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tdelibs/dcop/dcopc.c

793 lines
19 KiB

/* vi: set ts=2 sw=2 tw=78:
*
* C interface to DCOP
*
* (C) 2000 Rik Hemsley <rik@kde.org>
* (C) 2000 Simon Hausmann <hausmann@kde.org>
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
/* sometimes __STDC__ is defined, but to 0. The hateful X headers
ask for '#if __STDC__', so they become confused. */
#if defined(__STDC__)
#if !__STDC__
#undef __STDC__
#define __STDC__ 1
#endif
#endif
/* We really don't want to require X11 headers... */
#include "config.h"
#include <tqglobal.h>
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
#include <X11/Xlib.h>
#include <X11/X.h>
#include <X11/Xproto.h>
#include <X11/Xmd.h>
#include <X11/ICE/ICE.h>
#include <X11/ICE/ICElib.h>
#include <X11/ICE/ICEutil.h>
#include <X11/ICE/ICEconn.h>
#include <X11/ICE/ICEmsg.h>
#include <X11/ICE/ICEproto.h>
#endif
#include "dcopglobal.h"
#include "dcopc.h"
#define BUFFER_SIZE 1024
enum {
DCOP_REPLY_PENDING,
DCOP_REPLY_OK,
DCOP_REPLY_FAILED
};
struct dcop_reply_struct
{
unsigned long status;
char ** replyType;
char ** replyData;
int * replyDataLength;
int replyId;
};
void
dcop_process_message(
IceConn iceConn,
IcePointer clientObject,
int opcode,
unsigned long length,
Bool swap,
IceReplyWaitInfo * replyWait,
Bool * replyWaitRet
);
Bool dcop_attach_internal(Bool register_as_anonymous);
Bool dcop_ice_register(void);
Bool dcop_connect(void);
Bool dcop_protocol_setup(void);
char * dcop_write_int (char * buf, int i);
char * dcop_read_int (char * buf, int * i);
char * dcop_write_string (char * buf, const char * text);
char * dcop_read_string (char * buf, char ** output);
static char * dcop_requested_name = 0;
static char * dcop_app_name = 0;
static int dcop_major_opcode = 0;
static IceConn dcop_ice_conn = 0L;
static CARD32 dcop_key = 0;
static int dcop_reply_id = 0;
static IcePoVersionRec DCOPVersions[] = {
{ DCOPVersionMajor, DCOPVersionMinor, dcop_process_message }
};
/***************************************************************************/
char *
dcop_write_int(char * buf, int i)
{
char * p = (char *)(&i);
buf[3] = *p++;
buf[2] = *p++;
buf[1] = *p++;
buf[0] = *p;
return buf + 4;
}
/***************************************************************************/
char *
dcop_read_int(char * buf, int * i)
{
char *p = (char *)i;
*p++ = buf[3];
*p++ = buf[2];
*p++ = buf[1];
*p = buf[0];
return buf + 4;
}
/***************************************************************************/
char *
dcop_write_string(char * buf, const char * text)
{
char * pos = buf;
int l = strlen( text ) + 1; /* we need the \0! (Simon) */
pos = dcop_write_int(buf, l);
memcpy(pos, text, l);
return pos + l;
}
/***************************************************************************/
char *
dcop_read_string(char * buf, char ** output)
{
int length;
char * pos = dcop_read_int(buf, &length);
fprintf(stderr, "dcop_read_string: length == %d\n", length);
*output = (char *)malloc(length);
memcpy(*output, pos, length);
return pos + length;
}
/***************************************************************************/
Bool
dcop_register_callback(const char * object_id, dcop_callback_t callback)
{
/* STUB */
/* Avoid unused param warnings */
object_id = object_id;
callback = callback;
return False;
/*
* TODO:
* Map the given object id to the given callback internally, so that when we
* receive a message, we know where to send it. Or... should we just allow
* one callback only, and pass that all calls ? Depends whether I can be
* bothered to figure out how to do a 'map' in C.
