status_t
BNetworkCookieJar::AddCookie(BNetworkCookie* cookie)
{
if (cookie == NULL)
return B_BAD_VALUE;
HashString key(cookie->Domain());
BNetworkCookieList* list = fCookieHashMap->fHashMap.Get(key);
if (list == NULL) {
list = new(std::nothrow) BNetworkCookieList();
if (list == NULL || fCookieHashMap->fHashMap.Put(key, list) != B_OK)
return B_NO_MEMORY;
}
for (int32 i = 0; i < list->CountItems(); i++) {
BNetworkCookie* c
= reinterpret_cast<BNetworkCookie*>(list->ItemAt(i));
if (c->Name() == cookie->Name() && c->Path() == cookie->Path()) {
list->RemoveItem(i);
break;
}
}
if (cookie->ShouldDeleteNow())
delete cookie;
else
list->AddItem(cookie);
return B_OK;
}
uint32
BNetworkCookieJar::PurgeForExit()
{
int32 deleteCount = 0;
BNetworkCookie* cookiePtr;
for (Iterator it = GetIterator(); (cookiePtr = it.Next()) != NULL;) {
if (cookiePtr->ShouldDeleteAtExit()) {
delete it.Remove();
deleteCount++;
}
}
return deleteCount;
}
uint32
BNetworkCookieJar::DeleteOutdatedCookies()
{
int32 deleteCount = 0;
BNetworkCookie* cookiePtr;
for (Iterator it = GetIterator(); (cookiePtr = it.Next()) != NULL;) {
if (cookiePtr->ShouldDeleteNow()) {
delete it.Remove();
deleteCount++;
}
}
return deleteCount;
}
status_t
BNetworkCookieJar::Archive(BMessage* into, bool deep) const
{
status_t error = BArchivable::Archive(into, deep);
if (error == B_OK) {
BNetworkCookie* cookiePtr;
for (Iterator it = GetIterator(); (cookiePtr = it.Next()) != NULL;) {
BMessage subArchive;
error = cookiePtr->Archive(&subArchive, deep);
if (error != B_OK)
return error;
error = into->AddMessage(kArchivedCookieMessageName, &subArchive);
if (error != B_OK)
return error;
}
}
return error;
}
void
BNetworkCookieJar::_DoFlatten() const
{
fFlattened.Truncate(0);
BNetworkCookie* cookiePtr;
for (Iterator it = GetIterator(); (cookiePtr = it.Next()) != NULL;) {
fFlattened << cookiePtr->Domain() << '\t' << "TRUE" << '\t'
<< cookiePtr->Path() << '\t'
<< (cookiePtr->Secure()?"TRUE":"FALSE") << '\t'
<< (int32)cookiePtr->ExpirationDate() << '\t'
<< cookiePtr->Name() << '\t' << cookiePtr->Value() << '\n';
}
}
CookieRow(BColumnListView* list, const BNetworkCookie& cookie)
:
BRow(),
fCookie(cookie)
{
list->AddRow(this);
SetField(new BStringField(cookie.Name().String()), 0);
SetField(new BStringField(cookie.Path().String()), 1);
time_t expiration = cookie.ExpirationDate();
SetField(new BDateField(&expiration), 2);
SetField(new BStringField(cookie.Value().String()), 3);
BString flags;
if (cookie.Secure())
flags = "https ";
if (cookie.HttpOnly())
flags = "http ";
if (cookie.IsHostOnly())
flags += "hostOnly";
SetField(new BStringField(flags.String()), 4);
}
void
BUrlProtocolHttp::_AddHeaders()
{
// HTTP 1.1 additional headers
if (fHttpVersion == B_HTTP_11) {
fOutputHeaders.AddHeader("Host", Url().Host());
fOutputHeaders.AddHeader("Accept", "*/*");
fOutputHeaders.AddHeader("Accept-Encoding", "chunked");
// Allow the remote server to send dynamic content by chunks
// rather than waiting for the full content to be generated and
// sending us data.
