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/*
 * h.c -- Handle allocation module
 *
 * Copyright (c) GoAhead Software Inc., 1995-1999. All Rights Reserved.
 * See the file "license.txt" for usage and redistribution license requirements
 */
 
/******************************** Description *********************************/
 
/*
 *      This module provides a simple API to allocate and free handles
 *      It maintains a dynamic array of pointers. These usually point to
 *      per-handle structures.
 */
 
/********************************* Includes ***********************************/
 
#if UEMF
        #include        "uemf.h"
#else
        #include        "basic/basicInternal.h"
#endif
 
/********************************** Defines ***********************************/
/*
 *      The handle list stores the length of the list and the number of used
 *      handles in the first two words.  These are hidden from the caller by
 *      returning a pointer to the third word to the caller
 */
 
#define H_LEN           0                /* First entry holds length of list */
#define H_USED          1               /* Second entry holds number of used */
#define H_OFFSET        2               /* Offset to real start of list */
 
#define H_INCR          16              /* Grow handle list in chunks this size */
 
/*********************************** Code *************************************/
/*
 *      Allocate a new file handle.  On the first call, the caller must set the
 *      handle map to be a pointer to a null pointer.  *map points to the second
 *      element in the handle array.
 */
 
int hAlloc(void ***map)
{
        int             *mp;
        int             handle, len, memsize, incr;
 
        a_assert(map);
 
        if (*map == NULL) {
                incr = H_INCR;
                memsize = (incr + H_OFFSET) * sizeof(void**);
                if ((mp = (int*) balloc(B_L, memsize)) == NULL) {
                        return -1;
                }
                memset(mp, 0, memsize);
                mp[H_LEN] = incr;
                mp[H_USED] = 0;
                *map = (void**) &mp[H_OFFSET];
        } else {
                mp = &((*(int**)map)[-H_OFFSET]);
        }
 
        len = mp[H_LEN];
 
/*
 *      Find the first null handle
 */
        if (mp[H_USED] < mp[H_LEN]) {
                for (handle = 0; handle < len; handle++)
                        if (mp[handle+H_OFFSET] == 0) {
                                mp[H_USED]++;
                                return handle;
                        }
        } else {
                handle = len;
        }
 
/*
 *      No free handle so grow the handle list. Grow list in chunks of H_INCR.
 */
        len += H_INCR;
        memsize = (len + H_OFFSET) * sizeof(void**);
        if ((mp = (int*) brealloc(B_L, (void*) mp, memsize)) == NULL) {
                return -1;
        }
        *map = (void**) &mp[H_OFFSET];
        mp[H_LEN] = len;
        memset(&mp[H_OFFSET + len - H_INCR], 0, sizeof(int*) * H_INCR);
        mp[H_USED]++;
        return handle;
}
 
/******************************************************************************/
/*
 *      Free a handle.  This function returns the value of the largest
 *      handle in use plus 1, to be saved as a max value.
 */
 
int hFree(void ***map, int handle)
{
        int             *mp;
        int             len;
 
        a_assert(map);
        mp = &((*(int**)map)[-H_OFFSET]);
        a_assert(mp[H_LEN] >= H_INCR);
 
        a_assert(mp[handle + H_OFFSET]);
        a_assert(mp[H_USED]);
        mp[handle + H_OFFSET] = 0;
        if (--(mp[H_USED]) == 0) {
                bfree(B_L, (void*) mp);
                *map = NULL;
        }
 
/*
 *      Find the greatest handle number in use.
 */
        if (*map == NULL) {
                handle = -1;
        } else {
                len = mp[H_LEN];
                if (mp[H_USED] < mp[H_LEN]) {
                        for (handle = len - 1; handle >= 0; handle--) {
                                if (mp[handle + H_OFFSET])
                                        break;
                        }
                } else {
                        handle = len;
                }
        }
        return handle + 1;
}
 
/******************************************************************************/
/*
 *      Allocate an entry in the halloc array.
 */
 
int hAllocEntry(void ***list, int *max, int size)
{
        char_t  *cp;
        int             id;
 
        a_assert(list);
        a_assert(max);
 
        if ((id = hAlloc((void***) list)) < 0) {
                return -1;
        }
 
        if (size > 0) {
                if ((cp = balloc(B_L, size)) == NULL) {
                        hFree(list, id);
                        return -1;
                }
                a_assert(cp);
                memset(cp, 0, size);
 
