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2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 2271 2272 2273 2274 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359 2360 2361 2362 2363 2364 2365 2366 2367 2368 2369 2370 2371 2372 2373 2374 2375 2376 | /* * rio_cm - RapidIO Channelized Messaging Driver * * Copyright 2013-2016 Integrated Device Technology, Inc. * Copyright (c) 2015, Prodrive Technologies * Copyright (c) 2015, RapidIO Trade Association * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. * * THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, * BUT WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF * MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE * GNU GENERAL PUBLIC LICENSE FOR MORE DETAILS. */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/dma-mapping.h> #include <linux/delay.h> #include <linux/sched.h> #include <linux/rio.h> #include <linux/rio_drv.h> #include <linux/slab.h> #include <linux/idr.h> #include <linux/interrupt.h> #include <linux/cdev.h> #include <linux/fs.h> #include <linux/poll.h> #include <linux/reboot.h> #include <linux/bitops.h> #include <linux/printk.h> #include <linux/rio_cm_cdev.h> #define DRV_NAME "rio_cm" #define DRV_VERSION "1.0.0" #define DRV_AUTHOR "Alexandre Bounine <alexandre.bounine@idt.com>" #define DRV_DESC "RapidIO Channelized Messaging Driver" #define DEV_NAME "rio_cm" /* Debug output filtering masks */ enum { DBG_NONE = 0, DBG_INIT = BIT(0), /* driver init */ DBG_EXIT = BIT(1), /* driver exit */ DBG_MPORT = BIT(2), /* mport add/remove */ DBG_RDEV = BIT(3), /* RapidIO device add/remove */ DBG_CHOP = BIT(4), /* channel operations */ DBG_WAIT = BIT(5), /* waiting for events */ DBG_TX = BIT(6), /* message TX */ DBG_TX_EVENT = BIT(7), /* message TX event */ DBG_RX_DATA = BIT(8), /* inbound data messages */ DBG_RX_CMD = BIT(9), /* inbound REQ/ACK/NACK messages */ DBG_ALL = ~0, }; #ifdef DEBUG #define riocm_debug(level, fmt, arg...) \ do { \ if (DBG_##level & dbg_level) \ pr_debug(DRV_NAME ": %s " fmt "\n", \ __func__, ##arg); \ } while (0) #else #define riocm_debug(level, fmt, arg...) \ no_printk(KERN_DEBUG pr_fmt(DRV_NAME fmt "\n"), ##arg) #endif #define riocm_warn(fmt, arg...) \ pr_warn(DRV_NAME ": %s WARNING " fmt "\n", __func__, ##arg) #define riocm_error(fmt, arg...) \ pr_err(DRV_NAME ": %s ERROR " fmt "\n", __func__, ##arg) static int cmbox = 1; module_param(cmbox, int, S_IRUGO); MODULE_PARM_DESC(cmbox, "RapidIO Mailbox number (default 1)"); static int chstart = 256; module_param(chstart, int, S_IRUGO); MODULE_PARM_DESC(chstart, "Start channel number for dynamic allocation (default 256)"); #ifdef DEBUG static u32 dbg_level = DBG_NONE; module_param(dbg_level, uint, S_IWUSR | S_IRUGO); MODULE_PARM_DESC(dbg_level, "Debugging output level (default 0 = none)"); #endif MODULE_AUTHOR(DRV_AUTHOR); MODULE_DESCRIPTION(DRV_DESC); MODULE_LICENSE("GPL"); MODULE_VERSION(DRV_VERSION); #define RIOCM_TX_RING_SIZE 128 #define RIOCM_RX_RING_SIZE 128 #define RIOCM_CONNECT_TO 3 /* connect response TO (in sec) */ #define RIOCM_MAX_CHNUM 0xffff /* Use full range of u16 field */ #define RIOCM_CHNUM_AUTO 