fOutputHeaders.AddHeader("Connection", "close");
// Let the remote server close the connection after response since
// we don't handle multiple request on a single connection
}
// Classic HTTP headers
if (fOptUserAgent.CountChars() > 0)
fOutputHeaders.AddHeader("User-Agent", fOptUserAgent.String());
if (fOptReferer.CountChars() > 0)
fOutputHeaders.AddHeader("Referer", fOptReferer.String());
// Authentication
if (fAuthentication.Method() != B_HTTP_AUTHENTICATION_NONE) {
BString request;
switch (fRequestMethod) {
case B_HTTP_POST:
request = "POST";
break;
case B_HTTP_PUT:
request = "PUT";
break;
default:
case B_HTTP_GET:
request = "GET";
break;
}
fOutputHeaders.AddHeader("Authorization",
fAuthentication.Authorization(fUrl, request));
}
// Required headers for POST data
if (fOptPostFields != NULL && fRequestMethod == B_HTTP_POST) {
BString contentType;
switch (fOptPostFields->GetFormType()) {
case B_HTTP_FORM_MULTIPART:
contentType << "multipart/form-data; boundary="
<< fOptPostFields->GetMultipartBoundary() << "";
break;
case B_HTTP_FORM_URL_ENCODED:
contentType << "application/x-www-form-urlencoded";
break;
}
fOutputHeaders.AddHeader("Content-Type", contentType);
fOutputHeaders.AddHeader("Content-Length",
fOptPostFields->ContentLength());
} else if (fOptInputData != NULL
&& (fRequestMethod == B_HTTP_POST || fRequestMethod == B_HTTP_PUT))
fOutputHeaders.AddHeader("Transfer-Encoding", "chunked");
// Request headers
for (int32 headerIndex = 0;
headerIndex < fRequestHeaders.CountHeaders();
headerIndex++) {
BHttpHeader& optHeader = fRequestHeaders[headerIndex];
int32 replaceIndex = fOutputHeaders.HasHeader(optHeader.Name());
// Add or replace the current option header to the
// output header list
if (replaceIndex == -1)
fOutputHeaders.AddHeader(optHeader.Name(), optHeader.Value());
else
fOutputHeaders[replaceIndex].SetValue(optHeader.Value());
}
// Optional headers specified by the user
if (fOptHeaders != NULL) {
for (int32 headerIndex = 0;
headerIndex < fOptHeaders->CountHeaders();
headerIndex++) {
BHttpHeader& optHeader = (*fOptHeaders)[headerIndex];
int32 replaceIndex = fOutputHeaders.HasHeader(optHeader.Name());
// Add or replace the current option header to the
// output header list
if (replaceIndex == -1)
fOutputHeaders.AddHeader(optHeader.Name(), optHeader.Value());
else
fOutputHeaders[replaceIndex].SetValue(optHeader.Value());
}
}
// Context cookies
if (fOptSetCookies && (fContext != NULL)) {
BNetworkCookie* cookie;
for (BNetworkCookieJar::UrlIterator
it(fContext->GetCookieJar().GetUrlIterator(fUrl));
(cookie = it.Next()) != NULL;
)
fOutputHeaders.AddHeader("Cookie", cookie->RawCookie(false));
}
// Write output headers to output stream
for (int32 headerIndex = 0;
headerIndex < fOutputHeaders.CountHeaders();
headerIndex++)
_AddOutputBufferLine(fOutputHeaders.HeaderAt(headerIndex).Header());
}
void
BHttpRequest::_SendHeaders()
{
// HTTP 1.1 additional headers
if (fHttpVersion == B_HTTP_11) {
fOutputHeaders.AddHeader("Host", Url().Host());
fOutputHeaders.AddHeader("Accept", "*/*");
fOutputHeaders.AddHeader("Accept-Encoding", "gzip,deflate");
// Allow the remote server to send dynamic content by chunks
// rather than waiting for the full content to be generated and
// sending us data.
