17eea693dSMark Johnson /*
27eea693dSMark Johnson * CDDL HEADER START
37eea693dSMark Johnson *
47eea693dSMark Johnson * The contents of this file are subject to the terms of the
57eea693dSMark Johnson * Common Development and Distribution License (the "License").
67eea693dSMark Johnson * You may not use this file except in compliance with the License.
77eea693dSMark Johnson *
87eea693dSMark Johnson * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
97eea693dSMark Johnson * or http://www.opensolaris.org/os/licensing.
107eea693dSMark Johnson * See the License for the specific language governing permissions
117eea693dSMark Johnson * and limitations under the License.
127eea693dSMark Johnson *
137eea693dSMark Johnson * When distributing Covered Code, include this CDDL HEADER in each
147eea693dSMark Johnson * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
157eea693dSMark Johnson * If applicable, add the following below this CDDL HEADER, with the
167eea693dSMark Johnson * fields enclosed by brackets "[]" replaced with your own identifying
177eea693dSMark Johnson * information: Portions Copyright [yyyy] [name of copyright owner]
187eea693dSMark Johnson *
197eea693dSMark Johnson * CDDL HEADER END
207eea693dSMark Johnson */
217eea693dSMark Johnson
227eea693dSMark Johnson /*
23d3d50737SRafael Vanoni * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
247eea693dSMark Johnson * Use is subject to license terms.
257eea693dSMark Johnson */
267eea693dSMark Johnson
277eea693dSMark Johnson
287eea693dSMark Johnson #include <sys/errno.h>
297eea693dSMark Johnson #include <sys/types.h>
307eea693dSMark Johnson #include <sys/conf.h>
317eea693dSMark Johnson #include <sys/kmem.h>
327eea693dSMark Johnson #include <sys/ddi.h>
337eea693dSMark Johnson #include <sys/stat.h>
347eea693dSMark Johnson #include <sys/sunddi.h>
357eea693dSMark Johnson #include <sys/file.h>
367eea693dSMark Johnson #include <sys/open.h>
377eea693dSMark Johnson #include <sys/modctl.h>
387eea693dSMark Johnson #include <sys/ddi_impldefs.h>
397eea693dSMark Johnson #include <sys/sysmacros.h>
407eea693dSMark Johnson #include <sys/ddidevmap.h>
417eea693dSMark Johnson #include <sys/policy.h>
427eea693dSMark Johnson
437eea693dSMark Johnson #include <sys/vmsystm.h>
447eea693dSMark Johnson #include <vm/hat_i86.h>
457eea693dSMark Johnson #include <vm/hat_pte.h>
467eea693dSMark Johnson #include <vm/seg_kmem.h>
477eea693dSMark Johnson #include <vm/seg_mf.h>
487eea693dSMark Johnson
497eea693dSMark Johnson #include <xen/io/blkif_impl.h>
507eea693dSMark Johnson #include <xen/io/blk_common.h>
517eea693dSMark Johnson #include <xen/io/xpvtap.h>
527eea693dSMark Johnson
537eea693dSMark Johnson
547eea693dSMark Johnson static int xpvtap_open(dev_t *devp, int flag, int otyp, cred_t *cred);
557eea693dSMark Johnson static int xpvtap_close(dev_t devp, int flag, int otyp, cred_t *cred);
567eea693dSMark Johnson static int xpvtap_ioctl(dev_t dev, int cmd, intptr_t arg, int mode,
577eea693dSMark Johnson cred_t *cred, int *rval);
587eea693dSMark Johnson static int xpvtap_devmap(dev_t dev, devmap_cookie_t dhp, offset_t off,
597eea693dSMark Johnson size_t len, size_t *maplen, uint_t model);
607eea693dSMark Johnson static int xpvtap_segmap(dev_t dev, off_t off, struct as *asp, caddr_t *addrp,
617eea693dSMark Johnson off_t len, unsigned int prot, unsigned int maxprot, unsigned int flags,
627eea693dSMark Johnson cred_t *cred_p);
637eea693dSMark Johnson static int xpvtap_chpoll(dev_t dev, short events, int anyyet, short *reventsp,
647eea693dSMark Johnson struct pollhead **phpp);
657eea693dSMark Johnson
667eea693dSMark Johnson static struct cb_ops xpvtap_cb_ops = {
677eea693dSMark Johnson xpvtap_open, /* cb_open */
687eea693dSMark Johnson xpvtap_close, /* cb_close */
697eea693dSMark Johnson nodev, /* cb_strategy */
707eea693dSMark Johnson nodev, /* cb_print */
717eea693dSMark Johnson nodev, /* cb_dump */
727eea693dSMark Johnson nodev, /* cb_read */
737eea693dSMark Johnson nodev, /* cb_write */
747eea693dSMark Johnson xpvtap_ioctl, /* cb_ioctl */
757eea693dSMark Johnson xpvtap_devmap, /* cb_devmap */
767eea693dSMark Johnson nodev, /* cb_mmap */
777eea693dSMark Johnson xpvtap_segmap, /* cb_segmap */
787eea693dSMark Johnson xpvtap_chpoll, /* cb_chpoll */
797eea693dSMark Johnson ddi_prop_op, /* cb_prop_op */
807eea693dSMark Johnson NULL, /* cb_stream */
817eea693dSMark Johnson D_NEW | D_MP | D_64BIT | D_DEVMAP, /* cb_flag */
827eea693dSMark Johnson CB_REV
837eea693dSMark Johnson };
847eea693dSMark Johnson
857eea693dSMark Johnson static int xpvtap_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg,
867eea693dSMark Johnson void **result);
877eea693dSMark Johnson static int xpvtap_attach(dev_info_t *devi, ddi_attach_cmd_t cmd);
887eea693dSMark Johnson static int xpvtap_detach(dev_info_t *devi, ddi_detach_cmd_t cmd);
897eea693dSMark Johnson
907eea693dSMark Johnson static struct dev_ops xpvtap_dev_ops = {
917eea693dSMark Johnson DEVO_REV, /* devo_rev */
927eea693dSMark Johnson 0, /* devo_refcnt */
937eea693dSMark Johnson xpvtap_getinfo, /* devo_getinfo */
947eea693dSMark Johnson nulldev, /* devo_identify */
957eea693dSMark Johnson nulldev, /* devo_probe */
967eea693dSMark Johnson xpvtap_attach, /* devo_attach */
977eea693dSMark Johnson xpvtap_detach, /* devo_detach */
987eea693dSMark Johnson nodev, /* devo_reset */
997eea693dSMark Johnson &xpvtap_cb_ops, /* devo_cb_ops */
1007eea693dSMark Johnson NULL, /* devo_bus_ops */
1017eea693dSMark Johnson NULL /* power */
1027eea693dSMark Johnson };
1037eea693dSMark Johnson
1047eea693dSMark Johnson
1057eea693dSMark Johnson static struct modldrv xpvtap_modldrv = {
1067eea693dSMark Johnson &mod_driverops, /* Type of module. This one is a driver */
1077eea693dSMark Johnson "xpvtap driver", /* Name of the module. */
1087eea693dSMark Johnson &xpvtap_dev_ops, /* driver ops */
1097eea693dSMark Johnson };
1107eea693dSMark Johnson
1117eea693dSMark Johnson static struct modlinkage xpvtap_modlinkage = {
1127eea693dSMark Johnson MODREV_1,
1137eea693dSMark Johnson (void *) &xpvtap_modldrv,
1147eea693dSMark Johnson NULL
1157eea693dSMark Johnson };
1167eea693dSMark Johnson
1177eea693dSMark Johnson
1187eea693dSMark Johnson void *xpvtap_statep;
1197eea693dSMark Johnson
1207eea693dSMark Johnson
1217eea693dSMark Johnson static xpvtap_state_t *xpvtap_drv_init(int instance);
1227eea693dSMark Johnson static void xpvtap_drv_fini(xpvtap_state_t *state);
1237eea693dSMark Johnson static uint_t xpvtap_intr(caddr_t arg);
1247eea693dSMark Johnson
1257eea693dSMark Johnson typedef void (*xpvtap_rs_cleanup_t)(xpvtap_state_t *state, uint_t rs);
1267eea693dSMark Johnson static void xpvtap_rs_init(uint_t min_val, uint_t max_val,
1277eea693dSMark Johnson xpvtap_rs_hdl_t *handle);
1287eea693dSMark Johnson static void xpvtap_rs_fini(xpvtap_rs_hdl_t *handle);
1297eea693dSMark Johnson static int xpvtap_rs_alloc(xpvtap_rs_hdl_t handle, uint_t *rs);
1307eea693dSMark Johnson static void xpvtap_rs_free(xpvtap_rs_hdl_t handle, uint_t rs);
1317eea693dSMark Johnson static void xpvtap_rs_flush(xpvtap_rs_hdl_t handle,
1327eea693dSMark Johnson xpvtap_rs_cleanup_t callback, void *arg);
1337eea693dSMark Johnson
1347eea693dSMark Johnson static int xpvtap_segmf_register(xpvtap_state_t *state);
1357eea693dSMark Johnson static void xpvtap_segmf_unregister(struct as *as, void *arg, uint_t event);
1367eea693dSMark Johnson
1377eea693dSMark Johnson static int xpvtap_user_init(xpvtap_state_t *state);
1387eea693dSMark Johnson static void xpvtap_user_fini(xpvtap_state_t *state);
1397eea693dSMark Johnson static int xpvtap_user_ring_init(xpvtap_state_t *state);
1407eea693dSMark Johnson static void xpvtap_user_ring_fini(xpvtap_state_t *state);
1417eea693dSMark Johnson static int xpvtap_user_thread_init(xpvtap_state_t *state);
1427eea693dSMark Johnson static void xpvtap_user_thread_fini(xpvtap_state_t *state);
1437eea693dSMark Johnson static void xpvtap_user_thread_start(caddr_t arg);
1447eea693dSMark Johnson static void xpvtap_user_thread_stop(xpvtap_state_t *state);
1457eea693dSMark Johnson static void xpvtap_user_thread(void *arg);
1467eea693dSMark Johnson
1477eea693dSMark Johnson static void xpvtap_user_app_stop(caddr_t arg);
1487eea693dSMark Johnson
1497eea693dSMark Johnson static int xpvtap_user_request_map(xpvtap_state_t *state, blkif_request_t *req,
1507eea693dSMark Johnson uint_t *uid);
1517eea693dSMark Johnson static int xpvtap_user_request_push(xpvtap_state_t *state,
1527eea693dSMark Johnson blkif_request_t *req, uint_t uid);
1537eea693dSMark Johnson static int xpvtap_user_response_get(xpvtap_state_t *state,
1547eea693dSMark Johnson blkif_response_t *resp, uint_t *uid);
1557eea693dSMark Johnson static void xpvtap_user_request_unmap(xpvtap_state_t *state, uint_t uid);
1567eea693dSMark Johnson
1577eea693dSMark Johnson
1587eea693dSMark Johnson /*
1597eea693dSMark Johnson * _init()
1607eea693dSMark Johnson */
1617eea693dSMark Johnson int
_init(void)1627eea693dSMark Johnson _init(void)
1637eea693dSMark Johnson {
1647eea693dSMark Johnson int e;
1657eea693dSMark Johnson
1667eea693dSMark Johnson e = ddi_soft_state_init(&xpvtap_statep, sizeof (xpvtap_state_t), 1);
1677eea693dSMark Johnson if (e != 0) {
1687eea693dSMark Johnson return (e);
1697eea693dSMark Johnson }
1707eea693dSMark Johnson
1717eea693dSMark Johnson e = mod_install(&xpvtap_modlinkage);
1727eea693dSMark Johnson if (e != 0) {
1737eea693dSMark Johnson ddi_soft_state_fini(&xpvtap_statep);
1747eea693dSMark Johnson return (e);
1757eea693dSMark Johnson }
1767eea693dSMark Johnson
1777eea693dSMark Johnson return (0);
1787eea693dSMark Johnson }
1797eea693dSMark Johnson
1807eea693dSMark Johnson
