//--------------------------------------------------------------------------------------------------
void allParametersRespond
(
ServerCmdRef_t _cmdRef,
uint32_t b,
size_t outputNumElements,
uint32_t* outputPtr,
char* response,
char* more
)
{
LE_ASSERT(_cmdRef != NULL);
// Get the message related data
le_msg_MessageRef_t _msgRef = (le_msg_MessageRef_t)_cmdRef;
_Message_t* _msgPtr = le_msg_GetPayloadPtr(_msgRef);
__attribute__((unused)) uint8_t* _msgBufPtr = _msgPtr->buffer;
// Ensure the passed in msgRef is for the correct message
LE_ASSERT(_msgPtr->id == _MSGID_allParameters);
// Ensure that this Respond function has not already been called
LE_FATAL_IF( !le_msg_NeedsResponse(_msgRef), "Response has already been sent");
// Pack any "out" parameters
_msgBufPtr = PackData( _msgBufPtr, &b, sizeof(uint32_t) );
_msgBufPtr = PackData( _msgBufPtr, &outputNumElements, sizeof(size_t) );
_msgBufPtr = PackData( _msgBufPtr, outputPtr, outputNumElements*sizeof(uint32_t) );
_msgBufPtr = PackString( _msgBufPtr, response );
_msgBufPtr = PackString( _msgBufPtr, more );
// Return the response
LE_DEBUG("Sending response to client session %p", le_msg_GetSession(_msgRef));
le_msg_Respond(_msgRef);
}
void Client::InternalSendMessage(const google::protobuf::Message& _message) {
if (state_ != CONNECTED) {
LOG(ERROR) << "Client is not connected. Dropping message" << std::endl;
return;
}
// Generate a zero rid.
REQID rid = REQID_Generator::generate_zero_reqid();
// Make the outgoing packet
sp_int32 byte_size = _message.ByteSize();
sp_uint32 sop = OutgoingPacket::SizeRequiredToPackString(_message.GetTypeName()) + REQID_size +
OutgoingPacket::SizeRequiredToPackProtocolBuffer(byte_size);
auto opkt = new OutgoingPacket(sop);
CHECK_EQ(opkt->PackString(_message.GetTypeName()), 0);
CHECK_EQ(opkt->PackREQID(rid), 0);
CHECK_EQ(opkt->PackProtocolBuffer(_message, byte_size), 0);
Connection* conn = static_cast<Connection*>(conn_);
if (conn->sendPacket(opkt, NULL) != 0) {
LOG(ERROR) << "Some problem sending message thru the connection. Dropping message" << std::endl;
delete opkt;
return;
}
return;
}
void Client::SendResponse(REQID _id, const google::protobuf::Message& _response) {
sp_int32 byte_size = _response.ByteSize();
sp_uint32 data_size = OutgoingPacket::SizeRequiredToPackString(_response.GetTypeName()) +
REQID_size + OutgoingPacket::SizeRequiredToPackProtocolBuffer(byte_size);
auto opkt = new OutgoingPacket(data_size);
CHECK_EQ(opkt->PackString(_response.GetTypeName()), 0);
CHECK_EQ(opkt->PackREQID(_id), 0);
CHECK_EQ(opkt->PackProtocolBuffer(_response, byte_size), 0);
InternalSendResponse(opkt);
return;
}
static MessageData
PackSingleAttribute(MessageData data, WSMAttribute *attr_list, int num)
{
register int i;
data = PackListNum(data, num);
for (i = 0; i < num; i++, attr_list++) {
data = PackString(data, XrmQuarkToString(attr_list->nameq));
data = PackCARD8(data, (CARD8) attr_list->size);
data = PackBoolean(data, attr_list->is_list);
}
return(data);
}
/*----------------------------------------------------------------------*
| SendDefineCommand |
*----------------------------------------------------------------------*/
void
SendDefineCommand (int parID, int commID, char *cmdName, char *cmdDefault)
{
Time time;
XtPointer msg,save;
int size=0;
CARD32 selection = 0L;
CARD32 commandID = 0L;
CARD32 parentID = 0L;
commandID += commID;
parentID += parID;
time = GetTimestamp(dsp);
selection += atoms.own_selection;
size += sizeof(CARD32); /* command id */
size += sizeof(CARD32); /* selection */
size += sizeof(CARD32); /* parent id */
size += sizeof(CARD16) + (strlen(cmdName) * sizeof(CARD8)); /* name */
size += sizeof(CARD16) + (strlen(cmdDefault) * sizeof(CARD8)); /* defalault label */
save = msg = (XtPointer) XtMalloc(size);
msg = PackCARD32(msg, (CARD32) commandID);
msg = PackCARD32(msg, (CARD32) selection);
msg = PackCARD32(msg, (CARD32) parentID);
msg = PackString(msg, (String) cmdName);
msg = PackString(msg, (String) cmdDefault);
PRINT("DefineCommand: %d, %d, %d, '%s', '%s'\n",
commandID, selection, parentID, cmdName, cmdDefault);
SendMessage(DEFINE, save, size, time);
}
static void AsyncResponse_TestCallback
(
uint32_t data,
const char* name,
int dataFile,
void* contextPtr
)
{
le_msg_MessageRef_t _msgRef;
_Message_t* _msgPtr;
_ServerData_t* serverDataPtr = (_ServerData_t*)contextPtr;
// This is a one-time handler; if the server accidently calls it a second time, then
// the client sesssion ref would be NULL.
