10077}. */ protected: bool isValidUnicastAddress(PCRTNETADDRIPV4 address); private: RTNETADDRIPV4 m_address; int m_prefix; }; NetworkAddressIPv4::NetworkAddressIPv4(const char *pcszIpAddress, const char *pcszNetMask) { int rc = RTNetStrToIPv4Addr(pcszIpAddress, &m_address); if (RT_SUCCESS(rc)) { RTNETADDRIPV4 mask; rc = RTNetStrToIPv4Addr(pcszNetMask, &mask); if (RT_FAILURE(rc)) m_fValid = false; else rc = RTNetMaskToPrefixIPv4(&mask, &m_prefix); } #if 0 /* cmd.set() does not support CIDR syntax */ else rc = RTNetStrToIPv4Cidr(pcszIpAddress, &m_address, &m_prefix); #endif m_fValid = RT_SUCCESS(rc) && isValidUnicastAddress(&m_address); } bool NetworkAddressIPv4::isValidUnicastAddress(PCRTNETADDRIPV4 address) { /* Multicast addresses are not allowed. */ if ((address->au8[0] & 0xF0) == 0xE0) return false; /* Broadcast address is not allowed. */ if (address->au32[0] == 0xFFFFFFFF) /* Endianess does not matter in this particual case. */ return false; /* Loopback addresses are not allowed. */ if ((address->au8[0] & 0xFF) == 0x7F) return false; return true; } bool NetworkAddressIPv4::matches(const char *pcszNetwork) { RTNETADDRIPV4 allowedNet, allowedMask; int allowedPrefix; int rc = RTNetStrToIPv4Cidr(pcszNetwork, &allowedNet, &allowedPrefix); if (RT_SUCCESS(rc)) rc = RTNetPrefixToMaskIPv4(allowedPrefix, &allowedMask); if (RT_FAILURE(rc)) return false; return m_prefix >= allowedPrefix && (m_address.au32[0] & allowedMask.au32[0]) == (allowedNet.au32[0] & allowedMask.au32[0]); } class NetworkAddressIPv6 : public NetworkAddress { public: NetworkAddressIPv6(const char *pcszIpAddress); virtual bool matches(const char *pcszNetwork); virtual const char *defaultNetwork() { return "FE80::/10"; }; private: RTNETADDRIPV6 m_address; int m_prefix; }; NetworkAddressIPv6::NetworkAddressIPv6(const char *pcszIpAddress) { int rc = RTNetStrToIPv6Cidr(pcszIpAddress, &m_address, &m_prefix); m_fValid = RT_SUCCESS(rc); } bool NetworkAddressIPv6::matches(const char *pcszNetwork) { RTNETADDRIPV6 allowedNet, allowedMask; int allowedPrefix; int rc = RTNetStrToIPv6Cidr(pcszNetwork, &allowedNet, &allowedPrefix); if (RT_SUCCESS(rc)) rc = RTNetPrefixToMaskIPv6(allowedPrefix, &allowedMask); if (RT_FAILURE(rc)) return false; RTUINT128U u128Provided, u128Allowed; return m_prefix >= allowedPrefix && RTUInt128Compare(RTUInt128And(&u128Provided, &m_address, &allowedMask), RTUInt128And(&u128Allowed, &allowedNet, &allowedMask)) == 0; } class GlobalNetworkPermissionsConfig { public: bool forbids(const char *pcszIpAddress); /* address or address with mask in cidr */ bool forbids(const char *pcszIpAddress, const char *pcszNetMask); private: bool forbids(NetworkAddress& address); }; bool GlobalNetworkPermissionsConfig::forbids(const char *pcszIpAddress) { NetworkAddressIPv6 addrv6(pcszIpAddress); if (addrv6.isValid()) return forbids(addrv6); NetworkAddressIPv4 addrv4(pcszIpAddress); if (addrv4.isValid()) return forbids(addrv4); fprintf(stderr, "Error: invalid address '%s'\n", pcszIpAddress); return true; } bool GlobalNetworkPermissionsConfig::forbids(const char *pcszIpAddress, const char *pcszNetMask) { NetworkAddressIPv4 addrv4(pcszIpAddress, pcszNetMask); if (addrv4.isValid()) return forbids(addrv4); fprintf(stderr, "Error: invalid address '%s' with mask '%s'\n", pcszIpAddress, pcszNetMask); return true; } bool GlobalNetworkPermissionsConfig::forbids(NetworkAddress& address) { FILE *fp = fopen(VBOX_GLOBAL_NETWORK_CONFIG_PATH, "r"); if (!fp) { if (verbose) fprintf(stderr, "Info: matching against default '%s' => %s\n", address.defaultNetwork(), address.matches(address.defaultNetwork()) ? "MATCH" : "no match"); return !address.matches(address.defaultNetwork()); } char *pszToken, szLine[1024]; for (int line = 1; fgets(szLine, sizeof(szLine), fp); ++line) { pszToken = strtok(szLine, " \t\n"); /* Skip anything except '*' lines */ if (pszToken == NULL || strcmp("*", pszToken)) continue; /* Match the specified address against each network */ while ((pszToken = strtok(NULL, " \t\n")) != NULL) { if (!address.isValidString(pszToken)) { fprintf(stderr, "Warning: %s(%d) invalid network '%s'\n", VBOX_GLOBAL_NETWORK_CONFIG_PATH, line, pszToken); continue; } if (verbose) fprintf(stderr, "Info: %s(%d) matching against '%s' => %s\n", VBOX_GLOBAL_NETWORK_CONFIG_PATH, line, pszToken, address.matches(pszToken) ? "MATCH" : "no