xen.h revision 1.9.4.1
1 1.9.4.1 kent /* $NetBSD: xen.h,v 1.9.4.1 2005/04/29 11:28:29 kent Exp $ */ 2 1.1 cl 3 1.1 cl /* 4 1.1 cl * 5 1.1 cl * Copyright (c) 2003, 2004 Keir Fraser (on behalf of the Xen team) 6 1.1 cl * All rights reserved. 7 1.1 cl * 8 1.1 cl * Permission is hereby granted, free of charge, to any person obtaining a copy 9 1.1 cl * of this software and associated documentation files (the "Software"), to 10 1.1 cl * deal in the Software without restriction, including without limitation the 11 1.1 cl * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or 12 1.1 cl * sell copies of the Software, and to permit persons to whom the Software is 13 1.1 cl * furnished to do so, subject to the following conditions: 14 1.1 cl * 15 1.1 cl * The above copyright notice and this permission notice shall be included in 16 1.1 cl * all copies or substantial portions of the Software. 17 1.1 cl * 18 1.1 cl * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 19 1.1 cl * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 20 1.1 cl * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE 21 1.1 cl * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 22 1.1 cl * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING 23 1.1 cl * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER 24 1.1 cl * DEALINGS IN THE SOFTWARE. 25 1.1 cl */ 26 1.1 cl 27 1.1 cl 28 1.1 cl #ifndef _XEN_H 29 1.1 cl #define _XEN_H 30 1.1 cl 31 1.1 cl #ifndef _LOCORE 32 1.1 cl 33 1.5 cl struct xen_netinfo { 34 1.5 cl uint32_t xi_ifno; 35 1.5 cl char *xi_root; 36 1.5 cl uint32_t xi_ip[5]; 37 1.5 cl }; 38 1.5 cl 39 1.4 cl union xen_cmdline_parseinfo { 40 1.4 cl char xcp_bootdev[16]; /* sizeof(dv_xname) */ 41 1.4 cl struct xen_netinfo xcp_netinfo; 42 1.4 cl char xcp_console[16]; 43 1.4 cl }; 44 1.4 cl 45 1.4 cl #define XEN_PARSE_BOOTDEV 0 46 1.4 cl #define XEN_PARSE_NETINFO 1 47 1.4 cl #define XEN_PARSE_CONSOLE 2 48 1.4 cl 49 1.4 cl void xen_parse_cmdline(int, union xen_cmdline_parseinfo *); 50 1.4 cl 51 1.3 cl void xenconscn_attach(void); 52 1.3 cl 53 1.7 cl void xenprivcmd_init(void); 54 1.9.4.1 kent 55 1.9.4.1 kent void xbdback_init(void); 56 1.9.4.1 kent void xennetback_init(void); 57 1.9.4.1 kent void xen_shm_init(void); 58 1.9.4.1 kent 59 1.9.4.1 kent void xenevt_event(int); 60 1.9.4.1 kent void xenevt_notify(void); 61 1.9.4.1 kent 62 1.9.4.1 kent void idle_block(void); 63 1.7 cl 64 1.1 cl #ifdef XENDEBUG 65 1.1 cl void printk(const char *, ...); 66 1.9 christos void vprintk(const char *, _BSD_VA_LIST_); 67 1.1 cl #endif 68 1.1 cl 69 1.1 cl #endif 70 1.1 cl 71 1.3 cl #endif /* _XEN_H */ 72 1.1 cl 73 1.1 cl /****************************************************************************** 74 1.1 cl * os.h 75 1.1 cl * 76 1.1 cl * random collection of macros and definition 77 1.1 cl */ 78 1.1 cl 79 1.1 cl #ifndef _OS_H_ 80 1.1 cl #define _OS_H_ 81 1.1 cl 82 1.1 cl /* 83 1.1 cl * These are the segment descriptors provided for us by the hypervisor. 