vmbus.c revision 1.4.2.2
1 1.4.2.2 martin /* $NetBSD: vmbus.c,v 1.4.2.2 2021/02/04 17:04:14 martin Exp $ */ 2 1.1 nonaka /* $OpenBSD: hyperv.c,v 1.43 2017/06/27 13:56:15 mikeb Exp $ */ 3 1.1 nonaka 4 1.1 nonaka /*- 5 1.1 nonaka * Copyright (c) 2009-2012 Microsoft Corp. 6 1.1 nonaka * Copyright (c) 2012 NetApp Inc. 7 1.1 nonaka * Copyright (c) 2012 Citrix Inc. 8 1.1 nonaka * Copyright (c) 2016 Mike Belopuhov <mike (at) esdenera.com> 9 1.1 nonaka * All rights reserved. 10 1.1 nonaka * 11 1.1 nonaka * Redistribution and use in source and binary forms, with or without 12 1.1 nonaka * modification, are permitted provided that the following conditions 13 1.1 nonaka * are met: 14 1.1 nonaka * 1. Redistributions of source code must retain the above copyright 15 1.1 nonaka * notice unmodified, this list of conditions, and the following 16 1.1 nonaka * disclaimer. 17 1.1 nonaka * 2. Redistributions in binary form must reproduce the above copyright 18 1.1 nonaka * notice, this list of conditions and the following disclaimer in the 19 1.1 nonaka * documentation and/or other materials provided with the distribution. 20 1.1 nonaka * 21 1.1 nonaka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 nonaka * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 nonaka * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 nonaka * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 nonaka * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 nonaka * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 nonaka * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 nonaka * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 nonaka * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 30 1.1 nonaka * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 nonaka */ 32 1.1 nonaka 33 1.1 nonaka /* 34 1.1 nonaka * The OpenBSD port was done under funding by Esdenera Networks GmbH. 35 1.1 nonaka */ 36 1.1 nonaka 37 1.1 nonaka #include <sys/cdefs.h> 38 1.4.2.2 martin __KERNEL_RCSID(0, "$NetBSD: vmbus.c,v 1.4.2.2 2021/02/04 17:04:14 martin Exp $"); 39 1.1 nonaka 40 1.1 nonaka #include <sys/param.h> 41 1.1 nonaka #include <sys/systm.h> 42 1.1 nonaka #include <sys/device.h> 43 1.1 nonaka #include <sys/atomic.h> 44 1.1 nonaka #include <sys/bitops.h> 45 1.1 nonaka #include <sys/bus.h> 46 1.1 nonaka #include <sys/cpu.h> 47 1.1 nonaka #include <sys/intr.h> 48 1.1 nonaka #include <sys/kmem.h> 49 1.1 nonaka #include <sys/module.h> 50 1.1 nonaka #include <sys/mutex.h> 51 1.1 nonaka #include <sys/xcall.h> 52 1.1 nonaka 53 1.1 nonaka #include <uvm/uvm_extern.h> 54 1.1 nonaka 55 1.1 nonaka #include <dev/hyperv/vmbusvar.h> 56 1.1 nonaka 57 1.1 nonaka #define VMBUS_GPADL_START 0xffff /* 0x10000 effectively */ 58 1.1 nonaka 59 1.1 nonaka /* Command submission flags */ 60 1.1 nonaka #define HCF_SLEEPOK 0x0000 61 1.1 nonaka #define HCF_NOSLEEP 0x0002 /* M_NOWAIT */ 62 1.1 nonaka #define HCF_NOREPLY 0x0004 63 1.1 nonaka 64 1.1 nonaka static void vmbus_attach_deferred(device_t); 65 1.1 nonaka static int vmbus_alloc_dma(struct vmbus_softc *); 66 1.1 nonaka static void vmbus_free_dma(struct vmbus_softc *); 67 1.1 nonaka static int vmbus_init_interrupts(struct vmbus_softc *); 68 1.1 nonaka static void vmbus_deinit_interrupts(struct vmbus_softc *); 69 1.1 nonaka static void vmbus_init_synic(void *, void *); 70 1.1 nonaka static void vmbus_deinit_synic(void *, void *); 71 1.1 nonaka 72 1.1 nonaka static int vmbus_connect(struct vmbus_softc *); 73 1.1 nonaka static int vmbus_cmd(struct vmbus_softc *, void *, size_t, void *, size_t, 74 1.1 nonaka int); 75 1.1 nonaka static int vmbus_start(struct vmbus_softc *, struct vmbus_msg *, paddr_t); 76 1.1 nonaka static int vmbus_reply(struct vmbus_softc *, struct vmbus_msg *); 77 1.1 nonaka static void vmbus_wait(struct vmbus_softc *, 78 1.1 nonaka int (*done)(struct vmbus_softc *, struct vmbus_msg *), 79 1.1 nonaka struct vmbus_msg *, void *, const char *); 80 1.1 nonaka static uint16_t vmbus_intr_signal(struct vmbus_softc *, paddr_t); 81 1.1 nonaka static void vmbus_event_proc(void *, struct cpu_info *); 82 1.1 nonaka static void vmbus_event_proc_compat(void *, struct cpu_info *); 83 1.1 nonaka static void vmbus_message_proc(void *, struct cpu_info *); 84 1.1 nonaka static void vmbus_message_softintr(void *); 85 1.1 nonaka static void vmbus_channel_response(struct vmbus_softc *, 86 1.1 nonaka struct vmbus_chanmsg_hdr *); 87 1.1 nonaka static void vmbus_channel_offer(struct vmbus_softc *, 88 1.1 nonaka struct vmbus_chanmsg_hdr *); 89 1.1 nonaka static void vmbus_channel_rescind(struct vmbus_softc *, 90 1.1 nonaka struct vmbus_chanmsg_hdr *); 91 1.1 nonaka static void vmbus_channel_delivered(struct vmbus_softc *, 92 1.1 nonaka struct vmbus_chanmsg_hdr *); 93 1.1 nonaka static int vmbus_channel_scan(struct vmbus_softc *); 94 1.1 nonaka static void vmbus_channel_cpu_default(struct vmbus_channel *); 95 1.1 nonaka static void vmbus_process_offer(struct vmbus_softc *, struct vmbus_offer *); 96 1.1 nonaka static struct vmbus_channel * 97 1.1 nonaka vmbus_channel_lookup(struct vmbus_softc *, uint32_t); 98 1.1 nonaka static int vmbus_channel_ring_create(struct vmbus_channel *, uint32_t); 99 1.1 nonaka static void vmbus_channel_ring_destroy(struct vmbus_channel *); 100 1.1 nonaka static void vmbus_channel_pause(struct vmbus_channel *); 101 1.1 nonaka static uint32_t vmbus_channel_unpause(struct vmbus_channel *); 102 1.1 nonaka static uint32_t vmbus_channel_ready(struct vmbus_channel *); 103 1.1 nonaka static int vmbus_attach_icdevs(struct vmbus_softc *); 104 1.1 nonaka static int vmbus_attach_devices(struct vmbus_softc *); 105 1.1 nonaka 106 1.1 nonaka static struct vmbus_softc *vmbus_sc; 107 1.1 nonaka 108 1.1 nonaka static const struct { 109 1.1 nonaka int hmd_response; 110 1.1 nonaka int hmd_request; 111 1.1 nonaka void (*hmd_handler)(struct vmbus_softc *, 112 1.1 nonaka struct vmbus_chanmsg_hdr *); 113 1.1 nonaka } vmbus_msg_dispatch[] = { 114 1.1 nonaka { 0, 0, NULL }, 115 1.1 nonaka { VMBUS_CHANMSG_CHOFFER, 0, vmbus_channel_offer }, 116 1.1 nonaka { VMBUS_CHANMSG_CHRESCIND, 0, vmbus_channel_rescind }, 117 1.1 nonaka { VMBUS_CHANMSG_CHREQUEST, VMBUS_CHANMSG_CHOFFER, NULL }, 118 1.1 nonaka { VMBUS_CHANMSG_CHOFFER_DONE, 0, vmbus_channel_delivered }, 119 1.1 nonaka { VMBUS_CHANMSG_CHOPEN, 0, NULL }, 120 1.1 nonaka { VMBUS_CHANMSG_CHOPEN_RESP, VMBUS_CHANMSG_CHOPEN, 121 1.1 nonaka vmbus_channel_response }, 122 1.1 nonaka { VMBUS_CHANMSG_CHCLOSE, 0, NULL }, 123 1.1 nonaka { VMBUS_CHANMSG_GPADL_CONN, 0, NULL }, 124 1.1 nonaka { VMBUS_CHANMSG_GPADL_SUBCONN, 0, NULL }, 125 1.1 nonaka { VMBUS_CHANMSG_GPADL_CONNRESP, VMBUS_CHANMSG_GPADL_CONN, 126 1.1 nonaka vmbus_channel_response }, 127 1.1 nonaka { VMBUS_CHANMSG_GPADL_DISCONN, 0, NULL }, 128 1.1 nonaka { VMBUS_CHANMSG_GPADL_DISCONNRESP, VMBUS_CHANMSG_GPADL_DISCONN, 129 1.1 nonaka vmbus_channel_response }, 130 1.1 nonaka { VMBUS_CHANMSG_CHFREE, 0, NULL }, 131 1.1 nonaka { VMBUS_CHANMSG_CONNECT, 0, NULL }, 132 1.1 nonaka { VMBUS_CHANMSG_CONNECT_RESP, VMBUS_CHANMSG_CONNECT, 133 1.1 nonaka vmbus_channel_response }, 134 1.1 nonaka { VMBUS_CHANMSG_DISCONNECT, 0, NULL }, 135 1.1 nonaka }; 136 1.1 nonaka 137 1.1 nonaka const struct hyperv_guid hyperv_guid_network = { 138 1.1 nonaka { 0x63, 0x51, 0x61, 0xf8, 0x3e, 0xdf, 0xc5, 0x46, 139 1.1 nonaka 0x91, 0x3f, 0xf2, 0xd2, 0xf9, 0x65, 0xed, 0x0e } 140 1.1 nonaka }; 141 1.1 nonaka 142 1.1 nonaka const struct hyperv_guid hyperv_guid_ide = { 143 1.1 nonaka { 0x32, 0x26, 0x41, 0x32, 0xcb, 0x86, 0xa2, 0x44, 144 1.1 nonaka 0x9b, 0x5c, 0x50, 0xd1, 0x41, 0x73, 0x54, 0xf5 } 145 1.1 nonaka }; 146 1.1 nonaka 147 1.1 nonaka const struct hyperv_guid hyperv_guid_scsi = { 148 1.1 nonaka { 0xd9, 0x63, 0x61, 0xba, 0xa1, 0x04, 0x29, 0x4d, 149 1.1 nonaka 0xb6, 0x05, 0x72, 0xe2, 0xff, 0xb1, 0xdc, 0x7f } 150 1.1 nonaka }; 151 1.1 nonaka 152 1.1 nonaka const struct hyperv_guid hyperv_guid_shutdown = { 153 1.1 nonaka { 0x31, 0x60, 0x0b, 0x0e, 0x13, 0x52, 0x34, 0x49, 154 1.1 nonaka 0x81, 0x8b, 0x38, 0xd9, 0x0c, 0xed, 0x39, 0xdb } 155 1.1 nonaka }; 156 1.1 nonaka 157 1.1 nonaka const struct hyperv_guid hyperv_guid_timesync = { 158 1.1 nonaka { 0x30, 0xe6, 0x27, 0x95, 0xae, 0xd0, 0x7b, 0x49, 159 1.1 nonaka 0xad, 0xce, 0xe8, 0x0a, 0xb0, 0x17, 0x5c, 0xaf } 160 1.1 nonaka }; 161 1.1 nonaka 162 1.1 nonaka const struct hyperv_guid hyperv_guid_heartbeat = { 163 1.1 nonaka { 0x39, 0x4f, 0x16, 0x57, 0x15, 0x91, 0x78, 0x4e, 164 1.1 nonaka 0xab, 0x55, 0x38, 0x2f, 0x3b, 0xd5, 0x42, 0x2d } 165 1.1 nonaka }; 166 1.1 nonaka 167 1.1 nonaka const struct hyperv_guid hyperv_guid_kvp = { 168 1.1 nonaka { 0xe7, 0xf4, 0xa0, 0xa9, 0x45, 0x5a, 0x96, 0x4d, 169 1.1 nonaka 0xb8, 0x27, 0x8a, 0x84, 0x1e, 0x8c, 0x03, 0xe6 } 170 1.1 nonaka }; 171 1.1 nonaka 172 1.1 nonaka const struct hyperv_guid hyperv_guid_vss = { 173 1.1 nonaka { 0x29, 0x2e, 0xfa, 0x35, 0x23, 0xea, 0x36, 0x42, 174 1.1 nonaka 0x96, 0xae, 0x3a, 0x6e, 0xba, 0xcb, 0xa4, 0x40 } 175 1.1 nonaka }; 176 1.1 nonaka 177 1.1 nonaka const struct hyperv_guid hyperv_guid_dynmem = { 178 1.1 nonaka { 0xdc, 0x74, 0x50, 0x52, 0x85, 0x89, 0xe2, 0x46, 179 1.1 nonaka 0x80, 0x57, 0xa3, 0x07, 0xdc, 0x18, 0xa5, 0x02 } 180 1.1 nonaka }; 181 1.1 nonaka 182 1.1 nonaka const struct hyperv_guid hyperv_guid_mouse = { 183 1.1 nonaka { 0x9e, 0xb6, 0xa8, 0xcf, 0x4a, 0x5b, 0xc0, 0x4c, 184 1.1 nonaka 0xb9, 0x8b, 0x8b, 0xa1, 0xa1, 0xf3, 0xf9, 0x5a } 185 1.1 nonaka }; 186 1.1 nonaka 187 1.1 nonaka const struct hyperv_guid hyperv_guid_kbd = { 188 1.1 nonaka { 0x6d, 0xad, 0x12, 0xf9, 0x17, 0x2b, 0xea, 0x48, 189 1.1 nonaka 0xbd, 0x65, 0xf9, 0x27, 0xa6, 0x1c, 0x76, 0x84 } 190 1.1 nonaka }; 191 1.1 nonaka 192 1.1 nonaka const struct hyperv_guid hyperv_guid_video = { 193 1.1 nonaka { 0x02, 0x78, 0x0a, 0xda, 0x77, 0xe3, 0xac, 0x4a, 194 1.1 nonaka 0x8e, 0x77, 0x05, 0x58, 0xeb, 0x10, 0x73, 0xf8 } 195 1.1 nonaka }; 196 1.1 nonaka 197 1.1 nonaka const struct hyperv_guid hyperv_guid_fc = { 198 1.1 nonaka { 0x4a, 0xcc, 0x9b, 0x2f, 0x69, 0x00, 0xf3, 0x4a, 199 1.1 nonaka 0xb7, 0x6b, 0x6f, 0xd0, 0xbe, 0x52, 0x8c, 0xda } 200 1.1 nonaka }; 201 1.1 nonaka 202 1.1 nonaka const struct hyperv_guid hyperv_guid_fcopy = { 203 1.1 nonaka { 0xe3, 0x4b, 0xd1, 0x34, 0xe4, 0xde, 0xc8, 0x41, 204 1.1 nonaka 0x9a, 0xe7, 0x6b, 0x17, 0x49, 0x77, 0xc1, 0x92 } 205 1.1 nonaka }; 206 1.1 nonaka 207 1.1 nonaka const struct hyperv_guid hyperv_guid_pcie = { 208 1.1 nonaka { 0x1d, 0xf6, 0xc4, 0x44, 0x44, 0x44, 0x00, 0x44, 209 1.1 nonaka 0x9d, 0x52, 0x80, 0x2e, 0x27, 