1*4f364e7cSRobert Mustacchi /* 2*4f364e7cSRobert Mustacchi * CDDL HEADER START 3*4f364e7cSRobert Mustacchi * 4*4f364e7cSRobert Mustacchi * The contents of this file are subject to the terms of the 5*4f364e7cSRobert Mustacchi * Common Development and Distribution License (the "License"). 6*4f364e7cSRobert Mustacchi * You may not use this file except in compliance with the License. 7*4f364e7cSRobert Mustacchi * 8*4f364e7cSRobert Mustacchi * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9*4f364e7cSRobert Mustacchi * or http://www.opensolaris.org/os/licensing. 10*4f364e7cSRobert Mustacchi * See the License for the specific language governing permissions 11*4f364e7cSRobert Mustacchi * and limitations under the License. 12*4f364e7cSRobert Mustacchi * 13*4f364e7cSRobert Mustacchi * When distributing Covered Code, include this CDDL HEADER in each 14*4f364e7cSRobert Mustacchi * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15*4f364e7cSRobert Mustacchi * If applicable, add the following below this CDDL HEADER, with the 16*4f364e7cSRobert Mustacchi * fields enclosed by brackets "[]" replaced with your own identifying 17*4f364e7cSRobert Mustacchi * information: Portions Copyright [yyyy] [name of copyright owner] 18*4f364e7cSRobert Mustacchi * 19*4f364e7cSRobert Mustacchi * CDDL HEADER END 20*4f364e7cSRobert Mustacchi */ 21*4f364e7cSRobert Mustacchi /* 22*4f364e7cSRobert Mustacchi * Copyright (c) 2014 Joyent, Inc. All rights reserved. 23*4f364e7cSRobert Mustacchi */ 24*4f364e7cSRobert Mustacchi 25*4f364e7cSRobert Mustacchi /* 26*4f364e7cSRobert Mustacchi * Don't Panic! If you find the blocks of assembly that follow confusing and 27*4f364e7cSRobert Mustacchi * you're questioning why they exist, please go read section 8 of the umem.c big 28*4f364e7cSRobert Mustacchi * theory statement. Next familiarize yourself with the malloc and free 29*4f364e7cSRobert Mustacchi * implementations in libumem's malloc.c. 30*4f364e7cSRobert Mustacchi * 31*4f364e7cSRobert Mustacchi * What follows is the i386 implementation of the thread caching automatic 32*4f364e7cSRobert Mustacchi * assembly generation. With i386 a function only has three registers it's 33*4f364e7cSRobert Mustacchi * allowed to change without restoring them: eax, ecx, and edx. All others have 34*4f364e7cSRobert Mustacchi * to be preserved. Since the set of registers we have available is so small, we 35*4f364e7cSRobert Mustacchi * have to make use of esi, ebx, and edi and save their original values to the 36*4f364e7cSRobert Mustacchi * stack. 37*4f364e7cSRobert Mustacchi * 38*4f364e7cSRobert Mustacchi * Malloc register usage: 39*4f364e7cSRobert Mustacchi * o. esi: Size of the malloc (passed into us and modified) 40*4f364e7cSRobert Mustacchi * o. edi: Size of the cache 41*4f364e7cSRobert Mustacchi * o. eax: Buffer to return 42*4f364e7cSRobert Mustacchi * o. ebx: Scratch space and temporary values 43*4f364e7cSRobert Mustacchi * o. ecx: Pointer to the tmem_t in the ulwp_t. 44*4f364e7cSRobert Mustacchi * o. edx: Pointer to the tmem_t array of roots 45*4f364e7cSRobert Mustacchi * 46*4f364e7cSRobert Mustacchi * Free register usage: 47*4f364e7cSRobert Mustacchi * o. esi: Size of the malloc (passed into us and modified) 48*4f364e7cSRobert Mustacchi * o. edi: Size of the cache 49*4f364e7cSRobert Mustacchi * o. eax: Buffer to free 50*4f364e7cSRobert Mustacchi * o. ebx: Scratch space and temporary values 51*4f364e7cSRobert Mustacchi * o. ecx: Pointer to the tmem_t in the ulwp_t. 52*4f364e7cSRobert Mustacchi * o. edx: Pointer to the tmem_t array of roots 53*4f364e7cSRobert Mustacchi * 54*4f364e7cSRobert Mustacchi * Once we determine what cache we are using, we increment %edx to the 55*4f364e7cSRobert Mustacchi * appropriate offset and set %edi with the size of the cache. This means that 56*4f364e7cSRobert Mustacchi * when we break out to the normal buffer allocation point %edx contains the 57*4f364e7cSRobert Mustacchi * head of the linked list and %edi is the amount that we have to adjust the 58*4f364e7cSRobert Mustacchi * total amount cached by the thread. 59*4f364e7cSRobert Mustacchi * 60*4f364e7cSRobert Mustacchi * Each block of assembly has psuedocode that describes its purpose. 