/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Xen virtual device driver interfaces */ /* * todo: * + name space clean up: * xvdi_* - public xen interfaces, for use by all leaf drivers * xd_* - public xen data structures * i_xvdi_* - implementation private functions * xendev_* - xendev driver interfaces, both internal and in cb_ops/bus_ops * + add mdb dcmds to dump ring status * + implement xvdi_xxx to wrap xenbus_xxx read/write function * + convert (xendev_ring_t *) into xvdi_ring_handle_t */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef XPV_HVM_DRIVER #include #include #include #include #include #include #include #include #else /* XPV_HVM_DRIVER */ #include #include #include #include #endif /* XPV_HVM_DRIVER */ #include #include #include #include #include #include static void xvdi_ring_init_sring(xendev_ring_t *); static void xvdi_ring_init_front_ring(xendev_ring_t *, size_t, size_t); #ifndef XPV_HVM_DRIVER static void xvdi_ring_init_back_ring(xendev_ring_t *, size_t, size_t); #endif static void xvdi_reinit_ring(dev_info_t *, grant_ref_t *, xendev_ring_t *); static int i_xvdi_add_watches(dev_info_t *); static void i_xvdi_rem_watches(dev_info_t *); static int i_xvdi_add_watch_oestate(dev_info_t *); static void i_xvdi_rem_watch_oestate(dev_info_t *); static void i_xvdi_oestate_cb(struct xenbus_device *, XenbusState); static void i_xvdi_oestate_handler(void *); static int i_xvdi_add_watch_hpstate(dev_info_t *); static void i_xvdi_rem_watch_hpstate(dev_info_t *); static void i_xvdi_hpstate_cb(struct xenbus_watch *, const char **, unsigned int); static void i_xvdi_hpstate_handler(void *); static int i_xvdi_add_watch_bepath(dev_info_t *); static void i_xvdi_rem_watch_bepath(dev_info_t *); static void i_xvdi_bepath_cb(struct xenbus_watch *, const char **, unsigned in); static void xendev_offline_device(void *); static void i_xvdi_probe_path_cb(struct xenbus_watch *, const char **, unsigned int); static void i_xvdi_probe_path_handler(void *); typedef struct xd_cfg { xendev_devclass_t devclass; char *xsdev; char *xs_path_fe; char *xs_path_be; char *node_fe; char *node_be; char *device_type; int xd_ipl; int flags; } i_xd_cfg_t; #define XD_DOM_ZERO 0x01 /* dom0 only. */ #define XD_DOM_GUEST 0x02 /* Guest domains (i.e. non-dom0). */ #define XD_DOM_IO 0x04 /* IO domains. */ #define XD_DOM_ALL (XD_DOM_ZERO | XD_DOM_GUEST) static i_xd_cfg_t xdci[] = { { XEN_CONSOLE, NULL, NULL, NULL, "xencons", NULL, "console", IPL_CONS, XD_DOM_ALL, }, { XEN_VNET, "vif", "device/vif", "backend/vif", "xnf", "xnb", "network", IPL_VIF, XD_DOM_ALL, }, { XEN_VBLK, "vbd", "device/vbd", "backend/vbd", "xdf", "xdb", "block", IPL_VBD, XD_DOM_ALL, }, { XEN_XENBUS, NULL, NULL, NULL, "xenbus", NULL, NULL, 0, XD_DOM_ALL, }, { XEN_DOMCAPS, NULL, NULL, NULL, "domcaps", NULL, NULL, 0, XD_DOM_ALL, }, { XEN_BALLOON, NULL, NULL, NULL, "balloon", NULL, NULL, 0, XD_DOM_ALL, }, { XEN_EVTCHN, NULL, NULL, NULL, "evtchn", NULL, NULL, 0, XD_DOM_ZERO, }, { XEN_PRIVCMD, NULL, NULL, NULL, "privcmd", NULL, NULL, 0, XD_DOM_ZERO, }, }; #define NXDC (sizeof (xdci) / sizeof (xdci[0])) static void i_xvdi_enum_fe(dev_info_t *, i_xd_cfg_t *); static void i_xvdi_enum_be(dev_info_t *, i_xd_cfg_t *); static void i_xvdi_enum_worker(dev_info_t *, i_xd_cfg_t *, char *); /* * Xen device channel device access and DMA attributes */ static ddi_device_acc_attr_t xendev_dc_accattr = { DDI_DEVICE_ATTR_V0, DDI_NEVERSWAP_ACC, DDI_STRICTORDER_ACC }; static ddi_dma_attr_t xendev_dc_dmaattr = { DMA_ATTR_V0, /* version of this structure */ 0, /* lowest usable address */ 0xffffffffffffffffULL, /* highest usable address */ 0x7fffffff, /* maximum DMAable byte count */ MMU_PAGESIZE, /* alignment in bytes */ 0x7ff, /* bitmap of burst sizes */ 1, /* minimum transfer */ 0xffffffffU, /* maximum transfer */ 0xffffffffffffffffULL, /* maximum segment length */ 1, /* maximum number of segments */ 1, /* granularity */ 0, /* flags (reserved) */ }; static dev_info_t *xendev_dip = NULL; #define XVDI_DBG_STATE 0x01 #define XVDI_DBG_PROBE 0x02 #ifdef DEBUG int i_xvdi_debug = 0; #define XVDI_DPRINTF(flag, format, ...) \ { \ if (i_xvdi_debug & (flag)) \ prom_printf((format), __VA_ARGS__); \ } #else #define XVDI_DPRINTF(flag, format, ...) #endif /* DEBUG */ static i_xd_cfg_t * i_xvdi_devclass2cfg(xendev_devclass_t devclass) { i_xd_cfg_t *xdcp; int i; for (i = 0, xdcp = xdci; i < NXDC; i++, xdcp++) if (xdcp->devclass == devclass) return (xdcp); return (NULL); } int xvdi_init_dev(dev_info_t *dip) { xendev_devclass_t devcls; int vdevnum; domid_t domid; struct xendev_ppd *pdp; i_xd_cfg_t *xdcp; boolean_t backend; char xsnamebuf[TYPICALMAXPATHLEN]; char *xsname; devcls = ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "devclass", XEN_INVAL); vdevnum = ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "vdev", VDEV_NOXS); domid = (domid_t)ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "domain", DOMID_SELF); backend = (domid != DOMID_SELF); xdcp = i_xvdi_devclass2cfg(devcls); if (xdcp->device_type != NULL) (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "device_type", xdcp->device_type); pdp = kmem_zalloc(sizeof (*pdp), KM_SLEEP); pdp->xd_domain = domid; pdp->xd_vdevnum = vdevnum; pdp->xd_devclass = devcls; pdp->xd_evtchn = INVALID_EVTCHN; mutex_init(&pdp->xd_lk, NULL, MUTEX_DRIVER, NULL); ddi_set_parent_data(dip, pdp); /* * devices that do not need to interact with xenstore */ if (vdevnum == VDEV_NOXS) { (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "unit-address", "0"); if (devcls == XEN_CONSOLE) (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "pm-hardware-state", "needs-suspend-resume"); return (DDI_SUCCESS); } /* * PV devices that need to probe xenstore */ (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "pm-hardware-state", "needs-suspend-resume"); xsname = xsnamebuf; if (!backend) (void) snprintf(xsnamebuf, sizeof (xsnamebuf), "%s/%d", xdcp->xs_path_fe, vdevnum); else (void) snprintf(xsnamebuf, sizeof (xsnamebuf), "%s/%d/%d", xdcp->xs_path_be, domid, vdevnum); if ((xenbus_read_driver_state(xsname) >= XenbusStateClosing)) { /* Don't try to init a dev that may be closing */ mutex_destroy(&pdp->xd_lk); kmem_free(pdp, sizeof (*pdp)); ddi_set_parent_data(dip, NULL); return (DDI_FAILURE); } pdp->xd_xsdev.nodename = i_ddi_strdup(xsname, KM_SLEEP); pdp->xd_xsdev.devicetype = xdcp->xsdev; pdp->xd_xsdev.frontend = (backend ? 