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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 "nsEscape.h"
#include "nsString.h"
#include "nsIURI.h"
#include "nsUrlClassifierUtils.h"
#include "nsTArray.h"
#include "nsReadableUtils.h"
#include "plbase64.h"
#include "nsPrintfCString.h"
#include "safebrowsing.pb.h"
#include "mozilla/Sprintf.h"
#include "mozilla/Mutex.h"
#define DEFAULT_PROTOCOL_VERSION "2.2"
static char int_to_hex_digit(int32_t i)
{
NS_ASSERTION((i >= 0) && (i <= 15), "int too big in int_to_hex_digit");
return static_cast<char>(((i < 10) ? (i + '0') : ((i - 10) + 'A')));
}
static bool
IsDecimal(const nsACString & num)
{
for (uint32_t i = 0; i < num.Length(); i++) {
if (!isdigit(num[i])) {
return false;
}
}
return true;
}
static bool
IsHex(const nsACString & num)
{
if (num.Length() < 3) {
return false;
}
if (num[0] != '0' || !(num[1] == 'x' || num[1] == 'X')) {
return false;
}
for (uint32_t i = 2; i < num.Length(); i++) {
if (!isxdigit(num[i])) {
return false;
}
}
return true;
}
static bool
IsOctal(const nsACString & num)
{
if (num.Length() < 2) {
return false;
}
if (num[0] != '0') {
return false;
}
for (uint32_t i = 1; i < num.Length(); i++) {
if (!isdigit(num[i]) || num[i] == '8' || num[i] == '9') {
return false;
}
}
return true;
}
/////////////////////////////////////////////////////////////////
// SafeBrowsing V4 related utits.
namespace mozilla {
namespace safebrowsing {
static PlatformType
GetPlatformType()
{
#if defined(XP_LINUX)
return LINUX_PLATFORM;
#elif defined(XP_WIN)
return WINDOWS_PLATFORM;
#else
return PLATFORM_TYPE_UNSPECIFIED;
#endif
}
typedef FetchThreatListUpdatesRequest_ListUpdateRequest ListUpdateRequest;
typedef FetchThreatListUpdatesRequest_ListUpdateRequest_Constraints Constraints;
static void
InitListUpdateRequest(ThreatType aThreatType,
const char* aStateBase64,
ListUpdateRequest* aListUpdateRequest)
{
aListUpdateRequest->set_threat_type(aThreatType);
aListUpdateRequest->set_platform_type(GetPlatformType());
aListUpdateRequest->set_threat_entry_type(URL);
Constraints* contraints = new Constraints();
contraints->add_supported_compressions(RICE);
aListUpdateRequest->set_allocated_constraints(contraints);
// Only set non-empty state.
if (aStateBase64[0] != '\0') {
nsCString stateBinary;
nsresult rv = Base64Decode(nsCString(aStateBase64), stateBinary);
if (NS_SUCCEEDED(rv)) {
aListUpdateRequest->set_state(stateBinary.get(), stateBinary.Length());
}
}
}
static ClientInfo*
CreateClientInfo()
{
ClientInfo* c = new ClientInfo();
nsCOMPtr<nsIPrefBranch> prefBranch =
do_GetService(NS_PREFSERVICE_CONTRACTID);
nsXPIDLCString clientId;
nsresult rv = prefBranch->GetCharPref("browser.safebrowsing.id",
getter_Copies(clientId));
if (NS_FAILED(rv)) {
clientId = "Firefox"; // Use "Firefox" as fallback.
}
c->set_client_id(clientId.get());
return c;
}
} // end of namespace safebrowsing.
} // end of namespace mozilla.
nsUrlClassifierUtils::nsUrlClassifierUtils()
: mEscapeCharmap(nullptr)
, mProviderDictLock("nsUrlClassifierUtils.mProviderDictLock")
{
}
nsresult
nsUrlClassifierUtils::Init()
{
// Everything but alpha numerics, - and .
mEscapeCharmap = new Charmap(0xffffffff, 0xfc009fff, 0xf8000001, 0xf8000001,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff);
if (!mEscapeCharmap)
return NS_ERROR_OUT_OF_MEMORY;
// nsIUrlClassifierUtils is a thread-safe service so it's
// allowed to use on non-main threads. However, building
// the provider dictionary must be on the main thread.
