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author | Benjamin C Meyer <benjamin.meyer@torchmobile.com> | 2009-02-26 17:21:37 (GMT) |
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committer | Peter Hartmann <peter.hartmann@trolltech.com> | 2009-03-30 15:44:22 (GMT) |
commit | 0fe33578f03a0966c42f9fc44d80a49495f87878 (patch) | |
tree | b88c670c4280d8df3f0699056b58359fe319af58 /src | |
parent | b790584708a8090211c1897e85f8b3d6df7afa29 (diff) | |
download | Qt-0fe33578f03a0966c42f9fc44d80a49495f87878.zip Qt-0fe33578f03a0966c42f9fc44d80a49495f87878.tar.gz Qt-0fe33578f03a0966c42f9fc44d80a49495f87878.tar.bz2 |
Change cookie expiration reading to match the behavior of Firefox. Rather then only allowing the three date formats that are in the rfc allow a much wider set of date strings. Because many browsers support this many websites send dates strings that are not in the rfc format.
See documentation in parseDateString for more details about the implementation.
Signed-off-by: Thiago Macieira <thiago.macieira@nokia.com>
Signed-off-by: Peter Hartmann <peter.hartmann@trolltech.com>
Diffstat (limited to 'src')
-rw-r--r-- | src/network/access/qnetworkcookie.cpp | 437 |
1 files changed, 384 insertions, 53 deletions
diff --git a/src/network/access/qnetworkcookie.cpp b/src/network/access/qnetworkcookie.cpp index a327bc0..b127f18 100644 --- a/src/network/access/qnetworkcookie.cpp +++ b/src/network/access/qnetworkcookie.cpp @@ -49,6 +49,7 @@ #include "QtCore/qlist.h" #include "QtCore/qlocale.h" #include "QtCore/qstring.h" +#include "QtCore/qstringlist.h" #include "QtCore/qurl.h" #include "private/qobject_p.h" @@ -513,6 +514,385 @@ QByteArray QNetworkCookie::toRawForm(RawForm form) const return result; } +static const char zones[] = + "pst\0" // -8 + "pdt\0" + "mst\0" // -7 + "mdt\0" + "cst\0" // -6 + "cdt\0" + "est\0" // -5 + "edt\0" + "ast\0" // -4 + "nst\0" // -3 + "gmt\0" // 0 + "utc\0" + "bst\0" + "met\0" // 1 + "eet\0" // 2 + "jst\0" // 9 + "\0"; +static int zoneOffsets[] = {-8, -8, -7, -7, -6, -6, -5, -5, -4, -3, 0, 0, 0, 1, 2, 9 }; + +static const char months[] = + "jan\0" + "feb\0" + "mar\0" + "apr\0" + "may\0" + "jun\0" + "jul\0" + "aug\0" + "sep\0" + "oct\0" + "nov\0" + "dec\0" + "\0"; + +static inline bool isNumber(char s) { return s >= '0' && s <= '9'; } +static inline bool isTerminator (char c) { return c == '\n' || c == '\r'; } +static inline bool isValueSeparator (char c) { return isTerminator(c) || c == ';'; } +static inline bool isWhitespace (char c) { return c == ' ' || c == '\t'; } + +static bool checkStaticArray(int &val, const QByteArray &dateString, int at, const char *array, size_t size) { + if (dateString[at] < 'a' || dateString[at] > 'z') + return false; + if (val == -1 && dateString.length() >= at + 3) { + int j = 0; + size_t i = 0; + while (i <= size) { + const char *str(array + i); + if (str[0] == dateString[at] + && str[1] == dateString[at + 1] + && str[2] == dateString[at + 2]) { + val = j; + return true; + } + i += strlen(str) + 1; + ++j; + } + } + return false; +} + +//#define PARSEDATESTRINGDEBUG + +#define ADAY 1 +#define AMONTH 2 +#define AYEAR 4 + +/* + Parse all the date formats that Firefox can. + + The official format is: + expires=ddd(d)?, dd-MMM-yyyy hh:mm:ss GMT + + But browsers have been supporting a very wide range of date + strings. To work on many sites we need to support more then + just the official date format. + + For reference see Firefox's PR_ParseTimeStringToExplodedTime