1 /* 2 * Incremental bus scan, based on bus topology 3 * 4 * Copyright (C) 2004-2006 Kristian Hoegsberg <krh@bitplanet.net> 5 * 6 * This program is free software; you can redistribute it and/or modify 7 * it under the terms of the GNU General Public License as published by 8 * the Free Software Foundation; either version 2 of the License, or 9 * (at your option) any later version. 10 * 11 * This program is distributed in the hope that it will be useful, 12 * but WITHOUT ANY WARRANTY; without even the implied warranty of 13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14 * GNU General Public License for more details. 15 * 16 * You should have received a copy of the GNU General Public License 17 * along with this program; if not, write to the Free Software Foundation, 18 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. 19 */ 20 21 #include <linux/bug.h> 22 #include <linux/errno.h> 23 #include <linux/firewire.h> 24 #include <linux/firewire-constants.h> 25 #include <linux/jiffies.h> 26 #include <linux/kernel.h> 27 #include <linux/list.h> 28 #include <linux/module.h> 29 #include <linux/slab.h> 30 #include <linux/spinlock.h> 31 32 #include <asm/atomic.h> 33 #include <asm/byteorder.h> 34 #include <asm/system.h> 35 36 #include "core.h" 37 38 #define SELF_ID_PHY_ID(q) (((q) >> 24) & 0x3f) 39 #define SELF_ID_EXTENDED(q) (((q) >> 23) & 0x01) 40 #define SELF_ID_LINK_ON(q) (((q) >> 22) & 0x01) 41 #define SELF_ID_GAP_COUNT(q) (((q) >> 16) & 0x3f) 42 #define SELF_ID_PHY_SPEED(q) (((q) >> 14) & 0x03) 43 #define SELF_ID_CONTENDER(q) (((q) >> 11) & 0x01) 44 #define SELF_ID_PHY_INITIATOR(q) (((q) >> 1) & 0x01) 45 #define SELF_ID_MORE_PACKETS(q) (((q) >> 0) & 0x01) 46 47 #define SELF_ID_EXT_SEQUENCE(q) (((q) >> 20) & 0x07) 48 49 #define SELFID_PORT_CHILD 0x3 50 #define SELFID_PORT_PARENT 0x2 51 #define SELFID_PORT_NCONN 0x1 52 #define SELFID_PORT_NONE 0x0 53 54 static u32 *count_ports(u32 *sid, int *total_port_count, int *child_port_count) 55 { 56 u32 q; 57 int port_type, shift, seq; 58 59 *total_port_count = 0; 60 *child_port_count = 0; 61 62 shift = 6; 63 q = *sid; 64 seq = 0; 65 66 while (1) { 67 port_type = (q >> shift) & 0x03; 68 switch (port_type) { 69 case SELFID_PORT_CHILD: 70 (*child_port_count)++; 71 case SELFID_PORT_PARENT: 72 case SELFID_PORT_NCONN: 73 (*total_port_count)++; 74 case SELFID_PORT_NONE: 75 break; 76 } 77 78 shift -= 2; 79 if (shift == 0) { 80 if (!SELF_ID_MORE_PACKETS(q)) 81 return sid + 1; 82 83 shift = 16; 84 sid++; 85 q = *sid; 86 87 /* 88 * Check that the extra packets actually are 89 * extended self ID packets and that the 90 * sequence numbers in the extended self ID 91 * packets increase as expected. 92 */ 93 94 if (!SELF_ID_EXTENDED(q) || 95 seq != SELF_ID_EXT_SEQUENCE(q)) 96 return NULL; 97 98 seq++; 99 } 100 } 101 } 102 103 static int get_port_type(u32 *sid, int port_index) 104 { 105 int index, shift; 106 107 index = (port_index + 5) / 8; 108 shift = 16 - ((port_index + 5) & 7) * 2; 109 return (sid[index] >> shift) & 0x03; 110 } 111 112 static struct fw_node *fw_node_create(u32 sid, int port_count, int color) 113 { 114 struct fw_node *node; 115 116 node = kzalloc(sizeof(*node) + port_count * sizeof(node->ports[0]), 117 GFP_ATOMIC); 118 if (node == NULL) 119 return NULL; 120 121 node->color = color; 122 node->node_id = LOCAL_BUS | SELF_ID_PHY_ID(sid); 123 node->link_on = SELF_ID_LINK_ON(sid); 124 node->phy_speed = SELF_ID_PHY_SPEED(sid); 125 node->initiated_reset = SELF_ID_PHY_INITIATOR(sid); 126 node->port_count = port_count; 127 128 atomic_set(&node->ref_count, 1); 129 INIT_LIST_HEAD(&node->link); 130 131 return node; 132 } 133 134 /* 135 * Compute the maximum hop count for this node and it's children. The 136 * maximum hop count is the maximum number of connections between any 137 * two nodes in the subtree rooted at this node. We need this for 138 * setting the gap count. As we build the tree bottom up in 139 * build_tree() below, this is fairly easy to do: for each node we 140 * maintain the max hop count and the max depth, ie the number of hops 141 * to the furthest leaf. Computing the max hop count breaks down into 142 * two cases: either the path goes through this node, in which case 143 * the hop count is the sum of the two biggest child depths plus 2. 