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/* 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 "DNSPacket.h"
#include "DNS.h"
#include "mozilla/EndianUtils.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/StaticPrefs_network.h"
// Put DNSLogging.h at the end to avoid LOG being overwritten by other headers.
#include "DNSLogging.h"
#include "nsIInputStream.h"
namespace mozilla {
namespace net {
static uint16_t get16bit(const unsigned char* aData, unsigned int index) {
return ((aData[index] << 8) | aData[index + 1]);
}
static uint32_t get32bit(const unsigned char* aData, unsigned int index) {
return (aData[index] << 24) | (aData[index + 1] << 16) |
(aData[index + 2] << 8) | aData[index + 3];
}
// https://datatracker.ietf.org/doc/html/draft-ietf-dnsop-extended-error-16#section-4
// This is a list of errors for which we should not fallback to Do53.
// These are normally DNSSEC failures or explicit filtering performed by the
// recursive resolver.
bool hardFail(uint16_t code) {
const uint16_t noFallbackErrors[] = {
4, // Forged answer (malware filtering)
6, // DNSSEC Boggus
7, // Signature expired
8, // Signature not yet valid
9, // DNSKEY Missing
10, // RRSIG missing
11, // No ZONE Key Bit set
12, // NSEC Missing
17, // Filtered
};
for (const auto& err : noFallbackErrors) {
if (code == err) {
return true;
}
}
return false;
}
// static
nsresult DNSPacket::ParseSvcParam(unsigned int svcbIndex, uint16_t key,
SvcFieldValue& field, uint16_t length,
const unsigned char* aBuffer) {
switch (key) {
case SvcParamKeyMandatory: {
if (length % 2 != 0) {
// This key should encode a list of uint16_t
return NS_ERROR_UNEXPECTED;
}
while (length > 0) {
uint16_t mandatoryKey = get16bit(aBuffer, svcbIndex);
length -= 2;
svcbIndex += 2;
if (!IsValidSvcParamKey(mandatoryKey)) {
LOG(("The mandatory field includes a key we don't support %u",
mandatoryKey));
return NS_ERROR_UNEXPECTED;
}
}
break;
}
case SvcParamKeyAlpn: {
field.mValue = AsVariant(SvcParamAlpn());
auto& alpnArray = field.mValue.as<SvcParamAlpn>().mValue;
while (length > 0) {
uint8_t alpnIdLength = aBuffer[svcbIndex++];
length -= 1;
if (alpnIdLength > length) {
return NS_ERROR_UNEXPECTED;
}
alpnArray.AppendElement(
nsCString((const char*)&aBuffer[svcbIndex], alpnIdLength));
length -= alpnIdLength;
svcbIndex += alpnIdLength;
}
break;
}
case SvcParamKeyNoDefaultAlpn: {
if (length != 0) {
// This key should not contain a value
return NS_ERROR_UNEXPECTED;
}
field.mValue = AsVariant(SvcParamNoDefaultAlpn{});
break;
}
case SvcParamKeyPort: {
if (length != 2) {
// This key should only encode a uint16_t
return NS_ERROR_UNEXPECTED;
}
field.mValue =
AsVariant(SvcParamPort{.mValue = get16bit(aBuffer, svcbIndex)});
break;
}
case SvcParamKeyIpv4Hint: {
if (length % 4 != 0) {
// This key should only encode IPv4 addresses
return NS_ERROR_UNEXPECTED;
}
field.mValue = AsVariant(SvcParamIpv4Hint());
auto& ipv4array = field.mValue.as<SvcParamIpv4Hint>().mValue;
while (length > 0) {
NetAddr addr;
addr.inet.family = AF_INET;
addr.inet.port = 0;
addr.inet.ip = ntohl(get32bit(aBuffer, svcbIndex));
ipv4array.AppendElement(addr);
length -= 4;
svcbIndex += 4;
}
break;
}
case SvcParamKeyEchConfig: {
field.mValue = AsVariant(SvcParamEchConfig{
.mValue = nsCString((const char*)(&aBuffer[svcbIndex]), length)});
break;
}
case SvcParamKeyIpv6Hint: {
if (length % 16 != 0) {
// This key should only encode IPv6 addresses
return NS_ERROR_UNEXPECTED;
}
field.mValue = AsVariant(SvcParamIpv6Hint());
auto& ipv6array = field.mValue.as<SvcParamIpv6Hint>().mValue;
while (length > 0) {
NetAddr addr;
addr.inet6.family = AF_INET6;
addr.inet6.port = 0; // unknown
addr.inet6.flowinfo = 0; // unknown
addr.inet6.scope_id = 0; // unknown
for (int i = 0; i < 16; i++, svcbIndex++) {
addr.inet6.ip.u8[i] = aBuffer[svcbIndex];
}
ipv6array.AppendElement(addr);
length -= 16;
// no need to increase svcbIndex - we did it in the for above.
