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// testing the data kioslave
// (C) 2002, 2003 Leo Savernik
//
// invoke "make dataprotocoltest" to generate the binary inside KDE CVS
// invoke "make test" to generate the binary outside KDE CVS
// fix the symptoms, not the illness ;-)
#ifdef QT_NO_ASCII_CAST
# undef QT_NO_ASCII_CAST
#endif
#ifdef DATAKIOSLAVE
# undef DATAKIOSLAVE
#endif
#ifndef TESTKIO
# define TESTKIO
#endif
#include <kio/global.h>
#include <tqcstring.h>
#include <tqstring.h>
#include <iostream.h>
class KURL;
class TestSlave {
public:
TestSlave() {
}
virtual ~TestSlave() {
}
virtual void get(const KURL &) = 0;
virtual void mimetype(const KURL &) = 0;
void mimeType(const TQString &type) {
testStrings("MIME Type: ",mime_type_expected,type);
}
void totalSize(KIO::filesize_t bytes) {
// cout << "content size: " << bytes << " bytes" << endl;
}
void setMetaData(const TQString &key, const TQString &value) {
// meta_data[key] = value;
// cout << "� " << key << " = " << value << endl;
TQString prefix = "Metadata[\""+key+"\"]: ";
KIO::MetaData::Iterator it = attributes_expected.tqfind(key);
if (it != attributes_expected.end()) {
testStrings(prefix,it.data(),value);
// remove key from map
attributes_expected.remove(it);
} else {
cout << endl << prefix << " no such key expected";
total++;
}
}
void sendMetaData() {
// check here if attributes_expected contains any excess keys
KIO::MetaData::ConstIterator it = attributes_expected.begin();
KIO::MetaData::ConstIterator end = attributes_expected.end();
for (; it != end; ++it) {
cout << endl << "Metadata[\"" << it.key()
<< "\"] was expected but not defined";
total++;
}
}
void data(const TQByteArray &a) {
if (a.isEmpty())
/* cout << "<no more data>" << endl*/;
else {
testStrings("Content: ",content_expected,a);
}/*end if*/
}
void finished() {
}
void dispatchLoop() {
// dummy to make kde_main happy
}
// == stuff for regression testing
private:
int testcaseno; // number of testcase
bool failure; // true if any testcase failed
TQMap<int,bool> failed_testcases;
// -- testcase related members
TQString mime_type_expected; // expected mime type
/** contains all attributes and values the testcase has to set */
KIO::MetaData attributes_expected;
/** contains the content as it is expected to be returned */
TQByteArray content_expected;
int passed; // # of passed tests
int total; // # of total tests
/**
* compares two strings, printing an error message if they don't match.
* @param prefix prefix string for output in case of mismatch
* @param templat template string
* @param s string to compare to template
* @param casesensitive true if case sensitive compare (currently not used)
*/
void testStrings(const TQString &prefix, const TQString &templat,
const TQString &s, bool /*casesensitive*/ = true) {
if (templat == s)
passed++;
else {
cout << endl << prefix << "expected \"" << templat << "\", found \""
<< s << "\"";
failure = true;
}/*end if*/
total++;
}
public:
/** begins a testrun over all testcases */
void initTestrun() {
testcaseno = 0;
failure = false;
}
/** reuturns true if any testcase failed
*/
bool hasFailedTestcases() const { return failure; }
/**
* sets up a new testcase
* @param name screen name for testcase
*/
void beginTestcase(const char *name) {
passed = 0;
total = 0;
testcaseno++;
cout << "Testcase " << testcaseno << ": [" << name << "] ";
}
/**
* sets the mime type that this testcase is expected to return
*/
void setExpectedMimeType(const TQString &mime_type) {
mime_type_expected = mime_type;
}
/**
* sets all attribute-value pairs the testcase must deliver.
*/
void setExpectedAttributes(const KIO::MetaData &attres) {
attributes_expected = attres;
}
/**
* sets content as expected to be delivered by the testcase.