fOutputHeaders.AddHeader("Connection", "close");
// Let the remote server close the connection after response since
// we don't handle multiple request on a single connection
}
// Classic HTTP headers
if (fOptUserAgent.CountChars() > 0)
fOutputHeaders.AddHeader("User-Agent", fOptUserAgent.String());
if (fOptReferer.CountChars() > 0)
fOutputHeaders.AddHeader("Referer", fOptReferer.String());
// Authentication
if (fContext != NULL) {
BHttpAuthentication& authentication = fContext->GetAuthentication(fUrl);
if (authentication.Method() != B_HTTP_AUTHENTICATION_NONE) {
if (fOptUsername.Length() > 0) {
authentication.SetUserName(fOptUsername);
authentication.SetPassword(fOptPassword);
}
BString request(fRequestMethod);
fOutputHeaders.AddHeader("Authorization",
authentication.Authorization(fUrl, request));
}
}
// Required headers for POST data
if (fOptPostFields != NULL && fRequestMethod == B_HTTP_POST) {
BString contentType;
switch (fOptPostFields->GetFormType()) {
case B_HTTP_FORM_MULTIPART:
contentType << "multipart/form-data; boundary="
<< fOptPostFields->GetMultipartBoundary() << "";
break;
case B_HTTP_FORM_URL_ENCODED:
contentType << "application/x-www-form-urlencoded";
break;
}
fOutputHeaders.AddHeader("Content-Type", contentType);
fOutputHeaders.AddHeader("Content-Length",
fOptPostFields->ContentLength());
} else if (fOptInputData != NULL
&& (fRequestMethod == B_HTTP_POST
|| fRequestMethod == B_HTTP_PUT)) {
if (fOptInputDataSize >= 0)
fOutputHeaders.AddHeader("Content-Length", fOptInputDataSize);
else
fOutputHeaders.AddHeader("Transfer-Encoding", "chunked");
}
// Optional headers specified by the user
if (fOptHeaders != NULL) {
for (int32 headerIndex = 0; headerIndex < fOptHeaders->CountHeaders();
headerIndex++) {
BHttpHeader& optHeader = (*fOptHeaders)[headerIndex];
int32 replaceIndex = fOutputHeaders.HasHeader(optHeader.Name());
// Add or replace the current option header to the
// output header list
if (replaceIndex == -1)
fOutputHeaders.AddHeader(optHeader.Name(), optHeader.Value());
else
fOutputHeaders[replaceIndex].SetValue(optHeader.Value());
}
}
// Context cookies
if (fOptSetCookies && fContext != NULL) {
BString cookieString;
BNetworkCookieJar::UrlIterator iterator
= fContext->GetCookieJar().GetUrlIterator(fUrl);
BNetworkCookie* cookie = iterator.Next();
if (cookie != NULL) {
while (true) {
cookieString << cookie->RawCookie(false);
cookie = iterator.Next();
if (cookie == NULL)
break;
cookieString << "; ";
}
fOutputHeaders.AddHeader("Cookie", cookieString);
}
}
// Write output headers to output stream
for (int32 headerIndex = 0; headerIndex < fOutputHeaders.CountHeaders();
headerIndex++) {
const char* header = fOutputHeaders.HeaderAt(headerIndex).Header();
fSocket->Write(header, strlen(header));
fSocket->Write("\r\n", 2);
_EmitDebug(B_URL_PROTOCOL_DEBUG_HEADER_OUT, "%s", header);
}
}
status_t
BNetworkCookieJar::Unflatten(type_code, const void* buffer, ssize_t size)
{
BString flattenedCookies;
flattenedCookies.SetTo(reinterpret_cast<const char*>(buffer), size);
while (flattenedCookies.Length() > 0) {
BNetworkCookie tempCookie;
BString tempCookieLine;
int32 endOfLine = flattenedCookies.FindFirst('\n', 0);
if (endOfLine == -1)
tempCookieLine = flattenedCookies;
else {
flattenedCookies.MoveInto(tempCookieLine, 0, endOfLine);
flattenedCookies.Remove(0, 1);
}
if (tempCookieLine.Length() != 0 && tempCookieLine[0] != '#') {
for (int32 field = 0; field < 7; field++) {
BString tempString;
int32 endOfField = tempCookieLine.FindFirst('\t', 0);
if (endOfField == -1)
tempString = tempCookieLine;
else {
tempCookieLine.MoveInto(tempString, 0, endOfField);
tempCookieLine.Remove(0, 1);
}
switch (field) {
case 0:
