1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 26 27 /* 28 * OPL IPSec Key Management Driver. 29 * 30 * This driver runs on a OPL Domain. It processes requests received 31 * from the OPL Service Processor (SP) via mailbox message. It passes 32 * these requests to the sckmd daemon by means of an /ioctl interface. 33 * 34 * Requests received from the SP consist of IPsec security associations 35 * (SAs) needed to secure the communication between SC and Domain daemons 36 * communicating using DSCP. 37 */ 38 39 #include <sys/types.h> 40 #include <sys/cmn_err.h> 41 #include <sys/kmem.h> 42 #include <sys/errno.h> 43 #include <sys/file.h> 44 #include <sys/open.h> 45 #include <sys/stat.h> 46 #include <sys/conf.h> 47 #include <sys/ddi.h> 48 #include <sys/cmn_err.h> 49 #include <sys/sunddi.h> 50 #include <sys/sunndi.h> 51 #include <sys/ddi_impldefs.h> 52 #include <sys/ndi_impldefs.h> 53 #include <sys/modctl.h> 54 #include <sys/disp.h> 55 #include <sys/note.h> 56 #include <sys/byteorder.h> 57 #include <sys/sdt.h> 58 59 #include <sys/scfd/scfdscpif.h> 60 #include <sys/oplkm_msg.h> 61 #include <sys/sckm_io.h> 62 #include <sys/oplkm.h> 63 64 #define OKM_NODENAME "oplkmdrv" /* Node name */ 65 #define OKM_TARGET_ID 0 /* Target ID */ 66 #define OKM_SM_TOUT 5000 /* small timeout (5msec) */ 67 #define OKM_LG_TOUT 50000 /* large timeout (50msec) */ 68 #define OKM_MB_TOUT 10000000 /* Mailbox timeout (10sec) */ 69 70 okms_t okms_global; /* Global instance structure */ 71 72 #ifdef DEBUG 73 uint32_t okm_debug = DBG_WARN; 74 #endif 75 76 /* 77 * Prototypes for the module related functions. 78 */ 79 int okm_attach(dev_info_t *devi, ddi_attach_cmd_t cmd); 80 int okm_detach(dev_info_t *devi, ddi_detach_cmd_t cmd); 81 int okm_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result); 82 int okm_open(dev_t *devp, int flag, int otyp, struct cred *cred); 83 int okm_close(dev_t dev, int flag, int otyp, struct cred *cred); 84 int okm_ioctl(dev_t dev, int cmd, intptr_t data, int flag, 85 cred_t *cred, int *rvalp); 86 87 /* 88 * Prototypes for the internal functions. 89 */ 90 int okm_get_req(okms_t *okmsp, sckm_ioctl_getreq_t *ireqp, 91 intptr_t data, int flag); 92 int okm_process_req(okms_t *okmsp, okm_req_hdr_t *reqp, uint32_t len, 93 sckm_ioctl_getreq_t *ireqp, intptr_t data, int flag); 94 int okm_process_status(okms_t *okmsp, sckm_ioctl_status_t *ireply); 95 void okm_event_handler(scf_event_t event, void *arg); 96 int okm_send_reply(okms_t *okmsp, uint32_t transid, uint32_t status, 97 uint32_t sadb_err, uint32_t sadb_ver); 98 int block_until_ready(okms_t *okmsp); 99 static int okm_copyin_ioctl_getreq(intptr_t userarg, 100 sckm_ioctl_getreq_t *driverarg, int flag); 101 static int okm_copyout_ioctl_getreq(sckm_ioctl_getreq_t *driverarg, 102 intptr_t userarg, int flag); 103 static void okm_cleanup(okms_t *okmsp); 104 static int okm_mbox_init(okms_t *okmsp); 105 static void okm_mbox_fini(okms_t *okmsp); 106 static clock_t okm_timeout_val(int error); 107 108 109 struct cb_ops okm_cb_ops = { 110 okm_open, /* open */ 111 okm_close, /* close */ 112 nodev, /* strategy */ 113 nodev, /* print */ 114 nodev, /* dump */ 115 nodev, /* read */ 116 nodev, /* write */ 117 okm_ioctl, /* ioctl */ 118 nodev, /* devmap */ 119 nodev, /* mmap */ 120 nodev, /* segmap */ 121 nochpoll, /* poll */ 122 ddi_prop_op, /* prop_op */ 123 0, /* streamtab */ 124 D_NEW | D_MP /* Driver compatibility flag */ 125 }; 126 127 struct dev_ops okm_ops = { 128 DEVO_REV, /* devo_rev, */ 129 0, /* refcnt */ 130 okm_info, /* get_dev_info */ 131 nulldev, /* identify */ 132 nulldev, /* probe */ 133 okm_attach, /* attach */ 134 okm_detach, /* detach */ 135 nodev, /* reset */ 136 &okm_cb_ops, /* driver operations */ 137 (struct bus_ops *)0, /* no bus operations */ 138 NULL, /* power */ 139 ddi_quiesce_not_needed, /* quiesce */ 140 }; 141 142 struct modldrv modldrv = { 143 &mod_driverops, 144 "OPL Key Management Driver", 145 &okm_ops, 146 }; 147 148 struct modlinkage modlinkage = { 149 MODREV_1, 150 &modldrv, 151 NULL 152 }; 153 154 155 /* 156 * _init - Module's init routine. 