bool GetProperty(const mstrings_t& properties,
const ACE_TString& prop, std::vector<int>& vec)
{
ACE_TString value;
mstrings_t::const_iterator ite = properties.find(prop);
if( ite != properties.end() )
{
value = (*ite).second;
ACE_TString token;
size_t offset = 0;
size_t i = value.find(',', offset);//Tokenize(ACE_TEXT(","),offset);
while(i != ACE_TString::npos)
{
token = value.substr(offset, i-offset);
offset = i+1;
vec.push_back(int(string2i(token)));
i = value.find(',', offset);
}
if( value.length() && (value.length() - 1) >= offset )
{
token = value.substr(offset, value.length()-offset);
offset = i+1;
vec.push_back(int(string2i(token)));
}
return true;
}
return false;
}
ACE_TString stripEOL(const ACE_TString& input)
{
size_t len = ACE_OS::strlen(EOL);
if(input.length()<len)
return input;
if(input.substr(input.length()-len,len) == EOL)
return input.substr(0,input.length()-len);
else if(input.substr(input.length()-1,1) == ACE_TEXT("\n"))
return input.substr(0,input.length()-1);
return input;
}
int
SubDriver::parse_sub_arg(const ACE_TString& arg)
{
DBG_ENTRY("SubDriver","parse_sub_arg");
size_t pos;
// Find the first ':' character, and make sure it is in a legal spot.
if ((pos = std::find(arg.c_str(), arg.c_str() + arg.length(), ACE_TEXT(':')) - arg.c_str()) == arg.length()) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s). Missing ':' char.\n",
arg.c_str()));
return -1;
}
if (pos == 0) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s). "
"':' char cannot be first char.\n",
arg.c_str()));
return -1;
}
if (pos == (arg.length() - 1)) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s) - "
"':' char cannot be last char.\n",
arg.c_str()));
return -1;
}
// Parse the sub_id from left of ':' char, and remainder to right of ':'.
ACE_TString sub_id_str(arg.c_str(), pos);
this->sub_addr_str_ = arg.c_str() + pos + 1;
// RepoIds are conventionally created and managed by the DCPSInfoRepo. Those
// generated here are for the sole purpose of verifying internal behavior.
OpenDDS::DCPS::RepoIdBuilder builder(sub_id_);
builder.participantId(1);
builder.entityKey(ACE_OS::atoi(sub_id_str.c_str()));
builder.entityKind(OpenDDS::DCPS::ENTITYKIND_USER_WRITER_WITH_KEY);
// Use the remainder as the "stringified" ACE_INET_Addr.
this->sub_addr_ = ACE_INET_Addr(this->sub_addr_str_.c_str());
return 0;
}
BOOL CSelectNSDialog::OnInitDialog()
{
CDialog::OnInitDialog();
// TODO: Add extra initialization here
HKEY hKey = ACE_Configuration_Win32Registry::resolve_key(HKEY_LOCAL_MACHINE, ACE_TEXT("Software\\TAO\\NamingViewer\\Servers"));
m_pConfig = new ACE_Configuration_Win32Registry(hKey);
ACE_Configuration_Section_Key Section = m_pConfig->root_section();;
int index = 0;
ACE_TString name;
ACE_Configuration::VALUETYPE type;
while(m_pConfig->enumerate_values(Section, index, name, type) == 0)
{
ACE_TString value;
if(m_pConfig->get_string_value(Section, name.c_str(), value) == 0)
{
int pos = m_Servers.AddString(name.c_str());
ACE_TCHAR* pIOR = new ACE_TCHAR[value.length() + 1];
ACE_OS::strcpy(pIOR, value.c_str());
m_Servers.SetItemData(pos, (DWORD)pIOR);
}
++index;
}