tempCookie.SetDomain(tempString);
break;
case 1:
// TODO: Useless field ATM
break;
case 2:
tempCookie.SetPath(tempString);
break;
case 3:
tempCookie.SetSecure(tempString == "TRUE");
break;
case 4:
tempCookie.SetExpirationDate(atoi(tempString));
break;
case 5:
tempCookie.SetName(tempString);
break;
case 6:
tempCookie.SetValue(tempString);
break;
} // switch
} // for loop
AddCookie(tempCookie);
}
}
return B_OK;
}
void
CookieTest::ExplodeTest()
{
struct Test {
const char* cookieString;
const char* url;
struct
{
bool valid;
const char* name;
const char* value;
const char* domain;
const char* path;
bool secure;
bool httponly;
bool session;
BDateTime expire;
} expected;
};
Test tests[] = {
// Cookie string URL
// ------------- -------------
// Valid Name Value Domain Path Secure HttpOnly Session Expiration
// --------- -------- --------- ----------------- --------- -------- -------- ------- ----------
// Normal cookies
{ "name=value", "http://www.example.com/path/path",
{ true, "name", "value", "www.example.com", "/path", false, false, true, BDateTime() } },
{ "name=value; domain=example.com; path=/; secure", "http://www.example.com/path/path",
{ true, "name", "value", "example.com", "/" , true, false, true, BDateTime() } },
{ "name=value; httponly; secure", "http://www.example.com/path/path",
{ true, "name", "value", "www.example.com", "/path", true, true, true, BDateTime() } },
{ "name=value; expires=Wed, 20-Feb-2013 20:00:00 UTC", "http://www.example.com/path/path",
{ true, "name", "value", "www.example.com", "/path", false, false, false,
BDateTime(BDate(2013, 2, 20), BTime(20, 0, 0, 0)) } },
// Valid cookie with bad form
{ "name= ; domain =example.com ;path=/; secure = yup ; blahblah ;)", "http://www.example.com/path/path",
{ true, "name", "", "example.com", "/" , true, false, true, BDateTime() } },
// Invalid path
{ "name=value; path=invalid", "http://www.example.com/path/path",
{ false, "name", "value", "www.example.com", "/path", false, false, true, BDateTime() } },
// Setting for other subdomain (invalid)
{ "name=value; domain=subdomain.example.com", "http://www.example.com/path/path",
{ false, "name", "value", "www.example.com", "/path", false, false, true, BDateTime() } },
// Various invalid cookies
{ "name", "http://www.example.com/path/path",
{ false, "name", "value", "www.example.com", "/path", false, false, true, BDateTime() } },
{ "; domain=example.com", "http://www.example.com/path/path",
{ false, "name", "value", "www.example.com", "/path", false, false, true, BDateTime() } }
};
BNetworkCookie cookie;
for (uint32 i = 0; i < (sizeof(tests) / sizeof(Test)); i++) {
NextSubTest();
BUrl url(tests[i].url);
cookie.ParseCookieString(tests[i].cookieString, url);
CPPUNIT_ASSERT(tests[i].expected.valid == cookie.IsValid());
if (!tests[i].expected.valid)
continue;
CPPUNIT_ASSERT_EQUAL(BString(tests[i].expected.name), cookie.Name());
CPPUNIT_ASSERT_EQUAL(BString(tests[i].expected.value), cookie.Value());
CPPUNIT_ASSERT_EQUAL(BString(tests[i].expected.domain),
cookie.Domain());
CPPUNIT_ASSERT_EQUAL(BString(tests[i].expected.path), cookie.Path());
CPPUNIT_ASSERT(tests[i].expected.secure == cookie.Secure());
CPPUNIT_ASSERT(tests[i].expected.httponly == cookie.HttpOnly());
CPPUNIT_ASSERT(tests[i].expected.session == cookie.IsSessionCookie());
if (!cookie.IsSessionCookie())
CPPUNIT_ASSERT_EQUAL(tests[i].expected.expire.Time_t(),
cookie.ExpirationDate());
}
}
void
CookieTest::PathMatchingTest()
{
const BUrl url("http://testsuites.opera.com/cookies/302/302.php");
const BUrl url1("http://testsuites.opera.com/cookies/302-5.php");
const BUrl url2("http://testsuites.opera.com/cookies/302/302-3.php");