157 */ 158 int 159 _init(void) 160 { 161 int ret; 162 163 if ((ret = mod_install(&modlinkage)) != 0) { 164 cmn_err(CE_WARN, "mod_install failed, error = %d", ret); 165 } 166 return (ret); 167 } 168 169 /* 170 * _fini - Module's fini routine. 171 */ 172 int 173 _fini(void) 174 { 175 int ret; 176 177 if ((ret = mod_remove(&modlinkage)) != 0) { 178 return (ret); 179 } 180 return (ret); 181 } 182 183 /* 184 * _info - Module's info routine. 185 */ 186 int 187 _info(struct modinfo *modinfop) 188 { 189 return (mod_info(&modlinkage, modinfop)); 190 } 191 192 /* 193 * okm_attach - Module's attach routine. 194 * 195 * Description: Initializes the modules state structure and create 196 * the minor device node. 197 */ 198 int 199 okm_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) 200 { 201 int instance; 202 okms_t *okmsp = &okms_global; 203 204 instance = ddi_get_instance(dip); 205 206 /* Only one instance is supported. */ 207 if (instance != 0) { 208 return (DDI_FAILURE); 209 } 210 211 if (cmd != DDI_ATTACH) { 212 return (DDI_FAILURE); 213 } 214 215 okmsp->km_dip = dip; 216 okmsp->km_major = ddi_driver_major(dip); 217 okmsp->km_inst = instance; 218 219 /* 220 * Get an interrupt block cookie corresponding to the 221 * interrupt priority of the event handler. 222 * Assert that the event priority is not redefined to 223 * some other priority. 224 */ 225 /* LINTED */ 226 ASSERT(SCF_EVENT_PRI == DDI_SOFTINT_LOW); 227 if (ddi_get_soft_iblock_cookie(dip, SCF_EVENT_PRI, 228 &okmsp->km_ibcookie) != DDI_SUCCESS) { 229 cmn_err(CE_WARN, "ddi_get_soft_iblock_cookie failed."); 230 return (DDI_FAILURE); 231 } 232 mutex_init(&okmsp->km_lock, NULL, MUTEX_DRIVER, 233 (void *)okmsp->km_ibcookie); 234 okmsp->km_clean |= OKM_CLEAN_LOCK; 235 cv_init(&okmsp->km_wait, NULL, CV_DRIVER, NULL); 236 okmsp->km_clean |= OKM_CLEAN_CV; 237 238 /* 239 * set clean_node ahead as remove_node has to be called even 240 * if create node fails. 241 */ 242 okmsp->km_clean |= OKM_CLEAN_NODE; 243 if (ddi_create_minor_node(dip, OKM_NODENAME, S_IFCHR, 244 instance, NULL, NULL) == DDI_FAILURE) { 245 cmn_err(CE_WARN, "Device node creation failed"); 246 okm_cleanup(okmsp); 247 return (DDI_FAILURE); 248 } 249 250 ddi_set_driver_private(dip, (caddr_t)okmsp); 251 ddi_report_dev(dip); 252 return (DDI_SUCCESS); 253 } 254 255 /* 256 * okm_detach - Module's detach routine. 257 * 258 * Description: Cleans up the module's state structures and any other 259 * relevant data. 260 */ 261 int 262 okm_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) 263 { 264 okms_t *okmsp; 265 266 if (cmd != DDI_DETACH) { 267 return (DDI_FAILURE); 268 } 269 270 if ((okmsp = ddi_get_driver_private(dip)) == NULL) { 271 return (DDI_FAILURE); 272 } 273 274 mutex_enter(&okmsp->km_lock); 275 /* 276 * Check if the mailbox is still in use. 277 */ 278 if (okmsp->km_state & OKM_MB_INITED) { 279 mutex_exit(&okmsp->km_lock); 280 cmn_err(CE_WARN, "Detach failure: Mailbox in use"); 281 return (DDI_FAILURE); 282 } 283 mutex_exit(&okmsp->km_lock); 284 okm_cleanup(okmsp); 285 ddi_set_driver_private(dip, NULL); 286 return (DDI_SUCCESS); 287 } 288 289 /* 290 * okm_info - Module's info routine. 