                (*list)[id] = (void*) cp;
        }
 
        if (id >= *max) {
                *max = id + 1;
        }
        return id;
}
 
/******************************************************************************/

Line No.	Rev	Author	Line
1	30	unneback	`/*`
2			`* h.c -- Handle allocation module`
3			`*`
4			`* Copyright (c) GoAhead Software Inc., 1995-1999. All Rights Reserved.`
5			`* See the file "license.txt" for usage and redistribution license requirements`
6			`*/`
7
8			`/****************************** Description *******************************/`
9
10			`/*`
11			`* This module provides a simple API to allocate and free handles`
12			`* It maintains a dynamic array of pointers. These usually point to`
13			`* per-handle structures.`
14			`*/`
15
16			`/******************************* Includes *********************************/`
17
18			`#if UEMF`
19			`#include "uemf.h"`
20			`#else`
21			`#include "basic/basicInternal.h"`
22			`#endif`
23
24			`/******************************** Defines *********************************/`
25			`/*`
26			`* The handle list stores the length of the list and the number of used`
27			`* handles in the first two words. These are hidden from the caller by`
28			`* returning a pointer to the third word to the caller`
29			`*/`
30
31			`#define H_LEN 0 /* First entry holds length of list */`
32			`#define H_USED 1 /* Second entry holds number of used */`
33			`#define H_OFFSET 2 /* Offset to real start of list */`
34
35			`#define H_INCR 16 /* Grow handle list in chunks this size */`
36
37			`/********************************* Code ***********************************/`
38			`/*`
39			`* Allocate a new file handle. On the first call, the caller must set the`
40			`* handle map to be a pointer to a null pointer. *map points to the second`
41			`* element in the handle array.`
42			`*/`
43
44			`int hAlloc(void ***map)`
45			`{`
46			`int *mp;`
47			`int handle, len, memsize, incr;`
48
49			`a_assert(map);`
50
51			`if (*map == NULL) {`
52			`incr = H_INCR;`
53			`memsize = (incr + H_OFFSET) * sizeof(void**);`
54			`if ((mp = (int*) balloc(B_L, memsize)) == NULL) {`
55			`return -1;`
56			`}`
57			`memset(mp, 0, memsize);`
58			`mp[H_LEN] = incr;`
59			`mp[H_USED] = 0;`
60			`map = (void*) &mp[H_OFFSET];`
61			`} else {`
62			`mp = &(((int*)map)[-H_OFFSET]);`
63			`}`
64
65			`len = mp[H_LEN];`
66
67			`/*`
68			`* Find the first null handle`
69			`*/`
70			`if (mp[H_USED] < mp[H_LEN]) {`
71			`for (handle = 0; handle < len; handle++)`
72			`if (mp[handle+H_OFFSET] == 0) {`
73			`mp[H_USED]++;`
74			`return handle;`
75			`}`
76			`} else {`
77			`handle = len;`
78			`}`
79
80			`/*`
81			`* No free handle so grow the handle list. Grow list in chunks of H_INCR.`
82			`*/`
83			`len += H_INCR;`
84			`memsize = (len + H_OFFSET) * sizeof(void**);`
85			`if ((mp = (int) brealloc(B_L, (void) mp, memsize)) == NULL) {`
86			`return -1;`
87			`}`
88			`map = (void*) &mp[H_OFFSET];`
89			`mp[H_LEN] = len;`
90			`memset(&mp[H_OFFSET + len - H_INCR], 0, sizeof(int) H_INCR);`
91			`mp[H_USED]++;`
92			`return handle;`
93			`}`
94
95			`/******************************************************************************/`
96			`/*`
97			`* Free a handle. This function returns the value of the largest`
98			`* handle in use plus 1, to be saved as a max value.`
99			`*/`
100
101			`int hFree(void ***map, int handle)`
102			`{`
103			`int *mp;`
104			`int len;`
105
106			`a_assert(map);`
107			`mp = &(((int*)map)[-H_OFFSET]);`
108			`a_assert(mp[H_LEN] >= H_INCR);`
109
110			`a_assert(mp[handle + H_OFFSET]);`
111			`a_assert(mp[H_USED]);`
112			`mp[handle + H_OFFSET] = 0;`
113			`if (--(mp[H_USED]) == 0) {`
114			`bfree(B_L, (void*) mp);`
115			`*map = NULL;`
116			`}`
117
118			`/*`
119			`* Find the greatest handle number in use.`
120			`*/`
121			`if (*map == NULL) {`
122			`handle = -1;`
123			`} else {`
124			`len = mp[H_LEN];`
125			`if (mp[H_USED] < mp[H_LEN]) {`
126			`for (handle = len - 1; handle >= 0; handle--) {`
127			`if (mp[handle + H_OFFSET])`
128			`break;`
129			`}`
130			`} else {`
131			`handle = len;`
132			`}`
133			`}`
134			`return handle + 1;`
135			`}`
136
137			`/******************************************************************************/`
138			`/*`
139			`* Allocate an entry in the halloc array.`
140			`*/`
141
142			`int hAllocEntry(void **list, int max, int size)`
143			`{`
144			`char_t *cp;`
145			`int id;`
146
147			`a_assert(list);`
148			`a_assert(max);`
149
150			`if ((id = hAlloc((void***) list)) < 0) {`
151			`return -1;`
152			`}`
153
154			`if (size > 0) {`
155			`if ((cp = balloc(B_L, size)) == NULL) {`
156			`hFree(list, id);`
157			`return -1;`
158			`}`
159			`a_assert(cp);`
160			`memset(cp, 0, size);`
161
162			`(list)[id] = (void) cp;`
163			`}`
164
165			`if (id >= *max) {`
166			`*max = id + 1;`
167			`}`
168			`return id;`
169			`}`
170
171			`/******************************************************************************/`

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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [libnetworking/] [rtems_webserver/] [h.c] - Blame information for rev 543