}
break;
}
case SvcParamKeyODoHConfig: {
field.mValue = AsVariant(SvcParamODoHConfig{
.mValue = nsCString((const char*)(&aBuffer[svcbIndex]), length)});
break;
}
default: {
// Unespected type. We'll just ignore it.
return NS_OK;
break;
}
}
return NS_OK;
}
nsresult DNSPacket::PassQName(unsigned int& index,
const unsigned char* aBuffer) {
uint8_t length;
do {
if (mBodySize < (index + 1)) {
LOG(("TRR: PassQName:%d fail at index %d\n", __LINE__, index));
return NS_ERROR_ILLEGAL_VALUE;
}
length = static_cast<uint8_t>(aBuffer[index]);
if ((length & 0xc0) == 0xc0) {
// name pointer, advance over it and be done
if (mBodySize < (index + 2)) {
return NS_ERROR_ILLEGAL_VALUE;
}
index += 2;
break;
}
if (length & 0xc0) {
LOG(("TRR: illegal label length byte (%x) at index %d\n", length, index));
return NS_ERROR_ILLEGAL_VALUE;
}
// pass label
if (mBodySize < (index + 1 + length)) {
LOG(("TRR: PassQName:%d fail at index %d\n", __LINE__, index));
return NS_ERROR_ILLEGAL_VALUE;
}
index += 1 + length;
} while (length);
return NS_OK;
}
// GetQname: retrieves the qname (stores in 'aQname') and stores the index
// after qname was parsed into the 'aIndex'.
nsresult DNSPacket::GetQname(nsACString& aQname, unsigned int& aIndex,
const unsigned char* aBuffer) {
uint8_t clength = 0;
unsigned int cindex = aIndex;
unsigned int loop = 128; // a valid DNS name can never loop this much
unsigned int endindex = 0; // index position after this data
do {
if (cindex >= mBodySize) {
LOG(("TRR: bad Qname packet\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
clength = static_cast<uint8_t>(aBuffer[cindex]);
if ((clength & 0xc0) == 0xc0) {
// name pointer, get the new offset (14 bits)
if ((cindex + 1) >= mBodySize) {
return NS_ERROR_ILLEGAL_VALUE;
}
// extract the new index position for the next label
uint16_t newpos = (clength & 0x3f) << 8 | aBuffer[cindex + 1];
if (!endindex) {
// only update on the first "jump"
endindex = cindex + 2;
}
cindex = newpos;
continue;
}
if (clength & 0xc0) {
// any of those bits set individually is an error
LOG(("TRR: bad Qname packet\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
cindex++;
if (clength) {
if (!aQname.IsEmpty()) {
aQname.Append(".");
}
if ((cindex + clength) > mBodySize) {
return NS_ERROR_ILLEGAL_VALUE;
}
aQname.Append((const char*)(&aBuffer[cindex]), clength);
cindex += clength; // skip label
}
} while (clength && --loop);
if (!loop) {
LOG(("DNSPacket::DohDecode pointer loop error\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
if (!endindex) {
// there was no "jump"
endindex = cindex;
}
aIndex = endindex;
return NS_OK;
}
nsresult DOHresp::Add(uint32_t TTL, unsigned char const* dns,
unsigned int index, uint16_t len, bool aLocalAllowed) {
NetAddr addr;
if (4 == len) {
// IPv4
addr.inet.family = AF_INET;
addr.inet.port = 0; // unknown
addr.inet.ip = ntohl(get32bit(dns, index));
} else if (16 == len) {
// IPv6
addr.inet6.family = AF_INET6;
addr.inet6.port = 0; // unknown
addr.inet6.flowinfo = 0; // unknown
addr.inet6.scope_id = 0; // unknown
for (int i = 0; i < 16; i++, index++) {
addr.inet6.ip.u8[i] = dns[index];
}
} else {
return NS_ERROR_UNEXPECTED;
}
if (addr.IsIPAddrLocal() && !aLocalAllowed) {
return NS_ERROR_FAILURE;
}
// While the DNS packet might return individual TTLs for each address,
// we can only return one value in the AddrInfo class so pick the
// lowest number.
