/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=4 sw=2 sts=2 et cindent: */ /* 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 "ipc/IPCMessageUtils.h" #include "nsASCIIMask.h" #include "nsStandardURL.h" #include "nsCRT.h" #include "nsEscape.h" #include "nsIFile.h" #include "nsIObjectInputStream.h" #include "nsIObjectOutputStream.h" #include "nsIIDNService.h" #include "mozilla/Logging.h" #include "nsIURLParser.h" #include "nsNetCID.h" #include "mozilla/MemoryReporting.h" #include "mozilla/ipc/URIUtils.h" #include "mozilla/ScopeExit.h" #include "mozilla/StaticPrefs_network.h" #include "mozilla/TextUtils.h" #include #include "nsContentUtils.h" #include "prprf.h" #include "nsReadableUtils.h" #include "mozilla/net/MozURL_ffi.h" #include "mozilla/TextUtils.h" #include "mozilla/Utf8.h" #include "nsIClassInfoImpl.h" #include // // setenv MOZ_LOG nsStandardURL:5 // static LazyLogModule gStandardURLLog("nsStandardURL"); // The Chromium code defines its own LOG macro which we don't want #undef LOG #define LOG(args) MOZ_LOG(gStandardURLLog, LogLevel::Debug, args) #undef LOG_ENABLED #define LOG_ENABLED() MOZ_LOG_TEST(gStandardURLLog, LogLevel::Debug) using namespace mozilla::ipc; namespace mozilla { namespace net { static NS_DEFINE_CID(kThisImplCID, NS_THIS_STANDARDURL_IMPL_CID); static NS_DEFINE_CID(kStandardURLCID, NS_STANDARDURL_CID); // This will always be initialized and destroyed on the main thread, but // can be safely used on other threads. StaticRefPtr nsStandardURL::gIDN; // This value will only be updated on the main thread once. static Atomic gInitialized{false}; const char nsStandardURL::gHostLimitDigits[] = {'/', '\\', '?', '#', 0}; // Invalid host characters // Note that the array below will be initialized at compile time, // so we do not need to "optimize" TestForInvalidHostCharacters. // constexpr bool TestForInvalidHostCharacters(char c) { // Testing for these: // CONTROL_CHARACTERS " #/:?@[\\]*<>|\""; return (c > 0 && c < 32) || // The control characters are [1, 31] c == 0x7F || // // DEL (delete) c == ' ' || c == '#' || c == '/' || c == ':' || c == '?' || c == '@' || c == '[' || c == '\\' || c == ']' || c == '*' || c == '<' || c == '^' || #if defined(MOZ_THUNDERBIRD) || defined(MOZ_SUITE) // Mailnews %-escapes file paths into URLs. c == '>' || c == '|' || c == '"'; #else c == '>' || c == '|' || c == '"' || c == '%'; #endif } constexpr ASCIIMaskArray sInvalidHostChars = CreateASCIIMask(TestForInvalidHostCharacters); //---------------------------------------------------------------------------- // nsStandardURL::nsSegmentEncoder //---------------------------------------------------------------------------- nsStandardURL::nsSegmentEncoder::nsSegmentEncoder(const Encoding* encoding) : mEncoding(encoding) { if (mEncoding == UTF_8_ENCODING) { mEncoding = nullptr; } } int32_t nsStandardURL::nsSegmentEncoder::EncodeSegmentCount( const char* aStr, const URLSegment& aSeg, int16_t aMask, nsCString& aOut, bool& aAppended, uint32_t aExtraLen) { // aExtraLen is characters outside the segment that will be // added when the segment is not empty (like the @ following // a username). if (!aStr || aSeg.mLen <= 0) { // Empty segment, so aExtraLen not added per above. aAppended = false; return 0; } uint32_t origLen = aOut.Length(); Span span = Span(aStr + aSeg.mPos, aSeg.mLen); // first honor the origin charset if appropriate. as an optimization, // only do this if the segment is non-ASCII. Further, if mEncoding is // null, then the origin charset is UTF-8 and there is nothing to do. if (mEncoding) { size_t upTo; if (MOZ_UNLIKELY(mEncoding == ISO_2022_JP_ENCODING)) { upTo = Encoding::ISO2022JPASCIIValidUpTo(AsBytes(span)); } else { upTo = Encoding::ASCIIValidUpTo(AsBytes(span)); } if (upTo != span.Length()) { // we have to encode this segment char bufferArr[512]; Span buffer = Span(bufferArr); auto encoder = mEncoding->NewEncoder(); nsAutoCString valid; // has to be declared in this scope if (MOZ_UNLIKELY(!IsUtf8(span.From(upTo)))) { MOZ_ASSERT_UNREACHABLE("Invalid UTF-8 passed to nsStandardURL."); // It's UB to pass invalid UTF-8 to // EncodeFromUTF8WithoutReplacement(), so let's make our input valid // UTF-8 by replacing invalid sequences with the REPLACEMENT // CHARACTER. UTF_8_ENCODING->Decode( nsDependentCSubstring(span.Elements(), span.Length()), valid); // This assigment is OK. `span` can't be used after `valid` has // been destroyed because the only way out of the scope that `valid` // was declared in is via return inside the loop below. Specifically, // the return is the only way out of the loop. span = valid; } size_t totalRead = 0; for (;;) { auto [encoderResult, read, written] = encoder->EncodeFromUTF8WithoutReplacement( AsBytes(span.From(totalRead)), AsWritableBytes(buffer), true); totalRead += read; auto bufferWritten = buffer.To(written); if (!NS_EscapeURLSpan(bufferWritten, aMask, aOut)) { aOut.Append(bufferWritten); } if (encoderResult == kInputEmpty) { aAppended = true; // Difference between original and current output // string lengths plus extra length return aOut.Length() - origLen + aExtraLen; } if (encoderResult == kOutputFull) { continue; } aOut.AppendLiteral("%26%23"); aOut.AppendInt(encoderResult); aOut.AppendLiteral("%3B"); } MOZ_RELEASE_ASSERT( false, "There's supposed to be no way out of the above loop except return."); } } if (NS_EscapeURLSpan(span, aMask, aOut)) { aAppended = true; // Difference between original and current output // string lengths plus extra length return aOut.Length() - origLen + aExtraLen; } aAppended = false; // Original segment length plus extra length return span.Length() + aExtraLen; } const nsACString& nsStandardURL::nsSegmentEncoder::EncodeSegment( const nsACString& str, int16_t mask, nsCString& result) { const char* text; bool encoded; EncodeSegmentCount(str.BeginReading(text), URLSegment(0, str.Length()), mask, result, encoded); if (encoded) { return result; } return str; } //---------------------------------------------------------------------------- // nsStandardURL //---------------------------------------------------------------------------- #ifdef DEBUG_DUMP_URLS_AT_SHUTDOWN static StaticMutex gAllURLsMutex MOZ_UNANNOTATED; static LinkedList gAllURLs; #endif nsStandardURL::nsStandardURL(bool aSupportsFileURL, bool aTrackURL) : mURLType(URLTYPE_STANDARD), mSupportsFileURL(aSupportsFileURL), mCheckedIfHostA(false) { LOG(("Creating nsStandardURL @%p\n", this)); // gInitialized changes value only once (false->true) on the main thread. // It's OK to race here because in the worst case we'll just // dispatch a noop runnable to the main thread. MOZ_ASSERT(gInitialized); // default parser in case nsIStandardURL::Init is never called mParser = net_GetStdURLParser(); #ifdef DEBUG_DUMP_URLS_AT_SHUTDOWN if (aTrackURL) { StaticMutexAutoLock lock(gAllURLsMutex); gAllURLs.insertBack(this); } #endif } bool nsStandardURL::IsValid() { auto checkSegment = [&](const nsStandardURL::URLSegment& aSeg) { #ifdef EARLY_BETA_OR_EARLIER // If the parity is not the same, we assume that this is caused by a memory // error. In this case, we think this URLSegment is valid. if ((aSeg.mPos.Parity() != aSeg.mPos.CalculateParity()) || (aSeg.mLen.Parity() != aSeg.mLen.CalculateParity())) { MOZ_ASSERT(false); return true; } #endif // Bad value if (NS_WARN_IF(aSeg.mLen < -1)) { return false; } if (aSeg.mLen == -1) { return true; } // Points out of string if (NS_WARN_IF(aSeg.mPos + aSeg.mLen > mSpec.Length())) { return false; } // Overflow if (NS_WARN_IF(aSeg.mPos + aSeg.mLen < aSeg.mPos)) { return false; } return true; }; bool allSegmentsValid = checkSegment(mScheme) && checkSegment(mAuthority) && checkSegment(mUsername) && checkSegment(mPassword) && checkSegment(mHost) && checkSegment(mPath) && checkSegment(mFilepath) && checkSegment(mDirectory) && checkSegment(mBasename) && checkSegment(mExtension) && checkSegment(mQuery) && checkSegment(mRef); if (!allSegmentsValid) { return false; } if (mScheme.mPos != 0) { return false; } return true; } void nsStandardURL::SanityCheck() { if (!IsValid()) { nsPrintfCString msg( "mLen:%zX, mScheme (%X,%X), mAuthority (%X,%X), mUsername (%X,%X), " "mPassword (%X,%X), mHost (%X,%X), mPath (%X,%X), mFilepath (%X,%X), " "mDirectory (%X,%X), mBasename (%X,%X), mExtension (%X,%X), mQuery " "(%X,%X), mRef (%X,%X)", mSpec.Length(), (uint32_t)mScheme.mPos, (int32_t)mScheme.mLen, (uint32_t)mAuthority.mPos, (int32_t)mAuthority.mLen, (uint32_t)mUsername.mPos, (int32_t)mUsername.mLen, (uint32_t)mPassword.mPos, (int32_t)mPassword.mLen, (uint32_t)mHost.mPos, (int32_t)mHost.mLen, (uint32_t)mPath.mPos, (int32_t)mPath.mLen, (uint32_t)mFilepath.mPos, (int32_t)mFilepath.mLen, (uint32_t)mDirectory.mPos, (int32_t)mDirectory.mLen, (uint32_t)mBasename.mPos, (int32_t)mBasename.mLen, (uint32_t)mExtension.mPos, (int32_t)mExtension.mLen, (uint32_t)mQuery.mPos, (int32_t)mQuery.mLen, (uint32_t)mRef.mPos, (int32_t)mRef.mLen); CrashReporter::AnnotateCrashReport(CrashReporter::Annotation::URLSegments, msg); MOZ_CRASH("nsStandardURL::SanityCheck failed"); } } nsStandardURL::~nsStandardURL() { LOG(("Destroying nsStandardURL @%p\n", this)); #ifdef DEBUG_DUMP_URLS_AT_SHUTDOWN { StaticMutexAutoLock lock(gAllURLsMutex); if (isInList()) { remove(); } } #endif } #ifdef DEBUG_DUMP_URLS_AT_SHUTDOWN struct DumpLeakedURLs { DumpLeakedURLs() = default; ~DumpLeakedURLs(); }; DumpLeakedURLs::~DumpLeakedURLs() { MOZ_ASSERT(NS_IsMainThread()); StaticMutexAutoLock lock(gAllURLsMutex); if (!gAllURLs.isEmpty()) { printf("Leaked URLs:\n"); for (auto* url : gAllURLs) { url->PrintSpec(); } gAllURLs.clear(); } } #endif void nsStandardURL::InitGlobalObjects() { MOZ_DIAGNOSTIC_ASSERT(NS_IsMainThread()); if (gInitialized) { return; } gInitialized = true; nsCOMPtr serv(do_GetService(NS_IDNSERVICE_CONTRACTID)); if (serv) { gIDN = serv; } MOZ_DIAGNOSTIC_ASSERT(gIDN); // Make sure nsURLHelper::InitGlobals() gets called on the main thread nsCOMPtr parser = net_GetStdURLParser(); MOZ_DIAGNOSTIC_ASSERT(parser); Unused << parser; } void nsStandardURL::ShutdownGlobalObjects() { MOZ_DIAGNOSTIC_ASSERT(NS_IsMainThread()); gIDN = nullptr; #ifdef DEBUG_DUMP_URLS_AT_SHUTDOWN if (gInitialized) { // This instanciates a dummy class, and will trigger the class // destructor when libxul is unloaded. This is equivalent to atexit(), // but gracefully handles dlclose(). StaticMutexAutoLock lock(gAllURLsMutex); static DumpLeakedURLs d; } #endif } //---------------------------------------------------------------------------- // nsStandardURL //---------------------------------------------------------------------------- void nsStandardURL::Clear() { mSpec.Truncate(); mPort = -1; mScheme.Reset(); mAuthority.Reset(); mUsername.Reset(); mPassword.Reset(); mHost.Reset(); mPath.Reset(); mFilepath.Reset(); mDirectory.Reset(); mBasename.Reset(); mExtension.Reset(); mQuery.Reset(); mRef.Reset(); InvalidateCache(); } void nsStandardURL::InvalidateCache(bool invalidateCachedFile) { if (invalidateCachedFile) { mFile = nullptr; } } // Return the number of "dots" in the string, or -1 if invalid. Note that the // number of relevant entries in the bases/starts/ends arrays is number of // dots + 1. // Since the trailing dot is allowed, we pass and adjust "length". // // length is assumed to be <= host.Length(); the callers is responsible for that // // Note that the value returned is guaranteed to be in [-1, 3] range. inline int32_t ValidateIPv4Number(const nsACString& host, int32_t bases[4], int32_t dotIndex[3], bool& onlyBase10, int32_t& length) { MOZ_ASSERT(length <= (int32_t)host.Length()); if (length <= 0) { return -1; } bool lastWasNumber = false; // We count on this being false for i == 0 int32_t dotCount = 0; onlyBase10 = true; for (int32_t i = 0; i < length; i++) { char current = host[i]; if (current == '.') { if (!lastWasNumber) { // A dot should not follow an X or a dot, or be // first return -1; } if (dotCount > 0 && i == (length - 1)) { // Trailing dot is OK; shorten and return length--; return dotCount; } if (dotCount > 2) { return -1; } lastWasNumber = false; dotIndex[dotCount] = i; dotCount++; } else if (current == 'X' || current == 'x') { if (!lastWasNumber || // An X should not follow an X or a dot or be first i == (length - 1) || // No trailing Xs allowed (dotCount == 0 && i != 