291 */ 292 /* ARGSUSED */ 293 int 294 okm_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) 295 { 296 okms_t *okmsp = &okms_global; 297 minor_t minor; 298 int ret = DDI_FAILURE; 299 300 switch (infocmd) { 301 case DDI_INFO_DEVT2DEVINFO: 302 /* 303 * We have the case here where the minor number 304 * is the same as the instance number. So, just 305 * make sure we have the right minor node in our 306 * global state. If we don't, set the result to NULL. 307 */ 308 minor = getminor((dev_t)arg); 309 if (okmsp->km_inst != minor) { 310 *result = NULL; 311 } else { 312 *result = okmsp->km_dip; 313 ret = DDI_SUCCESS; 314 } 315 break; 316 317 case DDI_INFO_DEVT2INSTANCE: 318 minor = getminor((dev_t)arg); 319 *result = (void *)(uintptr_t)minor; 320 ret = DDI_SUCCESS; 321 322 default: 323 break; 324 } 325 return (ret); 326 } 327 328 /* 329 * okm_open - Device open routine. 330 * 331 * Description: Initializes the mailbox and waits until the mailbox 332 * gets connected. Only one open at a time is supported. 333 */ 334 /*ARGSUSED*/ 335 int 336 okm_open(dev_t *devp, int flag, int otyp, struct cred *cred) 337 { 338 okms_t *okmsp = &okms_global; 339 int ret = 0; 340 341 DPRINTF(DBG_DRV, ("okm_open: called\n")); 342 mutex_enter(&okmsp->km_lock); 343 if (okmsp->km_state & OKM_OPENED) { 344 /* Only one open supported */ 345 mutex_exit(&okmsp->km_lock); 346 DPRINTF(DBG_WARN, ("okm_open: already opened\n")); 347 return (EBUSY); 348 } 349 okmsp->km_state |= OKM_OPENED; 350 ret = block_until_ready(okmsp); 351 if (ret != 0) { 352 okmsp->km_state &= ~OKM_OPENED; 353 } 354 mutex_exit(&okmsp->km_lock); 355 DPRINTF(DBG_DRV, ("okm_open: ret=%d\n", ret)); 356 return (ret); 357 } 358 359 /* 360 * block_until_ready - Function to wait until the mailbox is ready to use. 361 * 362 * Description: It initializes the mailbox and waits for the mailbox 363 * state to transition to connected. 364 */ 365 int 366 block_until_ready(okms_t *okmsp) 367 { 368 int ret = 0; 369 370 DPRINTF(DBG_DRV, ("block_until_ready: called\n")); 371 ASSERT(MUTEX_HELD(&okmsp->km_lock)); 372 373 if (okmsp->km_state & OKM_MB_DISC) { 374 DPRINTF(DBG_DRV, ("block_until_ready: closing the mailbox\n")); 375 okm_mbox_fini(okmsp); 376 } 377 if (okmsp->km_state & OKM_MB_CONN) { 378 DPRINTF(DBG_DRV, ("block_until_ready: mailbox connected\n")); 379 return (0); 380 } 381 /* 382 * Initialize mailbox. 383 */ 384 if ((ret = okm_mbox_init(okmsp)) != 0) { 385 DPRINTF(DBG_MBOX, 386 ("block_until_ready: mailbox init failed ret=%d\n", ret)); 387 return (ret); 388 } 389 DPRINTF(DBG_DRV, ("block_until_ready: ret=%d", ret)); 390 return (ret); 391 } 392 393 /* 394 * okm_close - Device close routine. 395 * 396 * Description: Closes the mailbox. 397 */ 398 /*ARGSUSED*/ 399 int 400 okm_close(dev_t dev, int flag, int otyp, struct cred *cred) 401 { 402 okms_t *okmsp = &okms_global; 403 404 DPRINTF(DBG_DRV, ("okm_close: called\n")); 405 /* Close the lower layer first */ 406 mutex_enter(&okmsp->km_lock); 407 okm_mbox_fini(okmsp); 408 okmsp->km_state = 0; 409 mutex_exit(&okmsp->km_lock); 410 return (0); 411 } 412 413 414 /* 415 * okm_ioctl - Device ioctl routine. 416 * 417 * Description: Processes ioctls from the daemon. 418 */ 419 /*ARGSUSED*/ 420 int 421 okm_ioctl(dev_t dev, int cmd, intptr_t data, int flag, cred_t *cred, int *rvalp) 422 { 423 okms_t *okmsp = &okms_global; 424 sckm_ioctl_getreq_t ireq; 425 sckm_ioctl_status_t istatus; 426 int ret = 0; 427 428 switch (cmd) { 429 case SCKM_IOCTL_GETREQ: 430 431 DPRINTF(DBG_DRV, ("okm_ioctl: GETREQ\n")); 432 if (okm_copyin_ioctl_getreq(data, &ireq, flag)) { 433 return (EFAULT); 434 } 435 436 ret = okm_get_req(okmsp, &ireq, data, flag); 437 DPRINTF(DBG_DRV, ("okm_ioctl: GETREQ ret=%d\n", ret)); 438 break; 439 440 case SCKM_IOCTL_STATUS: 441 442 DPRINTF(DBG_DRV, ("okm_ioctl: STATUS\n")); 443 if (ddi_copyin((caddr_t)data, &istatus, 444 sizeof (sckm_ioctl_status_t), flag)) { 445 return (EFAULT); 446 } 447 ret = okm_process_status(okmsp, &istatus); 448 DPRINTF(DBG_DRV, ("okm_ioctl: STATUS ret=%d\n", ret)); 449 break; 450 451 default: 452 DPRINTF(DBG_DRV, ("okm_ioctl: UNKNOWN ioctl\n")); 453 ret = EINVAL; 454 } 455 return (ret); 456 } 457 458 /* 459 * okm_get_req - Get a request from the mailbox. 