*/
}
/***************************************************************************/
void
dcop_process_message(
IceConn iceConn,
IcePointer clientObject,
int opcode,
unsigned long length,
Bool swap,
IceReplyWaitInfo * replyWait,
Bool * replyWaitRet
)
{
struct DCOPMsg * pMsg = 0L;
tqStatus status = False;
char * buf = 0L;
char * senderId = 0L;
char * app = 0L;
char * objId = 0L;
char * fun = 0L;
char * pos = 0L;
char * replyType = 0L;
int dataLength = 0;
unsigned long replyVal = 0L;
/* Avoid unused param warnings */
clientObject = clientObject;
swap = swap;
if (0 == replyWait) {
fprintf(stderr, "dcop_process_message(): replyWait is 0\n");
}
if (iceConn != dcop_ice_conn) {
fprintf(stderr, "dcop_process_message(): ICE connection does not match\n");
return;
}
IceReadMessageHeader(
dcop_ice_conn,
sizeof(struct DCOPMsg),
struct DCOPMsg,
pMsg
);
switch (opcode) {
case DCOPReply:
fprintf(stderr, "dcop_process_message(): DCOPReply received\n");
fprintf(stderr, "dcop_process_message(): length == %ld\n", length);
buf = (char *)malloc(length);
status = IceReadData(dcop_ice_conn, length, buf);
if (False == status) {
fprintf(stderr, "dcop_process_message(): IceReadData failed\n");
}
fprintf(stderr, "dcop_process_message(): Reading data\n");
pos = buf;
pos = dcop_read_string(pos, &replyType);
fprintf(stderr, "dcop_process_message(): replyType : `%s'\n", replyType);
/* TODO: Run user-provided callback. */
free(replyType);
replyVal = DCOP_REPLY_OK;
break;
case DCOPReplyFailed:
fprintf(stderr, "dcop_process_message(): DCOPReplyFailed received\n");
break;
case DCOPReplyWait:
fprintf(stderr, "dcop_process_message(): DCOPReplyWait received\n");
break;
case DCOPReplyDelayed:
fprintf(stderr, "dcop_process_message(): DCOPReplyDelayed received\n");
break;
case DCOPFind:
fprintf(stderr, "dcop_process_message(): DCOPFind received\n");
break;
case DCOPSend:
fprintf(stderr, "dcop_process_message(): DCOPSend received\n");
buf = (char *)malloc(length);
IceReadData(dcop_ice_conn, length, buf);
pos = buf;
pos = dcop_read_string(pos, &senderId);
pos = dcop_read_string(pos, &app);
pos = dcop_read_string(pos, &objId);
pos = dcop_read_string(pos, &fun);
pos = dcop_read_int(pos, &dataLength);
/* TODO: Run user-provided callback. */
free(senderId);
free(app);
free(objId);
free(fun);
free(buf);
replyVal = DCOP_REPLY_OK;
break;
case DCOPCall:
fprintf(stderr, "dcop_process_message(): DCOPCall not yet implemented\n");
break;
default:
fprintf(stderr, "dcop_process_message(): Invalid opcode %d\n", opcode);
break;
}
if (0 != replyWait)
((struct dcop_reply_struct *)replyWait->reply)->status = replyVal;
fprintf(stderr, "dcop_process_message(): Setting replyWaitRet = True\n");
*replyWaitRet = True;
fprintf(stderr, "dcop_process_message(): Returning\n");
}
/***************************************************************************/
Bool
dcop_send_signal(
const char * receiving_app,
const char * object,
const char * function,
char * data,
int dataLength
)
{
char * pos = 0L;
char * header = 0L;
unsigned int headerLength = 0;
struct DCOPMsg * pMsgPtr = 0;
static const char* sAnonymous = "anonymous";
if (0 == dcop_ice_conn) {
fprintf(stderr, "Try running dcop_attach(), moron\n");
return False;
}
/*
* First let ICE initialize the ICE Message Header and give us a pointer to
* it (ICE manages that buffer internally)
