/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/net/DNS.h" #include "mozilla/Assertions.h" #include "mozilla/mozalloc.h" #include "mozilla/ArrayUtils.h" #include #ifdef XP_WIN #include "ws2tcpip.h" #endif namespace mozilla { namespace net { const char *inet_ntop_internal(int af, const void *src, char *dst, socklen_t size) { #ifdef XP_WIN if (af == AF_INET) { struct sockaddr_in s; memset(&s, 0, sizeof(s)); s.sin_family = AF_INET; memcpy(&s.sin_addr, src, sizeof(struct in_addr)); int result = getnameinfo((struct sockaddr *)&s, sizeof(struct sockaddr_in), dst, size, nullptr, 0, NI_NUMERICHOST); if (result == 0) { return dst; } } else if (af == AF_INET6) { struct sockaddr_in6 s; memset(&s, 0, sizeof(s)); s.sin6_family = AF_INET6; memcpy(&s.sin6_addr, src, sizeof(struct in_addr6)); int result = getnameinfo((struct sockaddr *)&s, sizeof(struct sockaddr_in6), dst, size, nullptr, 0, NI_NUMERICHOST); if (result == 0) { return dst; } } return nullptr; #else return inet_ntop(af, src, dst, size); #endif } // Copies the contents of a PRNetAddr to a NetAddr. // Does not do a ptr safety check! void PRNetAddrToNetAddr(const PRNetAddr *prAddr, NetAddr *addr) { if (prAddr->raw.family == PR_AF_INET) { addr->inet.family = AF_INET; addr->inet.port = prAddr->inet.port; addr->inet.ip = prAddr->inet.ip; } else if (prAddr->raw.family == PR_AF_INET6) { addr->inet6.family = AF_INET6; addr->inet6.port = prAddr->ipv6.port; addr->inet6.flowinfo = prAddr->ipv6.flowinfo; memcpy(&addr->inet6.ip, &prAddr->ipv6.ip, sizeof(addr->inet6.ip.u8)); addr->inet6.scope_id = prAddr->ipv6.scope_id; } #if defined(XP_UNIX) else if (prAddr->raw.family == PR_AF_LOCAL) { addr->local.family = AF_LOCAL; memcpy(addr->local.path, prAddr->local.path, sizeof(addr->local.path)); } #endif } // Copies the contents of a NetAddr to a PRNetAddr. // Does not do a ptr safety check! void NetAddrToPRNetAddr(const NetAddr *addr, PRNetAddr *prAddr) { if (addr->raw.family == AF_INET) { prAddr->inet.family = PR_AF_INET; prAddr->inet.port = addr->inet.port; prAddr->inet.ip = addr->inet.ip; } else if (addr->raw.family == AF_INET6) { prAddr->ipv6.family = PR_AF_INET6; prAddr->ipv6.port = addr->inet6.port; prAddr->ipv6.flowinfo = addr->inet6.flowinfo; memcpy(&prAddr->ipv6.ip, &addr->inet6.ip, sizeof(addr->inet6.ip.u8)); prAddr->ipv6.scope_id = addr->inet6.scope_id; } #if defined(XP_UNIX) else if (addr->raw.family == AF_LOCAL) { prAddr->local.family = PR_AF_LOCAL; memcpy(prAddr->local.path, addr->local.path, sizeof(addr->local.path)); } #elif defined(XP_WIN) else if (addr->raw.family == AF_LOCAL) { prAddr->local.family = PR_AF_LOCAL; memcpy(prAddr->local.path, addr->local.path, sizeof(addr->local.path)); } #endif } bool NetAddrToString(const NetAddr *addr, char *buf, uint32_t bufSize) { if (addr->raw.family == AF_INET) { if (bufSize < INET_ADDRSTRLEN) { return false; } struct in_addr nativeAddr = {}; nativeAddr.s_addr = addr->inet.ip; return !!inet_ntop_internal(AF_INET, &nativeAddr, buf, bufSize); } if (addr->raw.family == AF_INET6) { if (bufSize < INET6_ADDRSTRLEN) { return false; } struct in6_addr nativeAddr = {}; memcpy(&nativeAddr.s6_addr, &addr->inet6.ip, sizeof(addr->inet6.ip.u8)); return !!inet_ntop_internal(AF_INET6, &nativeAddr, buf, bufSize); } #if defined(XP_UNIX) else if (addr->raw.family == AF_LOCAL) { if (bufSize < sizeof(addr->local.path)) { // Many callers don't bother checking our return value, so // null-terminate just in case. if (bufSize > 0) { buf[0] = '\0'; } return false; } // Usually, the size passed to memcpy should be the size of the // destination. Here, we know that the source is no larger than the // destination, so using the source's size is always safe, whereas // using the destination's size may cause us to read off the end of the // source. memcpy(buf, addr->local.path, sizeof(addr->local.path)); return true; } #endif return false; } bool IsLoopBackAddress(const NetAddr *addr) { if (addr->raw.family == AF_INET) { return (addr->inet.ip == htonl(INADDR_LOOPBACK)); } if (addr->raw.family == AF_INET6) { if (IPv6ADDR_IS_LOOPBACK(&addr->inet6.ip)) { return true; } if (IPv6ADDR_IS_V4MAPPED(&addr->inet6.ip) && IPv6ADDR_V4MAPPED_TO_IPADDR(&addr->inet6.ip) == htonl(INADDR_LOOPBACK)) { return true; } } return false; } bool IsIPAddrAny(const NetAddr *addr) { if (addr->raw.family == AF_INET) { if (addr->inet.ip == htonl(INADDR_ANY)) { return true; } } else if (addr->raw.family == AF_INET6) { if (IPv6ADDR_IS_UNSPECIFIED(&addr->inet6.ip)) { return true; } if (IPv6ADDR_IS_V4MAPPED(&addr->inet6.ip) && IPv6ADDR_V4MAPPED_TO_IPADDR(&addr->inet6.ip) == htonl(INADDR_ANY)) { return true; } } return false; } bool IsIPAddrV4Mapped(const NetAddr *addr) { if (addr->raw.family == AF_INET6) { return IPv6ADDR_IS_V4MAPPED(&addr->inet6.ip); } return false; } bool IsIPAddrLocal(const NetAddr *addr) { MOZ_ASSERT(addr); // IPv4 RFC1918 and Link Local Addresses. if (addr->raw.family == AF_INET) { uint32_t addr32 = ntohl(addr->inet.ip); if (addr32 >> 24 == 0x0A || // 10/8 prefix (RFC 1918). addr32 >> 20 == 0xAC1 || // 172.16/12 prefix (RFC 1918). addr32 >> 16 == 0xC0A8 || // 192.168/16 prefix (RFC 1918). addr32 >> 16 == 0xA9FE) { // 169.254/16 prefix (Link Local). return true; } } // IPv6 Unique and Link Local Addresses. if (addr->raw.family == AF_INET6) { uint16_t addr16 = ntohs(addr->inet6.ip.u16[0]); if (addr16 >> 9 == 0xfc >> 1 || // fc00::/7 Unique Local Address. addr16 >> 6 == 0xfe80 >> 6) { // fe80::/10 Link Local Address. return true; } } // Not an IPv4/6 local address. return false; } nsresult GetPort(const NetAddr *aAddr, uint16_t *aResult) { uint16_t port; if (aAddr->raw.family == PR_AF_INET) { port = aAddr->inet.port; } else if (aAddr->raw.family == PR_AF_INET6) { port = aAddr->inet6.port; } else { return NS_ERROR_NOT_INITIALIZED; } *aResult = ntohs(port); return NS_OK; } bool NetAddr::operator == (const NetAddr& other) const { if (this->raw.family != other.raw.family) { return false; } if (this->raw.family == AF_INET) { return (this->inet.port == other.inet.port) && (this->inet.ip == other.inet.ip); } if (this->raw.family == AF_INET6) { return (this->inet6.port == other.inet6.port) && (this->inet6.flowinfo == other.inet6.flowinfo) && (memcmp(&this->inet6.ip, &other.inet6.ip, sizeof(this->inet6.ip)) == 