return TRUE; // return TRUE unless you set the focus to a control
// EXCEPTION: OCX Property Pages should return FALSE
}
void LameMP3::Close()
{
if(!m_hMp3Stream)
return;
DWORD outLen = 0;
int err = deinitStream(m_hMp3Stream, &m_out_mp3data[0], &outLen);
assert(err == 0);
if(outLen)
m_outfile.send((const char*)&m_out_mp3data[0], outLen);
ACE_TString filename = GetFileName();
closeStream(m_hMp3Stream);
m_outfile.close();
if(filename.length())
{
#if defined(UNICODE)
//LAME doesn't support Unicode, so we just convert to locale
//and hope for the best
ACE_CString ascii = UnicodeToLocal(filename.c_str());
err = writeInfoTag(m_hMp3Stream, ascii.c_str());
#else
err = writeInfoTag(m_hMp3Stream, filename.c_str());
#endif
}
m_out_mp3data.resize(0);
m_hMp3Stream = 0;
}
void ConfigTreeCtrl::ResolveKey(wxTreeItemId Item, ACE_Configuration_Section_Key& Key)
{
wxTreeItemId OriginalItem = Item;
ACE_TString Path("");
ACE_TString Temp;
while(Item != GetRootItem())
{
wxString Text = GetItemText(Item);
Temp = Path;
Path = Text.c_str();
if(Temp.length())
{
Path += "\\";
Path += Temp;
}
Item = GetParent(Item);
}
if(Path.length())
{
m_pConfig->expand_path(m_pConfig->root_section(), Path, Key, 0);
}
else
{
Key = m_pConfig->root_section();
}
}
size_t pastBlanks(size_t offset, const ACE_TString& input)
{
while(offset<input.length() &&
(input[offset] == ' ' ||
input[offset] == '\r' ||
input[offset] == '\n')) offset ++;
return offset;
}
Directory::Ptr Directory::make_new_subdir(const ACE_TString& t_name)
{
if (files_.find(t_name) != files_.end()) {
throw std::runtime_error("Can't create a directory with the same "
"name as an existing file.");
}
ACE_TString logical(t_name.c_str(),
(std::min)(FSS_MAX_FILE_NAME, t_name.length()));
ACE_TString phys_prefix = add_entry();
ACE_TString phys_base = b32h_encode(logical.c_str());
if (t_name.length() >= FSS_MAX_FILE_NAME) {
unsigned int& counter = long_names_[phys_prefix + phys_base];
if (counter == 99999) {
throw std::runtime_error("Long directory name out of range");
}
phys_base += ACE_TEXT(". X"); // snprintf will clobber the X with a 0
ACE_TCHAR* buf = &phys_base[0] + phys_base.length() - 6;
ACE_OS::snprintf(buf, 6, ACE_TEXT("%05u"), counter++);
phys_base = phys_base.substr(0, phys_base.length() - 1); // trim the 0
}
ACE_TString phys = phys_prefix + phys_base;
dirs_[t_name] = phys;
{
CwdGuard cg(physical_dirname_);
if (dds_mkdir(phys.c_str()) == -1) {
throw std::runtime_error("Can't create directory");
}
if ((phys_prefix.length() > 0 && dds_chdir(phys_prefix.c_str()) == -1)
|| dds_chdir(phys_base.c_str()) == -1) {
dds_rmdir(phys.c_str());
throw std::runtime_error("Can't change to newly created directory");
}
std::ofstream fn("_fullname");
fn << t_name << '\n';
}
return new Directory(physical_dirname_ + phys, t_name, this);
}
int
BE_save_orb_args (int &argc, ACE_TCHAR *argv[])
{
int i = 1;
ACE_TString holder;
while (i < argc)
{
if (ACE_OS::strncmp (argv[i], ACE_TEXT("-ORB"), 4) == 0)
{
holder += ACE_TString (argv[i]);
holder += ACE_TEXT(" ");
// Could be another -ORBxxx arg or an IDL compiler arg.
if (*argv[i + 1] == '-')
{
++i;
continue;
}
// No-copy constructor.