84 1.1 cl * For now, these are hardwired -- guest OSes cannot update the GDT 85 1.1 cl * or LDT. 86 1.1 cl * 87 1.1 cl * It shouldn't be hard to support descriptor-table frobbing -- let me 88 1.1 cl * know if the BSD or XP ports require flexibility here. 89 1.1 cl */ 90 1.1 cl 91 1.1 cl 92 1.1 cl /* 93 1.9.4.1 kent * these are also defined in xen-public/xen.h but can't be pulled in as 94 1.1 cl * they are used in start of day assembly. Need to clean up the .h files 95 1.1 cl * a bit more... 96 1.1 cl */ 97 1.1 cl 98 1.1 cl #ifndef FLAT_RING1_CS 99 1.1 cl #define FLAT_RING1_CS 0x0819 100 1.1 cl #define FLAT_RING1_DS 0x0821 101 1.1 cl #define FLAT_RING3_CS 0x082b 102 1.1 cl #define FLAT_RING3_DS 0x0833 103 1.1 cl #endif 104 1.1 cl 105 1.1 cl #define __KERNEL_CS FLAT_RING1_CS 106 1.1 cl #define __KERNEL_DS FLAT_RING1_DS 107 1.1 cl 108 1.1 cl /* Everything below this point is not included by assembler (.S) files. */ 109 1.1 cl #ifndef _LOCORE 110 1.1 cl 111 1.1 cl /* some function prototypes */ 112 1.1 cl void trap_init(void); 113 1.9.4.1 kent void xpq_flush_cache(void); 114 1.1 cl 115 1.1 cl 116 1.1 cl /* 117 1.1 cl * STI/CLI equivalents. These basically set and clear the virtual 118 1.9.4.1 kent * event_enable flag in the shared_info structure. Note that when 119 1.1 cl * the enable bit is set, there may be pending events to be handled. 120 1.1 cl * We may therefore call into do_hypervisor_callback() directly. 121 1.1 cl */ 122 1.8 cl 123 1.8 cl #define __save_flags(x) \ 124 1.8 cl do { \ 125 1.9.4.1 kent (x) = HYPERVISOR_shared_info->vcpu_data[0].evtchn_upcall_mask; \ 126 1.1 cl } while (0) 127 1.1 cl 128 1.8 cl #define __restore_flags(x) \ 129 1.8 cl do { \ 130 1.9.4.1 kent volatile shared_info_t *_shared = HYPERVISOR_shared_info; \ 131 1.8 cl __insn_barrier(); \ 132 1.9.4.1 kent if ((_shared->vcpu_data[0].evtchn_upcall_mask = (x)) == 0) { \ 133 1.9.4.1 kent x86_lfence(); \ 134 1.9.4.1 kent if (__predict_false(_shared->vcpu_data[0].evtchn_upcall_pending)) \ 135 1.9.4.1 kent hypervisor_force_callback(); \ 136 1.9.4.1 kent } \ 137 1.1 cl } while (0) 138 1.1 cl 139 1.8 cl #define __cli() \ 140 1.8 cl do { \ 141 1.9.4.1 kent HYPERVISOR_shared_info->vcpu_data[0].evtchn_upcall_mask = 1; \ 142 1.9.4.1 kent x86_lfence(); \ 143 1.1 cl } while (0) 144 1.1 cl 145 1.8 cl #define __sti() \ 146 1.8 cl do { \ 147 1.9.4.1 kent volatile shared_info_t *_shared = HYPERVISOR_shared_info; \ 148 1.9.4.1 kent __insn_barrier(); \ 149 1.9.4.1 kent _shared->vcpu_data[0].evtchn_upcall_mask = 0; \ 150 1.9.4.1 kent x86_lfence(); /* unmask then check (avoid races) */ \ 151 1.9.4.1 kent if (__predict_false(_shared->vcpu_data[0].evtchn_upcall_pending)) \ 152 1.9.4.1 kent hypervisor_force_callback(); \ 153 1.1 cl } while (0) 154 1.1 cl 155 1.8 cl #define cli() __cli() 156 1.8 cl #define sti() __sti() 157 1.8 cl #define save_flags(x) __save_flags(x) 158 1.8 cl #define restore_flags(x) __restore_flags(x) 159 1.9.4.1 kent #define save_and_cli(x) do { \ 160 1.9.4.1 kent __save_flags(x); \ 161 1.9.4.1 kent __cli(); \ 162 1.9.4.1 kent } while (/* CONSTCOND */ 0) 163 1.8 cl #define save_and_sti(x) __save_and_sti(x) 164 1.8 cl 165 1.9.4.1 kent /* 166 1.9.4.1 kent * always assume we're