// We forcefully load nsUrlClassifierUtils in
// nsUrlClassifierDBService::Init() to ensure we must
// now be on the main thread.
nsresult rv = ReadProvidersFromPrefs(mProviderDict);
NS_ENSURE_SUCCESS(rv, rv);
// Add an observer for shutdown
nsCOMPtr<nsIObserverService> observerService =
mozilla::services::GetObserverService();
if (!observerService)
return NS_ERROR_FAILURE;
observerService->AddObserver(this, "xpcom-shutdown-threads", false);
Preferences::AddStrongObserver(this, "browser.safebrowsing");
return NS_OK;
}
NS_IMPL_ISUPPORTS(nsUrlClassifierUtils,
nsIUrlClassifierUtils,
nsIObserver)
/////////////////////////////////////////////////////////////////////////////
// nsIUrlClassifierUtils
NS_IMETHODIMP
nsUrlClassifierUtils::GetKeyForURI(nsIURI * uri, nsACString & _retval)
{
nsCOMPtr<nsIURI> innerURI = NS_GetInnermostURI(uri);
if (!innerURI)
innerURI = uri;
nsAutoCString host;
innerURI->GetAsciiHost(host);
if (host.IsEmpty()) {
return NS_ERROR_MALFORMED_URI;
}
nsresult rv = CanonicalizeHostname(host, _retval);
NS_ENSURE_SUCCESS(rv, rv);
nsAutoCString path;
rv = innerURI->GetPath(path);
NS_ENSURE_SUCCESS(rv, rv);
// strip out anchors
int32_t ref = path.FindChar('#');
if (ref != kNotFound)
path.SetLength(ref);
nsAutoCString temp;
rv = CanonicalizePath(path, temp);
NS_ENSURE_SUCCESS(rv, rv);
_retval.Append(temp);
return NS_OK;
}
// We use "goog-*-proto" as the list name for v4, where "proto" indicates
// it's updated (as well as hash completion) via protobuf.
//
// In the mozilla official build, we are allowed to use the
// private phishing list (goog-phish-proto). See Bug 1288840.
static const struct {
const char* mListName;
uint32_t mThreatType;
} THREAT_TYPE_CONV_TABLE[] = {
{ "goog-malware-proto", MALWARE_THREAT}, // 1
{ "googpub-phish-proto", SOCIAL_ENGINEERING_PUBLIC}, // 2
{ "goog-unwanted-proto", UNWANTED_SOFTWARE}, // 3
{ "goog-phish-proto", SOCIAL_ENGINEERING}, // 5
// For testing purpose.
