ipc/dde_atom.c - wine - Git at Google

 /***************************************************************************
  * Copyright 1995, Technion, Israel Institute of Technology
  * Electrical Eng, Software Lab.
  * Author:    Michael Veksler.
  ***************************************************************************
  * File:      dde_atom.c
  * Purpose :  atom functionality for DDE
  */
 #ifdef CONFIG_IPC

 #include <ctype.h>
 #include <string.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include "dde_atom.h"
 #include "shm_main_blk.h"
 #include "shm_fragment.h"
 #include "ldt.h"
 #include "debug.h"

 typedef struct
 {
 	WORD        count;
 	BYTE        str[1];
 } AtomData, *AtomData_ptr;

 #define EMPTY   0		   /* empty hash entry */
 #define DELETED -1		   /* deleted hash entry */
 #define MIN_STR_ATOM 0xfc00

 /* OFS2AtomData_ptr: extract AtomData_ptr from ofs */
 #define OFS2AtomData_ptr(ofs) ((AtomData*)((int)&main_block->block+(ofs)))

 /* OFS2AtomStr: find the string of the atom */
 #define OFS2AtomStr(ofs)      (OFS2AtomData_ptr(atom_ofs)->str)

 /* offset of an atom according to index */
 #define ATOM_OFS(idx) (main_block->atoms[idx])

 /* rot_left: rotate (with wrap-around) */
 static __inline__ int rot_left(unsigned var,int count)
 {
   return (var<<count) | (var>> (sizeof(var)-count));
 }
 /* find the entry in the atom table for this string */
 static int FindHash(LPCSTR str)	   /* ignore str case */
 {
   int i,j;
   unsigned hash1,hash2;
   int deleted=-1;		   /* hash for deleted entry */
   int atom_ofs;

   /* get basic hash parameters */
   for (i= hash1= hash2= 0; str[i] ; i++) {
      hash1= rot_left(hash1,5) ^ toupper(str[i]);
      hash2= rot_left(hash2,4) ^ toupper(str[i]);
   }

   hash1%= DDE_ATOMS;
   atom_ofs=ATOM_OFS(hash1);
   switch (atom_ofs) {
     case EMPTY:			   /* empty atom entry */
       return hash1;
     case DELETED:		   /* deleted atom entry */
       deleted=hash1;
       break;
     default :			   /* non empty atom entry */
       if (lstrcmpi16( OFS2AtomStr(atom_ofs) , str) == 0)
 	 return hash1;		   /* found string in atom table */
   }
   hash2%= DDE_ATOMS-1 ;		   /* hash2=0..(DDE_ATOMS-2) */
   hash2++;			   /* hash2=1..(DDE_ATOMS-1) */

   /* make jumps in the hash table by hash2 steps */
   for (i=hash1+hash2 ; ; i+=hash2) {
      /* i wraps around into j */
      j=i-DDE_ATOMS;
      if (j >= 0)
 	i=j;			   /* i wraps around */

      if (i==hash1)
 	/* here if covered all hash locations, and got back to beginning */
 	return deleted;		   /* return first empty entry - if any */
      atom_ofs=ATOM_OFS(i);
      switch (atom_ofs) {
        case EMPTY:		   /* empty atom entry */
 	 return i;
        case DELETED:		   /* deleted atom entry */
 	 if (deleted < 0)
 	    /* consider only the first deleted entry */
 	    deleted= i;
 	 break;
        default :		   /* nonempty atom entry */
 	 if (lstrcmpi16( OFS2AtomStr(atom_ofs) , str) == 0)
 	    return i;	   /* found string in atom table */
      }
   }
 }

 void ATOM_GlobalInit(void)
 {
   int i;

   for (i=0 ; i < DDE_ATOMS ; i++)
      ATOM_OFS(i)=EMPTY;
 }

 /***********************************************************************
  *           DDE_GlobalAddAtom
  */