if ( serverDataPtr->clientSessionRef == NULL )
{
LE_FATAL("Handler passed to TestCallback() can't be called more than once");
}
// Will not be used if no data is sent back to client
__attribute__((unused)) uint8_t* _msgBufPtr;
// Create a new message object and get the message buffer
_msgRef = le_msg_CreateMsg(serverDataPtr->clientSessionRef);
_msgPtr = le_msg_GetPayloadPtr(_msgRef);
_msgPtr->id = _MSGID_TestCallback;
_msgBufPtr = _msgPtr->buffer;
// Always pack the client context pointer first
_msgBufPtr = PackData( _msgBufPtr, &(serverDataPtr->contextPtr), sizeof(void*) );
// Pack the input parameters
_msgBufPtr = PackData( _msgBufPtr, &data, sizeof(uint32_t) );
_msgBufPtr = PackString( _msgBufPtr, name );
le_msg_SetFd(_msgRef, dataFile);
// Send the async response to the client
LE_DEBUG("Sending message to client session %p : %ti bytes sent",
serverDataPtr->clientSessionRef,
_msgBufPtr-_msgPtr->buffer);
SendMsgToClient(_msgRef);
// The registered handler has been called, so no longer need the server data.
// Explicitly set clientSessionRef to NULL, so that we can catch if this function gets
// accidently called again.
serverDataPtr->clientSessionRef = NULL;
le_mem_Release(serverDataPtr);
}
/*----------------------------------------------------------------------*
| SendRename |
*----------------------------------------------------------------------*/
void
SendRenameCommand(Window window, int commID, char *new_name)
{
Time time;
XtPointer msg, save;
CARD32 commandID = 0L;
CARD32 count = 1L;
CARD32 windowBit = 1<<30;
/* CARD32 iconBit = 1<<31;*/
char str[128];
int size=0;
commandID += commID;
time = GetTimestamp(dsp);
/*
* Fixup the window id receiving the client command.
* Top 2 bits:
* 10 - Icon only
* 01 - Window only
* 11 - Both Icon and Window
* 00 - Reserved (Don't Use!)
*
* Bottom 30 bits:
* 0x3fffffff - All windows and/or icons
* 0x00000000 - Root window menu
*/
size += sizeof(CARD32); /* command id */
size += sizeof(CARD16) + (strlen(new_name) * sizeof(CARD8));
size += sizeof(CARD32); /* count */
size += sizeof(CARD32); /* window */
save = msg = (XtPointer) XtMalloc(size);
window |= windowBit;
msg = PackCARD32(msg, (CARD32)commandID);
msg = PackString(msg, (String) new_name);
msg = PackCARD32(msg, (CARD32)count);
msg = PackCARD32(msg, (CARD32)window);
PRINT("RenameCommand #%d to %s on window %x (%u).\n", commandID,
new_name, window, window);
SendMessage(RENAME, save, size, time);
}
void Client::InternalSendRequest(google::protobuf::Message* _request, void* _ctx, sp_int64 _msecs) {
auto iter = requestResponseMap_.find(_request->GetTypeName());
CHECK(iter != requestResponseMap_.end());
const sp_string& _expected_response_type = iter->second;
if (state_ != CONNECTED) {
delete _request;
responseHandlers[_expected_response_type](NULL, WRITE_ERROR);
return;
}
// Generate the rid.