460 * 461 * Description: It blocks until a message is received, then processes 462 * the message and returns it to the requestor. 463 */ 464 int 465 okm_get_req(okms_t *okmsp, sckm_ioctl_getreq_t *ireqp, intptr_t data, int flag) 466 { 467 okm_req_hdr_t *reqp; 468 caddr_t msgbuf; 469 uint32_t len; 470 int ret; 471 472 DPRINTF(DBG_DRV, ("okm_getreq: called\n")); 473 mutex_enter(&okmsp->km_lock); 474 if ((ret = block_until_ready(okmsp)) != 0) { 475 mutex_exit(&okmsp->km_lock); 476 DPRINTF(DBG_WARN, ("okm_getreq: failed ret=%d\n", ret)); 477 return (ret); 478 } 479 480 if (okmsp->km_reqp != NULL) { 481 DPRINTF(DBG_DRV, ("okm_getreq: req cached\n")); 482 reqp = okmsp->km_reqp; 483 len = okmsp->km_reqlen; 484 okmsp->km_reqp = NULL; 485 okmsp->km_reqlen = 0; 486 } else { 487 retry: 488 while (OKM_MBOX_READY(okmsp) && 489 ((ret = scf_mb_canget(okmsp->km_target, 490 okmsp->km_key, &len)) != 0)) { 491 if (ret != ENOMSG) { 492 DPRINTF(DBG_WARN, ("okm_getreq: Unknown " 493 "mbox failure=%d\n", ret)); 494 mutex_exit(&okmsp->km_lock); 495 return (EIO); 496 } 497 DPRINTF(DBG_MBOX, ("okm_getreq: waiting for mesg\n")); 498 if (cv_wait_sig(&okmsp->km_wait, 499 &okmsp->km_lock) <= 0) { 500 mutex_exit(&okmsp->km_lock); 501 DPRINTF(DBG_DRV, ("okm_getreq:interrupted\n")); 502 return (EINTR); 503 } 504 } 505 if (!OKM_MBOX_READY(okmsp)) { 506 mutex_exit(&okmsp->km_lock); 507 DPRINTF(DBG_WARN, ("okm_getreq: mailbox not ready\n")); 508 return (EIO); 509 } 510 ASSERT(len != 0); 511 msgbuf = kmem_alloc(len, KM_SLEEP); 512 okmsp->km_sg_rcv.msc_dptr = msgbuf; 513 okmsp->km_sg_rcv.msc_len = len; 514 515 DPRINTF(DBG_MBOX, ("okm_getreq: getmsg\n")); 516 ret = scf_mb_getmsg(okmsp->km_target, okmsp->km_key, len, 1, 517 &okmsp->km_sg_rcv, 0); 518 if (ret == ENOMSG || ret == EMSGSIZE) { 519 kmem_free(msgbuf, len); 520 DPRINTF(DBG_MBOX, ("okm_getreq: nomsg ret=%d\n", ret)); 521 goto retry; 522 } else if (ret != 0) { 523 kmem_free(msgbuf, len); 524 mutex_exit(&okmsp->km_lock); 525 DPRINTF(DBG_WARN, 526 ("okm_getreq: Unknown mbox failure=%d\n", ret)); 527 return (EIO); 528 } 529 530 /* check message length */ 531 if (len < sizeof (okm_req_hdr_t)) { 532 /* protocol error, drop message */ 533 kmem_free(msgbuf, len); 534 mutex_exit(&okmsp->km_lock); 535 DPRINTF(DBG_WARN, ("okm_getreq: Bad message\n")); 536 return (EBADMSG); 537 } 538 539 reqp = (okm_req_hdr_t *)msgbuf; 540 reqp->krq_version = ntohl(reqp->krq_version); 541 reqp->krq_transid = ntohl(reqp->krq_transid); 542 reqp->krq_cmd = ntohl(reqp->krq_cmd); 543 reqp->krq_reserved = ntohl(reqp->krq_reserved); 544 545 /* check version of the message received */ 546 if (reqp->krq_version != OKM_PROTOCOL_VERSION) { 547 okm_send_reply(okmsp, reqp->krq_transid, 548 OKM_ERR_VERSION, 0, 0); 549 kmem_free(msgbuf, len); 550 mutex_exit(&okmsp->km_lock); 551 DPRINTF(DBG_WARN, ("okm_getreq: Unknown version=%d\n", 552 reqp->krq_version)); 553 return (EBADMSG); 554 } 555 } 556 557 /* process message */ 558 ret = okm_process_req(okmsp, reqp, len, ireqp, data, flag); 559 if (okmsp->km_reqp == NULL) { 560 /* 561 * The message is not saved, so free the buffer. 562 */ 563 kmem_free(reqp, len); 564 } 565 mutex_exit(&okmsp->km_lock); 566 DPRINTF(DBG_DRV, ("okm_getreq: ret=%d\n", ret)); 567 return (ret); 568 } 569 570 571 /* 572 * okm_process_req - Process the request. 573 * 574 * Description: Validate the request and then give the request to the 575 * daemon. 