0xed, 0xe1, 0x9f } 210 1.1 nonaka }; 211 1.1 nonaka 212 1.1 nonaka const struct hyperv_guid hyperv_guid_netdir = { 213 1.1 nonaka { 0x3d, 0xaf, 0x2e, 0x8c, 0xa7, 0x32, 0x09, 0x4b, 214 1.1 nonaka 0xab, 0x99, 0xbd, 0x1f, 0x1c, 0x86, 0xb5, 0x01 } 215 1.1 nonaka }; 216 1.1 nonaka 217 1.1 nonaka const struct hyperv_guid hyperv_guid_rdesktop = { 218 1.1 nonaka { 0xf4, 0xac, 0x6a, 0x27, 0x15, 0xac, 0x6c, 0x42, 219 1.1 nonaka 0x98, 0xdd, 0x75, 0x21, 0xad, 0x3f, 0x01, 0xfe } 220 1.1 nonaka }; 221 1.1 nonaka 222 1.1 nonaka /* Automatic Virtual Machine Activation (AVMA) Services */ 223 1.1 nonaka const struct hyperv_guid hyperv_guid_avma1 = { 224 1.1 nonaka { 0x55, 0xb2, 0x87, 0x44, 0x8c, 0xb8, 0x3f, 0x40, 225 1.1 nonaka 0xbb, 0x51, 0xd1, 0xf6, 0x9c, 0xf1, 0x7f, 0x87 } 226 1.1 nonaka }; 227 1.1 nonaka 228 1.1 nonaka const struct hyperv_guid hyperv_guid_avma2 = { 229 1.1 nonaka { 0xf4, 0xba, 0x75, 0x33, 0x15, 0x9e, 0x30, 0x4b, 230 1.1 nonaka 0xb7, 0x65, 0x67, 0xac, 0xb1, 0x0d, 0x60, 0x7b } 231 1.1 nonaka }; 232 1.1 nonaka 233 1.1 nonaka const struct hyperv_guid hyperv_guid_avma3 = { 234 1.1 nonaka { 0xa0, 0x1f, 0x22, 0x99, 0xad, 0x24, 0xe2, 0x11, 235 1.1 nonaka 0xbe, 0x98, 0x00, 0x1a, 0xa0, 0x1b, 0xbf, 0x6e } 236 1.1 nonaka }; 237 1.1 nonaka 238 1.1 nonaka const struct hyperv_guid hyperv_guid_avma4 = { 239 1.1 nonaka { 0x16, 0x57, 0xe6, 0xf8, 0xb3, 0x3c, 0x06, 0x4a, 240 1.1 nonaka 0x9a, 0x60, 0x18, 0x89, 0xc5, 0xcc, 0xca, 0xb5 } 241 1.1 nonaka }; 242 1.1 nonaka 243 1.1 nonaka int 244 1.1 nonaka vmbus_match(device_t parent, cfdata_t cf, void *aux) 245 1.1 nonaka { 246 1.1 nonaka 247 1.1 nonaka if (cf->cf_unit != 0 || 248 1.1 nonaka !hyperv_hypercall_enabled() || 249 1.1 nonaka !hyperv_synic_supported()) 250 1.1 nonaka return 0; 251 1.1 nonaka 252 1.1 nonaka return 1; 253 1.1 nonaka } 254 1.1 nonaka 255 1.1 nonaka int 256 1.1 nonaka vmbus_attach(struct vmbus_softc *sc) 257 1.1 nonaka { 258 1.1 nonaka 259 1.1 nonaka aprint_naive("\n"); 260 1.1 nonaka aprint_normal(": Hyper-V VMBus\n"); 261 1.1 nonaka 262 1.1 nonaka vmbus_sc = sc; 263 1.1 nonaka 264 1.1 nonaka sc->sc_msgpool = pool_cache_init(sizeof(struct vmbus_msg), 8, 0, 0, 265 1.1 nonaka "hvmsg", NULL, IPL_NET, NULL, NULL, NULL); 266 1.1 nonaka hyperv_set_message_proc(vmbus_message_proc, sc); 267 1.1 nonaka 268 1.1 nonaka if (vmbus_alloc_dma(sc)) 269 1.1 nonaka goto cleanup; 270 1.1 nonaka 271 1.1 nonaka if (vmbus_init_interrupts(sc)) 272 1.1 nonaka goto cleanup; 273 1.1 nonaka 274 1.1 nonaka if (vmbus_connect(sc)) 275 1.1 nonaka goto cleanup; 276 1.1 nonaka 277 1.1 nonaka aprint_normal_dev(sc->sc_dev, "protocol %d.%d\n", 278 1.1 nonaka VMBUS_VERSION_MAJOR(sc->sc_proto), 279 1.1 nonaka VMBUS_VERSION_MINOR(sc->sc_proto)); 280 1.1 nonaka 281 1.1 nonaka if (sc->sc_proto == VMBUS_VERSION_WS2008 || 282 1.1 nonaka sc->sc_proto == VMBUS_VERSION_WIN7) { 283 1.1 nonaka hyperv_set_event_proc(vmbus_event_proc_compat, sc); 284 1.1 nonaka sc->sc_channel_max = VMBUS_CHAN_MAX_COMPAT; 285 1.1 nonaka } else { 286 1.1 nonaka hyperv_set_event_proc(vmbus_event_proc, sc); 287 1.1 nonaka sc->sc_channel_max = VMBUS_CHAN_MAX; 288 1.1 nonaka } 289 1.1 nonaka 290 1.1 nonaka if (vmbus_channel_scan(sc)) 291 1.1 nonaka goto cleanup; 292 1.1 nonaka 293 1.1 nonaka /* Attach heartbeat, KVP and other "internal" services */ 294 1.1 nonaka vmbus_attach_icdevs(sc); 295 1.1 nonaka 296 1.1 nonaka /* Attach devices with external drivers */ 297 1.1 nonaka vmbus_attach_devices(sc); 298 1.1 nonaka 299 1.1 nonaka config_interrupts(sc->sc_dev, vmbus_attach_deferred); 300 1.1 nonaka 301 1.1 nonaka return 0; 302 1.1 nonaka 303 1.1 nonaka cleanup: 304 1.1 nonaka vmbus_deinit_interrupts(sc); 305 1.1 nonaka vmbus_free_dma(sc); 306 1.1 nonaka return -1; 307 1.1 nonaka } 308 1.1 nonaka 309 1.1 nonaka static void 310 1.1 nonaka vmbus_attach_deferred(device_t self) 311 1.1 nonaka { 312 1.1 nonaka struct vmbus_softc *sc = device_private(self); 313 1.1 nonaka 314 1.1 nonaka xc_wait(xc_broadcast(0, vmbus_init_synic, sc, NULL)); 315 1.1 nonaka } 316 1.1 nonaka 317 1.1 nonaka int 318 1.1 nonaka vmbus_detach(struct vmbus_softc *sc, int flags) 319 1.1 nonaka { 320 1.1 nonaka 321 1.1 nonaka vmbus_deinit_interrupts(sc); 322 1.1 nonaka vmbus_free_dma(sc); 323 1.1 nonaka 324 1.1 nonaka return 0; 325 1.1 nonaka } 326 1.1 nonaka 327 1.1 nonaka static int 328 1.1 nonaka vmbus_alloc_dma(struct vmbus_softc *sc) 329 1.1 nonaka { 330 1.1 nonaka CPU_INFO_ITERATOR cii; 331 1.1 nonaka struct cpu_info *ci; 332 1.1 nonaka struct vmbus_percpu_data *pd; 333 1.1 nonaka int i; 334 1.1 nonaka 335 1.1 nonaka /* 336 1.1 nonaka * Per-CPU messages and event flags. 337 1.1 nonaka */ 338 1.1 nonaka for (CPU_INFO_FOREACH(cii, ci)) { 339 1.1 nonaka pd = &sc->sc_percpu[cpu_index(ci)]; 340 1.1 nonaka 341 1.1 nonaka pd->simp = hyperv_dma_alloc(sc->sc_dmat, &pd->simp_dma, 342 1.1 nonaka PAGE_SIZE, PAGE_SIZE, 0, 1); 343 1.1 nonaka if (pd->simp == NULL) 344 1.1 nonaka return ENOMEM; 345 1.1 nonaka 346 1.1 nonaka pd->siep = hyperv_dma_alloc(sc->sc_dmat, &pd->siep_dma, 347 1.1 nonaka PAGE_SIZE, PAGE_SIZE, 0, 1); 348 1.1 nonaka if (pd->siep == NULL) 349 1.1 nonaka return ENOMEM; 350 1.1 nonaka } 351 1.1 nonaka 352 1.1 nonaka sc->sc_events = hyperv_dma_alloc(sc->sc_dmat, &sc->sc_events_dma, 353 1.1 nonaka PAGE_SIZE, PAGE_SIZE, 0, 1); 354 1.1 nonaka if (sc->sc_events == NULL) 355 1.1 nonaka return ENOMEM; 356 1.1 nonaka sc->sc_wevents = (u_long *)sc->sc_events; 357 1.1 nonaka sc->sc_revents = (u_long *)((uint8_t *)sc->sc_events + (PAGE_SIZE / 2)); 358 1.1 nonaka 359 1.1 nonaka for (i = 0; i < __arraycount(sc->sc_monitor); i++) { 360 1.1 nonaka sc->sc_monitor[i] = hyperv_dma_alloc(sc->sc_dmat, 361 1.1 nonaka &sc->sc_monitor_dma[i], PAGE_SIZE, PAGE_SIZE, 0, 1); 362 1.1 nonaka if (sc->sc_monitor[i] == NULL) 363 1.1 nonaka return ENOMEM; 364 1.1 nonaka } 365 1.1 nonaka 366 1.1 nonaka return 0; 367 1.1 nonaka } 368 1.1 nonaka 369 1.1 nonaka static void 370 1.1 nonaka vmbus_free_dma(struct vmbus_softc *sc) 371 1.1 nonaka { 372 1.1 nonaka CPU_INFO_ITERATOR cii; 373 1.1 nonaka struct cpu_info *ci; 374 1.1 nonaka int i; 375 1.1 nonaka 376 1.1 nonaka if (sc->sc_events != NULL) { 377 1.1 nonaka sc->sc_events = sc->sc_wevents = sc->sc_revents = NULL; 378 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &sc->sc_events_dma); 379 1.1 nonaka } 380 1.1 nonaka 381 1.1 nonaka for (i = 0; i < __arraycount(sc->sc_monitor); i++) { 382 1.1 nonaka sc->sc_monitor[i] = NULL; 383 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &sc->sc_monitor_dma[i]); 384 1.1 nonaka } 385 1.1 nonaka 386 1.1 nonaka for (CPU_INFO_FOREACH(cii, ci)) { 387 1.1 nonaka struct vmbus_percpu_data *pd = &sc->sc_percpu[cpu_index(ci)]; 388 1.1 nonaka 389 1.1 nonaka if (pd->simp != NULL) { 390 1.1 nonaka pd->simp = NULL; 391 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &pd->simp_dma); 392 1.1 nonaka } 393 1.1 nonaka if (pd->siep != NULL) { 394 1.1 nonaka pd->siep = NULL; 395 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &pd->siep_dma); 396 1.1 nonaka } 397 1.1 nonaka } 398 1.1 nonaka } 399 1.1 nonaka 400 1.1 nonaka static int 401 1.1 nonaka vmbus_init_interrupts(struct vmbus_softc *sc) 402 1.1 nonaka { 403 1.1 nonaka 404 1.1 nonaka TAILQ_INIT(&sc->sc_reqs); 405 1.1 nonaka mutex_init(&sc->sc_req_lock, MUTEX_DEFAULT, IPL_NET); 406 1.1 nonaka 407 1.1 nonaka TAILQ_INIT(&sc->sc_rsps); 408 1.1 nonaka mutex_init(&sc->sc_rsp_lock, MUTEX_DEFAULT, IPL_NET); 409 1.1 nonaka 410 1.1 nonaka sc->sc_proto = VMBUS_VERSION_WS2008; 411 1.1 nonaka 412 1.1 nonaka /* XXX event_tq */ 413 1.1 nonaka 414 1.1 nonaka sc->sc_msg_sih = softint_establish(SOFTINT_NET | SOFTINT_MPSAFE, 415 1.1 nonaka vmbus_message_softintr, sc); 416 1.1 nonaka if (sc->sc_msg_sih == NULL) 417 1.1 nonaka return -1; 418 1.1 nonaka 419 1.1 nonaka vmbus_init_interrupts_md(sc); 420 1.1 nonaka 421 1.1 nonaka kcpuset_create(&sc->sc_intr_cpuset, true); 422 1.1 nonaka if (cold) { 423 1.1 nonaka /* Initialize other CPUs later. */ 424 1.1 nonaka vmbus_init_synic(sc, NULL); 425 1.1 nonaka } else 426 1.1 nonaka xc_wait(xc_broadcast(0, vmbus_init_synic, sc, NULL)); 427 1.1 nonaka atomic_or_32(&sc->sc_flags, VMBUS_SCFLAG_SYNIC); 428 1.1 nonaka 429 1.1 nonaka return 0; 430 1.1 nonaka } 431 1.1 nonaka 432 1.1 nonaka static void 433 1.1 nonaka vmbus_deinit_interrupts(struct vmbus_softc *sc) 434 1.1 nonaka { 435 1.1 nonaka 436 1.1 nonaka if (ISSET(sc->sc_flags, VMBUS_SCFLAG_SYNIC)) { 437 1.1 nonaka if (cold) 438 1.1 nonaka vmbus_deinit_synic(sc, NULL); 439 1.1 nonaka else 440 1.1 nonaka xc_wait(xc_broadcast(0, vmbus_deinit_synic, sc, NULL)); 441 1.1 nonaka atomic_and_32(&sc->sc_flags, (uint32_t)~VMBUS_SCFLAG_SYNIC); 442 1.1 nonaka } 443 1.1 nonaka 444 1.1 nonaka /* XXX event_tq */ 445 1.1 nonaka 446 1.1 nonaka if (sc->sc_msg_sih != NULL) { 447 1.1 nonaka softint_disestablish(sc->sc_msg_sih); 448 1.1 nonaka sc->sc_msg_sih = NULL; 449 1.1 nonaka } 450 1.1 nonaka 451 1.1 nonaka vmbus_deinit_interrupts_md(sc); 452 1.1 nonaka } 453 1.1 nonaka 454 1.1 nonaka static void 455 1.1 nonaka vmbus_init_synic(void *arg1, void *arg2) 456 1.1 nonaka { 457 1.1 nonaka struct vmbus_softc *sc = arg1; 458 1.1 nonaka cpuid_t cpu; 459 1.1 nonaka int s; 460 1.1 nonaka 461 1.1 nonaka s = splhigh(); 462 1.1 nonaka 463 1.1 nonaka cpu = cpu_index(curcpu()); 464 1.1 nonaka if (!kcpuset_isset(sc->sc_intr_cpuset, cpu)) { 465 1.1 nonaka kcpuset_atomic_set(sc->sc_intr_cpuset, cpu); 466 1.1 nonaka vmbus_init_synic_md(sc, cpu); 467 1.1 nonaka } 468 1.1 nonaka 469 1.1 nonaka splx(s); 470 1.1 nonaka } 471 1.1 nonaka 472 1.1 nonaka static void 473 1.1 nonaka vmbus_deinit_synic(void *arg1, void *arg2) 474 1.1 nonaka { 475 1.1 nonaka struct vmbus_softc *sc = arg1; 476 1.1 nonaka cpuid_t cpu; 477 1.1 nonaka int s; 478 1.1 nonaka 479 1.1 nonaka s = splhigh(); 480 1.1 nonaka 481 1.1 nonaka cpu = cpu_index(curcpu()); 482 1.1 nonaka if (kcpuset_isset(sc->sc_intr_cpuset, cpu)) { 483 1.1 nonaka vmbus_deinit_synic_md(sc, cpu); 484 1.1 nonaka kcpuset_atomic_clear(sc->sc_intr_cpuset, cpu); 485 1.1 nonaka } 486 1.1 nonaka 487 1.1 nonaka splx(s); 488 1.1 nonaka } 489 1.1 nonaka 490 1.1 nonaka static int 491 1.1 nonaka vmbus_connect(struct vmbus_softc *sc) 492 1.1 nonaka { 493 1.1 nonaka static const uint32_t versions[] = { 494 1.1 nonaka VMBUS_VERSION_WIN8_1, 495 1.1 nonaka VMBUS_VERSION_WIN8, 496 1.1 nonaka VMBUS_VERSION_WIN7, 497 1.1 nonaka VMBUS_VERSION_WS2008 498 1.1 nonaka }; 499 1.1 nonaka struct vmbus_chanmsg_connect cmd; 500 1.1 nonaka struct vmbus_chanmsg_connect_resp