1817eea693dSMark Johnson /*
1827eea693dSMark Johnson * _info()
1837eea693dSMark Johnson */
1847eea693dSMark Johnson int
_info(struct modinfo * modinfop)1857eea693dSMark Johnson _info(struct modinfo *modinfop)
1867eea693dSMark Johnson {
1877eea693dSMark Johnson return (mod_info(&xpvtap_modlinkage, modinfop));
1887eea693dSMark Johnson }
1897eea693dSMark Johnson
1907eea693dSMark Johnson
1917eea693dSMark Johnson /*
1927eea693dSMark Johnson * _fini()
1937eea693dSMark Johnson */
1947eea693dSMark Johnson int
_fini(void)1957eea693dSMark Johnson _fini(void)
1967eea693dSMark Johnson {
1977eea693dSMark Johnson int e;
1987eea693dSMark Johnson
1997eea693dSMark Johnson e = mod_remove(&xpvtap_modlinkage);
2007eea693dSMark Johnson if (e != 0) {
2017eea693dSMark Johnson return (e);
2027eea693dSMark Johnson }
2037eea693dSMark Johnson
2047eea693dSMark Johnson ddi_soft_state_fini(&xpvtap_statep);
2057eea693dSMark Johnson
2067eea693dSMark Johnson return (0);
2077eea693dSMark Johnson }
2087eea693dSMark Johnson
2097eea693dSMark Johnson
2107eea693dSMark Johnson /*
2117eea693dSMark Johnson * xpvtap_attach()
2127eea693dSMark Johnson */
2137eea693dSMark Johnson static int
xpvtap_attach(dev_info_t * dip,ddi_attach_cmd_t cmd)2147eea693dSMark Johnson xpvtap_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
2157eea693dSMark Johnson {
2167eea693dSMark Johnson blk_ringinit_args_t args;
2177eea693dSMark Johnson xpvtap_state_t *state;
2187eea693dSMark Johnson int instance;
2197eea693dSMark Johnson int e;
2207eea693dSMark Johnson
2217eea693dSMark Johnson
2227eea693dSMark Johnson switch (cmd) {
2237eea693dSMark Johnson case DDI_ATTACH:
2247eea693dSMark Johnson break;
2257eea693dSMark Johnson
2267eea693dSMark Johnson case DDI_RESUME:
2277eea693dSMark Johnson return (DDI_SUCCESS);
2287eea693dSMark Johnson
2297eea693dSMark Johnson default:
2307eea693dSMark Johnson return (DDI_FAILURE);
2317eea693dSMark Johnson }
2327eea693dSMark Johnson
2337eea693dSMark Johnson /* initialize our state info */
2347eea693dSMark Johnson instance = ddi_get_instance(dip);
2357eea693dSMark Johnson state = xpvtap_drv_init(instance);
2367eea693dSMark Johnson if (state == NULL) {
2377eea693dSMark Johnson return (DDI_FAILURE);
2387eea693dSMark Johnson }
2397eea693dSMark Johnson state->bt_dip = dip;
2407eea693dSMark Johnson
2417eea693dSMark Johnson /* Initialize the guest ring */
2427eea693dSMark Johnson args.ar_dip = state->bt_dip;
2437eea693dSMark Johnson args.ar_intr = xpvtap_intr;
2447eea693dSMark Johnson args.ar_intr_arg = (caddr_t)state;
2457eea693dSMark Johnson args.ar_ringup = xpvtap_user_thread_start;
2467eea693dSMark Johnson args.ar_ringup_arg = (caddr_t)state;
2477eea693dSMark Johnson args.ar_ringdown = xpvtap_user_app_stop;
2487eea693dSMark Johnson args.ar_ringdown_arg = (caddr_t)state;
2497eea693dSMark Johnson e = blk_ring_init(&args, &state->bt_guest_ring);
2507eea693dSMark Johnson if (e != DDI_SUCCESS) {
2517eea693dSMark Johnson goto attachfail_ringinit;
2527eea693dSMark Johnson }
2537eea693dSMark Johnson
2547eea693dSMark Johnson /* create the minor node (for ioctl/mmap) */
2557eea693dSMark Johnson e = ddi_create_minor_node(dip, "xpvtap", S_IFCHR, instance,
2567eea693dSMark Johnson DDI_PSEUDO, 0);
2577eea693dSMark Johnson if (e != DDI_SUCCESS) {
2587eea693dSMark Johnson goto attachfail_minor_node;
2597eea693dSMark Johnson }
2607eea693dSMark Johnson
2617eea693dSMark Johnson /* Report that driver was loaded */
2627eea693dSMark Johnson ddi_report_dev(dip);
2637eea693dSMark Johnson
2647eea693dSMark Johnson return (DDI_SUCCESS);
2657eea693dSMark Johnson
2667eea693dSMark Johnson attachfail_minor_node:
2677eea693dSMark Johnson blk_ring_fini(&state->bt_guest_ring);
2687eea693dSMark Johnson attachfail_ringinit:
2697eea693dSMark Johnson xpvtap_drv_fini(state);
2707eea693dSMark Johnson return (DDI_FAILURE);
2717eea693dSMark Johnson }
2727eea693dSMark Johnson
2737eea693dSMark Johnson
2747eea693dSMark Johnson /*
2757eea693dSMark Johnson * xpvtap_detach()
2767eea693dSMark Johnson */
2777eea693dSMark Johnson static int
xpvtap_detach(dev_info_t * dip,ddi_detach_cmd_t cmd)2787eea693dSMark Johnson xpvtap_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
2797eea693dSMark Johnson {
2807eea693dSMark Johnson xpvtap_state_t *state;
2817eea693dSMark Johnson int instance;
2827eea693dSMark Johnson
2837eea693dSMark Johnson
2847eea693dSMark Johnson instance = ddi_get_instance(dip);
2857eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
2867eea693dSMark Johnson if (state == NULL) {
2877eea693dSMark Johnson return (DDI_FAILURE);
2887eea693dSMark Johnson }
2897eea693dSMark Johnson
2907eea693dSMark Johnson switch (cmd) {
2917eea693dSMark Johnson case DDI_DETACH:
2927eea693dSMark Johnson break;
2937eea693dSMark Johnson
2947eea693dSMark Johnson case DDI_SUSPEND:
2957eea693dSMark Johnson default:
2967eea693dSMark Johnson return (DDI_FAILURE);
2977eea693dSMark Johnson }
2987eea693dSMark Johnson
2997eea693dSMark Johnson xpvtap_user_thread_stop(state);
3007eea693dSMark Johnson blk_ring_fini(&state->bt_guest_ring);
3017eea693dSMark Johnson xpvtap_drv_fini(state);
3027eea693dSMark Johnson ddi_remove_minor_node(dip, NULL);
3037eea693dSMark Johnson
3047eea693dSMark Johnson return (DDI_SUCCESS);
3057eea693dSMark Johnson }
3067eea693dSMark Johnson
3077eea693dSMark Johnson
3087eea693dSMark Johnson /*
3097eea693dSMark Johnson * xpvtap_getinfo()
3107eea693dSMark Johnson */
3117eea693dSMark Johnson /*ARGSUSED*/
3127eea693dSMark Johnson static int
xpvtap_getinfo(dev_info_t * dip,ddi_info_cmd_t cmd,void * arg,void ** result)3137eea693dSMark Johnson xpvtap_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **result)
3147eea693dSMark Johnson {
3157eea693dSMark Johnson xpvtap_state_t *state;
3167eea693dSMark Johnson int instance;
3177eea693dSMark Johnson dev_t dev;
3187eea693dSMark Johnson int e;
3197eea693dSMark Johnson
3207eea693dSMark Johnson
3217eea693dSMark Johnson dev = (dev_t)arg;
3227eea693dSMark Johnson instance = getminor(dev);
3237eea693dSMark Johnson
3247eea693dSMark Johnson switch (cmd) {
3257eea693dSMark Johnson case DDI_INFO_DEVT2DEVINFO:
3267eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
3277eea693dSMark Johnson if (state == NULL) {
3287eea693dSMark Johnson return (DDI_FAILURE);
3297eea693dSMark Johnson }
3307eea693dSMark Johnson *result = (void *)state->bt_dip;
3317eea693dSMark Johnson e = DDI_SUCCESS;
3327eea693dSMark Johnson break;
3337eea693dSMark Johnson
3347eea693dSMark Johnson case DDI_INFO_DEVT2INSTANCE:
3357eea693dSMark Johnson *result = (void *)(uintptr_t)instance;
3367eea693dSMark Johnson e = DDI_SUCCESS;
3377eea693dSMark Johnson break;
3387eea693dSMark Johnson
3397eea693dSMark Johnson default:
3407eea693dSMark Johnson e = DDI_FAILURE;
3417eea693dSMark Johnson break;
3427eea693dSMark Johnson }
3437eea693dSMark Johnson
3447eea693dSMark Johnson return (e);
3457eea693dSMark Johnson }
3467eea693dSMark Johnson
3477eea693dSMark Johnson
3487eea693dSMark Johnson /*
3497eea693dSMark Johnson * xpvtap_open()
3507eea693dSMark Johnson */
3517eea693dSMark Johnson /*ARGSUSED*/
3527eea693dSMark Johnson static int
xpvtap_open(dev_t * devp,int flag,int otyp,cred_t * cred)3537eea693dSMark Johnson xpvtap_open(dev_t *devp, int flag, int otyp, cred_t *cred)
3547eea693dSMark Johnson {
3557eea693dSMark Johnson xpvtap_state_t *state;
3567eea693dSMark Johnson int instance;
3577eea693dSMark Johnson
3587eea693dSMark Johnson
3597eea693dSMark Johnson if (secpolicy_xvm_control(cred)) {
3607eea693dSMark Johnson return (EPERM);
3617eea693dSMark Johnson }
3627eea693dSMark Johnson
3637eea693dSMark Johnson instance = getminor(*devp);
3647eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
3657eea693dSMark Johnson if (state == NULL) {
3667eea693dSMark Johnson return (ENXIO);
3677eea693dSMark Johnson }
3687eea693dSMark Johnson
3697eea693dSMark Johnson /* we should only be opened once */
3707eea693dSMark Johnson mutex_enter(&state->bt_open.bo_mutex);
3717eea693dSMark Johnson if (state->bt_open.bo_opened) {
3727eea693dSMark Johnson mutex_exit(&state->bt_open.bo_mutex);
3737eea693dSMark Johnson return (EBUSY);
3747eea693dSMark Johnson }
3757eea693dSMark Johnson state->bt_open.bo_opened = B_TRUE;
3767eea693dSMark Johnson mutex_exit(&state->bt_open.bo_mutex);
3777eea693dSMark Johnson
3787eea693dSMark Johnson /*
3797eea693dSMark Johnson * save the apps address space. need it for mapping/unmapping grefs
3807eea693dSMark Johnson * since will be doing it in a separate kernel thread.
3817eea693dSMark Johnson */
3827eea693dSMark Johnson state->bt_map.um_as = curproc->p_as;
3837eea693dSMark Johnson
3847eea693dSMark Johnson return (0);
3857eea693dSMark Johnson }
3867eea693dSMark Johnson
3877eea693dSMark Johnson
3887eea693dSMark Johnson /*
3897eea693dSMark Johnson * xpvtap_close()
3907eea693dSMark Johnson */
3917eea693dSMark Johnson /*ARGSUSED*/
3927eea693dSMark Johnson static int
xpvtap_close(dev_t devp,int flag,int otyp,cred_t * cred)3937eea693dSMark Johnson xpvtap_close(dev_t devp, int flag, int otyp, cred_t *cred)
3947eea693dSMark Johnson {
3957eea693dSMark Johnson xpvtap_state_t *state;
3967eea693dSMark Johnson int instance;
3977eea693dSMark Johnson
3987eea693dSMark Johnson
3997eea693dSMark Johnson instance = getminor(devp);
4007eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
4017eea693dSMark Johnson if (state == NULL) {
4027eea693dSMark Johnson return (ENXIO);
4037eea693dSMark Johnson }
4047eea693dSMark Johnson
4057eea693dSMark Johnson /*
4067eea693dSMark Johnson * wake thread so it can cleanup and wait for it to exit so we can
4077eea693dSMark Johnson * be sure it's not in the middle of processing a request/response.