61*4f364e7cSRobert Mustacchi */ 62*4f364e7cSRobert Mustacchi 63*4f364e7cSRobert Mustacchi #include <inttypes.h> 64*4f364e7cSRobert Mustacchi #include <strings.h> 65*4f364e7cSRobert Mustacchi #include <umem_impl.h> 66*4f364e7cSRobert Mustacchi #include "umem_base.h" 67*4f364e7cSRobert Mustacchi 68*4f364e7cSRobert Mustacchi #include <atomic.h> 69*4f364e7cSRobert Mustacchi 70*4f364e7cSRobert Mustacchi const int umem_genasm_supported = 1; 71*4f364e7cSRobert Mustacchi static uintptr_t umem_genasm_mptr = (uintptr_t)&_malloc; 72*4f364e7cSRobert Mustacchi static size_t umem_genasm_msize = 512; 73*4f364e7cSRobert Mustacchi static uintptr_t umem_genasm_fptr = (uintptr_t)&_free; 74*4f364e7cSRobert Mustacchi static size_t umem_genasm_fsize = 512; 75*4f364e7cSRobert Mustacchi static uintptr_t umem_genasm_omptr = (uintptr_t)umem_malloc; 76*4f364e7cSRobert Mustacchi static uintptr_t umem_genasm_ofptr = (uintptr_t)umem_malloc_free; 77*4f364e7cSRobert Mustacchi /* 78*4f364e7cSRobert Mustacchi * The maximum number of caches we can support. We use a single byte addl so 79*4f364e7cSRobert Mustacchi * this is 255 (UINT8_MAX) / sizeof (uintptr_t). In this case 63 80*4f364e7cSRobert Mustacchi */ 81*4f364e7cSRobert Mustacchi #define UMEM_GENASM_MAX32 63 82*4f364e7cSRobert Mustacchi 83*4f364e7cSRobert Mustacchi #define PTC_JMPADDR(dest, src) (dest - (src + 4)) 84*4f364e7cSRobert Mustacchi #define PTC_ROOT_SIZE sizeof (uintptr_t) 85*4f364e7cSRobert Mustacchi #define MULTINOP 0x0000441f0f 86*4f364e7cSRobert Mustacchi 87*4f364e7cSRobert Mustacchi /* 88*4f364e7cSRobert Mustacchi * void *ptcmalloc(size_t orig_size); 89*4f364e7cSRobert Mustacchi * 90*4f364e7cSRobert Mustacchi * size_t size = orig_size + 8; 91*4f364e7cSRobert Mustacchi * 92*4f364e7cSRobert Mustacchi * if (size < orig_size) 93*4f364e7cSRobert Mustacchi * goto tomalloc; ! This is overflow 94*4f364e7cSRobert Mustacchi * 95*4f364e7cSRobert Mustacchi * if (size > cache_size) 96*4f364e7cSRobert Mustacchi * goto tomalloc; 97*4f364e7cSRobert Mustacchi * 98*4f364e7cSRobert Mustacchi * tmem_t *t = (uintptr_t)curthread() + umem_thr_offset; 99*4f364e7cSRobert Mustacchi * void **roots = t->tm_roots; 100*4f364e7cSRobert Mustacchi */ 101*4f364e7cSRobert Mustacchi #define PTC_MALINIT_JOUT 0x0e 102*4f364e7cSRobert Mustacchi #define PTC_MALINIT_MCS 0x14 103*4f364e7cSRobert Mustacchi #define PTC_MALINIT_JOV 0x1a 104*4f364e7cSRobert Mustacchi #define PTC_MALINIT_SOFF 0x27 105*4f364e7cSRobert Mustacchi static const uint8_t malinit[] = { 106*4f364e7cSRobert Mustacchi 0x55, /* pushl %ebp */ 107*4f364e7cSRobert Mustacchi 0x89, 0xe5, /* movl %esp, %ebp */ 108*4f364e7cSRobert Mustacchi 0x57, /* pushl %edi */ 109*4f364e7cSRobert Mustacchi 0x56, /* pushl %esi */ 110*4f364e7cSRobert Mustacchi 0x53, /* pushl %ebx */ 111*4f364e7cSRobert Mustacchi 0x8b, 0x75, 0x08, /* movl 0x8(%ebp), %esi */ 112*4f364e7cSRobert Mustacchi 0x83, 0xc6, 0x08, /* addl $0x8,%esi */ 113*4f364e7cSRobert Mustacchi 0x0f, 0x82, 0x00, 0x00, 0x00, 0x00, /* jc +$JMP (errout) */ 114*4f364e7cSRobert Mustacchi 0x81, 0xfe, 0x00, 0x00, 0x00, 0x00, /* cmpl sizeof ($C0), %esi */ 115*4f364e7cSRobert Mustacchi 0x0f, 0x87, 0x00, 0x00, 0x00, 0x00, /* ja +$JMP (errout) */ 116*4f364e7cSRobert Mustacchi 0x65, 0x8b, 0x0d, 0x00, 0x00, 0x00, 0x00, /* movl %gs:0x0,%ecx */ 117*4f364e7cSRobert Mustacchi 0x81, 0xc1, 0x00, 0x00, 0x00, 0x00, /* addl $OFF, %ecx */ 118*4f364e7cSRobert Mustacchi 0x8d, 0x51, 0x04 /* leal 0x4(%ecx), %edx */ 119*4f364e7cSRobert Mustacchi }; 120*4f364e7cSRobert Mustacchi 121*4f364e7cSRobert Mustacchi /* 122*4f364e7cSRobert Mustacchi * void ptcfree(void *buf); 123*4f364e7cSRobert Mustacchi * 124*4f364e7cSRobert Mustacchi * if (buf == NULL) 125*4f364e7cSRobert Mustacchi * return; 126*4f364e7cSRobert Mustacchi * 127*4f364e7cSRobert Mustacchi * malloc_data_t *tag = buf; 128*4f364e7cSRobert Mustacchi * tag--; 129*4f364e7cSRobert Mustacchi * int size = tag->malloc_size; 130*4f364e7cSRobert Mustacchi * int tagtval = UMEM_MALLOC_DECODE(tag->malloc_tag, size); 131*4f364e7cSRobert Mustacchi * 132*4f364e7cSRobert Mustacchi * if (tagval != MALLOC_MAGIC) 133*4f364e7cSRobert Mustacchi * goto tofree; 134*4f364e7cSRobert Mustacchi * 135*4f364e7cSRobert Mustacchi * if (size > cache_max) 136*4f364e7cSRobert Mustacchi * goto tofree; 137*4f364e7cSRobert Mustacchi * 138*4f364e7cSRobert Mustacchi * tmem_t *t = (uintptr_t)curthread() + umem_thr_offset; 139*4f364e7cSRobert Mustacchi * void **roots = t->tm_roots; 140*4f364e7cSRobert Mustacchi */ 141*4f364e7cSRobert Mustacchi #define PTC_FRINI_JDONE 0x0d 142*4f364e7cSRobert Mustacchi #define PTC_FRINI_JFREE 0x23 143*4f364e7cSRobert Mustacchi #define PTC_FRINI_MCS 0x29 144*4f364e7cSRobert Mustacchi #define PTC_FRINI_JOV 0x2f 145*4f364e7cSRobert Mustacchi #define PTC_FRINI_SOFF 0x3c 146*4f364e7cSRobert Mustacchi static const uint8_t freeinit[] = { 147*4f364e7cSRobert Mustacchi 0x55, /* pushl %ebp */ 148*4f364e7cSRobert Mustacchi 0x89, 0xe5, /* movl %esp, %ebp */ 149*4f364e7cSRobert Mustacchi 0x57, /* pushl %edi */ 150*4f364e7cSRobert Mustacchi 0x56, /* pushl %esi */ 151*4f364e7cSRobert Mustacchi 0x53, /* pushl %ebx */ 152*4f364e7cSRobert Mustacchi 0x8b, 0x45, 0x08, /* movl 0x8(%ebp), %eax */ 153*4f364e7cSRobert Mustacchi 0x85, 0xc0, /* testl %eax, %eax */ 154*4f364e7cSRobert Mustacchi 0x0f, 0x84, 0x00, 0x00, 0x00, 0x00, /* je $JDONE (done) */ 155*4f364e7cSRobert Mustacchi 0x83, 0xe8, 0x08, /* subl $0x8,%eax */ 156*4f364e7cSRobert Mustacchi 0x8b, 0x30, /* movl (%eax),%esi */ 157*4f364e7cSRobert Mustacchi 0x8b, 0x50, 0x04, /* movl 0x4(%eax),%edx */ 158*4f364e7cSRobert Mustacchi 0x01, 0xf2, /* addl %esi,%edx */ 159*4f364e7cSRobert Mustacchi 0x81, 0xfa, 0x00, 0xc0, 0x10, 0x3a, /* cmpl MAGIC32, %edx */ 160*4f364e7cSRobert Mustacchi 0x0f, 0x85, 0x00, 0x00, 0x00, 0x00, /* jne +JFREE (goto freebuf) */ 161*4f364e7cSRobert Mustacchi 162*4f364e7cSRobert Mustacchi 0x81, 0xfe, 0x00, 0x00, 0x00, 0x00, /* cmpl sizeof ($C0), %esi */ 163*4f364e7cSRobert Mustacchi 0x0f, 0x87, 0x00, 0x00, 0x00, 0x00, /* ja +$JMP (errout) */ 164*4f364e7cSRobert Mustacchi 0x65, 0x8b, 0x0d, 0x00, 0x0, 0x00, 0x00, /* movl %gs:0x0,%ecx */ 165*4f364e7cSRobert Mustacchi 0x81, 0xc1, 0x00, 0x00, 0x00, 0x00, /* addl $0xOFF, %ecx */ 166*4f364e7cSRobert Mustacchi 0x8d, 0x51, 0x04 /* leal 0x4(%ecx),%edx */ 167*4f364e7cSRobert Mustacchi }; 168*4f364e7cSRobert Mustacchi 169*4f364e7cSRobert Mustacchi /* 170*4f364e7cSRobert Mustacchi * if (size <= $CACHE_SIZE) { 171*4f364e7cSRobert Mustacchi * csize = $CACHE_SIZE; 172*4f364e7cSRobert Mustacchi * } else ... ! goto next cache 173*4f364e7cSRobert Mustacchi */ 174*4f364e7cSRobert Mustacchi #define PTC_INICACHE_CMP 0x02 175*4f364e7cSRobert Mustacchi #define PTC_INICACHE_SIZE 0x09 176*4f364e7cSRobert Mustacchi #define PTC_INICACHE_JMP 0x0e 177*4f364e7cSRobert Mustacchi static const uint8_t inicache[] = { 178*4f364e7cSRobert Mustacchi 0x81, 0xfe, 0xff, 0x00, 0x00, 0x00, /* cmpl sizeof ($C0), %esi */ 179*4f364e7cSRobert Mustacchi 0x77, 0x0a, /* ja +0xa */ 180*4f364e7cSRobert Mustacchi 0xbf, 0xff, 0x00, 0x00, 0x00, /* movl sizeof ($C0), %edi */ 181*4f364e7cSRobert Mustacchi 0xe9, 0x00, 0x00, 0x00, 0x00 /* jmp +$JMP (allocbuf) */ 182*4f364e7cSRobert Mustacchi }; 183*4f364e7cSRobert Mustacchi 184*4f364e7cSRobert Mustacchi /* 185*4f364e7cSRobert Mustacchi * if (size <= $CACHE_SIZE) { 186*4f364e7cSRobert Mustacchi * csize = $CACHE_SIZE; 187*4f364e7cSRobert Mustacchi * roots += $CACHE_NUM; 188*4f364e7cSRobert Mustacchi * } else ... ! goto next cache 189*4f364e7cSRobert Mustacchi */ 190*4f364e7cSRobert Mustacchi #define PTC_GENCACHE_CMP 0x02 191*4f364e7cSRobert Mustacchi #define PTC_GENCACHE_NUM 0x0a 192*4f364e7cSRobert Mustacchi #define PTC_GENCACHE_SIZE 0x0c 193*4f364e7cSRobert Mustacchi #define PTC_GENCACHE_JMP 0x11 194*4f364e7cSRobert Mustacchi static const uint8_t gencache[] = { 195*4f364e7cSRobert Mustacchi 0x81, 0xfe, 0x00, 0x00, 0x00, 0x00, /* cmpl sizeof ($CACHE), %esi */ 196*4f364e7cSRobert Mustacchi 0x77, 0x0d, /* ja +0xd (next cache) */ 197*4f364e7cSRobert Mustacchi 0x83, 0xc2, 0x00, /* addl $4*$ii, %edx */ 198*4f364e7cSRobert Mustacchi 0xbf, 0x00, 0x00, 0x00, 0x00, /* movl sizeof ($CACHE), %edi */ 199*4f364e7cSRobert Mustacchi 0xe9, 0x00, 0x00, 0x00, 0x00 /* jmp +$JMP (allocbuf) */ 200*4f364e7cSRobert Mustacchi }; 201*4f364e7cSRobert Mustacchi 202*4f364e7cSRobert Mustacchi /* 203*4f364e7cSRobert Mustacchi * else if (size <= $CACHE_SIZE) { 204*4f364e7cSRobert Mustacchi * csize = $CACHE_SIZE; 205*4f364e7cSRobert Mustacchi * roots += $CACHE_NUM; 206*4f364e7cSRobert Mustacchi * } else { 207*4f364e7cSRobert Mustacchi * goto tofunc; ! goto tomalloc if ptcmalloc. 208*4f364e7cSRobert Mustacchi * } ! goto tofree if ptcfree. 