void decode2() {
char buf[BUFSIZE + 6];
memset(buf, 'A', BUFSIZE);
buf[BUFSIZE - 3] = 0;
#if defined(__STDC_LIB_EXT1__) || defined(__STDC_SECURE_LIB__)
strcat_s(buf, sizeof buf, "Hello");
#else
strcat(buf, "Hello");
#endif
ByteBuffer src(buf, strlen(buf));
CharsetDecoderPtr dec(CharsetDecoder::getDefaultDecoder());
LogString greeting;
log4cxx_status_t stat = dec->decode(src, greeting);
LOGUNIT_ASSERT_EQUAL(APR_SUCCESS, stat);
LOGUNIT_ASSERT_EQUAL((size_t) 0, src.remaining());
stat = dec->decode(src, greeting);
LOGUNIT_ASSERT_EQUAL(APR_SUCCESS, stat);
LogString manyAs(BUFSIZE - 3, LOG4CXX_STR('A'));
LOGUNIT_ASSERT_EQUAL(manyAs, greeting.substr(0, BUFSIZE - 3));
LOGUNIT_ASSERT_EQUAL(LogString(LOG4CXX_STR("Hello")), greeting.substr(BUFSIZE - 3));
}
LevelPtr OptionConverter::toLevel(const LogString& value,
const LevelPtr& defaultValue)
{
size_t hashIndex = value.find(LOG4CXX_STR("#"));
if (hashIndex == LogString::npos)
{
if (value.empty())
{
return defaultValue;
}
else
{
LogLog::debug(
((LogString) LOG4CXX_STR("OptionConverter::toLevel: no class name specified, level=["))
+ value
+LOG4CXX_STR("]"));
// no class name specified : use standard Level class
return Level::toLevelLS(value, defaultValue);
}
}
LogString clazz = value.substr(hashIndex + 1);
LogString levelName = value.substr(0, hashIndex);
LogLog::debug(((LogString) LOG4CXX_STR("OptionConverter::toLevel: class=["))
+ clazz + LOG4CXX_STR("], level=[") + levelName + LOG4CXX_STR("]"));
// This is degenerate case but you never know.
if (levelName.empty())
{
return Level::toLevelLS(value, defaultValue);
}
try
{
Level::LevelClass& levelClass =
(Level::LevelClass&)Loader::loadClass(clazz);
return levelClass.toLevel(levelName);
}
catch (ClassNotFoundException&)
{
LogLog::warn(((LogString) LOG4CXX_STR("custom level class ["))
+ clazz + LOG4CXX_STR("] not found."));
}
catch(Exception& oops)
{
LogLog::warn(
LOG4CXX_STR("class [") + clazz + LOG4CXX_STR("], level [") + levelName +
LOG4CXX_STR("] conversion) failed."), oops);
}
catch(...)
{
LogLog::warn(
LOG4CXX_STR("class [") + clazz + LOG4CXX_STR("], level [") + levelName +
LOG4CXX_STR("] conversion) failed."));
}
return defaultValue;
}
void decode7() {
//
// normal characters striding over a buffer boundary
//
std::string longMsg(BUFSIZE - 2, 'A');
longMsg.append("Hello");
LogString decoded;
Transcoder::decode(longMsg, decoded);
LOGUNIT_ASSERT_EQUAL((size_t) BUFSIZE + 3, decoded.length());
LOGUNIT_ASSERT_EQUAL(LogString(BUFSIZE -2, LOG4CXX_STR('A')),
decoded.substr(0, BUFSIZE - 2));
LOGUNIT_ASSERT_EQUAL((LogString) LOG4CXX_STR("Hello"),
decoded.substr(BUFSIZE -2 ));
}
void PropertySetter::setProperties(helpers::Properties& properties,
const LogString& prefix,
Pool& p)
{
int len = prefix.length();
std::vector<LogString> names = properties.propertyNames();
std::vector<LogString>::iterator it;
for (it = names.begin(); it != names.end(); it++)
{
LogString key = *it;
// handle only properties that start with the desired frefix.
if (key.find(prefix) == 0)
{
// ignore key if it contains dots after the prefix
if (key.find(0x2E /* '.' */, len + 1) != LogString::npos)
{
continue;
}
LogString value = OptionConverter::findAndSubst(key, properties);
key = key.substr(len);
if (key == LOG4CXX_STR("layout")
&& obj != 0
&& obj->instanceof(Appender::getStaticClass()))
{
continue;
}
setProperty(key, value, p);
}
}
activate(p);
}
bool OptionConverter::toBoolean(const LogString& value, bool dEfault)
{
if (value.length() >= 4) {
if (StringHelper::equalsIgnoreCase(value.substr(0,4),
LOG4CXX_STR("TRUE"), LOG4CXX_STR("true"))) {
return true;
}
}
if (dEfault && value.length() >= 5) {
if (StringHelper::equalsIgnoreCase(value.substr(0,5),
LOG4CXX_STR("FALSE"), LOG4CXX_STR("false"))) {
return false;
}
}
return dEfault;
}
LogString StringHelper::trim(const LogString& s)
{
LogString::size_type pos = s.find_first_not_of(' ');
if (pos == std::string::npos)
{
return LogString();
}
LogString::size_type n = s.find_last_not_of(' ') - pos + 1;
return s.substr(pos, n);
}
void Hierarchy::updateParents(LoggerPtr logger)
{
synchronized sync(mutex);
const LogString name(logger->getName());
int length = name.size();
bool parentFound = false;
// if name = "w.x.y.z", loop thourgh "w.x.y", "w.x" and "w", but not "w.x.y.z"
for(size_t i = name.find_last_of(0x2E /* '.' */, length-1);
i != LogString::npos;
i = name.find_last_of(0x2E /* '.' */, i-1))
{
LogString substr = name.substr(0, i);
LoggerMap::iterator it = loggers->find(substr);
if(it != loggers->end())
{
parentFound = true;
logger->parent = it->second;
break; // no need to update the ancestors of the closest ancestor
}
else
{
ProvisionNodeMap::iterator it2 = provisionNodes->find(substr);
if (it2 != provisionNodes->end())
{
it2->second.push_back(logger);
}
else
{
ProvisionNode node(1, logger);
provisionNodes->insert(
ProvisionNodeMap::value_type(substr, node));
}
}
}
// If we could not find any existing parents, then link with root.