REQID rid = message_rid_gen_->generate();
// Insert into context map
context_map_[rid] = std::make_pair(_expected_response_type, _ctx);
// Make the outgoing packet
sp_int32 byte_size = _request->ByteSize();
sp_uint32 sop = OutgoingPacket::SizeRequiredToPackString(_request->GetTypeName()) + REQID_size +
OutgoingPacket::SizeRequiredToPackProtocolBuffer(byte_size);
auto opkt = new OutgoingPacket(sop);
CHECK_EQ(opkt->PackString(_request->GetTypeName()), 0);
CHECK_EQ(opkt->PackREQID(rid), 0);
CHECK_EQ(opkt->PackProtocolBuffer(*_request, byte_size), 0);
// delete the request
delete _request;
Connection* conn = static_cast<Connection*>(conn_);
if (conn->sendPacket(opkt, NULL) != 0) {
context_map_.erase(rid);
delete opkt;
responseHandlers[_expected_response_type](NULL, WRITE_ERROR);
return;
}
if (_msecs > 0) {
auto cb = [rid, this](EventLoop::Status s) { this->OnPacketTimer(rid, s); };
CHECK_GT(eventLoop_->registerTimer(std::move(cb), false, _msecs), 0);
}
return;
}
static void Handle_allParameters
(
le_msg_MessageRef_t _msgRef
)
{
// Get the message buffer pointer
uint8_t* _msgBufPtr = ((_Message_t*)le_msg_GetPayloadPtr(_msgRef))->buffer;
// Needed if we are returning a result or output values
uint8_t* _msgBufStartPtr = _msgBufPtr;
// Unpack the input parameters from the message
common_EnumExample_t a;
_msgBufPtr = UnpackData( _msgBufPtr, &a, sizeof(common_EnumExample_t) );
size_t dataNumElements;
_msgBufPtr = UnpackData( _msgBufPtr, &dataNumElements, sizeof(size_t) );
uint32_t data[dataNumElements];
_msgBufPtr = UnpackData( _msgBufPtr, data, dataNumElements*sizeof(uint32_t) );
size_t outputNumElements;
_msgBufPtr = UnpackData( _msgBufPtr, &outputNumElements, sizeof(size_t) );
if ( outputNumElements > 10 )
{
LE_DEBUG("Adjusting outputNumElements from %zd to 10", outputNumElements);
outputNumElements = 10;
}
char label[21];
_msgBufPtr = UnpackString( _msgBufPtr, label, 21 );
size_t responseNumElements;
_msgBufPtr = UnpackData( _msgBufPtr, &responseNumElements, sizeof(size_t) );
size_t moreNumElements;
_msgBufPtr = UnpackData( _msgBufPtr, &moreNumElements, sizeof(size_t) );
// Define storage for output parameters
uint32_t b;
uint32_t output[outputNumElements];
char response[responseNumElements]; response[0]=0;
char more[moreNumElements]; more[0]=0;
// Call the function
allParameters ( a, &b, data, dataNumElements, output, &outputNumElements, label, response, responseNumElements, more, moreNumElements );
// Re-use the message buffer for the response
_msgBufPtr = _msgBufStartPtr;
// Pack any "out" parameters
_msgBufPtr = PackData( _msgBufPtr, &b, sizeof(uint32_t) );
_msgBufPtr = PackData( _msgBufPtr, &outputNumElements, sizeof(size_t) );
_msgBufPtr = PackData( _msgBufPtr, output, outputNumElements*sizeof(uint32_t) );
_msgBufPtr = PackString( _msgBufPtr, response );
_msgBufPtr = PackString( _msgBufPtr, more );
// Return the response
LE_DEBUG("Sending response to client session %p : %ti bytes sent",
le_msg_GetSession(_msgRef),
_msgBufPtr-_msgBufStartPtr);
le_msg_Respond(_msgRef);
}
//--------------------------------------------------------------------------------------------------
BugTestRef_t AddBugTest
(
const char* newPathPtr,
///< [IN]
BugTestFunc_t handlerPtr,
///< [IN]
void* contextPtr
///< [IN]
)
{
le_msg_MessageRef_t _msgRef;
le_msg_MessageRef_t _responseMsgRef;
_Message_t* _msgPtr;
// Will not be used if no data is sent/received from server.