*/
IceGetHeader(
dcop_ice_conn,
dcop_major_opcode,
DCOPSend,
sizeof(struct DCOPMsg),
struct DCOPMsg,
pMsgPtr
);
/*
* Marshall the arguments for the DCOP message header (callerApp, destApp,
* destObj, destFunc. The last argument is actually part of the data part of
* the call, but we add it to the header. It's the size of the marshalled
* argument data. In Qt it would look like TQDataStream str( ... ) str <<
* callerApp << destApp << destObj << destFun <<
* argumentQByteArrayDataStuff; (where as str is the complete data stream
* sent do the dcopserver, excluding the ICE header) As the TQByteArray is
* marshalled as [size][data] and as we (below) send the data in two chunks,
* first the dcop msg header and the the data, we just put the [size] field
* as last field into the dcop msg header ;-)
*/
headerLength = strlen(sAnonymous) + 1 +
strlen(receiving_app) + 1 +
strlen(object) + 1 +
strlen(function) + 1 +
4*5; /* 4 string lengths + 1 int */
header = (char *)malloc(headerLength);
pos = header;
pos = dcop_write_string(pos, sAnonymous);
pos = dcop_write_string(pos, receiving_app);
pos = dcop_write_string(pos, object);
pos = dcop_write_string(pos, function);
pos = dcop_write_int(pos, dataLength);
headerLength = pos - header;
pMsgPtr->key = dcop_key;
/*
* The length field tells the dcopserver how much bytes the dcop message
* takes up. We add that size to the already by IceGetHeader initialized
* length value, as it seems that under some circumstances (depending on the
* DCOPMsg structure size) the length field is aligned/padded.
*/
pMsgPtr->length += headerLength + dataLength;
/* First let's send the dcop message header.
* IceSendData automatically takes care of first sending the Ice Message
* Header (outbufptr > outbuf -> flush the connection buffer)
*/
IceSendData(dcop_ice_conn, headerLength, header);
/* Now the function argument data */
IceSendData(dcop_ice_conn, dataLength, data);
/* Send it all ;-) */
IceFlush(dcop_ice_conn);
free(header);
if (IceConnectiontqStatus(dcop_ice_conn) != IceConnectAccepted)
return False;
return True;
}
/***************************************************************************/
Bool
dcop_call(
const char * appId,
const char * remApp,
const char * remObjId,
const char * remFun,
const char * data,
int dataLength,
char ** replyType,
char ** replyData,
int * replyDataLength
)
{
IceReplyWaitInfo waitInfo;
IceProcessMessagestqStatus status;
struct dcop_reply_struct replyStruct;
char * pos = 0L;
char * outputData = 0L;
int outputDataLength = 0;
int temp = 0;
Bool success = False;
Bool readyRet = False;
struct DCOPMsg * pMsg;
fprintf(stderr, "dcop_call() ...\n");
if (0 == dcop_ice_conn) {
fprintf(stderr, "Try running dcop_register(), moron\n");
return False;
}
temp += strlen(appId);
temp += strlen(remApp);
temp += strlen(remObjId);
temp += strlen(remFun);
temp += dataLength;
temp += 1024; /* Extra space for marshalling overhead */
outputData = (char *)malloc(temp);
temp = 0;
pos = outputData;
pos = dcop_write_string(pos, appId);
pos = dcop_write_string(pos, remApp);
pos = dcop_write_string(pos, remObjId);
pos = dcop_write_string(pos, remFun);
pos = dcop_write_int(pos, dataLength);
outputDataLength = pos - outputData;
IceGetHeader(
dcop_ice_conn,
dcop_major_opcode,
DCOPCall,
sizeof(struct DCOPMsg),
struct DCOPMsg,