*/
void setExpectedContent(const TQByteArray &content) {
content_expected = content;
}
/**
* closes testcase, printing out stats
*/
void endTestcase() {
bool failed = passed < total;
if (failed) {
failure = true;
failed_testcases[testcaseno] = true;
cout << endl;
}
cout << "(" << passed << " of " << total << ") " << (failed ? "failed"
: "passed") << endl;
}
void endTestrun() {
if (failure) {
TQMap<int,bool>::ConstIterator it = failed_testcases.begin();
for (; it != failed_testcases.end(); ++it) {
cout << "Testcase " << it.key() << " failed" << endl;
}
}
}
};
#include "dataprotocol.cpp" // we need access to static data & functions
// == general functionality
const struct {
const char * const name;
const char * const exp_mime_type; // 0 means "text/plain"
const struct {
const char * const key;
const char * const value;
} exp_attrs[10]; // ended with a key==0, value==0 pair
const char * const exp_content;
const char * const url;
} testcases[] = {
// -----------------------------------------------------------------
{ "escape resolving", 0, {}, "blah blah", "data:,blah%20blah" },
// --------------------
{ "mime type, escape resolving", "text/html", {},
"<div style=\"border:thin orange solid;padding:1ex;background-color:"
"yellow;color:black\">Rich <b>text</b></div>",
"data:text/html,<div%20style=\"border:thin%20orange%20solid;"
"padding:1ex;background-color:yellow;color:black\">Rich%20<b>text</b>"
"</div>" },
// -------------------- whitespace test I
{ "whitespace test I", "text/css", {
{ "charset", "iso-8859-15" }, { 0,0 } },
" body { color: yellow; background:darkblue; font-weight:bold }",
"data:text/css ; charset = iso-8859-15 , body { color: yellow; "
"background:darkblue; font-weight:bold }" },
// -------------------- out of spec argument order, base64 decoding,
// whitespace test II
{ "out of spec argument order, base64 decoding, whitespace test II",
0, {
{ "charset", "iso-8859-1" }, { 0,0 } },
"paaaaaaaasd!!\n",
"data: ; base64 ; charset = \"iso-8859-1\" ,cGFhYWFhYWFhc2QhIQo=" },
// -------------------- arbitrary keys, reserved names as keys,
// whitespace test III
{ "arbitrary keys, reserved names as keys, whitespace test III", 0, {
{ "base64", "nospace" }, { "key", "onespaceinner" },
{ "key2", "onespaceouter" }, { "charset", "utf8" },
{ "<<empty>>", "" }, { 0,0 } },
"Die, Allied Schweinehund (C) 1990 Wolfenstein 3D",
"data: ;base64=nospace;key = onespaceinner; key2=onespaceouter ;"
" charset = utf8 ; <<empty>>= ,Die, Allied Schweinehund "
"(C) 1990 Wolfenstein 3D" },
// -------------------- string literal with escaped chars, testing
// delimiters within string
{ "string literal with escaped chars, testing delimiters within "
"string", 0, {
{ "fortune-cookie", "Master Leep say: \"Rabbit is humble, "
"Rabbit is gentle; follow the Rabbit\"" }, { 0,0 } },
"(C) 1997 Shadow Warrior ;-)",
"data:;fortune-cookie=\"Master Leep say: \\\"Rabbit is humble, "
"Rabbit is gentle; follow the Rabbit\\\"\",(C) 1997 Shadow Warrior "
";-)" },
};
#if 0
// == charset tests
// -------------------- string
const QChar
const TQChar * const charset_urls[] = {
#endif
int main(int /*argc*/,char* /*argv*/[]) {
DataProtocol kio_data;
kio_data.initTestrun();
for (uint i = 0; i < sizeof testcases/sizeof testcases[0]; i++) {
kio_data.beginTestcase(testcases[i].name);
kio_data.setExpectedMimeType(testcases[i].exp_mime_type != 0
? testcases[i].exp_mime_type : "text/plain");
bool has_charset = false;
MetaData exp_attrs;
if (testcases[i].exp_attrs != 0) {
for (uint j = 0; testcases[i].exp_attrs[j].key != 0; j++) {
exp_attrs[testcases[i].exp_attrs[j].key] = testcases[i].exp_attrs[j].value;
if (strcmp(testcases[i].exp_attrs[j].key,"charset") == 0)
has_charset = true;
}/*next j*/
}
if (!has_charset) exp_attrs["charset"] = "us-ascii";
kio_data.setExpectedAttributes(exp_attrs);
TQByteArray exp_content;
uint exp_content_len = strlen(testcases[i].exp_content);
exp_content.setRawData(testcases[i].exp_content,exp_content_len);
kio_data.setExpectedContent(exp_content);
kio_data.get(testcases[i].url);
kio_data.endTestcase();
exp_content.resetRawData(testcases[i].exp_content,exp_content_len);
}/*next i*/
kio_data.endTestrun();
return kio_data.hasFailedTestcases() ? 1 : 0;
}
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