if (mTtl < TTL) {
mTtl = TTL;
}
if (LOG_ENABLED()) {
char buf[128];
addr.ToStringBuffer(buf, sizeof(buf));
LOG(("DOHresp:Add %s\n", buf));
}
mAddresses.AppendElement(addr);
return NS_OK;
}
nsresult DNSPacket::OnDataAvailable(nsIRequest* aRequest,
nsIInputStream* aInputStream,
uint64_t aOffset, const uint32_t aCount) {
if (aCount + mBodySize > MAX_SIZE) {
LOG(("DNSPacket::OnDataAvailable:%d fail\n", __LINE__));
return NS_ERROR_FAILURE;
}
uint32_t count;
nsresult rv =
aInputStream->Read((char*)mResponse + mBodySize, aCount, &count);
if (NS_FAILED(rv)) {
return rv;
}
MOZ_ASSERT(count == aCount);
mBodySize += aCount;
return NS_OK;
}
const uint8_t kDNS_CLASS_IN = 1;
nsresult DNSPacket::EncodeRequest(nsCString& aBody, const nsACString& aHost,
uint16_t aType, bool aDisableECS) {
aBody.Truncate();
// Header
aBody += '\0';
aBody += '\0'; // 16 bit id
aBody += 0x01; // |QR| Opcode |AA|TC|RD| Set the RD bit
aBody += '\0'; // |RA| Z | RCODE |
aBody += '\0';
aBody += 1; // QDCOUNT (number of entries in the question section)
aBody += '\0';
aBody += '\0'; // ANCOUNT
aBody += '\0';
aBody += '\0'; // NSCOUNT
char additionalRecords =
(aDisableECS || StaticPrefs::network_trr_padding()) ? 1 : 0;
aBody += '\0'; // ARCOUNT
aBody += additionalRecords; // ARCOUNT low byte for EDNS(0)
// Question
// The input host name should be converted to a sequence of labels, where
// each label consists of a length octet followed by that number of
// octets. The domain name terminates with the zero length octet for the
// null label of the root.
// Followed by 16 bit QTYPE and 16 bit QCLASS
int32_t index = 0;
int32_t offset = 0;
do {
bool dotFound = false;
int32_t labelLength;
index = aHost.FindChar('.', offset);
if (kNotFound != index) {
dotFound = true;
labelLength = index - offset;
} else {
labelLength = aHost.Length() - offset;
}
if (labelLength > 63) {
// too long label!
SetDNSPacketStatus(DNSPacketStatus::EncodeError);
return NS_ERROR_ILLEGAL_VALUE;
}
if (labelLength > 0) {
aBody += static_cast<unsigned char>(labelLength);
nsDependentCSubstring label = Substring(aHost, offset, labelLength);
aBody.Append(label);
}
if (!dotFound) {
aBody += '\0'; // terminate with a final zero
break;
}
offset += labelLength + 1; // move over label and dot
} while (true);
aBody += static_cast<uint8_t>(aType >> 8); // upper 8 bit TYPE
aBody += static_cast<uint8_t>(aType);
aBody += '\0'; // upper 8 bit CLASS
aBody += kDNS_CLASS_IN; // IN - "the Internet"
if (additionalRecords) {
// EDNS(0) is RFC 6891, ECS is RFC 7871
aBody += '\0'; // NAME | domain name | MUST be 0 (root domain) |
aBody += '\0';
aBody += 41; // TYPE | u_int16_t | OPT (41) |
aBody += 16; // CLASS | u_int16_t | requestor's UDP payload size |
aBody +=
'\0'; // advertise 4K (high-byte: 16 | low-byte: 0), ignored by DoH
aBody += '\0'; // TTL | u_int32_t | extended RCODE and flags |
aBody += '\0';
aBody += '\0';
aBody += '\0';
// calculate padding length
unsigned int paddingLen = 0;