0 : 1); pdp->xd_xsdev.data = dip; pdp->xd_xsdev.otherend_id = (backend ? domid : -1); if (i_xvdi_add_watches(dip) != DDI_SUCCESS) { cmn_err(CE_WARN, "xvdi_init_dev: " "cannot add watches for %s", xsname); xvdi_uninit_dev(dip); return (DDI_FAILURE); } /* * frontend device will use "unit-addr" as * the bus address, which will be set here */ if (!backend) { void *prop_str; unsigned int prop_len, addr; switch (devcls) { case XEN_VNET: if (xenbus_read(XBT_NULL, xsname, "mac", &prop_str, &prop_len) == 0) { (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "mac", prop_str); kmem_free(prop_str, prop_len); } prop_str = NULL; if (xenbus_scanf(XBT_NULL, xsname, "handle", "%u", &addr) == 0) { char unitaddr[9]; /* hold 32-bit hex */ (void) snprintf(unitaddr, 9, "%x", addr); (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "unit-address", unitaddr); } break; case XEN_VBLK: if (xenbus_read(XBT_NULL, pdp->xd_xsdev.otherend, "dev", &prop_str, &prop_len) == 0) { (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "unit-address", prop_str); kmem_free(prop_str, prop_len); } #ifdef XPV_HVM_DRIVER /* * The mapping between the 'dev' name and the * device ID maintained by Xenstore has to be * tracked explicitly in HVM domains. */ prop_str = strrchr(pdp->xd_xsdev.otherend, '/'); if (prop_str != NULL) { prop_str = ((caddr_t)prop_str) + 1; (void) ndi_prop_update_string(DDI_DEV_T_NONE, dip, "xenstore-id", prop_str); } #endif /* XPV_HVM_DRIVER */ break; default: break; } } return (DDI_SUCCESS); } void xvdi_uninit_dev(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); if (pdp != NULL) { /* Remove any registered callbacks. */ xvdi_remove_event_handler(dip, NULL); /* Remove any registered watches. */ i_xvdi_rem_watches(dip); /* tell other end to close */ if (pdp->xd_xsdev.otherend_id != (domid_t)-1) (void) xvdi_switch_state(dip, XBT_NULL, XenbusStateClosed); if (pdp->xd_xsdev.nodename != NULL) kmem_free((char *)(pdp->xd_xsdev.nodename), strlen(pdp->xd_xsdev.nodename) + 1); ddi_set_parent_data(dip, NULL); mutex_destroy(&pdp->xd_lk); kmem_free(pdp, sizeof (*pdp)); } } /* * Bind the event channel for this device instance. * Currently we only support one evtchn per device instance. */ int xvdi_bind_evtchn(dev_info_t *dip, evtchn_port_t evtchn) { struct xendev_ppd *pdp; domid_t oeid; int r; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_evtchn == INVALID_EVTCHN); mutex_enter(&pdp->xd_lk); if (pdp->xd_devclass == XEN_CONSOLE) { if (!DOMAIN_IS_INITDOMAIN(xen_info)) { pdp->xd_evtchn = xen_info->console.domU.evtchn; } else { pdp->xd_evtchn = INVALID_EVTCHN; mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } } else { oeid = pdp->xd_xsdev.otherend_id; if (oeid == (domid_t)-1) { mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } if ((r = xen_bind_interdomain(oeid, evtchn, &pdp->xd_evtchn))) { xvdi_dev_error(dip, r, "bind event channel"); mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } } #ifndef XPV_HVM_DRIVER pdp->xd_ispec.intrspec_vec = ec_bind_evtchn_to_irq(pdp->xd_evtchn); #endif mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } /* * Allocate an event channel for this device instance. * Currently we only support one evtchn per device instance. */ int xvdi_alloc_evtchn(dev_info_t *dip) { struct xendev_ppd *pdp; domid_t oeid; int rv; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_evtchn == INVALID_EVTCHN); mutex_enter(&pdp->xd_lk); if (pdp->xd_devclass == XEN_CONSOLE) { if (!DOMAIN_IS_INITDOMAIN(xen_info)) { pdp->xd_evtchn = xen_info->console.domU.evtchn; } else { pdp->xd_evtchn = INVALID_EVTCHN; mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } } else { oeid = pdp->xd_xsdev.otherend_id; if (oeid == (domid_t)-1) { mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } if ((rv = xen_alloc_unbound_evtchn(oeid, &pdp->xd_evtchn))) { xvdi_dev_error(dip, rv, "bind event channel"); mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } } #ifndef XPV_HVM_DRIVER pdp->xd_ispec.intrspec_vec = ec_bind_evtchn_to_irq(pdp->xd_evtchn); #endif mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } /* * Unbind the event channel for this device instance. * Currently we only support one evtchn per device instance. */ void xvdi_free_evtchn(dev_info_t *dip) { struct xendev_ppd *pdp; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); mutex_enter(&pdp->xd_lk); if (pdp->xd_evtchn != INVALID_EVTCHN) { #ifndef XPV_HVM_DRIVER ec_unbind_irq(pdp->xd_ispec.intrspec_vec); pdp->xd_ispec.intrspec_vec = 0; #endif pdp->xd_evtchn = INVALID_EVTCHN; } mutex_exit(&pdp->xd_lk); } #ifndef XPV_HVM_DRIVER /* * Map an inter-domain communication ring for a virtual device. * This is used by backend drivers. */ int xvdi_map_ring(dev_info_t *dip, size_t nentry, size_t entrysize, grant_ref_t gref, xendev_ring_t **ringpp) { domid_t oeid; gnttab_map_grant_ref_t mapop; gnttab_unmap_grant_ref_t unmapop; caddr_t ringva; ddi_acc_hdl_t *ap; ddi_acc_impl_t *iap; xendev_ring_t *ring; int err; char errstr[] = "mapping in ring buffer"; ring = kmem_zalloc(sizeof (xendev_ring_t), KM_SLEEP); oeid = xvdi_get_oeid(dip); /* alloc va in backend dom for ring buffer */ ringva = vmem_xalloc(heap_arena, PAGESIZE, PAGESIZE, 0, 0, 0, 0, VM_SLEEP); /* map in ring page */ hat_prepare_mapping(kas.a_hat, ringva); mapop.host_addr = (uint64_t)(uintptr_t)ringva; mapop.flags = GNTMAP_host_map; mapop.ref = gref; mapop.dom = oeid; err = HYPERVISOR_grant_table_op(GNTTABOP_map_grant_ref, &mapop, 1); if (err) { xvdi_fatal_error(dip, err, errstr); goto errout1; } if (mapop.status != 0) { xvdi_fatal_error(dip, err, errstr); goto errout2; } ring->xr_vaddr = ringva; ring->xr_grant_hdl = mapop.handle; ring->xr_gref = gref; /* * init an acc handle and associate it w/ this ring * this is only for backend drivers. we get the memory by calling * vmem_xalloc(), instead of calling any ddi function, so we have * to init an acc handle by ourselves */ ring->xr_acc_hdl = impl_acc_hdl_alloc(KM_SLEEP, NULL); ap = impl_acc_hdl_get(ring->xr_acc_hdl); ap->ah_vers = VERS_ACCHDL; ap->ah_dip = dip; ap->ah_xfermodes = DDI_DMA_CONSISTENT; ap->ah_acc = xendev_dc_accattr; iap = (ddi_acc_impl_t *)ap->ah_platform_private; iap->ahi_acc_attr |= DDI_ACCATTR_CPU_VADDR; impl_acc_hdl_init(ap); ap->ah_offset = 0; ap->ah_len = (off_t)PAGESIZE; ap->ah_addr = ring->xr_vaddr; /* init backend ring */ xvdi_ring_init_back_ring(ring, nentry, entrysize); *ringpp = ring; return (DDI_SUCCESS); errout2: /* unmap ring page */ unmapop.host_addr = (uint64_t)(uintptr_t)ringva; unmapop.handle = ring->xr_grant_hdl; unmapop.dev_bus_addr = NULL; (void) HYPERVISOR_grant_table_op(GNTTABOP_unmap_grant_ref, &unmapop, 1); hat_release_mapping(kas.a_hat, ringva); errout1: vmem_xfree(heap_arena, ringva, PAGESIZE); kmem_free(ring, sizeof (xendev_ring_t)); return (DDI_FAILURE); } /* * Unmap a ring for a virtual device. * This is used by backend drivers. */ void xvdi_unmap_ring(xendev_ring_t *ring) { gnttab_unmap_grant_ref_t unmapop; ASSERT((ring != NULL) && (ring->xr_vaddr != NULL)); impl_acc_hdl_free(ring->xr_acc_hdl); unmapop.host_addr = (uint64_t)(uintptr_t)ring->xr_vaddr; unmapop.handle = ring->xr_grant_hdl; unmapop.dev_bus_addr = NULL; (void) HYPERVISOR_grant_table_op(GNTTABOP_unmap_grant_ref, &unmapop, 1); hat_release_mapping(kas.a_hat, ring->xr_vaddr); vmem_xfree(heap_arena, ring->xr_vaddr, PAGESIZE); kmem_free(ring, sizeof (xendev_ring_t)); } #endif /* XPV_HVM_DRIVER */ /* * Re-initialise an inter-domain communications ring for the backend domain. * ring will be re-initialized after re-grant succeed * ring will be freed if fails to re-grant access to backend domain * so, don't keep useful data in the ring * used only in frontend driver */ static void xvdi_reinit_ring(dev_info_t *dip, grant_ref_t *gref, xendev_ring_t *ringp) { paddr_t rpaddr; maddr_t rmaddr; ASSERT((ringp != NULL) && (ringp->xr_paddr != 0)); rpaddr = ringp->xr_paddr; rmaddr = DOMAIN_IS_INITDOMAIN(xen_info) ? rpaddr : pa_to_ma(rpaddr); gnttab_grant_foreign_access_ref(ringp->xr_gref, xvdi_get_oeid(dip), rmaddr >> PAGESHIFT, 0); *gref = ringp->xr_gref; /* init frontend ring */ xvdi_ring_init_sring(ringp); xvdi_ring_init_front_ring(ringp, ringp->xr_sring.fr.nr_ents, ringp->xr_entry_size); } /* * allocate Xen inter-domain communications ring for Xen virtual devices * used only in frontend driver * if *ringpp is not NULL, we'll simply re-init it */ int xvdi_alloc_ring(dev_info_t *dip, size_t nentry, size_t entrysize, grant_ref_t *gref, xendev_ring_t **ringpp) { size_t len; xendev_ring_t *ring; ddi_dma_cookie_t dma_cookie; uint_t ncookies; grant_ref_t ring_gref; domid_t oeid; maddr_t rmaddr; if (*ringpp) { xvdi_reinit_ring(dip, gref, *ringpp); return (DDI_SUCCESS); } *ringpp = ring = kmem_zalloc(sizeof (xendev_ring_t), KM_SLEEP); oeid = xvdi_get_oeid(dip); /* * Allocate page for this ring buffer */ if (ddi_dma_alloc_handle(dip, &xendev_dc_dmaattr, DDI_DMA_SLEEP, 0, &ring->xr_dma_hdl) != DDI_SUCCESS) goto err; if (ddi_dma_mem_alloc(ring->xr_dma_hdl, PAGESIZE, &xendev_dc_accattr, DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, 0, &ring->xr_vaddr, &len, &ring->xr_acc_hdl) != DDI_SUCCESS) { ddi_dma_free_handle(&ring->xr_dma_hdl); goto err; } if (ddi_dma_addr_bind_handle(ring->xr_dma_hdl, NULL, ring->xr_vaddr, len, DDI_DMA_RDWR | DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, 0, &dma_cookie, &ncookies) != DDI_DMA_MAPPED) { ddi_dma_mem_free(&ring->xr_acc_hdl); ring->xr_vaddr = NULL; ddi_dma_free_handle(&ring->xr_dma_hdl); goto err; } ASSERT(ncookies == 1); ring->xr_paddr = dma_cookie.dmac_laddress; rmaddr = DOMAIN_IS_INITDOMAIN(xen_info) ? ring->xr_paddr : pa_to_ma(ring->xr_paddr); if ((ring_gref = gnttab_grant_foreign_access(oeid, rmaddr >> PAGESHIFT, 0)) == (grant_ref_t)-1) { (void) ddi_dma_unbind_handle(ring->xr_dma_hdl); ddi_dma_mem_free(&ring->xr_acc_hdl); ring->xr_vaddr = NULL; ddi_dma_free_handle(&ring->xr_dma_hdl); goto err; } *gref = ring->xr_gref = ring_gref; /* init frontend ring */ xvdi_ring_init_sring(ring); xvdi_ring_init_front_ring(ring, nentry, entrysize); return (DDI_SUCCESS); err: kmem_free(ring, sizeof (xendev_ring_t)); return (DDI_FAILURE); } /* * Release ring buffers allocated for Xen devices * used for frontend driver */ void xvdi_free_ring(xendev_ring_t *ring) { ASSERT((ring != NULL) && (ring->xr_vaddr != NULL)); (void) gnttab_end_foreign_access_ref(ring->xr_gref, 0); (void) ddi_dma_unbind_handle(ring->xr_dma_hdl); ddi_dma_mem_free(&ring->xr_acc_hdl); ddi_dma_free_handle(&ring->xr_dma_hdl); kmem_free(ring, sizeof (xendev_ring_t)); } dev_info_t * xvdi_create_dev(dev_info_t *parent, xendev_devclass_t devclass, domid_t dom, int vdev) { dev_info_t *dip; boolean_t backend; i_xd_cfg_t *xdcp; char xsnamebuf[TYPICALMAXPATHLEN]; char *type, *node = NULL, *xsname = NULL; unsigned int tlen; int ret; ASSERT(DEVI_BUSY_OWNED(parent)); backend = (dom != DOMID_SELF); xdcp = i_xvdi_devclass2cfg(devclass); ASSERT(xdcp != NULL); if (vdev != VDEV_NOXS) { if (!backend) { (void) snprintf(xsnamebuf, sizeof (xsnamebuf), "%s/%d", xdcp->xs_path_fe, vdev); xsname = xsnamebuf; node = xdcp->node_fe; } else { (void) snprintf(xsnamebuf, sizeof (xsnamebuf), "%s/%d/%d", xdcp->xs_path_be, dom, vdev); xsname = xsnamebuf; node = xdcp->node_be; } } else { node = xdcp->node_fe; } /* Must have a driver to use. */ if (node == NULL) return (NULL); /* * We need to check the state of this device before we go * further, otherwise we'll end up with a dead loop if * anything goes wrong. */ if ((xsname != NULL) && (xenbus_read_driver_state(xsname) >= XenbusStateClosing)) return (NULL); ndi_devi_alloc_sleep(parent, node, DEVI_SID_NODEID, &dip); /* * Driver binding uses the compatible property _before_ the * node name, so we set the node name to the 'model' of the * device (i.e. 