ACE_TString tmp (argv[i + 1],
0,
false);
// If the arg ends with either .idl or .pidl, we're done.
size_t len = tmp.length ();
ssize_t pos = tmp.find (ACE_TEXT(".idl"));
if (len - pos == 4)
{
return 0;
}
pos = tmp.find (ACE_TEXT(".pidl"));
if (len - pos == 5)
{
return 0;
}
// If we're here, the next arg goes with the preceding -ORBxxx.
holder += tmp;
holder += ACE_TEXT(" ");
i += 2;
}
else
{
++i;
}
}
be_global->orb_args (ACE_TEXT_ALWAYS_CHAR(holder.c_str()));
return 0;
}
int
SubDriver::parse_pub_arg(const ACE_TString& arg)
{
size_t pos;
// Find the first ':' character, and make sure it is in a legal spot.
if ((pos = std::find(arg.c_str(), arg.c_str() + arg.length(), ACE_TEXT(':')) - arg.c_str()) == arg.length()) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s). Missing ':' char.\n",
arg.c_str()));
return -1;
}
if (pos == 0) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s). "
"':' char cannot be first char.\n",
arg.c_str()));
return -1;
}
if (pos == (arg.length() - 1)) {
ACE_ERROR((LM_ERROR,
"(%P|%t) Bad -p command-line value (%s) - "
"':' char cannot be last char.\n",
arg.c_str()));
return -1;
}
// Parse the pub_id from left of ':' char, and remainder to right of ':'.
ACE_TString pub_id_str(arg.c_str(), pos);
this->pub_addr_str_ = arg.c_str() + pos + 1;
this->pub_id_fname_ = pub_id_str.c_str();
this->pub_addr_ = ACE_INET_Addr(this->pub_addr_str_.c_str());
return 0;
}
// Read in the stringified object references into an array
// Warning: The file may contain many separate IORs separated by linefeeds.
void TestClient::buildIORList()
{
FILE* iorFile = ACE_OS::fopen (iorFile_, "r");
if ( iorFile == 0 )
ACE_ERROR ((LM_ERROR, "Fail to open %s\n", iorFile_));
ACE_TString ior;
while (getline(iorFile, ior) != EOF )
{
if (ior.length() > 0)
iors_.push_back(ior);
else
break;
}
}
ACE_TString PrepareString(const ACE_TString& str)
{
ACE_TString newstr;
if(str.length()>MAX_STRING_LENGTH)
newstr = str.substr(0, MAX_STRING_LENGTH);
else
newstr = str;
replace_all(newstr, ACE_TEXT("\\"), ACE_TEXT("\\\\"));
replace_all(newstr, ACE_TEXT("\""), ACE_TEXT("\\\""));
replace_all(newstr, ACE_TEXT("\r"), ACE_TEXT("\\r"));
replace_all(newstr, ACE_TEXT("\n"), ACE_TEXT("\\n"));
return newstr;
}
bool GetProperty(const mstrings_t& properties,
const ACE_TString& prop,
ACE_TString& value)
{
mstrings_t::const_iterator ite = properties.find(prop);
if( ite != properties.end() )
{
value = (*ite).second;
if(value.length()>MAX_STRING_LENGTH)
value.resize(MAX_STRING_LENGTH);
return true;
}
else
return false;
}
int
ACE_Capabilities::getline (FILE *fp, ACE_TString &line)
{
int ch;
line.set (0, 0);
while ((ch = ACE_OS::fgetc (fp)) != EOF && ch != ACE_TEXT ('\n'))
line += (ACE_TCHAR) ch;
if (ch == EOF && line.length () == 0)
return -1;
else
return 0;
}
void CSelectNSDialog::OnAdd()
{
// TODO: Add your control notification handler code here
CAddNameServerDlg Dialog;
if(Dialog.DoModal() != IDOK)
{
return;
}
ACE_Configuration_Section_Key Section = m_pConfig->root_section();
ACE_TString Value = Dialog.m_IOR;
m_pConfig->set_string_value(Section, Dialog.m_Name, Value);
int pos = m_Servers.AddString(Dialog.m_Name);
ACE_TCHAR* pIOR = new ACE_TCHAR[Value.length() + 1];
ACE_OS::strcpy(pIOR, Value.c_str());
m_Servers.SetItemData(pos, (DWORD)pIOR);
}
int
ACE_Ini_ImpExp::export_section (const ACE_Configuration_Section_Key& section,
const ACE_TString& path,
FILE* out)
{
// don't export the root
if (path.length ())
{
// Write out the section header
ACE_TString header = ACE_TEXT ("[");
header += path;
header += ACE_TEXT ("]\n");
if (ACE_OS::fputs (header.fast_rep (), out) < 0)
return -1;
// Write out each value
int index = 0;
ACE_TString name;
ACE_Configuration::VALUETYPE type;
ACE_TString line;
ACE_TCHAR int_value[32];
ACE_TCHAR bin_value[3];
void* binary_data;
size_t binary_length;
ACE_TString string_value;
while (!config_.enumerate_values (section, index, name, type))
{
line = name + ACE_TEXT ("=");
switch (type)
{
case ACE_Configuration::INTEGER:
{
u_int value;
if (config_.get_integer_value (section, name.fast_rep (), value))
return -2;
ACE_OS::sprintf (int_value, ACE_TEXT ("%08x"), value);
line += int_value;
break;
}
case ACE_Configuration::STRING:
{
if (config_.get_string_value (section,
name.fast_rep (),
string_value))
return -2;
line += string_value;
break;
}
#ifdef _WIN32
case ACE_Configuration::INVALID:
break; // JDO added break. Otherwise INVALID is processed
// like BINARY. If that's correct, please remove the
// break and these comments
#endif
case ACE_Configuration::BINARY:
{
// not supported yet - maybe use BASE64 codeing?