const BUrl url3("http://testsuites.opera.com/cookies/302/sub/302-4.php");
const BUrl url4("http://testsuites.opera.com/cookies/302-2/302-6.php");
BNetworkCookie cookie;
status_t result;
BString bigData("302-24=1; Path=\"/cookies/302/");
for (int i = 0; i < 1500; i++)
bigData << "abcdefghijklmnopqrstuvwxyz";
bigData << "\";";
struct Test {
const char* cookieString;
bool canSet;
bool url1;
bool url2;
bool url3;
bool url4;
};
const Test tests[] = {
{ "302-01=1; Path=\"/\"",
true, true, true, true, true },
{ "302-02=1; Path=\"/cookies\"",
true, true, true, true, true },
{ "302-03=1; Path=\"/cookies/\"",
true, true, true, true, true },
{ "302-04=1; Path=\"/cookies/302\"",
true, false, true, true, true },
{ "302-05=1; Path=\"/cookies/302/\"",
true, false, true, true, false },
{ "302-06=1; Path=\"/cookies/302/.\"",
false, false, false, false, false },
{ "302-07=1; Path=\"/cookies/302/../302\"",
false, false, false, false, false },
{ "302-08=1; Path=\"/cookies/302/../302-2\"",
false, false, false, false, false },
{ "302-09=1; Path=\"/side\"",
false, false, false, false, false },
{ "302-10=1; Path=\"/cookies/302-2\"",
true, false, false, false, true },
{ "302-11=1; Path=\"/cookies/302-2/\"",
true, false, false, false, true },
{ "302-12=1; Path=\"sub\"",
false, false, false, false, false },
{ "302-13=1; Path=\"sub/\"",
false, false, false, false, false },
{ "302-14=1; Path=\".\"",
false, false, false, false, false },
{ "302-15=1; Path=\"/cookies/302/sub\"",
true, false, false, true, false },
{ "302-16=1; Path=\"/cookies/302/sub/\"",
true, false, false, true, false },
{ "302-17=1; Path=\"/cookies/302/sub/..\"",
false, false, false, false, false },
{ "302-18=1; Path=/",
true, true, true, true, true },
{ "302-19=1; Path=/ /",
false, false, false, false, false },
{ "302-20=1; Path=\"/",
false, false, false, false, false },
{ "302-21=1; Path=/\"",
false, false, false, false, false },
{ "302-22=1; Path=\\/",
false, false, false, false, false },
{ "302-23=1; Path=\n/",
false, false, false, false, false },
{ bigData,
false, false, false, false, false },
};
for (unsigned int i = 0; i < sizeof(tests) / sizeof(Test); i++)
{
NextSubTest();
result = cookie.ParseCookieString(tests[i].cookieString, url);
CPPUNIT_ASSERT_EQUAL_MESSAGE("Allowed to set cookie",
tests[i].canSet, result == B_OK);
CPPUNIT_ASSERT_EQUAL(tests[i].url1, cookie.IsValidForUrl(url1));
CPPUNIT_ASSERT_EQUAL(tests[i].url2, cookie.IsValidForUrl(url2));
CPPUNIT_ASSERT_EQUAL(tests[i].url3, cookie.IsValidForUrl(url3));
CPPUNIT_ASSERT_EQUAL(tests[i].url4, cookie.IsValidForUrl(url4));
}
}
void
CookieTest::ExpireParsingTest()
{
BUrl url("http://testsuites.opera.com/cookies/301.php");
BNetworkCookie cookie;
status_t result;
BString bigData("301-16=1; Expires=\"");
for (int i = 0; i < 1500; i++)
bigData << "abcdefghijklmnopqrstuvwxyz";
bigData << "\";";
struct Test {
const char* cookieString;
bool canParse;
bool sessionOnly;
bool expired;
};
Test tests[] = {
{ "301-01=1; Expires=\"notAValidValue\";",
true, true, false }, // Obviously invalid date
{ "301-02=1; Expires=\"Wed, 08-Nov-2035 01:04:33\";",
true, false, false }, // Valid date
{ "301-03=1; Expires=\"Tue, 19-Jan-2038 03:14:06\";",
true, false, false }, // Valid date, after year 2038 time_t overflow
{ "301-04=1; Expires=\"Fri, 13-Dec-1901 20:45:51\";",
true, false, true }, // Valid date, in the past
{ "301-05=1; Expires=\"Thu, 33-Nov-2035 01:04:33\";",
true, true, false }, // Invalid day
{ "301-06=1; Expires=\"Wed, 08-Siz-2035 01:04:33\";",
true, true, false }, // Invalid month
{ "301-07=1; Expires=\"Wed, 08-Nov-9035 01:04:33\";",
true, false, false }, // Very far in the future
// NOTE: Opera testsuite considers it should be a session cookie.
