/*- * Copyright (c) 2009-2012,2016-2017 Microsoft Corp. * Copyright (c) 2010-2012 Citrix Inc. * Copyright (c) 2012 NetApp Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice unmodified, this list of conditions, and the following * disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Network Virtualization Service. */ #include #include "opt_inet6.h" #include "opt_inet.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static int hn_nvs_conn_chim(struct hn_softc *); static int hn_nvs_conn_rxbuf(struct hn_softc *); static void hn_nvs_disconn_chim(struct hn_softc *); static void hn_nvs_disconn_rxbuf(struct hn_softc *); static int hn_nvs_conf_ndis(struct hn_softc *, int); static int hn_nvs_init_ndis(struct hn_softc *); static int hn_nvs_doinit(struct hn_softc *, uint32_t); static int hn_nvs_init(struct hn_softc *); static const void *hn_nvs_xact_execute(struct hn_softc *, struct vmbus_xact *, void *, int, size_t *, uint32_t); static void hn_nvs_sent_none(struct hn_nvs_sendctx *, struct hn_softc *, struct vmbus_channel *, const void *, int); struct hn_nvs_sendctx hn_nvs_sendctx_none = HN_NVS_SENDCTX_INITIALIZER(hn_nvs_sent_none, NULL); static const uint32_t hn_nvs_version[] = { HN_NVS_VERSION_61, HN_NVS_VERSION_6, HN_NVS_VERSION_5, HN_NVS_VERSION_4, HN_NVS_VERSION_2, HN_NVS_VERSION_1 }; static const void * hn_nvs_xact_execute(struct hn_softc *sc, struct vmbus_xact *xact, void *req, int reqlen, size_t *resplen0, uint32_t type) { struct hn_nvs_sendctx sndc; size_t resplen, min_resplen = *resplen0; const struct hn_nvs_hdr *hdr; int error; KASSERT(min_resplen >= sizeof(*hdr), ("invalid minimum response len %zu", min_resplen)); /* * Execute the xact setup by the caller. */ hn_nvs_sendctx_init(&sndc, hn_nvs_sent_xact, xact); vmbus_xact_activate(xact); error = hn_nvs_send(sc->hn_prichan, VMBUS_CHANPKT_FLAG_RC, req, reqlen, &sndc); if (error) { vmbus_xact_deactivate(xact); return (NULL); } hdr = vmbus_chan_xact_wait(sc->hn_prichan, xact, &resplen, HN_CAN_SLEEP(sc)); /* * Check this NVS response message. */ if (resplen < min_resplen) { if_printf(sc->hn_ifp, "invalid NVS resp len %zu\n", resplen); return (NULL); } if (hdr->nvs_type != type) { if_printf(sc->hn_ifp, "unexpected NVS resp 0x%08x, " "expect 0x%08x\n", hdr->nvs_type, type); return (NULL); } /* All pass! */ *resplen0 = resplen; return (hdr); } static __inline int hn_nvs_req_send(struct hn_softc *sc, void *req, int reqlen) { return (hn_nvs_send(sc->hn_prichan, VMBUS_CHANPKT_FLAG_NONE, req, reqlen, &hn_nvs_sendctx_none)); } static int hn_nvs_conn_rxbuf(struct hn_softc *sc) { struct vmbus_xact *xact = NULL; struct hn_nvs_rxbuf_conn *conn; const struct hn_nvs_rxbuf_connresp *resp; size_t resp_len; uint32_t status; int error, rxbuf_size; /* * Limit RXBUF size for old NVS. */ if (sc->hn_nvs_ver <= HN_NVS_VERSION_2) rxbuf_size = HN_RXBUF_SIZE_COMPAT; else rxbuf_size = HN_RXBUF_SIZE; /* * Connect the RXBUF GPADL to the primary channel. * * NOTE: * Only primary channel has RXBUF connected to it. Sub-channels * just share this RXBUF. */ error = vmbus_chan_gpadl_connect(sc->hn_prichan, pmap_kextract((vm_offset_t)sc->hn_rxbuf), rxbuf_size, &sc->hn_rxbuf_gpadl); if (error) { if_printf(sc->hn_ifp, "rxbuf