wine/ipc/dde_mem.c
Alexandre Julliard 06c275a643 Converted to the new debugging interface (done with the help of the
script written by Patrik Stridvall).
1999-05-02 14:32:27 +00:00

287 lines
7.3 KiB
C

/***************************************************************************
* Copyright 1995, Technion, Israel Institute of Technology
* Electrical Eng, Software Lab.
* Author: Michael Veksler.
***************************************************************************
* File: dde_mem.c
* Purpose : shared DDE memory functionality for DDE
***************************************************************************
*/
#ifdef CONFIG_IPC
#include <assert.h>
#include "debugtools.h"
#include "ldt.h"
#include "shm_main_blk.h"
#include "shm_fragment.h"
#include "shm_semaph.h"
#include "dde_mem.h"
#include "bit_array.h"
DECLARE_DEBUG_CHANNEL(dde)
DECLARE_DEBUG_CHANNEL(global)
#define SEGPTR2HANDLE_INFO(sptr) ( (struct handle_info*)PTR_SEG_TO_LIN(sptr) )
#define HINFO2DATAPTR(h_info_ptr) ( (void*) ( (char*)h_info_ptr + \
sizeof(struct handle_info) ) )
#define DDE_MEM_IDX(handle) ((handle)& 0x7fff)
#define DDE_MEM_HANDLE(idx) ((idx) | 0x8000)
#define DDE_MEM_INFO(handle) (main_block->handles[ DDE_MEM_IDX(handle) ])
/* List of shared handles.
* This entry resides on the shared memory, the data comes right
* after the `handle_info'.
* The entry is on the same block as the actual data.
* The `next' field gives relative reference (relative to the start of
* the blcok.
*/
struct handle_info {
WORD lock_count;
WORD flags;
int size; /* size of the data (net)*/
};
static bit_array free_handles;
int debug_last_handle_size= 0; /* for debugging purpose only */
/* locate_handle:
* locate a shared memory handle.
* Application:
* The handle is first searched for in attached blocks.
* At the beginning, only blocks owned by this process are
* attached.
* If a handle is not found, new blocks are attached.
* Arguments:
* h - the handle.
* RETURN: pointer to handle info.
*/
static struct handle_info *locate_handle(HGLOBAL16 h, struct local_shm_map *map)
{
struct shm_block *block;
TRACE_(global)("shm: (0x%04x)\n", h);
if (SampleBit( &free_handles, DDE_MEM_IDX(h)) == 0) {
TRACE_(global)("shm: return NULL\n");
return NULL; /* free!!! */
}
block= shm_locate_block(DDE_MEM_INFO(h).shmid, map);
if (block == NULL) {
/* nothing found */
TRACE_(global)("shm: return NULL\n");
return NULL;
}
return (struct handle_info *) REL2PTR(block, DDE_MEM_INFO(h).rel);
}
/* dde_alloc_handle: allocate shared DDE handle */
static HGLOBAL16 dde_alloc_handle()
{
int bit_nr;
bit_nr= AllocateBit( &free_handles);
if (bit_nr != -1)
return DDE_MEM_HANDLE(bit_nr);
TRACE_(global)("dde_alloc_handle: no free DDE handle found\n");
return 0;
}
/**********************************************************************
* DDE_malloc
*/
void *
DDE_malloc(unsigned int flags, unsigned long size, SHMDATA *shmdata)
{
int shmid;
struct shm_block *block;
struct handle_info *h_info;
struct local_shm_map *curr;
HGLOBAL16 handle;
TRACE_(global)("DDE_malloc flags %4X, size %ld\n", flags, size);
DDE_IPC_init(); /* make sure main shm block allocated */
shm_write_wait(main_block->proc[curr_proc_idx].sem);
/* Try to find fragment big enough for `size' */
/* iterate through all local shm blocks, and try to allocate
the fragment */
h_info= NULL;
for (curr= shm_map ; curr != NULL ; curr= curr->next) {
if (curr->proc_idx == curr_proc_idx) {
h_info= (struct handle_info *)
shm_FragPtrAlloc(curr->ptr, size+sizeof(struct handle_info));