if (config_.get_binary_value (section,
name.fast_rep (),
binary_data,
binary_length))
return -2;
line += ACE_TEXT ("\"");
unsigned char* ptr = (unsigned char*)binary_data;
while (binary_length)
{
if (ptr != binary_data)
{
line += ACE_TEXT (",");
}
ACE_OS::sprintf (bin_value, ACE_TEXT ("%02x"), *ptr);
line += bin_value;
--binary_length;
++ptr;
}
line += ACE_TEXT ("\"");
delete [] (char *) binary_data;
break;
}
default:
return -3;
}// end switch on type
line += ACE_TEXT ("\n");
if (ACE_OS::fputs (line.fast_rep (), out) < 0)
return -4;
++index;
}// end while enumerating values
}
// Export all sub sections
int index = 0;
ACE_TString name;
ACE_Configuration_Section_Key sub_key;
ACE_TString sub_section;
while (!config_.enumerate_sections (section, index, name))
{
ACE_TString sub_section (path);
if (path.length ())
sub_section += ACE_TEXT ("\\");
sub_section += name;
if (config_.open_section (section, name.fast_rep (), 0, sub_key))
return -5;
if (export_section (sub_key, sub_section.fast_rep (), out))
return -6;
++index;
}
return 0;
}
int ExtractProperties(const ACE_TString& input, mstrings_t& properties)
{
TTASSERT(input.find('\n') == input.rfind('\n'));
bool bSyntaxError = false;
if( input.length() == 0 )
bSyntaxError = true;
size_t offset = input.find(' ');//past command
if(offset == ACE_TString::npos)
return 0;
while(offset < input.length() && !bSyntaxError)
{
//past any spaces
offset = pastBlanks(offset, input);
if(offset == input.length())
{
break;
}
size_t propBegin = offset;
ACE_TString prop;
ACE_TString value;
while(offset < input.length()) //extract property name
{
if( input[offset] != ' ' && input[offset] != '=') offset ++;
else break;
}
if(offset == input.length())
{
bSyntaxError = true; //no properties in ACE_TString
break;
}
prop = input.substr(propBegin, offset-propBegin); //set propertyname
TTASSERT(properties.find(prop) == properties.end());
offset = pastBlanks(offset, input); //past spaces
if(offset == input.length())
{
bSyntaxError = true;
break;
}
if(input[offset] != '=')
{
bSyntaxError = true;
break;
}
else offset ++; //past =
offset = pastBlanks(offset, input); //past spaces
if(offset == input.length())
{
bSyntaxError = true;
break;
}
//determine whether it's a string or an integer
if(input[offset] == '"') //a ACE_TString
{
bool found = false;
size_t strBegin = ++offset; //past "
while(!found && offset<input.length())
{
/*
if(input[offset]==ACE_TEXT('\"') && input[offset-1] != ACE_TEXT('\\')) found = true;
offset++;
*/
if(input[offset] == '\\')
offset += 2;
else if(input[offset] == '"')
{
found = true;
offset++;
}
else
offset++;
}
if(!found)
{
bSyntaxError = true;
break;
}
value = input.substr(strBegin, offset-strBegin-1);
offset ++; //past \"
properties[prop] = RebuildString(value);
//properties.SetAt(prop, RebuildString(value));
}
else if(input[offset] == '[') // an int list
{
bool found = false;
size_t listBegin = ++offset; //past "
while(!found && offset<input.length())
{
if(input[offset] == ']') found = true;
offset++;
}
if(!found)
{
bSyntaxError = true;
break;
}
value = input.substr(listBegin, offset-listBegin-1);
offset ++; //past ]
properties[prop] = RebuildString(value);
//properties.SetAt(prop, RebuildString(value));