{ "test-phish-proto", SOCIAL_ENGINEERING_PUBLIC}, // 2
{ "test-unwanted-proto", UNWANTED_SOFTWARE}, // 3
};
NS_IMETHODIMP
nsUrlClassifierUtils::ConvertThreatTypeToListNames(uint32_t aThreatType,
nsACString& aListNames)
{
for (uint32_t i = 0; i < ArrayLength(THREAT_TYPE_CONV_TABLE); i++) {
if (aThreatType == THREAT_TYPE_CONV_TABLE[i].mThreatType) {
if (!aListNames.IsEmpty()) {
aListNames.AppendLiteral(",");
}
aListNames += THREAT_TYPE_CONV_TABLE[i].mListName;
}
}
return aListNames.IsEmpty() ? NS_ERROR_FAILURE : NS_OK;
}
NS_IMETHODIMP
nsUrlClassifierUtils::ConvertListNameToThreatType(const nsACString& aListName,
uint32_t* aThreatType)
{
for (uint32_t i = 0; i < ArrayLength(THREAT_TYPE_CONV_TABLE); i++) {
if (aListName.EqualsASCII(THREAT_TYPE_CONV_TABLE[i].mListName)) {
*aThreatType = THREAT_TYPE_CONV_TABLE[i].mThreatType;
return NS_OK;
}
}
return NS_ERROR_FAILURE;
}
NS_IMETHODIMP
nsUrlClassifierUtils::GetProvider(const nsACString& aTableName,
nsACString& aProvider)
{
MutexAutoLock lock(mProviderDictLock);
nsCString* provider = nullptr;
if (mProviderDict.Get(aTableName, &provider)) {
aProvider = provider ? *provider : EmptyCString();
} else {
aProvider = EmptyCString();
}
return NS_OK;
}
NS_IMETHODIMP
nsUrlClassifierUtils::GetProtocolVersion(const nsACString& aProvider,
nsACString& aVersion)
{
nsCOMPtr<nsIPrefBranch> prefBranch = do_GetService(NS_PREFSERVICE_CONTRACTID);
if (prefBranch) {
nsPrintfCString prefName("browser.safebrowsing.provider.%s.pver",
nsCString(aProvider).get());
nsXPIDLCString version;
nsresult rv = prefBranch->GetCharPref(prefName.get(), getter_Copies(version));
aVersion = NS_SUCCEEDED(rv) ? version : DEFAULT_PROTOCOL_VERSION;
} else {
aVersion = DEFAULT_PROTOCOL_VERSION;
}
return NS_OK;
}
NS_IMETHODIMP
nsUrlClassifierUtils::MakeUpdateRequestV4(const char** aListNames,
const char** aStatesBase64,
uint32_t aCount,
nsACString &aRequest)
{
using namespace mozilla::safebrowsing;
FetchThreatListUpdatesRequest r;
r.set_allocated_client(CreateClientInfo());
for (uint32_t i = 0; i < aCount; i++) {
nsCString listName(aListNames[i]);
uint32_t threatType;
nsresult rv = ConvertListNameToThreatType(listName, &threatType);
if (NS_FAILED(rv)) {
continue; // Unknown list name.
}
auto lur = r.mutable_list_update_requests()->Add();
InitListUpdateRequest(static_cast<ThreatType>(threatType), aStatesBase64[i], lur);
}
// Then serialize.
std::string s;
r.SerializeToString(&s);
nsCString out;
nsresult rv = Base64URLEncode(s.size(),
(const uint8_t*)s.c_str(),
Base64URLEncodePaddingPolicy::Include,
out);
NS_ENSURE_SUCCESS(rv, rv);
aRequest = out;
return NS_OK;
}
//////////////////////////////////////////////////////////
// nsIObserver
NS_IMETHODIMP
nsUrlClassifierUtils::Observe(nsISupports *aSubject, const char *aTopic,
const char16_t *aData)
{
if (0 == strcmp(aTopic, NS_PREFBRANCH_PREFCHANGE_TOPIC_ID)) {
MutexAutoLock lock(mProviderDictLock);
return ReadProvidersFromPrefs(mProviderDict);
}
if (0 == strcmp(aTopic, "xpcom-shutdown-threads")) {
nsCOMPtr<nsIPrefBranch> prefs = do_GetService(NS_PREFSERVICE_CONTRACTID);
NS_ENSURE_TRUE(prefs, NS_ERROR_FAILURE);
return prefs->RemoveObserver("browser.safebrowsing", this);
}
return NS_ERROR_UNEXPECTED;
}
/////////////////////////////////////////////////////////////////////////////
// non-interface methods
nsresult
nsUrlClassifierUtils::ReadProvidersFromPrefs(ProviderDictType& aDict)
{
MOZ_ASSERT(NS_IsMainThread(), "ReadProvidersFromPrefs must be on main thread");
nsCOMPtr<nsIPrefService> prefs = do_GetService(NS_PREFSERVICE_CONTRACTID);
NS_ENSURE_TRUE(prefs, NS_ERROR_FAILURE);
nsCOMPtr<nsIPrefBranch> prefBranch;
nsresult rv = prefs->GetBranch("browser.safebrowsing.provider.",
getter_AddRefs(prefBranch));
NS_ENSURE_SUCCESS(rv, rv);
// We've got a pref branch for "browser.safebrowsing.provider.".