'xnb' or 'xdb') and, if 'type' is present, * encode both the model and the type in a compatible property * (i.e. 'xnb,netfront' or 'xnb,SUNW_mac'). This allows a * driver binding based on the pair _before_ a * binding based on the node name. */ if ((xsname != NULL) && (xenbus_read(XBT_NULL, xsname, "type", (void *)&type, &tlen) == 0)) { size_t clen; char *c[1]; clen = strlen(node) + strlen(type) + 2; c[0] = kmem_alloc(clen, KM_SLEEP); (void) snprintf(c[0], clen, "%s,%s", node, type); (void) ndi_prop_update_string_array(DDI_DEV_T_NONE, dip, "compatible", (char **)c, 1); kmem_free(c[0], clen); kmem_free(type, tlen); } (void) ndi_prop_update_int(DDI_DEV_T_NONE, dip, "devclass", devclass); (void) ndi_prop_update_int(DDI_DEV_T_NONE, dip, "domain", dom); (void) ndi_prop_update_int(DDI_DEV_T_NONE, dip, "vdev", vdev); if (i_ddi_devi_attached(parent)) ret = ndi_devi_online(dip, 0); else ret = ndi_devi_bind_driver(dip, 0); if (ret != NDI_SUCCESS) (void) ndi_devi_offline(dip, NDI_DEVI_REMOVE); return (dip); } /* * xendev_enum_class() */ void xendev_enum_class(dev_info_t *parent, xendev_devclass_t devclass) { boolean_t dom0 = DOMAIN_IS_INITDOMAIN(xen_info); boolean_t domU = !dom0; i_xd_cfg_t *xdcp; xdcp = i_xvdi_devclass2cfg(devclass); ASSERT(xdcp != NULL); if (dom0 && !(xdcp->flags & XD_DOM_ZERO)) return; if (domU && !(xdcp->flags & XD_DOM_GUEST)) return; if (xdcp->xsdev == NULL) { int circ; /* * Don't need to probe this kind of device from the * store, just create one if it doesn't exist. */ ndi_devi_enter(parent, &circ); if (xvdi_find_dev(parent, devclass, DOMID_SELF, VDEV_NOXS) == NULL) (void) xvdi_create_dev(parent, devclass, DOMID_SELF, VDEV_NOXS); ndi_devi_exit(parent, circ); } else { /* * Probe this kind of device from the store, both * frontend and backend. */ i_xvdi_enum_fe(parent, xdcp); i_xvdi_enum_be(parent, xdcp); } } /* * xendev_enum_all() */ void xendev_enum_all(dev_info_t *parent, boolean_t store_unavailable) { int i; i_xd_cfg_t *xdcp; boolean_t dom0 = DOMAIN_IS_INITDOMAIN(xen_info); for (i = 0, xdcp = xdci; i < NXDC; i++, xdcp++) { /* * Dom0 relies on watchpoints to create non-soft * devices - don't attempt to iterate over the store. */ if (dom0 && (xdcp->xsdev != NULL)) continue; /* * If the store is not yet available, don't attempt to * iterate. */ if (store_unavailable && (xdcp->xsdev != NULL)) continue; xendev_enum_class(parent, xdcp->devclass); } } xendev_devclass_t xendev_nodename_to_devclass(char *nodename) { int i; i_xd_cfg_t *xdcp; /* * This relies on the convention that variants of a base * driver share the same prefix and that there are no drivers * which share a common prefix with the name of any other base * drivers. * * So for a base driver 'xnb' (which is the name listed in * xdci) the variants all begin with the string 'xnb' (in fact * they are 'xnbe', 'xnbo' and 'xnbu') and there are no other * base drivers which have the prefix 'xnb'. */ ASSERT(nodename != NULL); for (i = 0, xdcp = xdci; i < NXDC; i++, xdcp++) { if (((xdcp->node_fe != NULL) && (strncmp(nodename, xdcp->node_fe, strlen(xdcp->node_fe)) == 0)) || ((xdcp->node_be != NULL) && (strncmp(nodename, xdcp->node_be, strlen(xdcp->node_be)) == 0))) return (xdcp->devclass); } return (XEN_INVAL); } int xendev_devclass_ipl(xendev_devclass_t devclass) { i_xd_cfg_t *xdcp; xdcp = i_xvdi_devclass2cfg(devclass); ASSERT(xdcp != NULL); return (xdcp->xd_ipl); } /* * Determine if a devinfo instance exists of a particular device * class, domain and xenstore virtual device number. */ dev_info_t * xvdi_find_dev(dev_info_t *parent, xendev_devclass_t devclass, domid_t dom, int vdev) { dev_info_t *dip; ASSERT(DEVI_BUSY_OWNED(parent)); switch (devclass) { case XEN_CONSOLE: case XEN_XENBUS: case XEN_DOMCAPS: case XEN_BALLOON: case XEN_EVTCHN: case XEN_PRIVCMD: /* Console and soft devices have no vdev. */ vdev = VDEV_NOXS; break; default: break; } for (dip = ddi_get_child(parent); dip != NULL; dip = ddi_get_next_sibling(dip)) { int *vdevnump, *domidp, *devclsp, vdevnum; uint_t ndomid, nvdevnum, ndevcls; xendev_devclass_t devcls; domid_t domid; struct xendev_ppd *pdp = ddi_get_parent_data(dip); if (pdp == NULL) { if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "domain", &domidp, &ndomid) != DDI_PROP_SUCCESS) continue; ASSERT(ndomid == 1); domid = (domid_t)*domidp; ddi_prop_free(domidp); if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "vdev", &vdevnump, &nvdevnum) != DDI_PROP_SUCCESS) continue; ASSERT(nvdevnum == 1); vdevnum = *vdevnump; ddi_prop_free(vdevnump); if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "devclass", &devclsp, &ndevcls) != DDI_PROP_SUCCESS) continue; ASSERT(ndevcls == 1); devcls = (xendev_devclass_t)*devclsp; ddi_prop_free(devclsp); } else { domid = pdp->xd_domain; vdevnum = pdp->xd_vdevnum; devcls = pdp->xd_devclass; } if ((domid == dom) && (vdevnum == vdev) && (devcls == devclass)) return (dip); } return (NULL); } int xvdi_get_evtchn(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); return (pdp->xd_evtchn); } int xvdi_get_vdevnum(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); return (pdp->xd_vdevnum); } char * xvdi_get_xsname(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); return ((char *)(pdp->xd_xsdev.nodename)); } char * xvdi_get_oename(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); if (pdp->xd_devclass == XEN_CONSOLE) return (NULL); return ((char *)(pdp->xd_xsdev.otherend)); } struct xenbus_device * xvdi_get_xsd(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); return (&pdp->xd_xsdev); } domid_t xvdi_get_oeid(dev_info_t *xdip) { struct xendev_ppd *pdp = ddi_get_parent_data(xdip); ASSERT(pdp != NULL); if (pdp->xd_devclass == XEN_CONSOLE) return ((domid_t)-1); return ((domid_t)(pdp->xd_xsdev.otherend_id)); } void xvdi_dev_error(dev_info_t *dip, int errno, char *errstr) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); xenbus_dev_error(&pdp->xd_xsdev, errno, errstr); } void