rsp; 501 1.1 nonaka int i, rv; 502 1.1 nonaka 503 1.1 nonaka memset(&cmd, 0, sizeof(cmd)); 504 1.1 nonaka cmd.chm_hdr.chm_type = VMBUS_CHANMSG_CONNECT; 505 1.1 nonaka cmd.chm_evtflags = hyperv_dma_get_paddr(&sc->sc_events_dma); 506 1.1 nonaka cmd.chm_mnf1 = hyperv_dma_get_paddr(&sc->sc_monitor_dma[0]); 507 1.1 nonaka cmd.chm_mnf2 = hyperv_dma_get_paddr(&sc->sc_monitor_dma[1]); 508 1.1 nonaka 509 1.1 nonaka memset(&rsp, 0, sizeof(rsp)); 510 1.1 nonaka 511 1.1 nonaka for (i = 0; i < __arraycount(versions); i++) { 512 1.1 nonaka cmd.chm_ver = versions[i]; 513 1.1 nonaka rv = vmbus_cmd(sc, &cmd, sizeof(cmd), &rsp, sizeof(rsp), 514 1.1 nonaka cold ? HCF_NOSLEEP : HCF_SLEEPOK); 515 1.1 nonaka if (rv) { 516 1.1 nonaka DPRINTF("%s: CONNECT failed\n", 517 1.1 nonaka device_xname(sc->sc_dev)); 518 1.1 nonaka return rv; 519 1.1 nonaka } 520 1.1 nonaka if (rsp.chm_done) { 521 1.1 nonaka atomic_or_32(&sc->sc_flags, VMBUS_SCFLAG_CONNECTED); 522 1.1 nonaka sc->sc_proto = versions[i]; 523 1.1 nonaka sc->sc_handle = VMBUS_GPADL_START; 524 1.1 nonaka break; 525 1.1 nonaka } 526 1.1 nonaka } 527 1.1 nonaka if (i == __arraycount(versions)) { 528 1.1 nonaka device_printf(sc->sc_dev, 529 1.1 nonaka "failed to negotiate protocol version\n"); 530 1.1 nonaka return ENXIO; 531 1.1 nonaka } 532 1.1 nonaka 533 1.1 nonaka return 0; 534 1.1 nonaka } 535 1.1 nonaka 536 1.1 nonaka static int 537 1.1 nonaka vmbus_cmd(struct vmbus_softc *sc, void *cmd, size_t cmdlen, void *rsp, 538 1.1 nonaka size_t rsplen, int flags) 539 1.1 nonaka { 540 1.1 nonaka const int prflags = cold ? PR_NOWAIT : PR_WAITOK; 541 1.1 nonaka struct vmbus_msg *msg; 542 1.1 nonaka paddr_t pa; 543 1.1 nonaka int rv; 544 1.1 nonaka 545 1.1 nonaka if (cmdlen > VMBUS_MSG_DSIZE_MAX) { 546 1.1 nonaka device_printf(sc->sc_dev, "payload too large (%zu)\n", 547 1.1 nonaka cmdlen); 548 1.1 nonaka return EMSGSIZE; 549 1.1 nonaka } 550 1.1 nonaka 551 1.1 nonaka msg = pool_cache_get_paddr(sc->sc_msgpool, prflags, &pa); 552 1.1 nonaka if (msg == NULL) { 553 1.1 nonaka device_printf(sc->sc_dev, "couldn't get msgpool\n"); 554 1.1 nonaka return ENOMEM; 555 1.1 nonaka } 556 1.1 nonaka memset(msg, 0, sizeof(*msg)); 557 1.1 nonaka msg->msg_req.hc_dsize = cmdlen; 558 1.1 nonaka memcpy(msg->msg_req.hc_data, cmd, cmdlen); 559 1.1 nonaka 560 1.1 nonaka if (!(flags & HCF_NOREPLY)) { 561 1.1 nonaka msg->msg_rsp = rsp; 562 1.1 nonaka msg->msg_rsplen = rsplen; 563 1.1 nonaka } else 564 1.1 nonaka msg->msg_flags |= MSGF_NOQUEUE; 565 1.1 nonaka 566 1.1 nonaka if (flags & HCF_NOSLEEP) 567 1.1 nonaka msg->msg_flags |= MSGF_NOSLEEP; 568 1.1 nonaka 569 1.1 nonaka rv = vmbus_start(sc, msg, pa); 570 1.1 nonaka if (rv == 0) 571 1.1 nonaka rv = vmbus_reply(sc, msg); 572 1.1 nonaka pool_cache_put_paddr(sc->sc_msgpool, msg, pa); 573 1.1 nonaka return rv; 574 1.1 nonaka } 575 1.1 nonaka 576 1.1 nonaka static int 577 1.1 nonaka vmbus_start(struct vmbus_softc *sc, struct vmbus_msg *msg, paddr_t msg_pa) 578 1.1 nonaka { 579 1.1 nonaka static const int delays[] = { 580 1.1 nonaka 100, 100, 100, 500, 500, 5000, 5000, 5000 581 1.1 nonaka }; 582 1.1 nonaka const char *wchan = "hvstart"; 583 1.1 nonaka uint16_t status; 584 1.1 nonaka int i, s; 585 1.1 nonaka 586 1.1 nonaka msg->msg_req.hc_connid = VMBUS_CONNID_MESSAGE; 587 1.1 nonaka msg->msg_req.hc_msgtype = 1; 588 1.1 nonaka 589 1.1 nonaka if (!(msg->msg_flags & MSGF_NOQUEUE)) { 590 1.1 nonaka mutex_enter(&sc->sc_req_lock); 591 1.1 nonaka TAILQ_INSERT_TAIL(&sc->sc_reqs, msg, msg_entry); 592 1.1 nonaka mutex_exit(&sc->sc_req_lock); 593 1.1 nonaka } 594 1.1 nonaka 595 1.1 nonaka for (i = 0; i < __arraycount(delays); i++) { 596 1.1 nonaka status = hyperv_hypercall_post_message( 597 1.1 nonaka msg_pa + offsetof(struct vmbus_msg, msg_req)); 598 1.1 nonaka if (status == HYPERCALL_STATUS_SUCCESS) 599 1.1 nonaka break; 600 1.1 nonaka 601 1.1 nonaka if (msg->msg_flags & MSGF_NOSLEEP) { 602 1.1 nonaka delay(delays[i]); 603 1.1 nonaka s = splnet(); 604 1.1 nonaka hyperv_intr(); 605 1.1 nonaka splx(s); 606 1.1 nonaka } else 607 1.4.2.2 martin tsleep(wchan, PRIBIO, wchan, 608 1.4.2.2 martin uimax(1, mstohz(delays[i] / 1000))); 609 1.1 nonaka } 610 1.1 nonaka if (status != HYPERCALL_STATUS_SUCCESS) { 611 1.1 nonaka device_printf(sc->sc_dev, 612 1.1 nonaka "posting vmbus message failed with %d\n", status); 613 1.1 nonaka if (!(msg->msg_flags & MSGF_NOQUEUE)) { 614 1.1 nonaka mutex_enter(&sc->sc_req_lock); 615 1.1 nonaka TAILQ_REMOVE(&sc->sc_reqs, msg, msg_entry); 616 1.1 nonaka mutex_exit(&sc->sc_req_lock); 617 1.1 nonaka } 618 1.1 nonaka return EIO; 619 1.1 nonaka } 620 1.1 nonaka 621 1.1 nonaka return 0; 622 1.1 nonaka } 623 1.1 nonaka 624 1.1 nonaka static int 625 1.1 nonaka vmbus_reply_done(struct vmbus_softc *sc, struct vmbus_msg *msg) 626 1.1 nonaka { 627 1.1 nonaka struct vmbus_msg *m; 628 1.1 nonaka 629 1.1 nonaka mutex_enter(&sc->sc_rsp_lock); 630 1.1 nonaka TAILQ_FOREACH(m, &sc->sc_rsps, msg_entry) { 631 1.1 nonaka if (m == msg) { 632 1.1 nonaka mutex_exit(&sc->sc_rsp_lock); 633 1.1 nonaka return 1; 634 1.1 nonaka } 635 1.1 nonaka } 636 1.1 nonaka mutex_exit(&sc->sc_rsp_lock); 637 1.1 nonaka return 0; 638 1.1 nonaka } 639 1.1 nonaka 640 1.1 nonaka static int 641 1.1 nonaka vmbus_reply(struct vmbus_softc *sc, struct vmbus_msg *msg) 642 1.1 nonaka { 643 1.1 nonaka 644 1.1 nonaka if (msg->msg_flags & MSGF_NOQUEUE) 645 1.1 nonaka return 0; 646 1.1 nonaka 647 1.1 nonaka vmbus_wait(sc, vmbus_reply_done, msg, msg, "hvreply"); 648 1.1 nonaka 649 1.1 nonaka mutex_enter(&sc->sc_rsp_lock); 650 1.1 nonaka TAILQ_REMOVE(&sc->sc_rsps, msg, msg_entry); 651 1.1 nonaka mutex_exit(&sc->sc_rsp_lock); 652 1.1 nonaka 653 1.1 nonaka return 0; 654 1.1 nonaka } 655 1.1 nonaka 656 1.1 nonaka static void 657 1.1 nonaka vmbus_wait(struct vmbus_softc *sc, 658 1.1 nonaka int (*cond)(struct vmbus_softc *, struct vmbus_msg *), 659 1.1 nonaka struct vmbus_msg *msg, void *wchan, const char *wmsg) 660 1.1 nonaka { 661 1.1 nonaka int s; 662 1.1 nonaka 663 1.1 nonaka while (!cond(sc, msg)) { 664 1.1 nonaka if (msg->msg_flags & MSGF_NOSLEEP) { 665 1.1 nonaka delay(1000); 666 1.1 nonaka s = splnet(); 667 1.1 nonaka hyperv_intr(); 668 1.1 nonaka splx(s); 669 1.1 nonaka } else 670 1.4.2.1 martin tsleep(wchan, PRIBIO, wmsg ? wmsg : "hvwait", 671 1.4.2.2 martin uimax(1, mstohz(1))); 672 1.1 nonaka } 673 1.1 nonaka } 674 1.1 nonaka 675 1.1 nonaka static uint16_t 676 1.1 nonaka vmbus_intr_signal(struct vmbus_softc *sc, paddr_t con_pa) 677 1.1 nonaka { 678 1.1 nonaka uint64_t status; 679 1.1 nonaka 680 1.1 nonaka status = hyperv_hypercall_signal_event(con_pa); 681 1.1 nonaka return (uint16_t)status; 682 1.1 nonaka } 683 1.1 nonaka 684 1.1 nonaka #if LONG_BIT == 64 685 1.1 nonaka #define ffsl(v) ffs64(v) 686 1.1 nonaka #elif LONG_BIT == 32 687 1.1 nonaka #define ffsl(v) ffs32(v) 688 1.1 nonaka #else 689 1.1 nonaka #error unsupport LONG_BIT 690 1.1 nonaka #endif /* LONG_BIT */ 691 1.1 nonaka 692 1.1 nonaka static void 693 1.1 nonaka vmbus_event_flags_proc(struct vmbus_softc *sc, volatile u_long *revents, 694 1.1 nonaka int maxrow) 695 1.1 nonaka { 696 1.1 nonaka struct vmbus_channel *ch; 697 1.1 nonaka u_long pending; 698 1.1 nonaka uint32_t chanid, chanid_base; 699 1.1 nonaka int row, chanid_ofs; 700 1.1 nonaka 701 1.1 nonaka for (row = 0; row < maxrow; row++) { 702 1.1 nonaka if (revents[row] == 0) 703 1.1 nonaka continue; 704 1.1 nonaka 705 1.1 nonaka pending = atomic_swap_ulong(&revents[row], 0); 706 1.1 nonaka chanid_base = row * LONG_BIT; 707 1.1 nonaka 708 1.1 nonaka while ((chanid_ofs = ffsl(pending)) != 0) { 709 1.1 nonaka chanid_ofs--; /* NOTE: ffs is 1-based */ 710 1.1 nonaka pending &= ~(1UL << chanid_ofs); 711 1.1 nonaka 712 1.1 nonaka chanid = chanid_base + chanid_ofs; 713 1.1 nonaka /* vmbus channel protocol message */ 714 1.1 nonaka if (chanid == 0) 715 1.1 nonaka continue; 716 1.1 nonaka 717 1.1 nonaka ch = vmbus_channel_lookup(sc, chanid); 718 1.1 nonaka if (ch == NULL) { 719 1.1 nonaka device_printf(sc->sc_dev, 720 1.1 nonaka "unhandled event on %d\n", chanid); 721 1.1 nonaka continue; 722 1.1 nonaka } 723 1.1 nonaka if (ch->ch_state != VMBUS_CHANSTATE_OPENED) { 724 1.1 nonaka device_printf(sc->sc_dev, 725 1.1 nonaka "channel %d is not active\n", chanid); 726 1.1 nonaka continue; 727 1.1 nonaka } 728 1.1 nonaka ch->ch_evcnt.ev_count++; 729 1.1 nonaka vmbus_channel_schedule(ch); 730 1.1 nonaka } 731 1.1 nonaka } 732 1.1 nonaka } 733 1.1 nonaka 734 1.1 nonaka static void 735 1.1 nonaka vmbus_event_proc(void *arg, struct cpu_info *ci) 736 1.1 nonaka { 737 1.1 nonaka struct vmbus_softc *sc = arg; 738 1.1 nonaka struct vmbus_evtflags *evt; 739 1.1 nonaka 740 1.1 nonaka /* 741 1.1 nonaka * On Host with Win8 or above, the event page can be 742 1.1 nonaka * checked directly to get the id of the channel 743 1.1 nonaka * that has the pending interrupt. 744 1.1 nonaka */ 745 1.1 nonaka evt = (struct vmbus_evtflags *)sc->sc_percpu[cpu_index(ci)].siep + 746 1.1 nonaka VMBUS_SINT_MESSAGE; 747 1.1 nonaka 748 1.1 nonaka vmbus_event_flags_proc(sc, evt->evt_flags, 749 1.1 nonaka __arraycount(evt->evt_flags)); 750 1.1 nonaka } 751 1.1 nonaka 752 1.1 nonaka static void 753 1.1 nonaka vmbus_event_proc_compat(void *arg, struct cpu_info *ci) 754 1.1 nonaka { 755 1.1 nonaka struct vmbus_softc *sc = arg; 756 1.1 nonaka struct vmbus_evtflags *evt; 757 1.1 nonaka 758 1.1 nonaka evt = (struct vmbus_evtflags *)sc->sc_percpu[cpu_index(ci)].siep + 759 1.1 nonaka VMBUS_SINT_MESSAGE; 760 1.1 nonaka 761 1.1 nonaka if (test_bit(0, &evt->evt_flags[0])) { 762 1.1 nonaka clear_bit(0, &evt->evt_flags[0]); 763 1.1 nonaka /* 764 1.1 nonaka * receive size is 1/2 page and divide that by 4 bytes 765 1.1 nonaka */ 766 1.1 nonaka vmbus_event_flags_proc(sc, sc->sc_revents, 767 1.1 nonaka VMBUS_CHAN_MAX_COMPAT / VMBUS_EVTFLAG_LEN); 768 1.1 nonaka } 769 1.1 nonaka } 770 1.1 nonaka 771 1.1 nonaka static void 772 1.1 nonaka vmbus_message_proc(void *arg, struct cpu_info *ci) 773 1.1 nonaka { 774 1.1 nonaka struct vmbus_softc *sc = arg; 775 1.1 nonaka struct vmbus_message *msg; 776 1.1 nonaka 777 1.1 nonaka msg = (struct vmbus_message *)sc->sc_percpu[cpu_index(ci)].simp + 778 1.1 nonaka VMBUS_SINT_MESSAGE; 779 1.1 nonaka if (__predict_false(msg->msg_type != HYPERV_MSGTYPE_NONE)) { 780 1.1 nonaka if (__predict_true(!cold)) 781 1.1 nonaka softint_schedule_cpu(sc->sc_msg_sih, ci); 782 1.1 nonaka else 783 1.1 nonaka vmbus_message_softintr(sc); 784 1.1 nonaka } 785 1.1 nonaka } 786 1.1 nonaka 787 1.1 nonaka static void 