209*4f364e7cSRobert Mustacchi */ 210*4f364e7cSRobert Mustacchi #define PTC_FINCACHE_CMP 0x02 211*4f364e7cSRobert Mustacchi #define PTC_FINCACHE_JMP 0x07 212*4f364e7cSRobert Mustacchi #define PTC_FINCACHE_NUM 0x0a 213*4f364e7cSRobert Mustacchi #define PTC_FINCACHE_SIZE 0x0c 214*4f364e7cSRobert Mustacchi static const uint8_t fincache[] = { 215*4f364e7cSRobert Mustacchi 0x81, 0xfe, 0xff, 0x00, 0x00, 0x00, /* cmpl sizeof ($CLAST), %esi */ 216*4f364e7cSRobert Mustacchi 0x77, 0x00, /* ja +$JMP (to errout) */ 217*4f364e7cSRobert Mustacchi 0x83, 0xc2, 0x00, /* addl $4*($NCACHES-1), %edx */ 218*4f364e7cSRobert Mustacchi 0xbf, 0x00, 0x00, 0x00, 0x00, /* movl sizeof ($CLAST), %edi */ 219*4f364e7cSRobert Mustacchi }; 220*4f364e7cSRobert Mustacchi 221*4f364e7cSRobert Mustacchi /* 222*4f364e7cSRobert Mustacchi * if (*root == NULL) 223*4f364e7cSRobert Mustacchi * goto tomalloc; 224*4f364e7cSRobert Mustacchi * 225*4f364e7cSRobert Mustacchi * malloc_data_t *ret = *root; 226*4f364e7cSRobert Mustacchi * *root = *(void **)ret; 227*4f364e7cSRobert Mustacchi * t->tm_size += csize; 228*4f364e7cSRobert Mustacchi * ret->malloc_size = size; 229*4f364e7cSRobert Mustacchi * 230*4f364e7cSRobert Mustacchi * ret->malloc_data = UMEM_MALLOC_ENCODE(MALLOC_SECOND_MAGIC, size); 231*4f364e7cSRobert Mustacchi * ret++; 232*4f364e7cSRobert Mustacchi * 233*4f364e7cSRobert Mustacchi * return ((void *)ret); 234*4f364e7cSRobert Mustacchi * tomalloc: 235*4f364e7cSRobert Mustacchi * return (malloc(orig_size)); 236*4f364e7cSRobert Mustacchi */ 237*4f364e7cSRobert Mustacchi #define PTC_MALFINI_ALLABEL 0x00 238*4f364e7cSRobert Mustacchi #define PTC_MALFINI_JMLABEL 0x20 239*4f364e7cSRobert Mustacchi #define PTC_MALFINI_JMADDR 0x25 240*4f364e7cSRobert Mustacchi static const uint8_t malfini[] = { 241*4f364e7cSRobert Mustacchi /* allocbuf: */ 242*4f364e7cSRobert Mustacchi 0x8b, 0x02, /* movl (%edx), %eax */ 243*4f364e7cSRobert Mustacchi 0x85, 0xc0, /* testl %eax, %eax */ 244*4f364e7cSRobert Mustacchi 0x74, 0x1a, /* je +0x1a (errout) */ 245*4f364e7cSRobert Mustacchi 0x8b, 0x18, /* movl (%eax), %esi */ 246*4f364e7cSRobert Mustacchi 0x89, 0x1a, /* movl %esi, (%edx) */ 247*4f364e7cSRobert Mustacchi 0x29, 0x39, /* subl %edi, (%ecx) */ 248*4f364e7cSRobert Mustacchi 0x89, 0x30, /* movl %esi, ($eax) */ 249*4f364e7cSRobert Mustacchi 0xba, 0x00, 0xc0, 0x10, 0x3a, /* movl $0x3a10c000,%edx */ 250*4f364e7cSRobert Mustacchi 0x29, 0xf2, /* subl %esi, %edx */ 251*4f364e7cSRobert Mustacchi 0x89, 0x50, 0x04, /* movl %edx, 0x4(%eax) */ 252*4f364e7cSRobert Mustacchi 0x83, 0xc0, 0x08, /* addl %0x8, %eax */ 253*4f364e7cSRobert Mustacchi 0x5b, /* popl %ebx */ 254*4f364e7cSRobert Mustacchi 0x5e, /* popl %esi */ 255*4f364e7cSRobert Mustacchi 0x5f, /* popl %edi */ 256*4f364e7cSRobert Mustacchi 0xc9, /* leave */ 257*4f364e7cSRobert Mustacchi 0xc3, /* ret */ 258*4f364e7cSRobert Mustacchi /* errout: */ 259*4f364e7cSRobert Mustacchi 0x5b, /* popl %ebx */ 260*4f364e7cSRobert Mustacchi 0x5e, /* popl %esi */ 261*4f364e7cSRobert Mustacchi 0x5f, /* popl %edi */ 262*4f364e7cSRobert Mustacchi 0xc9, /* leave */ 263*4f364e7cSRobert Mustacchi 0xe9, 0x00, 0x00, 0x00, 0x00 /* jmp $malloc */ 264*4f364e7cSRobert Mustacchi }; 265*4f364e7cSRobert Mustacchi 266*4f364e7cSRobert Mustacchi /* 267*4f364e7cSRobert Mustacchi * if (t->tm_size + csize > umem_ptc_size) 268*4f364e7cSRobert Mustacchi * goto tofree; 269*4f364e7cSRobert Mustacchi * 270*4f364e7cSRobert Mustacchi * t->tm_size += csize 271*4f364e7cSRobert Mustacchi * *(void **)tag = *root; 272*4f364e7cSRobert Mustacchi * *root = tag; 273*4f364e7cSRobert Mustacchi * return; 274*4f364e7cSRobert Mustacchi * tofree: 275*4f364e7cSRobert Mustacchi * free(buf); 276*4f364e7cSRobert Mustacchi * return; 277*4f364e7cSRobert Mustacchi */ 278*4f364e7cSRobert Mustacchi #define PTC_FRFINI_RBUFLABEL 0x00 279*4f364e7cSRobert Mustacchi #define PTC_FRFINI_CACHEMAX 0x06 280*4f364e7cSRobert Mustacchi #define PTC_FRFINI_DONELABEL 0x14 281*4f364e7cSRobert Mustacchi #define PTC_FRFINI_JFLABEL 0x19 282*4f364e7cSRobert Mustacchi #define PTC_FRFINI_JFADDR 0x1e 283*4f364e7cSRobert Mustacchi static const uint8_t freefini[] = { 284*4f364e7cSRobert Mustacchi /* freebuf: */ 285*4f364e7cSRobert Mustacchi 0x8b, 0x19, /* movl (%ecx),%ebx */ 286*4f364e7cSRobert Mustacchi 0x01, 0xfb, /* addl %edi,%ebx */ 287*4f364e7cSRobert Mustacchi 0x81, 0xfb, 0x00, 0x00, 0x00, 0x00, /* cmpl maxsize, %ebx */ 288*4f364e7cSRobert Mustacchi 0x73, 0x0d, /* jae +0xd <tofree> */ 289*4f364e7cSRobert Mustacchi 0x01, 0x39, /* addl %edi,(%ecx) */ 290*4f364e7cSRobert Mustacchi 0x8b, 0x3a, /* movl (%edx),%edi */ 291*4f364e7cSRobert Mustacchi 0x89, 0x38, /* movl %edi,(%eax) */ 292*4f364e7cSRobert Mustacchi 0x89, 0x02, /* movl %eax,(%edx) */ 293*4f364e7cSRobert Mustacchi /* done: */ 294*4f364e7cSRobert Mustacchi 0x5b, /* popl %ebx */ 295*4f364e7cSRobert Mustacchi 0x5e, /* popl %esi */ 296*4f364e7cSRobert Mustacchi 0x5f, /* popl %edi */ 297*4f364e7cSRobert Mustacchi 0xc9, /* leave */ 298*4f364e7cSRobert Mustacchi 0xc3, /* ret */ 299*4f364e7cSRobert Mustacchi /* realfree: */ 300*4f364e7cSRobert Mustacchi 0x5b, /* popl %ebx */ 301*4f364e7cSRobert Mustacchi 0x5e, /* popl %esi */ 302*4f364e7cSRobert Mustacchi 0x5f, /* popl %edi */ 303*4f364e7cSRobert Mustacchi 0xc9, /* leave */ 304*4f364e7cSRobert Mustacchi 0xe9, 0x00, 0x00, 0x00, 0x00 /* jmp free */ 305*4f364e7cSRobert Mustacchi }; 306*4f364e7cSRobert Mustacchi 307*4f364e7cSRobert Mustacchi /* 308*4f364e7cSRobert Mustacchi * Construct the initial part of malloc. off contains the offset from curthread 309*4f364e7cSRobert Mustacchi * to the root of the tmem structure. ep is the address of the label to error 310*4f364e7cSRobert Mustacchi * and jump to free. csize is the size of the largest umem_cache in ptcumem. 311*4f364e7cSRobert Mustacchi */ 312*4f364e7cSRobert Mustacchi static int 313*4f364e7cSRobert Mustacchi genasm_malinit(uint8_t *bp, uint32_t off, uint32_t ep, uint32_t csize) 314*4f364e7cSRobert Mustacchi { 315*4f364e7cSRobert Mustacchi uint32_t addr; 316*4f364e7cSRobert Mustacchi 317*4f364e7cSRobert Mustacchi bcopy(malinit, bp, sizeof (malinit)); 318*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ep, PTC_MALINIT_JOUT); 319*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_MALINIT_JOUT, sizeof (addr)); 320*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_MALINIT_MCS, sizeof (csize)); 321*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ep, PTC_MALINIT_JOV); 322*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_MALINIT_JOV, sizeof (addr)); 323*4f364e7cSRobert Mustacchi bcopy(&off, bp + PTC_MALINIT_SOFF, sizeof (off)); 324*4f364e7cSRobert Mustacchi 325*4f364e7cSRobert Mustacchi return (sizeof (malinit)); 326*4f364e7cSRobert Mustacchi } 327*4f364e7cSRobert Mustacchi 328*4f364e7cSRobert Mustacchi static int 329*4f364e7cSRobert Mustacchi genasm_frinit(uint8_t *bp, uint32_t off, uint32_t dp, uint32_t ep, uint32_t mc) 330*4f364e7cSRobert Mustacchi { 331*4f364e7cSRobert Mustacchi uint32_t addr; 332*4f364e7cSRobert Mustacchi 333*4f364e7cSRobert Mustacchi bcopy(freeinit, bp, sizeof (freeinit)); 334*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(dp, PTC_FRINI_JDONE); 335*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FRINI_JDONE, sizeof (addr)); 336*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ep, PTC_FRINI_JFREE); 337*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FRINI_JFREE, sizeof (addr)); 338*4f364e7cSRobert Mustacchi bcopy(&mc, bp + PTC_FRINI_MCS, sizeof (mc)); 339*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ep, PTC_FRINI_JOV); 340*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FRINI_JOV, sizeof (addr)); 341*4f364e7cSRobert Mustacchi bcopy(&off, bp + PTC_FRINI_SOFF, sizeof (off)); 342*4f364e7cSRobert Mustacchi return (sizeof (freeinit)); 343*4f364e7cSRobert Mustacchi } 344*4f364e7cSRobert Mustacchi 345*4f364e7cSRobert Mustacchi /* 346*4f364e7cSRobert Mustacchi * Create the initial cache entry of the specified size. The value of ap tells 347*4f364e7cSRobert Mustacchi * us what the address of the label to try and allocate a buffer. This value is 348*4f364e7cSRobert Mustacchi * an offset from the current base to that value. 