// Enumerate all children prefs and parse providers.
uint32_t childCount;
char** childArray;
rv = prefBranch->GetChildList("", &childCount, &childArray);
NS_ENSURE_SUCCESS(rv, rv);
// Collect providers from childArray.
nsTHashtable<nsCStringHashKey> providers;
for (uint32_t i = 0; i < childCount; i++) {
nsCString child(childArray[i]);
auto dotPos = child.FindChar('.');
if (dotPos < 0) {
continue;
}
nsDependentCSubstring provider = Substring(child, 0, dotPos);
providers.PutEntry(provider);
}
NS_FREE_XPCOM_ALLOCATED_POINTER_ARRAY(childCount, childArray);
// Now we have all providers. Check which one owns |aTableName|.
// e.g. The owning lists of provider "google" is defined in
// "browser.safebrowsing.provider.google.lists".
for (auto itr = providers.Iter(); !itr.Done(); itr.Next()) {
auto entry = itr.Get();
nsCString provider(entry->GetKey());
nsPrintfCString owninListsPref("%s.lists", provider.get());
nsXPIDLCString owningLists;
nsresult rv = prefBranch->GetCharPref(owninListsPref.get(),
getter_Copies(owningLists));
if (NS_FAILED(rv)) {
continue;
}
// We've got the owning lists (represented as string) of |provider|.
// Build the dictionary for the owning list and the current provider.
nsTArray<nsCString> tables;
Classifier::SplitTables(owningLists, tables);
for (auto tableName : tables) {
aDict.Put(tableName, new nsCString(provider));
}
}
return NS_OK;
}
nsresult
nsUrlClassifierUtils::CanonicalizeHostname(const nsACString & hostname,
nsACString & _retval)
{
nsAutoCString unescaped;
if (!NS_UnescapeURL(PromiseFlatCString(hostname).get(),
PromiseFlatCString(hostname).Length(),
0, unescaped)) {
unescaped.Assign(hostname);
}
nsAutoCString cleaned;
CleanupHostname(unescaped, cleaned);
nsAutoCString temp;
ParseIPAddress(cleaned, temp);
if (!temp.IsEmpty()) {
cleaned.Assign(temp);
}
ToLowerCase(cleaned);
SpecialEncode(cleaned, false, _retval);
return NS_OK;
}
nsresult
nsUrlClassifierUtils::CanonicalizePath(const nsACString & path,
nsACString & _retval)
{
_retval.Truncate();
nsAutoCString decodedPath(path);
nsAutoCString temp;
while (NS_UnescapeURL(decodedPath.get(), decodedPath.Length(), 0, temp)) {
decodedPath.Assign(temp);
temp.Truncate();
}
SpecialEncode(decodedPath, true, _retval);
// XXX: lowercase the path?
return NS_OK;
}
void
nsUrlClassifierUtils::CleanupHostname(const nsACString & hostname,
nsACString & _retval)
{
_retval.Truncate();
const char* curChar = hostname.BeginReading();
const char* end = hostname.EndReading();
char lastChar = '\0';
while (curChar != end) {
unsigned char c = static_cast<unsigned char>(*curChar);
if (c == '.' && (lastChar == '\0' || lastChar == '.')) {
// skip
} else {
_retval.Append(*curChar);
}
lastChar = c;
++curChar;
}
// cut off trailing dots
while (_retval.Length() > 0 && _retval[_retval.Length() - 1] == '.') {
_retval.SetLength(_retval.Length() - 1);
}
}
void
nsUrlClassifierUtils::ParseIPAddress(const nsACString & host,
nsACString & _retval)
{
_retval.Truncate();
nsACString::const_iterator iter, end;
host.BeginReading(iter);
host.EndReading(end);
if (host.Length() <= 15) {
// The Windows resolver allows a 4-part dotted decimal IP address to
// have a space followed by any old rubbish, so long as the total length
// of the string doesn't get above 15 characters. So, "10.192.95.89 xy"
// is resolved to 10.192.95.89.