4087eea693dSMark Johnson */
4097eea693dSMark Johnson mutex_enter(&state->bt_thread.ut_mutex);
4107eea693dSMark Johnson state->bt_thread.ut_wake = B_TRUE;
4117eea693dSMark Johnson state->bt_thread.ut_exit = B_TRUE;
4127eea693dSMark Johnson cv_signal(&state->bt_thread.ut_wake_cv);
4137eea693dSMark Johnson if (!state->bt_thread.ut_exit_done) {
4147eea693dSMark Johnson cv_wait(&state->bt_thread.ut_exit_done_cv,
4157eea693dSMark Johnson &state->bt_thread.ut_mutex);
4167eea693dSMark Johnson }
4177eea693dSMark Johnson ASSERT(state->bt_thread.ut_exit_done);
4187eea693dSMark Johnson mutex_exit(&state->bt_thread.ut_mutex);
4197eea693dSMark Johnson
4207eea693dSMark Johnson state->bt_map.um_as = NULL;
4217eea693dSMark Johnson state->bt_map.um_guest_pages = NULL;
4227eea693dSMark Johnson
4237eea693dSMark Johnson /*
4247eea693dSMark Johnson * when the ring is brought down, a userland hotplug script is run
4257eea693dSMark Johnson * which tries to bring the userland app down. We'll wait for a bit
4267eea693dSMark Johnson * for the user app to exit. Notify the thread waiting that the app
4277eea693dSMark Johnson * has closed the driver.
4287eea693dSMark Johnson */
4297eea693dSMark Johnson mutex_enter(&state->bt_open.bo_mutex);
4307eea693dSMark Johnson ASSERT(state->bt_open.bo_opened);
4317eea693dSMark Johnson state->bt_open.bo_opened = B_FALSE;
4327eea693dSMark Johnson cv_signal(&state->bt_open.bo_exit_cv);
4337eea693dSMark Johnson mutex_exit(&state->bt_open.bo_mutex);
4347eea693dSMark Johnson
4357eea693dSMark Johnson return (0);
4367eea693dSMark Johnson }
4377eea693dSMark Johnson
4387eea693dSMark Johnson
4397eea693dSMark Johnson /*
4407eea693dSMark Johnson * xpvtap_ioctl()
4417eea693dSMark Johnson */
4427eea693dSMark Johnson /*ARGSUSED*/
4437eea693dSMark Johnson static int
xpvtap_ioctl(dev_t dev,int cmd,intptr_t arg,int mode,cred_t * cred,int * rval)4447eea693dSMark Johnson xpvtap_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred,
4457eea693dSMark Johnson int *rval)
4467eea693dSMark Johnson {
4477eea693dSMark Johnson xpvtap_state_t *state;
4487eea693dSMark Johnson int instance;
4497eea693dSMark Johnson
4507eea693dSMark Johnson
4517eea693dSMark Johnson if (secpolicy_xvm_control(cred)) {
4527eea693dSMark Johnson return (EPERM);
4537eea693dSMark Johnson }
4547eea693dSMark Johnson
4557eea693dSMark Johnson instance = getminor(dev);
4567eea693dSMark Johnson if (instance == -1) {
4577eea693dSMark Johnson return (EBADF);
4587eea693dSMark Johnson }
4597eea693dSMark Johnson
4607eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
4617eea693dSMark Johnson if (state == NULL) {
4627eea693dSMark Johnson return (EBADF);
4637eea693dSMark Johnson }
4647eea693dSMark Johnson
4657eea693dSMark Johnson switch (cmd) {
4667eea693dSMark Johnson case XPVTAP_IOCTL_RESP_PUSH:
4677eea693dSMark Johnson /*
4687eea693dSMark Johnson * wake thread, thread handles guest requests and user app
4697eea693dSMark Johnson * responses.
4707eea693dSMark Johnson */
4717eea693dSMark Johnson mutex_enter(&state->bt_thread.ut_mutex);
4727eea693dSMark Johnson state->bt_thread.ut_wake = B_TRUE;
4737eea693dSMark Johnson cv_signal(&state->bt_thread.ut_wake_cv);
4747eea693dSMark Johnson mutex_exit(&state->bt_thread.ut_mutex);
4757eea693dSMark Johnson break;
4767eea693dSMark Johnson
4777eea693dSMark Johnson default:
4787eea693dSMark Johnson cmn_err(CE_WARN, "ioctl(%d) not supported\n", cmd);
4797eea693dSMark Johnson return (ENXIO);
4807eea693dSMark Johnson }
4817eea693dSMark Johnson
4827eea693dSMark Johnson return (0);
4837eea693dSMark Johnson }
4847eea693dSMark Johnson
4857eea693dSMark Johnson
4867eea693dSMark Johnson /*
4877eea693dSMark Johnson * xpvtap_segmap()
4887eea693dSMark Johnson */
4897eea693dSMark Johnson /*ARGSUSED*/
4907eea693dSMark Johnson static int
xpvtap_segmap(dev_t dev,off_t off,struct as * asp,caddr_t * addrp,off_t len,unsigned int prot,unsigned int maxprot,unsigned int flags,cred_t * cred_p)4917eea693dSMark Johnson xpvtap_segmap(dev_t dev, off_t off, struct as *asp, caddr_t *addrp,
4927eea693dSMark Johnson off_t len, unsigned int prot, unsigned int maxprot, unsigned int flags,
4937eea693dSMark Johnson cred_t *cred_p)
4947eea693dSMark Johnson {
4957eea693dSMark Johnson struct segmf_crargs a;
4967eea693dSMark Johnson xpvtap_state_t *state;
4977eea693dSMark Johnson int instance;
4987eea693dSMark Johnson int e;
4997eea693dSMark Johnson
5007eea693dSMark Johnson
5017eea693dSMark Johnson if (secpolicy_xvm_control(cred_p)) {
5027eea693dSMark Johnson return (EPERM);
5037eea693dSMark Johnson }
5047eea693dSMark Johnson
5057eea693dSMark Johnson instance = getminor(dev);
5067eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
5077eea693dSMark Johnson if (state == NULL) {
5087eea693dSMark Johnson return (EBADF);
5097eea693dSMark Johnson }
5107eea693dSMark Johnson
5117eea693dSMark Johnson /* the user app should be doing a MAP_SHARED mapping */
5127eea693dSMark Johnson if ((flags & MAP_TYPE) != MAP_SHARED) {
5137eea693dSMark Johnson return (EINVAL);
5147eea693dSMark Johnson }
5157eea693dSMark Johnson
5167eea693dSMark Johnson /*
5177eea693dSMark Johnson * if this is the user ring (offset = 0), devmap it (which ends up in
5187eea693dSMark Johnson * xpvtap_devmap). devmap will alloc and map the ring into the
5197eea693dSMark Johnson * app's VA space.
5207eea693dSMark Johnson */
5217eea693dSMark Johnson if (off == 0) {
5227eea693dSMark Johnson e = devmap_setup(dev, (offset_t)off, asp, addrp, (size_t)len,
5237eea693dSMark Johnson prot, maxprot, flags, cred_p);
5247eea693dSMark Johnson return (e);
5257eea693dSMark Johnson }
5267eea693dSMark Johnson
5277eea693dSMark Johnson /* this should be the mmap for the gref pages (offset = PAGESIZE) */
5287eea693dSMark Johnson if (off != PAGESIZE) {
5297eea693dSMark Johnson return (EINVAL);
5307eea693dSMark Johnson }
5317eea693dSMark Johnson
5327eea693dSMark Johnson /* make sure we get the size we're expecting */
5337eea693dSMark Johnson if (len != XPVTAP_GREF_BUFSIZE) {
5347eea693dSMark Johnson return (EINVAL);
5357eea693dSMark Johnson }
5367eea693dSMark Johnson
5377eea693dSMark Johnson /*
5387eea693dSMark Johnson * reserve user app VA space for the gref pages and use segmf to
5397eea693dSMark Johnson * manage the backing store for the physical memory. segmf will
5407eea693dSMark Johnson * map in/out the grefs and fault them in/out.
5417eea693dSMark Johnson */
5427eea693dSMark Johnson ASSERT(asp == state->bt_map.um_as);
5437eea693dSMark Johnson as_rangelock(asp);
5447eea693dSMark Johnson if ((flags & MAP_FIXED) == 0) {
5457eea693dSMark Johnson map_addr(addrp, len, 0, 0, flags);
5467eea693dSMark Johnson if (*addrp == NULL) {
5477eea693dSMark Johnson as_rangeunlock(asp);
5487eea693dSMark Johnson return (ENOMEM);
5497eea693dSMark Johnson }
5507eea693dSMark Johnson } else {
5517eea693dSMark Johnson /* User specified address */
5527eea693dSMark Johnson (void) as_unmap(asp, *addrp, len);
5537eea693dSMark Johnson }
5547eea693dSMark Johnson a.dev = dev;
5557eea693dSMark Johnson a.prot = (uchar_t)prot;
5567eea693dSMark Johnson a.maxprot = (uchar_t)maxprot;
5577eea693dSMark Johnson e = as_map(asp, *addrp, len, segmf_create, &a);
5587eea693dSMark Johnson if (e != 0) {
5597eea693dSMark Johnson as_rangeunlock(asp);
5607eea693dSMark Johnson return (e);
5617eea693dSMark Johnson }
5627eea693dSMark Johnson as_rangeunlock(asp);
5637eea693dSMark Johnson
5647eea693dSMark Johnson /*
5657eea693dSMark Johnson * Stash user base address, and compute address where the request
5667eea693dSMark Johnson * array will end up.
5677eea693dSMark Johnson */
5687eea693dSMark Johnson state->bt_map.um_guest_pages = (caddr_t)*addrp;
5697eea693dSMark Johnson state->bt_map.um_guest_size = (size_t)len;
5707eea693dSMark Johnson
5717eea693dSMark Johnson /* register an as callback so we can cleanup when the app goes away */
5727eea693dSMark Johnson e = as_add_callback(asp, xpvtap_segmf_unregister, state,
5737eea693dSMark Johnson AS_UNMAP_EVENT, *addrp, len, KM_SLEEP);
5747eea693dSMark Johnson if (e != 0) {
5757eea693dSMark Johnson (void) as_unmap(asp, *addrp, len);
5767eea693dSMark Johnson return (EINVAL);
5777eea693dSMark Johnson }
5787eea693dSMark Johnson
5797eea693dSMark Johnson /* wake thread to see if there are requests already queued up */
5807eea693dSMark Johnson mutex_enter(&state->bt_thread.ut_mutex);
5817eea693dSMark Johnson state->bt_thread.ut_wake = B_TRUE;
5827eea693dSMark Johnson cv_signal(&state->bt_thread.ut_wake_cv);
5837eea693dSMark Johnson mutex_exit(&state->bt_thread.ut_mutex);
5847eea693dSMark Johnson
5857eea693dSMark Johnson return (0);
5867eea693dSMark Johnson }
5877eea693dSMark Johnson
5887eea693dSMark Johnson
5897eea693dSMark Johnson /*
5907eea693dSMark Johnson * xpvtap_devmap()
5917eea693dSMark Johnson */
5927eea693dSMark Johnson /*ARGSUSED*/
5937eea693dSMark Johnson static int
xpvtap_devmap(dev_t dev,devmap_cookie_t dhp,offset_t off,size_t len,size_t * maplen,uint_t model)5947eea693dSMark Johnson xpvtap_devmap(dev_t dev, devmap_cookie_t dhp, offset_t off, size_t len,
5957eea693dSMark Johnson size_t *maplen, uint_t model)
5967eea693dSMark Johnson {
5977eea693dSMark Johnson xpvtap_user_ring_t *usring;
5987eea693dSMark Johnson xpvtap_state_t *state;
5997eea693dSMark Johnson int instance;
6007eea693dSMark Johnson int e;
6017eea693dSMark Johnson
6027eea693dSMark Johnson
6037eea693dSMark Johnson instance = getminor(dev);
6047eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
6057eea693dSMark Johnson if (state == NULL) {
6067eea693dSMark Johnson return (EBADF);
6077eea693dSMark Johnson }
6087eea693dSMark Johnson
6097eea693dSMark Johnson /* we should only get here if the offset was == 0 */
6107eea693dSMark Johnson if (off != 0) {
6117eea693dSMark Johnson return (EINVAL);
6127eea693dSMark Johnson }
6137eea693dSMark Johnson
6147eea693dSMark Johnson /* we should only be mapping in one page */
6157eea693dSMark Johnson if (len != PAGESIZE) {
6167eea693dSMark Johnson return (EINVAL);
6177eea693dSMark Johnson }
6187eea693dSMark Johnson
6197eea693dSMark Johnson /*
6207eea693dSMark Johnson * we already allocated the user ring during driver attach, all we
6217eea693dSMark Johnson * need to do is map it into the user app's VA.