1) || // If we had no dots, an X should be second host[i - 1] != '0' || // X should always follow a 0. Guaranteed i > // 0 as lastWasNumber is true (dotCount > 0 && host[i - 2] != '.')) { // And that zero follows a dot if it exists return -1; } lastWasNumber = false; bases[dotCount] = 16; onlyBase10 = false; } else if (current == '0') { if (i < length - 1 && // Trailing zero doesn't signal octal host[i + 1] != '.' && // Lone zero is not octal (i == 0 || host[i - 1] == '.')) { // Zero at start or following a dot // is a candidate for octal bases[dotCount] = 8; // This will turn to 16 above if X shows up onlyBase10 = false; } lastWasNumber = true; } else if (current >= '1' && current <= '7') { lastWasNumber = true; } else if (current >= '8' && current <= '9') { if (bases[dotCount] == 8) { return -1; } lastWasNumber = true; } else if ((current >= 'a' && current <= 'f') || (current >= 'A' && current <= 'F')) { if (bases[dotCount] != 16) { return -1; } lastWasNumber = true; } else { return -1; } } return dotCount; } inline nsresult ParseIPv4Number10(const nsACString& input, uint32_t& number, uint32_t maxNumber) { uint64_t value = 0; const char* current = input.BeginReading(); const char* end = input.EndReading(); for (; current < end; ++current) { char c = *current; MOZ_ASSERT(c >= '0' && c <= '9'); value *= 10; value += c - '0'; } if (value <= maxNumber) { number = value; return NS_OK; } // The error case number = 0; return NS_ERROR_FAILURE; } inline nsresult ParseIPv4Number(const nsACString& input, int32_t base, uint32_t& number, uint32_t maxNumber) { // Accumulate in the 64-bit value uint64_t value = 0; const char* current = input.BeginReading(); const char* end = input.EndReading(); switch (base) { case 16: ++current; [[fallthrough]]; case 8: ++current; break; case 10: default: break; } for (; current < end; ++current) { value *= base; char c = *current; MOZ_ASSERT((base == 10 && IsAsciiDigit(c)) || (base == 8 && c >= '0' && c <= '7') || (base == 16 && IsAsciiHexDigit(c))); if (IsAsciiDigit(c)) { value += c - '0'; } else if (c >= 'a' && c <= 'f') { value += c - 'a' + 10; } else if (c >= 'A' && c <= 'F') { value += c - 'A' + 10; } } if (value <= maxNumber) { number = value; return NS_OK; } // The error case number = 0; return NS_ERROR_FAILURE; } // IPv4 parser spec: https://url.spec.whatwg.org/#concept-ipv4-parser /* static */ nsresult nsStandardURL::NormalizeIPv4(const nsACString& host, nsCString& result) { int32_t bases[4] = {10, 10, 10, 10}; bool onlyBase10 = true; // Track this as a special case int32_t dotIndex[3]; // The positions of the dots in the string // The length may be adjusted by ValidateIPv4Number (ignoring the trailing // period) so use "length", rather than host.Length() after that call. int32_t length = static_cast(host.Length()); int32_t dotCount = ValidateIPv4Number(host, bases, dotIndex, onlyBase10, length); if (dotCount < 0 || length <= 0) { return NS_ERROR_FAILURE; } // Max values specified by the spec static const uint32_t upperBounds[] = {0xffffffffu, 0xffffffu, 0xffffu, 0xffu}; uint32_t ipv4; int32_t start = (dotCount > 0 ? dotIndex[dotCount - 1] + 1 : 0); nsresult res; // Doing a special case for all items being base 10 gives ~35% speedup res = (onlyBase10 ? ParseIPv4Number10(Substring(host, start, length - start), ipv4, upperBounds[dotCount]) : ParseIPv4Number(Substring(host, start, length - start), bases[dotCount], ipv4, upperBounds[dotCount])); if (NS_FAILED(res)) { return NS_ERROR_FAILURE; } int32_t lastUsed = -1; for (int32_t i = 0; i < dotCount; i++) { uint32_t number; start = lastUsed + 1; lastUsed = dotIndex[i]; res = (onlyBase10 ? ParseIPv4Number10( Substring(host, start, lastUsed - start), number, 255) : ParseIPv4Number(Substring(host, start, lastUsed - start), bases[i], number, 255)); if (NS_FAILED(res)) { return NS_ERROR_FAILURE; } ipv4 += number << (8 * (3 - i)); } // A special case for ipv4 URL like "127." should have the same result as // "127". if (dotCount == 1 && dotIndex[0] == length - 1) { ipv4 = (ipv4 & 0xff000000) >> 24; } uint8_t ipSegments[4]; NetworkEndian::writeUint32(ipSegments, ipv4); result = nsPrintfCString("%d.%d.%d.%d", ipSegments[0], ipSegments[1], ipSegments[2], ipSegments[3]); return NS_OK; } nsresult nsStandardURL::NormalizeIDN(const nsCString& host, nsCString& result) { result.Truncate(); mDisplayHost.Truncate(); nsresult rv; if (!gIDN) { return NS_ERROR_UNEXPECTED; } // Even if it's already ACE, we must still call ConvertUTF8toACE in order // for the input normalization to take place. rv = gIDN->ConvertUTF8toACE(host, result); if (NS_FAILED(rv)) { return rv; } // If the ASCII representation doesn't contain the xn-- token then we don't // need to call ConvertToDisplayIDN as that would not change anything. if (!StringBeginsWith(result, "xn--"_ns) && result.Find(".xn--"_ns) == kNotFound) { mCheckedIfHostA = true; return NS_OK; } bool isAscii = true; nsAutoCString displayHost; rv = gIDN->ConvertToDisplayIDN(result, &isAscii, displayHost); if (NS_FAILED(rv)) { return rv; } mCheckedIfHostA = true; if (!isAscii) { mDisplayHost = displayHost; } return NS_OK; } bool nsStandardURL::ValidIPv6orHostname(const char* host, uint32_t length) { if (!host || !*host) { // Should not be NULL or empty string return false; } if (length != strlen(host)) { // Embedded null return false; } bool openBracket = host[0] == '['; bool closeBracket = host[length - 1] == ']'; if (openBracket && closeBracket) { return net_IsValidIPv6Addr(Substring(host + 1, length - 2)); } if (openBracket || closeBracket) { // Fail if only one of the brackets is present return false; } const char* end = host + length; const char* iter = host; for (; iter != end && *iter; ++iter) { if (ASCIIMask::IsMasked(sInvalidHostChars, *iter)) { return false; } } return true; } void nsStandardURL::CoalescePath(netCoalesceFlags coalesceFlag, char* path) { net_CoalesceDirs(coalesceFlag, path); int32_t newLen = strlen(path); if (newLen < mPath.mLen) { int32_t diff = newLen - mPath.mLen; mPath.mLen = newLen; mDirectory.mLen += diff; mFilepath.mLen += diff; ShiftFromBasename(diff); } } uint32_t nsStandardURL::AppendSegmentToBuf(char* buf, uint32_t i, const char* str, const URLSegment& segInput, URLSegment& segOutput, const nsCString* escapedStr, bool useEscaped, int32_t* diff) { MOZ_ASSERT(segInput.mLen == segOutput.mLen); if (diff) { *diff = 0; } if (segInput.mLen > 0) { if (useEscaped) { MOZ_ASSERT(diff); segOutput.mLen = escapedStr->Length(); *diff = segOutput.mLen - segInput.mLen; memcpy(buf + i, escapedStr->get(), segOutput.mLen); } else { memcpy(buf + i, str + segInput.mPos, segInput.mLen); } segOutput.mPos = i; i += segOutput.mLen; } else { segOutput.mPos = i; } return i; } uint32_t nsStandardURL::AppendToBuf(char* buf, uint32_t i, const char* str, uint32_t len) { memcpy(buf + i, str, len); return i + len; } // basic algorithm: // 1- escape url segments (for improved GetSpec efficiency) // 2- allocate spec buffer // 3- write url segments // 4- update url segment positions and lengths nsresult nsStandardURL::BuildNormalizedSpec(const char* spec, const Encoding* encoding) { // Assumptions: all member URLSegments must be relative the |spec| argument // passed to this function. // buffers for holding escaped url segments (these will remain empty unless // escaping is required). nsAutoCString encUsername, encPassword, encHost, encDirectory, encBasename, encExtension, encQuery, encRef; bool useEncUsername, useEncPassword, useEncHost = false, useEncDirectory, useEncBasename, useEncExtension, useEncQuery, useEncRef; nsAutoCString portbuf; // // escape each URL segment, if necessary, and calculate approximate normalized // spec length. // // [scheme://][username[:password]@]host[:port]/path[?query_string][#ref] uint32_t approxLen = 0; // the scheme is already ASCII if (mScheme.mLen > 0) { approxLen += mScheme.mLen + 3; // includes room for "://", which we insert always } // encode URL segments; convert UTF-8 to origin charset and possibly escape. // results written to encXXX variables only if |spec| is not already in the // appropriate encoding. { nsSegmentEncoder encoder; nsSegmentEncoder queryEncoder(encoding); // Username@ approxLen += encoder.EncodeSegmentCount(spec, mUsername, esc_Username, encUsername, useEncUsername, 0); approxLen += 1; // reserve length for @ // :password - we insert the ':' even if there's no actual password if // "user:@" was in the spec if (mPassword.mLen > 0) { approxLen += 1 + encoder.EncodeSegmentCount(spec, mPassword, esc_Password, encPassword, useEncPassword); } // mHost is handled differently below due to encoding differences MOZ_ASSERT(mPort >= -1, "Invalid negative mPort"); if (mPort != -1 && mPort != mDefaultPort) { // :port portbuf.AppendInt(mPort); approxLen += portbuf.Length() + 1; } approxLen += 1; // reserve space for possible leading '/' - may not be needed // Should just use mPath? These are pessimistic, and thus waste space approxLen += encoder.EncodeSegmentCount(spec, mDirectory, esc_Directory, encDirectory, useEncDirectory, 1); approxLen += encoder.EncodeSegmentCount(spec, mBasename, esc_FileBaseName, encBasename, useEncBasename); approxLen += encoder.EncodeSegmentCount(spec, mExtension, esc_FileExtension, encExtension, useEncExtension, 1); // These next ones *always* add their leading character even if length is 0 // Handles items like "http://#" // ?query if (mQuery.mLen >= 0) { approxLen += 1 + queryEncoder.EncodeSegmentCount(spec, mQuery, esc_Query, encQuery, useEncQuery); } // #ref if (mRef.mLen >= 0) { approxLen += 1 + encoder.EncodeSegmentCount(spec, mRef, esc_Ref, encRef, useEncRef); } } // do not escape the hostname, if IPv6 address literal, mHost will // already point to a [ ] delimited IPv6 address literal. // However, perform Unicode normalization on it, as IDN does. // Note that we don't disallow URLs without a host - file:, etc if (mHost.mLen > 0) { nsAutoCString tempHost; NS_UnescapeURL(spec + mHost.mPos, mHost.mLen, esc_AlwaysCopy | esc_Host, tempHost); if (tempHost.Contains('\0')) { return NS_ERROR_MALFORMED_URI; // null embedded in hostname } if (tempHost.Contains(' ')) { return NS_ERROR_MALFORMED_URI; // don't allow spaces in the hostname } nsresult rv = NormalizeIDN(tempHost, encHost); if (NS_FAILED(rv)) { return rv; } if (!SegmentIs(spec, mScheme, "resource") && !SegmentIs(spec, mScheme, "chrome")) { nsAutoCString ipString; if (encHost.Length() > 0 && encHost.First() == '[' && encHost.Last() == ']' && ValidIPv6orHostname(encHost.get(), encHost.Length())) { rv = (nsresult)rusturl_parse_ipv6addr(&encHost, &ipString); if (NS_FAILED(rv)) { return rv; } encHost = ipString; } else if (NS_SUCCEEDED(NormalizeIPv4(encHost, ipString))) { encHost = ipString; } } // NormalizeIDN always copies, if the call was successful. useEncHost = true; approxLen += encHost.Length(); if (!ValidIPv6orHostname(encHost.BeginReading(), encHost.Length())) { return NS_ERROR_MALFORMED_URI; } } else { // empty host means empty mDisplayHost mDisplayHost.Truncate(); mCheckedIfHostA = true; } // We must take a copy of every single segment because they are pointing to // the |spec| while we are changing their value, in case we must use // encoded strings. URLSegment username(mUsername); URLSegment password(mPassword); URLSegment host(mHost); URLSegment path(mPath); URLSegment directory(mDirectory); URLSegment basename(mBasename); URLSegment extension(mExtension); URLSegment query(mQuery); URLSegment ref(mRef); // The encoded string could be longer than the original input, so we need // to check the final URI isn't longer than the max length. if (approxLen + 1 > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } // // generate the normalized URL string // // approxLen should be correct or 1 high if (!mSpec.SetLength(approxLen + 1, fallible)) { // buf needs a trailing '\0' below return NS_ERROR_OUT_OF_MEMORY; } char* buf = mSpec.BeginWriting(); uint32_t i = 0; int32_t diff = 0; if (mScheme.mLen > 0) { i = AppendSegmentToBuf(buf, i, spec, mScheme, mScheme); net_ToLowerCase(buf + mScheme.mPos, mScheme.mLen); i = AppendToBuf(buf, i, "://", 3); } // record authority starting position mAuthority.mPos = i; // append authority if (mUsername.mLen > 0 || mPassword.mLen > 0) { if (mUsername.mLen > 0) { i = AppendSegmentToBuf(buf, i, spec, username, mUsername, &encUsername, useEncUsername, &diff); ShiftFromPassword(diff); } else { mUsername.mLen = -1; } if (password.mLen > 0) { buf[i++] = ':'; i = AppendSegmentToBuf(buf, i, spec, password, mPassword, &encPassword, useEncPassword, &diff); ShiftFromHost(diff); } else { mPassword.mLen = -1; } buf[i++] = '@'; } else { mUsername.mLen = -1; mPassword.mLen = -1; } if (host.mLen > 0) { i = AppendSegmentToBuf(buf, i, spec, host, mHost, &encHost, useEncHost, &diff); ShiftFromPath(diff); net_ToLowerCase(buf + mHost.mPos, mHost.mLen); MOZ_ASSERT(mPort >= -1, "Invalid negative mPort"); if (mPort != -1 && mPort != mDefaultPort) { buf[i++] = ':'; // Already formatted while building approxLen i = AppendToBuf(buf, i, portbuf.get(), portbuf.Length()); } } // record authority length mAuthority.mLen = i - mAuthority.mPos; // path must always start with a "/" if (mPath.mLen <= 0) { LOG(("setting path=/")); mDirectory.mPos = mFilepath.mPos = mPath.mPos = i; mDirectory.mLen = mFilepath.mLen = mPath.mLen = 1; // basename must exist, even if empty (bug 113508) mBasename.mPos = i + 1; mBasename.mLen = 0; buf[i++] = '/'; } else { uint32_t leadingSlash = 0; if (spec[path.mPos] != '/') { LOG(("adding leading slash to path\n")); leadingSlash = 1; buf[i++] = '/'; // basename must exist, even if empty (bugs 113508, 429347) if (mBasename.mLen == -1) { mBasename.mPos = basename.mPos = i; mBasename.mLen = basename.mLen = 0; } } // record corrected (file)path starting position mPath.mPos = mFilepath.mPos = i - leadingSlash; i = AppendSegmentToBuf(buf, i, spec, directory, mDirectory, &encDirectory, useEncDirectory, &diff); ShiftFromBasename(diff); // the directory must end with a '/' if (buf[i - 1] != '/') { buf[i++] = '/'; mDirectory.mLen++; } i = AppendSegmentToBuf(buf, i, spec, basename, mBasename, &encBasename, useEncBasename, &diff); ShiftFromExtension(diff); // make corrections to directory segment if leadingSlash if (leadingSlash) { mDirectory.mPos = mPath.mPos; if (mDirectory.mLen >= 0) { mDirectory.mLen += leadingSlash; } else { mDirectory.mLen = 1; } } if (mExtension.mLen >= 0) { buf[i++] = '.'; i = AppendSegmentToBuf(buf, i, spec, extension, mExtension, &encExtension, useEncExtension, &diff); ShiftFromQuery(diff); } // calculate corrected filepath length mFilepath.mLen = i - mFilepath.mPos; if (mQuery.mLen >= 0) { buf[i++] = '?'; i = AppendSegmentToBuf(buf, i, spec, query, mQuery, &encQuery, useEncQuery, &diff); ShiftFromRef(diff); } if (mRef.mLen >= 0) { buf[i++] = '#'; i = AppendSegmentToBuf(buf, i, spec, ref, mRef, &encRef, useEncRef, &diff); } // calculate corrected path length mPath.mLen = i - mPath.mPos; } buf[i] = '\0'; // https://url.spec.whatwg.org/#path-state (1.4.1.2) // https://url.spec.whatwg.org/#windows-drive-letter if (SegmentIs(buf, mScheme, "file")) { char* path = &buf[mPath.mPos]; if (mPath.mLen >= 3 && path[0] == '/' && IsAsciiAlpha(path[1]) && path[2] == '|') { buf[mPath.mPos + 2] = ':'; } } if (mDirectory.mLen > 1) { netCoalesceFlags coalesceFlag = NET_COALESCE_NORMAL; if (SegmentIs(buf, mScheme, "ftp")) { coalesceFlag = (netCoalesceFlags)(coalesceFlag | NET_COALESCE_ALLOW_RELATIVE_ROOT | NET_COALESCE_DOUBLE_SLASH_IS_ROOT); } CoalescePath(coalesceFlag, buf + mDirectory.mPos); } mSpec.Truncate(strlen(buf)); NS_ASSERTION(mSpec.Length() <= approxLen, "We've overflowed the mSpec buffer!"); MOZ_ASSERT(mSpec.Length() <= StaticPrefs::network_standard_url_max_length(), "The spec should never be this long, we missed a check."); MOZ_ASSERT(mUsername.mLen != 0 && mPassword.mLen != 0); return NS_OK; } bool nsStandardURL::SegmentIs(const URLSegment& seg, const char* val, bool ignoreCase) { // one or both may be null if (!val || mSpec.IsEmpty()) { return (!val && (mSpec.IsEmpty() || seg.mLen < 0)); } if (seg.mLen < 0) { return false; } // if the first |seg.mLen| chars of |val| match, then |val| must // also be null terminated at |seg.mLen|. if (ignoreCase) { return !nsCRT::strncasecmp(mSpec.get() + seg.mPos, val, seg.mLen) && (val[seg.mLen] == '\0'); } return !strncmp(mSpec.get() + seg.mPos, val, seg.mLen) && (val[seg.mLen] == '\0'); } bool nsStandardURL::SegmentIs(const char* spec, const URLSegment& seg, const char* val, bool ignoreCase) { // one or both may be null if (!val || !spec) { return (!val && (!spec || seg.mLen < 0)); } if (seg.mLen < 0) { return false; } // if the first |seg.mLen| chars of |val| match, then |val| must // also be null terminated at |seg.mLen|. if (ignoreCase) { return !nsCRT::strncasecmp(spec + seg.mPos, val, seg.mLen) && (val[seg.mLen] == '\0'); } return !strncmp(spec + seg.mPos, val, seg.mLen) && (val[seg.mLen] == '\0'); } bool nsStandardURL::SegmentIs(const URLSegment& seg1, const char* val, const URLSegment& seg2, bool ignoreCase) { if (seg1.mLen != seg2.mLen) { return false; } if (seg1.mLen == -1 || (!val && mSpec.IsEmpty())) { return true; // both are empty } if (!val) { return false; } if (ignoreCase) { return !nsCRT::strncasecmp(mSpec.get() + seg1.mPos, val + seg2.mPos, seg1.mLen); } return !strncmp(mSpec.get() + seg1.mPos, val + seg2.mPos, seg1.mLen); } int32_t nsStandardURL::ReplaceSegment(uint32_t pos, uint32_t len, const char* val, uint32_t valLen) { if (val && valLen) { if (len == 0) { mSpec.Insert(val, pos, valLen); } else { mSpec.Replace(pos, len, nsDependentCString(val, valLen)); } return valLen - len; } // else remove the specified segment mSpec.Cut(pos, len); return -int32_t(len); } int32_t nsStandardURL::ReplaceSegment(uint32_t pos, uint32_t len, const nsACString& val) { if (len == 0) { mSpec.Insert(val, pos); } else { mSpec.Replace(pos, len, val); } return val.Length() - len; } nsresult nsStandardURL::ParseURL(const char* spec, int32_t specLen) { nsresult rv; if (specLen > (int32_t)StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } // // parse given URL string // uint32_t schemePos = mScheme.mPos; int32_t schemeLen = mScheme.mLen; uint32_t authorityPos = mAuthority.mPos; int32_t authorityLen = mAuthority.mLen; uint32_t pathPos = mPath.mPos; int32_t pathLen = mPath.mLen; rv = mParser->ParseURL(spec, specLen, &schemePos, &schemeLen, &authorityPos, &authorityLen, &pathPos, &pathLen); if (NS_FAILED(rv)) { return rv; } mScheme.mPos = schemePos; mScheme.mLen = schemeLen; mAuthority.mPos = authorityPos; mAuthority.mLen = authorityLen; mPath.mPos = pathPos; mPath.mLen = pathLen; #ifdef DEBUG if (mScheme.mLen <= 0) { printf("spec=%s\n", spec); NS_WARNING("malformed url: no scheme"); } #endif if (mAuthority.mLen > 0) { uint32_t usernamePos = mUsername.mPos; int32_t usernameLen = mUsername.mLen; uint32_t passwordPos = mPassword.mPos; int32_t passwordLen = mPassword.mLen; uint32_t hostPos = mHost.mPos; int32_t hostLen = mHost.mLen; rv = mParser->ParseAuthority(spec + mAuthority.mPos, mAuthority.mLen, &usernamePos, &usernameLen, &passwordPos, &passwordLen, &hostPos, &hostLen, &mPort); if (NS_FAILED(rv)) { return rv; } mUsername.mPos = usernamePos; mUsername.mLen = usernameLen; mPassword.mPos = passwordPos; mPassword.mLen = passwordLen; mHost.mPos = hostPos; mHost.mLen = hostLen; // Don't allow mPort to be set to this URI's default port if (mPort == mDefaultPort) { mPort = -1; } mUsername.mPos += mAuthority.mPos; mPassword.mPos += mAuthority.mPos; mHost.mPos += mAuthority.mPos; } if (mPath.mLen > 0) { rv = ParsePath(spec, mPath.mPos, mPath.mLen); } return rv; } nsresult nsStandardURL::ParsePath(const char* spec, uint32_t pathPos, int32_t pathLen) { LOG(("ParsePath: %s pathpos %d len %d\n", spec, pathPos, pathLen)); if (pathLen > (int32_t)StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } uint32_t filePathPos = mFilepath.mPos; int32_t filePathLen = mFilepath.mLen; uint32_t queryPos = mQuery.mPos; int32_t queryLen = mQuery.mLen; uint32_t refPos = mRef.mPos; int32_t refLen = mRef.mLen; nsresult rv = mParser->ParsePath(spec + pathPos, pathLen, &filePathPos, &filePathLen, &queryPos, &queryLen, &refPos, &refLen); if (NS_FAILED(rv)) { return rv; } mFilepath.mPos = filePathPos; mFilepath.mLen = filePathLen; mQuery.mPos = queryPos; mQuery.mLen = queryLen; mRef.mPos = refPos; mRef.mLen = refLen; mFilepath.mPos += pathPos; mQuery.mPos += pathPos; mRef.mPos += pathPos; if (mFilepath.mLen > 0) { uint32_t directoryPos = mDirectory.mPos; int32_t directoryLen = mDirectory.mLen; uint32_t basenamePos = mBasename.mPos; int32_t basenameLen = mBasename.mLen; uint32_t extensionPos = mExtension.mPos; int32_t extensionLen = mExtension.mLen; rv = mParser->ParseFilePath(spec + mFilepath.mPos, mFilepath.mLen, &directoryPos, &directoryLen, &basenamePos, &basenameLen, &extensionPos, &extensionLen); if (NS_FAILED(rv)) { return rv; } mDirectory.mPos = directoryPos; mDirectory.mLen = directoryLen; mBasename.mPos = basenamePos; mBasename.mLen = basenameLen; mExtension.mPos = extensionPos; mExtension.mLen = extensionLen; mDirectory.mPos += mFilepath.mPos; mBasename.mPos += mFilepath.mPos; mExtension.mPos += mFilepath.mPos; } return NS_OK; } char* nsStandardURL::AppendToSubstring(uint32_t pos, int32_t len, const char* tail) { // Verify pos and length are within boundaries if (pos > mSpec.Length()) { return nullptr; } if (len < 0) { return nullptr; } if ((uint32_t)len > (mSpec.Length() - pos)) { return nullptr; } if (!tail) { return nullptr; } uint32_t tailLen = strlen(tail); // Check for int overflow for proposed length of combined string if (UINT32_MAX - ((uint32_t)len + 1) < tailLen) { return nullptr; } char* result = (char*)moz_xmalloc(len + tailLen + 1); memcpy(result, mSpec.get() + pos, len); memcpy(result + len, tail, tailLen); result[len + tailLen] = '\0'; return result; } nsresult nsStandardURL::ReadSegment(nsIBinaryInputStream* stream, URLSegment& seg) { nsresult rv; uint32_t pos = seg.mPos; rv = stream->Read32(&pos); if (NS_FAILED(rv)) { return rv; } seg.mPos = pos; uint32_t len = seg.mLen; rv = stream->Read32(&len); if (NS_FAILED(rv)) { return rv; } CheckedInt checkedLen(len); if (!checkedLen.isValid()) { seg.mLen = -1; } else { seg.mLen = len; } return NS_OK; } nsresult nsStandardURL::WriteSegment(nsIBinaryOutputStream* stream, const URLSegment& seg) { nsresult rv; rv = stream->Write32(seg.mPos); if (NS_FAILED(rv)) { return rv; } rv = stream->Write32(uint32_t(seg.mLen)); if (NS_FAILED(rv)) { return rv; } return NS_OK; } #define SHIFT_FROM(name, what) \ void nsStandardURL::name(int32_t diff) { \ if (!diff) return; \ if ((what).mLen >= 0) { \ CheckedInt pos = (uint32_t)(what).mPos; \ pos += diff; \ MOZ_ASSERT(pos.isValid()); \ (what).mPos = pos.value(); \ } else { \ MOZ_RELEASE_ASSERT((what).mLen == -1); \ } #define SHIFT_FROM_NEXT(name, what, next) \ SHIFT_FROM(name, what) \ next(diff); \ } #define SHIFT_FROM_LAST(name, what) \ SHIFT_FROM(name, what) \ } SHIFT_FROM_NEXT(ShiftFromAuthority, mAuthority, ShiftFromUsername) SHIFT_FROM_NEXT(ShiftFromUsername, mUsername, ShiftFromPassword) SHIFT_FROM_NEXT(ShiftFromPassword, mPassword, ShiftFromHost) SHIFT_FROM_NEXT(ShiftFromHost, mHost, ShiftFromPath) SHIFT_FROM_NEXT(ShiftFromPath, mPath, ShiftFromFilepath) SHIFT_FROM_NEXT(ShiftFromFilepath, mFilepath, ShiftFromDirectory) SHIFT_FROM_NEXT(ShiftFromDirectory, mDirectory, ShiftFromBasename) SHIFT_FROM_NEXT(ShiftFromBasename, mBasename, ShiftFromExtension) SHIFT_FROM_NEXT(ShiftFromExtension, mExtension, ShiftFromQuery) SHIFT_FROM_NEXT(ShiftFromQuery, mQuery, ShiftFromRef) SHIFT_FROM_LAST(ShiftFromRef, mRef) //---------------------------------------------------------------------------- // nsStandardURL::nsIClassInfo //---------------------------------------------------------------------------- NS_IMPL_CLASSINFO(nsStandardURL, nullptr, nsIClassInfo::THREADSAFE, NS_STANDARDURL_CID) // Empty CI getter. We only need nsIClassInfo for Serialization NS_IMPL_CI_INTERFACE_GETTER0(nsStandardURL) //---------------------------------------------------------------------------- // nsStandardURL::nsISupports //---------------------------------------------------------------------------- NS_IMPL_ADDREF(nsStandardURL) NS_IMPL_RELEASE(nsStandardURL) NS_INTERFACE_MAP_BEGIN(nsStandardURL) NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIStandardURL) NS_INTERFACE_MAP_ENTRY(nsIURI) NS_INTERFACE_MAP_ENTRY(nsIURL) NS_INTERFACE_MAP_ENTRY_CONDITIONAL(nsIFileURL, mSupportsFileURL) NS_INTERFACE_MAP_ENTRY(nsIStandardURL) NS_INTERFACE_MAP_ENTRY(nsISerializable) NS_IMPL_QUERY_CLASSINFO(nsStandardURL) NS_INTERFACE_MAP_ENTRY(nsISensitiveInfoHiddenURI) // see