gpadl conn failed: %d\n", error); goto cleanup; } /* * Connect RXBUF to NVS. */ xact = vmbus_xact_get(sc->hn_xact, sizeof(*conn)); if (xact == NULL) { if_printf(sc->hn_ifp, "no xact for nvs rxbuf conn\n"); error = ENXIO; goto cleanup; } conn = vmbus_xact_req_data(xact); conn->nvs_type = HN_NVS_TYPE_RXBUF_CONN; conn->nvs_gpadl = sc->hn_rxbuf_gpadl; conn->nvs_sig = HN_NVS_RXBUF_SIG; resp_len = sizeof(*resp); resp = hn_nvs_xact_execute(sc, xact, conn, sizeof(*conn), &resp_len, HN_NVS_TYPE_RXBUF_CONNRESP); if (resp == NULL) { if_printf(sc->hn_ifp, "exec nvs rxbuf conn failed\n"); error = EIO; goto cleanup; } status = resp->nvs_status; vmbus_xact_put(xact); xact = NULL; if (status != HN_NVS_STATUS_OK) { if_printf(sc->hn_ifp, "nvs rxbuf conn failed: %x\n", status); error = EIO; goto cleanup; } sc->hn_flags |= HN_FLAG_RXBUF_CONNECTED; return (0); cleanup: if (xact != NULL) vmbus_xact_put(xact); hn_nvs_disconn_rxbuf(sc); return (error); } static int hn_nvs_conn_chim(struct hn_softc *sc) { struct vmbus_xact *xact = NULL; struct hn_nvs_chim_conn *chim; const struct hn_nvs_chim_connresp *resp; size_t resp_len; uint32_t status, sectsz; int error; /* * Connect chimney sending buffer GPADL to the primary channel. * * NOTE: * Only primary channel has chimney sending buffer connected to it. * Sub-channels just share this chimney sending buffer. */ error = vmbus_chan_gpadl_connect(sc->hn_prichan, pmap_kextract((vm_offset_t)sc->hn_chim), HN_CHIM_SIZE, &sc->hn_chim_gpadl); if (error) { if_printf(sc->hn_ifp, "chim gpadl conn failed: %d\n", error); goto cleanup; } /* * Connect chimney sending buffer to NVS */ xact = vmbus_xact_get(sc->hn_xact, sizeof(*chim)); if (xact == NULL) { if_printf(sc->hn_ifp, "no xact for nvs chim conn\n"); error = ENXIO; goto cleanup; } chim = vmbus_xact_req_data(xact); chim->nvs_type = HN_NVS_TYPE_CHIM_CONN; chim->nvs_gpadl = sc->hn_chim_gpadl; chim->nvs_sig = HN_NVS_CHIM_SIG; resp_len = sizeof(*resp); resp = hn_nvs_xact_execute(sc, xact, chim, sizeof(*chim), &resp_len, HN_NVS_TYPE_CHIM_CONNRESP); if (resp == NULL) { if_printf(sc->hn_ifp, "exec nvs chim conn failed\n"); error = EIO; goto cleanup; } status = resp->nvs_status; sectsz = resp->nvs_sectsz; vmbus_xact_put(xact); xact = NULL; if (status != HN_NVS_STATUS_OK) { if_printf(sc->hn_ifp, "nvs chim conn failed: %x\n", status); error = EIO; goto cleanup; } if (sectsz == 0 || sectsz % sizeof(uint32_t) != 0) { /* * Can't use chimney sending buffer; done! */ if (sectsz == 0) { if_printf(sc->hn_ifp, "zero chimney sending buffer " "section size\n"); } else { if_printf(sc->hn_ifp, "misaligned chimney sending " "buffers, section size: %u\n", sectsz); } sc->hn_chim_szmax = 0; sc->hn_chim_cnt = 0; sc->hn_flags |= HN_FLAG_CHIM_CONNECTED; return (0); } sc->hn_chim_szmax = sectsz; sc->hn_chim_cnt = HN_CHIM_SIZE / sc->hn_chim_szmax; if (HN_CHIM_SIZE % sc->hn_chim_szmax != 0) { if_printf(sc->hn_ifp, "chimney sending sections are " "not properly aligned\n"); } if (sc->hn_chim_cnt % LONG_BIT != 0) { if_printf(sc->hn_ifp, "discard %d chimney sending sections\n", sc->hn_chim_cnt % LONG_BIT); } sc->hn_chim_bmap_cnt = sc->hn_chim_cnt / LONG_BIT; sc->hn_chim_bmap = malloc(sc->hn_chim_bmap_cnt * sizeof(u_long), M_DEVBUF, M_WAITOK | M_ZERO); /* Done! */ sc->hn_flags |= HN_FLAG_CHIM_CONNECTED; if (bootverbose) { if_printf(sc->hn_ifp, "chimney sending buffer %d/%d\n", sc->hn_chim_szmax, sc->hn_chim_cnt); } return (0); cleanup: if (xact != NULL) vmbus_xact_put(xact); hn_nvs_disconn_chim(sc); return (error); } static void hn_nvs_disconn_rxbuf(struct hn_softc *sc) { int error; if (sc->hn_flags & HN_FLAG_RXBUF_CONNECTED) { struct hn_nvs_rxbuf_disconn disconn; /* * Disconnect RXBUF from NVS. */ memset(&disconn, 0, sizeof(disconn)); disconn.nvs_type = HN_NVS_TYPE_RXBUF_DISCONN; disconn.nvs_sig = HN_NVS_RXBUF_SIG; /* NOTE: No response. */ error = hn_nvs_req_send(sc, &disconn, sizeof(disconn)); if (error) { if_printf(sc->hn_ifp, "send nvs rxbuf disconn failed: %d\n", error); /* * Fine for a revoked channel, since the hypervisor * does not drain TX bufring for a revoked channel. */ if (!vmbus_chan_is_revoked(sc->hn_prichan)) sc->hn_flags |= HN_FLAG_RXBUF_REF; } sc->hn_flags &= ~HN_FLAG_RXBUF_CONNECTED; /* * Wait for the hypervisor to receive this NVS request. * * NOTE: * The TX bufring will not be drained by the hypervisor, * if the primary channel is revoked. */ while (!vmbus_chan_tx_empty(sc->hn_prichan) && !vmbus_chan_is_revoked(sc->hn_prichan)) pause("waittx", 1); /* * Linger long enough for NVS to disconnect RXBUF. */ pause("lingtx", (200 * hz) / 1000); } if (vmbus_current_version < VMBUS_VERSION_WIN10 && sc->hn_rxbuf_gpadl != 0) { /* * Disconnect RXBUF from primary channel. */ error = vmbus_chan_gpadl_disconnect(sc->hn_prichan, sc->hn_rxbuf_gpadl); if (error) { if_printf(sc->hn_ifp, "rxbuf gpadl disconn failed: %d\n", error); sc->hn_flags |= HN_FLAG_RXBUF_REF; } sc->hn_rxbuf_gpadl = 0; } } static void hn_nvs_disconn_chim(struct hn_softc *sc) { int error; if (sc->hn_flags & HN_FLAG_CHIM_CONNECTED) { struct hn_nvs_chim_disconn disconn; /* * Disconnect chimney sending buffer from NVS. */ memset(&disconn, 0, sizeof(disconn)); disconn.nvs_type = HN_NVS_TYPE_CHIM_DISCONN; disconn.nvs_sig = HN_NVS_CHIM_SIG; /* NOTE: No response. */ error = hn_nvs_req_send(sc, &disconn, sizeof(disconn)); if (error) { if_printf(sc->hn_ifp, "send nvs chim disconn failed: %d\n", error); /* * Fine for a revoked channel, since the hypervisor * does not drain TX bufring for a revoked channel. */ if (!vmbus_chan_is_revoked(sc->hn_prichan)) sc->hn_flags |= HN_FLAG_CHIM_REF; } sc->hn_flags &= ~HN_FLAG_CHIM_CONNECTED; /* * Wait for the hypervisor to receive this NVS request. * * NOTE: * The TX bufring will not be drained by the hypervisor, * if the primary channel is revoked. */ while (!vmbus_chan_tx_empty(sc->hn_prichan) && !vmbus_chan_is_revoked(sc->hn_prichan)) pause("waittx", 1); /* * Linger long enough for NVS to disconnect chimney * sending buffer. */ pause("lingtx", (200 * hz) / 1000); } if (vmbus_current_version < VMBUS_VERSION_WIN10 && sc->hn_chim_gpadl != 0) { /* * Disconnect chimney sending buffer from primary channel. */ error = vmbus_chan_gpadl_disconnect(sc->hn_prichan, sc->hn_chim_gpadl); if (error) { if_printf(sc->hn_ifp, "chim gpadl disconn failed: %d\n", error); sc->hn_flags |= HN_FLAG_CHIM_REF; } sc->hn_chim_gpadl = 0; } if (sc->hn_chim_bmap != NULL) { free(sc->hn_chim_bmap, M_DEVBUF); sc->hn_chim_bmap = NULL; sc->hn_chim_bmap_cnt = 0; } } static int hn_nvs_doinit(struct hn_softc *sc, uint32_t nvs_ver) { struct vmbus_xact *xact; struct hn_nvs_init *init; const struct hn_nvs_init_resp *resp; size_t resp_len; uint32_t status; xact = vmbus_xact_get(sc->hn_xact, sizeof(*init)); if (xact == NULL) { if_printf(sc->hn_ifp, "no xact for nvs init\n"); return (ENXIO); } init = vmbus_xact_req_data(xact); init->nvs_type = HN_NVS_TYPE_INIT; init->nvs_ver_min = nvs_ver; init->nvs_ver_max = nvs_ver; resp_len = sizeof(*resp); resp = hn_nvs_xact_execute(sc, xact, init, sizeof(*init), &resp_len, HN_NVS_TYPE_INIT_RESP); if (resp == NULL) { if_printf(sc->hn_ifp, "exec init failed\n"); vmbus_xact_put(xact); return (EIO); } status = resp->nvs_status; vmbus_xact_put(xact); if (status != HN_NVS_STATUS_OK) { if (bootverbose) { /* * Caller may try another NVS version, and will log * error if there are no more NVS versions to try, * so don't bark out loud here. */ if_printf(sc->hn_ifp, "nvs init failed for ver 0x%x\n", nvs_ver); } return (EINVAL); } return (0); } /* * Configure MTU and enable VLAN. */ static int hn_nvs_conf_ndis(struct hn_softc *sc, int mtu) { struct hn_nvs_ndis_conf conf; int error; memset(&conf, 0, sizeof(conf)); conf.nvs_type = HN_NVS_TYPE_NDIS_CONF; conf.nvs_mtu = mtu + ETHER_HDR_LEN; conf.nvs_caps = HN_NVS_NDIS_CONF_VLAN; if (sc->hn_nvs_ver >= HN_NVS_VERSION_5) conf.nvs_caps |= HN_NVS_NDIS_CONF_SRIOV; if (sc->hn_nvs_ver >= HN_NVS_VERSION_61) conf.nvs_caps |= HN_NVS_NDIS_CONF_RSC; /* NOTE: No response. */ error = hn_nvs_req_send(sc, &conf, sizeof(conf)); if (error) { if_printf(sc->hn_ifp, "send nvs ndis conf failed: %d\n", error); return (error); } if (bootverbose) if_printf(sc->hn_ifp, "nvs ndis conf done\n"); sc->hn_caps |= HN_CAP_MTU | HN_CAP_VLAN; return (0); } static int hn_nvs_init_ndis(struct hn_softc *sc) { struct hn_nvs_ndis_init ndis; int error; memset(&ndis, 0, sizeof(ndis)); ndis.nvs_type = HN_NVS_TYPE_NDIS_INIT; ndis.nvs_ndis_major = HN_NDIS_VERSION_MAJOR(sc->hn_ndis_ver); ndis.nvs_ndis_minor = HN_NDIS_VERSION_MINOR(sc->hn_ndis_ver); /* NOTE: No response. */ error = hn_nvs_req_send(sc, &ndis, sizeof(ndis)); if (error) if_printf(sc->hn_ifp, "send nvs ndis init failed: %d\n", error); return (error); } static int hn_nvs_init(struct hn_softc *sc) { int i, error; if (device_is_attached(sc->hn_dev)) { /* * NVS version and NDIS version MUST NOT be changed. */ if (bootverbose) { if_printf(sc->hn_ifp, "reinit NVS version 0x%x, " "NDIS version %u.%u\n", sc->hn_nvs_ver, HN_NDIS_VERSION_MAJOR(sc->hn_ndis_ver), HN_NDIS_VERSION_MINOR(sc->hn_ndis_ver)); } error = hn_nvs_doinit(sc, sc->hn_nvs_ver); if (error) { if_printf(sc->hn_ifp, "reinit NVS version 0x%x " "failed: %d\n", sc->hn_nvs_ver, error); return (error); } goto done; } /* * Find the supported NVS version and set NDIS version accordingly. */ for (i = 0; i < nitems(hn_nvs_version); ++i) { error = hn_nvs_doinit(sc, hn_nvs_version[i]); if (!error) { sc->hn_nvs_ver = hn_nvs_version[i]; /* Set NDIS version according to NVS version. */ sc->hn_ndis_ver = HN_NDIS_VERSION_6_30; if (sc->hn_nvs_ver <= HN_NVS_VERSION_4) sc->hn_ndis_ver = HN_NDIS_VERSION_6_1; if (bootverbose) { if_printf(sc->hn_ifp, "NVS version 0x%x, " "NDIS version %u.