144 * Or it could be the case that the max hop path is entirely 145 * containted in a child tree, in which case the max hop count is just 146 * the max hop count of this child. 147 */ 148 static void update_hop_count(struct fw_node *node) 149 { 150 int depths[2] = { -1, -1 }; 151 int max_child_hops = 0; 152 int i; 153 154 for (i = 0; i < node->port_count; i++) { 155 if (node->ports[i] == NULL) 156 continue; 157 158 if (node->ports[i]->max_hops > max_child_hops) 159 max_child_hops = node->ports[i]->max_hops; 160 161 if (node->ports[i]->max_depth > depths[0]) { 162 depths[1] = depths[0]; 163 depths[0] = node->ports[i]->max_depth; 164 } else if (node->ports[i]->max_depth > depths[1]) 165 depths[1] = node->ports[i]->max_depth; 166 } 167 168 node->max_depth = depths[0] + 1; 169 node->max_hops = max(max_child_hops, depths[0] + depths[1] + 2); 170 } 171 172 static inline struct fw_node *fw_node(struct list_head *l) 173 { 174 return list_entry(l, struct fw_node, link); 175 } 176 177 /** 178 * build_tree - Build the tree representation of the topology 179 * @self_ids: array of self IDs to create the tree from 180 * @self_id_count: the length of the self_ids array 181 * @local_id: the node ID of the local node 182 * 183 * This function builds the tree representation of the topology given 184 * by the self IDs from the latest bus reset. During the construction 185 * of the tree, the function checks that the self IDs are valid and 186 * internally consistent. On success this function returns the 187 * fw_node corresponding to the local card otherwise NULL. 188 */ 189 static struct fw_node *build_tree(struct fw_card *card, 190 u32 *sid, int self_id_count) 191 { 192 struct fw_node *node, *child, *local_node, *irm_node; 193 struct list_head stack, *h; 194 u32 *next_sid, *end, q; 195 int i, port_count, child_port_count, phy_id, parent_count, stack_depth; 196 int gap_count; 197 bool beta_repeaters_present; 198 199 local_node = NULL; 200 node = NULL; 201 INIT_LIST_HEAD(&stack); 202 stack_depth = 0; 203 end = sid + self_id_count; 204 phy_id = 0; 205 irm_node = NULL; 206 gap_count = SELF_ID_GAP_COUNT(*sid); 207 beta_repeaters_present = false; 208 209 while (sid < end) { 210 next_sid = count_ports(sid, &port_count, &child_port_count); 211 212 if (next_sid == NULL) { 213 fw_error("Inconsistent extended self IDs.\n"); 214 return NULL; 215 } 216 217 q = *sid; 218 if (phy_id != SELF_ID_PHY_ID(q)) { 219 fw_error("PHY ID mismatch in self ID: %d != %d.\n", 220 phy_id, SELF_ID_PHY_ID(q)); 221 return NULL; 222 } 223 224 if (child_port_count > stack_depth) { 225 fw_error("Topology stack underflow\n"); 226 return NULL; 227 } 228 229 /* 230 * Seek back from the top of our stack to find the 231 * start of the child nodes for this node. 232 */ 233 for (i = 0, h = &stack; i < child_port_count; i++) 234 h = h->prev; 235 /* 236 * When the stack is empty, this yields an invalid value, 237 * but that pointer will never be dereferenced. 238 */ 239 child = fw_node(h); 240 241 node = fw_node_create(q, port_count, card->color); 242 if (node == NULL) { 243 fw_error("Out of memory while building topology.\n"); 244 return NULL; 245 } 246 247 if (phy_id == (card->node_id & 0x3f)) 248 local_node = node; 249 250 if (SELF_ID_CONTENDER(q)) 251 irm_node = node; 252 253 parent_count = 0; 254 255 for (i = 0; i < port_count; i++) { 256 switch (get_port_type(sid, i)) { 257 case SELFID_PORT_PARENT: 258 /* 259 * Who's your daddy? We dont know the 260 * parent node at this time, so we 261 * temporarily abuse node->color for 262 * remembering the entry in the 263 * node->ports array where the parent 264 * node should be. Later, when we 265 * handle the parent node, we fix up 266 * the reference. 267 */ 268 parent_count++; 269 node->color = i; 270 break; 271 272 case SELFID_PORT_CHILD: 273 node->ports[i] = child; 274 /* 275 * Fix up parent reference for this 276 * child node. 277 */ 278 child->ports[child->color] = node; 279 child->color = card->color; 280 child = fw_node(child->link.next); 281 break; 282 } 283 } 284 285 /* 286 * Check that the node reports exactly one parent 287 * port, except for the root, which of course should 288 * have no parents. 