 /* important! don't forget to unlock semaphores before return */
 ATOM DDE_GlobalAddAtom( SEGPTR name )
 {
   int atom_idx;
   int atom_ofs;
   AtomData_ptr ptr;
   ATOM atom;
   char *str;

   /* First check for integer atom */

   if (!HIWORD(name)) return (ATOM)LOWORD(name);

   str = (char *)PTR_SEG_TO_LIN( name );
   if (str[0] == '#')
   {
      ATOM atom= (ATOM) atoi(&str[1]);
      return (atom<MIN_STR_ATOM) ? atom : 0;
   }

   dprintf_info(atom,"GlobalAddAtom(\"%s\")\n",str);

   DDE_IPC_init();		/* will initialize only if needed */

   shm_write_wait(main_block->sem);

   atom_idx=FindHash(str);
   atom=(ATOM)0;

   /* use "return" only at the end so semaphore handling is done only once */
   if (atom_idx>=0) {
      /* unless table full and item not found */
      switch (atom_ofs= ATOM_OFS(atom_idx)) {
        case DELETED:
        case EMPTY:		   /* need to allocate new atom */
 	 atom_ofs= shm_FragmentAlloc(&main_block->block,
 				     strlen(str)+sizeof(AtomData));
 	 if (atom_ofs==NIL)
 	    break;		   /* no more memory (atom==0) */
 	 ATOM_OFS(atom_idx)=atom_ofs;
 	 ptr=OFS2AtomData_ptr(atom_ofs);
 	 strcpy(ptr->str,str);
 	 ptr->count=1;
 	 atom=(ATOM)(atom_idx+MIN_STR_ATOM);
 	 break;
        default :		   /* has to update existing atom */
 	 OFS2AtomData_ptr(atom_ofs)->count++;
 	 atom=(ATOM)(atom_idx+MIN_STR_ATOM);
      } /* end of switch */
   } /* end of if */
   shm_write_signal(main_block->sem);
   return atom;
 }

 /***********************************************************************
  *           DDE_GlobalDeleteAtom
  */

 ATOM DDE_GlobalDeleteAtom( ATOM atom )
 {
   int atom_idx;
   int atom_ofs;
   AtomData_ptr atom_ptr;
   ATOM retval=(ATOM) 0;

   dprintf_info(atom,"GlobalDeleteAtom(\"%d\")\n",(int)atom);
   atom_idx=(int)atom - MIN_STR_ATOM;

   if (atom_idx < 0 )
      return 0;

   DDE_IPC_init();	   /* will initialize only if needed */

   shm_write_wait(main_block->sem);
   /* return used only once from here on -- for semaphore simplicity */
   switch (atom_ofs=ATOM_OFS(atom_idx)) {
     case DELETED:
     case EMPTY:
       fprintf(stderr,"trying to free unallocated atom %d\n", atom);
       retval=atom;
       break;
     default :
       atom_ptr=OFS2AtomData_ptr(atom_ofs);
       if ( --atom_ptr->count == 0) {
 	 shm_FragmentFree(&main_block->block,atom_ofs);
 	 ATOM_OFS(atom_idx)=DELETED;
       }
   }

   shm_write_signal(main_block->sem);
   return retval;
 }

 /***********************************************************************
  *           DDE_GlobalFindAtom
  */
 ATOM DDE_GlobalFindAtom( SEGPTR name )
 {
   int atom_idx;
   int atom_ofs;
   char *str;

   dprintf_info(atom,"GlobalFindAtom(%08lx)\n", name );

   /* First check for integer atom */

   if (!HIWORD(name)) return (ATOM)LOWORD(name);

   str = (char *)PTR_SEG_TO_LIN( name );
   if (str[0] == '#')
   {
      ATOM atom= (ATOM) atoi(&str[1]);
      return (atom<MIN_STR_ATOM) ? atom : 0;
   }
   dprintf_info(atom,"GlobalFindAtom(\"%s\")\n",str);