unsigned int rdlen = 0;
bool padding = StaticPrefs::network_trr_padding();
if (padding) {
// always add padding specified in rfc 7830 when this config is enabled
// to allow the reponse to be padded as well
// two bytes RDLEN, 4 bytes padding header
unsigned int packetLen = aBody.Length() + 2 + 4;
if (aDisableECS) {
// 8 bytes for disabling ecs
packetLen += 8;
}
// clamp the padding length, because the padding extension only allows up
// to 2^16 - 1 bytes padding and adding too much padding wastes resources
uint32_t padTo = std::clamp<uint32_t>(
StaticPrefs::network_trr_padding_length(), 0, 1024);
// Calculate number of padding bytes. The second '%'-operator is necessary
// because we prefer to add 0 bytes padding rather than padTo bytes
if (padTo > 0) {
paddingLen = (padTo - (packetLen % padTo)) % padTo;
}
// padding header + padding length
rdlen += 4 + paddingLen;
}
if (aDisableECS) {
rdlen += 8;
}
// RDLEN | u_int16_t | length of all RDATA |
aBody += (char)((rdlen >> 8) & 0xff); // upper 8 bit RDLEN
aBody += (char)(rdlen & 0xff);
// RDATA | octet stream | {attribute,value} pairs |
// The RDATA is just the ECS option setting zero subnet prefix
if (aDisableECS) {
aBody += '\0'; // upper 8 bit OPTION-CODE ECS
aBody += 8; // OPTION-CODE, 2 octets, for ECS is 8
aBody += '\0'; // upper 8 bit OPTION-LENGTH
aBody += 4; // OPTION-LENGTH, 2 octets, contains the length of the
// payload after OPTION-LENGTH
aBody += '\0'; // upper 8 bit FAMILY. IANA Address Family Numbers
// registry, not the AF_* constants!
aBody += 1; // FAMILY (Ipv4), 2 octets
aBody += '\0'; // SOURCE PREFIX-LENGTH | SCOPE PREFIX-LENGTH |
aBody += '\0';
// ADDRESS, minimum number of octets == nothing because zero bits
}
if (padding) {
aBody += '\0'; // upper 8 bit option OPTION-CODE PADDING
aBody += 12; // OPTION-CODE, 2 octets, for PADDING is 12
// OPTION-LENGTH, 2 octets
aBody += (char)((paddingLen >> 8) & 0xff);
aBody += (char)(paddingLen & 0xff);
for (unsigned int i = 0; i < paddingLen; i++) {
aBody += '\0';
}
}
}
SetDNSPacketStatus(DNSPacketStatus::Success);
return NS_OK;
}
Result<uint8_t, nsresult> DNSPacket::GetRCode() const {
if (mBodySize < 12) {
LOG(("DNSPacket::GetRCode - packet too small"));
return Err(NS_ERROR_ILLEGAL_VALUE);
}
return mResponse[3] & 0x0F;
}
Result<bool, nsresult> DNSPacket::RecursionAvailable() const {
if (mBodySize < 12) {
LOG(("DNSPacket::GetRCode - packet too small"));
return Err(NS_ERROR_ILLEGAL_VALUE);
}
return mResponse[3] & 0x80;
}
nsresult DNSPacket::DecodeInternal(
nsCString& aHost, enum TrrType aType, nsCString& aCname, bool aAllowRFC1918,
DOHresp& aResp, TypeRecordResultType& aTypeResult,
nsClassHashtable<nsCStringHashKey, DOHresp>& aAdditionalRecords,
uint32_t& aTTL, const unsigned char* aBuffer, uint32_t aLen) {
// The response has a 12 byte header followed by the question (returned)
// and then the answer. The answer section itself contains the name, type
// and class again and THEN the record data.