{ "301-08=1; Expires=\"Wed, 08-Nov-2035 75:04:33\";",
true, true, false }, // Invalid hour
{ "301-09=1; Expires=\"Wed, 08-Nov-2035 01:75:33\";",
true, true, false }, // Invalid minute
{ "301-10=1; Expires=\"Wed, 08-Nov-2035 01:04:75\";",
true, true, false }, // Invalid second
{ "301-11=1; Expires=\"XXX, 08-Nov-2035 01:04:33\";",
true, true, false }, // Invalid weekday
{ "301-12=1; Expires=\"Thu, XX-Nov-2035 01:04:33\";",
true, true, false }, // Non-digit day
{ "301-13=1; Expires=\"Thu, 08-Nov-XXXX 01:04:33\";",
true, true, false }, // Non-digit year
{ "301-14=1; Expires=\"Thu, 08-Nov-2035 XX:XX:33\";",
true, true, false }, // Non-digit hour and minute
{ "301-15=1; Expires=\"Thu, 08-Nov-2035 01:04:XX\";",
true, true, false }, // Non-digit second
{ bigData.String(),
true, true, false }, // Very long invalid string
// NOTE: Opera doesn't register the cookie at all.
{ "301-17=1; Expires=\"Thu, 99999-Nov-2035 01:04:33\";",
true, true, false }, // Day with many digits
{ "301-18=1; Expires=\"Thu, 25-Nov-99999 01:04:33\";",
true, true, false }, // Year with many digits
// NOTE: Opera tests 301-17 twice and misses this test.
{ "301-19=1; Expires=\"Thu, 25-Nov-2035 99999:04:33\";",
true, true, false }, // Hour with many digits
{ "301-20=1; Expires=\"Thu, 25-Nov-2035 01:99999:33\";",
true, true, false }, // Minute with many digits
{ "301-21=1; Expires=\"Thu, 25-Nov-2035 01:04:99999\";",
true, true, false }, // Second with many digits
{ "301-22=1; Expires=\"99999999999999999999\";",
true, true, false }, // Huge number
{ "301-23=1; Expires=\"Fri, 13-Dec-101 20:45:51\";",
true, false, true }, // Very far in the past
{ "301-24=1; EXPiReS=\"Wed, 08-Nov-2035 01:04:33\";",
true, false, false }, // Case insensitive key parsing
{ "301-25=1; Expires=Wed, 08-Nov-2035 01:04:33\";",
true, true, false }, // Missing opening quote
// NOTE: unlike Opera, we accept badly quoted values for cookie
// attributes. This allows to handle unquoted values from the early
// cookie spec properly. However, a date with a quote inside it
// should not be accepted, so this will be a session cookie.
{ "301-26=1; Expires=\"Wed, 08-Nov-2035 01:04:33;",
true, true, false }, // Missing closing quote
{ "301-27=1; Expires:\"Wed, 08-Nov-2035 01:04:33\";",
true, true, false }, // Uses : instead of =
// NOTE: unlike Opera, we allow this as a cookie with a strange
// name and no value
{ "301-28=1; Expires;=\"Wed, 08-Nov-2035 01:04:33\";",
true, true, false }, // Extra ; after name
{ "301-29=1; Expired=\"Wed, 08-Nov-2035 01:04:33\";",
true, true, false }, // Expired instead of Expires
{ "301-30=1; Expires=\"Wed; 08-Nov-2035 01:04:33\";",
true, true, false }, // ; in value
{ "301-31=1; Expires=\"Wed,\\r\\n 08-Nov-2035 01:04:33\";",
true, true, false }, // escaped newline in value
// NOTE: Only here for completeness. This is what the Opera
// testsuite sends in test 31, but I suspect they were trying to
// test the following case.