pMsg
);
pMsg->length += outputDataLength + dataLength;
IceSendData(dcop_ice_conn, outputDataLength, outputData);
IceSendData(dcop_ice_conn, dataLength, (char *)data);
IceFlush(dcop_ice_conn);
free(outputData);
outputData = NULL;
if (IceConnectiontqStatus(dcop_ice_conn) != IceConnectAccepted) {
fprintf(stderr, "dcop_call(): Connection not accepted\n");
return False;
}
waitInfo.sequence_of_request = IceLastSentSequenceNumber(dcop_ice_conn);
waitInfo.major_opcode_of_request = dcop_major_opcode;
waitInfo.minor_opcode_of_request = DCOPCall;
replyStruct.status = DCOP_REPLY_PENDING;
replyStruct.replyId = dcop_reply_id++;
replyStruct.replyType = replyType;
replyStruct.replyData = replyData;
replyStruct.replyDataLength = replyDataLength;
waitInfo.reply = (IcePointer)(&replyStruct);
readyRet = False;
do {
fprintf(stderr, "dcop_call(): Doing IceProcessMessages\n");
status = IceProcessMessages(dcop_ice_conn, &waitInfo, &readyRet);
if (status == IceProcessMessagesIOError) {
fprintf(stderr, "dcop_call(): IceProcessMessagesIOError\n");
IceCloseConnection(dcop_ice_conn);
return False;
}
fprintf(stderr, "dcop_call(): readyRet == %s\n", readyRet ? "True" : "False");
} while (!readyRet);
fprintf(stderr, "dcop_call(): Finished\n");
return (replyStruct.status == DCOP_REPLY_OK) ? True : False;
}
/***************************************************************************/
Bool
dcop_attach()
{
fprintf(stderr, "dcop_attach()\n");
return dcop_attach_internal(True);
}
Bool
dcop_attach_internal(Bool register_as_anonymous)
{
fprintf(stderr,
"dcop_attach_internal(%s)\n", register_as_anonymous ? "True" : "False");
if (False == dcop_ice_register()) return False;
if (False == dcop_connect()) return False;
if (False == dcop_protocol_setup()) return False;
if (register_as_anonymous)
return (0L != dcop_register("anonymous", True)) ? True : False;
return True;
}
/***************************************************************************/
char *
dcop_register(const char * app_name, Bool add_pid)
{
char * replyType = 0L;
char * replyData = 0L;
int replyLen = 0;
char * data = 0L;
char * pos = 0L;
int dataLength = 0;
Bool calltqStatus = False;
fprintf(stderr, "dcop_register(`%s')\n", app_name);
if (0 == dcop_app_name) {
if (0 == dcop_ice_conn)
if (False == dcop_attach_internal(False))
return 0L;
} else {
fprintf(stderr, "dcop_init(): Reregistering as `%s'\n", app_name);
calltqStatus = dcop_detach();
if (False == calltqStatus) {
fprintf(stderr, "dcop_init(): Could not detach before reregistering\n");
return 0L;
}
}
if (False == add_pid)
dcop_requested_name = strdup(app_name);
else {
/* Leave room for "-pid" */
int len = strlen(app_name) + 64;
dcop_requested_name = (char *)malloc(len);
snprintf(dcop_requested_name, len, "%s-%ld", app_name, (long)getpid());
}
data = (char *)malloc(strlen(dcop_requested_name) + 42);
pos = data;
pos = dcop_write_string(pos, dcop_requested_name);
dataLength = pos - data;
calltqStatus =
dcop_call(
dcop_requested_name,
"DCOPServer",
"", /* Object irrelevant */
"registerAs(TQCString)",
data,
dataLength,
&replyType,
&replyData,
&replyLen
);
free(dcop_requested_name);
free(data);
if (False == calltqStatus) {
fprintf(stderr, "dcop_register(): dcop_call() failed\n");
return 0L;
}
fprintf(stderr, "dcop_register(): Reply length is %d\n", replyLen);
if (replyLen == 0)