}
else //eat what's left until space
{
size_t intBegin = offset;
while(offset<input.length() &&
input[offset] != ' ' &&
input[offset] != '\r' &&
input[offset] != '\n') offset ++; //past spaces
value = input.substr(intBegin, offset-intBegin);
properties[prop] = RebuildString(value);
//properties.SetAt(prop, RebuildString(value));
}
}
return bSyntaxError? -1 : (int)properties.size();
}
int
SimpleDataWriter::run(SimplePublisher* publisher)
{
DBG_ENTRY("SimpleDataWriter","run");
VDBG((LM_DEBUG, "(%P|%t) DBG: "
"Build the DataSampleElementList to contain one element - "
"our 'Hello World' string.\n"));
// We just send one message.
// This is what goes in the "Data Block".
ACE_TString data = "Hello World!";
// Now we can create the DataSampleHeader struct and set its fields.
TAO::DCPS::DataSampleHeader header;
// The +1 makes the null terminator ('/0') get placed into the block.
header.message_length_ = data.length() + 1;
header.message_id_ = 1;
header.sequence_ = 0;
// TMB - Compiler no longer likes the next line... source_timestamp_ is gone.
//header.source_timestamp_ = ACE_OS::gettimeofday().msec();
header.publication_id_ = this->pub_id_;
// The DataSampleHeader is what goes in the "Header Block".
ACE_Message_Block* header_block = new ACE_Message_Block
(header.max_marshaled_size());
header_block << header;
// The +1 makes the null terminator ('/0') get placed into the block.
ACE_Message_Block* data_block = new ACE_Message_Block(data.length() + 1);
data_block->copy(data.c_str());
// Chain the "Data Block" to the "Header Block"
header_block->cont(data_block);
// Create the DataSampleListElement now.
TAO::DCPS::DataSampleListElementAllocator allocator(3);
TAO::DCPS::TransportSendElementAllocator trans_allocator(3, sizeof (TAO::DCPS::TransportSendElement));
TAO::DCPS::DataSampleListElement* element;
ACE_NEW_MALLOC_RETURN(element,
static_cast<TAO::DCPS::DataSampleListElement*> (allocator.malloc(sizeof (TAO::DCPS::DataSampleListElement))),
TAO::DCPS::DataSampleListElement(this->pub_id_, this, 0, &trans_allocator),
1);
// The Sample Element will hold on to the chain of blocks (header + data).
element->sample_ = header_block;
// Set up the DataSampleList
TAO::DCPS::DataSampleList samples;
samples.head_ = element;
samples.tail_ = element;
samples.size_ = 1;
VDBG((LM_DEBUG, "(%P|%t) DBG: "
"Ask the publisher to send the DataSampleList (samples).\n"));
publisher->send_samples(samples);
VDBG((LM_DEBUG, "(%P|%t) DBG: "
"The Publisher has finished sending the samples.\n"));
return 0;
}
int
ACE_DLL_Handle::open (const ACE_TCHAR *dll_name,
int open_mode,
ACE_SHLIB_HANDLE handle)
{
ACE_TRACE ("ACE_DLL_Handle::open");
ACE_MT (ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, 0));
if (this->dll_name_)
{
// Once dll_name_ has been set, it can't be changed..
if (ACE_OS::strcmp (this->dll_name_, dll_name) != 0)
{
if (ACE::debug ())
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) DLL_Handle::open: error, ")
ACE_TEXT ("tried to reopen %s with name %s\n"),
this->dll_name_,
dll_name));
return -1;
}
}
else
this->dll_name_ = ACE::strnew (dll_name);
if (!this->open_called_)
this->open_called_ = 1;
// If it hasn't been loaded yet, go ahead and do that now.