349*4f364e7cSRobert Mustacchi */ 350*4f364e7cSRobert Mustacchi static int 351*4f364e7cSRobert Mustacchi genasm_firstcache(uint8_t *bp, uint32_t csize, uint32_t ap) 352*4f364e7cSRobert Mustacchi { 353*4f364e7cSRobert Mustacchi uint32_t addr; 354*4f364e7cSRobert Mustacchi 355*4f364e7cSRobert Mustacchi bcopy(inicache, bp, sizeof (inicache)); 356*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_INICACHE_CMP, sizeof (csize)); 357*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_INICACHE_SIZE, sizeof (csize)); 358*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ap, PTC_INICACHE_JMP); 359*4f364e7cSRobert Mustacchi ASSERT(addr != 0); 360*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_INICACHE_JMP, sizeof (addr)); 361*4f364e7cSRobert Mustacchi 362*4f364e7cSRobert Mustacchi return (sizeof (inicache)); 363*4f364e7cSRobert Mustacchi } 364*4f364e7cSRobert Mustacchi 365*4f364e7cSRobert Mustacchi static int 366*4f364e7cSRobert Mustacchi genasm_gencache(uint8_t *bp, int num, uint32_t csize, uint32_t ap) 367*4f364e7cSRobert Mustacchi { 368*4f364e7cSRobert Mustacchi uint32_t addr; 369*4f364e7cSRobert Mustacchi uint8_t coff; 370*4f364e7cSRobert Mustacchi 371*4f364e7cSRobert Mustacchi ASSERT(256 / PTC_ROOT_SIZE > num); 372*4f364e7cSRobert Mustacchi ASSERT(num != 0); 373*4f364e7cSRobert Mustacchi bcopy(gencache, bp, sizeof (gencache)); 374*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_GENCACHE_CMP, sizeof (csize)); 375*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_GENCACHE_SIZE, sizeof (csize)); 376*4f364e7cSRobert Mustacchi coff = num * PTC_ROOT_SIZE; 377*4f364e7cSRobert Mustacchi bcopy(&coff, bp + PTC_GENCACHE_NUM, sizeof (coff)); 378*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(ap, PTC_GENCACHE_JMP); 379*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_GENCACHE_JMP, sizeof (addr)); 380*4f364e7cSRobert Mustacchi 381*4f364e7cSRobert Mustacchi return (sizeof (gencache)); 382*4f364e7cSRobert Mustacchi } 383*4f364e7cSRobert Mustacchi 384*4f364e7cSRobert Mustacchi static int 385*4f364e7cSRobert Mustacchi genasm_lastcache(uint8_t *bp, int num, uint32_t csize, uint32_t ep) 386*4f364e7cSRobert Mustacchi { 387*4f364e7cSRobert Mustacchi uint8_t addr; 388*4f364e7cSRobert Mustacchi 389*4f364e7cSRobert Mustacchi ASSERT(ep <= 0xff && ep > 7); 390*4f364e7cSRobert Mustacchi ASSERT(256 / PTC_ROOT_SIZE > num); 391*4f364e7cSRobert Mustacchi bcopy(fincache, bp, sizeof (fincache)); 392*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_FINCACHE_CMP, sizeof (csize)); 393*4f364e7cSRobert Mustacchi bcopy(&csize, bp + PTC_FINCACHE_SIZE, sizeof (csize)); 394*4f364e7cSRobert Mustacchi addr = num * PTC_ROOT_SIZE; 395*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FINCACHE_NUM, sizeof (addr)); 396*4f364e7cSRobert Mustacchi addr = ep - PTC_FINCACHE_JMP - 1; 397*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FINCACHE_JMP, sizeof (addr)); 398*4f364e7cSRobert Mustacchi 399*4f364e7cSRobert Mustacchi return (sizeof (fincache)); 400*4f364e7cSRobert Mustacchi } 401*4f364e7cSRobert Mustacchi 402*4f364e7cSRobert Mustacchi static int 403*4f364e7cSRobert Mustacchi genasm_malfini(uint8_t *bp, uintptr_t mptr) 404*4f364e7cSRobert Mustacchi { 405*4f364e7cSRobert Mustacchi uint32_t addr; 406*4f364e7cSRobert Mustacchi 407*4f364e7cSRobert Mustacchi bcopy(malfini, bp, sizeof (malfini)); 408*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(mptr, ((uintptr_t)bp + PTC_MALFINI_JMADDR)); 409*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_MALFINI_JMADDR, sizeof (addr)); 410*4f364e7cSRobert Mustacchi 411*4f364e7cSRobert Mustacchi return (sizeof (malfini)); 412*4f364e7cSRobert Mustacchi } 413*4f364e7cSRobert Mustacchi 414*4f364e7cSRobert Mustacchi static int 415*4f364e7cSRobert Mustacchi genasm_frfini(uint8_t *bp, uint32_t maxthr, uintptr_t fptr) 416*4f364e7cSRobert Mustacchi { 417*4f364e7cSRobert Mustacchi uint32_t addr; 418*4f364e7cSRobert Mustacchi 419*4f364e7cSRobert Mustacchi bcopy(freefini, bp, sizeof (freefini)); 420*4f364e7cSRobert Mustacchi bcopy(&maxthr, bp + PTC_FRFINI_CACHEMAX, sizeof (maxthr)); 421*4f364e7cSRobert Mustacchi addr = PTC_JMPADDR(fptr, ((uintptr_t)bp + PTC_FRFINI_JFADDR)); 422*4f364e7cSRobert Mustacchi bcopy(&addr, bp + PTC_FRFINI_JFADDR, sizeof (addr)); 423*4f364e7cSRobert Mustacchi 424*4f364e7cSRobert Mustacchi return (sizeof (freefini)); 425*4f364e7cSRobert Mustacchi } 426*4f364e7cSRobert Mustacchi 427*4f364e7cSRobert Mustacchi /* 428*4f364e7cSRobert Mustacchi * The malloc inline assembly is constructed as follows: 429*4f364e7cSRobert Mustacchi * 430*4f364e7cSRobert Mustacchi * o Malloc prologue assembly 431*4f364e7cSRobert Mustacchi * o Generic first-cache check 432*4f364e7cSRobert Mustacchi * o n Generic cache checks (where n = _tmem_get_entries() - 2) 433*4f364e7cSRobert Mustacchi * o Generic last-cache check 