__attribute__((unused)) uint8_t* _msgBufPtr;
BugTestRef_t _result;
// Range check values, if appropriate
if ( strlen(newPathPtr) > 512 ) LE_FATAL("strlen(newPathPtr) > 512");
// Create a new message object and get the message buffer
_msgRef = le_msg_CreateMsg(GetCurrentSessionRef());
_msgPtr = le_msg_GetPayloadPtr(_msgRef);
_msgPtr->id = _MSGID_AddBugTest;
_msgBufPtr = _msgPtr->buffer;
// Pack the input parameters
_msgBufPtr = PackString( _msgBufPtr, newPathPtr );
// The input parameters are stored in the client data object, and it is
// a pointer to this object that is passed down.
// Create a new client data object and fill it in
_ClientData_t* _clientDataPtr = le_mem_ForceAlloc(_ClientDataPool);
_clientDataPtr->handlerPtr = (le_event_HandlerFunc_t)handlerPtr;
_clientDataPtr->contextPtr = contextPtr;
_clientDataPtr->callersThreadRef = le_thread_GetCurrent();
contextPtr = _clientDataPtr;
_msgBufPtr = PackData( _msgBufPtr, &contextPtr, sizeof(void*) );
// Send a request to the server and get the response.
LE_DEBUG("Sending message to server and waiting for response");
_responseMsgRef = le_msg_RequestSyncResponse(_msgRef);
// It is a serious error if we don't get a valid response from the server
LE_FATAL_IF(_responseMsgRef == NULL, "Valid response was not received from server");
// Process the result and/or output parameters, if there are any.
_msgPtr = le_msg_GetPayloadPtr(_responseMsgRef);
_msgBufPtr = _msgPtr->buffer;
// Unpack the result first
_msgBufPtr = UnpackData( _msgBufPtr, &_result, sizeof(_result) );
// Put the handler reference result into the client data object, and
// then return a safe reference to the client data object as the reference.
_clientDataPtr->handlerRef = (le_event_HandlerRef_t)_result;
_LOCK
_result = le_ref_CreateRef(_HandlerRefMap, _clientDataPtr);
_UNLOCK
// Unpack any "out" parameters
// Release the message object, now that all results/output has been copied.
le_msg_ReleaseMsg(_responseMsgRef);
return _result;
}
//--------------------------------------------------------------------------------------------------
void allParameters
(
common_EnumExample_t a,
///< [IN]
///< first one-line comment
///< second one-line comment
uint32_t* bPtr,
///< [OUT]
const uint32_t* dataPtr,
///< [IN]
size_t dataNumElements,
///< [IN]
uint32_t* outputPtr,
///< [OUT]
///< some more comments here
///< and some comments here as well
size_t* outputNumElementsPtr,
///< [INOUT]
const char* label,
///< [IN]
char* response,
///< [OUT]
///< comments on final parameter, first line
///< and more comments
size_t responseNumElements,
///< [IN]
char* more,
///< [OUT]
///< This parameter tests a bug fix
size_t moreNumElements
///< [IN]
)
{
le_msg_MessageRef_t _msgRef;
le_msg_MessageRef_t _responseMsgRef;
_Message_t* _msgPtr;
// Will not be used if no data is sent/received from server.
__attribute__((unused)) uint8_t* _msgBufPtr;
// Range check values, if appropriate
if ( dataNumElements > 10 ) LE_FATAL("dataNumElements > 10");
if ( strlen(label) > 20 ) LE_FATAL("strlen(label) > 20");
// Create a new message object and get the message buffer
_msgRef = le_msg_CreateMsg(GetCurrentSessionRef());
_msgPtr = le_msg_GetPayloadPtr(_msgRef);
_msgPtr->id = _MSGID_allParameters;
_msgBufPtr = _msgPtr->buffer;
// Pack the input parameters
_msgBufPtr = PackData( _msgBufPtr, &a, sizeof(common_EnumExample_t) );
_msgBufPtr = PackData( _msgBufPtr, &dataNumElements, sizeof(size_t) );
_msgBufPtr = PackData( _msgBufPtr, dataPtr, dataNumElements*sizeof(uint32_t) );
_msgBufPtr = PackData( _msgBufPtr, outputNumElementsPtr, sizeof(size_t) );
_msgBufPtr = PackString( _msgBufPtr, label );
_msgBufPtr = PackData( _msgBufPtr, &responseNumElements, sizeof(size_t) );
_msgBufPtr = PackData( _msgBufPtr, &moreNumElements, sizeof(size_t) );
// Send a request to the server and get the response.