6227eea693dSMark Johnson */
6237eea693dSMark Johnson usring = &state->bt_user_ring;
6247eea693dSMark Johnson e = devmap_umem_setup(dhp, state->bt_dip, NULL, usring->ur_cookie, 0,
6257eea693dSMark Johnson PAGESIZE, PROT_ALL, DEVMAP_DEFAULTS, NULL);
6267eea693dSMark Johnson if (e < 0) {
6277eea693dSMark Johnson return (e);
6287eea693dSMark Johnson }
6297eea693dSMark Johnson
6307eea693dSMark Johnson /* return the size to compete the devmap */
6317eea693dSMark Johnson *maplen = PAGESIZE;
6327eea693dSMark Johnson
6337eea693dSMark Johnson return (0);
6347eea693dSMark Johnson }
6357eea693dSMark Johnson
6367eea693dSMark Johnson
6377eea693dSMark Johnson /*
6387eea693dSMark Johnson * xpvtap_chpoll()
6397eea693dSMark Johnson */
6407eea693dSMark Johnson static int
xpvtap_chpoll(dev_t dev,short events,int anyyet,short * reventsp,struct pollhead ** phpp)6417eea693dSMark Johnson xpvtap_chpoll(dev_t dev, short events, int anyyet, short *reventsp,
6427eea693dSMark Johnson struct pollhead **phpp)
6437eea693dSMark Johnson {
6447eea693dSMark Johnson xpvtap_user_ring_t *usring;
6457eea693dSMark Johnson xpvtap_state_t *state;
6467eea693dSMark Johnson int instance;
6477eea693dSMark Johnson
6487eea693dSMark Johnson
6497eea693dSMark Johnson instance = getminor(dev);
6507eea693dSMark Johnson if (instance == -1) {
6517eea693dSMark Johnson return (EBADF);
6527eea693dSMark Johnson }
6537eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
6547eea693dSMark Johnson if (state == NULL) {
6557eea693dSMark Johnson return (EBADF);
6567eea693dSMark Johnson }
6577eea693dSMark Johnson
6587eea693dSMark Johnson if (((events & (POLLIN | POLLRDNORM)) == 0) && !anyyet) {
6597eea693dSMark Johnson *reventsp = 0;
6607eea693dSMark Johnson return (EINVAL);
6617eea693dSMark Johnson }
6627eea693dSMark Johnson
6637eea693dSMark Johnson /*
6647eea693dSMark Johnson * if we pushed requests on the user ring since the last poll, wakeup
6657eea693dSMark Johnson * the user app
6667eea693dSMark Johnson */
6677eea693dSMark Johnson usring = &state->bt_user_ring;
6687eea693dSMark Johnson if (usring->ur_prod_polled != usring->ur_ring.req_prod_pvt) {
6697eea693dSMark Johnson
6707eea693dSMark Johnson /*
6717eea693dSMark Johnson * XXX - is this faster here or xpvtap_user_request_push??
6727eea693dSMark Johnson * prelim data says here. Because less membars or because
6737eea693dSMark Johnson * user thread will spin in poll requests before getting to
6747eea693dSMark Johnson * responses?
6757eea693dSMark Johnson */
6767eea693dSMark Johnson RING_PUSH_REQUESTS(&usring->ur_ring);
6777eea693dSMark Johnson
6787eea693dSMark Johnson usring->ur_prod_polled = usring->ur_ring.sring->req_prod;
6797eea693dSMark Johnson *reventsp = POLLIN | POLLRDNORM;
6807eea693dSMark Johnson
6817eea693dSMark Johnson /* no new requests */
6827eea693dSMark Johnson } else {
6837eea693dSMark Johnson *reventsp = 0;
6847eea693dSMark Johnson if (!anyyet) {
6857eea693dSMark Johnson *phpp = &state->bt_pollhead;
6867eea693dSMark Johnson }
6877eea693dSMark Johnson }
6887eea693dSMark Johnson
6897eea693dSMark Johnson return (0);
6907eea693dSMark Johnson }
6917eea693dSMark Johnson
6927eea693dSMark Johnson
6937eea693dSMark Johnson /*
6947eea693dSMark Johnson * xpvtap_drv_init()
6957eea693dSMark Johnson */
6967eea693dSMark Johnson static xpvtap_state_t *
xpvtap_drv_init(int instance)6977eea693dSMark Johnson xpvtap_drv_init(int instance)
6987eea693dSMark Johnson {
6997eea693dSMark Johnson xpvtap_state_t *state;
7007eea693dSMark Johnson int e;
7017eea693dSMark Johnson
7027eea693dSMark Johnson
7037eea693dSMark Johnson e = ddi_soft_state_zalloc(xpvtap_statep, instance);
7047eea693dSMark Johnson if (e != DDI_SUCCESS) {
7057eea693dSMark Johnson return (NULL);
7067eea693dSMark Johnson }
7077eea693dSMark Johnson state = ddi_get_soft_state(xpvtap_statep, instance);
7087eea693dSMark Johnson if (state == NULL) {
7097eea693dSMark Johnson goto drvinitfail_get_soft_state;
7107eea693dSMark Johnson }
7117eea693dSMark Johnson
7127eea693dSMark Johnson state->bt_instance = instance;
7137eea693dSMark Johnson mutex_init(&state->bt_open.bo_mutex, NULL, MUTEX_DRIVER, NULL);
7147eea693dSMark Johnson cv_init(&state->bt_open.bo_exit_cv, NULL, CV_DRIVER, NULL);
7157eea693dSMark Johnson state->bt_open.bo_opened = B_FALSE;
7167eea693dSMark Johnson state->bt_map.um_registered = B_FALSE;
7177eea693dSMark Johnson
7187eea693dSMark Johnson /* initialize user ring, thread, mapping state */
7197eea693dSMark Johnson e = xpvtap_user_init(state);
7207eea693dSMark Johnson if (e != DDI_SUCCESS) {
7217eea693dSMark Johnson goto drvinitfail_userinit;
7227eea693dSMark Johnson }
7237eea693dSMark Johnson
7247eea693dSMark Johnson return (state);
7257eea693dSMark Johnson
7267eea693dSMark Johnson drvinitfail_userinit:
7277eea693dSMark Johnson cv_destroy(&state->bt_open.bo_exit_cv);
7287eea693dSMark Johnson mutex_destroy(&state->bt_open.bo_mutex);
7297eea693dSMark Johnson drvinitfail_get_soft_state:
7307eea693dSMark Johnson (void) ddi_soft_state_free(xpvtap_statep, instance);
7317eea693dSMark Johnson return (NULL);
7327eea693dSMark Johnson }
7337eea693dSMark Johnson
7347eea693dSMark Johnson
7357eea693dSMark Johnson /*
7367eea693dSMark Johnson * xpvtap_drv_fini()
7377eea693dSMark Johnson */
7387eea693dSMark Johnson static void
xpvtap_drv_fini(xpvtap_state_t * state)7397eea693dSMark Johnson xpvtap_drv_fini(xpvtap_state_t *state)
7407eea693dSMark Johnson {
7417eea693dSMark Johnson xpvtap_user_fini(state);
7427eea693dSMark Johnson cv_destroy(&state->bt_open.bo_exit_cv);
7437eea693dSMark Johnson mutex_destroy(&state->bt_open.bo_mutex);
7447eea693dSMark Johnson (void) ddi_soft_state_free(xpvtap_statep, state->bt_instance);
7457eea693dSMark Johnson }
7467eea693dSMark Johnson
7477eea693dSMark Johnson
7487eea693dSMark Johnson /*
7497eea693dSMark Johnson * xpvtap_intr()
7507eea693dSMark Johnson * this routine will be called when we have a request on the guest ring.
7517eea693dSMark Johnson */
7527eea693dSMark Johnson static uint_t
xpvtap_intr(caddr_t arg)7537eea693dSMark Johnson xpvtap_intr(caddr_t arg)
7547eea693dSMark Johnson {
7557eea693dSMark Johnson xpvtap_state_t *state;
7567eea693dSMark Johnson
7577eea693dSMark Johnson
7587eea693dSMark Johnson state = (xpvtap_state_t *)arg;
7597eea693dSMark Johnson
7607eea693dSMark Johnson /* wake thread, thread handles guest requests and user app responses */
7617eea693dSMark Johnson mutex_enter(&state->bt_thread.ut_mutex);
7627eea693dSMark Johnson state->bt_thread.ut_wake = B_TRUE;
7637eea693dSMark Johnson cv_signal(&state->bt_thread.ut_wake_cv);
7647eea693dSMark Johnson mutex_exit(&state->bt_thread.ut_mutex);
7657eea693dSMark Johnson
7667eea693dSMark Johnson return (DDI_INTR_CLAIMED);
7677eea693dSMark Johnson }
7687eea693dSMark Johnson
7697eea693dSMark Johnson
7707eea693dSMark Johnson /*
7717eea693dSMark Johnson * xpvtap_segmf_register()
7727eea693dSMark Johnson */
7737eea693dSMark Johnson static int
xpvtap_segmf_register(xpvtap_state_t * state)7747eea693dSMark Johnson xpvtap_segmf_register(xpvtap_state_t *state)
7757eea693dSMark Johnson {
7767eea693dSMark Johnson struct seg *seg;
7777eea693dSMark Johnson uint64_t pte_ma;
7787eea693dSMark Johnson struct as *as;
7797eea693dSMark Johnson caddr_t uaddr;
7807eea693dSMark Johnson uint_t pgcnt;
7817eea693dSMark Johnson int i;
7827eea693dSMark Johnson
7837eea693dSMark Johnson
7847eea693dSMark Johnson as = state->bt_map.um_as;
7857eea693dSMark Johnson pgcnt = btopr(state->bt_map.um_guest_size);
7867eea693dSMark Johnson uaddr = state->bt_map.um_guest_pages;
7877eea693dSMark Johnson
7887eea693dSMark Johnson if (pgcnt == 0) {
7897eea693dSMark Johnson return (DDI_FAILURE);
7907eea693dSMark Johnson }
7917eea693dSMark Johnson
792*fd435bccSJosef 'Jeff' Sipek AS_LOCK_ENTER(as, RW_READER);
7937eea693dSMark Johnson
7947eea693dSMark Johnson seg = as_findseg(as, state->bt_map.um_guest_pages, 0);
7957eea693dSMark Johnson if ((seg == NULL) || ((uaddr + state->bt_map.um_guest_size) >
7967eea693dSMark Johnson (seg->s_base + seg->s_size))) {
797*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
7987eea693dSMark Johnson return (DDI_FAILURE);
7997eea693dSMark Johnson }
8007eea693dSMark Johnson
8017eea693dSMark Johnson /*
8027eea693dSMark Johnson * lock down the htables so the HAT can't steal them. Register the
8037eea693dSMark Johnson * PTE MA's for each gref page with seg_mf so we can do user space
8047eea693dSMark Johnson * gref mappings.
