/* * Copyright (c) 2011-2018 The DragonFly Project. All rights reserved. * * This code is derived from software contributed to The DragonFly Project * by Matthew Dillon * by Daniel Flores (GSOC 2013 - mentored by Matthew Dillon, compression) * * 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, 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. * 3. Neither the name of The DragonFly Project nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific, prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``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 * COPYRIGHT HOLDERS OR CONTRIBUTORS 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. */ #include #include #include #include #include #include #include #include #include "hammer2.h" static int hammer2_rcvdmsg(kdmsg_msg_t *msg); static void hammer2_autodmsg(kdmsg_msg_t *msg); static int hammer2_lnk_span_reply(kdmsg_state_t *state, kdmsg_msg_t *msg); void hammer2_iocom_init(hammer2_dev_t *hmp) { /* * Automatic LNK_CONN * Automatic LNK_SPAN handling * No automatic LNK_SPAN generation (we generate multiple spans * ourselves). */ kdmsg_iocom_init(&hmp->iocom, hmp, KDMSG_IOCOMF_AUTOCONN | KDMSG_IOCOMF_AUTORXSPAN, hmp->mmsg, hammer2_rcvdmsg); } void hammer2_iocom_uninit(hammer2_dev_t *hmp) { /* XXX chain depend deadlck? */ if (hmp->iocom.mmsg) kdmsg_iocom_uninit(&hmp->iocom); } /* * Reconnect using the passed file pointer. The caller must ref the * fp for us. */ void hammer2_cluster_reconnect(hammer2_dev_t *hmp, struct file *fp) { /* * Closes old comm descriptor, kills threads, cleans up * states, then installs the new descriptor and creates * new threads. */ kdmsg_iocom_reconnect(&hmp->iocom, fp, "hammer2"); /* * Setup LNK_CONN fields for autoinitiated state machine. LNK_CONN * does not have to be unique. peer_id can be used to filter incoming * LNK_SPANs automatically if desired (though we still need to check). * peer_label typically identifies who we are and is not a filter. * * Since we will be initiating multiple LNK_SPANs we cannot use * AUTOTXSPAN, but we do use AUTORXSPAN so kdmsg tracks received * LNK_SPANs, and we simply monitor those messages. */ bzero(&hmp->iocom.auto_lnk_conn.peer_id, sizeof(hmp->iocom.auto_lnk_conn.peer_id)); /* hmp->iocom.auto_lnk_conn.peer_id = hmp->voldata.fsid; */ hmp->iocom.auto_lnk_conn.proto_version = DMSG_SPAN_PROTO_1; #if 0 hmp->iocom.auto_lnk_conn.peer_type = hmp->voldata.peer_type; #endif hmp->iocom.auto_lnk_conn.peer_type = DMSG_PEER_HAMMER2; /* * We just want to receive LNK_SPANs related to HAMMER2 matching * peer_id. */ hmp->iocom.auto_lnk_conn.peer_mask = 1LLU << DMSG_PEER_HAMMER2; #if 0 switch (ipdata->meta.pfs_type) { case DMSG_PFSTYPE_CLIENT: hmp->iocom.auto_lnk_conn.peer_mask &= ~(1LLU << DMSG_PFSTYPE_CLIENT); break; default: break; } #endif bzero(&hmp->iocom.auto_lnk_conn.peer_label, sizeof(hmp->iocom.auto_lnk_conn.peer_label)); ksnprintf(hmp->iocom.auto_lnk_conn.peer_label, sizeof(hmp->iocom.auto_lnk_conn.peer_label), "%s/%s", hostname, "hammer2-mount"); kdmsg_iocom_autoinitiate(&hmp->iocom, hammer2_autodmsg); } static int hammer2_rcvdmsg(kdmsg_msg_t *msg) { kprintf("RCVMSG %08x\n", msg->tcmd); switch(msg->tcmd) { case DMSG_DBG_SHELL: /* * (non-transaction) * Execute shell command (not supported atm) */ kdmsg_msg_result(msg, DMSG_ERR_NOSUPP); break; case DMSG_DBG_SHELL | DMSGF_REPLY: /* * (non-transaction) */ if (msg->aux_data) { msg->aux_data[msg->aux_size - 1] = 0; kprintf("HAMMER2 DBG: %s\n", msg->aux_data); } break; default: /* * Unsupported message received. We only need to * reply if it's a transaction in order to close our end. * Ignore any one-way messages or any further messages * associated with the transaction. * * NOTE: This case also includes DMSG_LNK_ERROR messages * which might be one-way, replying to those would * cause an infinite ping-pong. */ if (msg->any.head.cmd & DMSGF_CREATE) kdmsg_msg_reply(msg, DMSG_ERR_NOSUPP); break; } return(0); } /* * This function is called after KDMSG has automatically handled processing * of a LNK layer message (typically CONN or SPAN). * * We trampoline off LNK_CONN (link level connection advertising the presence * of H2 partitions) to generate LNK_HAMMER2_VOLCONF's from the vol->copyinfo[] * array in the volume header, and to generate LNK_SPANs advertising all PFSs * available from that volume. Currently the VOLCONFs go through the motions * but are otherwise ignored. * * We collect LNK_SPAN state for hammer2 peers and turn those into 'remote' * PFSs which look similar to local (direct storage) PFSs. These PFSs are * merged with local PFSs and may be mounted locally or merged with other * elements that might or might not include local cluster components (local * PFSs). If you wish to ensure that a mandatory PFS rendezvous is present * even without network connectivity you would normally just create a dummy * local PFS configured as PFSTYPE_CACHE (that can be small and ram-backed). * * Remote PFSs are object-based and operate using an (inode,key) DMSG API * instead of hammer2_chain's + direct I/O. A high level XOP API is employed * to retain integrity across operations such as rename()s. */ static void hammer2_update_spans(hammer2_dev_t *hmp, kdmsg_state_t *state); static void hammer2_autodmsg(kdmsg_msg_t *msg) { hammer2_dev_t *hmp = msg->state->iocom->handle; int copyid; switch(msg->tcmd) { case DMSG_LNK_CONN | DMSGF_CREATE: case DMSG_LNK_CONN | DMSGF_CREATE | DMSGF_DELETE: case DMSG_LNK_CONN | DMSGF_DELETE: /* * NOTE: kern_dmsg will automatically issue a result, * leaving the transaction open, for CREATEs, * and will automatically issue a terminating reply * for DELETEs. */ break; case DMSG_LNK_CONN | DMSGF_CREATE | DMSGF_REPLY: case DMSG_LNK_CONN | DMSGF_CREATE | DMSGF_DELETE | DMSGF_REPLY: /* * Do a volume configuration dump when we receive a reply * to our auto-CONN (typically leaving the transaction open). */ if (msg->any.head.cmd & DMSGF_CREATE) { kprintf("HAMMER2: VOLDATA DUMP\n"); /* * Dump the configuration stored in the volume header. * This will typically be import/export access rights, * master encryption keys (encrypted), etc. */ hammer2_voldata_lock(hmp); copyid = 0; while (copyid < HAMMER2_COPYID_COUNT) { if (hmp->voldata.copyinfo[copyid].copyid) hammer2_volconf_update(hmp, copyid); ++copyid; } hammer2_voldata_unlock(hmp); kprintf("HAMMER2: INITIATE SPANs\n"); hammer2_update_spans(hmp, msg->state); } if ((msg->any.head.cmd & DMSGF_DELETE) && msg->state && (msg->state->txcmd & DMSGF_DELETE) == 0) { kprintf("HAMMER2: CONN WAS TERMINATED\n"); } break; case DMSG_LNK_SPAN | DMSGF_CREATE: /* * Monitor SPANs and issue a result, leaving the SPAN open * if it is something we can use now or in the future. */ if (msg->any.lnk_span.peer_type != DMSG_PEER_HAMMER2) { kdmsg_msg_reply(msg, 0); break; } if (msg->any.lnk_span.proto_version != DMSG_SPAN_PROTO_1) { kdmsg_msg_reply(msg, 0); break; } DMSG_TERMINATE_STRING(msg->any.lnk_span.peer_label); if (hammer2_debug & 0x0100) { kprintf("H2 +RXSPAN cmd=%08x (%-20s) cl=", msg->any.head.cmd, msg->any.lnk_span.peer_label); printf_uuid(&msg->any.lnk_span.peer_id); kprintf(" fs="); printf_uuid(&msg->any.lnk_span.pfs_id); kprintf(" type=%d\n", msg->any.lnk_span.pfs_type); } kdmsg_msg_result(msg, 0); break; case DMSG_LNK_SPAN | DMSGF_DELETE: /* * NOTE: kern_dmsg will automatically reply to DELETEs. */ if (hammer2_debug & 0x0100) kprintf("H2 -RXSPAN\n"); break; default: break; } } /* * Update LNK_SPAN state */ static void hammer2_update_spans(hammer2_dev_t *hmp, kdmsg_state_t *state) { const hammer2_inode_data_t *ripdata; hammer2_chain_t *parent; hammer2_chain_t *chain; hammer2_pfs_t *spmp; hammer2_key_t key_next; kdmsg_msg_t *rmsg; size_t name_len; int error; /* * Lookup mount point under the media-localized super-root. * * cluster->pmp will incorrectly point to spmp and must be fixed * up later on. */ spmp = hmp->spmp; hammer2_inode_lock(spmp->iroot, 0); error = 0; parent = hammer2_inode_chain(spmp->iroot, 0, HAMMER2_RESOLVE_ALWAYS); chain = NULL; if (parent == NULL) goto done; chain = hammer2_chain_lookup(&parent, &key_next, HAMMER2_KEY_MIN, HAMMER2_KEY_MAX, &error, 0); while (chain) { if (chain->bref.type != HAMMER2_BREF_TYPE_INODE) continue; ripdata = &chain->data->ipdata; #if 0 kprintf("UPDATE SPANS: %s\n", ripdata->filename); #endif rmsg = kdmsg_msg_alloc(&hmp->iocom.state0, DMSG_LNK_SPAN | DMSGF_CREATE, hammer2_lnk_span_reply, NULL); rmsg->any.lnk_span.peer_id = ripdata->meta.pfs_clid; rmsg->any.lnk_span.pfs_id = ripdata->meta.pfs_fsid; rmsg->any.lnk_span.pfs_type = ripdata->meta.pfs_type; rmsg->any.lnk_span.peer_type = DMSG_PEER_HAMMER2; rmsg->any.lnk_span.proto_version = DMSG_SPAN_PROTO_1; name_len = ripdata->meta.name_len; if (name_len >= sizeof(rmsg->any.lnk_span.peer_label)) name_len = sizeof(rmsg->any.lnk_span.peer_label) - 1; bcopy(ripdata->filename, rmsg->any.lnk_span.peer_label, name_len); kdmsg_msg_write(rmsg); chain = hammer2_chain_next(&parent, chain, &key_next, key_next, HAMMER2_KEY_MAX, &error, 0); } hammer2_inode_unlock(spmp->iroot); /* XXX do something with error */ done: if (chain) { hammer2_chain_unlock(chain); hammer2_chain_drop(chain); } if (parent) { hammer2_chain_unlock(parent); hammer2_chain_drop(parent); } } static int hammer2_lnk_span_reply(kdmsg_state_t *state, kdmsg_msg_t *msg) { if ((state->txcmd & DMSGF_DELETE) == 0 && (msg->any.head.cmd & DMSGF_DELETE)) { kdmsg_msg_reply(msg, 0); } return 0; } /* * Volume configuration updates are passed onto the userland service * daemon via the open LNK_CONN transaction. */ void hammer2_volconf_update(hammer2_dev_t *hmp, int index) { kdmsg_msg_t *msg; /* XXX interlock against connection state termination */ kprintf("volconf update %p\n", hmp->iocom.conn_state); if (hmp->iocom.conn_state) { kprintf("TRANSMIT VOLCONF VIA OPEN CONN TRANSACTION\n"); msg = kdmsg_msg_alloc(hmp->iocom.conn_state, DMSG_LNK_HAMMER2_VOLCONF, NULL, NULL); H2_LNK_VOLCONF(msg)->copy = hmp->voldata.copyinfo[index]; H2_LNK_VOLCONF(msg)->mediaid = hmp->voldata.fsid; H2_LNK_VOLCONF(msg)->index = index; kdmsg_msg_write(msg); } }