576 */ 577 int 578 okm_process_req(okms_t *okmsp, okm_req_hdr_t *reqp, uint32_t len, 579 sckm_ioctl_getreq_t *ireqp, intptr_t data, int flag) 580 { 581 void *req_datap = (void *)(((char *)reqp) + sizeof (okm_req_hdr_t)); 582 int sadb_msglen = len - sizeof (okm_req_hdr_t); 583 584 DPRINTF(DBG_DRV, ("okm_process_req: called\n")); 585 DUMP_REQ(reqp, len); 586 587 switch (reqp->krq_cmd) { 588 case OKM_MSG_SADB: 589 /* sanity check request */ 590 if (sadb_msglen <= 0) { 591 okm_send_reply(okmsp, reqp->krq_transid, 592 OKM_ERR_SADB_MSG, 0, 0); 593 DPRINTF(DBG_WARN, ("okm_process_req: bad message\n")); 594 return (EBADMSG); 595 } 596 597 /* 598 * Save the message, prior to giving it to the daemon. 599 */ 600 okmsp->km_reqp = reqp; 601 okmsp->km_reqlen = len; 602 603 if (ireqp->buf_len < len) { 604 DPRINTF(DBG_WARN, 605 ("okm_process_req: not enough space\n")); 606 return (ENOSPC); 607 } 608 609 ireqp->transid = reqp->krq_transid; 610 ireqp->type = SCKM_IOCTL_REQ_SADB; 611 if (ddi_copyout(req_datap, ireqp->buf, sadb_msglen, flag)) { 612 DPRINTF(DBG_WARN, 613 ("okm_process_req: copyout failed\n")); 614 return (EFAULT); 615 } 616 ireqp->buf_len = sadb_msglen; 617 if (okm_copyout_ioctl_getreq(ireqp, data, flag)) { 618 DPRINTF(DBG_WARN, 619 ("okm_process_req: copyout failed\n")); 620 return (EFAULT); 621 } 622 break; 623 624 default: 625 cmn_err(CE_WARN, "Unknown cmd 0x%x received", reqp->krq_cmd); 626 /* 627 * Received an unknown command, send corresponding 628 * error message. 629 */ 630 okm_send_reply(okmsp, reqp->krq_transid, OKM_ERR_BAD_CMD, 0, 0); 631 return (EBADMSG); 632 } 633 DPRINTF(DBG_DRV, ("okm_process_req: ret=0\n")); 634 return (0); 635 } 636 637 /* 638 * okm_process_status - Process the status from the daemon. 639 * 640 * Description: Processes the status received from the daemon and sends 641 * corresponding message to the SP. 642 */ 643 int 644 okm_process_status(okms_t *okmsp, sckm_ioctl_status_t *ireply) 645 { 646 uint32_t status; 647 uint32_t sadb_msg_errno = 0; 648 uint32_t sadb_msg_version = 0; 649 okm_req_hdr_t *reqp = okmsp->km_reqp; 650 int ret; 651 652 DPRINTF(DBG_DRV, ("okm_process_status: called\n")); 653 mutex_enter(&okmsp->km_lock); 654 if ((ret = block_until_ready(okmsp)) != 0) { 655 mutex_exit(&okmsp->km_lock); 656 DPRINTF(DBG_WARN, 657 ("okm_process_status: Unknown failure=%d\n", ret)); 658 return (ret); 659 } 660 661 /* fail if no status is expected, or if it does not match */ 662 if (!okmsp->km_reqp || (reqp->krq_transid != ireply->transid)) { 663 mutex_exit(&okmsp->km_lock); 664 DPRINTF(DBG_WARN, 665 ("okm_process_status: req/transid mismatch\n")); 666 return (EINVAL); 667 } 668 669 switch (ireply->status) { 670 case SCKM_IOCTL_STAT_SUCCESS: 671 DPRINTF(DBG_DRV, ("okm_process_status: SUCCESS\n")); 672 status = OKM_SUCCESS; 673 break; 674 case SCKM_IOCTL_STAT_ERR_PFKEY: 675 DPRINTF(DBG_DRV, ("okm_process_status: PFKEY ERROR\n")); 676 status = OKM_ERR_SADB_PFKEY; 677 sadb_msg_errno = ireply->sadb_msg_errno; 678 break; 679 case SCKM_IOCTL_STAT_ERR_REQ: 680 DPRINTF(DBG_DRV, ("okm_process_status: REQ ERROR\n")); 681 status = OKM_ERR_DAEMON; 682 break; 683 case SCKM_IOCTL_STAT_ERR_VERSION: 684 DPRINTF(DBG_DRV, ("okm_process_status: SADB VERSION ERROR\n")); 685 status = OKM_ERR_SADB_VERSION; 686 sadb_msg_version = ireply->sadb_msg_version; 687 break; 688 case SCKM_IOCTL_STAT_ERR_TIMEOUT: 689 DPRINTF(DBG_DRV, ("okm_process_status: TIMEOUT ERR\n")); 690 status = OKM_ERR_SADB_TIMEOUT; 691 break; 692 case SCKM_IOCTL_STAT_ERR_OTHER: 693 DPRINTF(DBG_DRV, ("okm_process_status: OTHER ERR\n")); 694 status = OKM_ERR_DAEMON; 695 break; 696 case SCKM_IOCTL_STAT_ERR_SADB_TYPE: 697 DPRINTF(DBG_DRV, ("okm_process_status: SADB TYPE ERR\n")); 698 status = OKM_ERR_SADB_BAD_TYPE; 699 break; 700 default: 701 cmn_err(CE_WARN, "SCKM daemon returned invalid status %d\n", 702 ireply->status); 703 status = OKM_ERR_DAEMON; 704 } 705 ret = okm_send_reply(okmsp, ireply->transid, status, 706 sadb_msg_errno, sadb_msg_version); 707 /* 708 * Clean up the cached request now. 709 */ 710 if (ret == 0) { 711 kmem_free(okmsp->km_reqp, okmsp->km_reqlen); 712 okmsp->km_reqp = NULL; 713 okmsp->km_reqlen = 0; 714 } 715 mutex_exit(&okmsp->km_lock); 716 DPRINTF(DBG_DRV, ("okm_process_status: ret=%d\n", ret)); 717 return (ret); 718 } 719 720 /* 721 * okm_copyin_ioctl_getreq - copy-in the ioctl request from the daemon. 