8057eea693dSMark Johnson */
8067eea693dSMark Johnson for (i = 0; i < pgcnt; i++) {
8077eea693dSMark Johnson hat_prepare_mapping(as->a_hat, uaddr, &pte_ma);
8087eea693dSMark Johnson hat_devload(as->a_hat, uaddr, PAGESIZE, (pfn_t)0,
8097eea693dSMark Johnson PROT_READ | PROT_WRITE | PROT_USER | HAT_UNORDERED_OK,
8107eea693dSMark Johnson HAT_LOAD_NOCONSIST | HAT_LOAD_LOCK);
8117eea693dSMark Johnson hat_release_mapping(as->a_hat, uaddr);
8127eea693dSMark Johnson segmf_add_gref_pte(seg, uaddr, pte_ma);
8137eea693dSMark Johnson uaddr += PAGESIZE;
8147eea693dSMark Johnson }
8157eea693dSMark Johnson
8167eea693dSMark Johnson state->bt_map.um_registered = B_TRUE;
8177eea693dSMark Johnson
818*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
8197eea693dSMark Johnson
8207eea693dSMark Johnson return (DDI_SUCCESS);
8217eea693dSMark Johnson }
8227eea693dSMark Johnson
8237eea693dSMark Johnson
8247eea693dSMark Johnson /*
8257eea693dSMark Johnson * xpvtap_segmf_unregister()
8267eea693dSMark Johnson * as_callback routine
8277eea693dSMark Johnson */
8287eea693dSMark Johnson /*ARGSUSED*/
8297eea693dSMark Johnson static void
xpvtap_segmf_unregister(struct as * as,void * arg,uint_t event)8307eea693dSMark Johnson xpvtap_segmf_unregister(struct as *as, void *arg, uint_t event)
8317eea693dSMark Johnson {
8327eea693dSMark Johnson xpvtap_state_t *state;
8337eea693dSMark Johnson caddr_t uaddr;
8347eea693dSMark Johnson uint_t pgcnt;
8357eea693dSMark Johnson int i;
8367eea693dSMark Johnson
8377eea693dSMark Johnson
8387eea693dSMark Johnson state = (xpvtap_state_t *)arg;
8397eea693dSMark Johnson if (!state->bt_map.um_registered) {
84055501136SMark Johnson /* remove the callback (which is this routine) */
84155501136SMark Johnson (void) as_delete_callback(as, arg);
8427eea693dSMark Johnson return;
8437eea693dSMark Johnson }
8447eea693dSMark Johnson
8457eea693dSMark Johnson pgcnt = btopr(state->bt_map.um_guest_size);
8467eea693dSMark Johnson uaddr = state->bt_map.um_guest_pages;
8477eea693dSMark Johnson
8487eea693dSMark Johnson /* unmap any outstanding req's grefs */
8497eea693dSMark Johnson xpvtap_rs_flush(state->bt_map.um_rs, xpvtap_user_request_unmap, state);
8507eea693dSMark Johnson
8517eea693dSMark Johnson /* Unlock the gref pages */
8527eea693dSMark Johnson for (i = 0; i < pgcnt; i++) {
853*fd435bccSJosef 'Jeff' Sipek AS_LOCK_ENTER(as, RW_WRITER);
8547eea693dSMark Johnson hat_prepare_mapping(as->a_hat, uaddr, NULL);
8557eea693dSMark Johnson hat_unload(as->a_hat, uaddr, PAGESIZE, HAT_UNLOAD_UNLOCK);
8567eea693dSMark Johnson hat_release_mapping(as->a_hat, uaddr);
857*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
8587eea693dSMark Johnson uaddr += PAGESIZE;
8597eea693dSMark Johnson }
8607eea693dSMark Johnson
8617eea693dSMark Johnson /* remove the callback (which is this routine) */
8627eea693dSMark Johnson (void) as_delete_callback(as, arg);
8637eea693dSMark Johnson
8647eea693dSMark Johnson state->bt_map.um_registered = B_FALSE;
8657eea693dSMark Johnson }
8667eea693dSMark Johnson
8677eea693dSMark Johnson
8687eea693dSMark Johnson /*
8697eea693dSMark Johnson * xpvtap_user_init()
8707eea693dSMark Johnson */
8717eea693dSMark Johnson static int
xpvtap_user_init(xpvtap_state_t * state)8727eea693dSMark Johnson xpvtap_user_init(xpvtap_state_t *state)
8737eea693dSMark Johnson {
8747eea693dSMark Johnson xpvtap_user_map_t *map;
8757eea693dSMark Johnson int e;
8767eea693dSMark Johnson
8777eea693dSMark Johnson
8787eea693dSMark Johnson map = &state->bt_map;
8797eea693dSMark Johnson
8807eea693dSMark Johnson /* Setup the ring between the driver and user app */
8817eea693dSMark Johnson e = xpvtap_user_ring_init(state);
8827eea693dSMark Johnson if (e != DDI_SUCCESS) {
8837eea693dSMark Johnson return (DDI_FAILURE);
8847eea693dSMark Johnson }
8857eea693dSMark Johnson
8867eea693dSMark Johnson /*
8877eea693dSMark Johnson * the user ring can handle BLKIF_RING_SIZE outstanding requests. This
8887eea693dSMark Johnson * is the same number of requests as the guest ring. Initialize the
8897eea693dSMark Johnson * state we use to track request IDs to the user app. These IDs will
8907eea693dSMark Johnson * also identify which group of gref pages correspond with the
8917eea693dSMark Johnson * request.
8927eea693dSMark Johnson */
8937eea693dSMark Johnson xpvtap_rs_init(0, (BLKIF_RING_SIZE - 1), &map->um_rs);
8947eea693dSMark Johnson
8957eea693dSMark Johnson /*
8967eea693dSMark Johnson * allocate the space to store a copy of each outstanding requests. We
8977eea693dSMark Johnson * will need to reference the ID and the number of segments when we
8987eea693dSMark Johnson * get the response from the user app.
8997eea693dSMark Johnson */
9007eea693dSMark Johnson map->um_outstanding_reqs = kmem_zalloc(
9017eea693dSMark Johnson sizeof (*map->um_outstanding_reqs) * BLKIF_RING_SIZE,
9027eea693dSMark Johnson KM_SLEEP);
9037eea693dSMark Johnson
9047eea693dSMark Johnson /*
9057eea693dSMark Johnson * initialize the thread we use to process guest requests and user
9067eea693dSMark Johnson * responses.
9077eea693dSMark Johnson */
9087eea693dSMark Johnson e = xpvtap_user_thread_init(state);
9097eea693dSMark Johnson if (e != DDI_SUCCESS) {
9107eea693dSMark Johnson goto userinitfail_user_thread_init;
9117eea693dSMark Johnson }
9127eea693dSMark Johnson
9137eea693dSMark Johnson return (DDI_SUCCESS);
9147eea693dSMark Johnson
9157eea693dSMark Johnson userinitfail_user_thread_init:
9167eea693dSMark Johnson xpvtap_rs_fini(&map->um_rs);
9177eea693dSMark Johnson kmem_free(map->um_outstanding_reqs,
9187eea693dSMark Johnson sizeof (*map->um_outstanding_reqs) * BLKIF_RING_SIZE);
9197eea693dSMark Johnson xpvtap_user_ring_fini(state);
9207eea693dSMark Johnson return (DDI_FAILURE);
9217eea693dSMark Johnson }
9227eea693dSMark Johnson
9237eea693dSMark Johnson
9247eea693dSMark Johnson /*
9257eea693dSMark Johnson * xpvtap_user_ring_init()
9267eea693dSMark Johnson */
9277eea693dSMark Johnson static int
xpvtap_user_ring_init(xpvtap_state_t * state)9287eea693dSMark Johnson xpvtap_user_ring_init(xpvtap_state_t *state)
9297eea693dSMark Johnson {
9307eea693dSMark Johnson xpvtap_user_ring_t *usring;
9317eea693dSMark Johnson
9327eea693dSMark Johnson
9337eea693dSMark Johnson usring = &state->bt_user_ring;
9347eea693dSMark Johnson
9357eea693dSMark Johnson /* alocate and initialize the page for the shared user ring */
9367eea693dSMark Johnson usring->ur_sring = (blkif_sring_t *)ddi_umem_alloc(PAGESIZE,
9377eea693dSMark Johnson DDI_UMEM_SLEEP, &usring->ur_cookie);
9387eea693dSMark Johnson SHARED_RING_INIT(usring->ur_sring);
9397eea693dSMark Johnson FRONT_RING_INIT(&usring->ur_ring, usring->ur_sring, PAGESIZE);
9407eea693dSMark Johnson usring->ur_prod_polled = 0;
9417eea693dSMark Johnson
9427eea693dSMark Johnson return (DDI_SUCCESS);
9437eea693dSMark Johnson }
9447eea693dSMark Johnson
9457eea693dSMark Johnson
9467eea693dSMark Johnson /*
9477eea693dSMark Johnson * xpvtap_user_thread_init()
9487eea693dSMark Johnson */
9497eea693dSMark Johnson static int
xpvtap_user_thread_init(xpvtap_state_t * state)9507eea693dSMark Johnson xpvtap_user_thread_init(xpvtap_state_t *state)
9517eea693dSMark Johnson {
9527eea693dSMark Johnson xpvtap_user_thread_t *thread;
9537eea693dSMark Johnson char taskqname[32];
9547eea693dSMark Johnson
9557eea693dSMark Johnson
9567eea693dSMark Johnson thread = &state->bt_thread;
9577eea693dSMark Johnson
9587eea693dSMark Johnson mutex_init(&thread->ut_mutex, NULL, MUTEX_DRIVER, NULL);
9597eea693dSMark Johnson cv_init(&thread->ut_wake_cv, NULL, CV_DRIVER, NULL);
9607eea693dSMark Johnson cv_init(&thread->ut_exit_done_cv, NULL, CV_DRIVER, NULL);
9617eea693dSMark Johnson thread->ut_wake = B_FALSE;
9627eea693dSMark Johnson thread->ut_exit = B_FALSE;
9637eea693dSMark Johnson thread->ut_exit_done = B_TRUE;
9647eea693dSMark Johnson
9657eea693dSMark Johnson /* create but don't start the user thread */
9667eea693dSMark Johnson (void) sprintf(taskqname, "xvptap_%d", state->bt_instance);
9677eea693dSMark Johnson thread->ut_taskq = ddi_taskq_create(state->bt_dip, taskqname, 1,
9687eea693dSMark Johnson TASKQ_DEFAULTPRI, 0);
9697eea693dSMark Johnson if (thread->ut_taskq == NULL) {
9707eea693dSMark Johnson goto userinitthrfail_taskq_create;
9717eea693dSMark Johnson }
9727eea693dSMark Johnson
9737eea693dSMark Johnson return (DDI_SUCCESS);
9747eea693dSMark Johnson
9757eea693dSMark Johnson userinitthrfail_taskq_dispatch:
9767eea693dSMark Johnson ddi_taskq_destroy(thread->ut_taskq);
9777eea693dSMark Johnson userinitthrfail_taskq_create:
9787eea693dSMark Johnson cv_destroy(&thread->ut_exit_done_cv);
9797eea693dSMark Johnson cv_destroy(&thread->ut_wake_cv);
9807eea693dSMark Johnson mutex_destroy(&thread->ut_mutex);
9817eea693dSMark Johnson
9827eea693dSMark Johnson return (DDI_FAILURE);
9837eea693dSMark Johnson }
9847eea693dSMark Johnson
9857eea693dSMark Johnson
9867eea693dSMark Johnson /*
9877eea693dSMark Johnson * xpvtap_user_thread_start()
9887eea693dSMark Johnson */
9897eea693dSMark Johnson static void
xpvtap_user_thread_start(caddr_t arg)9907eea693dSMark Johnson xpvtap_user_thread_start(caddr_t arg)
9917eea693dSMark Johnson {
9927eea693dSMark Johnson xpvtap_user_thread_t *thread;
9937eea693dSMark Johnson xpvtap_state_t *state;
9947eea693dSMark Johnson int e;
9957eea693dSMark Johnson
9967eea693dSMark Johnson
9977eea693dSMark Johnson state = (xpvtap_state_t *)arg;
9987eea693dSMark Johnson thread = &state->bt_thread;
9997eea693dSMark Johnson
10007eea693dSMark Johnson /* start the user thread */
10017eea693dSMark Johnson thread->ut_exit_done = B_FALSE;
10027eea693dSMark Johnson e = ddi_taskq_dispatch(thread->ut_taskq, xpvtap_user_thread, state,
10037eea693dSMark Johnson DDI_SLEEP);
10047eea693dSMark Johnson if (e != DDI_SUCCESS) {
10057eea693dSMark Johnson thread->ut_exit_done = B_TRUE;
10067eea693dSMark Johnson cmn_err(CE_WARN, "Unable to start user thread\n");
10077eea693dSMark Johnson }
10087eea693dSMark Johnson }
10097eea693dSMark Johnson
10107eea693dSMark Johnson
10117eea693dSMark Johnson /*
10127eea693dSMark Johnson * xpvtap_user_thread_stop()
10137eea693dSMark Johnson */