// www.example.com response:
// header:
// abcd 8180 0001 0001 0000 0000
// the question:
// 0377 7777 0765 7861 6d70 6c65 0363 6f6d 0000 0100 01
// the answer:
// 03 7777 7707 6578 616d 706c 6503 636f 6d00 0001 0001
// 0000 0080 0004 5db8 d822
unsigned int index = 12;
uint8_t length;
nsAutoCString host;
nsresult rv;
uint16_t extendedError = UINT16_MAX;
LOG(("doh decode %s %d bytes\n", aHost.get(), aLen));
aCname.Truncate();
if (aLen < 12 || aBuffer[0] || aBuffer[1]) {
LOG(("TRR bad incoming DOH, eject!\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
uint8_t rcode = mResponse[3] & 0x0F;
LOG(("TRR Decode %s RCODE %d\n", PromiseFlatCString(aHost).get(), rcode));
uint16_t questionRecords = get16bit(aBuffer, 4); // qdcount
// iterate over the single(?) host name in question
while (questionRecords) {
do {
if (aLen < (index + 1)) {
LOG(("TRR Decode 1 index: %u size: %u", index, aLen));
return NS_ERROR_ILLEGAL_VALUE;
}
length = static_cast<uint8_t>(aBuffer[index]);
if (length) {
if (host.Length()) {
host.Append(".");
}
if (aLen < (index + 1 + length)) {
LOG(("TRR Decode 2 index: %u size: %u len: %u", index, aLen, length));
return NS_ERROR_ILLEGAL_VALUE;
}
host.Append(((char*)aBuffer) + index + 1, length);
}
index += 1 + length; // skip length byte + label
} while (length);
if (aLen < (index + 4)) {
LOG(("TRR Decode 3 index: %u size: %u", index, aLen));
return NS_ERROR_ILLEGAL_VALUE;
}
index += 4; // skip question's type, class
questionRecords--;
}
// Figure out the number of answer records from ANCOUNT
uint16_t answerRecords = get16bit(aBuffer, 6);
LOG(("TRR Decode: %d answer records (%u bytes body) %s index=%u\n",
answerRecords, aLen, host.get(), index));
while (answerRecords) {
nsAutoCString qname;
rv = GetQname(qname, index, aBuffer);
if (NS_FAILED(rv)) {
return rv;
}
// 16 bit TYPE
if (aLen < (index + 2)) {
LOG(("TRR: Dohdecode:%d fail at index %d\n", __LINE__, index + 2));
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t TYPE = get16bit(aBuffer, index);
index += 2;
// 16 bit class
if (aLen < (index + 2)) {
LOG(("TRR: Dohdecode:%d fail at index %d\n", __LINE__, index + 2));
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t CLASS = get16bit(aBuffer, index);
if (kDNS_CLASS_IN != CLASS) {
LOG(("TRR bad CLASS (%u) at index %d\n", CLASS, index));
return NS_ERROR_UNEXPECTED;
}
index += 2;
// 32 bit TTL (seconds)
if (aLen < (index + 4)) {
LOG(("TRR: Dohdecode:%d fail at index %d\n", __LINE__, index));
return NS_ERROR_ILLEGAL_VALUE;
}
uint32_t TTL = get32bit(aBuffer, index);
index += 4;
// 16 bit RDLENGTH
if (aLen < (index + 2)) {
LOG(("TRR: Dohdecode:%d fail at index %d\n", __LINE__, index));
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t RDLENGTH = get16bit(aBuffer, index);
index += 2;
if (aLen < (index + RDLENGTH)) {
LOG(("TRR: Dohdecode:%d fail RDLENGTH=%d at index %d\n", __LINE__,
RDLENGTH, index));
return NS_ERROR_ILLEGAL_VALUE;
}
if ((TYPE != TRRTYPE_CNAME) && (TYPE != TRRTYPE_HTTPSSVC) &&
(TYPE != static_cast<uint16_t>(aType))) {
// Not the same type as was asked for nor CNAME
LOG(("TRR: Dohdecode:%d asked for type %d got %d\n", __LINE__, aType,
TYPE));
index += RDLENGTH;
answerRecords--;
continue;
}
// We check if the qname is a case-insensitive match for the host or the
// FQDN version of the host
bool responseMatchesQuestion =
(qname.Length() == aHost.Length() ||
(aHost.Length() == qname.Length() + 1 && aHost.Last() == '.')) &&
StringBeginsWith(aHost, qname, nsCaseInsensitiveCStringComparator);
if (responseMatchesQuestion) {
// RDATA
// - A (TYPE 1): 4 bytes
// - AAAA (TYPE 28): 16 bytes
// - NS (TYPE 2): N bytes
switch (TYPE) {
case TRRTYPE_A:
if (RDLENGTH != 4) {
LOG(("TRR bad length for A (%u)\n", RDLENGTH));
return NS_ERROR_UNEXPECTED;
}
rv = aResp.Add(TTL, aBuffer, index, RDLENGTH, aAllowRFC1918);