289 */ 290 if ((next_sid == end && parent_count != 0) || 291 (next_sid < end && parent_count != 1)) { 292 fw_error("Parent port inconsistency for node %d: " 293 "parent_count=%d\n", phy_id, parent_count); 294 return NULL; 295 } 296 297 /* Pop the child nodes off the stack and push the new node. */ 298 __list_del(h->prev, &stack); 299 list_add_tail(&node->link, &stack); 300 stack_depth += 1 - child_port_count; 301 302 if (node->phy_speed == SCODE_BETA && 303 parent_count + child_port_count > 1) 304 beta_repeaters_present = true; 305 306 /* 307 * If PHYs report different gap counts, set an invalid count 308 * which will force a gap count reconfiguration and a reset. 309 */ 310 if (SELF_ID_GAP_COUNT(q) != gap_count) 311 gap_count = 0; 312 313 update_hop_count(node); 314 315 sid = next_sid; 316 phy_id++; 317 } 318 319 card->root_node = node; 320 card->irm_node = irm_node; 321 card->gap_count = gap_count; 322 card->beta_repeaters_present = beta_repeaters_present; 323 324 return local_node; 325 } 326 327 typedef void (*fw_node_callback_t)(struct fw_card * card, 328 struct fw_node * node, 329 struct fw_node * parent); 330 331 static void for_each_fw_node(struct fw_card *card, struct fw_node *root, 332 fw_node_callback_t callback) 333 { 334 struct list_head list; 335 struct fw_node *node, *next, *child, *parent; 336 int i; 337 338 INIT_LIST_HEAD(&list); 339 340 fw_node_get(root); 341 list_add_tail(&root->link, &list); 342 parent = NULL; 343 list_for_each_entry(node, &list, link) { 344 node->color = card->color; 345 346 for (i = 0; i < node->port_count; i++) { 347 child = node->ports[i]; 348 if (!child) 349 continue; 350 if (child->color == card->color) 351 parent = child; 352 else { 353 fw_node_get(child); 354 list_add_tail(&child->link, &list); 355 } 356 } 357 358 callback(card, node, parent); 359 } 360 361 list_for_each_entry_safe(node, next, &list, link) 362 fw_node_put(node); 363 } 364 365 static void report_lost_node(struct fw_card *card, 366 struct fw_node *node, struct fw_node *parent) 367 { 368 fw_node_event(card, node, FW_NODE_DESTROYED); 369 fw_node_put(node); 370 371 /* Topology has changed - reset bus manager retry counter */ 372 card->bm_retries = 0; 373 } 374 375 static void report_found_node(struct fw_card *card, 376 struct fw_node *node, struct fw_node *parent) 377 { 378 int b_path = (node->phy_speed == SCODE_BETA); 379 380 if (parent != NULL) { 381 /* min() macro doesn't work here with gcc 3.4 */ 382 node->max_speed = parent->max_speed < node->phy_speed ? 383 parent->max_speed : node->phy_speed; 384 node->b_path = parent->b_path && b_path; 385 } else { 386 node->max_speed = node->phy_speed; 387 node->b_path = b_path; 388 } 389 390 fw_node_event(card, node, FW_NODE_CREATED); 391 392 /* Topology has changed - reset bus manager retry counter */ 393 card->bm_retries = 0; 394 } 395 396 void fw_destroy_nodes(struct fw_card *card) 397 { 398 unsigned long flags; 399 400 spin_lock_irqsave(&card->lock, flags); 401 card->color++; 402 if (card->local_node != NULL) 403 for_each_fw_node(card, card->local_node, report_lost_node); 404 card->local_node = NULL; 405 spin_unlock_irqrestore(&card->lock, flags); 406 } 407 408 static void move_tree(struct fw_node *node0, struct fw_node *node1, int port) 409 { 410 struct fw_node *tree; 411 int i; 412 413 tree = node1->ports[port]; 414 node0->ports[port] = tree; 415 for (i = 0; i < tree->port_count; i++) { 416 if (tree->ports[i] == node1) { 417 tree->ports[i] = node0; 418 break; 419 } 420 } 421 } 422 423 /** 424 * update_tree - compare the old topology tree for card with the new 425 * one specified by root. Queue the nodes and mark them as either 426 * found, lost or updated. Update the nodes in the card topology tree 427 * as we go. 428 */ 429 static void update_tree(struct fw_card *card, struct fw_node *root) 430 { 431 struct list_head list0, list1; 432 struct fw_node *node0, *node1, *next1; 433 int i, event; 434 435 INIT_LIST_HEAD(&list0); 