on multiprocessor. We don't know how many CPU the 167 1.9.4.1 kent * underlying hardware has. 168 1.9.4.1 kent */ 169 1.8 cl #define __LOCK_PREFIX "lock; " 170 1.1 cl 171 1.9.4.1 kent static __inline__ uint32_t 172 1.9.4.1 kent x86_atomic_xchg(volatile uint32_t *ptr, unsigned long val) 173 1.1 cl { 174 1.8 cl unsigned long result; 175 1.1 cl 176 1.9.4.1 kent __asm __volatile(__LOCK_PREFIX 177 1.9.4.1 kent "xchgl %0,%1" 178 1.8 cl :"=r" (result) 179 1.8 cl :"m" (*ptr), "0" (val) 180 1.8 cl :"memory"); 181 1.1 cl 182 1.8 cl return result; 183 1.1 cl } 184 1.1 cl 185 1.8 cl static __inline__ int 186 1.8 cl x86_atomic_test_and_clear_bit(volatile void *ptr, int bitno) 187 1.1 cl { 188 1.8 cl int result; 189 1.1 cl 190 1.8 cl __asm __volatile(__LOCK_PREFIX 191 1.8 cl "btrl %2,%1 ;" 192 1.8 cl "sbbl %0,%0" 193 1.8 cl :"=r" (result), "=m" (*(volatile uint32_t *)(ptr)) 194 1.8 cl :"Ir" (bitno) : "memory"); 195 1.8 cl return result; 196 1.1 cl } 197 1.1 cl 198 1.9.4.1 kent static __inline__ int 199 1.9.4.1 kent x86_atomic_test_and_set_bit(volatile void *ptr, int bitno) 200 1.9.4.1 kent { 201 1.9.4.1 kent int result; 202 1.9.4.1 kent 203 1.9.4.1 kent __asm __volatile(__LOCK_PREFIX 204 1.9.4.1 kent "btsl %2,%1 ;" 205 1.9.4.1 kent "sbbl %0,%0" 206 1.9.4.1 kent :"=r" (result), "=m" (*(volatile uint32_t *)(ptr)) 207 1.9.4.1 kent :"Ir" (bitno) : "memory"); 208 1.9.4.1 kent return result; 209 1.9.4.1 kent } 210 1.9.4.1 kent 211 1.8 cl static __inline int 212 1.8 cl x86_constant_test_bit(const volatile void *ptr, int bitno) 213 1.1 cl { 214 1.8 cl return ((1UL << (bitno & 31)) & 215 1.8 cl (((const volatile uint32_t *) ptr)[bitno >> 5])) != 0; 216 1.1 cl } 217 1.1 cl 218 1.8 cl static __inline int 219 1.8 cl x86_variable_test_bit(const volatile void *ptr, int bitno) 220 1.1 cl { 221 1.8 cl int result; 222 1.8 cl 223 1.8 cl __asm __volatile( 224 1.8 cl "btl %2,%1 ;" 225 1.8 cl "sbbl %0,%0" 226 1.8 cl :"=r" (result) 227 1.8 cl :"m" (*(volatile uint32_t *)(ptr)), "Ir" (bitno)); 228 1.8 cl return result; 229 1.8 cl } 230 1.8 cl 231 1.8 cl #define x86_atomic_test_bit(ptr, bitno) \ 232 1.8 cl (__builtin_constant_p(bitno) ? \ 233 1.8 cl x86_constant_test_bit((ptr),(bitno)) : \ 234 1.9.4.1 kent x86_variable_test_bit((ptr),(bitno))) 235 1.8 cl 236 1.8 cl static __inline void 237 1.8 cl x86_atomic_set_bit(volatile void *ptr, int bitno) 238 1.8 cl { 239 1.8 cl __asm __volatile(__LOCK_PREFIX 240 1.8 cl "btsl %1,%0" 241 1.8 cl :"=m" (*(volatile uint32_t *)(ptr)) 242 1.8 cl :"Ir" (bitno)); 243 1.8 cl } 244 1.8 cl 245 1.8 cl static __inline void 246 1.8 cl x86_atomic_clear_bit(volatile void *ptr, int bitno) 247 1.8 cl { 248 1.8 cl __asm __volatile(__LOCK_PREFIX 249 1.8 cl "btrl %1,%0" 250 1.8 cl :"=m" (*(volatile uint32_t *)(ptr)) 251 1.8 cl :"Ir" (bitno)); 252 1.1 cl } 253 1.1 cl 254 1.9.4.1 kent static __inline void 255 1.9.4.1 kent wbinvd(void) 256 1.9.4.1 kent { 257 1.9.4.1 kent xpq_flush_cache(); 258 1.9.4.1 kent } 259 1.9.4.1 kent 260 1.1 cl #endif /* !__ASSEMBLY__ */ 261 1.1 cl 262 1.1 cl #endif /* _OS_H_ */ 263
Indexes created Sat Oct 18 17:09:52 GMT 2025