if (NS_FAILED(rv)) {
LOG(
("TRR:DohDecode failed: local IP addresses or unknown IP "
"family\n"));
return rv;
}
break;
case TRRTYPE_AAAA:
if (RDLENGTH != 16) {
LOG(("TRR bad length for AAAA (%u)\n", RDLENGTH));
return NS_ERROR_UNEXPECTED;
}
rv = aResp.Add(TTL, aBuffer, index, RDLENGTH, aAllowRFC1918);
if (NS_FAILED(rv)) {
LOG(("TRR got unique/local IPv6 address!\n"));
return rv;
}
break;
case TRRTYPE_NS:
break;
case TRRTYPE_CNAME:
if (aCname.IsEmpty()) {
nsAutoCString qname;
unsigned int qnameindex = index;
rv = GetQname(qname, qnameindex, aBuffer);
if (NS_FAILED(rv)) {
return rv;
}
if (!qname.IsEmpty()) {
ToLowerCase(qname);
aCname = qname;
LOG(("DNSPacket::DohDecode CNAME host %s => %s\n", host.get(),
aCname.get()));
} else {
LOG(("DNSPacket::DohDecode empty CNAME for host %s!\n",
host.get()));
}
} else {
LOG(("DNSPacket::DohDecode CNAME - ignoring another entry\n"));
}
break;
case TRRTYPE_TXT: {
// TXT record RRDATA sections are a series of character-strings
// each character string is a length byte followed by that many data
// bytes
nsAutoCString txt;
unsigned int txtIndex = index;
uint16_t available = RDLENGTH;
while (available > 0) {
uint8_t characterStringLen = aBuffer[txtIndex++];
available--;
if (characterStringLen > available) {
LOG(("DNSPacket::DohDecode MALFORMED TXT RECORD\n"));
break;
}
txt.Append((const char*)(&aBuffer[txtIndex]), characterStringLen);
txtIndex += characterStringLen;
available -= characterStringLen;
}
if (!aTypeResult.is<TypeRecordTxt>()) {
aTypeResult = AsVariant(CopyableTArray<nsCString>());
}
{
auto& results = aTypeResult.as<TypeRecordTxt>();
results.AppendElement(txt);
}
if (aTTL > TTL) {
aTTL = TTL;
}
LOG(("DNSPacket::DohDecode TXT host %s => %s\n", host.get(),
txt.get()));
break;
}
case TRRTYPE_HTTPSSVC: {
struct SVCB parsed;
int32_t lastSvcParamKey = -1;
unsigned int svcbIndex = index;
CheckedInt<uint16_t> available = RDLENGTH;
// Should have at least 2 bytes for the priority and one for the
// qname length.
if (available.value() < 3) {
return NS_ERROR_UNEXPECTED;
}
parsed.mSvcFieldPriority = get16bit(aBuffer, svcbIndex);
svcbIndex += 2;
rv = GetQname(parsed.mSvcDomainName, svcbIndex, aBuffer);
if (NS_FAILED(rv)) {
return rv;
}
if (parsed.mSvcDomainName.IsEmpty()) {
if (parsed.mSvcFieldPriority == 0) {
// For AliasMode SVCB RRs, a TargetName of "." indicates that the
// service is not available or does not exist.
continue;
}
// For ServiceMode SVCB RRs, if TargetName has the value ".",
// then the owner name of this record MUST be used as
// the effective TargetName.
// When the qname is port prefix name, we need to use the
// original host name as TargetName.
if (mOriginHost) {
parsed.mSvcDomainName = *mOriginHost;
} else {
parsed.mSvcDomainName = qname;
}
}
available -= (svcbIndex - index);
if (!available.isValid()) {
return NS_ERROR_UNEXPECTED;
}
aTTL = TTL;
while (available.value() >= 4) {
// Every SvcFieldValues must have at least 4 bytes for the
// SvcParamKey (2 bytes) and length of SvcParamValue (2 bytes)
// If the length ever goes above the available data, meaning if
// available ever underflows, then that is an error.
struct SvcFieldValue value;
uint16_t key = get16bit(aBuffer, svcbIndex);
svcbIndex += 2;
// 2.2 Clients MUST consider an RR malformed if SvcParamKeys are
// not in strictly increasing numeric order.
if (key <= lastSvcParamKey) {
LOG(("SvcParamKeys not in increasing order"));
return NS_ERROR_UNEXPECTED;
}
lastSvcParamKey = key;
uint16_t len = get16bit(aBuffer, svcbIndex);
svcbIndex += 2;
available -= 4 + len;
if (!available.isValid()) {
return NS_ERROR_UNEXPECTED;
}
rv = ParseSvcParam(svcbIndex, key, value, len, aBuffer);
if (NS_FAILED(rv)) {
return rv;
}
svcbIndex += len;
// If this is an unknown key, we will simply ignore it.
