/* * 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define VDDS_MAX_RANGES 6 /* 6 possible VRs */ #define VDDS_MAX_VRINTRS 8 /* limited to 8 intrs/VR */ #define VDDS_MAX_INTR_NUM 64 /* 0-63 or valid */ #define VDDS_INO_RANGE_START(x) (x * VDDS_MAX_VRINTRS) #define HVCOOKIE(c) ((c) & 0xFFFFFFFFF) #define NIUCFGHDL(c) ((c) >> 32) /* For "ranges" property */ typedef struct vdds_ranges { uint32_t child_hi; uint32_t child_lo; uint32_t parent_hi; uint32_t parent_lo; uint32_t size_hi; uint32_t size_lo; } vdds_ranges_t; /* For "reg" property */ typedef struct vdds_reg { uint32_t addr_hi; uint32_t addr_lo; uint32_t size_hi; uint32_t size_lo; } vdds_reg_t; /* For ddi callback argument */ typedef struct vdds_cb_arg { dev_info_t *dip; uint64_t cookie; uint64_t macaddr; uint32_t max_frame_size; } vdds_cb_arg_t; /* Functions exported to other files */ void vdds_mod_init(void); void vdds_mod_fini(void); int vdds_init(vnet_t *vnetp); void vdds_cleanup(vnet_t *vnetp); void vdds_process_dds_msg(vnet_t *vnetp, vio_dds_msg_t *dmsg); void vdds_cleanup_hybrid_res(void *arg); /* Support functions to create/destory Hybrid device */ static dev_info_t *vdds_create_niu_node(uint64_t cookie, uint64_t macaddr, uint32_t max_frame_size); static int vdds_destroy_niu_node(dev_info_t *niu_dip, uint64_t cookie); static dev_info_t *vdds_create_new_node(vdds_cb_arg_t *cba, dev_info_t *pdip, int (*new_node_func)(dev_info_t *dip, void *arg, uint_t flags)); static int vdds_new_nexus_node(dev_info_t *dip, void *arg, uint_t flags); static int vdds_new_niu_node(dev_info_t *dip, void *arg, uint_t flags); static dev_info_t *vdds_find_node(uint64_t cookie, dev_info_t *sdip, int (*match_func)(dev_info_t *dip, void *arg)); static int vdds_match_niu_nexus(dev_info_t *dip, void *arg); static int vdds_match_niu_node(dev_info_t *dip, void *arg); static int vdds_get_interrupts(uint64_t cookie, int ino_range, int *intrs, int *nintr); /* DDS message processing related functions */ static void vdds_process_dds_msg_task(void *arg); static int vdds_send_dds_resp_msg(vnet_t *vnetp, vio_dds_msg_t *dmsg, int ack); static int vdds_send_dds_rel_msg(vnet_t *vnetp); static void vdds_release_range_prop(dev_info_t *nexus_dip, uint64_t cookie); /* Functions imported from other files */ extern int vnet_send_dds_msg(vnet_t *vnetp, void *dmsg); /* HV functions that are used in this file */ extern uint64_t vdds_hv_niu_vr_getinfo(uint32_t hvcookie, uint64_t *real_start, uint64_t *size); extern uint64_t vdds_hv_niu_vr_get_txmap(uint32_t hvcookie, uint64_t *dma_map); extern uint64_t vdds_hv_niu_vr_get_rxmap(uint32_t hvcookie, uint64_t *dma_map); extern uint64_t vdds_hv_niu_vrtx_set_ino(uint32_t cookie, uint64_t vch_idx, uint32_t ino); extern uint64_t vdds_hv_niu_vrrx_set_ino(uint32_t cookie, uint64_t vch_idx, uint32_t ino); #ifdef DEBUG extern int vnet_dbglevel; static void debug_printf(const char *fname, void *arg, const char *fmt, ...) { char buf[512]; va_list ap; char *bufp = buf; vnet_dds_info_t *vdds = arg; if (vdds != NULL) { (void) sprintf(bufp, "vnet%d: %s: ", vdds->vnetp->instance, fname); } else { (void) sprintf(bufp, "%s: ", fname); } bufp += strlen(bufp); va_start(ap, fmt); (void) vsprintf(bufp, fmt, ap); va_end(ap); cmn_err(CE_CONT, "%s\n", buf); } #endif /* * Hypervisor N2/NIU services information. */ static hsvc_info_t niu_hsvc = { HSVC_REV_1, NULL, HSVC_GROUP_NIU, 1, 1, "vnet_dds" }; /* * Lock to serialize the