if (this->handle_ == ACE_SHLIB_INVALID_HANDLE)
{
if (handle)
this->handle_ = handle;
else
{
/*
** Get the set of names to try loading. We need to do this to
** properly support the ability for a user to specify a simple,
** unadorned name (for example, "ACE") that will work across
** platforms. We apply platform specifics to get a name that will
** work (e.g. libACE, ACEd.dll, ACE.dll, etc.) We rely on the
** underlying dlopen() implementation to "Do The Right Thing" in
** terms of using relative paths, LD_LIBRARY_PATH, system security
** rules, etc. except when ACE_MUST_HELP_DLOPEN_SEARCH_PATH is set.
** If it is set, then ACE::ldfind() scans the configured path
** looking for a match on the name and prefix/suffix applications.
** NOTE: having ACE scan for a file and then pass a fully-qualified
** pathname to dlopen() is a potential security hole; therefore,
** do not use ACE_MUST_HELP_DLOPEN_SEARCH_PATH unless necessary
** and only after considering the risks.
*/
ACE_Array<ACE_TString> dll_names;
dll_names.max_size (10); // Decent guess to avoid realloc later
#if defined (ACE_MUST_HELP_DLOPEN_SEARCH_PATH)
// Find out where the library is
ACE_TCHAR dll_pathname[MAXPATHLEN + 1];
// Transform the pathname into the appropriate dynamic link library
// by searching the ACE_LD_SEARCH_PATH.
ACE::ldfind (dll_name,
dll_pathname,
(sizeof dll_pathname / sizeof (ACE_TCHAR)));
ACE_TString dll_str (dll_pathname);
dll_names.size (1);
dll_names.set (dll_str, 0);
#else
this->get_dll_names (dll_name, dll_names);
#endif
ACE_Array_Iterator<ACE_TString> name_iter (dll_names);
ACE_TString *name = 0;
while (name_iter.next (name))
{
// The ACE_SHLIB_HANDLE object is obtained.
this->handle_ = ACE_OS::dlopen (name->c_str (),
open_mode);
if (ACE::debug ())
{
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open ")
ACE_TEXT ("(\"%s\", 0x%x) -> %s: %s\n"),
name->c_str (),
open_mode,
((this->handle_ != ACE_SHLIB_INVALID_HANDLE)
? ACE_TEXT ("succeeded")
: ACE_TEXT ("failed")),
this->error()->c_str()));
}
if (this->handle_ != ACE_SHLIB_INVALID_HANDLE) // Good one?
break;
// If errno is ENOENT we just skip over this one,
// anything else - like an undefined symbol, for
// instance must be flagged here or the next error will
// mask it.
// @TODO: If we've found our DLL _and_ it's
// broken, should we continue at all?
if ((errno != 0) && (errno != ENOENT) && ACE::debug ())
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open ")
ACE_TEXT ("(\'%s\') failed, errno=")
ACE_TEXT ("%d: %s\n"),
name->c_str (),
errno,
this->error ()->c_str ()));
#if defined (AIX)
// AIX often puts the shared library file (most often named
// shr.o) inside an archive library. If this is an archive
// library name, then try appending [shr.o] and retry.
if (ACE_TString::npos != name->strstr (ACE_TEXT (".a")))
{
ACE_TCHAR aix_pathname[MAXPATHLEN + 1];
ACE_OS::strncpy (aix_pathname,
name->c_str (),
name->length ());
aix_pathname[name->length ()] = '\0';
ACE_OS::strcat (aix_pathname, ACE_TEXT ("(shr.o)"));
open_mode |= RTLD_MEMBER;
if (ACE::debug ())
{
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open ")
ACE_TEXT ("(\"%s\", 0x%x) -> %s: %s\n"),
aix_pathname,
open_mode,
ACE_TEXT ((this->handle_ != ACE_SHLIB_INVALID_HANDLE)
? "succeeded"
: "failed"),
this->error()->c_str()));
}
this->handle_ = ACE_OS::dlopen (aix_pathname, open_mode);
if (this->handle_ != ACE_SHLIB_INVALID_HANDLE)
break;
// If errno is ENOENT we just skip over this one, anything
// else - like an undefined symbol, for instance
// must be flagged here or the next error will mask it.