nsStandardURL::Equals if (aIID.Equals(kThisImplCID)) { foundInterface = static_cast(this); } else NS_INTERFACE_MAP_ENTRY(nsISizeOf) NS_INTERFACE_MAP_END //---------------------------------------------------------------------------- // nsStandardURL::nsIURI //---------------------------------------------------------------------------- // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetSpec(nsACString& result) { MOZ_ASSERT(mSpec.Length() <= StaticPrefs::network_standard_url_max_length(), "The spec should never be this long, we missed a check."); result = mSpec; return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetSensitiveInfoHiddenSpec(nsACString& result) { nsresult rv = GetSpec(result); if (NS_FAILED(rv)) { return rv; } if (mPassword.mLen > 0) { result.ReplaceLiteral(mPassword.mPos, mPassword.mLen, "****"); } return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetSpecIgnoringRef(nsACString& result) { // URI without ref is 0 to one char before ref if (mRef.mLen < 0) { return GetSpec(result); } URLSegment noRef(0, mRef.mPos - 1); result = Segment(noRef); MOZ_ASSERT(mCheckedIfHostA); return NS_OK; } nsresult nsStandardURL::CheckIfHostIsAscii() { nsresult rv; if (mCheckedIfHostA) { return NS_OK; } mCheckedIfHostA = true; if (!gIDN) { return NS_ERROR_NOT_INITIALIZED; } nsAutoCString displayHost; bool isAscii; rv = gIDN->ConvertToDisplayIDN(Host(), &isAscii, displayHost); if (NS_FAILED(rv)) { mDisplayHost.Truncate(); mCheckedIfHostA = false; return rv; } if (!isAscii) { mDisplayHost = displayHost; } return NS_OK; } NS_IMETHODIMP nsStandardURL::GetDisplaySpec(nsACString& aUnicodeSpec) { aUnicodeSpec.Assign(mSpec); MOZ_ASSERT(mCheckedIfHostA); if (!mDisplayHost.IsEmpty()) { aUnicodeSpec.Replace(mHost.mPos, mHost.mLen, mDisplayHost); } return NS_OK; } NS_IMETHODIMP nsStandardURL::GetDisplayHostPort(nsACString& aUnicodeHostPort) { nsAutoCString unicodeHostPort; nsresult rv = GetDisplayHost(unicodeHostPort); if (NS_FAILED(rv)) { return rv; } if (StringBeginsWith(Hostport(), "["_ns)) { aUnicodeHostPort.AssignLiteral("["); aUnicodeHostPort.Append(unicodeHostPort); aUnicodeHostPort.AppendLiteral("]"); } else { aUnicodeHostPort.Assign(unicodeHostPort); } uint32_t pos = mHost.mPos + mHost.mLen; if (pos < mPath.mPos) { aUnicodeHostPort += Substring(mSpec, pos, mPath.mPos - pos); } return NS_OK; } NS_IMETHODIMP nsStandardURL::GetDisplayHost(nsACString& aUnicodeHost) { MOZ_ASSERT(mCheckedIfHostA); if (mDisplayHost.IsEmpty()) { return GetAsciiHost(aUnicodeHost); } aUnicodeHost = mDisplayHost; return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetPrePath(nsACString& result) { result = Prepath(); MOZ_ASSERT(mCheckedIfHostA); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetDisplayPrePath(nsACString& result) { result = Prepath(); MOZ_ASSERT(mCheckedIfHostA); if (!mDisplayHost.IsEmpty()) { result.Replace(mHost.mPos, mHost.mLen, mDisplayHost); } return NS_OK; } // result is strictly US-ASCII NS_IMETHODIMP nsStandardURL::GetScheme(nsACString& result) { result = Scheme(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetUserPass(nsACString& result) { result = Userpass(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetUsername(nsACString& result) { result = Username(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetPassword(nsACString& result) { result = Password(); return NS_OK; } NS_IMETHODIMP nsStandardURL::GetHostPort(nsACString& result) { return GetAsciiHostPort(result); } NS_IMETHODIMP nsStandardURL::GetHost(nsACString& result) { return GetAsciiHost(result); } NS_IMETHODIMP nsStandardURL::GetPort(int32_t* result) { // should never be more than 16 bit MOZ_ASSERT(mPort <= std::numeric_limits::max()); *result = mPort; return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetPathQueryRef(nsACString& result) { result = Path(); return NS_OK; } // result is ASCII NS_IMETHODIMP nsStandardURL::GetAsciiSpec(nsACString& result) { result = mSpec; return NS_OK; } // result is ASCII NS_IMETHODIMP nsStandardURL::GetAsciiHostPort(nsACString& result) { result = Hostport(); return NS_OK; } // result is ASCII NS_IMETHODIMP nsStandardURL::GetAsciiHost(nsACString& result) { result = Host(); return NS_OK; } static bool IsSpecialProtocol(const nsACString& input) { nsACString::const_iterator start, end; input.BeginReading(start); nsACString::const_iterator iterator(start); input.EndReading(end); while (iterator != end && *iterator != ':') { iterator++; } nsAutoCString protocol(nsDependentCSubstring(start.get(), iterator.get())); return protocol.LowerCaseEqualsLiteral("http") || protocol.LowerCaseEqualsLiteral("https") || protocol.LowerCaseEqualsLiteral("ftp") || protocol.LowerCaseEqualsLiteral("ws") || protocol.LowerCaseEqualsLiteral("wss") || protocol.LowerCaseEqualsLiteral("file") || protocol.LowerCaseEqualsLiteral("gopher"); } nsresult nsStandardURL::SetSpecInternal(const nsACString& input) { return SetSpecWithEncoding(input, nullptr); } nsresult nsStandardURL::SetSpecWithEncoding(const nsACString& input, const Encoding* encoding) { const nsPromiseFlatCString& flat = PromiseFlatCString(input); LOG(("nsStandardURL::SetSpec [spec=%s]\n", flat.get())); if (input.Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } // filter out unexpected chars "\r\n\t" if necessary nsAutoCString filteredURI; net_FilterURIString(flat, filteredURI); if (filteredURI.Length() == 0) { return NS_ERROR_MALFORMED_URI; } // Make a backup of the current URL nsStandardURL prevURL(false, false); prevURL.CopyMembers(this, eHonorRef, ""_ns); Clear(); if (IsSpecialProtocol(filteredURI)) { // Bug 652186: Replace all backslashes with slashes when parsing paths // Stop when we reach the query or the hash. auto* start = filteredURI.BeginWriting(); auto* end = filteredURI.EndWriting(); while (start != end) { if (*start == '?' || *start == '#') { break; } if (*start == '\\') { *start = '/'; } start++; } } const char* spec = filteredURI.get(); int32_t specLength = filteredURI.Length(); // parse the given URL... nsresult rv = ParseURL(spec, specLength); if (mScheme.mLen <= 0) { rv = NS_ERROR_MALFORMED_URI; } if (NS_SUCCEEDED(rv)) { // finally, use the URLSegment member variables to build a normalized // copy of |spec| rv = BuildNormalizedSpec(spec, encoding); } // Make sure that a URLTYPE_AUTHORITY has a non-empty hostname. if (mURLType == URLTYPE_AUTHORITY && mHost.mLen == -1) { rv = NS_ERROR_MALFORMED_URI; } if (NS_FAILED(rv)) { Clear(); // If parsing the spec has failed, restore the old URL // so we don't end up with an empty URL. CopyMembers(&prevURL, eHonorRef, ""_ns); return rv; } if (LOG_ENABLED()) { LOG((" spec = %s\n", mSpec.get())); LOG((" port = %d\n", mPort)); LOG((" scheme = (%u,%d)\n", (uint32_t)mScheme.mPos, (int32_t)mScheme.mLen)); LOG((" authority = (%u,%d)\n", (uint32_t)mAuthority.mPos, (int32_t)mAuthority.mLen)); LOG((" username = (%u,%d)\n", (uint32_t)mUsername.mPos, (int32_t)mUsername.mLen)); LOG((" password = (%u,%d)\n", (uint32_t)mPassword.mPos, (int32_t)mPassword.mLen)); LOG((" hostname = (%u,%d)\n", (uint32_t)mHost.mPos, (int32_t)mHost.mLen)); LOG((" path = (%u,%d)\n", (uint32_t)mPath.mPos, (int32_t)mPath.mLen)); LOG((" filepath = (%u,%d)\n", (uint32_t)mFilepath.mPos, (int32_t)mFilepath.mLen)); LOG((" directory = (%u,%d)\n", (uint32_t)mDirectory.mPos, (int32_t)mDirectory.mLen)); LOG((" basename = (%u,%d)\n", (uint32_t)mBasename.mPos, (int32_t)mBasename.mLen)); LOG((" extension = (%u,%d)\n", (uint32_t)mExtension.mPos, (int32_t)mExtension.mLen)); LOG((" query = (%u,%d)\n", (uint32_t)mQuery.mPos, (int32_t)mQuery.mLen)); LOG((" ref = (%u,%d)\n", (uint32_t)mRef.mPos, (int32_t)mRef.mLen)); } SanityCheck(); return rv; } nsresult nsStandardURL::SetScheme(const nsACString& input) { const nsPromiseFlatCString& scheme = PromiseFlatCString(input); LOG(("nsStandardURL::SetScheme [scheme=%s]\n", scheme.get())); if (scheme.IsEmpty()) { NS_WARNING("cannot remove the scheme from an url"); return NS_ERROR_UNEXPECTED; } if (mScheme.mLen < 0) { NS_WARNING("uninitialized"); return NS_ERROR_NOT_INITIALIZED; } if (!net_IsValidScheme(scheme)) { NS_WARNING("the given url scheme contains invalid characters"); return NS_ERROR_UNEXPECTED; } if (mSpec.Length() + input.Length() - Scheme().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); int32_t shift = ReplaceSegment(mScheme.mPos, mScheme.mLen, scheme); if (shift) { mScheme.mLen = scheme.Length(); ShiftFromAuthority(shift); } // ensure new scheme is lowercase // // XXX the string code unfortunately doesn't provide a ToLowerCase // that operates on a substring. net_ToLowerCase((char*)mSpec.get(), mScheme.mLen); return NS_OK; } nsresult nsStandardURL::SetUserPass(const nsACString& input) { const nsPromiseFlatCString& userpass = PromiseFlatCString(input); LOG(("nsStandardURL::SetUserPass [userpass=%s]\n", userpass.get())); if (mURLType == URLTYPE_NO_AUTHORITY) { if (userpass.IsEmpty()) { return NS_OK; } NS_WARNING("cannot set user:pass on no-auth url"); return NS_ERROR_UNEXPECTED; } if (mAuthority.mLen < 0) { NS_WARNING("uninitialized"); return NS_ERROR_NOT_INITIALIZED; } if (mSpec.Length() + input.Length() - Userpass(true).Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); NS_ASSERTION(mHost.mLen >= 0, "uninitialized"); nsresult rv; uint32_t usernamePos, passwordPos; int32_t usernameLen, passwordLen; rv = mParser->ParseUserInfo(userpass.get(), userpass.Length(), &usernamePos, &usernameLen, &passwordPos, &passwordLen); if (NS_FAILED(rv)) { return rv; } // build new user:pass in |buf| nsAutoCString buf; if (usernameLen > 0 || passwordLen > 0) { nsSegmentEncoder encoder; bool ignoredOut; usernameLen = encoder.EncodeSegmentCount( userpass.get(), URLSegment(usernamePos, usernameLen), esc_Username | esc_AlwaysCopy, buf, ignoredOut); if (passwordLen > 0) { buf.Append(':'); passwordLen = encoder.EncodeSegmentCount( userpass.get(), URLSegment(passwordPos, passwordLen), esc_Password | esc_AlwaysCopy, buf, ignoredOut); } else { passwordLen = -1; } if (mUsername.mLen < 0 && mPassword.mLen < 0) { buf.Append('@'); } } int32_t shift = 0; if (mUsername.mLen < 0 && mPassword.mLen < 0) { // no existing user:pass if (!buf.IsEmpty()) { mSpec.Insert(buf, mHost.mPos); mUsername.mPos = mHost.mPos; shift = buf.Length(); } } else { // replace existing user:pass uint32_t userpassLen = 0; if (mUsername.mLen > 0) { userpassLen += mUsername.mLen; } if (mPassword.mLen > 0) { userpassLen += (mPassword.mLen + 1); } if (buf.IsEmpty()) { // remove `@` character too userpassLen++; } mSpec.Replace(mAuthority.mPos, userpassLen, buf); shift = buf.Length() - userpassLen; } if (shift) { ShiftFromHost(shift); MOZ_DIAGNOSTIC_ASSERT(mAuthority.mLen >= -shift); mAuthority.mLen += shift; } // update positions and lengths mUsername.mLen = usernameLen > 0 ? usernameLen : -1; mUsername.mPos = mAuthority.mPos; mPassword.mLen = passwordLen > 0 ? passwordLen : -1; if (passwordLen > 0) { if (mUsername.mLen > 0) { mPassword.mPos = mUsername.mPos + mUsername.mLen + 1; } else { mPassword.mPos = mAuthority.mPos + 1; } } MOZ_ASSERT(mUsername.mLen != 0 && mPassword.mLen != 0); return NS_OK; } nsresult nsStandardURL::SetUsername(const nsACString& input) { const nsPromiseFlatCString& username = PromiseFlatCString(input); LOG(("nsStandardURL::SetUsername [username=%s]\n", username.get())); if (mURLType == URLTYPE_NO_AUTHORITY) { if (username.IsEmpty()) { return NS_OK; } NS_WARNING("cannot set username on no-auth url"); return NS_ERROR_UNEXPECTED; } if (mSpec.Length() + input.Length() - Username().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); // escape username if necessary nsAutoCString buf; nsSegmentEncoder encoder; const nsACString& escUsername = encoder.EncodeSegment(username, esc_Username, buf); int32_t shift = 0; if (mUsername.mLen < 0 && escUsername.IsEmpty()) { return NS_OK; } if (mUsername.mLen < 0 && mPassword.mLen < 0) { MOZ_ASSERT(!escUsername.IsEmpty(), "Should not be empty at this point"); mUsername.mPos = mAuthority.mPos; mSpec.Insert(escUsername + "@"_ns, mUsername.mPos); shift = escUsername.Length() + 1; mUsername.mLen = escUsername.Length() > 0 ? escUsername.Length() : -1; } else { uint32_t pos = mUsername.mLen < 0 ? mAuthority.mPos : mUsername.mPos; int32_t len = mUsername.mLen < 0 ? 