788 1.1 nonaka vmbus_message_softintr(void *arg) 789 1.1 nonaka { 790 1.1 nonaka struct vmbus_softc *sc = arg; 791 1.1 nonaka struct vmbus_message *msg; 792 1.1 nonaka struct vmbus_chanmsg_hdr *hdr; 793 1.1 nonaka uint32_t type; 794 1.1 nonaka cpuid_t cpu; 795 1.1 nonaka 796 1.1 nonaka cpu = cpu_index(curcpu()); 797 1.1 nonaka 798 1.1 nonaka for (;;) { 799 1.1 nonaka msg = (struct vmbus_message *)sc->sc_percpu[cpu].simp + 800 1.1 nonaka VMBUS_SINT_MESSAGE; 801 1.1 nonaka if (msg->msg_type == HYPERV_MSGTYPE_NONE) 802 1.1 nonaka break; 803 1.1 nonaka 804 1.1 nonaka hdr = (struct vmbus_chanmsg_hdr *)msg->msg_data; 805 1.1 nonaka type = hdr->chm_type; 806 1.1 nonaka if (type >= VMBUS_CHANMSG_COUNT) { 807 1.1 nonaka device_printf(sc->sc_dev, 808 1.1 nonaka "unhandled message type %u flags %#x\n", type, 809 1.1 nonaka msg->msg_flags); 810 1.1 nonaka } else { 811 1.1 nonaka if (vmbus_msg_dispatch[type].hmd_handler) { 812 1.1 nonaka vmbus_msg_dispatch[type].hmd_handler(sc, hdr); 813 1.1 nonaka } else { 814 1.1 nonaka device_printf(sc->sc_dev, 815 1.1 nonaka "unhandled message type %u\n", type); 816 1.1 nonaka } 817 1.1 nonaka } 818 1.1 nonaka 819 1.1 nonaka msg->msg_type = HYPERV_MSGTYPE_NONE; 820 1.1 nonaka membar_sync(); 821 1.1 nonaka if (msg->msg_flags & VMBUS_MSGFLAG_PENDING) 822 1.1 nonaka hyperv_send_eom(); 823 1.1 nonaka } 824 1.1 nonaka } 825 1.1 nonaka 826 1.1 nonaka static void 827 1.1 nonaka vmbus_channel_response(struct vmbus_softc *sc, struct vmbus_chanmsg_hdr *rsphdr) 828 1.1 nonaka { 829 1.1 nonaka struct vmbus_msg *msg; 830 1.1 nonaka struct vmbus_chanmsg_hdr *reqhdr; 831 1.1 nonaka int req; 832 1.1 nonaka 833 1.1 nonaka req = vmbus_msg_dispatch[rsphdr->chm_type].hmd_request; 834 1.1 nonaka mutex_enter(&sc->sc_req_lock); 835 1.1 nonaka TAILQ_FOREACH(msg, &sc->sc_reqs, msg_entry) { 836 1.1 nonaka reqhdr = (struct vmbus_chanmsg_hdr *)&msg->msg_req.hc_data; 837 1.1 nonaka if (reqhdr->chm_type == req) { 838 1.1 nonaka TAILQ_REMOVE(&sc->sc_reqs, msg, msg_entry); 839 1.1 nonaka break; 840 1.1 nonaka } 841 1.1 nonaka } 842 1.1 nonaka mutex_exit(&sc->sc_req_lock); 843 1.1 nonaka if (msg != NULL) { 844 1.1 nonaka memcpy(msg->msg_rsp, rsphdr, msg->msg_rsplen); 845 1.1 nonaka mutex_enter(&sc->sc_rsp_lock); 846 1.1 nonaka TAILQ_INSERT_TAIL(&sc->sc_rsps, msg, msg_entry); 847 1.1 nonaka mutex_exit(&sc->sc_rsp_lock); 848 1.1 nonaka wakeup(msg); 849 1.1 nonaka } 850 1.1 nonaka } 851 1.1 nonaka 852 1.1 nonaka static void 853 1.1 nonaka vmbus_channel_offer(struct vmbus_softc *sc, struct vmbus_chanmsg_hdr *hdr) 854 1.1 nonaka { 855 1.1 nonaka struct vmbus_offer *co; 856 1.1 nonaka 857 1.1 nonaka co = kmem_intr_zalloc(sizeof(*co), KM_NOSLEEP); 858 1.1 nonaka if (co == NULL) { 859 1.1 nonaka device_printf(sc->sc_dev, "couldn't allocate offer\n"); 860 1.1 nonaka return; 861 1.1 nonaka } 862 1.1 nonaka 863 1.1 nonaka memcpy(&co->co_chan, hdr, sizeof(co->co_chan)); 864 1.1 nonaka 865 1.1 nonaka mutex_enter(&sc->sc_offer_lock); 866 1.1 nonaka SIMPLEQ_INSERT_TAIL(&sc->sc_offers, co, co_entry); 867 1.1 nonaka mutex_exit(&sc->sc_offer_lock); 868 1.1 nonaka } 869 1.1 nonaka 870 1.1 nonaka static void 871 1.1 nonaka vmbus_channel_rescind(struct vmbus_softc *sc, struct vmbus_chanmsg_hdr *hdr) 872 1.1 nonaka { 873 1.1 nonaka const struct vmbus_chanmsg_chrescind *cmd; 874 1.1 nonaka 875 1.1 nonaka cmd = (const struct vmbus_chanmsg_chrescind *)hdr; 876 1.1 nonaka device_printf(sc->sc_dev, "revoking channel %u\n", cmd->chm_chanid); 877 1.1 nonaka } 878 1.1 nonaka 879 1.1 nonaka static void 880 1.1 nonaka vmbus_channel_delivered(struct vmbus_softc *sc, struct vmbus_chanmsg_hdr *hdr) 881 1.1 nonaka { 882 1.1 nonaka 883 1.1 nonaka atomic_or_32(&sc->sc_flags, VMBUS_SCFLAG_OFFERS_DELIVERED); 884 1.1 nonaka wakeup(&sc->sc_offers); 885 1.1 nonaka } 886 1.1 nonaka 887 1.1 nonaka static void 888 1.1 nonaka hyperv_guid_sprint(struct hyperv_guid *guid, char *str, size_t size) 889 1.1 nonaka { 890 1.1 nonaka static const struct { 891 1.1 nonaka const struct hyperv_guid *guid; 892 1.1 nonaka const char *ident; 893 1.1 nonaka } map[] = { 894 1.1 nonaka { &hyperv_guid_network, "network" }, 895 1.1 nonaka { &hyperv_guid_ide, "ide" }, 896 1.1 nonaka { &hyperv_guid_scsi, "scsi" }, 897 1.1 nonaka { &hyperv_guid_shutdown, "shutdown" }, 898 1.1 nonaka { &hyperv_guid_timesync, "timesync" }, 899 1.1 nonaka { &hyperv_guid_heartbeat, "heartbeat" }, 900 1.1 nonaka { &hyperv_guid_kvp, "kvp" }, 901 1.1 nonaka { &hyperv_guid_vss, "vss" }, 902 1.1 nonaka { &hyperv_guid_dynmem, "dynamic-memory" }, 903 1.1 nonaka { &hyperv_guid_mouse, "mouse" }, 904 1.1 nonaka { &hyperv_guid_kbd, "keyboard" }, 905 1.1 nonaka { &hyperv_guid_video, "video" }, 906 1.1 nonaka { &hyperv_guid_fc, "fiber-channel" }, 907 1.1 nonaka { &hyperv_guid_fcopy, "file-copy" }, 908 1.1 nonaka { &hyperv_guid_pcie, "pcie-passthrough" }, 909 1.1 nonaka { &hyperv_guid_netdir, "network-direct" }, 910 1.1 nonaka { &hyperv_guid_rdesktop, "remote-desktop" }, 911 1.1 nonaka { &hyperv_guid_avma1, "avma-1" }, 912 1.1 nonaka { &hyperv_guid_avma2, "avma-2" }, 913 1.1 nonaka { &hyperv_guid_avma3, "avma-3" }, 914 1.1 nonaka { &hyperv_guid_avma4, "avma-4" }, 915 1.1 nonaka }; 916 1.1 nonaka int i; 917 1.1 nonaka 918 1.1 nonaka for (i = 0; i < __arraycount(map); i++) { 919 1.1 nonaka if (memcmp(guid, map[i].guid, sizeof(*guid)) == 0) { 920 1.1 nonaka strlcpy(str, map[i].ident, size); 921 1.1 nonaka return; 922 1.1 nonaka } 923 1.1 nonaka } 924 1.1 nonaka hyperv_guid2str(guid, str, size); 925 1.1 nonaka } 926 1.1 nonaka 927 1.1 nonaka static int 928 1.1 nonaka vmbus_channel_scan_done(struct vmbus_softc *sc, struct vmbus_msg *msg __unused) 929 1.1 nonaka { 930 1.1 nonaka 931 1.1 nonaka return ISSET(sc->sc_flags, VMBUS_SCFLAG_OFFERS_DELIVERED); 932 1.1 nonaka } 933 1.1 nonaka 934 1.1 nonaka static int 935 1.1 nonaka vmbus_channel_scan(struct vmbus_softc *sc) 936 1.1 nonaka { 937 1.1 nonaka struct vmbus_chanmsg_hdr hdr; 938 1.1 nonaka struct vmbus_chanmsg_choffer rsp; 939 1.1 nonaka struct vmbus_offer *co; 940 1.1 nonaka 941 1.1 nonaka SIMPLEQ_INIT(&sc->sc_offers); 942 1.1 nonaka mutex_init(&sc->sc_offer_lock, MUTEX_DEFAULT, IPL_NET); 943 1.1 nonaka 944 1.1 nonaka memset(&hdr, 0, sizeof(hdr)); 945 1.1 nonaka hdr.chm_type = VMBUS_CHANMSG_CHREQUEST; 946 1.1 nonaka 947 1.1 nonaka if (vmbus_cmd(sc, &hdr, sizeof(hdr), &rsp, sizeof(rsp), 948 1.1 nonaka HCF_NOREPLY | (cold ? HCF_NOSLEEP : HCF_SLEEPOK))) { 949 1.1 nonaka DPRINTF("%s: CHREQUEST failed\n", device_xname(sc->sc_dev)); 950 1.1 nonaka return -1; 951 1.1 nonaka } 952 1.1 nonaka 953 1.1 nonaka vmbus_wait(sc, vmbus_channel_scan_done, (struct vmbus_msg *)&hdr, 954 1.1 nonaka &sc->sc_offers, "hvscan"); 955 1.1 nonaka 956 1.1 nonaka TAILQ_INIT(&sc->sc_channels); 957 1.1 nonaka mutex_init(&sc->sc_channel_lock, MUTEX_DEFAULT, IPL_NET); 958 1.1 nonaka 959 1.1 nonaka mutex_enter(&sc->sc_offer_lock); 960 1.1 nonaka while (!SIMPLEQ_EMPTY(&sc->sc_offers)) { 961 1.1 nonaka co = SIMPLEQ_FIRST(&sc->sc_offers); 962 1.1 nonaka SIMPLEQ_REMOVE_HEAD(&sc->sc_offers, co_entry); 963 1.1 nonaka mutex_exit(&sc->sc_offer_lock); 964 1.1 nonaka 965 1.1 nonaka vmbus_process_offer(sc, co); 966 1.1 nonaka kmem_free(co, sizeof(*co)); 967 1.1 nonaka 968 1.1 nonaka mutex_enter(&sc->sc_offer_lock); 969 1.1 nonaka } 970 1.1 nonaka mutex_exit(&sc->sc_offer_lock); 971 1.1 nonaka 972 1.1 nonaka return 0; 973 1.1 nonaka } 974 1.1 nonaka 975 1.1 nonaka static struct vmbus_channel * 976 1.1 nonaka vmbus_channel_alloc(struct vmbus_softc *sc) 977 1.1 nonaka { 978 1.1 nonaka struct vmbus_channel *ch; 979 1.1 nonaka 980 1.1 nonaka ch = kmem_zalloc(sizeof(*ch), cold ? KM_NOSLEEP : KM_SLEEP); 981 1.1 nonaka 982 1.1 nonaka ch->ch_monprm = hyperv_dma_alloc(sc->sc_dmat, &ch->ch_monprm_dma, 983 1.1 nonaka sizeof(*ch->ch_monprm), 8, 0, 1); 984 1.1 nonaka if (ch->ch_monprm == NULL) { 985 1.1 nonaka device_printf(sc->sc_dev, "monprm alloc failed\n"); 986 1.1 nonaka kmem_free(ch, sizeof(*ch)); 987 1.1 nonaka return NULL; 988 1.1 nonaka } 989 1.1 nonaka memset(ch->ch_monprm, 0, sizeof(*ch->ch_monprm)); 990 1.1 nonaka 991 1.1 nonaka ch->ch_refs = 1; 992 1.1 nonaka ch->ch_sc = sc; 993 1.1 nonaka mutex_init(&ch->ch_subchannel_lock, MUTEX_DEFAULT, IPL_NET); 994 1.1 nonaka TAILQ_INIT(&ch->ch_subchannels); 995 1.1 nonaka 996 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_CLOSED; 997 1.1 nonaka 998 1.1 nonaka return ch; 999 1.1 nonaka } 1000 1.1 nonaka 1001 1.1 nonaka static void 1002 1.1 nonaka vmbus_channel_free(struct vmbus_channel *ch) 1003 1.1 nonaka { 1004 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1005 1.1 nonaka 1006 1.1 nonaka KASSERTMSG(TAILQ_EMPTY(&ch->ch_subchannels) && 1007 1.1 nonaka ch->ch_subchannel_count == 0, "still owns sub-channels"); 1008 1.1 nonaka KASSERTMSG(ch->ch_state == 0 || ch->ch_state == VMBUS_CHANSTATE_CLOSED, 1009 1.1 nonaka "free busy channel"); 1010 1.1 nonaka KASSERTMSG(ch->ch_refs == 0, "channel %u: invalid refcnt %d", 1011 1.1 nonaka ch->ch_id, ch->ch_refs); 1012 1.1 nonaka 1013 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &ch->ch_monprm_dma); 1014 1.1 nonaka mutex_destroy(&ch->ch_subchannel_lock); 1015 1.1 nonaka /* XXX ch_evcnt */ 1016 1.1 nonaka softint_disestablish(ch->ch_taskq); 1017 1.1 nonaka kmem_free(ch, sizeof(*ch)); 1018 1.1 nonaka } 1019 1.1 nonaka 1020 1.1 nonaka static int 1021 1.1 nonaka vmbus_channel_add(struct vmbus_channel *nch) 1022 1.1 nonaka { 1023 1.1 nonaka struct vmbus_softc *sc = nch->ch_sc; 1024 1.1 nonaka struct vmbus_channel *ch; 1025 1.2 hannken u_int refs __diagused; 1026 1.1 nonaka 1027 1.1 nonaka if (nch->ch_id == 0) { 1028 1.1 nonaka device_printf(sc->sc_dev, "got channel 0 offer, discard\n"); 1029 1.1 nonaka return EINVAL; 1030 1.1 nonaka } else if (nch->ch_id >= sc->sc_channel_max) { 1031 1.1 nonaka device_printf(sc->sc_dev, "invalid channel %u offer\n", 1032 1.1 nonaka nch->ch_id); 1033 1.1 nonaka return EINVAL; 1034 1.1 nonaka } 1035 1.1 nonaka 1036 1.1 nonaka mutex_enter(&sc->sc_channel_lock); 1037 1.1 nonaka TAILQ_FOREACH(ch, &sc->sc_channels, ch_entry) { 1038 1.1 nonaka if (!memcmp(&ch->ch_type, &nch->ch_type, sizeof(ch->ch_type)) && 1039 1.1 nonaka !memcmp(&ch->ch_inst, &nch->ch_inst, sizeof(ch->ch_inst))) 1040 1.1 nonaka break; 1041 1.1 nonaka } 1042 1.1 nonaka if (VMBUS_CHAN_ISPRIMARY(nch)) { 1043 1.1 nonaka if (ch == NULL) { 1044 1.1 nonaka TAILQ_INSERT_TAIL(&sc->sc_channels, nch, ch_entry); 1045 1.1 nonaka mutex_exit(&sc->sc_channel_lock); 1046 1.1 nonaka goto done; 1047 1.1 nonaka } else { 1048 1.1 nonaka mutex_exit(&sc->sc_channel_lock); 1049 1.1 nonaka device_printf(sc->sc_dev, 1050 1.1 nonaka "duplicated primary channel%u\n", nch->ch_id); 1051 1.1 nonaka return EINVAL; 1052 1.1 nonaka } 1053 1.1 nonaka } else { 1054 1.1 nonaka if (ch == NULL) { 1055 1.1 nonaka mutex_exit(&sc->sc_channel_lock); 1056 1.1 nonaka device_printf(sc->sc_dev, "no primary channel%u\n", 1057 1.1 nonaka nch->ch_id); 1058 1.1 nonaka return EINVAL; 1059 1.1 nonaka } 1060 1.1 nonaka } 1061 1.1 nonaka mutex_exit(&sc->sc_channel_lock); 1062 1.1 nonaka 1063 1.1 nonaka KASSERT(!VMBUS_CHAN_ISPRIMARY(nch)); 1064 1.1 nonaka KASSERT(ch != NULL); 1065 1.1 nonaka 1066 1.1 nonaka refs = atomic_add_int_nv(&nch->ch_refs, 1); 1067 1.1 nonaka KASSERT(refs == 1); 1068 1.1 nonaka 1069 1.1 nonaka nch->ch_primary_channel = ch; 1070 1.1 nonaka nch->ch_dev = ch->ch_dev; 1071 1.1 nonaka 1072 1.1 nonaka mutex_enter(&ch->ch_subchannel_lock); 1073 1.1 nonaka TAILQ_INSERT_TAIL(&ch->ch_subchannels, nch, ch_subentry); 1074 1.1 nonaka ch->ch_subchannel_count++; 1075 1.1 nonaka mutex_exit(&ch->ch_subchannel_lock); 1076 1.1 nonaka wakeup(ch); 1077 1.1 nonaka 1078 1.1 nonaka done: 1079 1.1 nonaka vmbus_channel_cpu_default(nch); 1080 1.1 nonaka 1081 1.1 nonaka return 0; 1082 1.1 nonaka } 1083 1.1 nonaka 1084 1.1 nonaka void 1085 1.1 nonaka vmbus_channel_cpu_set(struct vmbus_channel *ch, int cpu) 1086 1.1 nonaka { 1087 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1088 1.1 nonaka 1089 1.1 nonaka KASSERTMSG(cpu >= 0 && cpu < ncpu, "invalid cpu %d", cpu); 1090 1.1 nonaka 1091 1.1 nonaka if (sc->sc_proto == VMBUS_VERSION_WS2008 || 1092 1.1 nonaka sc->sc_proto == VMBUS_VERSION_WIN7) { 1093 1.1 nonaka /* Only cpu0 is supported */ 1094 1.1 nonaka cpu = 0; 1095 1.1 nonaka } 1096 1.1 nonaka 1097 1.1 nonaka ch->ch_cpuid = cpu; 1098 1.1 nonaka ch->ch_vcpu = sc->sc_percpu[cpu].vcpuid; 1099 1.1 nonaka } 1100 1.1 nonaka 1101 1.1 nonaka void 1102 1.1 nonaka vmbus_channel_cpu_rr(struct vmbus_channel *ch) 1103 1.1 nonaka { 1104 1.1 nonaka static uint32_t vmbus_channel_nextcpu; 1105 1.1 nonaka int cpu; 1106 1.1 nonaka 1107 1.1 nonaka cpu = atomic_add_32_nv(&vmbus_channel_nextcpu, 1) % ncpu; 1108 1.1 nonaka vmbus_channel_cpu_set(ch, cpu); 1109 1.1 nonaka } 1110 1.1 nonaka 1111 1.1 nonaka static void 1112 1.1 nonaka vmbus_channel_cpu_default(struct vmbus_channel *ch) 1113 1.1 nonaka { 1114 1.1 nonaka 1115 1.1 nonaka /* 1116 1.1 nonaka * By default, pin the channel to cpu0. Devices having 1117 1.1 nonaka * special channel-cpu mapping requirement should call 1118 1.1 nonaka * vmbus_channel_cpu_{set,rr}(). 1119 1.1 nonaka */ 1120 1.1 nonaka vmbus_channel_cpu_set(ch, 0); 1121 1.1 nonaka } 1122 1.1 nonaka 1123 1.1 nonaka static void 1124 1.1 nonaka vmbus_process_offer(struct vmbus_softc *sc, struct vmbus_offer *co) 1125 1.1 nonaka { 1126 1.1 nonaka struct vmbus_channel *ch; 1127 1.1 nonaka 1128 1.1 nonaka ch = vmbus_channel_alloc(sc); 1129 1.1 nonaka if (ch == NULL) { 1130 1.1 nonaka device_printf(sc->sc_dev, "allocate channel %u failed\n", 1131 1.1 nonaka co->co_chan.chm_chanid); 1132 1.1 nonaka return; 1133 1.1 nonaka } 1134 1.1 nonaka 1135 1.1 nonaka /* 1136 1.1 nonaka * By default we setup state to enable batched reading. 1137 1.1 nonaka * A specific service can choose to disable this prior 1138 1.1 nonaka * to opening the channel. 1139 1.1 nonaka */ 1140 1.1 nonaka ch->ch_flags |= CHF_BATCHED; 1141 1.1 nonaka 1142 1.1 nonaka hyperv_guid_sprint(&co->co_chan.chm_chtype, ch->ch_ident, 1143 1.1 nonaka sizeof(ch->ch_ident)); 1144 1.1 nonaka 1145 1.1 nonaka ch->ch_monprm->mp_connid = VMBUS_CONNID_EVENT; 1146 1.1 nonaka if (sc->sc_proto > VMBUS_VERSION_WS2008) 1147 1.1 nonaka ch->ch_monprm->mp_connid = co->co_chan.chm_connid; 1148 1.1 nonaka 1149 1.1 nonaka if (co->co_chan.chm_flags1 & VMBUS_CHOFFER_FLAG1_HASMNF) { 1150 1.1 nonaka ch->ch_mgroup = co->co_chan.chm_montrig / VMBUS_MONTRIG_LEN; 1151 1.1 nonaka ch->ch_mindex = co->co_chan.chm_montrig % VMBUS_MONTRIG_LEN; 1152 1.1 nonaka ch->ch_flags |= CHF_MONITOR; 1153 1.1 nonaka } 1154 1.1 nonaka 1155 1.1 nonaka ch->ch_id = co->co_chan.chm_chanid; 1156 1.1 nonaka ch->ch_subidx = co->co_chan.chm_subidx; 1157 1.1 nonaka 1158 1.1 nonaka memcpy(&ch->ch_type, &co->co_chan.chm_chtype, sizeof(ch->ch_type)); 1159 1.1 nonaka memcpy(&ch->ch_inst, &co->co_chan.chm_chinst, sizeof(ch->ch_inst)); 1160 1.1 nonaka 1161 1.1 nonaka if (VMBUS_CHAN_ISPRIMARY(ch)) { 1162 1.1 nonaka /* set primary channel mgmt wq */ 1163 1.1 nonaka } else { 1164 1.1 nonaka /* set sub channel mgmt wq */ 1165 1.1 nonaka } 1166 1.1 nonaka 1167 1.1 nonaka if (vmbus_channel_add(ch) != 0) { 1168 1.1 nonaka vmbus_channel_free(ch); 1169 1.1 nonaka return; 1170 1.1 nonaka } 1171 1.1 nonaka 1172 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_OFFERED; 1173 1.1 nonaka 1174 1.1 nonaka #ifdef HYPERV_DEBUG 1175 1.1 nonaka printf("%s: channel %u: \"%s\"", device_xname(sc->sc_dev), ch->ch_id, 1176 1.1 nonaka ch->ch_ident); 1177 1.1 nonaka if (ch->ch_flags & CHF_MONITOR) 1178 1.1 nonaka printf(", monitor %u\n", co->co_chan.chm_montrig); 1179 1.1 nonaka else 1180 1.1 nonaka printf("\n"); 1181 1.1 nonaka #endif 1182 1.1 nonaka } 1183 1.1 nonaka 1184 1.1 nonaka static int 1185 1.1 nonaka vmbus_channel_release(struct vmbus_channel *ch) 1186 1.1 nonaka { 1187 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1188 1.1 nonaka struct vmbus_chanmsg_chfree cmd; 1189 1.1 nonaka int rv; 1190 1.1 nonaka 1191 1.1 nonaka memset(&cmd, 0, sizeof(cmd)); 1192 1.1 nonaka cmd.chm_hdr.chm_type = VMBUS_CHANMSG_CHFREE; 1193 1.1 nonaka cmd.chm_chanid = ch->ch_id; 1194 1.1 nonaka 1195 1.1 nonaka rv = vmbus_cmd(sc, &cmd, sizeof(cmd), NULL, 0, 1196 1.1 nonaka HCF_NOREPLY | (cold ? HCF_NOSLEEP : HCF_SLEEPOK)); 1197 1.1 nonaka if (rv) { 1198 1.1 nonaka DPRINTF("%s: CHFREE failed with %d\n", device_xname(sc->sc_dev), 1199 1.1 nonaka rv); 1200 1.1 nonaka } 1201 1.1 nonaka return rv; 1202 1.1 nonaka } 1203 1.1 nonaka 1204 1.1 nonaka struct vmbus_channel ** 1205 1.1 nonaka vmbus_subchannel_get(struct vmbus_channel *prich, int cnt) 1206 1.1 nonaka { 1207 1.1 nonaka struct vmbus_channel **ret, *ch; 1208 1.1 nonaka int i; 1209 1.1 nonaka 1210 1.1 nonaka KASSERT(cnt > 0); 1211 1.1 nonaka 1212 1.1 nonaka ret = kmem_alloc(sizeof(struct vmbus_channel *) * cnt, 1213 1.1 nonaka cold ? KM_NOSLEEP : KM_SLEEP); 1214 1.1 nonaka 1215 1.1 nonaka mutex_enter(&prich->ch_subchannel_lock); 1216 1.1 nonaka 1217 1.1 nonaka while (prich->ch_subchannel_count < cnt) 1218 1.1 nonaka /* XXX use condvar(9) instead of mtsleep */ 1219 1.1 nonaka mtsleep(prich, PRIBIO, "hvvmsubch", 0, 1220 1.1 nonaka &prich->ch_subchannel_lock); 1221 1.1 nonaka 1222 1.1 nonaka i = 0; 1223 1.1 nonaka TAILQ_FOREACH(ch, &prich->ch_subchannels, ch_subentry) { 1224 1.1 nonaka ret[i] = ch; /* XXX inc refs */ 1225 1.1 nonaka 1226 1.1 nonaka if (++i == cnt) 1227 1.1 nonaka break; 1228 1.1 nonaka } 1229 1.1 nonaka 1230 1.1 nonaka mutex_exit(&prich->ch_subchannel_lock); 1231 1.1 nonaka 1232 1.1 nonaka return ret; 1233 1.1 nonaka } 1234 1.1 nonaka 1235 1.1 nonaka void 1236 1.1 nonaka vmbus_subchannel_put(struct vmbus_channel **subch, int cnt) 1237 1.1 nonaka { 1238 1.1 nonaka 1239 1.1 nonaka kmem_free(subch, sizeof(struct vmbus_channel *) * cnt); 1240 1.1 nonaka } 1241 1.1 nonaka 1242 1.1 nonaka static struct vmbus_channel * 1243 1.1 nonaka vmbus_channel_lookup(struct vmbus_softc *sc, uint32_t relid) 1244 1.1 nonaka { 1245 1.1 nonaka struct vmbus_channel *ch; 1246 1.1 nonaka 1247 1.1 nonaka TAILQ_FOREACH(ch, &sc->sc_channels, ch_entry) { 1248 1.1 nonaka if (ch->ch_id == relid) 1249 1.1 nonaka return ch; 1250 1.1 nonaka } 1251 1.1 nonaka return NULL; 1252 1.1 nonaka } 1253 1.1 nonaka 1254 1.1 nonaka static int 1255 1.1 nonaka vmbus_channel_ring_create(struct vmbus_channel *ch, uint32_t buflen) 1256 1.1 nonaka { 1257 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1258 1.1 nonaka 1259 1.1 nonaka buflen = roundup(buflen, PAGE_SIZE) + sizeof(struct vmbus_bufring); 1260 1.1 nonaka ch->ch_ring_size = 2 * buflen; 1261 1.1 nonaka ch->ch_ring = hyperv_dma_alloc(sc->sc_dmat, &ch->ch_ring_dma, 1262 1.1 nonaka ch->ch_ring_size, PAGE_SIZE, 0, 1); /* page aligned memory */ 1263 1.1 nonaka if (ch->ch_ring == NULL) { 1264 1.1 nonaka device_printf(sc->sc_dev, 1265 1.1 nonaka "failed to allocate channel ring\n"); 1266 1.1 nonaka return ENOMEM; 1267 1.1 nonaka } 1268 1.4 nakayama memset(ch->ch_ring, 0, ch->ch_ring_size); 1269 1.1 nonaka 1270 1.1 nonaka memset(&ch->ch_wrd, 0, sizeof(ch->ch_wrd)); 1271 1.1 nonaka ch->ch_wrd.rd_ring = (struct vmbus_bufring *)ch->ch_ring; 1272 1.1 nonaka ch->ch_wrd.rd_size = buflen; 1273 1.1 nonaka ch->ch_wrd.rd_dsize = buflen - sizeof(struct vmbus_bufring); 1274 1.1 nonaka mutex_init(&ch->ch_wrd.rd_lock, MUTEX_DEFAULT, IPL_NET); 1275 1.1 nonaka 1276 1.1 nonaka memset(&ch->ch_rrd, 0, sizeof(ch->ch_rrd)); 1277 1.1 nonaka ch->ch_rrd.rd_ring = (struct vmbus_bufring *)((uint8_t *)ch->ch_ring + 1278 1.1 nonaka buflen); 1279 1.1 nonaka ch->ch_rrd.rd_size = buflen; 1280 1.1 nonaka ch->ch_rrd.rd_dsize = buflen - sizeof(struct vmbus_bufring); 1281 1.1 nonaka mutex_init(&ch->ch_rrd.rd_lock, MUTEX_DEFAULT, IPL_NET); 1282 1.1 nonaka 1283 1.1 nonaka if (vmbus_handle_alloc(ch, &ch->ch_ring_dma, ch->ch_ring_size, 1284 1.1 nonaka &ch->ch_ring_gpadl)) { 1285 1.1 nonaka device_printf(sc->sc_dev, 1286 1.1 nonaka "failed to obtain a PA handle for the ring\n"); 1287 1.1 nonaka vmbus_channel_ring_destroy(ch); 1288 1.1 nonaka return ENOMEM; 1289 1.1 nonaka } 1290 1.1 nonaka 1291 1.1 nonaka return 0; 1292 1.1 nonaka } 1293 1.1 nonaka 1294 1.1 nonaka static void 1295 1.1 nonaka vmbus_channel_ring_destroy(struct vmbus_channel *ch) 1296 1.1 nonaka { 1297 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1298 1.1 nonaka 1299 1.1 nonaka hyperv_dma_free(sc->sc_dmat, &ch->ch_ring_dma); 1300 1.1 nonaka ch->ch_ring = NULL; 1301 1.1 nonaka vmbus_handle_free(ch, ch->ch_ring_gpadl); 1302 1.1 nonaka 1303 1.1 nonaka mutex_destroy(&ch->ch_wrd.rd_lock); 1304 1.1 nonaka memset(&ch->ch_wrd, 0, sizeof(ch->ch_wrd)); 1305 1.1 nonaka mutex_destroy(&ch->ch_rrd.rd_lock); 1306 1.1 nonaka memset(&ch->ch_rrd, 0, sizeof(ch->ch_rrd)); 1307 1.1 nonaka } 1308 1.1 nonaka 1309 1.1 nonaka int 1310 1.1 nonaka vmbus_channel_open(struct vmbus_channel *ch, size_t buflen, void *udata, 1311 1.1 nonaka size_t udatalen, void (*handler)(void *), void *arg) 1312 1.1 nonaka { 1313 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1314 1.1 nonaka struct