if(!parentFound)
{
logger->parent = root;
}
}
long OptionConverter::toFileSize(const LogString& s, long dEfault)
{
if(s.empty())
{
return dEfault;
}
size_t index = s.find_first_of(LOG4CXX_STR("bB"));
if (index != LogString::npos && index > 0) {
long multiplier = 1;
index--;
if (s[index] == 0x6B /* 'k' */ || s[index] == 0x4B /* 'K' */) {
multiplier = 1024;
} else if(s[index] == 0x6D /* 'm' */ || s[index] == 0x4D /* 'M' */) {
multiplier = 1024*1024;
} else if(s[index] == 0x67 /* 'g'*/ || s[index] == 0x47 /* 'G' */) {
multiplier = 1024*1024*1024;
}
return toInt(s.substr(0, index), 1) * multiplier;
}
return toInt(s, 1);
}
LogString OptionConverter::substVars(const LogString& val, Properties& props)
{
LogString sbuf;
const logchar delimStartArray[] = { 0x24, 0x7B, 0 };
const LogString delimStart(delimStartArray);
const logchar delimStop = 0x7D; // '}';
const size_t DELIM_START_LEN = 2;
const size_t DELIM_STOP_LEN = 1;
int i = 0;
int j, k;
while(true)
{
j = val.find(delimStart, i);
if(j == -1)
{
// no more variables
if(i==0)
{ // this is a simple string
return val;
}
else
{ // add the tail string which contails no variables and return the result.
sbuf.append(val.substr(i, val.length() - i));
return sbuf;
}
}
else
{
sbuf.append(val.substr(i, j - i));
k = val.find(delimStop, j);
if(k == -1)
{
LogString msg(1, (logchar) 0x22 /* '\"' */);
msg.append(val);
msg.append(LOG4CXX_STR("\" has no closing brace. Opening brace at position "));
Pool p;
StringHelper::toString(j, p, msg);
msg.append(1, (logchar) 0x2E /* '.' */);
throw IllegalArgumentException(msg);
}
else
{
j += DELIM_START_LEN;
LogString key = val.substr(j, k - j);
// first try in System properties
LogString replacement(getSystemProperty(key, LogString()));
// then try props parameter
if(replacement.empty())
{
replacement = props.getProperty(key);
}
if(!replacement.empty())
{
// Do variable substitution on the replacement string
// such that we can solve "Hello ${x2}" as "Hello p1"
// the where the properties are
// x1=p1
// x2=${x1}
LogString recursiveReplacement = substVars(replacement, props);
sbuf.append(recursiveReplacement);
}
i = k + DELIM_STOP_LEN;
}
}
}
}
const TimeZonePtr TimeZone::getTimeZone( const LogString & id )
{
const logchar gmt[] = { 0x47, 0x4D, 0x54, 0 };
if ( id == gmt )
{
return log4cxx::helpers::TimeZoneImpl::GMTTimeZone::getInstance();
}
if ( id.length() >= 5 && id.substr( 0, 3 ) == gmt )
{
int hours = 0;
int minutes = 0;
int sign = 1;
if (id[3] == 0x2D /* '-' */) {
sign = -1;
}
LogString off( id.substr( 4 ) );
if ( id.length() >= 7 )
{
size_t colonPos = off.find( 0x3A /* ':' */);
if ( colonPos == LogString::npos )
{
minutes = StringHelper::toInt(off.substr(off.length() - 2));
hours = StringHelper::toInt(off.substr(0, off.length() - 2));
}
else
{
minutes = StringHelper::toInt(off.substr(colonPos + 1));
hours = StringHelper::toInt(off.substr(0, colonPos));
}
} else {
hours = StringHelper::toInt(off);
}
LogString s(gmt);
Pool p;
LogString hh;
StringHelper::toString(hours, p, hh);
if (sign > 0) {
s.append(1, (logchar) 0x2B /* '+' */);
} else {
s.append(1, (logchar) 0x2D /* '-' */);
}
if (hh.length() == 1) {
s.append(1, (logchar) 0x30 /* '0' */);
}
s.append(hh);
s.append(1, (logchar) 0x3A /*' :' */);
LogString mm;
StringHelper::toString(minutes, p, mm);
if (mm.length() == 1) {
s.append(1, (logchar) 0x30 /* '0' */);
}
s.append(mm);
apr_int32_t offset = sign * (hours * 3600 + minutes * 60);
return new log4cxx::helpers::TimeZoneImpl::FixedTimeZone( s, offset );
}
const TimeZonePtr & ltz = getDefault();
if ( ltz->getID() == id )
{
return ltz;
}
return getGMT();
}