return 0L;
dcop_read_string(replyData, &dcop_app_name);
return dcop_app_name;
}
/***************************************************************************/
Bool
dcop_ice_register()
{
dcop_major_opcode =
IceRegisterForProtocolSetup(
(char *)("DCOP"),
(char *)DCOPVendorString,
(char *)DCOPReleaseString,
1, /* What's this ? */
DCOPVersions,
DCOPAuthCount,
(char **)DCOPAuthNames,
DCOPClientAuthProcs,
0L /* What's this ? */
);
return (dcop_major_opcode >= 0) ? True : False;
}
/***************************************************************************/
Bool
dcop_connect()
{
size_t bytesRead = 0;
IcePointer context = 0;
FILE * f = 0L;
char * newline = 0L;
char * homeDir = 0L;
char * display = 0L;
char * dcopServer = 0L;
char errBuf[BUFFER_SIZE];
char fileName[BUFFER_SIZE];
char hostName[BUFFER_SIZE];
char displayName[BUFFER_SIZE];
char * i;
homeDir = getenv("HOME");
if (NULL == homeDir)
return False;
display = getenv("DISPLAY");
if (NULL == display)
display = "NODISPLAY";
strncpy(displayName, display, sizeof(displayName));
displayName[sizeof(displayName) - 1] = 0;
if((i = strrchr(displayName, '.')) > strrchr(displayName, ':') && i)
*i = '\0';
while((i = strchr(displayName, ':')) != NULL)
*i = '_';
dcopServer = getenv("DCOPSERVER");
if (NULL == dcopServer) {
if (-1 == chdir(homeDir)) {
fprintf(stderr, "Cannot cd ~\n");
return False;
}
hostName[0] = '\0';
if (getenv("XAUTHLOCALHOSTNAME"))
strlcpy(hostName, getenv("XAUTHLOCALHOSTNAME"),sizeof(hostName)-1);
else if (gethostname(hostName, sizeof(hostName)))
strcpy(hostName, "localhost");
else
hostName[sizeof(hostName)-1] = '\0';
snprintf(fileName, sizeof(fileName), ".DCOPserver_%s_%s", hostName, displayName);
f = fopen(fileName, "r");
if (NULL == f) {
fprintf(stderr, "Cannot open ~/%s\n", fileName);
return False;
}
dcopServer = (char *)malloc(BUFFER_SIZE);
bytesRead = fread((void *)dcopServer, sizeof(char), BUFFER_SIZE, f);
dcopServer[BUFFER_SIZE - 1] = 0;
if (0 == bytesRead)
return False;
newline = strchr(dcopServer, '\n');
if (NULL == newline) {
fprintf(stderr, "dcop server file format invalid\n");
return False;
}
*newline = '\0';
}
dcop_ice_conn =
IceOpenConnection(
dcopServer,
context,
False,
dcop_major_opcode,
sizeof(errBuf),
errBuf
);
if (NULL != dcopServer)
free(dcopServer);
if (0 == dcop_ice_conn) {
fprintf(stderr, "dcop_ice_conn is 0 :(\n");
return False;
}
IceSetShutdownNegotiation(dcop_ice_conn, False);
return True;
}
/***************************************************************************/
Bool
dcop_protocol_setup()
{
char * vendor = 0L;
char * release = 0L;
IcePointer clientData = 0;
int majorVersion = 0;
int minorVersion = 0;
int status = 0;
char errBuf[BUFFER_SIZE];
status =
IceProtocolSetup(
dcop_ice_conn,
dcop_major_opcode,
clientData,
True,
&(majorVersion),
&(minorVersion),
&(vendor),
&(release),
BUFFER_SIZE,
errBuf
);
return (
(status == IceProtocolSetupSuccess) &&
(IceConnectiontqStatus(dcop_ice_conn) == IceConnectAccepted)
);
}
/***************************************************************************/
Bool
dcop_detach()
{
int status;
IceProtocolShutdown(dcop_ice_conn, dcop_major_opcode);
status = IceCloseConnection(dcop_ice_conn);
if (status == IceClosedNow)
dcop_ice_conn = 0L;
else
fprintf(stderr, "dcop_detach(): Could not detach\n");
return status == IceClosedNow;
}