0) && (this->inet6.scope_id == other.inet6.scope_id); #if defined(XP_UNIX) } if (this->raw.family == AF_LOCAL) { return PL_strncmp(this->local.path, other.local.path, ArrayLength(this->local.path)); #endif } return false; } bool NetAddr::operator < (const NetAddr& other) const { if (this->raw.family != other.raw.family) { return this->raw.family < other.raw.family; } if (this->raw.family == AF_INET) { if (this->inet.ip == other.inet.ip) { return this->inet.port < other.inet.port; } return this->inet.ip < other.inet.ip; } if (this->raw.family == AF_INET6) { int cmpResult = memcmp(&this->inet6.ip, &other.inet6.ip, sizeof(this->inet6.ip)); if (cmpResult) { return cmpResult < 0; } if (this->inet6.port != other.inet6.port) { return this->inet6.port < other.inet6.port; } return this->inet6.flowinfo < other.inet6.flowinfo; } return false; } NetAddrElement::NetAddrElement(const PRNetAddr *prNetAddr) { PRNetAddrToNetAddr(prNetAddr, &mAddress); } NetAddrElement::NetAddrElement(const NetAddrElement& netAddr) { mAddress = netAddr.mAddress; } NetAddrElement::~NetAddrElement() = default; AddrInfo::AddrInfo(const char *host, const PRAddrInfo *prAddrInfo, bool disableIPv4, bool filterNameCollision, const char *cname) : mHostName(nullptr) , mCanonicalName(nullptr) , ttl(NO_TTL_DATA) { MOZ_ASSERT(prAddrInfo, "Cannot construct AddrInfo with a null prAddrInfo pointer!"); const uint32_t nameCollisionAddr = htonl(0x7f003535); // 127.0.53.53 Init(host, cname); PRNetAddr tmpAddr; void *iter = nullptr; do { iter = PR_EnumerateAddrInfo(iter, prAddrInfo, 0, &tmpAddr); bool addIt = iter && (!disableIPv4 || tmpAddr.raw.family != PR_AF_INET) && (!filterNameCollision || tmpAddr.raw.family != PR_AF_INET || (tmpAddr.inet.ip != nameCollisionAddr)); if (addIt) { auto *addrElement = new NetAddrElement(&tmpAddr); mAddresses.insertBack(addrElement); } } while (iter); } AddrInfo::AddrInfo(const char *host, const char *cname) : mHostName(nullptr) , mCanonicalName(nullptr) , ttl(NO_TTL_DATA) { Init(host, cname); } AddrInfo::~AddrInfo() { NetAddrElement *addrElement; while ((addrElement = mAddresses.popLast())) { delete addrElement; } free(mHostName); free(mCanonicalName); } void AddrInfo::Init(const char *host, const char *cname) { MOZ_ASSERT(host, "Cannot initialize AddrInfo with a null host pointer!"); ttl = NO_TTL_DATA; size_t hostlen = strlen(host); mHostName = static_cast(moz_xmalloc(hostlen + 1)); memcpy(mHostName, host, hostlen + 1); if (cname) { size_t cnameLen = strlen(cname); mCanonicalName = static_cast(moz_xmalloc(cnameLen + 1)); memcpy(mCanonicalName, cname, cnameLen + 1); } else { mCanonicalName = nullptr; } } void AddrInfo::AddAddress(NetAddrElement *address) { MOZ_ASSERT(address, "Cannot add the address to an uninitialized list"); mAddresses.insertBack(address); } size_t AddrInfo::SizeOfIncludingThis(MallocSizeOf mallocSizeOf) const { size_t n = mallocSizeOf(this); n += mallocSizeOf(mHostName); n += mallocSizeOf(mCanonicalName); n += mAddresses.sizeOfExcludingThis(mallocSizeOf); return n; } } // namespace net } // namespace mozilla