10147eea693dSMark Johnson static void
xpvtap_user_thread_stop(xpvtap_state_t * state)10157eea693dSMark Johnson xpvtap_user_thread_stop(xpvtap_state_t *state)
10167eea693dSMark Johnson {
10177eea693dSMark Johnson /* wake thread so it can exit */
10187eea693dSMark Johnson mutex_enter(&state->bt_thread.ut_mutex);
10197eea693dSMark Johnson state->bt_thread.ut_wake = B_TRUE;
10207eea693dSMark Johnson state->bt_thread.ut_exit = B_TRUE;
10217eea693dSMark Johnson cv_signal(&state->bt_thread.ut_wake_cv);
10227eea693dSMark Johnson if (!state->bt_thread.ut_exit_done) {
10237eea693dSMark Johnson cv_wait(&state->bt_thread.ut_exit_done_cv,
10247eea693dSMark Johnson &state->bt_thread.ut_mutex);
10257eea693dSMark Johnson }
10267eea693dSMark Johnson mutex_exit(&state->bt_thread.ut_mutex);
10277eea693dSMark Johnson ASSERT(state->bt_thread.ut_exit_done);
10287eea693dSMark Johnson }
10297eea693dSMark Johnson
10307eea693dSMark Johnson
10317eea693dSMark Johnson /*
10327eea693dSMark Johnson * xpvtap_user_fini()
10337eea693dSMark Johnson */
10347eea693dSMark Johnson static void
xpvtap_user_fini(xpvtap_state_t * state)10357eea693dSMark Johnson xpvtap_user_fini(xpvtap_state_t *state)
10367eea693dSMark Johnson {
10377eea693dSMark Johnson xpvtap_user_map_t *map;
10387eea693dSMark Johnson
10397eea693dSMark Johnson
10407eea693dSMark Johnson map = &state->bt_map;
10417eea693dSMark Johnson
10427eea693dSMark Johnson xpvtap_user_thread_fini(state);
10437eea693dSMark Johnson xpvtap_rs_fini(&map->um_rs);
10447eea693dSMark Johnson kmem_free(map->um_outstanding_reqs,
10457eea693dSMark Johnson sizeof (*map->um_outstanding_reqs) * BLKIF_RING_SIZE);
10467eea693dSMark Johnson xpvtap_user_ring_fini(state);
10477eea693dSMark Johnson }
10487eea693dSMark Johnson
10497eea693dSMark Johnson
10507eea693dSMark Johnson /*
10517eea693dSMark Johnson * xpvtap_user_ring_fini()
10527eea693dSMark Johnson */
10537eea693dSMark Johnson static void
xpvtap_user_ring_fini(xpvtap_state_t * state)10547eea693dSMark Johnson xpvtap_user_ring_fini(xpvtap_state_t *state)
10557eea693dSMark Johnson {
10567eea693dSMark Johnson ddi_umem_free(state->bt_user_ring.ur_cookie);
10577eea693dSMark Johnson }
10587eea693dSMark Johnson
10597eea693dSMark Johnson
10607eea693dSMark Johnson /*
10617eea693dSMark Johnson * xpvtap_user_thread_fini()
10627eea693dSMark Johnson */
10637eea693dSMark Johnson static void
xpvtap_user_thread_fini(xpvtap_state_t * state)10647eea693dSMark Johnson xpvtap_user_thread_fini(xpvtap_state_t *state)
10657eea693dSMark Johnson {
10667eea693dSMark Johnson ddi_taskq_destroy(state->bt_thread.ut_taskq);
10677eea693dSMark Johnson cv_destroy(&state->bt_thread.ut_exit_done_cv);
10687eea693dSMark Johnson cv_destroy(&state->bt_thread.ut_wake_cv);
10697eea693dSMark Johnson mutex_destroy(&state->bt_thread.ut_mutex);
10707eea693dSMark Johnson }
10717eea693dSMark Johnson
10727eea693dSMark Johnson
10737eea693dSMark Johnson /*
10747eea693dSMark Johnson * xpvtap_user_thread()
10757eea693dSMark Johnson */
10767eea693dSMark Johnson static void
xpvtap_user_thread(void * arg)10777eea693dSMark Johnson xpvtap_user_thread(void *arg)
10787eea693dSMark Johnson {
10797eea693dSMark Johnson xpvtap_user_thread_t *thread;
10807eea693dSMark Johnson blkif_response_t resp;
10817eea693dSMark Johnson xpvtap_state_t *state;
10827eea693dSMark Johnson blkif_request_t req;
10837eea693dSMark Johnson boolean_t b;
10847eea693dSMark Johnson uint_t uid;
10857eea693dSMark Johnson int e;
10867eea693dSMark Johnson
10877eea693dSMark Johnson
10887eea693dSMark Johnson state = (xpvtap_state_t *)arg;
10897eea693dSMark Johnson thread = &state->bt_thread;
10907eea693dSMark Johnson
10917eea693dSMark Johnson xpvtap_thread_start:
10927eea693dSMark Johnson /* See if we are supposed to exit */
10937eea693dSMark Johnson mutex_enter(&thread->ut_mutex);
10947eea693dSMark Johnson if (thread->ut_exit) {
10957eea693dSMark Johnson thread->ut_exit_done = B_TRUE;
10967eea693dSMark Johnson cv_signal(&state->bt_thread.ut_exit_done_cv);
10977eea693dSMark Johnson mutex_exit(&thread->ut_mutex);
10987eea693dSMark Johnson return;
10997eea693dSMark Johnson }
11007eea693dSMark Johnson
11017eea693dSMark Johnson /*
11027eea693dSMark Johnson * if we aren't supposed to be awake, wait until someone wakes us.
11037eea693dSMark Johnson * when we wake up, check for a kill or someone telling us to exit.
11047eea693dSMark Johnson */
11057eea693dSMark Johnson if (!thread->ut_wake) {
11067eea693dSMark Johnson e = cv_wait_sig(&thread->ut_wake_cv, &thread->ut_mutex);
11077eea693dSMark Johnson if ((e == 0) || (thread->ut_exit)) {
11087eea693dSMark Johnson thread->ut_exit = B_TRUE;
11097eea693dSMark Johnson mutex_exit(&thread->ut_mutex);
11107eea693dSMark Johnson goto xpvtap_thread_start;
11117eea693dSMark Johnson }
11127eea693dSMark Johnson }
11137eea693dSMark Johnson
11147eea693dSMark Johnson /* if someone didn't wake us, go back to the start of the thread */
11157eea693dSMark Johnson if (!thread->ut_wake) {
11167eea693dSMark Johnson mutex_exit(&thread->ut_mutex);
11177eea693dSMark Johnson goto xpvtap_thread_start;
11187eea693dSMark Johnson }
11197eea693dSMark Johnson
11207eea693dSMark Johnson /* we are awake */
11217eea693dSMark Johnson thread->ut_wake = B_FALSE;
11227eea693dSMark Johnson mutex_exit(&thread->ut_mutex);
11237eea693dSMark Johnson
11247eea693dSMark Johnson /* process requests from the guest */
11257eea693dSMark Johnson do {
11267eea693dSMark Johnson /*
11277eea693dSMark Johnson * check for requests from the guest. if we don't have any,
11287eea693dSMark Johnson * break out of the loop.
11297eea693dSMark Johnson */
11307eea693dSMark Johnson e = blk_ring_request_get(state->bt_guest_ring, &req);
11317eea693dSMark Johnson if (e == B_FALSE) {
11327eea693dSMark Johnson break;
11337eea693dSMark Johnson }
11347eea693dSMark Johnson
11357eea693dSMark Johnson /* we got a request, map the grefs into the user app's VA */
11367eea693dSMark Johnson e = xpvtap_user_request_map(state, &req, &uid);
11377eea693dSMark Johnson if (e != DDI_SUCCESS) {
11387eea693dSMark Johnson /*
11397eea693dSMark Johnson * If we couldn't map the request (e.g. user app hasn't
11407eea693dSMark Johnson * opened the device yet), requeue it and try again
11417eea693dSMark Johnson * later
11427eea693dSMark Johnson */
11437eea693dSMark Johnson blk_ring_request_requeue(state->bt_guest_ring);
11447eea693dSMark Johnson break;
11457eea693dSMark Johnson }
11467eea693dSMark Johnson
11477eea693dSMark Johnson /* push the request to the user app */
11487eea693dSMark Johnson e = xpvtap_user_request_push(state, &req, uid);
11497eea693dSMark Johnson if (e != DDI_SUCCESS) {
11507eea693dSMark Johnson resp.id = req.id;
11517eea693dSMark Johnson resp.operation = req.operation;
11527eea693dSMark Johnson resp.status = BLKIF_RSP_ERROR;
11537eea693dSMark Johnson blk_ring_response_put(state->bt_guest_ring, &resp);
11547eea693dSMark Johnson }
11557eea693dSMark Johnson } while (!thread->ut_exit);
11567eea693dSMark Johnson
11577eea693dSMark Johnson /* process reponses from the user app */
11587eea693dSMark Johnson do {
11597eea693dSMark Johnson /*
11607eea693dSMark Johnson * check for responses from the user app. if we don't have any,
11617eea693dSMark Johnson * break out of the loop.
11627eea693dSMark Johnson */
11637eea693dSMark Johnson b = xpvtap_user_response_get(state, &resp, &uid);
11647eea693dSMark Johnson if (b != B_TRUE) {
11657eea693dSMark Johnson break;
11667eea693dSMark Johnson }
11677eea693dSMark Johnson
11687eea693dSMark Johnson /*
11697eea693dSMark Johnson * if we got a response, unmap the grefs from the matching
11707eea693dSMark Johnson * request.
11717eea693dSMark Johnson */
11727eea693dSMark Johnson xpvtap_user_request_unmap(state, uid);
11737eea693dSMark Johnson
11747eea693dSMark Johnson /* push the response to the guest */
11757eea693dSMark Johnson blk_ring_response_put(state->bt_guest_ring, &resp);
11767eea693dSMark Johnson } while (!thread->ut_exit);
11777eea693dSMark Johnson
11787eea693dSMark Johnson goto xpvtap_thread_start;
11797eea693dSMark Johnson }
11807eea693dSMark Johnson
11817eea693dSMark Johnson
11827eea693dSMark Johnson /*
11837eea693dSMark Johnson * xpvtap_user_request_map()
11847eea693dSMark Johnson */
11857eea693dSMark Johnson static int
xpvtap_user_request_map(xpvtap_state_t * state,blkif_request_t * req,uint_t * uid)11867eea693dSMark Johnson xpvtap_user_request_map(xpvtap_state_t *state, blkif_request_t *req,
11877eea693dSMark Johnson uint_t *uid)
11887eea693dSMark Johnson {
11897eea693dSMark Johnson grant_ref_t gref[BLKIF_MAX_SEGMENTS_PER_REQUEST];
11907eea693dSMark Johnson struct seg *seg;
11917eea693dSMark Johnson struct as *as;
11927eea693dSMark Johnson domid_t domid;
11937eea693dSMark Johnson caddr_t uaddr;
11947eea693dSMark Johnson uint_t flags;
11957eea693dSMark Johnson int i;
11967eea693dSMark Johnson int e;
11977eea693dSMark Johnson
11987eea693dSMark Johnson
11997eea693dSMark Johnson domid = xvdi_get_oeid(state->bt_dip);
12007eea693dSMark Johnson
12017eea693dSMark Johnson as = state->bt_map.um_as;
12027eea693dSMark Johnson if ((as == NULL) || (state->bt_map.um_guest_pages == NULL)) {
12037eea693dSMark Johnson return (DDI_FAILURE);
12047eea693dSMark Johnson }
12057eea693dSMark Johnson
12067eea693dSMark Johnson /* has to happen after segmap returns */
12077eea693dSMark Johnson if (!state->bt_map.um_registered) {
12087eea693dSMark Johnson /* register the pte's with segmf */
12097eea693dSMark Johnson e = xpvtap_segmf_register(state);
12107eea693dSMark Johnson if (e != DDI_SUCCESS) {
12117eea693dSMark Johnson return (DDI_FAILURE);
12127eea693dSMark Johnson }
12137eea693dSMark Johnson }
12147eea693dSMark Johnson
12157eea693dSMark Johnson /* alloc an ID for the user ring */
12167eea693dSMark Johnson e = xpvtap_rs_alloc(state->bt_map.um_rs, uid);
12177eea693dSMark Johnson if (e != DDI_SUCCESS) {
12187eea693dSMark Johnson return (DDI_FAILURE);
12197eea693dSMark Johnson }
12207eea693dSMark Johnson
12217eea693dSMark Johnson /* if we don't have any segments to map, we're done */
12227eea693dSMark Johnson if ((req->operation == BLKIF_OP_WRITE_BARRIER) ||