// If the string length is greater than 15 characters, e.g.
// "10.192.95.89 xy.wildcard.example.com", it will be resolved through
// DNS.
if (FindCharInReadable(' ', iter, end)) {
end = iter;
}
}
for (host.BeginReading(iter); iter != end; iter++) {
if (!(isxdigit(*iter) || *iter == 'x' || *iter == 'X' || *iter == '.')) {
// not an IP
return;
}
}
host.BeginReading(iter);
nsTArray<nsCString> parts;
ParseString(PromiseFlatCString(Substring(iter, end)), '.', parts);
if (parts.Length() > 4) {
return;
}
// If any potentially-octal numbers (start with 0 but not hex) have
// non-octal digits, no part of the ip can be in octal
// XXX: this came from the old javascript implementation, is it really
// supposed to be like this?
bool allowOctal = true;
uint32_t i;
for (i = 0; i < parts.Length(); i++) {
const nsCString& part = parts[i];
if (part[0] == '0') {
for (uint32_t j = 1; j < part.Length(); j++) {
if (part[j] == 'x') {
break;
}
if (part[j] == '8' || part[j] == '9') {
allowOctal = false;
break;
}
}
}
}
for (i = 0; i < parts.Length(); i++) {
nsAutoCString canonical;
if (i == parts.Length() - 1) {
CanonicalNum(parts[i], 5 - parts.Length(), allowOctal, canonical);
} else {
CanonicalNum(parts[i], 1, allowOctal, canonical);
}
if (canonical.IsEmpty()) {
_retval.Truncate();
return;
}
if (_retval.IsEmpty()) {
_retval.Assign(canonical);
} else {
_retval.Append('.');
_retval.Append(canonical);
}
}
return;
}
void
nsUrlClassifierUtils::CanonicalNum(const nsACString& num,
uint32_t bytes,
bool allowOctal,
nsACString& _retval)
{
_retval.Truncate();
if (num.Length() < 1) {
return;
}
uint32_t val;
if (allowOctal && IsOctal(num)) {
if (PR_sscanf(PromiseFlatCString(num).get(), "%o", &val) != 1) {
return;
}
} else if (IsDecimal(num)) {
if (PR_sscanf(PromiseFlatCString(num).get(), "%u", &val) != 1) {
return;
}
} else if (IsHex(num)) {
if (PR_sscanf(PromiseFlatCString(num).get(), num[1] == 'X' ? "0X%x" : "0x%x",
&val) != 1) {
return;
}
} else {
return;
}
while (bytes--) {
char buf[20];
SprintfLiteral(buf, "%u", val & 0xff);
if (_retval.IsEmpty()) {
_retval.Assign(buf);
} else {
_retval = nsDependentCString(buf) + NS_LITERAL_CSTRING(".") + _retval;
}
val >>= 8;
}
}
// This function will encode all "special" characters in typical url
// encoding, that is %hh where h is a valid hex digit. It will also fold
// any duplicated slashes.
bool
nsUrlClassifierUtils::SpecialEncode(const nsACString & url,
bool foldSlashes,
nsACString & _retval)
{
bool changed = false;
const char* curChar = url.BeginReading();
const char* end = url.EndReading();
unsigned char lastChar = '\0';
while (curChar != end) {
unsigned char c = static_cast<unsigned char>(*curChar);
if (ShouldURLEscape(c)) {
_retval.Append('%');
_retval.Append(int_to_hex_digit(c / 16));
_retval.Append(int_to_hex_digit(c % 16));
changed = true;
} else if (foldSlashes && (c == '/' && lastChar == '/')) {
// skip
} else {
_retval.Append(*curChar);
}
lastChar = c;
curChar++;
}
return changed;
}
bool
nsUrlClassifierUtils::ShouldURLEscape(const unsigned char c) const
{
return c <= 32 || c == '%' || c >=127;
}
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