//
// @TODO: If we've found our DLL _and_ it's broken,
// should we continue at all?
if (ACE::debug () && (errno != 0) && (errno != ENOENT))
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open ")
ACE_TEXT ("(\'%s\') failed, errno=")
ACE_TEXT ("%d: %s\n"),
name->c_str (),
errno,
this->error ()->c_str ()));
}
#endif /* AIX */
name_iter.advance ();
}
if (this->handle_ == ACE_SHLIB_INVALID_HANDLE)
{
if (ACE::debug ())
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open (\"%s\"): ")
ACE_TEXT ("Invalid handle error: %s\n"),
this->dll_name_,
this->error ()->c_str ()));
return -1;
}
}
}
++this->refcount_;
if (ACE::debug ())
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("ACE (%P|%t) DLL_Handle::open - %s (%d), refcount=%d\n"),
this->dll_name_,
this->handle_,
this->refcount_));
return 0;
}
int
ACE_Registry_ImpExp::export_section (const ACE_Configuration_Section_Key& section,
const ACE_TString& path,
FILE* out)
{
// don't export the root
if (path.length ())
{
// Write out the section header
ACE_TString header = ACE_TEXT ("[");
header += path;
header += ACE_TEXT ("]");
header += ACE_TEXT ("\n");
if (ACE_WRITE_STRING (header.fast_rep (), out) < 0)
return -1;
// Write out each value
int index = 0;
ACE_TString name;
ACE_Configuration::VALUETYPE type;
ACE_TString line;
ACE_TCHAR int_value[32];
ACE_TCHAR bin_value[3];
void* binary_data;
size_t binary_length;
ACE_TString string_value;
while (!config_.enumerate_values (section, index, name, type))
{
line = ACE_TEXT ("\"") + name + ACE_TEXT ("\"=");
switch (type)
{
case ACE_Configuration::INTEGER:
{
u_int value;
if (config_.get_integer_value (section, name.fast_rep (), value))
return -2;
ACE_OS::snprintf (int_value, 32, ACE_TEXT ("%08x"), value);
line += ACE_TEXT ("dword:");
line += int_value;
break;
}
case ACE_Configuration::STRING:
{
if (config_.get_string_value (section,
name.fast_rep (),
string_value))
return -2;
line += ACE_TEXT ("\"");
line += string_value + ACE_TEXT ("\"");
break;
}
#ifdef ACE_WIN32
case ACE_Configuration::INVALID:
break;
#endif
case ACE_Configuration::BINARY:
{
// not supported yet - maybe use BASE64 codeing?
if (config_.get_binary_value (section,
name.fast_rep (),
binary_data,
binary_length))
return -2;
line += ACE_TEXT ("hex:");
unsigned char* ptr = (unsigned char*)binary_data;
while (binary_length)
{
if (ptr != binary_data)
{
line += ACE_TEXT (",");
}
ACE_OS::snprintf (bin_value, 3, ACE_TEXT ("%02x"), *ptr);
line += bin_value;
--binary_length;
++ptr;
}
#if defined (ACE_HAS_ALLOC_HOOKS)
ACE_Allocator::instance()->free(binary_data);
#else
delete [] (char*) binary_data;
#endif /* ACE_HAS_ALLOC_HOOKS */
break;
}
default:
return -3;
}
line += ACE_TEXT ("\n");
if (ACE_WRITE_STRING (line.fast_rep (), out) < 0)
return -4;
++index;
}
}
// Export all sub sections
int index = 0;
ACE_TString name;
ACE_Configuration_Section_Key sub_key;
ACE_TString sub_section;
while (!config_.enumerate_sections (section, index, name))
{
ACE_TString sub_section (path);
if (path.length ())
sub_section += ACE_TEXT ("\\");
sub_section += name;
if (config_.open_section (section, name.fast_rep (), 0, sub_key))
return -5;
if (export_section (sub_key, sub_section.fast_rep (), out))
return -6;
++index;
}
return 0;
}