   DDE_IPC_init();		/* will initialize only if needed */

   shm_read_wait(main_block->sem);
   atom_idx=FindHash(str);
   if (atom_idx>=0)
      atom_ofs=ATOM_OFS(atom_idx);  /* is it free ? */
   else
      atom_ofs=EMPTY;
   shm_read_signal(main_block->sem);

   if (atom_ofs==EMPTY || atom_ofs==DELETED)
      return 0;
   else
      return (ATOM)(atom_idx+MIN_STR_ATOM);
 }

 /***********************************************************************
  *           DDE_GlobalGetAtomName
  */
 WORD DDE_GlobalGetAtomName( ATOM atom, LPSTR buffer, short count )
 {
   int atom_idx, atom_ofs;
   int size;
   /* temporary buffer to hold maximum "#65535\0" */
   char str_num[7];

   if (count<2)			   /* no sense to go on */
      return 0;
   atom_idx=(int)atom - MIN_STR_ATOM;

   if (atom_idx < 0) {		   /* word atom */
      /* use wine convention... */
      sprintf(str_num,"#%d%n",(int)atom,&size);
      if (size+1>count) {	   /* overflow ? */
 	/* truncate the string */
 	size=count-1;
 	str_num[size]='\0';
      }
      strcpy(buffer,str_num);
      return size;
   }

   DDE_IPC_init();		/* will initialize only if needed */

   /* string atom */
   shm_read_wait(main_block->sem);
   atom_ofs=ATOM_OFS(atom_idx);
   if (atom_ofs==EMPTY || atom_ofs==DELETED) {
      fprintf(stderr,"GlobalGetAtomName: illegal atom=%d\n",(int)atom);
      size=0;
   } else {			   /* non empty entry */
      /* string length will be at most count-1, find actual size */
      sprintf(buffer,"%.*s%n",count-1, OFS2AtomStr(atom_ofs), &size);
   }
   shm_read_signal(main_block->sem);
   return size;
 }

 #endif  /* CONFIG_IPC */
	/***************************************************************************
	* Copyright 1995, Technion, Israel Institute of Technology
	* Electrical Eng, Software Lab.
	* Author: Michael Veksler.
	***************************************************************************
	* File: dde_atom.c
	* Purpose : atom functionality for DDE
	*/
	#ifdef CONFIG_IPC

	#include <ctype.h>
	#include <string.h>
	#include <stdlib.h>
	#include <stdio.h>
	#include "dde_atom.h"
	#include "shm_main_blk.h"
	#include "shm_fragment.h"
	#include "ldt.h"
	#include "debug.h"

	typedef struct
	{
	WORD count;
	BYTE str[1];
	} AtomData, *AtomData_ptr;

	#define EMPTY 0 /* empty hash entry */
	#define DELETED -1 /* deleted hash entry */
	#define MIN_STR_ATOM 0xfc00

	/* OFS2AtomData_ptr: extract AtomData_ptr from ofs */
	#define OFS2AtomData_ptr(ofs) ((AtomData*)((int)&main_block->block+(ofs)))

	/* OFS2AtomStr: find the string of the atom */
	#define OFS2AtomStr(ofs) (OFS2AtomData_ptr(atom_ofs)->str)

	/* offset of an atom according to index */
	#define ATOM_OFS(idx) (main_block->atoms[idx])

	/* rot_left: rotate (with wrap-around) */
	static __inline__ int rot_left(unsigned var,int count)
	{
	return (var<<count) \| (var>> (sizeof(var)-count));
	}
	/* find the entry in the atom table for this string */
	static int FindHash(LPCSTR str) /* ignore str case */
	{
	int i,j;
	unsigned hash1,hash2;
	int deleted=-1; /* hash for deleted entry */
	int atom_ofs;