722 */ 723 724 static int 725 okm_copyin_ioctl_getreq(intptr_t userarg, sckm_ioctl_getreq_t *driverarg, 726 int flag) 727 { 728 #ifdef _MULTI_DATAMODEL 729 switch (ddi_model_convert_from(flag & FMODELS)) { 730 case DDI_MODEL_ILP32: { 731 sckm_ioctl_getreq32_t driverarg32; 732 if (ddi_copyin((caddr_t)userarg, &driverarg32, 733 sizeof (sckm_ioctl_getreq32_t), flag)) { 734 return (EFAULT); 735 } 736 driverarg->transid = driverarg32.transid; 737 driverarg->type = driverarg32.type; 738 driverarg->buf = (caddr_t)(uintptr_t)driverarg32.buf; 739 driverarg->buf_len = driverarg32.buf_len; 740 break; 741 } 742 case DDI_MODEL_NONE: { 743 if (ddi_copyin((caddr_t)userarg, &driverarg, 744 sizeof (sckm_ioctl_getreq_t), flag)) { 745 return (EFAULT); 746 } 747 break; 748 } 749 } 750 #else /* ! _MULTI_DATAMODEL */ 751 if (ddi_copyin((caddr_t)userarg, &driverarg, 752 sizeof (sckm_ioctl_getreq_t), flag)) { 753 return (EFAULT); 754 } 755 #endif /* _MULTI_DATAMODEL */ 756 return (0); 757 } 758 759 760 /* 761 * okm_copyout_ioctl_getreq - copy-out the request to the daemon. 762 */ 763 static int 764 okm_copyout_ioctl_getreq(sckm_ioctl_getreq_t *driverarg, intptr_t userarg, 765 int flag) 766 { 767 #ifdef _MULTI_DATAMODEL 768 switch (ddi_model_convert_from(flag & FMODELS)) { 769 case DDI_MODEL_ILP32: { 770 sckm_ioctl_getreq32_t driverarg32; 771 driverarg32.transid = driverarg->transid; 772 driverarg32.type = driverarg->type; 773 driverarg32.buf = (caddr32_t)(uintptr_t)driverarg->buf; 774 driverarg32.buf_len = driverarg->buf_len; 775 if (ddi_copyout(&driverarg32, (caddr_t)userarg, 776 sizeof (sckm_ioctl_getreq32_t), flag)) { 777 return (EFAULT); 778 } 779 break; 780 } 781 case DDI_MODEL_NONE: 782 if (ddi_copyout(driverarg, (caddr_t)userarg, 783 sizeof (sckm_ioctl_getreq_t), flag)) { 784 return (EFAULT); 785 } 786 break; 787 } 788 #else /* ! _MULTI_DATAMODEL */ 789 if (ddi_copyout(driverarg, (caddr_t)userarg, 790 sizeof (sckm_ioctl_getreq_t), flag)) { 791 return (EFAULT); 792 } 793 #endif /* _MULTI_DATAMODEL */ 794 return (0); 795 } 796 797 /* 798 * okm_cleanup - Cleanup routine. 799 */ 800 static void 801 okm_cleanup(okms_t *okmsp) 802 { 803 804 ASSERT(okmsp != NULL); 805 if (okmsp->km_clean & OKM_CLEAN_NODE) { 806 ddi_remove_minor_node(okmsp->km_dip, NULL); 807 } 808 if (okmsp->km_clean & OKM_CLEAN_LOCK) 809 mutex_destroy(&okmsp->km_lock); 810 if (okmsp->km_clean & OKM_CLEAN_CV) 811 cv_destroy(&okmsp->km_wait); 812 if (okmsp->km_reqp != NULL) { 813 kmem_free(okmsp->km_reqp, okmsp->km_reqlen); 814 okmsp->km_reqp = NULL; 815 okmsp->km_reqlen = 0; 816 } 817 ddi_set_driver_private(okmsp->km_dip, NULL); 818 } 819 820 /* 821 * okm_mbox_init - Mailbox specific initialization. 822 */ 823 static int 824 okm_mbox_init(okms_t *okmsp) 825 { 826 int ret; 827 clock_t tout; 828 829 ASSERT(MUTEX_HELD(&okmsp->km_lock)); 830 okmsp->km_target = OKM_TARGET_ID; 831 okmsp->km_key = DKMD_KEY; 832 okmsp->km_state &= ~OKM_MB_INITED; 833 834 /* Iterate until mailbox gets connected */ 835 while (!(okmsp->km_state & OKM_MB_CONN)) { 836 DPRINTF(DBG_MBOX, ("okm_mbox_init: calling mb_init\n")); 837 ret = scf_mb_init(okmsp->km_target, okmsp->km_key, 838 okm_event_handler, (void *)okmsp); 839 DPRINTF(DBG_MBOX, ("okm_mbox_init: mb_init ret=%d\n", ret)); 840 841 if (ret != 0) { 842 DPRINTF(DBG_MBOX, 843 ("okm_mbox_init: failed ret =%d\n", ret)); 844 DTRACE_PROBE1(okm_mbox_fail, int, ret); 845 } else { 846 okmsp->km_state |= OKM_MB_INITED; 847 848 /* Block until the mailbox is ready to communicate. */ 849 while (!