12237eea693dSMark Johnson (req->operation == BLKIF_OP_FLUSH_DISKCACHE) ||
12247eea693dSMark Johnson (req->nr_segments == 0)) {
12257eea693dSMark Johnson return (DDI_SUCCESS);
12267eea693dSMark Johnson }
12277eea693dSMark Johnson
12287eea693dSMark Johnson /* get the apps gref address */
12297eea693dSMark Johnson uaddr = XPVTAP_GREF_REQADDR(state->bt_map.um_guest_pages, *uid);
12307eea693dSMark Johnson
1231*fd435bccSJosef 'Jeff' Sipek AS_LOCK_ENTER(as, RW_READER);
12327eea693dSMark Johnson seg = as_findseg(as, state->bt_map.um_guest_pages, 0);
12337eea693dSMark Johnson if ((seg == NULL) || ((uaddr + mmu_ptob(req->nr_segments)) >
12347eea693dSMark Johnson (seg->s_base + seg->s_size))) {
1235*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
12367eea693dSMark Johnson return (DDI_FAILURE);
12377eea693dSMark Johnson }
12387eea693dSMark Johnson
12397eea693dSMark Johnson /* if we are reading from disk, we are writing into memory */
12407eea693dSMark Johnson flags = 0;
12417eea693dSMark Johnson if (req->operation == BLKIF_OP_READ) {
12427eea693dSMark Johnson flags |= SEGMF_GREF_WR;
12437eea693dSMark Johnson }
12447eea693dSMark Johnson
12457eea693dSMark Johnson /* Load the grefs into seg_mf */
12467eea693dSMark Johnson for (i = 0; i < req->nr_segments; i++) {
12477eea693dSMark Johnson gref[i] = req->seg[i].gref;
12487eea693dSMark Johnson }
12497eea693dSMark Johnson (void) segmf_add_grefs(seg, uaddr, flags, gref, req->nr_segments,
12507eea693dSMark Johnson domid);
12517eea693dSMark Johnson
1252*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
12537eea693dSMark Johnson
12547eea693dSMark Johnson return (DDI_SUCCESS);
12557eea693dSMark Johnson }
12567eea693dSMark Johnson
12577eea693dSMark Johnson
12587eea693dSMark Johnson /*
12597eea693dSMark Johnson * xpvtap_user_request_push()
12607eea693dSMark Johnson */
12617eea693dSMark Johnson static int
xpvtap_user_request_push(xpvtap_state_t * state,blkif_request_t * req,uint_t uid)12627eea693dSMark Johnson xpvtap_user_request_push(xpvtap_state_t *state, blkif_request_t *req,
12637eea693dSMark Johnson uint_t uid)
12647eea693dSMark Johnson {
12657eea693dSMark Johnson blkif_request_t *outstanding_req;
12667eea693dSMark Johnson blkif_front_ring_t *uring;
12677eea693dSMark Johnson blkif_request_t *target;
12687eea693dSMark Johnson xpvtap_user_map_t *map;
12697eea693dSMark Johnson
12707eea693dSMark Johnson
12717eea693dSMark Johnson uring = &state->bt_user_ring.ur_ring;
12727eea693dSMark Johnson map = &state->bt_map;
12737eea693dSMark Johnson
12747eea693dSMark Johnson target = RING_GET_REQUEST(uring, uring->req_prod_pvt);
12757eea693dSMark Johnson
12767eea693dSMark Johnson /*
12777eea693dSMark Johnson * Save request from the frontend. used for ID mapping and unmap
12787eea693dSMark Johnson * on response/cleanup
12797eea693dSMark Johnson */
12807eea693dSMark Johnson outstanding_req = &map->um_outstanding_reqs[uid];
12817eea693dSMark Johnson bcopy(req, outstanding_req, sizeof (*outstanding_req));
12827eea693dSMark Johnson
12837eea693dSMark Johnson /* put the request on the user ring */
12847eea693dSMark Johnson bcopy(req, target, sizeof (*req));
12857eea693dSMark Johnson target->id = (uint64_t)uid;
12867eea693dSMark Johnson uring->req_prod_pvt++;
12877eea693dSMark Johnson
12887eea693dSMark Johnson pollwakeup(&state->bt_pollhead, POLLIN | POLLRDNORM);
12897eea693dSMark Johnson
12907eea693dSMark Johnson return (DDI_SUCCESS);
12917eea693dSMark Johnson }
12927eea693dSMark Johnson
12937eea693dSMark Johnson
12947eea693dSMark Johnson static void
xpvtap_user_request_unmap(xpvtap_state_t * state,uint_t uid)12957eea693dSMark Johnson xpvtap_user_request_unmap(xpvtap_state_t *state, uint_t uid)
12967eea693dSMark Johnson {
12977eea693dSMark Johnson blkif_request_t *req;
12987eea693dSMark Johnson struct seg *seg;
12997eea693dSMark Johnson struct as *as;
13007eea693dSMark Johnson caddr_t uaddr;
13017eea693dSMark Johnson int e;
13027eea693dSMark Johnson
13037eea693dSMark Johnson
13047eea693dSMark Johnson as = state->bt_map.um_as;
13057eea693dSMark Johnson if (as == NULL) {
13067eea693dSMark Johnson return;
13077eea693dSMark Johnson }
13087eea693dSMark Johnson
13097eea693dSMark Johnson /* get a copy of the original request */
13107eea693dSMark Johnson req = &state->bt_map.um_outstanding_reqs[uid];
13117eea693dSMark Johnson
13127eea693dSMark Johnson /* unmap the grefs for this request */
13137eea693dSMark Johnson if ((req->operation != BLKIF_OP_WRITE_BARRIER) &&
13147eea693dSMark Johnson (req->operation != BLKIF_OP_FLUSH_DISKCACHE) &&
13157eea693dSMark Johnson (req->nr_segments != 0)) {
13167eea693dSMark Johnson uaddr = XPVTAP_GREF_REQADDR(state->bt_map.um_guest_pages, uid);
1317*fd435bccSJosef 'Jeff' Sipek AS_LOCK_ENTER(as, RW_READER);
13187eea693dSMark Johnson seg = as_findseg(as, state->bt_map.um_guest_pages, 0);
13197eea693dSMark Johnson if ((seg == NULL) || ((uaddr + mmu_ptob(req->nr_segments)) >
13207eea693dSMark Johnson (seg->s_base + seg->s_size))) {
1321*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
13227eea693dSMark Johnson xpvtap_rs_free(state->bt_map.um_rs, uid);
13237eea693dSMark Johnson return;
13247eea693dSMark Johnson }
13257eea693dSMark Johnson
13267eea693dSMark Johnson e = segmf_release_grefs(seg, uaddr, req->nr_segments);
13277eea693dSMark Johnson if (e != 0) {
13287eea693dSMark Johnson cmn_err(CE_WARN, "unable to release grefs");
13297eea693dSMark Johnson }
13307eea693dSMark Johnson
1331*fd435bccSJosef 'Jeff' Sipek AS_LOCK_EXIT(as);
13327eea693dSMark Johnson }
13337eea693dSMark Johnson
13347eea693dSMark Johnson /* free up the user ring id */
13357eea693dSMark Johnson xpvtap_rs_free(state->bt_map.um_rs, uid);
13367eea693dSMark Johnson }
13377eea693dSMark Johnson
13387eea693dSMark Johnson
13397eea693dSMark Johnson static int
xpvtap_user_response_get(xpvtap_state_t * state,blkif_response_t * resp,uint_t * uid)13407eea693dSMark Johnson xpvtap_user_response_get(xpvtap_state_t *state, blkif_response_t *resp,
13417eea693dSMark Johnson uint_t *uid)
13427eea693dSMark Johnson {
13437eea693dSMark Johnson blkif_front_ring_t *uring;
13447eea693dSMark Johnson blkif_response_t *target;
13457eea693dSMark Johnson
13467eea693dSMark Johnson
13477eea693dSMark Johnson uring = &state->bt_user_ring.ur_ring;
13487eea693dSMark Johnson
13497eea693dSMark Johnson if (!RING_HAS_UNCONSUMED_RESPONSES(uring)) {
13507eea693dSMark Johnson return (B_FALSE);
13517eea693dSMark Johnson }
13527eea693dSMark Johnson
13537eea693dSMark Johnson target = NULL;
13547eea693dSMark Johnson target = RING_GET_RESPONSE(uring, uring->rsp_cons);
13557eea693dSMark Johnson if (target == NULL) {
13567eea693dSMark Johnson return (B_FALSE);
13577eea693dSMark Johnson }
13587eea693dSMark Johnson
13597eea693dSMark Johnson /* copy out the user app response */
13607eea693dSMark Johnson bcopy(target, resp, sizeof (*resp));
13617eea693dSMark Johnson uring->rsp_cons++;
13627eea693dSMark Johnson
13637eea693dSMark Johnson /* restore the quests id from the original request */
13647eea693dSMark Johnson *uid = (uint_t)resp->id;
13657eea693dSMark Johnson resp->id = state->bt_map.um_outstanding_reqs[*uid].id;
13667eea693dSMark Johnson
13677eea693dSMark Johnson return (B_TRUE);
13687eea693dSMark Johnson }
13697eea693dSMark Johnson
13707eea693dSMark Johnson
13717eea693dSMark Johnson /*
13727eea693dSMark Johnson * xpvtap_user_app_stop()
13737eea693dSMark Johnson */
xpvtap_user_app_stop(caddr_t arg)13747eea693dSMark Johnson static void xpvtap_user_app_stop(caddr_t arg)
13757eea693dSMark Johnson {
13767eea693dSMark Johnson xpvtap_state_t *state;
13777eea693dSMark Johnson clock_t rc;
13787eea693dSMark Johnson
13797eea693dSMark Johnson state = (xpvtap_state_t *)arg;
13807eea693dSMark Johnson
13817eea693dSMark Johnson /*
13827eea693dSMark Johnson * Give the app 10 secs to exit. If it doesn't exit, it's not a serious
13837eea693dSMark Johnson * problem, we just won't auto-detach the driver.
13847eea693dSMark Johnson */
13857eea693dSMark Johnson mutex_enter(&state->bt_open.bo_mutex);
13867eea693dSMark Johnson if (state->bt_open.bo_opened) {
1387d3d50737SRafael Vanoni rc = cv_reltimedwait(&state->bt_open.bo_exit_cv,
1388d3d50737SRafael Vanoni &state->bt_open.bo_mutex, drv_usectohz(10000000),
1389d3d50737SRafael Vanoni TR_CLOCK_TICK);
13907eea693dSMark Johnson if (rc <= 0) {
13917eea693dSMark Johnson cmn_err(CE_NOTE, "!user process still has driver open, "
13927eea693dSMark Johnson "deferring detach\n");
13937eea693dSMark Johnson }
13947eea693dSMark Johnson }
13957eea693dSMark Johnson mutex_exit(&state->bt_open.bo_mutex);
13967eea693dSMark Johnson }
13977eea693dSMark Johnson
13987eea693dSMark Johnson
13997eea693dSMark Johnson /*
14007eea693dSMark Johnson * xpvtap_rs_init()
14017eea693dSMark Johnson * Initialize the resource structure. init() returns a handle to be used
14027eea693dSMark Johnson * for the rest of the resource functions. This code is written assuming
14037eea693dSMark Johnson * that min_val will be close to 0. Therefore, we will allocate the free
14047eea693dSMark Johnson * buffer only taking max_val into account.
14057eea693dSMark Johnson */
14067eea693dSMark Johnson static void
xpvtap_rs_init(uint_t min_val,uint_t max_val,xpvtap_rs_hdl_t * handle)14077eea693dSMark Johnson xpvtap_rs_init(uint_t min_val, uint_t max_val, xpvtap_rs_hdl_t *handle)
14087eea693dSMark Johnson {
14097eea693dSMark Johnson xpvtap_rs_t *rstruct;
14107eea693dSMark Johnson uint_t array_size;
14117eea693dSMark Johnson uint_t index;
14127eea693dSMark Johnson
14137eea693dSMark Johnson
14147eea693dSMark Johnson ASSERT(handle != NULL);
14157eea693dSMark Johnson ASSERT(min_val < max_val);
14167eea693dSMark Johnson
14177eea693dSMark Johnson /* alloc space for resource structure */
14187eea693dSMark Johnson rstruct = kmem_alloc(sizeof (xpvtap_rs_t), KM_SLEEP);
14197eea693dSMark Johnson
14207eea693dSMark Johnson /*
14217eea693dSMark Johnson * Test to see if the max value is 64-bit aligned. If so, we don't need
14227eea693dSMark Johnson * to allocate an extra 64-bit word. alloc space for free buffer
14237eea693dSMark Johnson * (8 bytes per uint64_t).