NIU device node related operations. */ kmutex_t vdds_dev_lock; boolean_t vdds_hv_hio_capable = B_FALSE; /* * vdds_mod_init -- one time initialization. */ void vdds_mod_init(void) { int rv; uint64_t minor; rv = hsvc_register(&niu_hsvc, &minor); /* * Only HV version 1.1 is capable of NIU Hybrid IO. */ if ((rv == 0) && (minor == 1)) { vdds_hv_hio_capable = B_TRUE; } mutex_init(&vdds_dev_lock, NULL, MUTEX_DRIVER, NULL); DBG1(NULL, "HV HIO capable"); } /* * vdds_mod_fini -- one time cleanup. */ void vdds_mod_fini(void) { (void) hsvc_unregister(&niu_hsvc); mutex_destroy(&vdds_dev_lock); } /* * vdds_init -- vnet instance related DDS related initialization. */ int vdds_init(vnet_t *vnetp) { vnet_dds_info_t *vdds = &vnetp->vdds_info; char qname[TASKQ_NAMELEN]; vdds->vnetp = vnetp; DBG1(vdds, "Initializing.."); (void) snprintf(qname, TASKQ_NAMELEN, "vdds_taskq%d", vnetp->instance); if ((vdds->dds_taskqp = ddi_taskq_create(vnetp->dip, qname, 1, TASKQ_DEFAULTPRI, 0)) == NULL) { cmn_err(CE_WARN, "!vnet%d: Unable to create DDS task queue", vnetp->instance); return (ENOMEM); } mutex_init(&vdds->lock, NULL, MUTEX_DRIVER, NULL); return (0); } /* * vdds_cleanup -- vnet instance related cleanup. */ void vdds_cleanup(vnet_t *vnetp) { vnet_dds_info_t *vdds = &vnetp->vdds_info; DBG1(vdds, "Cleanup..."); /* Cleanup/destroy any hybrid resouce that exists */ vdds_cleanup_hybrid_res(vnetp); /* taskq_destroy will wait for all taskqs to complete */ ddi_taskq_destroy(vdds->dds_taskqp); vdds->dds_taskqp = NULL; mutex_destroy(&vdds->lock); DBG1(vdds, "Cleanup complete"); } /* * vdds_cleanup_hybrid_res -- Cleanup Hybrid resource. */ void vdds_cleanup_hybrid_res(void *arg) { vnet_t *vnetp = arg; vnet_dds_info_t *vdds = &vnetp->vdds_info; DBG1(vdds, "Hybrid device cleanup..."); mutex_enter(&vdds->lock); if (vdds->task_flags == VNET_DDS_TASK_ADD_SHARE) { /* * Task for ADD_SHARE is pending, simply * cleanup the flags, the task will quit without * any changes. */ vdds->task_flags = 0; DBG2(vdds, "Task for ADD is pending, clean flags only"); } else if ((vdds->hio_dip != NULL) && (vdds->task_flags == 0)) { /* * There is no task pending and a hybrid device * is present, so dispatch a task to release the share. */ vdds->task_flags = VNET_DDS_TASK_REL_SHARE; (void) ddi_taskq_dispatch(vdds->dds_taskqp, vdds_process_dds_msg_task, vnetp, DDI_NOSLEEP); DBG2(vdds, "Dispatched a task to destroy HIO device"); } /* * Other possible cases include either DEL_SHARE or * REL_SHARE as pending. In that case, there is nothing * to do as a task is already pending to do the cleanup. */ mutex_exit(&vdds->lock); DBG1(vdds, "Hybrid device cleanup complete"); } /* * vdds_process_dds_msg -- Process a DDS message. */ void vdds_process_dds_msg(vnet_t *vnetp, vio_dds_msg_t *dmsg) { vnet_dds_info_t *vdds = &vnetp->vdds_info; int rv; DBG1(vdds, "DDS message received..."); if (dmsg->dds_class != DDS_VNET_NIU) { DBG2(vdds, "Invalid class send NACK"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); return; } mutex_enter(&vdds->lock); switch (dmsg->dds_subclass) { case DDS_VNET_ADD_SHARE: DBG2(vdds, "DDS_VNET_ADD_SHARE message..."); if ((vdds->task_flags != 0) || (vdds->hio_dip != NULL)) { /* * Either a task is already pending or * a hybrid device already exists. */ DWARN(vdds, "NACK: Already pending DDS task"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); mutex_exit(&vdds->lock); return; } vdds->task_flags = VNET_DDS_TASK_ADD_SHARE; bcopy(dmsg, &vnetp->vdds_info.dmsg, sizeof (vio_dds_msg_t)); DBG2(vdds, "Dispatching task for ADD_SHARE"); rv = ddi_taskq_dispatch(vdds->dds_taskqp, vdds_process_dds_msg_task, vnetp, DDI_NOSLEEP); if (rv != 0) { /* Send NACK */ DBG2(vdds, "NACK: Failed to dispatch task"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); vdds->task_flags = 0; } break; case DDS_VNET_DEL_SHARE: DBG2(vdds, "DDS_VNET_DEL_SHARE message..."); if (vdds->task_flags == VNET_DDS_TASK_ADD_SHARE) { /* * ADD_SHARE task still pending, simply clear * task falgs and ACK. */ DBG2(vdds, "ACK:ADD_SHARE task still pending"); vdds->task_flags = 0; (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_TRUE); mutex_exit(&vdds->lock); return; } if ((vdds->task_flags == 0) && (vdds->hio_dip == NULL)) { /* Send NACK */ DBG2(vdds, "NACK:No HIO device exists"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); mutex_exit(&vdds->lock); return; } vdds->task_flags = VNET_DDS_TASK_DEL_SHARE; bcopy(dmsg, &vdds->dmsg, sizeof (vio_dds_msg_t)); DBG2(vdds, "Dispatching DEL_SHARE task"); rv = ddi_taskq_dispatch(vdds->dds_taskqp, vdds_process_dds_msg_task, vnetp, DDI_NOSLEEP); if (rv != 0) { /* Send NACK */ DBG2(vdds, "NACK: failed to dispatch task"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); vdds->task_flags = 0; } break; case DDS_VNET_REL_SHARE: DBG2(vdds, "Reply for REL_SHARE reply=%d", dmsg->tag.vio_subtype); break; default: DWARN(vdds, "Discarding Unknown DDS message"); break; } mutex_exit(&vdds->lock); } /* * vdds_process_dds_msg_task -- Called from a taskq to process the * DDS message. */ static void vdds_process_dds_msg_task(void *arg) { vnet_t *vnetp = arg; vnet_dds_info_t *vdds = &vnetp->vdds_info; vio_dds_msg_t *dmsg = &vdds->dmsg; dev_info_t *dip; uint32_t max_frame_size; uint64_t hio_cookie; int rv; DBG1(vdds, "DDS task started..."); mutex_enter(&vdds->lock); switch (vdds->task_flags) { case VNET_DDS_TASK_ADD_SHARE: DBG2(vdds, "ADD_SHARE task..."); hio_cookie = dmsg->msg.share_msg.cookie; /* * max-frame-size value need to be set to * the full ethernet frame size. That is, * header + payload + checksum. */ max_frame_size = vnetp->mtu + sizeof (struct ether_vlan_header) + ETHERFCSL; dip = vdds_create_niu_node(hio_cookie, dmsg->msg.share_msg.macaddr, max_frame_size); if (dip == NULL) { (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); DERR(vdds, "Failed to create HIO node"); } else { vdds->hio_dip = dip; vdds->hio_cookie = hio_cookie; (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_TRUE); /* DERR used only print by default */ DERR(vdds, "Successfully created HIO node"); } break; case VNET_DDS_TASK_DEL_SHARE: DBG2(vdds, "DEL_SHARE task..."); if (vnetp->vdds_info.hio_dip == NULL) { DBG2(vdds, "NACK: No HIO device destroy"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_FALSE); } else { rv = vdds_destroy_niu_node(vnetp->vdds_info.hio_dip, vdds->hio_cookie); if (rv == 0) { /* use DERR to print by default */ DERR(vdds, "Successfully destroyed" " Hybrid node"); } else { cmn_err(CE_WARN, "vnet%d:Failed to " "destroy Hybrid node", vnetp->instance); } /* TODO: send ACK even for failure? */ DBG2(vdds, "ACK: HIO device destroyed"); (void) vdds_send_dds_resp_msg(vnetp, dmsg, B_TRUE); vdds->hio_dip = 0; vdds->hio_cookie = 0; } break; case VNET_DDS_TASK_REL_SHARE: DBG2(vdds, "REL_SHARE task..."); if (vnetp->vdds_info.hio_dip != NULL) { rv = vdds_destroy_niu_node(vnetp->vdds_info.hio_dip, vdds->hio_cookie); if (rv == 0) { DERR(vdds, "Successfully destroyed " "Hybrid node"); } else { cmn_err(CE_WARN, "vnet%d:Failed to " "destroy HIO node", vnetp->instance); } /* TODO: failure case */ (void) vdds_send_dds_rel_msg(vnetp); vdds->hio_dip = 0; vdds->hio_cookie = 0; } break; default: break; } vdds->task_flags = 0; mutex_exit(&vdds->lock); } /* * vdds_send_dds_rel_msg -- Send a DDS_REL_SHARE message. */ static int vdds_send_dds_rel_msg(vnet_t *vnetp) { vnet_dds_info_t *vdds = &vnetp->vdds_info; vio_dds_msg_t vmsg; dds_share_msg_t *smsg = &vmsg.msg.share_msg; int rv; DBG1(vdds, "Sending DDS_VNET_REL_SHARE message"); vmsg.tag.vio_msgtype = VIO_TYPE_CTRL; vmsg.tag.vio_subtype = VIO_SUBTYPE_INFO; vmsg.tag.vio_subtype_env = VIO_DDS_INFO; /* vio_sid filled by the LDC module */ vmsg.dds_class = DDS_VNET_NIU; vmsg.dds_subclass = DDS_VNET_REL_SHARE; vmsg.dds_req_id = (++vdds->dds_req_id); smsg->macaddr = vnet_macaddr_strtoul(vnetp->curr_macaddr); smsg->cookie = vdds->hio_cookie; rv = vnet_send_dds_msg(vnetp, &vmsg); return (rv); } /* * vdds_send_dds_resp_msg -- Send a DDS response message. */ static int vdds_send_dds_resp_msg(vnet_t *vnetp, vio_dds_msg_t *dmsg, int ack) { vnet_dds_info_t *vdds = &vnetp->vdds_info; int rv; DBG1(vdds, "Sending a response mesage=%d", ack); if (ack == B_TRUE) { dmsg->tag.vio_subtype = VIO_SUBTYPE_ACK; dmsg->msg.share_resp_msg.status = DDS_VNET_SUCCESS; } else { dmsg->tag.vio_subtype = VIO_SUBTYPE_NACK; dmsg->msg.share_resp_msg.status = DDS_VNET_FAIL; } rv = vnet_send_dds_msg(vnetp, dmsg); return (rv); } /* * vdds_create_niu_node -- Create NIU Hybrid node. The NIU nexus * node also created if it doesn't exist already. */ dev_info_t * vdds_create_niu_node(uint64_t cookie, uint64_t macaddr, uint32_t max_frame_size) { dev_info_t *nexus_dip; dev_info_t *niu_dip; vdds_cb_arg_t cba; DBG1(NULL, "Called"); if (vdds_hv_hio_capable == B_FALSE) { return (NULL); } mutex_enter(&vdds_dev_lock); /* Check if the nexus node exists already */ nexus_dip = vdds_find_node(cookie, ddi_root_node(), vdds_match_niu_nexus); if (nexus_dip == NULL) { /* * NIU nexus node not found, so create it now. */ cba.dip = NULL; cba.cookie = cookie; cba.macaddr = macaddr; cba.max_frame_size = max_frame_size; nexus_dip = vdds_create_new_node(&cba, NULL, vdds_new_nexus_node); if (nexus_dip == NULL) { mutex_exit(&vdds_dev_lock); return (NULL); } } DBG2(NULL, "nexus_dip = 0x%p", nexus_dip); /* Check if NIU node exists already before creating one */ niu_dip = vdds_find_node(cookie, nexus_dip, vdds_match_niu_node); if (niu_dip == NULL) { cba.dip = NULL; cba.cookie = cookie; cba.macaddr = macaddr; cba.max_frame_size = max_frame_size; niu_dip = vdds_create_new_node(&cba, nexus_dip, vdds_new_niu_node); /* * Hold the niu_dip to prevent it from * detaching. */ if (niu_dip != NULL) { e_ddi_hold_devi(niu_dip); } else { DWARN(NULL, "niumx/network node creation failed"); } } else { DWARN(NULL, "niumx/network node already exists(dip=0x%p)", niu_dip); } /* release the hold that was done in find/create */ if ((niu_dip != NULL) && (e_ddi_branch_held(niu_dip))) e_ddi_branch_rele(niu_dip); if (e_ddi_branch_held(nexus_dip)) e_ddi_branch_rele(nexus_dip); mutex_exit(&vdds_dev_lock); DBG1(NULL, "returning niu_dip=0x%p", niu_dip); return (niu_dip); } /* * vdds_destroy_niu_node -- Destroy the NIU node. */ int vdds_destroy_niu_node(dev_info_t *niu_dip, uint64_t cookie) { int