(okmsp->km_state & 850 (OKM_MB_CONN | OKM_MB_DISC))) { 851 852 if (cv_wait_sig(&okmsp->km_wait, 853 &okmsp->km_lock) <= 0) { 854 /* interrupted */ 855 ret = EINTR; 856 break; 857 } 858 } 859 } 860 861 if ((ret != 0) || (okmsp->km_state & OKM_MB_DISC)) { 862 863 if (okmsp->km_state & OKM_MB_INITED) { 864 (void) scf_mb_fini(okmsp->km_target, 865 okmsp->km_key); 866 } 867 if (okmsp->km_state & OKM_MB_DISC) { 868 DPRINTF(DBG_WARN, 869 ("okm_mbox_init: mbox DISC_ERROR\n")); 870 DTRACE_PROBE1(okm_mbox_fail, 871 int, OKM_MB_DISC); 872 } 873 874 okmsp->km_state &= ~(OKM_MB_INITED | OKM_MB_DISC | 875 OKM_MB_CONN); 876 877 if (ret == EINTR) { 878 return (ret); 879 } 880 881 /* 882 * If there was failure, then wait for 883 * OKM_MB_TOUT secs and retry again. 884 */ 885 886 DPRINTF(DBG_MBOX, ("okm_mbox_init: waiting...\n")); 887 tout = drv_usectohz(OKM_MB_TOUT); 888 ret = cv_reltimedwait_sig(&okmsp->km_wait, 889 &okmsp->km_lock, tout, TR_CLOCK_TICK); 890 if (ret == 0) { 891 /* if interrupted, return immediately. */ 892 DPRINTF(DBG_MBOX, 893 ("okm_mbox_init: interrupted\n")); 894 return (EINTR); 895 } 896 } 897 } 898 899 ret = scf_mb_ctrl(okmsp->km_target, okmsp->km_key, 900 SCF_MBOP_MAXMSGSIZE, &okmsp->km_maxsz); 901 902 /* 903 * The max msg size should be at least the size of reply 904 * we need to send. 905 */ 906 if ((ret == 0) && (okmsp->km_maxsz < sizeof (okm_rep_hdr_t))) { 907 cmn_err(CE_WARN, "Max message size expected >= %ld " 908 "but found %d\n", sizeof (okm_rep_hdr_t), okmsp->km_maxsz); 909 ret = EIO; 910 } 911 if (ret != 0) { 912 okmsp->km_state &= ~OKM_MB_INITED; 913 (void) scf_mb_fini(okmsp->km_target, okmsp->km_key); 914 } 915 DPRINTF(DBG_MBOX, ("okm_mbox_init: mb_init ret=%d\n", ret)); 916 return (ret); 917 } 918 919 /* 920 * okm_mbox_fini - Mailbox de-initialization. 921 */ 922 static void 923 okm_mbox_fini(okms_t *okmsp) 924 { 925 int ret = 0; 926 927 ASSERT(MUTEX_HELD(&okmsp->km_lock)); 928 if (okmsp->km_state & OKM_MB_INITED) { 929 DPRINTF(DBG_MBOX, ("okm_mbox_fini: calling mb_fini\n")); 930 ret = scf_mb_fini(okmsp->km_target, okmsp->km_key); 931 DPRINTF(DBG_MBOX, ("okm_mbox_fini: mb_fini ret=%d\n", ret)); 932 if (ret != 0) { 933 cmn_err(CE_WARN, 934 "Failed to close the Mailbox error=%d", ret); 935 } 936 okmsp->km_state &= ~(OKM_MB_INITED | OKM_MB_CONN | OKM_MB_DISC); 937 } 938 } 939 940 /* 941 * okm_event_handler - Mailbox event handler. 942 * 943 * Description: Implements a state machine to handle all the mailbox 944 * events. For each event, it sets the appropriate state 945 * flag and wakes up the threads waiting for that event. 946 */ 947 void 948 okm_event_handler(scf_event_t event, void *arg) 949 { 950 okms_t *okmsp = (okms_t *)arg; 951 952 DPRINTF(DBG_MBOX, ("okm_event_handler: called\n")); 953 ASSERT(okmsp != NULL); 954 mutex_enter(&okmsp->km_lock); 955 if (!(okmsp->km_state & OKM_MB_INITED)) { 956 /* 957 * Ignore all events if the state flag indicates that the 958 * mailbox not initialized, this may happen during the close. 959 */ 960 mutex_exit(&okmsp->km_lock); 961 DPRINTF(DBG_MBOX, 962 ("okm_event_handler: event=0x%X - mailbox not inited \n", 963 event)); 964 return; 965 } 966 switch (event) { 967 case SCF_MB_CONN_OK: 968 DPRINTF(DBG_MBOX, ("okm_event_handler: Event CONN_OK\n")); 969 /* 970 * Now the mailbox is ready to use, lets wake up 971 * any one waiting for this event. 972 */ 973 okmsp->km_state |= OKM_MB_CONN; 974 cv_broadcast(&okmsp->km_wait); 975 break; 976 977 case SCF_MB_MSG_DATA: 978 DPRINTF(DBG_MBOX, ("okm_event_handler: Event MSG_DATA\n")); 979 /* 980 * A message is available in the mailbox, 981 * wakeup if any one is ready to read the message. 982 */ 983 if (OKM_MBOX_READY(okmsp)) { 984 cv_broadcast(&okmsp->km_wait); 985 } 986 break; 987 988 case SCF_MB_SPACE: 989 DPRINTF(DBG_MBOX, ("okm_event_handler: Event MB_SPACE\n")); 990 /* 991 * Now the mailbox is ready to transmit, lets 992 * wakeup if any one is waiting to write. 