vmbus_chanmsg_chopen cmd; 1315 1.1 nonaka struct vmbus_chanmsg_chopen_resp rsp; 1316 1.1 nonaka int rv = EINVAL; 1317 1.1 nonaka 1318 1.1 nonaka if (ch->ch_ring == NULL && 1319 1.1 nonaka (rv = vmbus_channel_ring_create(ch, buflen))) { 1320 1.1 nonaka DPRINTF("%s: failed to create channel ring\n", 1321 1.1 nonaka device_xname(sc->sc_dev)); 1322 1.1 nonaka return rv; 1323 1.1 nonaka } 1324 1.1 nonaka 1325 1.1 nonaka memset(&cmd, 0, sizeof(cmd)); 1326 1.1 nonaka cmd.chm_hdr.chm_type = VMBUS_CHANMSG_CHOPEN; 1327 1.1 nonaka cmd.chm_openid = ch->ch_id; 1328 1.1 nonaka cmd.chm_chanid = ch->ch_id; 1329 1.1 nonaka cmd.chm_gpadl = ch->ch_ring_gpadl; 1330 1.1 nonaka cmd.chm_txbr_pgcnt = atop(ch->ch_wrd.rd_size); 1331 1.1 nonaka cmd.chm_vcpuid = ch->ch_vcpu; 1332 1.1 nonaka if (udata && udatalen > 0) 1333 1.1 nonaka memcpy(cmd.chm_udata, udata, udatalen); 1334 1.1 nonaka 1335 1.1 nonaka memset(&rsp, 0, sizeof(rsp)); 1336 1.1 nonaka 1337 1.1 nonaka ch->ch_handler = handler; 1338 1.1 nonaka ch->ch_ctx = arg; 1339 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_OPENED; 1340 1.1 nonaka 1341 1.1 nonaka rv = vmbus_cmd(sc, &cmd, sizeof(cmd), &rsp, sizeof(rsp), 1342 1.1 nonaka cold ? HCF_NOSLEEP : HCF_SLEEPOK); 1343 1.1 nonaka if (rv) { 1344 1.1 nonaka vmbus_channel_ring_destroy(ch); 1345 1.1 nonaka DPRINTF("%s: CHOPEN failed with %d\n", device_xname(sc->sc_dev), 1346 1.1 nonaka rv); 1347 1.1 nonaka ch->ch_handler = NULL; 1348 1.1 nonaka ch->ch_ctx = NULL; 1349 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_OFFERED; 1350 1.1 nonaka return rv; 1351 1.1 nonaka } 1352 1.1 nonaka return 0; 1353 1.1 nonaka } 1354 1.1 nonaka 1355 1.1 nonaka static void 1356 1.1 nonaka vmbus_channel_detach(struct vmbus_channel *ch) 1357 1.1 nonaka { 1358 1.1 nonaka u_int refs; 1359 1.1 nonaka 1360 1.1 nonaka refs = atomic_add_int_nv(&ch->ch_refs, -1); 1361 1.1 nonaka if (refs == 1) { 1362 1.1 nonaka /* XXX on workqueue? */ 1363 1.1 nonaka if (VMBUS_CHAN_ISPRIMARY(ch)) { 1364 1.1 nonaka vmbus_channel_release(ch); 1365 1.1 nonaka vmbus_channel_free(ch); 1366 1.1 nonaka } else { 1367 1.1 nonaka struct vmbus_channel *prich = ch->ch_primary_channel; 1368 1.1 nonaka 1369 1.1 nonaka vmbus_channel_release(ch); 1370 1.1 nonaka 1371 1.1 nonaka mutex_enter(&prich->ch_subchannel_lock); 1372 1.1 nonaka TAILQ_REMOVE(&prich->ch_subchannels, ch, ch_subentry); 1373 1.1 nonaka prich->ch_subchannel_count--; 1374 1.1 nonaka mutex_exit(&prich->ch_subchannel_lock); 1375 1.1 nonaka wakeup(prich); 1376 1.1 nonaka 1377 1.1 nonaka vmbus_channel_free(ch); 1378 1.1 nonaka } 1379 1.1 nonaka } 1380 1.1 nonaka } 1381 1.1 nonaka 1382 1.1 nonaka static int 1383 1.1 nonaka vmbus_channel_close_internal(struct vmbus_channel *ch) 1384 1.1 nonaka { 1385 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1386 1.1 nonaka struct vmbus_chanmsg_chclose cmd; 1387 1.1 nonaka int rv; 1388 1.1 nonaka 1389 1.1 nonaka memset(&cmd, 0, sizeof(cmd)); 1390 1.1 nonaka cmd.chm_hdr.chm_type = VMBUS_CHANMSG_CHCLOSE; 1391 1.1 nonaka cmd.chm_chanid = ch->ch_id; 1392 1.1 nonaka 1393 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_CLOSING; 1394 1.1 nonaka rv = vmbus_cmd(sc, &cmd, sizeof(cmd), NULL, 0, 1395 1.1 nonaka HCF_NOREPLY | (cold ? HCF_NOSLEEP : HCF_SLEEPOK)); 1396 1.1 nonaka if (rv) { 1397 1.1 nonaka DPRINTF("%s: CHCLOSE failed with %d\n", 1398 1.1 nonaka device_xname(sc->sc_dev), rv); 1399 1.1 nonaka return rv; 1400 1.1 nonaka } 1401 1.1 nonaka ch->ch_state = VMBUS_CHANSTATE_CLOSED; 1402 1.1 nonaka vmbus_channel_ring_destroy(ch); 1403 1.1 nonaka return 0; 1404 1.1 nonaka } 1405 1.1 nonaka 1406 1.1 nonaka int 1407 1.1 nonaka vmbus_channel_close_direct(struct vmbus_channel *ch) 1408 1.1 nonaka { 1409 1.1 nonaka int rv; 1410 1.1 nonaka 1411 1.1 nonaka rv = vmbus_channel_close_internal(ch); 1412 1.1 nonaka if (!VMBUS_CHAN_ISPRIMARY(ch)) 1413 1.1 nonaka vmbus_channel_detach(ch); 1414 1.1 nonaka return rv; 1415 1.1 nonaka } 1416 1.1 nonaka 1417 1.1 nonaka int 1418 1.1 nonaka vmbus_channel_close(struct vmbus_channel *ch) 1419 1.1 nonaka { 1420 1.1 nonaka struct vmbus_channel **subch; 1421 1.1 nonaka int i, cnt, rv; 1422 1.1 nonaka 1423 1.1 nonaka if (!VMBUS_CHAN_ISPRIMARY(ch)) 1424 1.1 nonaka return 0; 1425 1.1 nonaka 1426 1.1 nonaka cnt = ch->ch_subchannel_count; 1427 1.1 nonaka if (cnt > 0) { 1428 1.1 nonaka subch = vmbus_subchannel_get(ch, cnt); 1429 1.1 nonaka for (i = 0; i < ch->ch_subchannel_count; i++) { 1430 1.1 nonaka rv = vmbus_channel_close_internal(subch[i]); 1431 1.1 nonaka (void) rv; /* XXX */ 1432 1.1 nonaka vmbus_channel_detach(ch); 1433 1.1 nonaka } 1434 1.1 nonaka vmbus_subchannel_put(subch, cnt); 1435 1.1 nonaka } 1436 1.1 nonaka 1437 1.1 nonaka return vmbus_channel_close_internal(ch); 1438 1.1 nonaka } 1439 1.1 nonaka 1440 1.1 nonaka static inline void 1441 1.1 nonaka vmbus_channel_setevent(struct vmbus_softc *sc, struct vmbus_channel *ch) 1442 1.1 nonaka { 1443 1.1 nonaka struct vmbus_mon_trig *mtg; 1444 1.1 nonaka 1445 1.1 nonaka /* Each uint32_t represents 32 channels */ 1446 1.1 nonaka set_bit(ch->ch_id, sc->sc_wevents); 1447 1.1 nonaka if (ch->ch_flags & CHF_MONITOR) { 1448 1.1 nonaka mtg = &sc->sc_monitor[1]->mnf_trigs[ch->ch_mgroup]; 1449 1.1 nonaka set_bit(ch->ch_mindex, &mtg->mt_pending); 1450 1.1 nonaka } else 1451 1.1 nonaka vmbus_intr_signal(sc, hyperv_dma_get_paddr(&ch->ch_monprm_dma)); 1452 1.1 nonaka } 1453 1.1 nonaka 1454 1.1 nonaka static void 1455 1.1 nonaka vmbus_channel_intr(void *arg) 1456 1.1 nonaka { 1457 1.1 nonaka struct vmbus_channel *ch = arg; 1458 1.1 nonaka 1459 1.1 nonaka if (vmbus_channel_ready(ch)) 1460 1.1 nonaka ch->ch_handler(ch->ch_ctx); 1461 1.1 nonaka 1462 1.1 nonaka if (vmbus_channel_unpause(ch) == 0) 1463 1.1 nonaka return; 1464 1.1 nonaka 1465 1.1 nonaka vmbus_channel_pause(ch); 1466 1.1 nonaka vmbus_channel_schedule(ch); 1467 1.1 nonaka } 1468 1.1 nonaka 1469 1.1 nonaka int 1470 1.1 nonaka vmbus_channel_setdeferred(struct vmbus_channel *ch, const char *name) 1471 1.1 nonaka { 1472 1.1 nonaka 1473 1.1 nonaka ch->ch_taskq = softint_establish(SOFTINT_NET | SOFTINT_MPSAFE, 1474 1.1 nonaka vmbus_channel_intr, ch); 1475 1.1 nonaka if (ch->ch_taskq == NULL) 1476 1.1 nonaka return -1; 1477 1.1 nonaka return 0; 1478 1.1 nonaka } 1479 1.1 nonaka 1480 1.1 nonaka void 1481 1.1 nonaka vmbus_channel_schedule(struct vmbus_channel *ch) 1482 1.1 nonaka { 1483 1.1 nonaka 1484 1.1 nonaka if (ch->ch_handler) { 1485 1.1 nonaka if (!cold && (ch->ch_flags & CHF_BATCHED)) { 1486 1.1 nonaka vmbus_channel_pause(ch); 1487 1.1 nonaka softint_schedule(ch->ch_taskq); 1488 1.1 nonaka } else 1489 1.1 nonaka ch->ch_handler(ch->ch_ctx); 1490 1.1 nonaka } 1491 1.1 nonaka } 1492 1.1 nonaka 1493 1.1 nonaka static __inline void 1494 1.1 nonaka vmbus_ring_put(struct vmbus_ring_data *wrd, uint8_t *data, uint32_t datalen) 1495 1.1 nonaka { 1496 1.1 nonaka int left = MIN(datalen, wrd->rd_dsize - wrd->rd_prod); 1497 1.1 nonaka 1498 1.1 nonaka memcpy(&wrd->rd_ring->br_data[wrd->rd_prod], data, left); 1499 1.1 nonaka memcpy(&wrd->rd_ring->br_data[0], data + left, datalen - left); 1500 1.1 nonaka wrd->rd_prod += datalen; 1501 1.1 nonaka if (wrd->rd_prod >= wrd->rd_dsize) 1502 1.1 nonaka wrd->rd_prod -= wrd->rd_dsize; 1503 1.1 nonaka } 1504 1.1 nonaka 1505 1.1 nonaka static inline void 1506 1.1 nonaka vmbus_ring_get(struct vmbus_ring_data *rrd, uint8_t *data, uint32_t datalen, 1507 1.1 nonaka int peek) 1508 1.1 nonaka { 1509 1.1 nonaka int left = MIN(datalen, rrd->rd_dsize - rrd->rd_cons); 1510 1.1 nonaka 1511 1.1 nonaka memcpy(data, &rrd->rd_ring->br_data[rrd->rd_cons], left); 1512 1.1 nonaka memcpy(data + left, &rrd->rd_ring->br_data[0], datalen - left); 1513 1.1 nonaka if (!peek) { 1514 1.1 nonaka rrd->rd_cons += datalen; 1515 1.1 nonaka if (rrd->rd_cons >= rrd->rd_dsize) 1516 1.1 nonaka rrd->rd_cons -= rrd->rd_dsize; 1517 1.1 nonaka } 1518 1.1 nonaka } 1519 1.1 nonaka 1520 1.1 nonaka static __inline void 1521 1.1 nonaka vmbus_ring_avail(struct vmbus_ring_data *rd, uint32_t *towrite, 1522 1.1 nonaka uint32_t *toread) 1523 1.1 nonaka { 1524 1.1 nonaka uint32_t ridx = rd->rd_ring->br_rindex; 1525 1.1 nonaka uint32_t widx = rd->rd_ring->br_windex; 1526 1.1 nonaka uint32_t r, w; 1527 1.1 nonaka 1528 1.1 nonaka if (widx >= ridx) 1529 1.1 nonaka w = rd->rd_dsize - (widx - ridx); 1530 1.1 nonaka else 1531 1.1 nonaka w = ridx - widx; 1532 1.1 nonaka r = rd->rd_dsize - w; 1533 1.1 nonaka if (towrite) 1534 1.1 nonaka *towrite = w; 1535 1.1 nonaka if (toread) 1536 1.1 nonaka *toread = r; 1537 1.1 nonaka } 1538 1.1 nonaka 1539 1.1 nonaka static int 1540 1.1 nonaka vmbus_ring_write(struct vmbus_ring_data *wrd, struct iovec *iov, int iov_cnt, 1541 1.1 nonaka int *needsig) 1542 1.1 nonaka { 1543 1.1 nonaka uint64_t indices = 0; 1544 1.1 nonaka uint32_t avail, oprod, datalen = sizeof(indices); 1545 1.1 nonaka int i; 1546 1.1 nonaka 1547 1.1 nonaka for (i = 0; i < iov_cnt; i++) 1548 1.1 nonaka datalen += iov[i].iov_len; 1549 1.1 nonaka 1550 1.1 nonaka KASSERT(datalen <= wrd->rd_dsize); 1551 1.1 nonaka 1552 1.1 nonaka vmbus_ring_avail(wrd, &avail, NULL); 1553 1.1 nonaka if (avail <= datalen) { 1554 1.1 nonaka DPRINTF("%s: avail %u datalen %u\n", __func__, avail, datalen); 1555 1.1 nonaka return EAGAIN; 1556 1.1 nonaka } 1557 1.1 nonaka 1558 1.1 nonaka oprod = wrd->rd_prod; 1559 1.1 nonaka 1560 1.1 nonaka for (i = 0; i < iov_cnt; i++) 1561 1.1 nonaka vmbus_ring_put(wrd, iov[i].iov_base, iov[i].iov_len); 1562 1.1 nonaka 1563 1.1 nonaka indices = (uint64_t)oprod << 32; 1564 1.1 nonaka vmbus_ring_put(wrd, (uint8_t *)&indices, sizeof(indices)); 1565 1.1 nonaka 1566 1.1 nonaka membar_sync(); 1567 1.1 nonaka wrd->rd_ring->br_windex = wrd->rd_prod; 1568 1.1 nonaka membar_sync(); 1569 1.1 nonaka 1570 1.1 nonaka /* Signal when the ring transitions from being empty to non-empty */ 1571 1.1 nonaka if (wrd->rd_ring->br_imask == 0 && 1572 1.1 nonaka wrd->rd_ring->br_rindex == oprod) 1573 1.1 nonaka *needsig = 1; 1574 1.1 nonaka else 1575 1.1 nonaka *needsig = 0; 1576 1.1 nonaka 1577 1.1 nonaka return 0; 1578 1.1 nonaka } 1579 1.1 nonaka 1580 1.1 nonaka int 1581 1.1 nonaka vmbus_channel_send(struct vmbus_channel *ch, void *data, uint32_t datalen, 1582 1.1 nonaka uint64_t rid, int type, uint32_t flags) 1583 1.1 nonaka { 1584 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1585 1.1 nonaka struct vmbus_chanpkt cp; 1586 1.1 nonaka struct iovec iov[3]; 1587 1.1 nonaka uint32_t pktlen, pktlen_aligned; 1588 1.1 nonaka uint64_t zeropad = 0; 1589 1.1 nonaka int rv, needsig = 