14247eea693dSMark Johnson */
14257eea693dSMark Johnson if ((max_val & 0x3F) == 0) {
14267eea693dSMark Johnson rstruct->rs_free_size = (max_val >> 6) * 8;
14277eea693dSMark Johnson } else {
14287eea693dSMark Johnson rstruct->rs_free_size = ((max_val >> 6) + 1) * 8;
14297eea693dSMark Johnson }
14307eea693dSMark Johnson rstruct->rs_free = kmem_alloc(rstruct->rs_free_size, KM_SLEEP);
14317eea693dSMark Johnson
14327eea693dSMark Johnson /* Initialize resource structure */
14337eea693dSMark Johnson rstruct->rs_min = min_val;
14347eea693dSMark Johnson rstruct->rs_last = min_val;
14357eea693dSMark Johnson rstruct->rs_max = max_val;
14367eea693dSMark Johnson mutex_init(&rstruct->rs_mutex, NULL, MUTEX_DRIVER, NULL);
14377eea693dSMark Johnson rstruct->rs_flushing = B_FALSE;
14387eea693dSMark Johnson
14397eea693dSMark Johnson /* Mark all resources as free */
14407eea693dSMark Johnson array_size = rstruct->rs_free_size >> 3;
14417eea693dSMark Johnson for (index = 0; index < array_size; index++) {
14427eea693dSMark Johnson rstruct->rs_free[index] = (uint64_t)0xFFFFFFFFFFFFFFFF;
14437eea693dSMark Johnson }
14447eea693dSMark Johnson
14457eea693dSMark Johnson /* setup handle which is returned from this function */
14467eea693dSMark Johnson *handle = rstruct;
14477eea693dSMark Johnson }
14487eea693dSMark Johnson
14497eea693dSMark Johnson
14507eea693dSMark Johnson /*
14517eea693dSMark Johnson * xpvtap_rs_fini()
14527eea693dSMark Johnson * Frees up the space allocated in init(). Notice that a pointer to the
14537eea693dSMark Johnson * handle is used for the parameter. fini() will set the handle to NULL
14547eea693dSMark Johnson * before returning.
14557eea693dSMark Johnson */
14567eea693dSMark Johnson static void
xpvtap_rs_fini(xpvtap_rs_hdl_t * handle)14577eea693dSMark Johnson xpvtap_rs_fini(xpvtap_rs_hdl_t *handle)
14587eea693dSMark Johnson {
14597eea693dSMark Johnson xpvtap_rs_t *rstruct;
14607eea693dSMark Johnson
14617eea693dSMark Johnson
14627eea693dSMark Johnson ASSERT(handle != NULL);
14637eea693dSMark Johnson
14647eea693dSMark Johnson rstruct = (xpvtap_rs_t *)*handle;
14657eea693dSMark Johnson
14667eea693dSMark Johnson mutex_destroy(&rstruct->rs_mutex);
14677eea693dSMark Johnson kmem_free(rstruct->rs_free, rstruct->rs_free_size);
14687eea693dSMark Johnson kmem_free(rstruct, sizeof (xpvtap_rs_t));
14697eea693dSMark Johnson
14707eea693dSMark Johnson /* set handle to null. This helps catch bugs. */
14717eea693dSMark Johnson *handle = NULL;
14727eea693dSMark Johnson }
14737eea693dSMark Johnson
14747eea693dSMark Johnson
14757eea693dSMark Johnson /*
14767eea693dSMark Johnson * xpvtap_rs_alloc()
14777eea693dSMark Johnson * alloc a resource. If alloc fails, we are out of resources.
14787eea693dSMark Johnson */
14797eea693dSMark Johnson static int
xpvtap_rs_alloc(xpvtap_rs_hdl_t handle,uint_t * resource)14807eea693dSMark Johnson xpvtap_rs_alloc(xpvtap_rs_hdl_t handle, uint_t *resource)
14817eea693dSMark Johnson {
14827eea693dSMark Johnson xpvtap_rs_t *rstruct;
14837eea693dSMark Johnson uint_t array_idx;
14847eea693dSMark Johnson uint64_t free;
14857eea693dSMark Johnson uint_t index;
14867eea693dSMark Johnson uint_t last;
14877eea693dSMark Johnson uint_t min;
14887eea693dSMark Johnson uint_t max;
14897eea693dSMark Johnson
14907eea693dSMark Johnson
14917eea693dSMark Johnson ASSERT(handle != NULL);
14927eea693dSMark Johnson ASSERT(resource != NULL);
14937eea693dSMark Johnson
14947eea693dSMark Johnson rstruct = (xpvtap_rs_t *)handle;
14957eea693dSMark Johnson
14967eea693dSMark Johnson mutex_enter(&rstruct->rs_mutex);
14977eea693dSMark Johnson min = rstruct->rs_min;
14987eea693dSMark Johnson max = rstruct->rs_max;
14997eea693dSMark Johnson
15007eea693dSMark Johnson /*
15017eea693dSMark Johnson * Find a free resource. This will return out of the loop once it finds
15027eea693dSMark Johnson * a free resource. There are a total of 'max'-'min'+1 resources.
15037eea693dSMark Johnson * Performs a round robin allocation.
15047eea693dSMark Johnson */
15057eea693dSMark Johnson for (index = min; index <= max; index++) {
15067eea693dSMark Johnson
15077eea693dSMark Johnson array_idx = rstruct->rs_last >> 6;
15087eea693dSMark Johnson free = rstruct->rs_free[array_idx];
15097eea693dSMark Johnson last = rstruct->rs_last & 0x3F;
15107eea693dSMark Johnson
15117eea693dSMark Johnson /* if the next resource to check is free */
15127eea693dSMark Johnson if ((free & ((uint64_t)1 << last)) != 0) {
15137eea693dSMark Johnson /* we are using this resource */
15147eea693dSMark Johnson *resource = rstruct->rs_last;
15157eea693dSMark Johnson
15167eea693dSMark Johnson /* take it out of the free list */
15177eea693dSMark Johnson rstruct->rs_free[array_idx] &= ~((uint64_t)1 << last);
15187eea693dSMark Johnson
15197eea693dSMark Johnson /*
15207eea693dSMark Johnson * increment the last count so we start checking the
15217eea693dSMark Johnson * next resource on the next alloc(). Note the rollover
15227eea693dSMark Johnson * at 'max'+1.
15237eea693dSMark Johnson */
15247eea693dSMark Johnson rstruct->rs_last++;
15257eea693dSMark Johnson if (rstruct->rs_last > max) {
15267eea693dSMark Johnson rstruct->rs_last = rstruct->rs_min;
15277eea693dSMark Johnson }
15287eea693dSMark Johnson
15297eea693dSMark Johnson /* unlock the resource structure */
15307eea693dSMark Johnson mutex_exit(&rstruct->rs_mutex);
15317eea693dSMark Johnson
15327eea693dSMark Johnson return (DDI_SUCCESS);
15337eea693dSMark Johnson }
15347eea693dSMark Johnson
15357eea693dSMark Johnson /*
15367eea693dSMark Johnson * This resource is not free, lets go to the next one. Note the
15377eea693dSMark Johnson * rollover at 'max'.
15387eea693dSMark Johnson */
15397eea693dSMark Johnson rstruct->rs_last++;
15407eea693dSMark Johnson if (rstruct->rs_last > max) {
15417eea693dSMark Johnson rstruct->rs_last = rstruct->rs_min;
15427eea693dSMark Johnson }
15437eea693dSMark Johnson }
15447eea693dSMark Johnson
15457eea693dSMark Johnson mutex_exit(&rstruct->rs_mutex);
15467eea693dSMark Johnson
15477eea693dSMark Johnson return (DDI_FAILURE);
15487eea693dSMark Johnson }
15497eea693dSMark Johnson
15507eea693dSMark Johnson
15517eea693dSMark Johnson /*
15527eea693dSMark Johnson * xpvtap_rs_free()
15537eea693dSMark Johnson * Free the previously alloc'd resource. Once a resource has been free'd,
15547eea693dSMark Johnson * it can be used again when alloc is called.
15557eea693dSMark Johnson */
15567eea693dSMark Johnson static void
xpvtap_rs_free(xpvtap_rs_hdl_t handle,uint_t resource)15577eea693dSMark Johnson xpvtap_rs_free(xpvtap_rs_hdl_t handle, uint_t resource)
15587eea693dSMark Johnson {
15597eea693dSMark Johnson xpvtap_rs_t *rstruct;
15607eea693dSMark Johnson uint_t array_idx;
15617eea693dSMark Johnson uint_t offset;
15627eea693dSMark Johnson
15637eea693dSMark Johnson
15647eea693dSMark Johnson ASSERT(handle != NULL);
15657eea693dSMark Johnson
15667eea693dSMark Johnson rstruct = (xpvtap_rs_t *)handle;
15677eea693dSMark Johnson ASSERT(resource >= rstruct->rs_min);
15687eea693dSMark Johnson ASSERT(resource <= rstruct->rs_max);
15697eea693dSMark Johnson
15707eea693dSMark Johnson if (!rstruct->rs_flushing) {
15717eea693dSMark Johnson mutex_enter(&rstruct->rs_mutex);
15727eea693dSMark Johnson }
15737eea693dSMark Johnson
15747eea693dSMark Johnson /* Put the resource back in the free list */
15757eea693dSMark Johnson array_idx = resource >> 6;
15767eea693dSMark Johnson offset = resource & 0x3F;
15777eea693dSMark Johnson rstruct->rs_free[array_idx] |= ((uint64_t)1 << offset);
15787eea693dSMark Johnson
15797eea693dSMark Johnson if (!rstruct->rs_flushing) {
15807eea693dSMark Johnson mutex_exit(&rstruct->rs_mutex);
15817eea693dSMark Johnson }
15827eea693dSMark Johnson }
15837eea693dSMark Johnson
15847eea693dSMark Johnson
15857eea693dSMark Johnson /*
15867eea693dSMark Johnson * xpvtap_rs_flush()
15877eea693dSMark Johnson */
15887eea693dSMark Johnson static void
xpvtap_rs_flush(xpvtap_rs_hdl_t handle,xpvtap_rs_cleanup_t callback,void * arg)15897eea693dSMark Johnson xpvtap_rs_flush(xpvtap_rs_hdl_t handle, xpvtap_rs_cleanup_t callback,
15907eea693dSMark Johnson void *arg)
15917eea693dSMark Johnson {
15927eea693dSMark Johnson xpvtap_rs_t *rstruct;
15937eea693dSMark Johnson uint_t array_idx;
15947eea693dSMark Johnson uint64_t free;
15957eea693dSMark Johnson uint_t index;
15967eea693dSMark Johnson uint_t last;
15977eea693dSMark Johnson uint_t min;
15987eea693dSMark Johnson uint_t max;
15997eea693dSMark Johnson
16007eea693dSMark Johnson
16017eea693dSMark Johnson ASSERT(handle != NULL);
16027eea693dSMark Johnson
16037eea693dSMark Johnson rstruct = (xpvtap_rs_t *)handle;
16047eea693dSMark Johnson
16057eea693dSMark Johnson mutex_enter(&rstruct->rs_mutex);
16067eea693dSMark Johnson min = rstruct->rs_min;
16077eea693dSMark Johnson max = rstruct->rs_max;
16087eea693dSMark Johnson
16097eea693dSMark Johnson rstruct->rs_flushing = B_TRUE;
16107eea693dSMark Johnson
16117eea693dSMark Johnson /*
16127eea693dSMark Johnson * for all resources not free, call the callback routine to clean it
16137eea693dSMark Johnson * up.
16147eea693dSMark Johnson */
16157eea693dSMark Johnson for (index = min; index <= max; index++) {
16167eea693dSMark Johnson
16177eea693dSMark Johnson array_idx = rstruct->rs_last >> 6;
16187eea693dSMark Johnson free = rstruct->rs_free[array_idx];
16197eea693dSMark Johnson last = rstruct->rs_last & 0x3F;
16207eea693dSMark Johnson
16217eea693dSMark Johnson /* if the next resource to check is not free */
16227eea693dSMark Johnson if ((free & ((uint64_t)1 << last)) == 0) {
16237eea693dSMark Johnson /* call the callback to cleanup */
16247eea693dSMark Johnson (*callback)(arg, rstruct->rs_last);
16257eea693dSMark Johnson
16267eea693dSMark Johnson /* put it back in the free list */
16277eea693dSMark Johnson rstruct->rs_free[array_idx] |= ((uint64_t)1 << last);
16287eea693dSMark Johnson }
16297eea693dSMark Johnson
16307eea693dSMark Johnson /* go to the next one. Note the rollover at 'max' */
16317eea693dSMark Johnson rstruct->rs_last++;
16327eea693dSMark Johnson if (rstruct->rs_last > max) {
16337eea693dSMark Johnson rstruct->rs_last = rstruct->rs_min;
16347eea693dSMark Johnson }
16357eea693dSMark Johnson }
16367eea693dSMark Johnson
16377eea693dSMark Johnson mutex_exit(&rstruct->rs_mutex);
16387eea693dSMark Johnson }
1639