if (h_info!=NULL) {
shmid= curr->shm_id;
break;
}
}
}
if (h_info == NULL) {
block= shm_create_block(0, size+sizeof(struct handle_info), &shmid);
if (block==NULL) {
shm_write_signal(main_block->proc[curr_proc_idx].sem);
return 0;
}
/* put the new block in the linked list */
block->next_shm_id= main_block->proc[curr_proc_idx].shmid;
main_block->proc[curr_proc_idx].shmid= shmid;
h_info= (struct handle_info *)
shm_FragPtrAlloc(block, size+sizeof(struct handle_info));
if (h_info==NULL) {
ERR_(global)("BUG! unallocated fragment\n");
shm_write_signal(main_block->proc[curr_proc_idx].sem);
return 0;
}
} else {
block= curr->ptr;
}
/* Here we have an allocated fragment */
h_info->flags= flags;
h_info->lock_count= 0;
h_info->size= size;
handle= dde_alloc_handle();
if (handle) {
TRACE_(global)("returning handle=0x%4x, ptr=0x%08lx\n",
(int)handle, (long) HINFO2DATAPTR(h_info));
DDE_MEM_INFO(handle).rel= PTR2REL(block, h_info);
DDE_MEM_INFO(handle).shmid= shmid;
}
else
WARN_(global)("failed\n");
shm_write_signal(main_block->proc[curr_proc_idx].sem);
shmdata->handle= handle;
return (char *)HINFO2DATAPTR(h_info);
}
HGLOBAL16 DDE_GlobalFree(HGLOBAL16 h)
{
struct handle_info *h_info;
int handle_index= h & 0x7fff;
struct local_shm_map map;
TRACE_(global)("(0x%04x)\n",h);
if (h==0)
return 0;
h_info= locate_handle(h, &map);
if (h_info == NULL)
return h;
shm_write_wait(main_block->proc[map.proc_idx].sem);
shm_FragPtrFree(map.ptr, (struct shm_fragment *) h_info);
AssignBit( &free_handles, handle_index, 0);
/* FIXME: must free the shm block some day. */
shm_write_signal(main_block->proc[map.proc_idx].sem);
return 0;
}
WORD DDE_SyncHandle(HGLOBAL16 handle, WORD sel)
{
struct handle_info *h_info;
void *local_ptr;
ldt_entry entry;
h_info= locate_handle(handle, NULL);
local_ptr= (void *)GET_SEL_BASE(sel);
if (h_info == NULL)
return 0;
if (local_ptr == (void *) HINFO2DATAPTR(h_info))
return sel;
/* need syncronization ! */
LDT_GetEntry( SELECTOR_TO_ENTRY(sel), &entry );
entry.base= (unsigned long) HINFO2DATAPTR(h_info);
LDT_SetEntry( SELECTOR_TO_ENTRY(sel), &entry );
return sel;
}
/*
* DDE_AttachHandle:
* Attach shm memory (The data must not be already attached).
* Parameters:
* handle - the memory to attach.
* segptr - in not null, return SEGPTR to the same block.
* return value:
* 32 bit pointer to the memory.
*/
void *DDE_AttachHandle(HGLOBAL16 handle, SEGPTR *segptr)
{
struct handle_info *h_info;
SHMDATA shmdata;
void *ptr;
HGLOBAL16 hOwner = GetCurrentPDB16();
assert(is_dde_handle(handle));
if (segptr != NULL)
*segptr=0;
TRACE_(global)("(%04x)\n",handle);
h_info=locate_handle(handle, NULL);
if (h_info == NULL)
return NULL;
if ( !(h_info->flags & GMEM_DDESHARE) ) {
ERR_(global)("Corrupted memory handle info\n");
return NULL;
}
TRACE_(global)("h_info=%06lx\n",(long)h_info);
shmdata.handle= handle;
shmdata.shmid= DDE_MEM_INFO(handle).shmid;
ptr= HINFO2DATAPTR(h_info);
/* Allocate the selector(s) */
if (! GLOBAL_CreateBlock( h_info->flags, ptr, h_info->size, hOwner,
FALSE, FALSE, FALSE, &shmdata))
return NULL;
if (segptr != NULL)
*segptr= (SEGPTR)MAKELONG( 0, shmdata.sel);
if (TRACE_ON(dde))
debug_last_handle_size= h_info->size;
TRACE_(global)("DDE_AttachHandle returns ptr=0x%08lx\n", (long)ptr);
return (LPSTR)ptr;
}
void DDE_mem_init()
{
int nr_of_bits;
shm_init();
nr_of_bits= BITS_PER_BYTE * sizeof(main_block->free_handles);
AssembleArray( &free_handles, main_block->free_handles, nr_of_bits);
}
#endif /* CONFIG_IPC */