0; 1590 1.1 nonaka 1591 1.1 nonaka pktlen = sizeof(cp) + datalen; 1592 1.1 nonaka pktlen_aligned = roundup(pktlen, sizeof(uint64_t)); 1593 1.1 nonaka 1594 1.1 nonaka cp.cp_hdr.cph_type = type; 1595 1.1 nonaka cp.cp_hdr.cph_flags = flags; 1596 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_hlen, sizeof(cp)); 1597 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_tlen, pktlen_aligned); 1598 1.1 nonaka cp.cp_hdr.cph_tid = rid; 1599 1.1 nonaka 1600 1.1 nonaka iov[0].iov_base = &cp; 1601 1.1 nonaka iov[0].iov_len = sizeof(cp); 1602 1.1 nonaka 1603 1.1 nonaka iov[1].iov_base = data; 1604 1.1 nonaka iov[1].iov_len = datalen; 1605 1.1 nonaka 1606 1.1 nonaka iov[2].iov_base = &zeropad; 1607 1.1 nonaka iov[2].iov_len = pktlen_aligned - pktlen; 1608 1.1 nonaka 1609 1.1 nonaka mutex_enter(&ch->ch_wrd.rd_lock); 1610 1.1 nonaka rv = vmbus_ring_write(&ch->ch_wrd, iov, 3, &needsig); 1611 1.1 nonaka mutex_exit(&ch->ch_wrd.rd_lock); 1612 1.1 nonaka if (rv == 0 && needsig) 1613 1.1 nonaka vmbus_channel_setevent(sc, ch); 1614 1.1 nonaka 1615 1.1 nonaka return rv; 1616 1.1 nonaka } 1617 1.1 nonaka 1618 1.1 nonaka int 1619 1.1 nonaka vmbus_channel_send_sgl(struct vmbus_channel *ch, struct vmbus_gpa *sgl, 1620 1.1 nonaka uint32_t nsge, void *data, uint32_t datalen, uint64_t rid) 1621 1.1 nonaka { 1622 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1623 1.1 nonaka struct vmbus_chanpkt_sglist cp; 1624 1.1 nonaka struct iovec iov[4]; 1625 1.1 nonaka uint32_t buflen, pktlen, pktlen_aligned; 1626 1.1 nonaka uint64_t zeropad = 0; 1627 1.1 nonaka int rv, needsig = 0; 1628 1.1 nonaka 1629 1.1 nonaka buflen = sizeof(struct vmbus_gpa) * nsge; 1630 1.1 nonaka pktlen = sizeof(cp) + datalen + buflen; 1631 1.1 nonaka pktlen_aligned = roundup(pktlen, sizeof(uint64_t)); 1632 1.1 nonaka 1633 1.1 nonaka cp.cp_hdr.cph_type = VMBUS_CHANPKT_TYPE_GPA; 1634 1.1 nonaka cp.cp_hdr.cph_flags = VMBUS_CHANPKT_FLAG_RC; 1635 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_hlen, sizeof(cp) + buflen); 1636 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_tlen, pktlen_aligned); 1637 1.1 nonaka cp.cp_hdr.cph_tid = rid; 1638 1.1 nonaka cp.cp_gpa_cnt = nsge; 1639 1.1 nonaka cp.cp_rsvd = 0; 1640 1.1 nonaka 1641 1.1 nonaka iov[0].iov_base = &cp; 1642 1.1 nonaka iov[0].iov_len = sizeof(cp); 1643 1.1 nonaka 1644 1.1 nonaka iov[1].iov_base = sgl; 1645 1.1 nonaka iov[1].iov_len = buflen; 1646 1.1 nonaka 1647 1.1 nonaka iov[2].iov_base = data; 1648 1.1 nonaka iov[2].iov_len = datalen; 1649 1.1 nonaka 1650 1.1 nonaka iov[3].iov_base = &zeropad; 1651 1.1 nonaka iov[3].iov_len = pktlen_aligned - pktlen; 1652 1.1 nonaka 1653 1.1 nonaka mutex_enter(&ch->ch_wrd.rd_lock); 1654 1.1 nonaka rv = vmbus_ring_write(&ch->ch_wrd, iov, 4, &needsig); 1655 1.1 nonaka mutex_exit(&ch->ch_wrd.rd_lock); 1656 1.1 nonaka if (rv == 0 && needsig) 1657 1.1 nonaka vmbus_channel_setevent(sc, ch); 1658 1.1 nonaka 1659 1.1 nonaka return rv; 1660 1.1 nonaka } 1661 1.1 nonaka 1662 1.1 nonaka int 1663 1.1 nonaka vmbus_channel_send_prpl(struct vmbus_channel *ch, struct vmbus_gpa_range *prpl, 1664 1.1 nonaka uint32_t nprp, void *data, uint32_t datalen, uint64_t rid) 1665 1.1 nonaka { 1666 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1667 1.1 nonaka struct vmbus_chanpkt_prplist cp; 1668 1.1 nonaka struct iovec iov[4]; 1669 1.1 nonaka uint32_t buflen, pktlen, pktlen_aligned; 1670 1.1 nonaka uint64_t zeropad = 0; 1671 1.1 nonaka int rv, needsig = 0; 1672 1.1 nonaka 1673 1.1 nonaka buflen = sizeof(struct vmbus_gpa_range) * (nprp + 1); 1674 1.1 nonaka pktlen = sizeof(cp) + datalen + buflen; 1675 1.1 nonaka pktlen_aligned = roundup(pktlen, sizeof(uint64_t)); 1676 1.1 nonaka 1677 1.1 nonaka cp.cp_hdr.cph_type = VMBUS_CHANPKT_TYPE_GPA; 1678 1.1 nonaka cp.cp_hdr.cph_flags = VMBUS_CHANPKT_FLAG_RC; 1679 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_hlen, sizeof(cp) + buflen); 1680 1.1 nonaka VMBUS_CHANPKT_SETLEN(cp.cp_hdr.cph_tlen, pktlen_aligned); 1681 1.1 nonaka cp.cp_hdr.cph_tid = rid; 1682 1.1 nonaka cp.cp_range_cnt = 1; 1683 1.1 nonaka cp.cp_rsvd = 0; 1684 1.1 nonaka 1685 1.1 nonaka iov[0].iov_base = &cp; 1686 1.1 nonaka iov[0].iov_len = sizeof(cp); 1687 1.1 nonaka 1688 1.1 nonaka iov[1].iov_base = prpl; 1689 1.1 nonaka iov[1].iov_len = buflen; 1690 1.1 nonaka 1691 1.1 nonaka iov[2].iov_base = data; 1692 1.1 nonaka iov[2].iov_len = datalen; 1693 1.1 nonaka 1694 1.1 nonaka iov[3].iov_base = &zeropad; 1695 1.1 nonaka iov[3].iov_len = pktlen_aligned - pktlen; 1696 1.1 nonaka 1697 1.1 nonaka mutex_enter(&ch->ch_wrd.rd_lock); 1698 1.1 nonaka rv = vmbus_ring_write(&ch->ch_wrd, iov, 4, &needsig); 1699 1.1 nonaka mutex_exit(&ch->ch_wrd.rd_lock); 1700 1.1 nonaka if (rv == 0 && needsig) 1701 1.1 nonaka vmbus_channel_setevent(sc, ch); 1702 1.1 nonaka 1703 1.1 nonaka return rv; 1704 1.1 nonaka } 1705 1.1 nonaka 1706 1.1 nonaka static int 1707 1.1 nonaka vmbus_ring_peek(struct vmbus_ring_data *rrd, void *data, uint32_t datalen) 1708 1.1 nonaka { 1709 1.1 nonaka uint32_t avail; 1710 1.1 nonaka 1711 1.1 nonaka KASSERT(datalen <= rrd->rd_dsize); 1712 1.1 nonaka 1713 1.1 nonaka vmbus_ring_avail(rrd, NULL, &avail); 1714 1.1 nonaka if (avail < datalen) 1715 1.1 nonaka return EAGAIN; 1716 1.1 nonaka 1717 1.1 nonaka vmbus_ring_get(rrd, (uint8_t *)data, datalen, 1); 1718 1.1 nonaka return 0; 1719 1.1 nonaka } 1720 1.1 nonaka 1721 1.1 nonaka static int 1722 1.1 nonaka vmbus_ring_read(struct vmbus_ring_data *rrd, void *data, uint32_t datalen, 1723 1.1 nonaka uint32_t offset) 1724 1.1 nonaka { 1725 1.1 nonaka uint64_t indices; 1726 1.1 nonaka uint32_t avail; 1727 1.1 nonaka 1728 1.1 nonaka KASSERT(datalen <= rrd->rd_dsize); 1729 1.1 nonaka 1730 1.1 nonaka vmbus_ring_avail(rrd, NULL, &avail); 1731 1.1 nonaka if (avail < datalen) { 1732 1.1 nonaka DPRINTF("%s: avail %u datalen %u\n", __func__, avail, datalen); 1733 1.1 nonaka return EAGAIN; 1734 1.1 nonaka } 1735 1.1 nonaka 1736 1.1 nonaka if (offset) { 1737 1.1 nonaka rrd->rd_cons += offset; 1738 1.1 nonaka if (rrd->rd_cons >= rrd->rd_dsize) 1739 1.1 nonaka rrd->rd_cons -= rrd->rd_dsize; 1740 1.1 nonaka } 1741 1.1 nonaka 1742 1.1 nonaka vmbus_ring_get(rrd, (uint8_t *)data, datalen, 0); 1743 1.1 nonaka vmbus_ring_get(rrd, (uint8_t *)&indices, sizeof(indices), 0); 1744 1.1 nonaka 1745 1.1 nonaka membar_sync(); 1746 1.1 nonaka rrd->rd_ring->br_rindex = rrd->rd_cons; 1747 1.1 nonaka 1748 1.1 nonaka return 0; 1749 1.1 nonaka } 1750 1.1 nonaka 1751 1.1 nonaka int 1752 1.1 nonaka vmbus_channel_recv(struct vmbus_channel *ch, void *data, uint32_t datalen, 1753 1.1 nonaka uint32_t *rlen, uint64_t *rid, int raw) 1754 1.1 nonaka { 1755 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1756 1.1 nonaka struct vmbus_chanpkt_hdr cph; 1757 1.1 nonaka uint32_t offset, pktlen; 1758 1.1 nonaka int rv; 1759 1.1 nonaka 1760 1.1 nonaka *rlen = 0; 1761 1.1 nonaka 1762 1.1 nonaka mutex_enter(&ch->ch_rrd.rd_lock); 1763 1.1 nonaka 1764 1.1 nonaka if ((rv = vmbus_ring_peek(&ch->ch_rrd, &cph, sizeof(cph))) != 0) { 1765 1.1 nonaka mutex_exit(&ch->ch_rrd.rd_lock); 1766 1.1 nonaka return rv; 1767 1.1 nonaka } 1768 1.1 nonaka 1769 1.1 nonaka offset = raw ? 0 : VMBUS_CHANPKT_GETLEN(cph.cph_hlen); 1770 1.1 nonaka pktlen = VMBUS_CHANPKT_GETLEN(cph.cph_tlen) - offset; 1771 1.1 nonaka if (pktlen > datalen) { 1772 1.1 nonaka mutex_exit(&ch->ch_rrd.rd_lock); 1773 1.1 nonaka device_printf(sc->sc_dev, "%s: pktlen %u datalen %u\n", 1774 1.1 nonaka __func__, pktlen, datalen); 1775 1.1 nonaka return EINVAL; 1776 1.1 nonaka } 1777 1.1 nonaka 1778 1.1 nonaka rv = vmbus_ring_read(&ch->ch_rrd, data, pktlen, offset); 1779 1.1 nonaka if (rv == 0) { 1780 1.1 nonaka *rlen = pktlen; 1781 1.1 nonaka *rid = cph.cph_tid; 1782 1.1 nonaka } 1783 1.1 nonaka 1784 1.1 nonaka mutex_exit(&ch->ch_rrd.rd_lock); 1785 1.1 nonaka 1786 1.1 nonaka return rv; 1787 1.1 nonaka } 1788 1.1 nonaka 1789 1.1 nonaka static inline void 1790 1.1 nonaka vmbus_ring_mask(struct vmbus_ring_data *rd) 1791 1.1 nonaka { 1792 1.1 nonaka 1793 1.1 nonaka membar_sync(); 1794 1.1 nonaka rd->rd_ring->br_imask = 1; 1795 1.1 nonaka membar_sync(); 1796 1.1 nonaka } 1797 1.1 nonaka 1798 1.1 nonaka static inline void 1799 1.1 nonaka vmbus_ring_unmask(struct vmbus_ring_data *rd) 1800 1.1 nonaka { 1801 1.1 nonaka 1802 1.1 nonaka membar_sync(); 1803 1.1 nonaka rd->rd_ring->br_imask = 0; 1804 1.1 nonaka membar_sync(); 1805 1.1 nonaka } 1806 1.1 nonaka 1807 1.1 nonaka static void 1808 1.1 nonaka vmbus_channel_pause(struct vmbus_channel *ch) 1809 1.1 nonaka { 1810 1.1 nonaka 1811 1.1 nonaka vmbus_ring_mask(&ch->ch_rrd); 1812 1.1 nonaka } 1813 1.1 nonaka 1814 1.1 nonaka static uint32_t 1815 1.1 nonaka vmbus_channel_unpause(struct vmbus_channel *ch) 1816 1.1 nonaka { 1817 1.1 nonaka uint32_t avail; 1818 1.1 nonaka 1819 1.1 nonaka vmbus_ring_unmask(&ch->ch_rrd); 1820 1.1 nonaka vmbus_ring_avail(&ch->ch_rrd, NULL, &avail); 1821 1.1 nonaka 1822 1.1 nonaka return avail; 1823 1.1 nonaka } 1824 1.1 nonaka 1825 1.1 nonaka static uint32_t 1826 1.1 nonaka vmbus_channel_ready(struct vmbus_channel *ch) 1827 1.1 nonaka { 1828 1.1 nonaka uint32_t avail; 1829 1.1 nonaka 1830 1.1 nonaka vmbus_ring_avail(&ch->ch_rrd, NULL, &avail); 1831 1.1 nonaka 1832 1.1 nonaka return avail; 1833 1.1 nonaka } 1834 1.1 nonaka 1835 1.1 nonaka /* How many PFNs can be referenced by the header */ 1836 1.1 nonaka #define VMBUS_NPFNHDR ((VMBUS_MSG_DSIZE_MAX - \ 1837 1.1 nonaka sizeof(struct vmbus_chanmsg_gpadl_conn)) / sizeof(uint64_t)) 1838 1.1 nonaka 1839 1.1 nonaka /* How many PFNs can be referenced by the body */ 1840 1.1 nonaka #define VMBUS_NPFNBODY ((VMBUS_MSG_DSIZE_MAX - \ 1841 1.1 nonaka sizeof(struct vmbus_chanmsg_gpadl_subconn)) / sizeof(uint64_t)) 1842 1.1 nonaka 1843 1.1 nonaka int 1844 1.1 nonaka vmbus_handle_alloc(struct vmbus_channel *ch, const struct hyperv_dma *dma, 1845 1.1 nonaka uint32_t buflen, uint32_t *handle) 1846 1.1 nonaka { 1847 1.1 nonaka const int prflags = cold ? PR_NOWAIT : PR_WAITOK; 1848 1.1 nonaka const int kmemflags = cold ? KM_NOSLEEP : KM_SLEEP; 1849 1.1 nonaka const int msgflags = cold ? MSGF_NOSLEEP : 0; 1850 1.1 nonaka const int hcflags = cold ? HCF_NOSLEEP : HCF_SLEEPOK; 1851 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1852 1.1 nonaka struct vmbus_chanmsg_gpadl_conn *hdr; 1853 1.1 nonaka struct vmbus_chanmsg_gpadl_subconn *cmd; 1854 1.1 nonaka struct vmbus_chanmsg_gpadl_connresp rsp; 1855 1.1 nonaka struct vmbus_msg *msg; 1856 1.1 nonaka int i, j, last, left, rv; 1857 1.1 nonaka int bodylen = 