in + prtime.c. The Firefox date parser is coded in a very complex way + and is slightly over ~700 lines long. While this implementation + will be slightly slower for the non standard dates it is smaller, + more readable, and maintainable. + + Or in their own words: + "} // else what the hell is this." +*/ +static QDateTime parseDateString(const QByteArray &dateString) +{ + QTime time; + // placeholders for values when we are not sure it is a year, month or day + int unknown[3] = {-1, -1, -1}; + int month = -1; + int day = -1; + int year = -1; + int zoneOffset = -1; + + // hour:minute:second.ms pm + QRegExp timeRx(QLatin1String("(\\d{1,2}):(\\d{1,2})(:(\\d{1,2})|)(\\.(\\d{1,3})|)((\\s{0,}(am|pm))|)")); + + int at = 0; + while (at < dateString.length()) { +#ifdef PARSEDATESTRINGDEBUG + qDebug() << dateString.mid(at); +#endif + bool isNum = isNumber(dateString[at]); + + // Month + if (!isNum + && checkStaticArray(month, dateString, at, months, sizeof(months)- 1)) { + ++month; +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Month:" << month; +#endif + at += 3; + continue; + } + // Zone + if (!isNum + && zoneOffset == -1 + && checkStaticArray(zoneOffset, dateString, at, zones, sizeof(zones)- 1)) { + int sign = (at >= 0 && dateString[at - 1] == '-') ? -1 : 1; + zoneOffset = sign * zoneOffsets[zoneOffset] * 60 * 60; +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Zone:" << month; +#endif + at += 3; + continue; + } + // Zone offset + if (!isNum + && (zoneOffset == -1 || zoneOffset == 0) // Can only go after gmt + && (dateString[at] == '+' || dateString[at] == '-') + && (at == 0 + || isWhitespace(dateString[at - 1]) + || dateString[at - 1] == ',' + || (dateString[at - 1] == 't'))) { + + int end = 1; + while (dateString[at + end] >= '0' && dateString[at + end] <= '9' + && end < 5) + ++end; + int minutes = 0; + int hours = 0; + switch (end - 1) { + case 4: + minutes = atoi(dateString.mid(at + 3, 2).constData()); + // fall through + case 2: + hours = atoi(dateString.mid(at + 1, 2).constData()); + break; + case 1: + hours = atoi(dateString.mid(at + 1, 1).constData()); + break; + default: + at += end; + continue; + } + if (end != 1) { + int sign = dateString[at] == '-' ? -1 : 1; + zoneOffset = sign * ((minutes * 60) + (hours * 60 * 60)); +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Zone offset:" << zoneOffset << hours << minutes; +#endif + at += end; + continue; + } + } + + // Time + if (isNum && time.isNull() + && dateString.length() >= at + 3 + && (dateString[at + 2] == ':' || dateString[at + 1] == ':')) { + // While the date can be found all over the string the format + // for the time is set and a nice regexp can be used. + int pos = timeRx.indexIn(QLatin1String(dateString), at); + if (pos != -1) { + QStringList list = timeRx.capturedTexts(); + int h = atoi(list.at(1).toLatin1().constData()); + int m = atoi(list.at(2).toLatin1().constData()); + int s = atoi(list.at(4).toLatin1().constData()); + int ms = atoi(list.at(6).toLatin1().constData()); + if (h < 12 && !list.at(9).isEmpty()) + if (list.at(9) == QLatin1String("pm")) + h += 12; + time = QTime(h, m, s, ms); +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Time:" << list << timeRx.matchedLength(); +#endif + at += timeRx.matchedLength(); + continue; + } + } + + // 4 digit Year + if (isNum + && year == -1 + && dateString.length() >= at + 3) { + if (isNumber(dateString[at + 1]) + && isNumber(dateString[at + 2]) + && isNumber(dateString[at + 