LE_DEBUG("Sending message to server and waiting for response");
_responseMsgRef = le_msg_RequestSyncResponse(_msgRef);
// It is a serious error if we don't get a valid response from the server
LE_FATAL_IF(_responseMsgRef == NULL, "Valid response was not received from server");
// Process the result and/or output parameters, if there are any.
_msgPtr = le_msg_GetPayloadPtr(_responseMsgRef);
_msgBufPtr = _msgPtr->buffer;
// Unpack any "out" parameters
_msgBufPtr = UnpackData( _msgBufPtr, bPtr, sizeof(uint32_t) );
_msgBufPtr = UnpackData( _msgBufPtr, outputNumElementsPtr, sizeof(size_t) );
_msgBufPtr = UnpackData( _msgBufPtr, outputPtr, *outputNumElementsPtr*sizeof(uint32_t) );
_msgBufPtr = UnpackDataString( _msgBufPtr, response, responseNumElements*sizeof(char) );
_msgBufPtr = UnpackDataString( _msgBufPtr, more, moreNumElements*sizeof(char) );
// Release the message object, now that all results/output has been copied.
le_msg_ReleaseMsg(_responseMsgRef);
}
MessageData
_WSMPackReply(Display *dpy, int screen_num,
WSMReply *reply, unsigned long *msg_data_len)
{
WSMAttribute *attr;
WSMWinInfo *win_info;
WSMWinEntry *win_entry;
register int i;
long size;
MessageData data, save;
*msg_data_len = 0; /* default value. */
switch (reply->any.type) {
case WSM_CONNECT:
size = sizeof(CARD8);
break;
case WSM_EXTENSIONS:
size = COUNT_SIZE;
for (i = 0; i < reply->extensions.num_extensions; i++) {
size += (strlen(reply->extensions.extensions[i]) + COUNT_SIZE);
}
break;
case WSM_CONFIG_FMT:
size = BOOL_SIZE; /* accept_diffs. */
size += COUNT_SIZE; /* The count of global attributes. */
attr = reply->config_format.global_formats;
for (i = 0; i < reply->config_format.num_global_formats; i++) {
/*
* Bytes in string
*/
size += strlen(XrmQuarkToString(attr[i].nameq)) * sizeof(CARD8);
/*
* len of string + size + is_list.
*/
size += COUNT_SIZE + sizeof(CARD8) + BOOL_SIZE;
}
size += COUNT_SIZE; /* The count of window attributes. */
attr = reply->config_format.window_formats;
for (i = 0; i < reply->config_format.num_window_formats; i++) {
/*
* Bytes in string
*/
size += strlen(XrmQuarkToString(attr[i].nameq)) * sizeof(CARD8);
/*
* len of string + size + is_list.
*/
size += COUNT_SIZE + sizeof(CARD8) + BOOL_SIZE;
}
size += COUNT_SIZE; /* The count of icon attributes. */
attr = reply->config_format.icon_formats;
for (i = 0; i < reply->config_format.num_icon_formats; i++) {
/*
* Bytes in string
*/
size += strlen(XrmQuarkToString(attr[i].nameq)) * sizeof(CARD8);
/*
* len of string + size + is_list.
*/
size += COUNT_SIZE + sizeof(CARD8) + BOOL_SIZE;
}
break;
case WSM_GET_STATE:
size = COUNT_SIZE; /* The count of window info. */
win_info = reply->get_state.win_info_list;
for (i = 0; i < reply->get_state.num_win_info_list; i++,win_info++)
size += WinInfoSizePacked(dpy, screen_num, win_info);
break;
case WSM_SET_STATE:
size = 0;
break;
case WSM_REG_WINDOW:
size = WinDataSizePacked(dpy, screen_num,
reply->register_window.window_data,
reply->register_window.num_window_data,
WSM_WINDOW_FMT);
break;
case WSM_WM_GET_BACKGROUND_WINDOW:
size = sizeof(CARD32);
break;
case WSM_WM_SET_BACKGROUND_WINDOW:
size = sizeof(CARD32);
break;
case WSM_WM_WINDOWS:
size = COUNT_SIZE; /* The count of window entries. */
win_entry = reply->wm_windows.win_entry_list;
for (i = 0; i < reply->wm_windows.num_win_entry_list; i++,win_entry++)
size += WinEntrySizePacked(dpy, screen_num, win_entry);
break;
case WSM_WM_FOCUS:
size = sizeof(CARD32);
break;
case WSM_WM_POINTER:
size = sizeof(CARD32); /* window */
size += sizeof(CARD32); /* flag */
break;
default:
/*
* ||| Error Message.