%u\n", sc->hn_nvs_ver, HN_NDIS_VERSION_MAJOR(sc->hn_ndis_ver), HN_NDIS_VERSION_MINOR(sc->hn_ndis_ver)); } goto done; } } if_printf(sc->hn_ifp, "no NVS available\n"); return (ENXIO); done: if (sc->hn_nvs_ver >= HN_NVS_VERSION_5) sc->hn_caps |= HN_CAP_HASHVAL; return (0); } int hn_nvs_attach(struct hn_softc *sc, int mtu) { int error; if (hyperv_ver_major >= 10) { /* UDP 4-tuple hash is enforced. */ sc->hn_caps |= HN_CAP_UDPHASH; } /* * Initialize NVS. */ error = hn_nvs_init(sc); if (error) return (error); if (sc->hn_nvs_ver >= HN_NVS_VERSION_2) { /* * Configure NDIS before initializing it. */ error = hn_nvs_conf_ndis(sc, mtu); if (error) return (error); } /* * Initialize NDIS. */ error = hn_nvs_init_ndis(sc); if (error) return (error); /* * Connect RXBUF. */ error = hn_nvs_conn_rxbuf(sc); if (error) return (error); /* * Connect chimney sending buffer. */ error = hn_nvs_conn_chim(sc); if (error) { hn_nvs_disconn_rxbuf(sc); return (error); } return (0); } void hn_nvs_detach(struct hn_softc *sc) { /* NOTE: there are no requests to stop the NVS. */ hn_nvs_disconn_rxbuf(sc); hn_nvs_disconn_chim(sc); } void hn_nvs_sent_xact(struct hn_nvs_sendctx *sndc, struct hn_softc *sc __unused, struct vmbus_channel *chan __unused, const void *data, int dlen) { vmbus_xact_wakeup(sndc->hn_cbarg, data, dlen); } static void hn_nvs_sent_none(struct hn_nvs_sendctx *sndc __unused, struct hn_softc *sc __unused, struct vmbus_channel *chan __unused, const void *data __unused, int dlen __unused) { /* EMPTY */ } int hn_nvs_alloc_subchans(struct hn_softc *sc, int *nsubch0) { struct vmbus_xact *xact; struct hn_nvs_subch_req *req; const struct hn_nvs_subch_resp *resp; int error, nsubch_req; uint32_t nsubch; size_t resp_len; nsubch_req = *nsubch0; KASSERT(nsubch_req > 0, ("invalid # of sub-channels %d", nsubch_req)); xact = vmbus_xact_get(sc->hn_xact, sizeof(*req)); if (xact == NULL) { if_printf(sc->hn_ifp, "no xact for nvs subch alloc\n"); return (ENXIO); } req = vmbus_xact_req_data(xact); req->nvs_type = HN_NVS_TYPE_SUBCH_REQ; req->nvs_op = HN_NVS_SUBCH_OP_ALLOC; req->nvs_nsubch = nsubch_req; resp_len = sizeof(*resp); resp = hn_nvs_xact_execute(sc, xact, req, sizeof(*req), &resp_len, HN_NVS_TYPE_SUBCH_RESP); if (resp == NULL) { if_printf(sc->hn_ifp, "exec nvs subch alloc failed\n"); error = EIO; goto done; } if (resp->nvs_status != HN_NVS_STATUS_OK) { if_printf(sc->hn_ifp, "nvs subch alloc failed: %x\n", resp->nvs_status); error = EIO; goto done; } nsubch = resp->nvs_nsubch; if (nsubch > nsubch_req) { if_printf(sc->hn_ifp, "%u subchans are allocated, " "requested %d\n", nsubch, nsubch_req); nsubch = nsubch_req; } *nsubch0 = nsubch; error = 0; done: vmbus_xact_put(xact); return (error); } int hn_nvs_send_rndis_ctrl(struct vmbus_channel *chan, struct hn_nvs_sendctx *sndc, struct vmbus_gpa *gpa, int gpa_cnt) { return hn_nvs_send_rndis_sglist(chan, HN_NVS_RNDIS_MTYPE_CTRL, sndc, gpa, gpa_cnt); } void hn_nvs_set_datapath(struct hn_softc *sc, uint32_t path) { struct hn_nvs_datapath dp; memset(&dp, 0, sizeof(dp)); dp.nvs_type = HN_NVS_TYPE_SET_DATAPATH; dp.nvs_active_path = path; hn_nvs_req_send(sc, &dp, sizeof(dp)); }