rv; dev_info_t *fdip = NULL; dev_info_t *nexus_dip = ddi_get_parent(niu_dip); DBG1(NULL, "Called"); ASSERT(nexus_dip != NULL); mutex_enter(&vdds_dev_lock); if (!e_ddi_branch_held(niu_dip)) e_ddi_branch_hold(niu_dip); /* * As we are destroying now, release the * hold that was done in during the creation. */ ddi_release_devi(niu_dip); rv = e_ddi_branch_destroy(niu_dip, &fdip, 0); if (rv != 0) { DERR(NULL, "Failed to destroy niumx/network node dip=0x%p", niu_dip); if (fdip != NULL) { ddi_release_devi(fdip); } rv = EBUSY; goto dest_exit; } /* * Cleanup the parent's ranges property set * for this Hybrid device. */ vdds_release_range_prop(nexus_dip, cookie); dest_exit: mutex_exit(&vdds_dev_lock); DBG1(NULL, "returning rv=%d", rv); return (rv); } /* * vdds_match_niu_nexus -- callback function to verify a node is the * NIU nexus node. */ static int vdds_match_niu_nexus(dev_info_t *dip, void *arg) { vdds_cb_arg_t *warg = (vdds_cb_arg_t *)arg; vdds_reg_t *reg_p; char *name; uint64_t hdl; uint_t reglen; int rv; if (dip == ddi_root_node()) { return (DDI_WALK_CONTINUE); } name = ddi_node_name(dip); if (strcmp(name, "niu") != 0) { return (DDI_WALK_CONTINUE); } rv = ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "reg", (int **)®_p, ®len); if (rv != DDI_PROP_SUCCESS) { DWARN(NULL, "Failed to get reg property dip=0x%p", dip); return (DDI_WALK_CONTINUE); } hdl = reg_p->addr_hi & 0x0FFFFFFF; ddi_prop_free(reg_p); DBG2(NULL, "Handle = 0x%lx dip=0x%p", hdl, dip); if (hdl == NIUCFGHDL(warg->cookie)) { /* Hold before returning */ if (!e_ddi_branch_held(dip)) e_ddi_branch_hold(dip); warg->dip = dip; DBG2(NULL, "Found dip = 0x%p", dip); return (DDI_WALK_TERMINATE); } return (DDI_WALK_CONTINUE); } /* * vdds_match_niu_node -- callback function to verify a node is the * NIU Hybrid node. */ static int vdds_match_niu_node(dev_info_t *dip, void *arg) { vdds_cb_arg_t *warg = (vdds_cb_arg_t *)arg; char *name; vdds_reg_t *reg_p; uint_t reglen; int rv; uint32_t addr_hi; name = ddi_node_name(dip); if (strcmp(name, "network") != 0) { return (DDI_WALK_CONTINUE); } rv = ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "reg", (int **)®_p, ®len); if (rv != DDI_PROP_SUCCESS) { DWARN(NULL, "Failed to get reg property dip=0x%p", dip); return (DDI_WALK_CONTINUE); } addr_hi = reg_p->addr_hi; DBG1(NULL, "addr_hi = 0x%x dip=0x%p", addr_hi, dip); ddi_prop_free(reg_p); if (addr_hi == HVCOOKIE(warg->cookie)) { warg->dip = dip; if (!e_ddi_branch_held(dip)) e_ddi_branch_hold(dip); DBG1(NULL, "Found dip = 0x%p", dip); return (DDI_WALK_TERMINATE); } return (DDI_WALK_CONTINUE); } /* * vdds_new_nexus_node -- callback function to set all the properties * a new NIU nexus node. */ static int vdds_new_nexus_node(dev_info_t *dip, void *arg, uint_t flags) { vdds_cb_arg_t *cba = (vdds_cb_arg_t *)arg; char *compat[] = { "SUNW,niumx" }; vdds_ranges_t *rangesp; vdds_reg_t reg; uint64_t nranges; int n; DBG1(NULL, "Called dip=0x%p, flags=0x%X", dip, flags); /* create "niu" property */ if (ndi_prop_update_string(DDI_DEV_T_NONE, dip, "name", "niu") != DDI_SUCCESS) { DERR(NULL, "Failed to create name property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "compatible" property */ if (ndi_prop_update_string_array(DDI_DEV_T_NONE, dip, "compatible", compat, 1) != DDI_SUCCESS) { DERR(NULL, "Failed to create compatible property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "device_type" property */ if (ndi_prop_update_string(DDI_DEV_T_NONE, dip, "device_type", "sun4v") != DDI_SUCCESS) { DERR(NULL, "Failed to create device_type property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* * create "reg" property. The first 28 bits of * 'addr_hi' are NIU cfg_handle, the 0xc in 28-31 bits * indicates non-cacheable config. */ reg.addr_hi = 0xc0000000 | NIUCFGHDL(cba->cookie); reg.addr_lo = 0; reg.size_hi = 0; reg.size_lo = 0; if (ndi_prop_update_int_array(DDI_DEV_T_NONE, dip, "reg", (int *)®, sizeof (reg)/sizeof (int)) != DDI_SUCCESS) { DERR(NULL, "Failed to create reg property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* * Create VDDS_MAX_RANGES so that they are already in place * before the children are created. While creating the child * we just modify one of this ranges entries. */ nranges = VDDS_MAX_RANGES; /* One range for each VR */ rangesp = (vdds_ranges_t *)kmem_zalloc( (sizeof (vdds_ranges_t) * nranges), KM_SLEEP); for (n = 0; n < nranges; n++) { /* zero all child_hi/lo */ rangesp[n].child_hi = 0; rangesp[n].child_lo = 0; } if (ndi_prop_update_int_array(DDI_DEV_T_NONE, dip, "ranges", (int *)rangesp, (nranges * 6)) != DDI_SUCCESS) { DERR(NULL, "Failed to create ranges property(dip=0x%p)", dip); kmem_free(rangesp, (sizeof (vdds_ranges_t) * nranges)); return (DDI_WALK_ERROR); } /* create "#size-cells" property */ if (ndi_prop_update_int(DDI_DEV_T_NONE, dip, "#size-cells", 2) != DDI_SUCCESS) { DERR(NULL, "Failed to create #size-cells property(dip=0x%p)", dip); kmem_free(rangesp, (sizeof (vdds_ranges_t) * nranges)); return (DDI_WALK_ERROR); } /* create "#address-cells" property */ if (ndi_prop_update_int(DDI_DEV_T_NONE, dip, "#address-cells", 2) != DDI_SUCCESS) { DERR(NULL, "Failed to create #address-cells prop(dip=0x%p)", dip); kmem_free(rangesp, (sizeof (vdds_ranges_t) * nranges)); return (DDI_WALK_ERROR); } kmem_free(rangesp, (sizeof (vdds_ranges_t) * nranges)); cba->dip = dip; DBG1(NULL, "Returning (dip=0x%p)", dip); return (DDI_WALK_TERMINATE); } /* * vdds_new_niu_node -- callback function to create a new NIU Hybrid node. */ static int vdds_new_niu_node(dev_info_t *dip, void *arg, uint_t flags) { vdds_cb_arg_t *cba = (vdds_cb_arg_t *)arg; char *compat[] = { "SUNW,niusl" }; uint8_t macaddrbytes[ETHERADDRL]; int interrupts[VDDS_MAX_VRINTRS]; vdds_ranges_t *prng; vdds_ranges_t *prp; vdds_reg_t reg; dev_info_t *pdip; uint64_t start; uint64_t size; int prnglen; int nintr = 0; int nrng; int rnum; int rv; DBG1(NULL, "Called dip=0x%p flags=0x%X", dip, flags); pdip = ddi_get_parent(dip); if (pdip == NULL) { DWARN(NULL, "Failed to get parent dip(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "network" property */ if (ndi_prop_update_string(DDI_DEV_T_NONE, dip, "name", "network") != DDI_SUCCESS) { DERR(NULL, "Failed to create name property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* * create "niutype" property, it is set to n2niu to * indicate NIU Hybrid node. */ if (ndi_prop_update_string(DDI_DEV_T_NONE, dip, "niutype", "n2niu") != DDI_SUCCESS) { DERR(NULL, "Failed to create niuopmode property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "compatible" property */ if (ndi_prop_update_string_array(DDI_DEV_T_NONE, dip, "compatible", compat, 1) != DDI_SUCCESS) { DERR(NULL, "Failed to create compatible property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "device_type" property */ if (ndi_prop_update_string(DDI_DEV_T_NONE, dip, "device_type", "network") != DDI_SUCCESS) { DERR(NULL, "Failed