993 */ 994 if (OKM_MBOX_READY(okmsp)) { 995 cv_broadcast(&okmsp->km_wait); 996 } 997 break; 998 case SCF_MB_DISC_ERROR: 999 DPRINTF(DBG_MBOX, ("okm_event_handler: Event DISC_ERROR\n")); 1000 okmsp->km_state &= ~OKM_MB_CONN; 1001 okmsp->km_state |= OKM_MB_DISC; 1002 cv_broadcast(&okmsp->km_wait); 1003 break; 1004 default: 1005 cmn_err(CE_WARN, "Unexpected event received\n"); 1006 } 1007 mutex_exit(&okmsp->km_lock); 1008 } 1009 1010 /* 1011 * okm_send_reply - Send a mailbox reply message. 1012 */ 1013 int 1014 okm_send_reply(okms_t *okmsp, uint32_t transid, 1015 uint32_t status, uint32_t sadb_err, uint32_t sadb_ver) 1016 { 1017 okm_rep_hdr_t reply; 1018 int ret = EIO; 1019 1020 DPRINTF(DBG_DRV, ("okm_send_reply: called\n")); 1021 ASSERT(MUTEX_HELD(&okmsp->km_lock)); 1022 reply.krp_version = htonl(OKM_PROTOCOL_VERSION); 1023 reply.krp_transid = htonl(transid); 1024 reply.krp_status = htonl(status); 1025 reply.krp_sadb_errno = htonl(sadb_err); 1026 reply.krp_sadb_version = htonl(sadb_ver); 1027 okmsp->km_sg_tx.msc_dptr = (caddr_t)&reply; 1028 okmsp->km_sg_tx.msc_len = sizeof (reply); 1029 DUMP_REPLY(&reply); 1030 1031 while (OKM_MBOX_READY(okmsp)) { 1032 DPRINTF(DBG_MBOX, ("okm_send_reply: sending reply\n")); 1033 ret = scf_mb_putmsg(okmsp->km_target, okmsp->km_key, 1034 sizeof (reply), 1, &okmsp->km_sg_tx, 0); 1035 DPRINTF(DBG_MBOX, ("okm_send_reply: putmsg ret=%d\n", ret)); 1036 if (ret == EBUSY || ret == ENOSPC) { 1037 /* mailbox is busy, poll/retry */ 1038 if (cv_timedwait_sig(&okmsp->km_wait, 1039 &okmsp->km_lock, okm_timeout_val(ret)) == 0) { 1040 /* interrupted */ 1041 ret = EINTR; 1042 DPRINTF(DBG_DRV, 1043 ("okm_send_reply: interrupted\n")); 1044 break; 1045 } 1046 } else { 1047 break; 1048 } 1049 } 1050 DPRINTF(DBG_DRV, ("okm_send_reply: ret=%d\n", ret)); 1051 return (ret); 1052 } 1053 1054 /* 1055 * okm_timeout_val -- Return appropriate timeout value. 1056 * 1057 * A small timeout value is returned for EBUSY as the mailbox busy 1058 * condition may go away sooner and we are expected to poll. 1059 * 1060 * A larger timeout value is returned for ENOSPC case, as the condition 1061 * depends on the peer to release buffer space. 1062 * NOTE: there will also be an event(SCF_MB_SPACE) but a timeout is 1063 * used for reliability purposes. 1064 */ 1065 static clock_t 1066 okm_timeout_val(int error) 1067 { 1068 clock_t tval; 1069 1070 ASSERT(error == EBUSY || error == ENOSPC); 1071 1072 if (error == EBUSY) { 1073 tval = OKM_SM_TOUT; 1074 } else { 1075 tval = OKM_LG_TOUT; 1076 } 1077 return (drv_usectohz(tval)); 1078 } 1079 1080 #ifdef DEBUG 1081 static void 1082 okm_print_req(okm_req_hdr_t *reqp, uint32_t len) 1083 { 1084 uint8_t *datap = (uint8_t *)(((char *)reqp) + sizeof (okm_req_hdr_t)); 1085 int msglen = len - sizeof (okm_req_hdr_t); 1086 int i, j; 1087 #define BYTES_PER_LINE 20 1088 char bytestr[BYTES_PER_LINE * 3 + 1]; 1089 1090 if (!(okm_debug & DBG_MESG)) 1091 return; 1092 printf("OKM: Request ver=%d transid=%d cmd=%s\n", 1093 reqp->krq_version, reqp->krq_transid, 1094 ((reqp->krq_cmd == OKM_MSG_SADB) ? "MSG_SADB" : "UNKNOWN")); 1095 for (i = 0; i < msglen; ) { 1096 for (j = 0; (j < BYTES_PER_LINE) && (i < msglen); j++, i++) { 1097 sprintf(&bytestr[j * 3], "%02X ", datap[i]); 1098 } 1099 if (j != 0) { 1100 printf("\t%s\n", bytestr); 1101 } 1102 } 1103 } 1104 1105 static void 1106 okm_print_rep(okm_rep_hdr_t *repp) 1107 { 1108 if (!(okm_debug & DBG_MESG)) 1109 return; 1110 printf("OKM: Reply Ver=%d Transid=%d Status=%d ", 1111 repp->krp_version, repp->krp_transid, repp->krp_status); 1112 printf("Sadb_errno=%d Sadb_ver=%d\n", repp->krp_sadb_errno, 1113 repp->krp_sadb_version); 1114 } 1115 #endif 1116