*/
return(NULL);
}
save = data = (MessageData) XtMalloc(size);
switch (reply->any.type) {
case WSM_CONNECT:
(void) PackCARD8(data, (CARD8) (reply->connect.version & 0xFF));
break;
case WSM_EXTENSIONS:
data = PackListNum(data, reply->extensions.num_extensions);
for (i = 0; i < reply->extensions.num_extensions; i++)
data = PackString(data, reply->extensions.extensions[i]);
break;
case WSM_CONFIG_FMT:
PackConfigFormat(data, &(reply->config_format));
break;
case WSM_GET_STATE:
win_info = reply->get_state.win_info_list;
data = PackListNum(data, reply->get_state.num_win_info_list);
for (i = 0; i < reply->get_state.num_win_info_list; i++, win_info++)
data = PackWinInfo(dpy, screen_num, data, win_info);
break;
case WSM_SET_STATE:
break;
case WSM_REG_WINDOW:
data = PackWinData(dpy, screen_num, data,
reply->register_window.window_data,
reply->register_window.num_window_data,
WSM_WINDOW_FMT);
break;
case WSM_WM_GET_BACKGROUND_WINDOW:
(void) PackWindow(data, reply->get_background.window);
break;
case WSM_WM_SET_BACKGROUND_WINDOW:
(void) PackWindow(data, reply->set_background.window);
break;
case WSM_WM_WINDOWS:
win_entry = reply->wm_windows.win_entry_list;
data = PackListNum(data, reply->wm_windows.num_win_entry_list);
for (i = 0; i < reply->wm_windows.num_win_entry_list; i++, win_entry++)
data = PackWinEntry(dpy, screen_num, data, win_entry);
break;
case WSM_WM_FOCUS:
(void) PackWindow(data, reply->wm_focus.window);
break;
case WSM_WM_POINTER:
(void) PackWindow(data, reply->wm_pointer.window);
(void) PackCARD32(data, reply->wm_pointer.location_flag);
break;
default:
break;
}
*msg_data_len = size;
return(save);
}/* _WSMPackReply */
MessageData
_WSMPackRequest(Display *dpy, int screen_num, WSMRequest *request,
unsigned long *msg_data_len, WSMErrorCode *error)
{
MessageData data, save;
int i;
long size;
WSMWinInfo *win_info;
WSMConfigFormatData *global_attrs, *win_attrs, *icon_attrs;
*msg_data_len = 0; /* default value. */
global_attrs = _WSMGetConfigFormat(dpy, screen_num, WSM_GLOBAL_FMT);
win_attrs = _WSMGetConfigFormat(dpy, screen_num, WSM_WINDOW_FMT);
icon_attrs = _WSMGetConfigFormat(dpy, screen_num, WSM_ICON_FMT);
*error = WSM_SUCCESS;
if (_WSMRequiresConfigFormat(request->any.type) &&
(global_attrs->num_attrs == 0) &&
(win_attrs->num_attrs == 0) && (icon_attrs->num_attrs == 0))
{
*error = WSM_ERROR_NO_CONFIG_FORMAT;
return(NULL);
}
if (((request->any.type == WSM_CONNECT) ||
(request->any.type == WSM_CONFIG_FMT)) &&
((global_attrs->num_attrs != 0) ||
(win_attrs->num_attrs != 0) || (icon_attrs->num_attrs != 0)))
{
*error = WSM_ERROR_ALREADY_HAVE_CONFIG_FORMAT;
return(NULL);
}
/* before sending extensions make sure screen_info config format
is cleared */
/* may want to remove this and leave it up to application writer */
if ((request->any.type == WSM_EXTENSIONS) &&
((global_attrs->num_attrs != 0) ||
(win_attrs->num_attrs != 0) || (icon_attrs->num_attrs != 0)))
{
_WSMClearConfigScreenInfo(dpy,screen_num);
}
/*
* Calculate the size of the request.