to create device_type property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "reg" property */ if (vdds_hv_niu_vr_getinfo(HVCOOKIE(cba->cookie), &start, &size) != H_EOK) { DERR(NULL, "Failed to get vrinfo for cookie(0x%lX)", cba->cookie); return (DDI_WALK_ERROR); } reg.addr_hi = HVCOOKIE(cba->cookie); reg.addr_lo = 0; reg.size_hi = 0; reg.size_lo = size; if (ndi_prop_update_int_array(DDI_DEV_T_NONE, dip, "reg", (int *)®, sizeof (reg) / sizeof (int)) != DDI_SUCCESS) { DERR(NULL, "Failed to create reg property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* * Modify the parent's ranges property to map the "reg" property * of the new child. */ if ((rv = ddi_getlongprop(DDI_DEV_T_ANY, pdip, DDI_PROP_DONTPASS, "ranges", (caddr_t)&prng, &prnglen)) != DDI_SUCCESS) { DERR(NULL, "Failed to get parent's ranges property(pdip=0x%p) rv=%d", pdip, rv); return (DDI_WALK_ERROR); } nrng = prnglen/(sizeof (vdds_ranges_t)); /* * First scan all ranges to see if a range corresponding * to this virtual NIU exists already. */ for (rnum = 0; rnum < nrng; rnum++) { prp = &prng[rnum]; if (prp->child_hi == HVCOOKIE(cba->cookie)) { break; } } if (rnum == nrng) { /* Now to try to find an empty range */ for (rnum = 0; rnum < nrng; rnum++) { prp = &prng[rnum]; if (prp->child_hi == 0) { break; } } } if (rnum == nrng) { DERR(NULL, "No free ranges entry found"); return (DDI_WALK_ERROR); } /* * child_hi will have HV cookie as HV cookie is more like * a port in the HybridIO. */ prp->child_hi = HVCOOKIE(cba->cookie); prp->child_lo = 0; prp->parent_hi = 0x80000000 | (start >> 32); prp->parent_lo = start & 0x00000000FFFFFFFF; prp->size_hi = (size >> 32); prp->size_lo = size & 0x00000000FFFFFFFF; if (ndi_prop_update_int_array(DDI_DEV_T_NONE, pdip, "ranges", (int *)prng, (nrng * 6)) != DDI_SUCCESS) { DERR(NULL, "Failed to update parent ranges prop(pdip=0x%p)", pdip); return (DDI_WALK_ERROR); } kmem_free((void *)prng, prnglen); vnet_macaddr_ultostr(cba->macaddr, macaddrbytes); /* * create "local-mac-address" property, this will be same as * the vnet's mac-address. */ if (ndi_prop_update_byte_array(DDI_DEV_T_NONE, dip, "local-mac-address", macaddrbytes, ETHERADDRL) != DDI_SUCCESS) { DERR(NULL, "Failed to update mac-addresses property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } rv = vdds_get_interrupts(cba->cookie, rnum, interrupts, &nintr); if (rv != 0) { DERR(NULL, "Failed to get interrupts for cookie=0x%lx", cba->cookie); return (DDI_WALK_ERROR); } /* create "interrupts" property */ if (ndi_prop_update_int_array(DDI_DEV_T_NONE, dip, "interrupts", interrupts, nintr) != DDI_SUCCESS) { DERR(NULL, "Failed to update interrupts property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } /* create "max_frame_size" property */ if (ndi_prop_update_int(DDI_DEV_T_NONE, dip, "max-frame-size", cba->max_frame_size) != DDI_SUCCESS) { DERR(NULL, "Failed to update max-frame-size property(dip=0x%p)", dip); return (DDI_WALK_ERROR); } cba->dip = dip; DBG1(NULL, "Returning dip=0x%p", dip); return (DDI_WALK_TERMINATE); } /* * vdds_find_node -- A common function to find a NIU nexus or NIU node. */ static dev_info_t * vdds_find_node(uint64_t cookie, dev_info_t *sdip, int (*match_func)(dev_info_t *dip, void *arg)) { vdds_cb_arg_t arg; dev_info_t *pdip; int circ; DBG1(NULL, "Called cookie=%lx\n", cookie); arg.dip = NULL; arg.cookie = cookie; if (pdip = ddi_get_parent(sdip)) { ndi_devi_enter(pdip, &circ); } ddi_walk_devs(sdip, match_func, (void *)&arg); if (pdip != NULL) { ndi_devi_exit(pdip, circ); } DBG1(NULL, "Returning dip=0x%p", arg.dip); return (arg.dip); } /* * vdds_create_new_node -- A common function to create NIU nexus/NIU node. */ static dev_info_t * vdds_create_new_node(vdds_cb_arg_t *cbap, dev_info_t *pdip, int (*new_node_func)(dev_info_t *dip, void *arg, uint_t flags)) { devi_branch_t br; int rv; DBG1(NULL, "Called cookie=0x%lx", cbap->cookie); br.arg = (void *)cbap; br.type = DEVI_BRANCH_SID; br.create.sid_branch_create = new_node_func; br.devi_branch_callback = NULL; if (pdip == NULL) { pdip = ddi_root_node(); } DBG1(NULL, "calling e_ddi_branch_create"); if ((rv = e_ddi_branch_create(pdip, &br, NULL, DEVI_BRANCH_CHILD | DEVI_BRANCH_CONFIGURE))) { DERR(NULL, "e_ddi_branch_create failed=%d", rv); return (NULL); } DBG1(NULL, "Returning(dip=0x%p", cbap->dip); return (cbap->dip); } /* * vdds_get_interrupts -- A function that binds ino's to channels and * then provides them to create interrupts property. */ static int vdds_get_interrupts(uint64_t cookie, int ino_range, int *intrs, int *nintr) { uint32_t hvcookie = HVCOOKIE(cookie); uint64_t txmap; uint64_t rxmap; uint32_t ino = VDDS_INO_RANGE_START(ino_range); int rv; uint64_t i; *nintr = 0; rv = vdds_hv_niu_vr_get_txmap(hvcookie, &txmap); if (rv != H_EOK) { DWARN(NULL, "Failed to get txmap for hvcookie=0x%X rv=%d\n", hvcookie, rv); return (EIO); } rv = vdds_hv_niu_vr_get_rxmap(hvcookie, &rxmap); if (rv != H_EOK) { DWARN(NULL, "Failed to get rxmap for hvcookie=0x%X, rv=%d\n", hvcookie, rv); return (EIO); } /* Check if the number of total channels to be more than 8 */ for (i = 0; i < 4; i++) { if (rxmap & (((uint64_t)0x1) << i)) { rv = vdds_hv_niu_vrrx_set_ino(hvcookie, i, ino); if (rv != H_EOK) { DWARN(NULL, "Failed to get Rx ino for " "hvcookie=0x%X vch_idx=0x%lx rv=%d\n", hvcookie, i, rv); return (EIO); } DWARN(NULL, "hvcookie=0x%X RX vch_idx=0x%lx ino=0x%X\n", hvcookie, i, ino); *intrs = ino; ino++; } else { *intrs = VDDS_MAX_INTR_NUM; } intrs++; *nintr += 1; } for (i = 0; i < 4; i++) { if (txmap & (((uint64_t)0x1) << i)) { rv = vdds_hv_niu_vrtx_set_ino(hvcookie, i, ino); if (rv != H_EOK) { DWARN(NULL, "Failed to get Tx ino for " "hvcookie=0x%X vch_idx=0x%lx rv=%d\n", hvcookie, i, rv); return (EIO); } DWARN(NULL, "hvcookie=0x%X TX vch_idx=0x%lx ino=0x%X\n", hvcookie, i, ino); *intrs = ino; ino++; } else { *intrs = VDDS_MAX_INTR_NUM; } intrs++; *nintr += 1; } return (0); } /* * vdds_release_range_prop -- cleanups an entry in the ranges property * corresponding to a cookie. */ static void vdds_release_range_prop(dev_info_t *nexus_dip, uint64_t cookie) { vdds_ranges_t *prng; vdds_ranges_t *prp; int prnglen; int nrng; int rnum; boolean_t success = B_FALSE; int rv; if ((rv = ddi_getlongprop(DDI_DEV_T_ANY, nexus_dip, DDI_PROP_DONTPASS, "ranges", (caddr_t)&prng, &prnglen)) != DDI_SUCCESS) { DERR(NULL, "Failed to get nexus ranges property(dip=0x%p) rv=%d", nexus_dip, rv); return; } nrng = prnglen/(sizeof (vdds_ranges_t)); for (rnum = 0; rnum < nrng; rnum++) { prp = &prng[rnum]; if (prp->child_hi == HVCOOKIE(cookie)) { prp->child_hi = 0; success = B_TRUE; break; } } if (success) { if (ndi_prop_update_int_array(DDI_DEV_T_NONE, nexus_dip, "ranges", (int *)prng, (nrng * 6)) != DDI_SUCCESS) { DERR(NULL, "Failed to update nexus ranges prop(dip=0x%p)", nexus_dip); } } }