xvdi_fatal_error(dev_info_t *dip, int errno, char *errstr) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); xenbus_dev_fatal(&pdp->xd_xsdev, errno, errstr); } static void i_xvdi_oestate_handler(void *arg) { dev_info_t *dip = arg; struct xendev_ppd *pdp = ddi_get_parent_data(dip); XenbusState oestate = pdp->xd_xsdev.otherend_state; ddi_eventcookie_t evc; mutex_enter(&pdp->xd_lk); if (pdp->xd_oe_ehid != NULL) { /* send notification to driver */ if (ddi_get_eventcookie(dip, XS_OE_STATE, &evc) == DDI_SUCCESS) { mutex_exit(&pdp->xd_lk); (void) ndi_post_event(dip, dip, evc, &oestate); mutex_enter(&pdp->xd_lk); } } else { /* * take default action, if driver hasn't registered its * event handler yet */ if (oestate == XenbusStateClosing) { (void) xvdi_switch_state(dip, XBT_NULL, XenbusStateClosed); } else if (oestate == XenbusStateClosed) { (void) xvdi_switch_state(dip, XBT_NULL, XenbusStateClosed); (void) xvdi_post_event(dip, XEN_HP_REMOVE); } } mutex_exit(&pdp->xd_lk); /* * We'll try to remove the devinfo node of this device if the * other end has closed. */ if (oestate == XenbusStateClosed) (void) ddi_taskq_dispatch(DEVI(ddi_get_parent(dip))->devi_taskq, xendev_offline_device, dip, DDI_SLEEP); } static void i_xvdi_hpstate_handler(void *arg) { dev_info_t *dip = (dev_info_t *)arg; struct xendev_ppd *pdp = ddi_get_parent_data(dip); ddi_eventcookie_t evc; char *hp_status; unsigned int hpl; mutex_enter(&pdp->xd_lk); if ((ddi_get_eventcookie(dip, XS_HP_STATE, &evc) == DDI_SUCCESS) && (xenbus_read(XBT_NULL, pdp->xd_hp_watch.node, "", (void *)&hp_status, &hpl) == 0)) { xendev_hotplug_state_t new_state = Unrecognized; if (strcmp(hp_status, "connected") == 0) new_state = Connected; mutex_exit(&pdp->xd_lk); (void) ndi_post_event(dip, dip, evc, &new_state); kmem_free(hp_status, hpl); return; } mutex_exit(&pdp->xd_lk); } void xvdi_notify_oe(dev_info_t *dip) { struct xendev_ppd *pdp; pdp = ddi_get_parent_data(dip); ASSERT(pdp->xd_evtchn != INVALID_EVTCHN); ec_notify_via_evtchn(pdp->xd_evtchn); } static void i_xvdi_bepath_cb(struct xenbus_watch *w, const char **vec, unsigned int len) { dev_info_t *dip = (dev_info_t *)w->dev; struct xendev_ppd *pdp = ddi_get_parent_data(dip); char *be = NULL; unsigned int bel; ASSERT(len > XS_WATCH_PATH); ASSERT(vec[XS_WATCH_PATH] != NULL); /* * If the backend is not the same as that we already stored, * re-set our watch for its' state. */ if ((xenbus_read(XBT_NULL, "", vec[XS_WATCH_PATH], (void *)be, &bel) == 0) && (strcmp(be, pdp->xd_xsdev.otherend) != 0)) (void) i_xvdi_add_watch_oestate(dip); if (be != NULL) { ASSERT(bel > 0); kmem_free(be, bel); } } static int i_xvdi_add_watch_oestate(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_xsdev.nodename != NULL); ASSERT(mutex_owned(&pdp->xd_lk)); /* * Create taskq for delivering other end state change event to * this device later. * * Set nthreads to 1 to make sure that events can be delivered * in order. * * Note: It is _not_ guaranteed that driver can see every * xenstore change under the path that it is watching. If two * changes happen consecutively in a very short amount of * time, it is likely that the driver will see only the last * one. */ if (pdp->xd_oe_taskq == NULL) if ((pdp->xd_oe_taskq = ddi_taskq_create(dip, "xendev_oe_taskq", 1, TASKQ_DEFAULTPRI, 0)) == NULL) return (DDI_FAILURE); /* * Watch for changes to the XenbusState of otherend. */ pdp->xd_xsdev.otherend_state = XenbusStateUnknown; pdp->xd_xsdev.otherend_changed = i_xvdi_oestate_cb; if (talk_to_otherend(&pdp->xd_xsdev) != 0) { i_xvdi_rem_watch_oestate(dip); return (DDI_FAILURE); } return (DDI_SUCCESS); } static void i_xvdi_rem_watch_oestate(dev_info_t *dip) { struct xendev_ppd *pdp; struct xenbus_device *dev; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(mutex_owned(&pdp->xd_lk)); dev = &pdp->xd_xsdev; /* Unwatch for changes to XenbusState of otherend */ if (dev->otherend_watch.node != NULL) { mutex_exit(&pdp->xd_lk); unregister_xenbus_watch(&dev->otherend_watch); mutex_enter(&pdp->xd_lk); } /* make sure no event handler is running */ if (pdp->xd_oe_taskq != NULL) { mutex_exit(&pdp->xd_lk); ddi_taskq_destroy(pdp->xd_oe_taskq); mutex_enter(&pdp->xd_lk); pdp->xd_oe_taskq = NULL; } /* clean up */ dev->otherend_state = XenbusStateUnknown; dev->otherend_id = (domid_t)-1; if (dev->otherend_watch.node != NULL) kmem_free((void *)dev->otherend_watch.node, strlen(dev->otherend_watch.node) + 1); dev->otherend_watch.node = NULL; if (dev->otherend != NULL) kmem_free((void *)dev->otherend, strlen(dev->otherend) + 1); dev->otherend = NULL; } static int i_xvdi_add_watch_hpstate(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_xsdev.frontend == 0); ASSERT(mutex_owned(&pdp->xd_lk)); /* * Create taskq for delivering hotplug status change event to * this device later. * * Set nthreads to 1 to make sure that events can be delivered * in order. * * Note: It is _not_ guaranteed that driver can see every * hotplug status change under the path that it is * watching. If two changes happen consecutively in a very * short amount of time, it is likely that the driver only * sees the last one. */ if (pdp->xd_hp_taskq == NULL) if ((pdp->xd_hp_taskq = ddi_taskq_create(dip, "xendev_hp_taskq", 1, TASKQ_DEFAULTPRI, 0)) == NULL) return (DDI_FAILURE); if (pdp->xd_hp_watch.node == NULL) { size_t len; char *path; ASSERT(pdp->xd_xsdev.nodename != NULL); len = strlen(pdp->xd_xsdev.nodename) + strlen("/hotplug-status") + 1; path = kmem_alloc(len, KM_SLEEP); (void) snprintf(path, len, "%s/hotplug-status", pdp->xd_xsdev.nodename); pdp->xd_hp_watch.node = path; pdp->xd_hp_watch.callback = i_xvdi_hpstate_cb; pdp->xd_hp_watch.dev = (struct xenbus_device *)dip; /* yuck! */ if (register_xenbus_watch(&pdp->xd_hp_watch) != 0) { i_xvdi_rem_watch_hpstate(dip); return (DDI_FAILURE); } } return (DDI_SUCCESS); } static void i_xvdi_rem_watch_hpstate(dev_info_t *dip) { struct xendev_ppd *pdp; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_xsdev.frontend == 0); ASSERT(mutex_owned(&pdp->xd_lk)); /* Unwatch for changes to "hotplug-status" node for backend device. */ if (pdp->xd_hp_watch.node != NULL) { mutex_exit(&pdp->xd_lk); unregister_xenbus_watch(&pdp->xd_hp_watch); mutex_enter(&pdp->xd_lk); } /* Make sure no event handler is running. */ if (pdp->xd_hp_taskq != NULL) { mutex_exit(&pdp->xd_lk); ddi_taskq_destroy(pdp->xd_hp_taskq); mutex_enter(&pdp->xd_lk); pdp->xd_hp_taskq = NULL; } /* Clean up. */ if (pdp->xd_hp_watch.node != NULL) { kmem_free((void *)pdp->xd_hp_watch.node, strlen(pdp->xd_hp_watch.node) + 1); pdp->xd_hp_watch.node = NULL; } } static int i_xvdi_add_watches(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); mutex_enter(&pdp->xd_lk); if (i_xvdi_add_watch_oestate(dip) != DDI_SUCCESS) { mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } if (pdp->xd_xsdev.frontend == 1) { /* * Frontend devices must watch for the backend path * changing. */ if (i_xvdi_add_watch_bepath(dip) != DDI_SUCCESS) goto unwatch_and_fail; } else { /* * Backend devices must watch for hotplug events. */ if (i_xvdi_add_watch_hpstate(dip) != DDI_SUCCESS) goto unwatch_and_fail; } mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); unwatch_and_fail: i_xvdi_rem_watch_oestate(dip); mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } static void i_xvdi_rem_watches(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); mutex_enter(&pdp->xd_lk); i_xvdi_rem_watch_oestate(dip); if (pdp->xd_xsdev.frontend == 1) i_xvdi_rem_watch_bepath(dip); else i_xvdi_rem_watch_hpstate(dip); mutex_exit(&pdp->xd_lk); } static int i_xvdi_add_watch_bepath(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_xsdev.frontend == 1); /* * Frontend devices need to watch for the backend path changing. */ if (pdp->xd_bepath_watch.node == NULL) { size_t len; char *path; ASSERT(pdp->xd_xsdev.nodename != NULL); len = strlen(pdp->xd_xsdev.nodename) + strlen("/backend") + 1; path = kmem_alloc(len, KM_SLEEP); (void) snprintf(path, len, "%s/backend", pdp->xd_xsdev.nodename); pdp->xd_bepath_watch.node = path; pdp->xd_bepath_watch.callback = i_xvdi_bepath_cb; pdp->xd_bepath_watch.dev = (struct xenbus_device *)dip; if (register_xenbus_watch(&pdp->xd_bepath_watch) != 0) { kmem_free(path, len); pdp->xd_bepath_watch.node = NULL; return (DDI_FAILURE); } } return (DDI_SUCCESS); } static void i_xvdi_rem_watch_bepath(dev_info_t *dip) { struct xendev_ppd *pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); ASSERT(pdp->xd_xsdev.frontend == 1); ASSERT(mutex_owned(&pdp->xd_lk)); if (pdp->xd_bepath_watch.node != NULL) { mutex_exit(&pdp->xd_lk); unregister_xenbus_watch(&pdp->xd_bepath_watch); mutex_enter(&pdp->xd_lk); kmem_free((void *)(pdp->xd_bepath_watch.node), strlen(pdp->xd_bepath_watch.node) + 1); pdp->xd_bepath_watch.node = NULL; } } int xvdi_switch_state(dev_info_t *dip, xenbus_transaction_t xbt, XenbusState newState) { int rv; struct xendev_ppd *pdp; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); XVDI_DPRINTF(XVDI_DBG_STATE, "xvdi_switch_state: dip 0x%p moves to %d", (void *)dip, newState); rv = xenbus_switch_state(&pdp->xd_xsdev, xbt, newState); if (rv > 0) cmn_err(CE_WARN, "xvdi_switch_state: change state failed"); return (rv); } /* * Notify hotplug script running in userland */ int xvdi_post_event(dev_info_t *dip, xendev_hotplug_cmd_t hpc) { struct xendev_ppd *pdp; nvlist_t *attr_list = NULL; i_xd_cfg_t *xdcp; sysevent_id_t eid; int err; char devname[256]; /* XXPV dme: ? */ pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); xdcp = i_xvdi_devclass2cfg(pdp->xd_devclass); ASSERT(xdcp != NULL); (void) snprintf(devname, sizeof (devname) - 1, "%s%d", ddi_driver_name(dip), ddi_get_instance(dip)); err = nvlist_alloc(&attr_list, NV_UNIQUE_NAME, KM_NOSLEEP); if (err != DDI_SUCCESS) goto failure; err = nvlist_add_int32(attr_list, "domain", pdp->xd_domain); if (err != DDI_SUCCESS) goto failure; err = nvlist_add_int32(attr_list, "vdev", pdp->xd_vdevnum); if (err != DDI_SUCCESS) goto failure; err = nvlist_add_string(attr_list, "devclass", xdcp->xsdev); if (err != DDI_SUCCESS) goto failure; err = nvlist_add_string(attr_list, "device", devname); if (err != DDI_SUCCESS) goto failure; err = nvlist_add_string(attr_list, "fob", ((pdp->xd_xsdev.frontend == 1) ? "frontend" : "backend")); if (err != DDI_SUCCESS) goto failure; switch (hpc) { case XEN_HP_ADD: err = ddi_log_sysevent(dip, DDI_VENDOR_SUNW, "EC_xendev", "add", attr_list, &eid, DDI_NOSLEEP); break; case XEN_HP_REMOVE: err = ddi_log_sysevent(dip, DDI_VENDOR_SUNW, "EC_xendev", "remove", attr_list, &eid, DDI_NOSLEEP); break; default: err = DDI_FAILURE; goto failure; } failure: if (attr_list != NULL) nvlist_free(attr_list); return (err); } /* ARGSUSED */ static void i_xvdi_probe_path_cb(struct xenbus_watch *w, const char **vec, unsigned int len) { char *path; if (xendev_dip == NULL) xendev_dip = ddi_find_devinfo("xpvd", -1, 0); path = i_ddi_strdup((char *)vec[XS_WATCH_PATH], KM_SLEEP); (void) ddi_taskq_dispatch(DEVI(xendev_dip)->devi_taskq, i_xvdi_probe_path_handler, (void *)path, DDI_SLEEP); } static void i_xvdi_watch_device(char *path) { struct xenbus_watch *w; ASSERT(path != NULL); w = kmem_zalloc(sizeof (*w), KM_SLEEP); w->node = path; w->callback = &i_xvdi_probe_path_cb; w->dev = NULL; if (register_xenbus_watch(w) != 0) { cmn_err(CE_WARN, "i_xvdi_watch_device: " "cannot set watch on %s", path); kmem_free(w, sizeof (*w)); return; } } void xvdi_watch_devices(int newstate) { int devclass; /* * Watch for devices being created in the store. */ if (newstate == XENSTORE_DOWN) return; for (devclass = 0; devclass < NXDC; devclass++) { if (xdci[devclass].xs_path_fe != NULL) i_xvdi_watch_device(xdci[devclass].xs_path_fe); if (xdci[devclass].xs_path_be != NULL) i_xvdi_watch_device(xdci[devclass].xs_path_be); } } /* * Iterate over the store looking for backend devices to create. */ static void i_xvdi_enum_be(dev_info_t *parent, i_xd_cfg_t *xdcp) { char **domains; unsigned int ndomains; int ldomains, i; if ((domains = xenbus_directory(XBT_NULL, xdcp->xs_path_be, "", &ndomains)) == NULL) return; for (i = 0, ldomains = 0; i < ndomains; i++) { ldomains += strlen(domains[i]) + 1 + sizeof (char *); i_xvdi_enum_worker(parent, xdcp, domains[i]); } kmem_free(domains, ldomains); } /* * Iterate over the store looking for frontend devices to create. */ static void i_xvdi_enum_fe(dev_info_t *parent, i_xd_cfg_t *xdcp) { i_xvdi_enum_worker(parent, xdcp, NULL); } static void i_xvdi_enum_worker(dev_info_t *parent, i_xd_cfg_t *xdcp, char *domain) { char *path, *domain_path, *ep; char **devices; unsigned int ndevices; int ldevices, j, circ; domid_t dom; if (domain == NULL) { dom = DOMID_SELF; path = xdcp->xs_path_fe; domain_path = ""; } else { (void) ddi_strtol(domain, &ep, 0, (long *)&dom); path = xdcp->xs_path_be; domain_path = domain; } if ((devices = xenbus_directory(XBT_NULL, path, domain_path, &ndevices)) == NULL) return; for (j = 0, ldevices = 0; j < ndevices; j++) { int vdev; ldevices += strlen(devices[j]) + 1 + sizeof (char *); (void) ddi_strtol(devices[j], &ep, 0, (long *)&vdev); ndi_devi_enter(parent, &circ); if (xvdi_find_dev(parent, xdcp->devclass, dom, vdev) == NULL) (void) xvdi_create_dev(parent, xdcp->devclass, dom, vdev); ndi_devi_exit(parent, circ); } kmem_free(devices, ldevices); } /* * Leaf drivers should call this in their detach() routine during suspend. */ void xvdi_suspend(dev_info_t *dip) { i_xvdi_rem_watches(dip); } /* * Leaf drivers should call this in their attach() routine during resume. */ int xvdi_resume(dev_info_t *dip) { return (i_xvdi_add_watches(dip)); } /* * Add event handler for the leaf driver * to handle event triggered by the change in xenstore */ int xvdi_add_event_handler(dev_info_t *dip, char *name, void (*evthandler)(dev_info_t *, ddi_eventcookie_t, void *, void *)) { ddi_eventcookie_t ecv; struct xendev_ppd *pdp = ddi_get_parent_data(dip); ddi_callback_id_t *cbid; ASSERT(pdp != NULL); mutex_enter(&pdp->xd_lk); if (strcmp(name, XS_OE_STATE) == 0) { ASSERT(pdp->xd_xsdev.otherend != NULL); cbid = &pdp->xd_oe_ehid; } else if (strcmp(name, XS_HP_STATE) == 0) { if (pdp->xd_xsdev.frontend == 1) { mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } ASSERT(pdp->xd_hp_watch.node != NULL); cbid = &pdp->xd_hp_ehid; } else { /* Unsupported watch. */ mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } /* * No event handler provided, take default action to handle * event. */ if (evthandler == NULL) { mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } ASSERT(*cbid == NULL); if (ddi_get_eventcookie(dip, name, &ecv) != DDI_SUCCESS) { cmn_err(CE_WARN, "failed to find %s cookie for %s@%s", name, ddi_get_name(dip), ddi_get_name_addr(dip)); mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } if (ddi_add_event_handler(dip, ecv, evthandler, NULL, cbid) != DDI_SUCCESS) { cmn_err(CE_WARN, "failed to add %s event handler for %s@%s", name, ddi_get_name(dip), ddi_get_name_addr(dip)); *cbid = NULL; mutex_exit(&pdp->xd_lk); return (DDI_FAILURE); } mutex_exit(&pdp->xd_lk); return (DDI_SUCCESS); } /* * Remove event handler for the leaf driver and unwatch xenstore * so, driver will not be notified when xenstore entry changed later */ void xvdi_remove_event_handler(dev_info_t *dip, char *name) { struct xendev_ppd *pdp; boolean_t rem_oe = B_FALSE, rem_hp = B_FALSE; ddi_callback_id_t oeid = NULL, hpid = NULL; pdp = ddi_get_parent_data(dip); ASSERT(pdp != NULL); if (name == NULL) { rem_oe = B_TRUE; rem_hp = B_TRUE; } else if (strcmp(name, XS_OE_STATE) == 0) { rem_oe = B_TRUE; } else if (strcmp(name, XS_HP_STATE) == 0) { rem_hp = B_TRUE; } else { cmn_err(CE_WARN, "event %s not supported, cannot remove", name); return; } mutex_enter(&pdp->xd_lk); if (rem_oe && (pdp->xd_oe_ehid != NULL)) { oeid = pdp->xd_oe_ehid; pdp->xd_oe_ehid = NULL; } if (rem_hp && (pdp->xd_hp_ehid != NULL)) { hpid = pdp->xd_hp_ehid; pdp->xd_hp_ehid = NULL; } mutex_exit(&pdp->xd_lk); if (oeid != NULL) (void) ddi_remove_event_handler(oeid); if (hpid != NULL) (void) ddi_remove_event_handler(hpid); } /* * common ring interfaces */ #define FRONT_RING(_ringp) (&(_ringp)->xr_sring.fr) #define BACK_RING(_ringp) (&(_ringp)->xr_sring.br) #define GET_RING_SIZE(_ringp) RING_SIZE(FRONT_RING(ringp)) #define GET_RING_ENTRY_FE(_ringp, _idx) \ (FRONT_RING(_ringp)->sring->ring + \ (_ringp)->xr_entry_size * ((_idx) & (GET_RING_SIZE(_ringp) - 1))) #define GET_RING_ENTRY_BE(_ringp, _idx) \ (BACK_RING(_ringp)->sring->ring + \ (_ringp)->xr_entry_size * ((_idx) & (GET_RING_SIZE(_ringp) - 1))) unsigned int xvdi_ring_avail_slots(xendev_ring_t *ringp) { comif_ring_fe_t *frp; comif_ring_be_t *brp; if (ringp->xr_frontend) { frp = FRONT_RING(ringp); return (GET_RING_SIZE(ringp) - (frp->req_prod_pvt - frp->rsp_cons)); } else { brp = BACK_RING(ringp); return (GET_RING_SIZE(ringp) - (brp->rsp_prod_pvt - brp->req_cons)); } } int xvdi_ring_has_unconsumed_requests(xendev_ring_t *ringp) { comif_ring_be_t *brp; ASSERT(!ringp->xr_frontend); brp = BACK_RING(ringp); return ((brp->req_cons != ddi_get32(ringp->xr_acc_hdl, &brp->sring->req_prod)) && ((brp->req_cons - brp->rsp_prod_pvt) != RING_SIZE(brp))); } int xvdi_ring_has_incomp_request(xendev_ring_t *ringp) { comif_ring_fe_t *frp; ASSERT(ringp->xr_frontend); frp = FRONT_RING(ringp); return (frp->req_prod_pvt != ddi_get32(ringp->xr_acc_hdl, &frp->sring->rsp_prod)); } int xvdi_ring_has_unconsumed_responses(xendev_ring_t *ringp) { comif_ring_fe_t *frp; ASSERT(ringp->xr_frontend); frp = FRONT_RING(ringp); return (frp->rsp_cons != ddi_get32(ringp->xr_acc_hdl, &frp->sring->rsp_prod)); } /* NOTE: req_event will be increased as needed */ void * xvdi_ring_get_request(xendev_ring_t *ringp) { comif_ring_fe_t *frp; comif_ring_be_t *brp; if (ringp->xr_frontend) { /* for frontend ring */ frp = FRONT_RING(ringp); if (!RING_FULL(frp)) return (GET_RING_ENTRY_FE(ringp, frp->req_prod_pvt++)); else return (NULL); } else { /* for backend ring */ brp = BACK_RING(ringp); /* RING_FINAL_CHECK_FOR_REQUESTS() */ if (xvdi_ring_has_unconsumed_requests(ringp)) return (GET_RING_ENTRY_BE(ringp, brp->req_cons++)); else { ddi_put32(ringp->xr_acc_hdl, &brp->sring->req_event, brp->req_cons + 1); membar_enter(); if (xvdi_ring_has_unconsumed_requests(ringp)) return (GET_RING_ENTRY_BE(ringp, brp->req_cons++)); else return (NULL); } } } int xvdi_ring_push_request(xendev_ring_t *ringp) { RING_IDX old, new, reqevt; comif_ring_fe_t *frp; /* only frontend should be able to push request */ ASSERT(ringp->xr_frontend); /* RING_PUSH_REQUEST_AND_CHECK_NOTIFY() */ frp = FRONT_RING(ringp); old = ddi_get32(ringp->xr_acc_hdl, &frp->sring->req_prod); new = frp->req_prod_pvt; ddi_put32(ringp->xr_acc_hdl, &frp->sring->req_prod, new); membar_enter(); reqevt = ddi_get32(ringp->xr_acc_hdl, &frp->sring->req_event); return ((RING_IDX)(new - reqevt) < (RING_IDX)(new - old)); } /* NOTE: rsp_event will be increased as needed */ void * xvdi_ring_get_response(xendev_ring_t *ringp) { comif_ring_fe_t *frp; comif_ring_be_t *brp; if (!ringp->xr_frontend) { /* for backend ring */ brp = BACK_RING(ringp); return (GET_RING_ENTRY_BE(ringp, brp->rsp_prod_pvt++)); } else { /* for frontend ring */ frp = FRONT_RING(ringp); /* RING_FINAL_CHECK_FOR_RESPONSES() */ if (xvdi_ring_has_unconsumed_responses(ringp)) return (GET_RING_ENTRY_FE(ringp, frp->rsp_cons++)); else { ddi_put32(ringp->xr_acc_hdl, &frp->sring->rsp_event, frp->rsp_cons + 1); membar_enter(); if (xvdi_ring_has_unconsumed_responses(ringp)) return (GET_RING_ENTRY_FE(ringp, frp->rsp_cons++)); else return (NULL); } } } int xvdi_ring_push_response(xendev_ring_t *ringp) { RING_IDX old, new, rspevt; comif_ring_be_t *brp; /* only backend should be able to push response */ ASSERT(!ringp->xr_frontend); /* RING_PUSH_RESPONSE_AND_CHECK_NOTIFY() */ brp = BACK_RING(ringp); old = ddi_get32(ringp->xr_acc_hdl, &brp->sring->rsp_prod); new = brp->rsp_prod_pvt; ddi_put32(ringp->xr_acc_hdl, &brp->sring->rsp_prod, new); membar_enter(); rspevt = ddi_get32(ringp->xr_acc_hdl, &brp->sring->rsp_event); return ((RING_IDX)(new - rspevt) < (RING_IDX)(new - old)); } static void xvdi_ring_init_sring(xendev_ring_t *ringp) { ddi_acc_handle_t acchdl; comif_sring_t *xsrp; int i; xsrp = (comif_sring_t *)ringp->xr_vaddr; acchdl = ringp->xr_acc_hdl; /* shared ring initialization */ ddi_put32(acchdl, &xsrp->req_prod, 0); ddi_put32(acchdl, &xsrp->rsp_prod, 0); ddi_put32(acchdl, &xsrp->req_event, 1); ddi_put32(acchdl, &xsrp->rsp_event, 1); for (i = 0; i < sizeof (xsrp->pad); i++) ddi_put8(acchdl, xsrp->pad + i, 0); } static void xvdi_ring_init_front_ring(xendev_ring_t *ringp, size_t nentry, size_t entrysize) { comif_ring_fe_t *xfrp; xfrp = &ringp->xr_sring.fr; xfrp->req_prod_pvt = 0; xfrp->rsp_cons = 0; xfrp->nr_ents = nentry; xfrp->sring = (comif_sring_t *)ringp->xr_vaddr; ringp->xr_frontend = 1; ringp->xr_entry_size = entrysize; } #ifndef XPV_HVM_DRIVER static void xvdi_ring_init_back_ring(xendev_ring_t *ringp, size_t nentry, size_t entrysize) { comif_ring_be_t *xbrp; xbrp = &ringp->xr_sring.br; xbrp->rsp_prod_pvt = 0; xbrp->req_cons = 0; xbrp->nr_ents = nentry; xbrp->sring = (comif_sring_t *)ringp->xr_vaddr; ringp->xr_frontend = 0; ringp->xr_entry_size = entrysize; } #endif /* XPV_HVM_DRIVER */ static void xendev_offline_device(void *arg) { dev_info_t *dip = (dev_info_t *)arg; char devname[MAXNAMELEN] = {0}; /* * This is currently the only chance to delete a devinfo node, which * is _not_ always successful. */ (void) ddi_deviname(dip, devname); (void) devfs_clean(ddi_get_parent(dip), devname + 1, DV_CLEAN_FORCE); (void) ndi_devi_offline(dip, NDI_DEVI_REMOVE); } static void i_xvdi_oestate_cb(struct xenbus_device *dev, XenbusState oestate) { dev_info_t *dip = (dev_info_t *)dev->data; struct xendev_ppd *pdp = ddi_get_parent_data(dip); /* * Don't trigger two consecutive ndi_devi_offline on the same * dip. */ if ((oestate == XenbusStateClosed) && (dev->otherend_state == XenbusStateClosed)) return; dev->otherend_state = oestate; (void) ddi_taskq_dispatch(pdp->xd_oe_taskq, i_xvdi_oestate_handler, (void *)dip, DDI_SLEEP); } /*ARGSUSED*/ static void i_xvdi_hpstate_cb(struct xenbus_watch *w, const char **vec, unsigned int len) { dev_info_t *dip = (dev_info_t *)w->dev; struct xendev_ppd *pdp = ddi_get_parent_data(dip); (void) ddi_taskq_dispatch(pdp->xd_hp_taskq, i_xvdi_hpstate_handler, (void *)dip, DDI_SLEEP); } static void i_xvdi_probe_path_handler(void *arg) { dev_info_t *parent; char *path = arg, *p = NULL; int i, vdev, circ; i_xd_cfg_t *xdcp; boolean_t frontend; domid_t dom; for (i = 0, xdcp = &xdci[0]; i < NXDC; i++, xdcp++) { if ((xdcp->xs_path_fe != NULL) && (strncmp(path, xdcp->xs_path_fe, strlen(xdcp->xs_path_fe)) == 0)) { frontend = B_TRUE; p = path + strlen(xdcp->xs_path_fe); break; } if ((xdcp->xs_path_be != NULL) && (strncmp(path, xdcp->xs_path_be, strlen(xdcp->xs_path_be)) == 0)) { frontend = B_FALSE; p = path + strlen(xdcp->xs_path_be); break; } } if (p == NULL) { cmn_err(CE_WARN, "i_xvdi_probe_path_handler: " "unexpected path prefix in %s", path); goto done; } if (frontend) { dom = DOMID_SELF; if (sscanf(p, "/%d/", &vdev) != 1) { XVDI_DPRINTF(XVDI_DBG_PROBE, "i_xvdi_probe_path_handler: " "cannot parse frontend path %s", path); goto done; } } else { if (sscanf(p, "/%d/%d/", &dom, &vdev) != 2) { XVDI_DPRINTF(XVDI_DBG_PROBE, "i_xvdi_probe_path_handler: " "cannot parse backend path %s", path); goto done; } } /* * This is an oxymoron, so indicates a bogus configuration we * must check for. */ if (vdev == VDEV_NOXS) { cmn_err(CE_WARN, "i_xvdi_probe_path_handler: " "invalid path %s", path); goto done; } parent = xendev_dip; ASSERT(parent != NULL); ndi_devi_enter(parent, &circ); if (xvdi_find_dev(parent, xdcp->devclass, dom, vdev) == NULL) { XVDI_DPRINTF(XVDI_DBG_PROBE, "i_xvdi_probe_path_handler: create for %s", path); (void) xvdi_create_dev(parent, xdcp->devclass, dom, vdev); } else { XVDI_DPRINTF(XVDI_DBG_PROBE, "i_xvdi_probe_path_handler: %s already exists", path); } ndi_devi_exit(parent, circ); done: kmem_free(path, strlen(path) + 1); }