*/
switch (request->any.type) {
case WSM_CONNECT:
size = COUNT_SIZE;
size += sizeof(CARD8) * request->connect.num_versions;
break;
case WSM_EXTENSIONS:
size = COUNT_SIZE;
for (i = 0; i < request->extensions.num_extensions; i++) {
size += (strlen(request->extensions.extension_suggestions[i]) +
COUNT_SIZE);
}
break;
case WSM_CONFIG_FMT:
size = 0;
break;
case WSM_GET_STATE:
size = sizeof(CARD32) + BOOL_SIZE;
break;
case WSM_SET_STATE:
size = COUNT_SIZE; /* The count of window info. */
win_info = request->set_state.win_info_list;
for (i = 0; i < request->set_state.num_win_info_list; i++,win_info++)
size += WinInfoSizePacked(dpy, screen_num, win_info);
break;
case WSM_REG_WINDOW:
size = sizeof(CARD32);
break;
case WSM_WM_GET_BACKGROUND_WINDOW:
size = sizeof(CARD16);
break;
case WSM_WM_SET_BACKGROUND_WINDOW:
size = sizeof(CARD32);
break;
case WSM_WM_WINDOWS:
size = sizeof(CARD32); /* flag */
size += COUNT_SIZE; /* prop count */
size += request->wm_windows.num_window_properties * sizeof(Window);
size += COUNT_SIZE; /* num match attributes */
for (i=0; i<request->wm_windows.num_match_attributes; i++)
{
size += COUNT_SIZE; /* num attributes */
size += 2 *
request->wm_windows.match_attributes[i]->num_attributes *
sizeof(WindowProperty);
}
break;
case WSM_WM_FOCUS:
size = 0;
break;
case WSM_WM_POINTER:
size = 0;
break;
default:
return(NULL);
}
save = data = (MessageData) XtMalloc(size);
/*
* Fill in the message.
*/
switch (request->any.type) {
case WSM_CONNECT:
data = PackListNum(data, request->connect.num_versions);
for (i = 0; i < request->connect.num_versions; i++)
data = PackCARD8(data, (CARD8) request->connect.known_versions[i]);
break;
case WSM_EXTENSIONS:
data = PackListNum(data, request->extensions.num_extensions);
for (i = 0; i < request->extensions.num_extensions; i++)
data=PackString(data,request->extensions.extension_suggestions[i]);
break;
case WSM_CONFIG_FMT:
break;
case WSM_GET_STATE:
data = PackWindow(data, request->get_state.window);
(void) PackBoolean(data, request->get_state.diffs_allowed);
break;
case WSM_SET_STATE:
win_info = request->set_state.win_info_list;
data = PackListNum(data, request->set_state.num_win_info_list);
for (i = 0; i < request->set_state.num_win_info_list; i++, win_info++)
data = PackWinInfo(dpy, screen_num, data, win_info);
break;
case WSM_REG_WINDOW:
(void) PackWindow(data, request->register_window.window);
break;
case WSM_WM_GET_BACKGROUND_WINDOW:
(void) PackCARD16(data, request->get_background.screen);
break;
case WSM_WM_SET_BACKGROUND_WINDOW:
(void) PackWindow(data, request->set_background.window);
break;
case WSM_WM_WINDOWS:
{
int i, j;
data = PackCARD32(data, request->wm_windows.location_flag);
data = PackListNum(data, request->wm_windows.num_window_properties);
for (i=0; i<request->wm_windows.num_window_properties; i++)
data = PackProperty(data, request->wm_windows.window_properties[i]);
data = PackListNum(data, request->wm_windows.num_match_attributes);
for (i = 0; i < request->wm_windows.num_match_attributes; i++)
{
AttributePair *match_attr;
match_attr = request->wm_windows.match_attributes[i];
data = PackListNum(data, match_attr->num_attributes);
for (j = 0; j < match_attr->num_attributes; j++)
data = PackProperty(data, match_attr->allowed_attributes[j]);
for (j = 0; j < match_attr->num_attributes; j++)
data = PackProperty(data, match_attr->prohibited_attributes[j]);
}
}
break;
case WSM_WM_FOCUS:
break;
case WSM_WM_POINTER:
break;
default:
break;
}
*msg_data_len = size;
return(save);
} /* _WSMPackRequest */