// We also don't need to record SvcParamKeyMandatory
if (key == SvcParamKeyMandatory || !IsValidSvcParamKey(key)) {
continue;
}
if (value.mValue.is<SvcParamIpv4Hint>() ||
value.mValue.is<SvcParamIpv6Hint>()) {
parsed.mHasIPHints = true;
}
if (value.mValue.is<SvcParamEchConfig>()) {
parsed.mHasEchConfig = true;
parsed.mEchConfig = value.mValue.as<SvcParamEchConfig>().mValue;
}
if (value.mValue.is<SvcParamODoHConfig>()) {
parsed.mODoHConfig = value.mValue.as<SvcParamODoHConfig>().mValue;
}
parsed.mSvcFieldValue.AppendElement(value);
}
if (aType != TRRTYPE_HTTPSSVC) {
// Ignore the entry that we just parsed if we didn't ask for it.
break;
}
// Check for AliasForm
if (aCname.IsEmpty() && parsed.mSvcFieldPriority == 0) {
// Alias form SvcDomainName must not have the "." value (empty)
if (parsed.mSvcDomainName.IsEmpty()) {
return NS_ERROR_UNEXPECTED;
}
aCname = parsed.mSvcDomainName;
// If aliasForm is present, Service form must be ignored.
aTypeResult = mozilla::AsVariant(Nothing());
ToLowerCase(aCname);
LOG(("DNSPacket::DohDecode HTTPSSVC AliasForm host %s => %s\n",
host.get(), aCname.get()));
break;
}
if (!aTypeResult.is<TypeRecordHTTPSSVC>()) {
aTypeResult = mozilla::AsVariant(CopyableTArray<SVCB>());
}
{
auto& results = aTypeResult.as<TypeRecordHTTPSSVC>();
results.AppendElement(parsed);
}
break;
}
default:
// skip unknown record types
LOG(("TRR unsupported TYPE (%u) RDLENGTH %u\n", TYPE, RDLENGTH));
break;
}
} else {
LOG(("TRR asked for %s data but got %s\n", aHost.get(), qname.get()));
}
index += RDLENGTH;
LOG(("done with record type %u len %u index now %u of %u\n", TYPE, RDLENGTH,
index, aLen));
answerRecords--;
}
// NSCOUNT
uint16_t nsRecords = get16bit(aBuffer, 8);
LOG(("TRR Decode: %d ns records (%u bytes body)\n", nsRecords, aLen));
while (nsRecords) {
rv = PassQName(index, aBuffer);
if (NS_FAILED(rv)) {
return rv;
}
if (aLen < (index + 8)) {
return NS_ERROR_ILLEGAL_VALUE;
}
index += 2; // type
index += 2; // class
index += 4; // ttl
// 16 bit RDLENGTH
if (aLen < (index + 2)) {
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t RDLENGTH = get16bit(aBuffer, index);
index += 2;
if (aLen < (index + RDLENGTH)) {
return NS_ERROR_ILLEGAL_VALUE;
}
index += RDLENGTH;
LOG(("done with nsRecord now %u of %u\n", index, aLen));
nsRecords--;
}
// additional resource records
uint16_t arRecords = get16bit(aBuffer, 10);
LOG(("TRR Decode: %d additional resource records (%u bytes body)\n",
arRecords, aLen));
while (arRecords) {
nsAutoCString qname;
rv = GetQname(qname, index, aBuffer);
if (NS_FAILED(rv)) {
LOG(("Bad qname for additional record"));
return rv;
}
if (aLen < (index + 8)) {
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t type = get16bit(aBuffer, index);
index += 2;
// The next two bytes encode class
// (or udpPayloadSize when type is TRRTYPE_OPT)
uint16_t cls = get16bit(aBuffer, index);
index += 2;
// The next 4 bytes encode TTL
// (or extRCode + ednsVersion + flags when type is TRRTYPE_OPT)
uint32_t ttl = get32bit(aBuffer, index);
index += 4;
// cls and ttl are unused when type is TRRTYPE_OPT
// 16 bit RDLENGTH
if (aLen < (index + 2)) {
LOG(("Record too small"));
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t rdlength = get16bit(aBuffer, index);
index += 2;
if (aLen < (index + rdlength)) {
LOG(("rdlength too big"));
return NS_ERROR_ILLEGAL_VALUE;
}
auto parseRecord = [&]() {