434*4f364e7cSRobert Mustacchi * o Malloc epilogue assembly 435*4f364e7cSRobert Mustacchi * 436*4f364e7cSRobert Mustacchi * Generally there are at least three caches. When there is only one cache we 437*4f364e7cSRobert Mustacchi * only use the generic last-cache. In the case where there are two caches, we 438*4f364e7cSRobert Mustacchi * just leave out the middle ones. 439*4f364e7cSRobert Mustacchi */ 440*4f364e7cSRobert Mustacchi static int 441*4f364e7cSRobert Mustacchi genasm_malloc(void *base, size_t len, int nents, int *umem_alloc_sizes) 442*4f364e7cSRobert Mustacchi { 443*4f364e7cSRobert Mustacchi int ii, off; 444*4f364e7cSRobert Mustacchi uint8_t *bp; 445*4f364e7cSRobert Mustacchi size_t total; 446*4f364e7cSRobert Mustacchi uint32_t allocoff, erroff; 447*4f364e7cSRobert Mustacchi 448*4f364e7cSRobert Mustacchi total = sizeof (malinit) + sizeof (malfini) + sizeof (fincache); 449*4f364e7cSRobert Mustacchi 450*4f364e7cSRobert Mustacchi if (nents >= 2) 451*4f364e7cSRobert Mustacchi total += sizeof (inicache) + sizeof (gencache) * (nents - 2); 452*4f364e7cSRobert Mustacchi 453*4f364e7cSRobert Mustacchi if (total > len) 454*4f364e7cSRobert Mustacchi return (1); 455*4f364e7cSRobert Mustacchi 456*4f364e7cSRobert Mustacchi erroff = total - sizeof (malfini) + PTC_MALFINI_JMLABEL; 457*4f364e7cSRobert Mustacchi allocoff = total - sizeof (malfini) + PTC_MALFINI_ALLABEL; 458*4f364e7cSRobert Mustacchi 459*4f364e7cSRobert Mustacchi bp = base; 460*4f364e7cSRobert Mustacchi 461*4f364e7cSRobert Mustacchi off = genasm_malinit(bp, umem_tmem_off, erroff, 462*4f364e7cSRobert Mustacchi umem_alloc_sizes[nents-1]); 463*4f364e7cSRobert Mustacchi bp += off; 464*4f364e7cSRobert Mustacchi allocoff -= off; 465*4f364e7cSRobert Mustacchi erroff -= off; 466*4f364e7cSRobert Mustacchi 467*4f364e7cSRobert Mustacchi if (nents > 1) { 468*4f364e7cSRobert Mustacchi off = genasm_firstcache(bp, umem_alloc_sizes[0], allocoff); 469*4f364e7cSRobert Mustacchi bp += off; 470*4f364e7cSRobert Mustacchi allocoff -= off; 471*4f364e7cSRobert Mustacchi erroff -= off; 472*4f364e7cSRobert Mustacchi } 473*4f364e7cSRobert Mustacchi 474*4f364e7cSRobert Mustacchi for (ii = 1; ii < nents - 1; ii++) { 475*4f364e7cSRobert Mustacchi off = genasm_gencache(bp, ii, umem_alloc_sizes[ii], allocoff); 476*4f364e7cSRobert Mustacchi bp += off; 477*4f364e7cSRobert Mustacchi allocoff -= off; 478*4f364e7cSRobert Mustacchi erroff -= off; 479*4f364e7cSRobert Mustacchi } 480*4f364e7cSRobert Mustacchi 481*4f364e7cSRobert Mustacchi bp += genasm_lastcache(bp, nents - 1, umem_alloc_sizes[nents - 1], 482*4f364e7cSRobert Mustacchi erroff); 483*4f364e7cSRobert Mustacchi bp += genasm_malfini(bp, umem_genasm_omptr); 484*4f364e7cSRobert Mustacchi ASSERT(((uintptr_t)bp - total) == (uintptr_t)base); 485*4f364e7cSRobert Mustacchi 486*4f364e7cSRobert Mustacchi return (0); 487*4f364e7cSRobert Mustacchi } 488*4f364e7cSRobert Mustacchi 489*4f364e7cSRobert Mustacchi static int 490*4f364e7cSRobert Mustacchi genasm_free(void *base, size_t len, int nents, int *umem_alloc_sizes) 491*4f364e7cSRobert Mustacchi { 492*4f364e7cSRobert Mustacchi uint8_t *bp; 493*4f364e7cSRobert Mustacchi int ii, off; 494*4f364e7cSRobert Mustacchi size_t total; 495*4f364e7cSRobert Mustacchi uint32_t rbufoff, retoff, erroff; 496*4f364e7cSRobert Mustacchi 497*4f364e7cSRobert Mustacchi /* Assume that nents has already been audited for us */ 498*4f364e7cSRobert Mustacchi total = sizeof (freeinit) + sizeof (freefini) + sizeof (fincache); 499*4f364e7cSRobert Mustacchi if (nents >= 2) 500*4f364e7cSRobert Mustacchi total += sizeof (inicache) + sizeof (gencache) * (nents - 2); 501*4f364e7cSRobert Mustacchi 502*4f364e7cSRobert Mustacchi if (total > len) 503*4f364e7cSRobert Mustacchi return (1); 504*4f364e7cSRobert Mustacchi 505*4f364e7cSRobert Mustacchi erroff = total - (sizeof (freefini) - PTC_FRFINI_JFLABEL); 506*4f364e7cSRobert Mustacchi rbufoff = total - (sizeof (freefini) - PTC_FRFINI_RBUFLABEL); 507*4f364e7cSRobert Mustacchi retoff = total - (sizeof (freefini) - PTC_FRFINI_DONELABEL); 508*4f364e7cSRobert Mustacchi 509*4f364e7cSRobert Mustacchi bp = base; 510*4f364e7cSRobert Mustacchi 511*4f364e7cSRobert Mustacchi off = genasm_frinit(bp, umem_tmem_off, retoff, erroff, 512*4f364e7cSRobert Mustacchi umem_alloc_sizes[nents - 1]); 513*4f364e7cSRobert Mustacchi bp += off; 