3])) { + year = atoi(dateString.mid(at, 4).constData()); + at += 4; +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Year:" << year; +#endif + continue; + } + } + + // a one or two digit number + // Could be month, day or year + if (isNum) { + int length = 1; + if (dateString.length() >= at + 1 + && isNumber(dateString[at + 1])) + ++length; + int x = atoi(dateString.mid(at, length).constData()); + if (year == -1 && (x > 31 || x == 0)) { + year = x; + } else { + if (unknown[0] == -1) unknown[0] = x; + else if (unknown[1] == -1) unknown[1] = x; + else if (unknown[2] == -1) unknown[2] = x; + } + at += length; +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Saving" << x; +#endif + continue; + } + + // Unknown character, typically a weekday such as 'Mon' + ++at; + } + + // Once we are done parsing the string take the digits in unknown + // and determine which is the unknown year/month/day + + int couldBe[3] = { 0, 0, 0 }; + int unknownCount = 3; + for (int i = 0; i < unknownCount; ++i) { + if (unknown[i] == -1) { + couldBe[i] = ADAY | AYEAR | AMONTH; + unknownCount = i; + continue; + } + + if (unknown[i] >= 1) + couldBe[i] = ADAY; + + if (month == -1 && unknown[i] >= 1 && unknown[i] <= 12) + couldBe[i] |= AMONTH; + + if (year == -1) + couldBe[i] |= AYEAR; + } + + // For any possible day make sure one of the values that could be a month + // can contain that day. + // For any possible month make sure one of the values that can be a + // day that month can have. + // Example: 31 11 06 + // 31 can't be a day because 11 and 6 don't have 31 days + for (int i = 0; i < unknownCount; ++i) { + int currentValue = unknown[i]; + bool findMatchingMonth = couldBe[i] & ADAY && currentValue >= 29; + bool findMatchingDay = couldBe[i] & AMONTH; + if (!findMatchingMonth || !findMatchingDay) + continue; + for (int j = 0; j < 3; ++j) { + if (j == i) + continue; + for (int k = 0; k < 2; ++k) { + if (k == 0 && !(findMatchingMonth && (couldBe[j] & AMONTH))) + continue; + else if (k == 1 && !(findMatchingDay && (couldBe[j] & ADAY))) + continue; + int m = currentValue; + int d = unknown[j]; + if (k == 0) + qSwap(m, d); + if (m == -1) m = month; + bool found = true; + switch(m) { + case 2: + // When we get 29 and the year ends up having only 28 + // See date.isValid below + // Example: 29 23 Feb + if (d <= 29) + found = false; + break; + case 4: case 6: case 9: case 11: + if (d <= 30) + found = false; + break; + default: + if (d > 0 && d <= 31) + found = false; + } + if (k == 0) findMatchingMonth = found; + else if (k == 1) findMatchingDay = found; + } + } + if (findMatchingMonth) + couldBe[i] &= ~ADAY; + if (findMatchingDay) + couldBe[i] &= ~AMONTH; + } + + // First set the year/month/day that have been deduced + // and reduce the set as we go along to deduce more + for (int i = 0; i < unknownCount; ++i) { + int unset = 0; + for (int j = 0; j < 3; ++j) { + if (couldBe[j] == ADAY && day == -1) { + day = unknown[j]; + unset |= ADAY; + } else if (couldBe[j] == AMONTH && month == -1) { + month = unknown[j]; + unset |= AMONTH; + } else if (couldBe[j] == AYEAR && year == -1) { + year = unknown[j]; + unset |= AYEAR; + } else { + // common case + break; + } + couldBe[j] &= ~unset; + } + } + + // Now fallback to a standardized order to fill in the rest with + for (int i = 0; i < unknownCount; ++i) { + if (couldBe[i] & AMONTH && month == -1) month = unknown[i]; + else if (couldBe[i] & ADAY && day == -1) day = unknown[i]; + else if (couldBe[i] & AYEAR && year == -1) year = unknown[i]; + } +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Final set" << year << month << day; +#endif + + if (year == -1 || month == -1 || day == -1) { +#ifdef PARSEDATESTRINGDEBUG + qDebug() << "Parser failure" << year << month << day; +#endif + return QDateTime(); + } + + // Y2k behavior + int y2k = 0; + if (year < 70) + y2k = 2000; + else if (year < 100) + y2k = 1900; + + QDate date(year + y2k, month, day); + + // When we were given a bad cookie that when parsed + // set the day to 29 and the year to one that doesn't + // have the 29th of Feb rather then adding the extra + // complicated checking earlier just swap here. + // Example: 29 23 Feb + if (!date.isValid()) + date = QDate(day + y2k, month, year); + + QDateTime dateTime; + + if (zoneOffset == -1) { + dateTime = QDateTime(date, time); + dateTime = dateTime.toTimeSpec(Qt::UTC); + } else { + dateTime = QDateTime(date, time, Qt::UTC); + dateTime = dateTime.addSecs(zoneOffset); + } + if (!dateTime.isValid()) + return QDateTime(); + return dateTime; +} + /*! Parses the cookie string \a cookieString as received from a server response in the "Set-Cookie:" header. If there's a parsing error, @@ -572,64 +952,15 @@ QList<QNetworkCookie> QNetworkCookie::parseCookies(const QByteArray &cookieStrin field.first = field.first.toLower(); // everything but the NAME=VALUE is case-insensitive if (field.first == "expires") { - static const char dateFormats[] = - "d-MMM-yyyy hh:mm:ss\0" - "d MMM yyyy hh:mm:ss\0" - "d-MMM-yy hh:mm:ss\0" - "\0"; - - // expires is a special case because it contains a naked comma - // and naked spaces. The format is: - // expires=ddd(d)?, dd-MMM-yyyy hh:mm:ss GMT - // but we also accept standard HTTP dates - - // make sure we're at the comma - if (position >= length || cookieString.at(position) != ',') - // invalid cookie string - return QList<QNetworkCookie>(); - - ++position; + position -= field.second.length(); int end; for (end = position; end < length; ++end) - if (cookieString.at(end) == ',' || cookieString.at(end) == ';') + if (isValueSeparator(cookieString.at(end))) break; - QByteArray datestring = cookieString.mid(position, end - position).trimmed(); + QByteArray dateString = cookieString.mid(position, end - position).trimmed(); position = end; - if (datestring.endsWith(" GMT") || datestring.endsWith(" UTC")) - datestring.chop(4); - else if (datestring.endsWith(" +0000")) - datestring.chop(6); - - size_t i = 0; - int j = 0; - QLocale cLocale = QLocale::c(); - QDateTime dt; - do { - QLatin1String df(dateFormats + i); - i += strlen(dateFormats + i) + 1; - -#ifndef QT_NO_DATESTRING - dt = cLocale.toDateTime(QString::fromLatin1(datestring), df); - - // some cookies are set with a two-digit year - // (although this is not allowed); this is interpreted as a year - // in the 20th century by QDateTime. - // Work around this case here (assuming 00-69 is 21st century, - // 70-99 is 20th century) - QDate date = dt.date(); - if (j == 2 && date.year() >= 1900 && date.year() < 1970) - dt = dt.addYears(100); - if (date.year() >= 0 && date.year() < 100) - dt = dt.addYears(1900); -#endif - j++; - } while (!dt.isValid() && i <= sizeof dateFormats - 1); - if (!dt.isValid()) - // invalid cookie string - return QList<QNetworkCookie>(); - - dt.setTimeSpec(Qt::UTC); + QDateTime dt = parseDateString(dateString.toLower()); cookie.setExpirationDate(dt); } else if (field.first == "domain") { QByteArray rawDomain = field.second; |