0 : mUsername.mLen; if (mPassword.mLen < 0 && escUsername.IsEmpty()) { len++; // remove the @ character too } shift = ReplaceSegment(pos, len, escUsername); mUsername.mLen = escUsername.Length() > 0 ? escUsername.Length() : -1; mUsername.mPos = pos; } if (shift) { mAuthority.mLen += shift; ShiftFromPassword(shift); } MOZ_ASSERT(mUsername.mLen != 0 && mPassword.mLen != 0); return NS_OK; } nsresult nsStandardURL::SetPassword(const nsACString& input) { const nsPromiseFlatCString& password = PromiseFlatCString(input); auto clearedPassword = MakeScopeExit([&password, this]() { // Check that if this method is called with the empty string then the // password is definitely cleared when exiting this method. if (password.IsEmpty()) { MOZ_DIAGNOSTIC_ASSERT(this->Password().IsEmpty()); } Unused << this; // silence compiler -Wunused-lambda-capture }); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); LOG(("nsStandardURL::SetPassword [password=%s]\n", password.get())); if (mURLType == URLTYPE_NO_AUTHORITY) { if (password.IsEmpty()) { return NS_OK; } NS_WARNING("cannot set password on no-auth url"); return NS_ERROR_UNEXPECTED; } if (mSpec.Length() + input.Length() - Password().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } InvalidateCache(); if (password.IsEmpty()) { if (mPassword.mLen > 0) { // cut(":password") int32_t len = mPassword.mLen; if (mUsername.mLen < 0) { len++; // also cut the @ character } len++; // for the : character mSpec.Cut(mPassword.mPos - 1, len); ShiftFromHost(-len); mAuthority.mLen -= len; mPassword.mLen = -1; } MOZ_ASSERT(mUsername.mLen != 0 && mPassword.mLen != 0); return NS_OK; } // escape password if necessary nsAutoCString buf; nsSegmentEncoder encoder; const nsACString& escPassword = encoder.EncodeSegment(password, esc_Password, buf); int32_t shift; if (mPassword.mLen < 0) { if (mUsername.mLen > 0) { mPassword.mPos = mUsername.mPos + mUsername.mLen + 1; mSpec.Insert(":"_ns + escPassword, mPassword.mPos - 1); shift = escPassword.Length() + 1; } else { mPassword.mPos = mAuthority.mPos + 1; mSpec.Insert(":"_ns + escPassword + "@"_ns, mPassword.mPos - 1); shift = escPassword.Length() + 2; } } else { shift = ReplaceSegment(mPassword.mPos, mPassword.mLen, escPassword); } if (shift) { mPassword.mLen = escPassword.Length(); mAuthority.mLen += shift; ShiftFromHost(shift); } MOZ_ASSERT(mUsername.mLen != 0 && mPassword.mLen != 0); return NS_OK; } void nsStandardURL::FindHostLimit(nsACString::const_iterator& aStart, nsACString::const_iterator& aEnd) { for (int32_t i = 0; gHostLimitDigits[i]; ++i) { nsACString::const_iterator c(aStart); if (FindCharInReadable(gHostLimitDigits[i], c, aEnd)) { aEnd = c; } } } // If aValue only has a host part and no port number, the port // will not be reset!!! nsresult nsStandardURL::SetHostPort(const nsACString& aValue) { // We cannot simply call nsIURI::SetHost because that would treat the name as // an IPv6 address (like http:://[server:443]/). We also cannot call // nsIURI::SetHostPort because that isn't implemented. Sadfaces. nsACString::const_iterator start, end; aValue.BeginReading(start); aValue.EndReading(end); nsACString::const_iterator iter(start); bool isIPv6 = false; FindHostLimit(start, end); if (*start == '[') { // IPv6 address if (!FindCharInReadable(']', iter, end)) { // the ] character is missing return NS_ERROR_MALFORMED_URI; } // iter now at the ']' character isIPv6 = true; } else { nsACString::const_iterator iter2(start); if (FindCharInReadable(']', iter2, end)) { // if the first char isn't [ then there should be no ] character return NS_ERROR_MALFORMED_URI; } } FindCharInReadable(':', iter, end); if (!isIPv6 && iter != end) { nsACString::const_iterator iter2(iter); iter2++; // Skip over the first ':' character if (FindCharInReadable(':', iter2, end)) { // If there is more than one ':' character it suggests an IPv6 // The format should be [2001::1]:80 where the port is optional return NS_ERROR_MALFORMED_URI; } } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); nsresult rv = SetHost(Substring(start, iter)); NS_ENSURE_SUCCESS(rv, rv); if (iter == end) { // does not end in colon return NS_OK; } iter++; // advance over the colon if (iter == end) { // port number is missing return NS_OK; } nsCString portStr(Substring(iter, end)); int32_t port = portStr.ToInteger(&rv); if (NS_FAILED(rv)) { // Failure parsing the port number return NS_OK; } Unused << SetPort(port); return NS_OK; } nsresult nsStandardURL::SetHost(const nsACString& input) { const nsPromiseFlatCString& hostname = PromiseFlatCString(input); nsACString::const_iterator start, end; hostname.BeginReading(start); hostname.EndReading(end); FindHostLimit(start, end); const nsCString unescapedHost(Substring(start, end)); // Do percent decoding on the the input. nsAutoCString flat; NS_UnescapeURL(unescapedHost.BeginReading(), unescapedHost.Length(), esc_AlwaysCopy | esc_Host, flat); const char* host = flat.get(); LOG(("nsStandardURL::SetHost [host=%s]\n", host)); if (mURLType == URLTYPE_NO_AUTHORITY) { if (flat.IsEmpty()) { return NS_OK; } NS_WARNING("cannot set host on no-auth url"); return NS_ERROR_UNEXPECTED; } if (flat.IsEmpty()) { // Setting an empty hostname is not allowed for // URLTYPE_STANDARD and URLTYPE_AUTHORITY. return NS_ERROR_UNEXPECTED; } if (strlen(host) < flat.Length()) { return NS_ERROR_MALFORMED_URI; // found embedded null } // For consistency with SetSpec/nsURLParsers, don't allow spaces // in the hostname. if (strchr(host, ' ')) { return NS_ERROR_MALFORMED_URI; } if (mSpec.Length() + strlen(host) - Host().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); uint32_t len; nsAutoCString hostBuf; nsresult rv = NormalizeIDN(flat, hostBuf); if (NS_FAILED(rv)) { return rv; } if (!SegmentIs(mScheme, "resource") && !SegmentIs(mScheme, "chrome")) { nsAutoCString ipString; if (hostBuf.Length() > 0 && hostBuf.First() == '[' && hostBuf.Last() == ']' && ValidIPv6orHostname(hostBuf.get(), hostBuf.Length())) { rv = (nsresult)rusturl_parse_ipv6addr(&hostBuf, &ipString); if (NS_FAILED(rv)) { return rv; } hostBuf = ipString; } else if (NS_SUCCEEDED(NormalizeIPv4(hostBuf, ipString))) { hostBuf = ipString; } } // NormalizeIDN always copies if the call was successful host = hostBuf.get(); len = hostBuf.Length(); if (!ValidIPv6orHostname(host, len)) { return NS_ERROR_MALFORMED_URI; } if (mHost.mLen < 0) { int port_length = 0; if (mPort != -1) { nsAutoCString buf; buf.Assign(':'); buf.AppendInt(mPort); port_length = buf.Length(); } if (mAuthority.mLen > 0) { mHost.mPos = mAuthority.mPos + mAuthority.mLen - port_length; mHost.mLen = 0; } else if (mScheme.mLen > 0) { mHost.mPos = mScheme.mPos + mScheme.mLen + 3; mHost.mLen = 0; } } int32_t shift = ReplaceSegment(mHost.mPos, mHost.mLen, host, len); if (shift) { mHost.mLen = len; mAuthority.mLen += shift; ShiftFromPath(shift); } // Now canonicalize the host to lowercase net_ToLowerCase(mSpec.BeginWriting() + mHost.mPos, mHost.mLen); return NS_OK; } nsresult nsStandardURL::SetPort(int32_t port) { LOG(("nsStandardURL::SetPort [port=%d]\n", port)); if ((port == mPort) || (mPort == -1 && port == mDefaultPort)) { return NS_OK; } // ports must be >= 0 and 16 bit // -1 == use default if (port < -1 || port > std::numeric_limits::max()) { return NS_ERROR_MALFORMED_URI; } if (mURLType == URLTYPE_NO_AUTHORITY) { NS_WARNING("cannot set port on no-auth url"); return NS_ERROR_UNEXPECTED; } auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); if (port == mDefaultPort) { port = -1; } ReplacePortInSpec(port); mPort = port; return NS_OK; } /** * Replaces the existing port in mSpec with aNewPort. * * The caller is responsible for: * - Calling InvalidateCache (since our mSpec is changing). * - Checking whether aNewPort is mDefaultPort (in which case the * caller should pass aNewPort=-1). */ void nsStandardURL::ReplacePortInSpec(int32_t aNewPort) { NS_ASSERTION(aNewPort != mDefaultPort || mDefaultPort == -1, "Caller should check its passed-in value and pass -1 instead of " "mDefaultPort, to avoid encoding default port into mSpec"); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); // Create the (possibly empty) string that we're planning to replace: nsAutoCString buf; if (mPort != -1) { buf.Assign(':'); buf.AppendInt(mPort); } // Find the position & length of that string: const uint32_t replacedLen = buf.Length(); const uint32_t replacedStart = mAuthority.mPos + mAuthority.mLen - replacedLen; // Create the (possibly empty) replacement string: if (aNewPort == -1) { buf.Truncate(); } else { buf.Assign(':'); buf.AppendInt(aNewPort); } // Perform the replacement: mSpec.Replace(replacedStart, replacedLen, buf); // Bookkeeping to reflect the new length: int32_t shift = buf.Length() - replacedLen; mAuthority.mLen += shift; ShiftFromPath(shift); } nsresult nsStandardURL::SetPathQueryRef(const nsACString& input) { const nsPromiseFlatCString& path = PromiseFlatCString(input); LOG(("nsStandardURL::SetPathQueryRef [path=%s]\n", path.get())); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); InvalidateCache(); if (!path.IsEmpty()) { nsAutoCString spec; spec.Assign(mSpec.get(), mPath.mPos); if (path.First() != '/') { spec.Append('/'); } spec.Append(path); return SetSpecInternal(spec); } if (mPath.mLen >= 1) { mSpec.Cut(mPath.mPos + 1, mPath.mLen - 1); // these contain only a '/' mPath.mLen = 1; mDirectory.mLen = 1; mFilepath.mLen = 1; // these are no longer defined mBasename.mLen = -1; mExtension.mLen = -1; mQuery.mLen = -1; mRef.mLen = -1; } return NS_OK; } // When updating this also update SubstitutingURL::Mutator // Queries this list of interfaces. If none match, it queries mURI. NS_IMPL_NSIURIMUTATOR_ISUPPORTS(nsStandardURL::Mutator, nsIURISetters, nsIURIMutator, nsIStandardURLMutator, nsIURLMutator, nsIFileURLMutator, nsISerializable) NS_IMETHODIMP nsStandardURL::Mutate(nsIURIMutator** aMutator) { RefPtr mutator = new nsStandardURL::Mutator(); nsresult rv = mutator->InitFromURI(this); if (NS_FAILED(rv)) { return rv; } mutator.forget(aMutator); return NS_OK; } NS_IMETHODIMP nsStandardURL::Equals(nsIURI* unknownOther, bool* result) { return EqualsInternal(unknownOther, eHonorRef, result); } NS_IMETHODIMP nsStandardURL::EqualsExceptRef(nsIURI* unknownOther, bool* result) { return EqualsInternal(unknownOther, eIgnoreRef, result); } nsresult nsStandardURL::EqualsInternal( nsIURI* unknownOther, nsStandardURL::RefHandlingEnum refHandlingMode, bool* result) { NS_ENSURE_ARG_POINTER(unknownOther); MOZ_ASSERT(result, "null pointer"); RefPtr other; nsresult rv = unknownOther->QueryInterface(kThisImplCID, getter_AddRefs(other)); if (NS_FAILED(rv)) { *result = false; return NS_OK; } // First, check whether one URIs is an nsIFileURL while the other // is not. If that's the case, they're different. if (mSupportsFileURL != other->mSupportsFileURL) { *result = false; return NS_OK; } // Next check parts of a URI that, if different, automatically make the // URIs different if (!SegmentIs(mScheme, other->mSpec.get(), other->mScheme) || // Check for host manually, since conversion to file will // ignore the host! !SegmentIs(mHost, other->mSpec.get(), other->mHost) || !SegmentIs(mQuery, other->mSpec.get(), other->mQuery) || !SegmentIs(mUsername, other->mSpec.get(), other->mUsername) || !SegmentIs(mPassword, other->mSpec.get(), other->mPassword) || Port() != other->Port()) { // No need to compare files or other URI parts -- these are different // beasties *result = false; return NS_OK; } if (refHandlingMode == eHonorRef && !SegmentIs(mRef, other->mSpec.get(), other->mRef)) { *result = false; return NS_OK; } // Then check for exact identity of URIs. If we have it, they're equal if (SegmentIs(mDirectory, other->mSpec.get(), other->mDirectory) && SegmentIs(mBasename, other->mSpec.get(), other->mBasename) && SegmentIs(mExtension, other->mSpec.get(), other->mExtension)) { *result = true; return NS_OK; } // At this point, the URIs are not identical, but they only differ in the // directory/filename/extension. If these are file URLs, then get the // corresponding file objects and compare those, since two filenames that // differ, eg, only in case could still be equal. if (mSupportsFileURL) { // Assume not equal for failure cases... but failures in GetFile are // really failures, more or less, so propagate them to caller. *result = false; rv = EnsureFile(); nsresult rv2 = other->EnsureFile(); // special case for resource:// urls that don't resolve to files if (rv == NS_ERROR_NO_INTERFACE && rv == rv2) { return NS_OK; } if (NS_FAILED(rv)) { LOG(("nsStandardURL::Equals [this=%p spec=%s] failed to ensure file", this, mSpec.get())); return rv; } NS_ASSERTION(mFile, "EnsureFile() lied!"); rv = rv2; if (NS_FAILED(rv)) { LOG( ("nsStandardURL::Equals [other=%p spec=%s] other failed to ensure " "file", other.get(), other->mSpec.get())); return rv; } NS_ASSERTION(other->mFile, "EnsureFile() lied!"); return mFile->Equals(other->mFile, result); } // The URLs are not identical, and they do not correspond to the // same file, so they are different. *result = false; return NS_OK; } NS_IMETHODIMP nsStandardURL::SchemeIs(const char* scheme, bool* result) { MOZ_ASSERT(result, "null pointer"); if (!scheme) { *result = false; return NS_OK; } *result = SegmentIs(mScheme, scheme); return NS_OK; } /* virtual */ nsStandardURL* nsStandardURL::StartClone() { nsStandardURL* clone = new nsStandardURL(); return clone; } nsresult nsStandardURL::Clone(nsIURI** aURI) { return CloneInternal(eHonorRef, ""_ns, aURI); } nsresult nsStandardURL::CloneInternal( nsStandardURL::RefHandlingEnum aRefHandlingMode, const nsACString& aNewRef, nsIURI** aClone) { RefPtr clone = StartClone(); if (!clone) { return NS_ERROR_OUT_OF_MEMORY; } // Copy local members into clone. // Also copies the cached members mFile, mDisplayHost clone->CopyMembers(this, aRefHandlingMode, aNewRef, true); clone.forget(aClone); return NS_OK; } nsresult nsStandardURL::CopyMembers( nsStandardURL* source, nsStandardURL::RefHandlingEnum refHandlingMode, const nsACString& newRef, bool copyCached) { auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); mSpec = source->mSpec; mDefaultPort = source->mDefaultPort; mPort = source->mPort; mScheme = source->mScheme; mAuthority = source->mAuthority; mUsername = source->mUsername; mPassword = source->mPassword; mHost = source->mHost; mPath = source->mPath; mFilepath = source->mFilepath; mDirectory = source->mDirectory; mBasename = source->mBasename; mExtension = source->mExtension; mQuery = source->mQuery; mRef = source->mRef; mURLType = source->mURLType; mParser = source->mParser; mSupportsFileURL = source->mSupportsFileURL; mCheckedIfHostA = source->mCheckedIfHostA; mDisplayHost = source->mDisplayHost; if (copyCached) { mFile = source->mFile; } else { InvalidateCache(true); } if (refHandlingMode == eIgnoreRef) { SetRef(""_ns); } else if (refHandlingMode == eReplaceRef) { SetRef(newRef); } return NS_OK; } NS_IMETHODIMP nsStandardURL::Resolve(const nsACString& in, nsACString& out) { const nsPromiseFlatCString& flat = PromiseFlatCString(in); // filter out unexpected chars "\r\n\t" if necessary nsAutoCString buf; net_FilterURIString(flat, buf); const char* relpath = buf.get(); int32_t relpathLen = buf.Length(); char* result = nullptr; LOG(("nsStandardURL::Resolve [this=%p spec=%s relpath=%s]\n", this, mSpec.get(), relpath)); NS_ASSERTION(mParser, "no parser: unitialized"); // NOTE: there is no need for this function to produce normalized // output. normalization will occur when the result is used to // initialize a nsStandardURL object. if (mScheme.mLen < 0) { NS_WARNING("unable to Resolve URL: this URL not initialized"); return NS_ERROR_NOT_INITIALIZED; } nsresult rv; URLSegment scheme; char* resultPath = nullptr; bool relative = false; uint32_t offset = 0; netCoalesceFlags coalesceFlag = NET_COALESCE_NORMAL; nsAutoCString baseProtocol(Scheme()); nsAutoCString protocol; rv = net_ExtractURLScheme(buf, protocol); // Normally, if we parse a scheme, then it's an absolute URI. But because // we still support a deprecated form of relative URIs such as: http:file or // http:/path/file we can't do that for all protocols. // So we just make sure that if there a protocol, it's the same as the // current one, otherwise we treat it as an absolute URI. if (NS_SUCCEEDED(rv) && protocol != baseProtocol) { out = buf; return NS_OK; } // relative urls should never contain a host, so we always want to use // the noauth url parser. // use it to extract a possible scheme uint32_t schemePos = scheme.mPos; int32_t schemeLen = scheme.mLen; rv = mParser->ParseURL(relpath, relpathLen, &schemePos, &schemeLen, nullptr, nullptr, nullptr, nullptr); // if the parser fails (for example because there is no valid scheme) // reset the scheme and assume a relative url if (NS_FAILED(rv)) { scheme.Reset(); } scheme.mPos = schemePos; scheme.mLen = schemeLen; protocol.Assign(Segment(scheme)); // We need to do backslash replacement for the following cases: // 1. The input is an absolute path with a http/https/ftp scheme // 2. The input is a relative path, and the base URL has a http/https/ftp // scheme if ((protocol.IsEmpty() && IsSpecialProtocol(baseProtocol)) || IsSpecialProtocol(protocol)) { auto* start = buf.BeginWriting(); auto* end = buf.EndWriting(); while (start != end) { if (*start == '?' || *start == '#') { break; } if (*start == '\\') { *start = '/'; } start++; } } if (scheme.mLen >= 0) { // add some flags to coalesceFlag if it is an ftp-url // need this later on when coalescing the resulting URL if (SegmentIs(relpath, scheme, "ftp", true)) { coalesceFlag = (netCoalesceFlags)(coalesceFlag | NET_COALESCE_ALLOW_RELATIVE_ROOT | NET_COALESCE_DOUBLE_SLASH_IS_ROOT); } // this URL appears to be absolute // but try to find out more if (SegmentIs(mScheme, relpath, scheme, true)) { // mScheme and Scheme are the same // but this can still be relative if (strncmp(relpath + scheme.mPos + scheme.mLen, "://", 3) == 0) { // now this is really absolute // because a :// follows the scheme result = NS_xstrdup(relpath); } else { // This is a deprecated form of relative urls like // http:file or http:/path/file // we will support it for now ... relative = true; offset = scheme.mLen + 1; } } else { // the schemes are not the same, we are also done // because we have to assume this is absolute result = NS_xstrdup(relpath); } } else { // add some flags to coalesceFlag if it is an ftp-url // need this later on when coalescing the resulting URL if (SegmentIs(mScheme, "ftp")) { coalesceFlag = (netCoalesceFlags)(coalesceFlag | NET_COALESCE_ALLOW_RELATIVE_ROOT | NET_COALESCE_DOUBLE_SLASH_IS_ROOT); } if (relpath[0] == '/' && relpath[1] == '/') { // this URL //host/path is almost absolute result = AppendToSubstring(mScheme.mPos, mScheme.mLen + 1, relpath); } else { // then it must be relative relative = true; } } if (relative) { uint32_t len = 0; const char* realrelpath = relpath + offset; switch (*realrelpath) { case '/': // overwrite everything after the authority len = mAuthority.mPos + mAuthority.mLen; break; case '?': // overwrite the existing ?query and #ref if (mQuery.mLen >= 0) { len = mQuery.mPos - 1; } else if (mRef.mLen >= 0) { len = mRef.mPos - 1; } else { len = mPath.mPos + mPath.mLen; } break; case '#': case '\0': // overwrite the existing #ref if (mRef.mLen < 0) { len = mPath.mPos + mPath.mLen; } else { len = mRef.mPos - 1; } break; default: if (coalesceFlag & NET_COALESCE_DOUBLE_SLASH_IS_ROOT) { if (Filename().Equals("%2F"_ns, nsCaseInsensitiveCStringComparator)) { // if ftp URL ends with %2F then simply // append relative part because %2F also // marks the root directory with ftp-urls len = mFilepath.mPos + mFilepath.mLen; } else { // overwrite everything after the directory len = mDirectory.mPos + mDirectory.mLen; } } else { // overwrite everything after the directory len = mDirectory.mPos + mDirectory.mLen; } } result = AppendToSubstring(0, len, realrelpath); // locate result path resultPath = result + mPath.mPos; } if (!result) { return NS_ERROR_OUT_OF_MEMORY; } if (resultPath) { net_CoalesceDirs(coalesceFlag, resultPath); } else { // locate result path resultPath = strstr(result, "://"); if (resultPath) { resultPath = strchr(resultPath + 3, '/'); if (resultPath) { net_CoalesceDirs(coalesceFlag, resultPath); } } } out.Adopt(result); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetCommonBaseSpec(nsIURI* uri2, nsACString& aResult) { NS_ENSURE_ARG_POINTER(uri2); // if uri's are equal, then return uri as is bool isEquals = false; if (NS_SUCCEEDED(Equals(uri2, &isEquals)) && isEquals) { return GetSpec(aResult); } aResult.Truncate(); // check pre-path; if they don't match, then return empty string RefPtr stdurl2; nsresult rv = uri2->QueryInterface(kThisImplCID, getter_AddRefs(stdurl2)); isEquals = NS_SUCCEEDED(rv) && SegmentIs(mScheme, stdurl2->mSpec.get(), stdurl2->mScheme) && SegmentIs(mHost, stdurl2->mSpec.get(), stdurl2->mHost) && SegmentIs(mUsername, stdurl2->mSpec.get(), stdurl2->mUsername) && SegmentIs(mPassword, stdurl2->mSpec.get(), stdurl2->mPassword) && (Port() == stdurl2->Port()); if (!isEquals) { return NS_OK; } // scan for first mismatched character const char *thisIndex, *thatIndex, *startCharPos; startCharPos = mSpec.get() + mDirectory.mPos; thisIndex = startCharPos; thatIndex = stdurl2->mSpec.get() + mDirectory.mPos; while ((*thisIndex == *thatIndex) && *thisIndex) { thisIndex++; thatIndex++; } // backup to just after previous slash so we grab an appropriate path // segment such as a directory (not partial segments) // todo: also check for file matches which include '?' and '#' while ((thisIndex != startCharPos) && (*(thisIndex - 1) != '/')) { thisIndex--; } // grab spec from beginning to thisIndex aResult = Substring(mSpec, mScheme.mPos, thisIndex - mSpec.get()); return rv; } NS_IMETHODIMP nsStandardURL::GetRelativeSpec(nsIURI* uri2, nsACString& aResult) { NS_ENSURE_ARG_POINTER(uri2); aResult.Truncate(); // if uri's are equal, then return empty string bool isEquals = false; if (NS_SUCCEEDED(Equals(uri2, &isEquals)) && isEquals) { return NS_OK; } RefPtr stdurl2; nsresult rv = uri2->QueryInterface(kThisImplCID, getter_AddRefs(stdurl2)); isEquals = NS_SUCCEEDED(rv) && SegmentIs(mScheme, stdurl2->mSpec.get(), stdurl2->mScheme) && SegmentIs(mHost, stdurl2->mSpec.get(), stdurl2->mHost) && SegmentIs(mUsername, stdurl2->mSpec.get(), stdurl2->mUsername) && SegmentIs(mPassword, stdurl2->mSpec.get(), stdurl2->mPassword) && (Port() == stdurl2->Port()); if (!isEquals) { return uri2->GetSpec(aResult); } // scan for first mismatched character const char *thisIndex, *thatIndex, *startCharPos; startCharPos = mSpec.get() + mDirectory.mPos; thisIndex = startCharPos; thatIndex = stdurl2->mSpec.get() + mDirectory.mPos; #ifdef XP_WIN bool isFileScheme = SegmentIs(mScheme, "file"); if (isFileScheme) { // on windows, we need to match the first segment of the path // if these don't match then we need to return an absolute path // skip over any leading '/' in path while ((*thisIndex == *thatIndex) && (*thisIndex == '/')) { thisIndex++; thatIndex++; } // look for end of first segment while ((*thisIndex == *thatIndex) && *thisIndex && (*thisIndex != '/')) { thisIndex++; thatIndex++; } // if we didn't match through the first segment, return absolute path if ((*thisIndex != '/') || (*thatIndex != '/')) { return uri2->GetSpec(aResult); } } #endif while ((*thisIndex == *thatIndex) && *thisIndex) { thisIndex++; thatIndex++; } // backup to just after previous slash so we grab an appropriate path // segment such as a directory (not partial segments) // todo: also check for file matches with '#' and '?' while ((*(thatIndex - 1) != '/') && (thatIndex != startCharPos)) { thatIndex--; } const char* limit = mSpec.get() + mFilepath.mPos + mFilepath.mLen; // need to account for slashes and add corresponding "../" for (; thisIndex <= limit && *thisIndex; ++thisIndex) { if (*thisIndex == '/') { aResult.AppendLiteral("../"); } } // grab spec from thisIndex to end uint32_t startPos = stdurl2->mScheme.mPos + thatIndex - stdurl2->mSpec.get(); aResult.Append( Substring(stdurl2->mSpec, startPos, stdurl2->mSpec.Length() - startPos)); return rv; } //---------------------------------------------------------------------------- // nsStandardURL::nsIURL //---------------------------------------------------------------------------- // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetFilePath(nsACString& result) { result = Filepath(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetQuery(nsACString& result) { result = Query(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetRef(nsACString& result) { result = Ref(); return NS_OK; } NS_IMETHODIMP nsStandardURL::GetHasRef(bool* result) { *result = (mRef.mLen >= 0); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetDirectory(nsACString& result) { result = Directory(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetFileName(nsACString& result) { result = Filename(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetFileBaseName(nsACString& result) { result = Basename(); return NS_OK; } // result may contain unescaped UTF-8 characters NS_IMETHODIMP nsStandardURL::GetFileExtension(nsACString& result) { result = Extension(); return NS_OK; } nsresult nsStandardURL::SetFilePath(const nsACString& input) { const nsPromiseFlatCString& flat = PromiseFlatCString(input); const char* filepath = flat.get(); LOG(("nsStandardURL::SetFilePath [filepath=%s]\n", filepath)); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); // if there isn't a filepath, then there can't be anything // after the path either. this url is likely uninitialized. if (mFilepath.mLen < 0) { return SetPathQueryRef(flat); } if (filepath && *filepath) { nsAutoCString spec; uint32_t dirPos, basePos, extPos; int32_t dirLen, baseLen, extLen; nsresult rv; rv = mParser->ParseFilePath(filepath, flat.Length(), &dirPos, &dirLen, &basePos, &baseLen, &extPos, &extLen); if (NS_FAILED(rv)) { return rv; } // build up new candidate spec spec.Assign(mSpec.get(), mPath.mPos); // ensure leading '/' if (filepath[dirPos] != '/') { spec.Append('/'); } nsSegmentEncoder encoder; // append encoded filepath components if (dirLen > 0) { encoder.EncodeSegment( Substring(filepath + dirPos, filepath + dirPos + dirLen), esc_Directory | esc_AlwaysCopy, spec); } if (baseLen > 0) { encoder.EncodeSegment( Substring(filepath + basePos, filepath + basePos + baseLen), esc_FileBaseName | esc_AlwaysCopy, spec); } if (extLen >= 0) { spec.Append('.'); if (extLen > 0) { encoder.EncodeSegment( Substring(filepath + extPos, filepath + extPos + extLen), esc_FileExtension | esc_AlwaysCopy, spec); } } // compute the ending position of the current filepath if (mFilepath.mLen >= 0) { uint32_t end = mFilepath.mPos + mFilepath.mLen; if (mSpec.Length() > end) { spec.Append(mSpec.get() + end, mSpec.Length() - end); } } return SetSpecInternal(spec); } if (mPath.mLen > 1) { mSpec.Cut(mPath.mPos + 1, mFilepath.mLen - 1); // left shift query, and ref ShiftFromQuery(1 - mFilepath.mLen); // One character for '/', and if we have a query or ref we add their // length and one extra for each '?' or '#' characters mPath.mLen = 1 + (mQuery.mLen >= 0 ? (mQuery.mLen + 1) : 0) + (mRef.mLen >= 0 ? (mRef.mLen + 1) : 0); // these contain only a '/' mDirectory.mLen = 1; mFilepath.mLen = 1; // these are no longer defined mBasename.mLen = -1; mExtension.mLen = -1; } return NS_OK; } inline bool IsUTFEncoding(const Encoding* aEncoding) { return aEncoding == UTF_8_ENCODING || aEncoding == UTF_16BE_ENCODING || aEncoding == UTF_16LE_ENCODING; } nsresult nsStandardURL::SetQuery(const nsACString& input) { return SetQueryWithEncoding(input, nullptr); } nsresult nsStandardURL::SetQueryWithEncoding(const nsACString& input, const Encoding* encoding) { const nsPromiseFlatCString& flat = PromiseFlatCString(input); const char* query = flat.get(); LOG(("nsStandardURL::SetQuery [query=%s]\n", query)); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); if (IsUTFEncoding(encoding)) { encoding = nullptr; } if (mPath.mLen < 0) { return SetPathQueryRef(flat); } if (mSpec.Length() + input.Length() - Query().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } InvalidateCache(); if (!query || !*query) { // remove existing query if (mQuery.mLen >= 0) { // remove query and leading '?' mSpec.Cut(mQuery.mPos - 1, mQuery.mLen + 1); ShiftFromRef(-(mQuery.mLen + 1)); mPath.mLen -= (mQuery.mLen + 1); mQuery.mPos = 0; mQuery.mLen = -1; } return NS_OK; } // filter out unexpected chars "\r\n\t" if necessary nsAutoCString filteredURI(flat); const ASCIIMaskArray& mask = ASCIIMask::MaskCRLFTab(); filteredURI.StripTaggedASCII(mask); query = filteredURI.get(); int32_t queryLen = filteredURI.Length(); if (query[0] == '?') { query++; queryLen--; } if (mQuery.mLen < 0) { if (mRef.mLen < 0) { mQuery.mPos = mSpec.Length(); } else { mQuery.mPos = mRef.mPos - 1; } mSpec.Insert('?', mQuery.mPos); mQuery.mPos++; mQuery.mLen = 0; // the insertion pushes these out by 1 mPath.mLen++; mRef.mPos++; } // encode query if necessary nsAutoCString buf; bool encoded; nsSegmentEncoder encoder(encoding); encoder.EncodeSegmentCount(query, URLSegment(0, queryLen), esc_Query, buf, encoded); if (encoded) { query = buf.get(); queryLen = buf.Length(); } int32_t shift = ReplaceSegment(mQuery.mPos, mQuery.mLen, query, queryLen); if (shift) { mQuery.mLen = queryLen; mPath.mLen += shift; ShiftFromRef(shift); } return NS_OK; } nsresult nsStandardURL::SetRef(const nsACString& input) { const nsPromiseFlatCString& flat = PromiseFlatCString(input); const char* ref = flat.get(); LOG(("nsStandardURL::SetRef [ref=%s]\n", ref)); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); if (mPath.mLen < 0) { return SetPathQueryRef(flat); } if (mSpec.Length() + input.Length() - Ref().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } InvalidateCache(); if (input.IsEmpty()) { // remove existing ref if (mRef.mLen >= 0) { // remove ref and leading '#' mSpec.Cut(mRef.mPos - 1, mRef.mLen + 1); mPath.mLen -= (mRef.mLen + 1); mRef.mPos = 0; mRef.mLen = -1; } return NS_OK; } // filter out unexpected chars "\r\n\t" if necessary nsAutoCString filteredURI(flat); const ASCIIMaskArray& mask = ASCIIMask::MaskCRLFTab(); filteredURI.StripTaggedASCII(mask); ref = filteredURI.get(); int32_t refLen = filteredURI.Length(); if (ref[0] == '#') { ref++; refLen--; } if (mRef.mLen < 0) { mSpec.Append('#'); ++mPath.mLen; // Include the # in the path. mRef.mPos = mSpec.Length(); mRef.mLen = 0; } // If precent encoding is necessary, `ref` will point to `buf`'s content. // `buf` needs to outlive any use of the `ref` pointer. nsAutoCString buf; // encode ref if necessary bool encoded; nsSegmentEncoder encoder; encoder.EncodeSegmentCount(ref, URLSegment(0, refLen), esc_Ref, buf, encoded); if (encoded) { ref = buf.get(); refLen = buf.Length(); } int32_t shift = ReplaceSegment(mRef.mPos, mRef.mLen, ref, refLen); mPath.mLen += shift; mRef.mLen = refLen; return NS_OK; } nsresult nsStandardURL::SetFileNameInternal(const nsACString& input) { const nsPromiseFlatCString& flat = PromiseFlatCString(input); const char* filename = flat.get(); LOG(("nsStandardURL::SetFileNameInternal [filename=%s]\n", filename)); auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); if (mPath.mLen < 0) { return SetPathQueryRef(flat); } if (mSpec.Length() + input.Length() - Filename().Length() > StaticPrefs::network_standard_url_max_length()) { return NS_ERROR_MALFORMED_URI; } int32_t shift = 0; if (!(filename && *filename)) { // remove the filename if (mBasename.mLen > 0) { if (mExtension.mLen >= 0) { mBasename.mLen += (mExtension.mLen + 1); } mSpec.Cut(mBasename.mPos, mBasename.mLen); shift = -mBasename.mLen; mBasename.mLen = 0; mExtension.mLen = -1; } } else { nsresult rv; uint32_t basenamePos = 0; int32_t basenameLen = -1; uint32_t extensionPos = 0; int32_t extensionLen = -1; // let the parser locate the basename and extension rv = mParser->ParseFileName(filename, flat.Length(), &basenamePos, &basenameLen, &extensionPos, &extensionLen); if (NS_FAILED(rv)) { return rv; } URLSegment basename(basenamePos, basenameLen); URLSegment extension(extensionPos, extensionLen); if (basename.mLen < 0) { // remove existing filename if (mBasename.mLen >= 0) { uint32_t len = mBasename.mLen; if (mExtension.mLen >= 0) { len += (mExtension.mLen + 1); } mSpec.Cut(mBasename.mPos, len); shift = -int32_t(len); mBasename.mLen = 0; mExtension.mLen = -1; } } else { nsAutoCString newFilename; bool ignoredOut; nsSegmentEncoder encoder; basename.mLen = encoder.EncodeSegmentCount( filename, basename, esc_FileBaseName | esc_AlwaysCopy, newFilename, ignoredOut); if (extension.mLen >= 0) { newFilename.Append('.'); extension.mLen = encoder.EncodeSegmentCount( filename, extension, esc_FileExtension | esc_AlwaysCopy, newFilename, ignoredOut); } if (mBasename.mLen < 0) { // insert new filename mBasename.mPos = mDirectory.mPos + mDirectory.mLen; mSpec.Insert(newFilename, mBasename.mPos); shift = newFilename.Length(); } else { // replace existing filename uint32_t oldLen = uint32_t(mBasename.mLen); if (mExtension.mLen >= 0) { oldLen += (mExtension.mLen + 1); } mSpec.Replace(mBasename.mPos, oldLen, newFilename); shift = newFilename.Length() - oldLen; } mBasename.mLen = basename.mLen; mExtension.mLen = extension.mLen; if (mExtension.mLen >= 0) { mExtension.mPos = mBasename.mPos + mBasename.mLen + 1; } } } if (shift) { ShiftFromQuery(shift); mFilepath.mLen += shift; mPath.mLen += shift; } return NS_OK; } nsresult nsStandardURL::SetFileBaseNameInternal(const nsACString& input) { auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); nsAutoCString extension; nsresult rv = GetFileExtension(extension); NS_ENSURE_SUCCESS(rv, rv); nsAutoCString newFileName(input); if (!extension.IsEmpty()) { newFileName.Append('.'); newFileName.Append(extension); } return SetFileNameInternal(newFileName); } nsresult nsStandardURL::SetFileExtensionInternal(const nsACString& input) { auto onExitGuard = MakeScopeExit([&] { SanityCheck(); }); nsAutoCString newFileName; nsresult rv = GetFileBaseName(newFileName); NS_ENSURE_SUCCESS(rv, rv); if (!input.IsEmpty()) { newFileName.Append('.'); newFileName.Append(input); } return SetFileNameInternal(newFileName); } //---------------------------------------------------------------------------- // nsStandardURL::nsIFileURL //---------------------------------------------------------------------------- nsresult nsStandardURL::EnsureFile() { MOZ_ASSERT(mSupportsFileURL, "EnsureFile() called on a URL that doesn't support files!"); if (mFile) { // Nothing to do return NS_OK; } // Parse the spec if we don't have a cached result if (mSpec.IsEmpty()) { NS_WARNING("url not initialized"); return NS_ERROR_NOT_INITIALIZED; } if (!SegmentIs(mScheme, "file")) { NS_WARNING("not a file URL"); return NS_ERROR_FAILURE; } return net_GetFileFromURLSpec(mSpec, getter_AddRefs(mFile)); } NS_IMETHODIMP nsStandardURL::GetFile(nsIFile** result) { MOZ_ASSERT(mSupportsFileURL, "GetFile() called on a URL that doesn't support files!"); nsresult rv = EnsureFile(); if (NS_FAILED(rv)) { return rv; } if (LOG_ENABLED()) { LOG(("nsStandardURL::GetFile [this=%p spec=%s resulting_path=%s]\n", this, mSpec.get(), mFile->HumanReadablePath().get())); } // clone the file, so the caller can modify it. // XXX nsIFileURL.idl specifies that the consumer must _not_ modify the // nsIFile returned from this method; but it seems that some folks do // (see bug 161921). until we can be sure that all the consumers are // behaving themselves, we'll stay on the safe side and clone the file. // see bug 212724 about fixing the consumers. return mFile->Clone(result); } nsresult nsStandardURL::SetFile(nsIFile* file) { NS_ENSURE_ARG_POINTER(file); nsresult rv; nsAutoCString url; rv = net_GetURLSpecFromFile(file, url); if (NS_FAILED(rv)) { return rv; } uint32_t oldURLType = mURLType; uint32_t oldDefaultPort = mDefaultPort; rv = Init(nsIStandardURL::URLTYPE_NO_AUTHORITY, -1, url, nullptr, nullptr); if (NS_FAILED(rv)) { // Restore the old url type and default port if the call to Init fails. mURLType = oldURLType; mDefaultPort = oldDefaultPort; return rv; } // must clone |file| since its value is not guaranteed to remain constant InvalidateCache(); if (NS_FAILED(file->Clone(getter_AddRefs(mFile)))) { NS_WARNING("nsIFile::Clone failed"); // failure to clone is not fatal (GetFile will generate mFile) mFile = nullptr; } return NS_OK; } //---------------------------------------------------------------------------- // nsStandardURL::nsIStandardURL //---------------------------------------------------------------------------- nsresult nsStandardURL::Init(uint32_t urlType, int32_t defaultPort, const nsACString& spec, const char* charset, nsIURI* baseURI) { if (spec.Length() > StaticPrefs::network_standard_url_max_length() || defaultPort > std::numeric_limits::max()) { return NS_ERROR_MALFORMED_URI; } InvalidateCache(); switch (urlType) { case URLTYPE_STANDARD: mParser = net_GetStdURLParser(); break; case URLTYPE_AUTHORITY: mParser = net_GetAuthURLParser(); break; case URLTYPE_NO_AUTHORITY: mParser = net_GetNoAuthURLParser(); break; default: MOZ_ASSERT_UNREACHABLE("bad urlType"); return NS_ERROR_INVALID_ARG; } mDefaultPort = defaultPort; mURLType = urlType; const auto* encoding = charset ? Encoding::ForLabelNoReplacement(MakeStringSpan(charset)) : nullptr; // URI can't be encoded in UTF-16BE or UTF-16LE. Truncate encoding // if it is one of utf encodings (since a null encoding implies // UTF-8, this is safe even if encoding is UTF-8). if (IsUTFEncoding(encoding)) { encoding = nullptr; } if (baseURI && net_IsAbsoluteURL(spec)) { baseURI = nullptr; } if (!baseURI) { return SetSpecWithEncoding(spec, encoding); } nsAutoCString buf; nsresult rv = baseURI->Resolve(spec, buf); if (NS_FAILED(rv)) { return rv; } return SetSpecWithEncoding(buf, encoding); } nsresult nsStandardURL::SetDefaultPort(int32_t aNewDefaultPort) { InvalidateCache(); // should never be more than 16 bit if (aNewDefaultPort >= std::numeric_limits::max()) { return NS_ERROR_MALFORMED_URI; } // If we're already using the new default-port as a custom port, then clear // it off of our mSpec & set mPort to -1, to indicate that we'll be using // the default from now on (which happens to match what we already had). if (mPort == aNewDefaultPort) { ReplacePortInSpec(-1); mPort = -1; } mDefaultPort = aNewDefaultPort; return NS_OK; } //---------------------------------------------------------------------------- // nsStandardURL::nsISerializable //---------------------------------------------------------------------------- NS_IMETHODIMP nsStandardURL::Read(nsIObjectInputStream* stream) { MOZ_ASSERT_UNREACHABLE("Use nsIURIMutator.read() instead"); return NS_ERROR_NOT_IMPLEMENTED; } nsresult nsStandardURL::ReadPrivate(nsIObjectInputStream* stream) { MOZ_ASSERT(mDisplayHost.IsEmpty(), "Shouldn't have cached unicode host"); // If we exit early, make sure to clear the URL so we don't fail the sanity // check in the destructor auto clearOnExit = MakeScopeExit([&] { Clear(); }); nsresult rv; uint32_t urlType; rv = stream->Read32(&urlType); if (NS_FAILED(rv)) { return rv; } mURLType = urlType; switch (mURLType) { case URLTYPE_STANDARD: mParser = net_GetStdURLParser(); break; case URLTYPE_AUTHORITY: mParser = net_GetAuthURLParser(); break; case URLTYPE_NO_AUTHORITY: mParser = net_GetNoAuthURLParser(); break; default: MOZ_ASSERT_UNREACHABLE("bad urlType"); return NS_ERROR_FAILURE; } rv = stream->Read32((uint32_t*)&mPort); if (NS_FAILED(rv)) { return rv; } rv = stream->Read32((uint32_t*)&mDefaultPort); if (NS_FAILED(rv)) { return rv; } rv = NS_ReadOptionalCString(stream, mSpec); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mScheme); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mAuthority); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mUsername); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mPassword); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mHost); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mPath); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mFilepath); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mDirectory); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mBasename); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mExtension); if (NS_FAILED(rv)) { return rv; } // handle forward compatibility from older serializations that included mParam URLSegment old_param; rv = ReadSegment(stream, old_param); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mQuery); if (NS_FAILED(rv)) { return rv; } rv = ReadSegment(stream, mRef); if (NS_FAILED(rv)) { return rv; } nsAutoCString oldOriginCharset; rv = NS_ReadOptionalCString(stream, oldOriginCharset); if (NS_FAILED(rv)) { return rv; } bool isMutable; rv = stream->ReadBoolean(&isMutable); if (NS_FAILED(rv)) { return rv; } Unused << isMutable; bool supportsFileURL; rv = stream->ReadBoolean(&supportsFileURL); if (NS_FAILED(rv)) { return rv; } mSupportsFileURL = supportsFileURL; // wait until object is set up, then modify path to include the param if (old_param.mLen >= 0) { // note that mLen=0 is ";" // If this wasn't empty, it marks characters between the end of the // file and start of the query - mPath should include the param, // query and ref already. Bump the mFilePath and // directory/basename/extension components to include this. mFilepath.Merge(mSpec, ';', old_param); mDirectory.Merge(mSpec, ';', old_param); mBasename.Merge(mSpec, ';', old_param); mExtension.Merge(mSpec, ';', old_param); } rv = CheckIfHostIsAscii(); if (NS_FAILED(rv)) { return rv; } if (!IsValid()) { return NS_ERROR_MALFORMED_URI; } clearOnExit.release(); return NS_OK; } NS_IMETHODIMP nsStandardURL::Write(nsIObjectOutputStream* stream) { MOZ_ASSERT(mSpec.Length() <= StaticPrefs::network_standard_url_max_length(), "The spec should never be this long, we missed a check."); nsresult rv; rv = stream->Write32(mURLType); if (NS_FAILED(rv)) { return rv; } rv = stream->Write32(uint32_t(mPort)); if (NS_FAILED(rv)) { return rv; } rv = stream->Write32(uint32_t(mDefaultPort)); if (NS_FAILED(rv)) { return rv; } rv = NS_WriteOptionalStringZ(stream, mSpec.get()); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mScheme); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mAuthority); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mUsername); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mPassword); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mHost); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mPath); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mFilepath); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mDirectory); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mBasename); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mExtension); if (NS_FAILED(rv)) { return rv; } // for backwards compatibility since we removed mParam. Note that this will // mean that an older browser will read "" for mParam, and the param(s) will // be part of mPath (as they after the removal of special handling). It only // matters if you downgrade a browser to before the patch. URLSegment empty; rv = WriteSegment(stream, empty); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mQuery); if (NS_FAILED(rv)) { return rv; } rv = WriteSegment(stream, mRef); if (NS_FAILED(rv)) { return rv; } // former origin charset rv = NS_WriteOptionalStringZ(stream, ""); if (NS_FAILED(rv)) { return rv; } // former mMutable rv = stream->WriteBoolean(false); if (NS_FAILED(rv)) { return rv; } rv = stream->WriteBoolean(mSupportsFileURL); if (NS_FAILED(rv)) { return rv; } // mDisplayHost is just a cache that can be recovered as needed. return NS_OK; } inline ipc::StandardURLSegment ToIPCSegment( const nsStandardURL::URLSegment& aSegment) { return ipc::StandardURLSegment(aSegment.mPos, aSegment.mLen); } [[nodiscard]] inline bool FromIPCSegment( const nsACString& aSpec, const ipc::StandardURLSegment& aSegment, nsStandardURL::URLSegment& aTarget) { // This seems to be just an empty segment. if (aSegment.length() == -1) { aTarget = nsStandardURL::URLSegment(); return true; } // A value of -1 means an empty segment, but < -1 is undefined. if (NS_WARN_IF(aSegment.length() < -1)) { return false; } CheckedInt segmentLen = aSegment.position(); segmentLen += aSegment.length(); // Make sure the segment does not extend beyond the spec. if (NS_WARN_IF(!segmentLen.isValid() || segmentLen.value() > aSpec.Length())) { return false; } aTarget.mPos = aSegment.position(); aTarget.mLen = aSegment.length(); return true; } void nsStandardURL::Serialize(URIParams& aParams) { MOZ_ASSERT(mSpec.Length() <= StaticPrefs::network_standard_url_max_length(), "The spec should never be this long, we missed a check."); StandardURLParams params; params.urlType() = mURLType; params.port() = mPort; params.defaultPort() = mDefaultPort; params.spec() = mSpec; params.scheme() = ToIPCSegment(mScheme); params.authority() = ToIPCSegment(mAuthority); params.username() = ToIPCSegment(mUsername); params.password() = ToIPCSegment(mPassword); params.host() = ToIPCSegment(mHost); params.path() = ToIPCSegment(mPath); params.filePath() = ToIPCSegment(mFilepath); params.directory() = ToIPCSegment(mDirectory); params.baseName() = ToIPCSegment(mBasename); params.extension() = ToIPCSegment(mExtension); params.query() = ToIPCSegment(mQuery); params.ref() = ToIPCSegment(mRef); params.supportsFileURL() = !!mSupportsFileURL; params.isSubstituting() = false; // mDisplayHost is just a cache that can be recovered as needed. aParams = params; } bool nsStandardURL::Deserialize(const URIParams& aParams) { MOZ_ASSERT(mDisplayHost.IsEmpty(), "Shouldn't have cached unicode host"); MOZ_ASSERT(!mFile, "Shouldn't have cached file"); if (aParams.type() != URIParams::TStandardURLParams) { NS_ERROR("Received unknown parameters from the other process!"); return false; } // If we exit early, make sure to clear the URL so we don't fail the sanity // check in the destructor auto clearOnExit = MakeScopeExit([&] { Clear(); }); const StandardURLParams& params = aParams.get_StandardURLParams(); mURLType = params.urlType(); switch (mURLType) { case URLTYPE_STANDARD: mParser = net_GetStdURLParser(); break; case URLTYPE_AUTHORITY: mParser = net_GetAuthURLParser(); break; case URLTYPE_NO_AUTHORITY: mParser = net_GetNoAuthURLParser(); break; default: MOZ_ASSERT_UNREACHABLE("bad urlType"); return false; } mPort = params.port(); mDefaultPort = params.defaultPort(); mSpec = params.spec(); NS_ENSURE_TRUE( mSpec.Length() <= StaticPrefs::network_standard_url_max_length(), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.scheme(), mScheme), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.authority(), mAuthority), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.username(), mUsername), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.password(), mPassword), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.host(), mHost), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.path(), mPath), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.filePath(), mFilepath), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.directory(), mDirectory), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.baseName(), mBasename), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.extension(), mExtension), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.query(), mQuery), false); NS_ENSURE_TRUE(FromIPCSegment(mSpec, params.ref(), mRef), false); mSupportsFileURL = params.supportsFileURL(); nsresult rv = CheckIfHostIsAscii(); if (NS_FAILED(rv)) { return false; } // Some sanity checks NS_ENSURE_TRUE(mScheme.mPos == 0, false); NS_ENSURE_TRUE(mScheme.mLen > 0, false); // Make sure scheme is followed by :// (3 characters) NS_ENSURE_TRUE(mScheme.mLen < INT32_MAX - 3, false); // avoid overflow NS_ENSURE_TRUE(mSpec.Length() >= (uint32_t)mScheme.mLen + 3, false); NS_ENSURE_TRUE( nsDependentCSubstring(mSpec, mScheme.mLen, 3).EqualsLiteral("://"), false); NS_ENSURE_TRUE(mPath.mLen != -1 && mSpec.CharAt(mPath.mPos) == '/', false); NS_ENSURE_TRUE(mPath.mPos == mFilepath.mPos, false); NS_ENSURE_TRUE(mQuery.mLen == -1 || (mQuery.mPos > 0 && mSpec.CharAt(mQuery.mPos - 1) == '?'), false); NS_ENSURE_TRUE( mRef.mLen == -1 || (mRef.mPos > 0 && mSpec.CharAt(mRef.mPos - 1) == '#'), false); if (!IsValid()) { return false; } clearOnExit.release(); return true; } //---------------------------------------------------------------------------- // nsStandardURL::nsISizeOf //---------------------------------------------------------------------------- size_t nsStandardURL::SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const { return mSpec.SizeOfExcludingThisIfUnshared(aMallocSizeOf) + mDisplayHost.SizeOfExcludingThisIfUnshared(aMallocSizeOf); // Measurement of the following members may be added later if DMD finds it is // worthwhile: // - mParser // - mFile } size_t nsStandardURL::SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } } // namespace net } // namespace mozilla // For unit tests. Including nsStandardURL.h seems to cause problems nsresult Test_NormalizeIPv4(const nsACString& host, nsCString& result) { return mozilla::net::nsStandardURL::NormalizeIPv4(host, result); }