	/* get basic hash parameters */
	for (i= hash1= hash2= 0; str[i] ; i++) {
	hash1= rot_left(hash1,5) ^ toupper(str[i]);
	hash2= rot_left(hash2,4) ^ toupper(str[i]);
	}

	hash1%= DDE_ATOMS;
	atom_ofs=ATOM_OFS(hash1);
	switch (atom_ofs) {
	case EMPTY: /* empty atom entry */
	return hash1;
	case DELETED: /* deleted atom entry */
	deleted=hash1;
	break;
	default : /* non empty atom entry */
	if (lstrcmpi16( OFS2AtomStr(atom_ofs) , str) == 0)
	return hash1; /* found string in atom table */
	}
	hash2%= DDE_ATOMS-1 ; /* hash2=0..(DDE_ATOMS-2) */
	hash2++; /* hash2=1..(DDE_ATOMS-1) */

	/* make jumps in the hash table by hash2 steps */
	for (i=hash1+hash2 ; ; i+=hash2) {
	/* i wraps around into j */
	j=i-DDE_ATOMS;
	if (j >= 0)
	i=j; /* i wraps around */

	if (i==hash1)
	/* here if covered all hash locations, and got back to beginning */
	return deleted; /* return first empty entry - if any */
	atom_ofs=ATOM_OFS(i);
	switch (atom_ofs) {
	case EMPTY: /* empty atom entry */
	return i;
	case DELETED: /* deleted atom entry */
	if (deleted < 0)
	/* consider only the first deleted entry */
	deleted= i;
	break;
	default : /* nonempty atom entry */
	if (lstrcmpi16( OFS2AtomStr(atom_ofs) , str) == 0)
	return i; /* found string in atom table */
	}
	}
	}

	void ATOM_GlobalInit(void)
	{
	int i;

	for (i=0 ; i < DDE_ATOMS ; i++)
	ATOM_OFS(i)=EMPTY;
	}

	/***********************************************************************
	* DDE_GlobalAddAtom
	*/

	/* important! don't forget to unlock semaphores before return */
	ATOM DDE_GlobalAddAtom( SEGPTR name )
	{
	int atom_idx;
	int atom_ofs;
	AtomData_ptr ptr;
	ATOM atom;
	char *str;

	/* First check for integer atom */

	if (!HIWORD(name)) return (ATOM)LOWORD(name);

	str = (char *)PTR_SEG_TO_LIN( name );
	if (str[0] == '#')
	{
	ATOM atom= (ATOM) atoi(&str[1]);
	return (atom<MIN_STR_ATOM) ? atom : 0;
	}

	dprintf_info(atom,"GlobalAddAtom(\"%s\")\n",str);

	DDE_IPC_init(); /* will initialize only if needed */

	shm_write_wait(main_block->sem);

	atom_idx=FindHash(str);
	atom=(ATOM)0;

	/* use "return" only at the end so semaphore handling is done only once */
	if (atom_idx>=0) {
	/* unless table full and item not found */
	switch (atom_ofs= ATOM_OFS(atom_idx)) {
	case DELETED:
	case EMPTY: /* need to allocate new atom */
	atom_ofs= shm_FragmentAlloc(&main_block->block,
	strlen(str)+sizeof(AtomData));
	if (atom_ofs==NIL)
	break; /* no more memory (atom==0) */
	ATOM_OFS(atom_idx)=atom_ofs;
	ptr=OFS2AtomData_ptr(atom_ofs);
	strcpy(ptr->str,str);
	ptr->count=1;
	atom=(ATOM)(atom_idx+MIN_STR_ATOM);
	break;
	default : /* has to update existing atom */
	OFS2AtomData_ptr(atom_ofs)->count++;
	atom=(ATOM)(atom_idx+MIN_STR_ATOM);
	} /* end of switch */
	} /* end of if */
	shm_write_signal(main_block->sem);
	return atom;
	}

	/***********************************************************************
	* DDE_GlobalDeleteAtom
	*/