LOG(("Parsing additional record type: %u", type));
auto* entry = aAdditionalRecords.GetOrInsertNew(qname);
switch (type) {
case TRRTYPE_A:
if (kDNS_CLASS_IN != cls) {
LOG(("NOT IN - returning"));
return;
}
if (rdlength != 4) {
LOG(("TRR bad length for A (%u)\n", rdlength));
return;
}
rv = entry->Add(ttl, aBuffer, index, rdlength, aAllowRFC1918);
if (NS_FAILED(rv)) {
LOG(
("TRR:DohDecode failed: local IP addresses or unknown IP "
"family\n"));
return;
}
break;
case TRRTYPE_AAAA:
if (kDNS_CLASS_IN != cls) {
LOG(("NOT IN - returning"));
return;
}
if (rdlength != 16) {
LOG(("TRR bad length for AAAA (%u)\n", rdlength));
return;
}
rv = entry->Add(ttl, aBuffer, index, rdlength, aAllowRFC1918);
if (NS_FAILED(rv)) {
LOG(("TRR got unique/local IPv6 address!\n"));
return;
}
break;
case TRRTYPE_OPT: { // OPT
LOG(("Parsing opt rdlen: %u", rdlength));
unsigned int offset = 0;
while (offset + 2 <= rdlength) {
uint16_t optCode = get16bit(aBuffer, index + offset);
LOG(("optCode: %u", optCode));
offset += 2;
if (offset + 2 > rdlength) {
break;
}
uint16_t optLen = get16bit(aBuffer, index + offset);
LOG(("optLen: %u", optLen));
offset += 2;
if (offset + optLen > rdlength) {
LOG(("offset: %u, optLen: %u, rdlen: %u", offset, optLen,
rdlength));
break;
}
LOG(("OPT: code: %u len:%u", optCode, optLen));
if (optCode != 15) {
offset += optLen;
continue;
}
// optCode == 15; Extended DNS error
if (offset + 2 > rdlength || optLen < 2) {
break;
}
extendedError = get16bit(aBuffer, index + offset);
LOG(("Extended error code: %u message: %s", extendedError,
nsAutoCString((char*)aBuffer + index + offset + 2, optLen - 2)
.get()));
offset += optLen;
}
break;
}
default:
break;
}
};
parseRecord();
index += rdlength;
LOG(("done with additional rr now %u of %u\n", index, aLen));
arRecords--;
}
if (index != aLen) {
LOG(("DohDecode failed to parse entire response body, %u out of %u bytes\n",
index, aLen));
// failed to parse 100%, do not continue
return NS_ERROR_ILLEGAL_VALUE;
}
if (aType == TRRTYPE_NS && rcode != 0) {
return NS_ERROR_UNKNOWN_HOST;
}
if ((aType != TRRTYPE_NS) && aCname.IsEmpty() && aResp.mAddresses.IsEmpty() &&
aTypeResult.is<TypeRecordEmpty>()) {
// no entries were stored!
LOG(("TRR: No entries were stored!\n"));
if (extendedError != UINT16_MAX && hardFail(extendedError)) {
return NS_ERROR_DEFINITIVE_UNKNOWN_HOST;
}
return NS_ERROR_UNKNOWN_HOST;
}
// https://tools.ietf.org/html/draft-ietf-dnsop-svcb-httpssvc-03#page-14
// If one or more SVCB records of ServiceForm SvcRecordType are returned for
// HOST, clients should select the highest-priority option with acceptable
// parameters.
if (aTypeResult.is<TypeRecordHTTPSSVC>()) {
auto& results = aTypeResult.as<TypeRecordHTTPSSVC>();
results.Sort();
}
return NS_OK;
}
//
// DohDecode() collects the TTL and the IP addresses in the response
//
nsresult DNSPacket::Decode(
nsCString& aHost, enum TrrType aType, nsCString& aCname, bool aAllowRFC1918,
DOHresp& aResp, TypeRecordResultType& aTypeResult,
nsClassHashtable<nsCStringHashKey, DOHresp>& aAdditionalRecords,
uint32_t& aTTL) {
nsresult rv =
DecodeInternal(aHost, aType, aCname, aAllowRFC1918, aResp, aTypeResult,
aAdditionalRecords, aTTL, mResponse, mBodySize);
SetDNSPacketStatus(NS_SUCCEEDED(rv) ? DNSPacketStatus::Success
: DNSPacketStatus::DecodeError);
return rv;
}
} // namespace net
} // namespace mozilla
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