514*4f364e7cSRobert Mustacchi erroff -= off; 515*4f364e7cSRobert Mustacchi rbufoff -= off; 516*4f364e7cSRobert Mustacchi 517*4f364e7cSRobert Mustacchi if (nents > 1) { 518*4f364e7cSRobert Mustacchi off = genasm_firstcache(bp, umem_alloc_sizes[0], rbufoff); 519*4f364e7cSRobert Mustacchi bp += off; 520*4f364e7cSRobert Mustacchi erroff -= off; 521*4f364e7cSRobert Mustacchi rbufoff -= off; 522*4f364e7cSRobert Mustacchi } 523*4f364e7cSRobert Mustacchi 524*4f364e7cSRobert Mustacchi for (ii = 1; ii < nents - 1; ii++) { 525*4f364e7cSRobert Mustacchi off = genasm_gencache(bp, ii, umem_alloc_sizes[ii], rbufoff); 526*4f364e7cSRobert Mustacchi bp += off; 527*4f364e7cSRobert Mustacchi rbufoff -= off; 528*4f364e7cSRobert Mustacchi erroff -= off; 529*4f364e7cSRobert Mustacchi } 530*4f364e7cSRobert Mustacchi 531*4f364e7cSRobert Mustacchi bp += genasm_lastcache(bp, nents - 1, umem_alloc_sizes[nents - 1], 532*4f364e7cSRobert Mustacchi erroff); 533*4f364e7cSRobert Mustacchi bp += genasm_frfini(bp, umem_ptc_size, umem_genasm_ofptr); 534*4f364e7cSRobert Mustacchi ASSERT(((uintptr_t)bp - total) == (uintptr_t)base); 535*4f364e7cSRobert Mustacchi 536*4f364e7cSRobert Mustacchi return (0); 537*4f364e7cSRobert Mustacchi } 538*4f364e7cSRobert Mustacchi 539*4f364e7cSRobert Mustacchi int 540*4f364e7cSRobert Mustacchi umem_genasm(int *alloc_sizes, umem_cache_t **caches, int ncaches) 541*4f364e7cSRobert Mustacchi { 542*4f364e7cSRobert Mustacchi int nents, i; 543*4f364e7cSRobert Mustacchi uint8_t *mptr; 544*4f364e7cSRobert Mustacchi uint8_t *fptr; 545*4f364e7cSRobert Mustacchi uint64_t v, *vptr; 546*4f364e7cSRobert Mustacchi 547*4f364e7cSRobert Mustacchi mptr = (void *)((uintptr_t)umem_genasm_mptr + 5); 548*4f364e7cSRobert Mustacchi fptr = (void *)((uintptr_t)umem_genasm_fptr + 5); 549*4f364e7cSRobert Mustacchi if (umem_genasm_mptr == 0 || umem_genasm_msize == 0 || 550*4f364e7cSRobert Mustacchi umem_genasm_fptr == 0 || umem_genasm_fsize == 0) 551*4f364e7cSRobert Mustacchi return (1); 552*4f364e7cSRobert Mustacchi 553*4f364e7cSRobert Mustacchi /* 554*4f364e7cSRobert Mustacchi * The total number of caches that we can service is the minimum of: 555*4f364e7cSRobert Mustacchi * o the amount supported by libc 556*4f364e7cSRobert Mustacchi * o the total number of umem caches 557*4f364e7cSRobert Mustacchi * o we use a single byte addl, so it's 255 / sizeof (uintptr_t). For 558*4f364e7cSRobert Mustacchi * 32-bit, this is 63. 559*4f364e7cSRobert Mustacchi */ 560*4f364e7cSRobert Mustacchi nents = _tmem_get_nentries(); 561*4f364e7cSRobert Mustacchi 562*4f364e7cSRobert Mustacchi if (UMEM_GENASM_MAX32 < nents) 563*4f364e7cSRobert Mustacchi nents = UMEM_GENASM_MAX32; 564*4f364e7cSRobert Mustacchi 565*4f364e7cSRobert Mustacchi if (ncaches < nents) 566*4f364e7cSRobert Mustacchi nents = ncaches; 567*4f364e7cSRobert Mustacchi 568*4f364e7cSRobert Mustacchi /* Based on our constraints, this is not an error */ 569*4f364e7cSRobert Mustacchi if (nents == 0 || umem_ptc_size == 0) 570*4f364e7cSRobert Mustacchi return (0); 571*4f364e7cSRobert Mustacchi 572*4f364e7cSRobert Mustacchi /* Take into account the jump */ 573*4f364e7cSRobert Mustacchi if (genasm_malloc(mptr, umem_genasm_msize, nents, 574*4f364e7cSRobert Mustacchi alloc_sizes) != 0) 575*4f364e7cSRobert Mustacchi return (1); 576*4f364e7cSRobert Mustacchi 577*4f364e7cSRobert Mustacchi if (genasm_free(fptr, umem_genasm_fsize, nents, 578*4f364e7cSRobert Mustacchi alloc_sizes) != 0) 579*4f364e7cSRobert Mustacchi return (1); 580*4f364e7cSRobert Mustacchi 581*4f364e7cSRobert Mustacchi /* nop out the jump with a multibyte jump */ 582*4f364e7cSRobert Mustacchi vptr = (void *)umem_genasm_mptr; 583*4f364e7cSRobert Mustacchi v = MULTINOP; 584*4f364e7cSRobert Mustacchi v |= *vptr & (0xffffffULL << 40); 585*4f364e7cSRobert Mustacchi (void) atomic_swap_64(vptr, v); 586*4f364e7cSRobert Mustacchi vptr = (void *)umem_genasm_fptr; 587*4f364e7cSRobert Mustacchi v = MULTINOP; 588*4f364e7cSRobert Mustacchi v |= *vptr & (0xffffffULL << 40); 589*4f364e7cSRobert Mustacchi (void) atomic_swap_64(vptr, v); 590*4f364e7cSRobert Mustacchi 591*4f364e7cSRobert Mustacchi for (i = 0; i < nents; i++) 592*4f364e7cSRobert Mustacchi caches[i]->cache_flags |= UMF_PTC; 593*4f364e7cSRobert Mustacchi 594*4f364e7cSRobert Mustacchi return (0); 595*4f364e7cSRobert Mustacchi } 596