	ATOM DDE_GlobalDeleteAtom( ATOM atom )
	{
	int atom_idx;
	int atom_ofs;
	AtomData_ptr atom_ptr;
	ATOM retval=(ATOM) 0;

	dprintf_info(atom,"GlobalDeleteAtom(\"%d\")\n",(int)atom);
	atom_idx=(int)atom - MIN_STR_ATOM;

	if (atom_idx < 0 )
	return 0;

	DDE_IPC_init(); /* will initialize only if needed */

	shm_write_wait(main_block->sem);
	/* return used only once from here on -- for semaphore simplicity */
	switch (atom_ofs=ATOM_OFS(atom_idx)) {
	case DELETED:
	case EMPTY:
	fprintf(stderr,"trying to free unallocated atom %d\n", atom);
	retval=atom;
	break;
	default :
	atom_ptr=OFS2AtomData_ptr(atom_ofs);
	if ( --atom_ptr->count == 0) {
	shm_FragmentFree(&main_block->block,atom_ofs);
	ATOM_OFS(atom_idx)=DELETED;
	}
	}

	shm_write_signal(main_block->sem);
	return retval;
	}

	/***********************************************************************
	* DDE_GlobalFindAtom
	*/
	ATOM DDE_GlobalFindAtom( SEGPTR name )
	{
	int atom_idx;
	int atom_ofs;
	char *str;

	dprintf_info(atom,"GlobalFindAtom(%08lx)\n", name );

	/* First check for integer atom */

	if (!HIWORD(name)) return (ATOM)LOWORD(name);

	str = (char *)PTR_SEG_TO_LIN( name );
	if (str[0] == '#')
	{
	ATOM atom= (ATOM) atoi(&str[1]);
	return (atom<MIN_STR_ATOM) ? atom : 0;
	}
	dprintf_info(atom,"GlobalFindAtom(\"%s\")\n",str);

	DDE_IPC_init(); /* will initialize only if needed */

	shm_read_wait(main_block->sem);
	atom_idx=FindHash(str);
	if (atom_idx>=0)
	atom_ofs=ATOM_OFS(atom_idx); /* is it free ? */
	else
	atom_ofs=EMPTY;
	shm_read_signal(main_block->sem);

	if (atom_ofs==EMPTY \|\| atom_ofs==DELETED)
	return 0;
	else
	return (ATOM)(atom_idx+MIN_STR_ATOM);
	}

	/***********************************************************************
	* DDE_GlobalGetAtomName
	*/
	WORD DDE_GlobalGetAtomName( ATOM atom, LPSTR buffer, short count )
	{
	int atom_idx, atom_ofs;
	int size;
	/* temporary buffer to hold maximum "#65535\0" */
	char str_num[7];

	if (count<2) /* no sense to go on */
	return 0;
	atom_idx=(int)atom - MIN_STR_ATOM;

	if (atom_idx < 0) { /* word atom */
	/* use wine convention... */
	sprintf(str_num,"#%d%n",(int)atom,&size);
	if (size+1>count) { /* overflow ? */
	/* truncate the string */
	size=count-1;
	str_num[size]='\0';
	}
	strcpy(buffer,str_num);
	return size;
	}

	DDE_IPC_init(); /* will initialize only if needed */

	/* string atom */
	shm_read_wait(main_block->sem);
	atom_ofs=ATOM_OFS(atom_idx);
	if (atom_ofs==EMPTY \|\| atom_ofs==DELETED) {
	fprintf(stderr,"GlobalGetAtomName: illegal atom=%d\n",(int)atom);
	size=0;
	} else { /* non empty entry */
	/* string length will be at most count-1, find actual size */
	sprintf(buffer,"%.*s%n",count-1, OFS2AtomStr(atom_ofs), &size);
	}
	shm_read_signal(main_block->sem);
	return size;
	}

	#endif /* CONFIG_IPC */