{ "301-31b=1; Expires=\"Wed,\r\n 08-Nov-2035 01:04:33\";",
true, false, false }, // newline in value
// NOTE: This can't really happen when we get cookies from HTTP
// headers. It could happen when the cookie is set from meta html
// tags or from JS.
};
for (unsigned int i = 0; i < sizeof(tests) / sizeof(Test); i++)
{
NextSubTest();
result = cookie.ParseCookieString(tests[i].cookieString, url);
CPPUNIT_ASSERT_EQUAL_MESSAGE("Cookie can be parsed",
tests[i].canParse, result == B_OK);
CPPUNIT_ASSERT_EQUAL_MESSAGE("Cookie is session only",
tests[i].sessionOnly, cookie.IsSessionCookie());
CPPUNIT_ASSERT_EQUAL_MESSAGE("Cookie has expired",
tests[i].expired, cookie.ShouldDeleteNow());
}
}
void stressTest(int32 domainNumber, int32 totalCookies, char** flat, ssize_t* size)
{
char **domains = new char*[domainNumber];
cout << "Creating random domains" << endl;
srand(time(NULL));
for (int32 i = 0; i < domainNumber; i++) {
int16 charNum = (rand() % 16) + 1;
domains[i] = new char[charNum + 5];
// Random domain
for (int32 c = 0; c < charNum; c++)
domains[i][c] = (rand() % 26) + 'a';
domains[i][charNum] = '.';
// Random tld
for (int32 c = 0; c < 3; c++)
domains[i][charNum+1+c] = (rand() % 26) + 'a';
domains[i][charNum+4] = 0;
}
BNetworkCookieJar j;
BStopWatch* watch = new BStopWatch("Cookie insertion");
for (int32 i = 0; i < totalCookies; i++) {
BNetworkCookie c;
int16 domain = (rand() % domainNumber);
BString name("Foo");
name << i;
c.SetName(name);
c.SetValue("Bar");
c.SetDomain(domains[domain]);
c.SetPath("/");
j.AddCookie(c);
}
delete watch;
BNetworkCookie* c;
int16 domain = (rand() % domainNumber);
BString host("http://");
host << domains[domain] << "/";
watch = new BStopWatch("Cookie filtering");
BUrl url(host);
int32 count = 0;
for (BNetworkCookieJar::UrlIterator it(j.GetUrlIterator(url)); (c = it.Next()); ) {
//for (BNetworkCookieJar::Iterator it(j.GetIterator()); c = it.Next(); ) {
count++;
}
delete watch;
cout << "Count for " << host << ": " << count << endl;
cout << "Flat view of cookie jar is " << j.FlattenedSize() << " bytes large." << endl;
*flat = new char[j.FlattenedSize()];
*size = j.FlattenedSize();
if (j.Flatten(*flat, j.FlattenedSize()) == B_OK)
cout << "Flatten() success!" << endl;
else
cout << "Flatten() error!" << endl;
delete[] domains;
}
void explodeImplodeTest()
{
uint8 testIndex;
BNetworkCookie cookie;
for (testIndex = 0; testIndex < (sizeof(kTestExplode) / sizeof(ExplodeTest)); testIndex++)
{
cookie.ParseCookieString(kTestExplode[testIndex].cookieString);
ASSERT(testIndex, BString(kTestExplode[testIndex].expected.name) == BString(cookie.Name()));
ASSERT(testIndex, BString(kTestExplode[testIndex].expected.value) == BString(cookie.Value()));
ASSERT(testIndex, BString(kTestExplode[testIndex].expected.domain) == BString(cookie.Domain()));
ASSERT(testIndex, BString(kTestExplode[testIndex].expected.path) == BString(cookie.Path()));
ASSERT(testIndex, kTestExplode[testIndex].expected.secure == cookie.Secure());
ASSERT(testIndex, kTestExplode[testIndex].expected.discard == cookie.Discard());
ASSERT(testIndex, kTestExplode[testIndex].expected.session == cookie.IsSessionCookie());
if (!cookie.IsSessionCookie())
ASSERT(testIndex, kTestExplode[testIndex].expected.maxAge == cookie.MaxAge());
}
}