436 list_add_tail(&card->local_node->link, &list0); 437 INIT_LIST_HEAD(&list1); 438 list_add_tail(&root->link, &list1); 439 440 node0 = fw_node(list0.next); 441 node1 = fw_node(list1.next); 442 443 while (&node0->link != &list0) { 444 WARN_ON(node0->port_count != node1->port_count); 445 446 if (node0->link_on && !node1->link_on) 447 event = FW_NODE_LINK_OFF; 448 else if (!node0->link_on && node1->link_on) 449 event = FW_NODE_LINK_ON; 450 else if (node1->initiated_reset && node1->link_on) 451 event = FW_NODE_INITIATED_RESET; 452 else 453 event = FW_NODE_UPDATED; 454 455 node0->node_id = node1->node_id; 456 node0->color = card->color; 457 node0->link_on = node1->link_on; 458 node0->initiated_reset = node1->initiated_reset; 459 node0->max_hops = node1->max_hops; 460 node1->color = card->color; 461 fw_node_event(card, node0, event); 462 463 if (card->root_node == node1) 464 card->root_node = node0; 465 if (card->irm_node == node1) 466 card->irm_node = node0; 467 468 for (i = 0; i < node0->port_count; i++) { 469 if (node0->ports[i] && node1->ports[i]) { 470 /* 471 * This port didn't change, queue the 472 * connected node for further 473 * investigation. 474 */ 475 if (node0->ports[i]->color == card->color) 476 continue; 477 list_add_tail(&node0->ports[i]->link, &list0); 478 list_add_tail(&node1->ports[i]->link, &list1); 479 } else if (node0->ports[i]) { 480 /* 481 * The nodes connected here were 482 * unplugged; unref the lost nodes and 483 * queue FW_NODE_LOST callbacks for 484 * them. 485 */ 486 487 for_each_fw_node(card, node0->ports[i], 488 report_lost_node); 489 node0->ports[i] = NULL; 490 } else if (node1->ports[i]) { 491 /* 492 * One or more node were connected to 493 * this port. Move the new nodes into 494 * the tree and queue FW_NODE_CREATED 495 * callbacks for them. 496 */ 497 move_tree(node0, node1, i); 498 for_each_fw_node(card, node0->ports[i], 499 report_found_node); 500 } 501 } 502 503 node0 = fw_node(node0->link.next); 504 next1 = fw_node(node1->link.next); 505 fw_node_put(node1); 506 node1 = next1; 507 } 508 } 509 510 static void update_topology_map(struct fw_card *card, 511 u32 *self_ids, int self_id_count) 512 { 513 int node_count = (card->root_node->node_id & 0x3f) + 1; 514 __be32 *map = card->topology_map; 515 516 *map++ = cpu_to_be32((self_id_count + 2) << 16); 517 *map++ = cpu_to_be32(be32_to_cpu(card->topology_map[1]) + 1); 518 *map++ = cpu_to_be32((node_count << 16) | self_id_count); 519 520 while (self_id_count--) 521 *map++ = cpu_to_be32p(self_ids++); 522 523 fw_compute_block_crc(card->topology_map); 524 } 525 526 void fw_core_handle_bus_reset(struct fw_card *card, int node_id, int generation, 527 int self_id_count, u32 *self_ids) 528 { 529 struct fw_node *local_node; 530 unsigned long flags; 531 532 /* 533 * If the selfID buffer is not the immediate successor of the 534 * previously processed one, we cannot reliably compare the 535 * old and new topologies. 536 */ 537 if (!is_next_generation(generation, card->generation) && 538 card->local_node != NULL) { 539 fw_notify("skipped bus generations, destroying all nodes\n"); 540 fw_destroy_nodes(card); 541 card->bm_retries = 0; 542 } 543 544 spin_lock_irqsave(&card->lock, flags); 545 546 card->broadcast_channel_allocated = false; 547 card->node_id = node_id; 548 /* 549 * Update node_id before generation to prevent anybody from using 550 * a stale node_id together with a current generation. 551 */ 552 smp_wmb(); 553 card->generation = generation; 554 card->reset_jiffies = jiffies; 555 fw_schedule_bm_work(card, 0); 556 557 local_node = build_tree(card, self_ids, self_id_count); 558 559 update_topology_map(card, self_ids, self_id_count); 560 561 card->color++; 562 563 if (local_node == NULL) { 564 fw_error("topology build failed\n"); 565 /* FIXME: We need to issue a bus reset in this case. */ 566 } else if (card->local_node == NULL) { 567 card->local_node = local_node; 568 for_each_fw_node(card, local_node, report_found_node); 569 } else { 570 update_tree(card, local_node); 571 } 572 573 spin_unlock_irqrestore(&card->lock, flags); 574 } 575 EXPORT_SYMBOL(fw_core_handle_bus_reset); 576