0, ncmds = 0, pfn = 0; 1858 1.1 nonaka uint64_t *frames; 1859 1.1 nonaka paddr_t pa; 1860 1.1 nonaka uint8_t *body; 1861 1.1 nonaka /* Total number of pages to reference */ 1862 1.1 nonaka int total = atop(buflen); 1863 1.1 nonaka /* Number of pages that will fit the header */ 1864 1.1 nonaka int inhdr = MIN(total, VMBUS_NPFNHDR); 1865 1.1 nonaka 1866 1.1 nonaka KASSERT((buflen & PAGE_MASK) == 0); 1867 1.1 nonaka KASSERT(buflen == (uint32_t)dma->map->dm_mapsize); 1868 1.1 nonaka 1869 1.1 nonaka msg = pool_cache_get_paddr(sc->sc_msgpool, prflags, &pa); 1870 1.1 nonaka if (msg == NULL) 1871 1.1 nonaka return ENOMEM; 1872 1.1 nonaka 1873 1.1 nonaka /* Prepare array of frame addresses */ 1874 1.1 nonaka frames = kmem_zalloc(total * sizeof(*frames), kmemflags); 1875 1.1 nonaka if (frames == NULL) { 1876 1.1 nonaka pool_cache_put_paddr(sc->sc_msgpool, msg, pa); 1877 1.1 nonaka return ENOMEM; 1878 1.1 nonaka } 1879 1.1 nonaka for (i = 0, j = 0; i < dma->map->dm_nsegs && j < total; i++) { 1880 1.1 nonaka bus_dma_segment_t *seg = &dma->map->dm_segs[i]; 1881 1.1 nonaka bus_addr_t addr = seg->ds_addr; 1882 1.1 nonaka 1883 1.1 nonaka KASSERT((addr & PAGE_MASK) == 0); 1884 1.1 nonaka KASSERT((seg->ds_len & PAGE_MASK) == 0); 1885 1.1 nonaka 1886 1.1 nonaka while (addr < seg->ds_addr + seg->ds_len && j < total) { 1887 1.1 nonaka frames[j++] = atop(addr); 1888 1.1 nonaka addr += PAGE_SIZE; 1889 1.1 nonaka } 1890 1.1 nonaka } 1891 1.1 nonaka 1892 1.1 nonaka memset(msg, 0, sizeof(*msg)); 1893 1.1 nonaka msg->msg_req.hc_dsize = sizeof(struct vmbus_chanmsg_gpadl_conn) + 1894 1.1 nonaka inhdr * sizeof(uint64_t); 1895 1.1 nonaka hdr = (struct vmbus_chanmsg_gpadl_conn *)msg->msg_req.hc_data; 1896 1.1 nonaka msg->msg_rsp = &rsp; 1897 1.1 nonaka msg->msg_rsplen = sizeof(rsp); 1898 1.1 nonaka msg->msg_flags = msgflags; 1899 1.1 nonaka 1900 1.1 nonaka left = total - inhdr; 1901 1.1 nonaka 1902 1.1 nonaka /* Allocate additional gpadl_body structures if required */ 1903 1.1 nonaka if (left > 0) { 1904 1.1 nonaka ncmds = MAX(1, left / VMBUS_NPFNBODY + left % VMBUS_NPFNBODY); 1905 1.1 nonaka bodylen = ncmds * VMBUS_MSG_DSIZE_MAX; 1906 1.1 nonaka body = kmem_zalloc(bodylen, kmemflags); 1907 1.1 nonaka if (body == NULL) { 1908 1.1 nonaka kmem_free(frames, total * sizeof(*frames)); 1909 1.1 nonaka pool_cache_put_paddr(sc->sc_msgpool, msg, pa); 1910 1.1 nonaka return ENOMEM; 1911 1.1 nonaka } 1912 1.1 nonaka } 1913 1.1 nonaka 1914 1.1 nonaka *handle = atomic_add_int_nv(&sc->sc_handle, 1); 1915 1.1 nonaka 1916 1.1 nonaka hdr->chm_hdr.chm_type = VMBUS_CHANMSG_GPADL_CONN; 1917 1.1 nonaka hdr->chm_chanid = ch->ch_id; 1918 1.1 nonaka hdr->chm_gpadl = *handle; 1919 1.1 nonaka 1920 1.1 nonaka /* Single range for a contiguous buffer */ 1921 1.1 nonaka hdr->chm_range_cnt = 1; 1922 1.1 nonaka hdr->chm_range_len = sizeof(struct vmbus_gpa_range) + total * 1923 1.1 nonaka sizeof(uint64_t); 1924 1.1 nonaka hdr->chm_range.gpa_ofs = 0; 1925 1.1 nonaka hdr->chm_range.gpa_len = buflen; 1926 1.1 nonaka 1927 1.1 nonaka /* Fit as many pages as possible into the header */ 1928 1.1 nonaka for (i = 0; i < inhdr; i++) 1929 1.1 nonaka hdr->chm_range.gpa_page[i] = frames[pfn++]; 1930 1.1 nonaka 1931 1.1 nonaka for (i = 0; i < ncmds; i++) { 1932 1.1 nonaka cmd = (struct vmbus_chanmsg_gpadl_subconn *)(body + 1933 1.1 nonaka VMBUS_MSG_DSIZE_MAX * i); 1934 1.1 nonaka cmd->chm_hdr.chm_type = VMBUS_CHANMSG_GPADL_SUBCONN; 1935 1.1 nonaka cmd->chm_gpadl = *handle; 1936 1.1 nonaka last = MIN(left, VMBUS_NPFNBODY); 1937 1.1 nonaka for (j = 0; j < last; j++) 1938 1.1 nonaka cmd->chm_gpa_page[j] = frames[pfn++]; 1939 1.1 nonaka left -= last; 1940 1.1 nonaka } 1941 1.1 nonaka 1942 1.1 nonaka rv = vmbus_start(sc, msg, pa); 1943 1.1 nonaka if (rv != 0) { 1944 1.1 nonaka DPRINTF("%s: GPADL_CONN failed\n", device_xname(sc->sc_dev)); 1945 1.1 nonaka goto out; 1946 1.1 nonaka } 1947 1.1 nonaka for (i = 0; i < ncmds; i++) { 1948 1.1 nonaka int cmdlen = sizeof(*cmd); 1949 1.1 nonaka cmd = (struct vmbus_chanmsg_gpadl_subconn *)(body + 1950 1.1 nonaka VMBUS_MSG_DSIZE_MAX * i); 1951 1.1 nonaka /* Last element can be short */ 1952 1.1 nonaka if (i == ncmds - 1) 1953 1.1 nonaka cmdlen += last * sizeof(uint64_t); 1954 1.1 nonaka else 1955 1.1 nonaka cmdlen += VMBUS_NPFNBODY * sizeof(uint64_t); 1956 1.1 nonaka rv = vmbus_cmd(sc, cmd, cmdlen, NULL, 0, HCF_NOREPLY | hcflags); 1957 1.1 nonaka if (rv != 0) { 1958 1.1 nonaka DPRINTF("%s: GPADL_SUBCONN (iteration %d/%d) failed " 1959 1.1 nonaka "with %d\n", device_xname(sc->sc_dev), i, ncmds, 1960 1.1 nonaka rv); 1961 1.1 nonaka goto out; 1962 1.1 nonaka } 1963 1.1 nonaka } 1964 1.1 nonaka rv = vmbus_reply(sc, msg); 1965 1.1 nonaka if (rv != 0) { 1966 1.1 nonaka DPRINTF("%s: GPADL allocation failed with %d\n", 1967 1.1 nonaka device_xname(sc->sc_dev), rv); 1968 1.1 nonaka } 1969 1.1 nonaka 1970 1.1 nonaka out: 1971 1.1 nonaka if (bodylen > 0) 1972 1.1 nonaka kmem_free(body, bodylen); 1973 1.1 nonaka kmem_free(frames, total * sizeof(*frames)); 1974 1.1 nonaka pool_cache_put_paddr(sc->sc_msgpool, msg, pa); 1975 1.1 nonaka if (rv) 1976 1.1 nonaka return rv; 1977 1.1 nonaka 1978 1.1 nonaka KASSERT(*handle == rsp.chm_gpadl); 1979 1.1 nonaka 1980 1.1 nonaka return 0; 1981 1.1 nonaka } 1982 1.1 nonaka 1983 1.1 nonaka void 1984 1.1 nonaka vmbus_handle_free(struct vmbus_channel *ch, uint32_t handle) 1985 1.1 nonaka { 1986 1.1 nonaka struct vmbus_softc *sc = ch->ch_sc; 1987 1.1 nonaka struct vmbus_chanmsg_gpadl_disconn cmd; 1988 1.1 nonaka struct vmbus_chanmsg_gpadl_disconn rsp; 1989 1.1 nonaka int rv; 1990 1.1 nonaka 1991 1.1 nonaka memset(&cmd, 0, sizeof(cmd)); 1992 1.1 nonaka cmd.chm_hdr.chm_type = VMBUS_CHANMSG_GPADL_DISCONN; 1993 1.1 nonaka cmd.chm_chanid = ch->ch_id; 1994 1.1 nonaka cmd.chm_gpadl = handle; 1995 1.1 nonaka 1996 1.1 nonaka rv = vmbus_cmd(sc, &cmd, sizeof(cmd), &rsp, sizeof(rsp), 1997 1.1 nonaka cold ? HCF_NOSLEEP : HCF_SLEEPOK); 1998 1.1 nonaka if (rv) { 1999 1.1 nonaka DPRINTF("%s: GPADL_DISCONN failed with %d\n", 2000 1.1 nonaka device_xname(sc->sc_dev), rv); 2001 1.1 nonaka } 2002 1.1 nonaka } 2003 1.1 nonaka 2004 1.1 nonaka static int 2005 1.1 nonaka vmbus_attach_print(void *aux, const char *name) 2006 1.1 nonaka { 2007 1.1 nonaka struct vmbus_attach_args *aa = aux; 2008 1.1 nonaka 2009 1.1 nonaka if (name) 2010 1.1 nonaka printf("\"%s\" at %s", aa->aa_ident, name); 2011 1.1 nonaka 2012 1.1 nonaka return UNCONF; 2013 1.1 nonaka } 2014 1.1 nonaka 2015 1.1 nonaka static int 2016 1.1 nonaka vmbus_attach_icdevs(struct vmbus_softc *sc) 2017 1.1 nonaka { 2018 1.1 nonaka struct vmbus_dev *dv; 2019 1.1 nonaka struct vmbus_channel *ch; 2020 1.1 nonaka 2021 1.1 nonaka SLIST_INIT(&sc->sc_icdevs); 2022 1.1 nonaka mutex_init(&sc->sc_icdev_lock, MUTEX_DEFAULT, IPL_NET); 2023 1.1 nonaka 2024 1.1 nonaka TAILQ_FOREACH(ch, &sc->sc_channels, ch_entry) { 2025 1.1 nonaka if (ch->ch_state != VMBUS_CHANSTATE_OFFERED) 2026 1.1 nonaka continue; 2027 1.1 nonaka if (ch->ch_flags & CHF_MONITOR) 2028 1.1 nonaka continue; 2029 1.1 nonaka 2030 1.1 nonaka dv = kmem_zalloc(sizeof(*dv), cold ? KM_NOSLEEP : KM_SLEEP); 2031 1.1 nonaka if (dv == NULL) { 2032 1.1 nonaka device_printf(sc->sc_dev, 2033 1.1 nonaka "failed to allocate ic device object\n"); 2034 1.1 nonaka return ENOMEM; 2035 1.1 nonaka } 2036 1.1 nonaka dv->dv_aa.aa_type = &ch->ch_type; 2037 1.1 nonaka dv->dv_aa.aa_inst = &ch->ch_inst; 2038 1.1 nonaka dv->dv_aa.aa_ident = ch->ch_ident; 2039 1.1 nonaka dv->dv_aa.aa_chan = ch; 2040 1.3 nonaka dv->dv_aa.aa_iot = sc->sc_iot; 2041 1.3 nonaka dv->dv_aa.aa_memt = sc->sc_memt; 2042 1.1 nonaka mutex_enter(&sc->sc_icdev_lock); 2043 1.1 nonaka SLIST_INSERT_HEAD(&sc->sc_icdevs, dv, dv_entry); 2044 1.1 nonaka mutex_exit(&sc->sc_icdev_lock); 2045 1.1 nonaka ch->ch_dev = config_found_ia(sc->sc_dev, "hypervvmbus", 2046 1.1 nonaka &dv->dv_aa, vmbus_attach_print); 2047 1.1 nonaka } 2048 1.1 nonaka return 0; 2049 1.1 nonaka } 2050 1.1 nonaka 2051 1.1 nonaka static int 2052 1.1 nonaka vmbus_attach_devices(struct vmbus_softc *sc) 2053 1.1 nonaka { 2054 1.1 nonaka struct vmbus_dev *dv; 2055 1.1 nonaka struct vmbus_channel *ch; 2056 1.1 nonaka 2057 1.1 nonaka SLIST_INIT(&sc->sc_devs); 2058 1.1 nonaka mutex_init(&sc->sc_dev_lock, MUTEX_DEFAULT, IPL_NET); 2059 1.1 nonaka 2060 1.1 nonaka TAILQ_FOREACH(ch, &sc->sc_channels, ch_entry) { 2061 1.1 nonaka if (ch->ch_state != VMBUS_CHANSTATE_OFFERED) 2062 1.1 nonaka continue; 2063 1.1 nonaka if (!(ch->ch_flags & CHF_MONITOR)) 2064 1.1 nonaka continue; 2065 1.1 nonaka 2066 1.1 nonaka dv = kmem_zalloc(sizeof(*dv), cold ? KM_NOSLEEP : KM_SLEEP); 2067 1.1 nonaka if (dv == NULL) { 2068 1.1 nonaka device_printf(sc->sc_dev, 2069 1.1 nonaka "failed to allocate device object\n"); 2070 1.1 nonaka return ENOMEM; 2071 1.1 nonaka } 2072 1.1 nonaka dv->dv_aa.aa_type = &ch->ch_type; 2073 1.1 nonaka dv->dv_aa.aa_inst = &ch->ch_inst; 2074 1.1 nonaka dv->dv_aa.aa_ident = ch->ch_ident; 2075 1.1 nonaka dv->dv_aa.aa_chan = ch; 2076 1.3 nonaka dv->dv_aa.aa_iot = sc->sc_iot; 2077 1.3 nonaka dv->dv_aa.aa_memt = sc->sc_memt; 2078 1.1 nonaka mutex_enter(&sc->sc_dev_lock); 2079 1.1 nonaka SLIST_INSERT_HEAD(&sc->sc_devs, dv, dv_entry); 2080 1.1 nonaka mutex_exit(&sc->sc_dev_lock); 2081 1.1 nonaka ch->ch_dev = config_found_ia(sc->sc_dev, "hypervvmbus", 2082 1.1 nonaka &dv->dv_aa, vmbus_attach_print); 2083 1.1 nonaka } 2084 1.1 nonaka return 0; 2085 1.1 nonaka } 2086 1.1 nonaka 2087 1.1 nonaka MODULE(MODULE_CLASS_DRIVER, vmbus, "hyperv"); 2088 1.1 nonaka 2089 1.1 nonaka #ifdef _MODULE 2090 1.1 nonaka #include "ioconf.c" 2091 1.1 nonaka #endif 2092 1.1 nonaka 2093 1.1 nonaka static int 2094 1.1 nonaka vmbus_modcmd(modcmd_t cmd, void *aux) 2095 1.1 nonaka { 2096 1.1 nonaka int rv = 0; 2097 1.1 nonaka 2098 1.1 nonaka switch (cmd) { 2099 1.1 nonaka case MODULE_CMD_INIT: 2100 1.1 nonaka #ifdef _MODULE 2101 1.1 nonaka rv = config_init_component(cfdriver_ioconf_vmbus, 2102 1.1 nonaka cfattach_ioconf_vmbus, cfdata_ioconf_vmbus); 2103 1.1 nonaka #endif 2104 1.1 nonaka break; 2105 1.1 nonaka 2106 1.1 nonaka case MODULE_CMD_FINI: 2107 1.1 nonaka #ifdef _MODULE 2108 1.1 nonaka rv = config_fini_component(cfdriver_ioconf_vmbus, 2109 1.1 nonaka cfattach_ioconf_vmbus, cfdata_ioconf_vmbus); 2110 1.1 nonaka #endif 2111 1.1 nonaka break; 2112 1.1 nonaka 2113 1.1 nonaka default: 2114 1.1 nonaka rv = ENOTTY; 2115 1.1 nonaka break; 2116 1.1 nonaka } 2117 1.1 nonaka 2118 1.1 nonaka return rv; 2119 1.1 nonaka } 2120
Indexes created Tue Oct 07 21:09:53 GMT 2025