match"); if (address.matches(pszToken)) return false; } } fclose(fp); return true; } /********************************************************************************************************************************* * Main logic, argument parsing, etc. * *********************************************************************************************************************************/ #if defined(RT_OS_LINUX) static CmdIfconfigLinux g_ifconfig; static AdapterLinux g_adapter; #elif defined(RT_OS_SOLARIS) static CmdIfconfigSolaris g_ifconfig; static AdapterSolaris g_adapter; #else static CmdIfconfigDarwin g_ifconfig; static Adapter g_adapter; #endif static AddressCommand& chooseAddressCommand() { #if defined(RT_OS_LINUX) static CmdIpLinux g_ip; if (g_ip.isAvailable()) return g_ip; #endif return g_ifconfig; } int main(int argc, char *argv[]) { char szAdapterName[VBOXNETADP_MAX_NAME_LEN]; int rc = RTR3InitExe(argc, &argv, 0 /*fFlags*/); if (RT_FAILURE(rc)) return RTMsgInitFailure(rc); AddressCommand& cmd = chooseAddressCommand(); static const struct option options[] = { { "dry-run", no_argument, NULL, 'n' }, { "verbose", no_argument, NULL, 'v' }, { NULL, 0, NULL, 0 } }; int ch; while ((ch = getopt_long(argc, argv, "nv", options, NULL)) != -1) { switch (ch) { case 'n': dry_run = true; verbose = true; break; case 'v': verbose = true; break; case '?': default: return usage(); } } argc -= optind; argv += optind; if (argc == 0) return usage(); /* * VBoxNetAdpCtl add */ if (strcmp(argv[0], "add") == 0) { if (argc > 1) /* extraneous args */ return usage(); /* Create a new interface, print its name. */ *szAdapterName = '\0'; rc = g_adapter.add(szAdapterName); if (rc == EXIT_SUCCESS) puts(szAdapterName); return rc; } /* * All other variants are of the form: * VBoxNetAdpCtl if0 ...action... */ const char * const ifname = argv[0]; const char * const action = argv[1]; if (argc < 2) return usage(); #ifdef RT_OS_LINUX /* * VBoxNetAdpCtl iface42 speed * * This ugly hack is needed for retrieving the link speed on * pre-2.6.33 kernels (see @bugref{6345}). * * This variant is used with any interface, not just host-only. */ if (strcmp(action, "speed") == 0) { if (argc > 2) /* extraneous args */ return usage(); if (strlen(ifname) >= IFNAMSIZ) { fprintf(stderr, "Interface name too long\n"); return EXIT_FAILURE; } unsigned uSpeed = 0; rc = g_adapter.getSpeed(ifname, &uSpeed); if (rc == EXIT_SUCCESS) printf("%u", uSpeed); return rc; } #endif /* RT_OS_LINUX */ /* * The rest of the actions only operate on host-only interfaces. */ /** @todo Why the code below uses both ifname and szAdapterName? */ rc = g_adapter.checkName(ifname, szAdapterName, sizeof(szAdapterName)); if (rc != EXIT_SUCCESS) return rc; /* * VBoxNetAdpCtl vboxnetN remove */ if (strcmp(action, "remove") == 0) { if (argc > 2) /* extraneous args */ return usage(); /* Remove an existing interface */ return g_adapter.remove(ifname); } /* * VBoxNetAdpCtl vboxnetN add */ if (strcmp(action, "add") == 0) { if (argc > 2) /* extraneous args */ return usage(); /* Create an interface with the given name, print its name. */ rc = g_adapter.add(szAdapterName); if (rc == EXIT_SUCCESS) puts(szAdapterName); return rc; } /* * The rest of the actions are of the form * VBoxNetAdpCtl vboxnetN $addr [...] * * Use the argument after the address to select the action. */ /** @todo Do early verification of addr format here? */ const char * const addr = argv[1]; const char * const keyword = argv[2]; GlobalNetworkPermissionsConfig config; /* * VBoxNetAdpCtl vboxnetN 1.2.3.4 */ if (keyword == NULL) { if (config.forbids(addr)) { fprintf(stderr, "Error: permission denied\n"); return -VERR_ACCESS_DENIED; } return cmd.set(ifname, addr); } /* * VBoxNetAdpCtl vboxnetN 1.2.3.4 netmask 255.255.255.0 */ if (strcmp(keyword, "netmask") == 0) { if (argc != 4) /* too few or too many args */ return usage(); const char * const mask = argv[3]; if (config.forbids(addr, mask)) { fprintf(stderr, "Error: permission denied\n"); return -VERR_ACCESS_DENIED; } return cmd.set(ifname, addr, mask); } /* * VBoxNetAdpCtl vboxnetN 1.2.3.4 remove */ if (strcmp(keyword, "remove") == 0) { if (argc > 3) /* extraneous args */ return usage(); return cmd.remove(ifname, addr); } return usage(); }