0 #define RIOCM_MAX_EP_COUNT 0x10000 /* Max number of endpoints */ enum rio_cm_state { RIO_CM_IDLE, RIO_CM_CONNECT, RIO_CM_CONNECTED, RIO_CM_DISCONNECT, RIO_CM_CHAN_BOUND, RIO_CM_LISTEN, RIO_CM_DESTROYING, }; enum rio_cm_pkt_type { RIO_CM_SYS = 0xaa, RIO_CM_CHAN = 0x55, }; enum rio_cm_chop { CM_CONN_REQ, CM_CONN_ACK, CM_CONN_CLOSE, CM_DATA_MSG, }; struct rio_ch_base_bhdr { u32 src_id; u32 dst_id; #define RIO_HDR_LETTER_MASK 0xffff0000 #define RIO_HDR_MBOX_MASK 0x0000ffff u8 src_mbox; u8 dst_mbox; u8 type; } __attribute__((__packed__)); struct rio_ch_chan_hdr { struct rio_ch_base_bhdr bhdr; u8 ch_op; u16 dst_ch; u16 src_ch; u16 msg_len; u16 rsrvd; } __attribute__((__packed__)); struct tx_req { struct list_head node; struct rio_dev *rdev; void *buffer; size_t len; }; struct cm_dev { struct list_head list; struct rio_mport *mport; void *rx_buf[RIOCM_RX_RING_SIZE]; int rx_slots; struct mutex rx_lock; void *tx_buf[RIOCM_TX_RING_SIZE]; int tx_slot; int tx_cnt; int tx_ack_slot; struct list_head tx_reqs; spinlock_t tx_lock; struct list_head peers; u32 npeers; struct workqueue_struct *rx_wq; struct work_struct rx_work; }; struct chan_rx_ring { void *buf[RIOCM_RX_RING_SIZE]; int head; int tail; int count; /* Tracking RX buffers reported to upper level */ void *inuse[RIOCM_RX_RING_SIZE]; int inuse_cnt; }; struct rio_channel { u16 id; /* local channel ID */ struct kref ref; /* channel refcount */ struct file *filp; struct cm_dev *cmdev; /* associated CM device object */ struct rio_dev *rdev; /* remote RapidIO device */ enum rio_cm_state state; int error; spinlock_t lock; void *context; u32 loc_destid; /* local destID */ u32 rem_destid; /* remote destID */ u16 rem_channel; /* remote channel ID */ struct list_head accept_queue; struct list_head ch_node; struct completion comp; struct completion comp_close; struct chan_rx_ring rx_ring; }; struct cm_peer { struct list_head node; struct rio_dev *rdev; }; struct rio_cm_work { struct work_struct work; struct cm_dev *cm; void *data; }; struct conn_req { struct list_head node; u32 destid; /* requester destID */ u16 chan; /* requester channel ID */ struct cm_dev *cmdev; }; /* * A channel_dev structure represents a CM_CDEV * @cdev Character device * @dev Associated device object */ struct channel_dev { struct cdev cdev; struct device *dev; }; static struct rio_channel *riocm_ch_alloc(u16 ch_num); static void riocm_ch_free(struct kref *ref); static int riocm_post_send(struct cm_dev *cm, struct rio_dev *rdev, void *buffer, size_t len); static int riocm_ch_close(struct rio_channel *ch); static DEFINE_SPINLOCK(idr_lock); static DEFINE_IDR(ch_idr); static LIST_HEAD(cm_dev_list); static DECLARE_RWSEM(rdev_sem); static struct class *dev_class; static unsigned int dev_major; static unsigned int dev_minor_base; static dev_t dev_number; static struct channel_dev riocm_cdev; #define is_msg_capable(src_ops, dst_ops) \ ((src_ops & RIO_SRC_OPS_DATA_MSG) && \ (dst_ops & RIO_DST_OPS_DATA_MSG)) #define dev_cm_capable(dev) \ is_msg_capable(dev->src_ops, dev->dst_ops) static int riocm_cmp(struct rio_channel *ch, enum rio_cm_state cmp) { int ret; spin_lock_bh(&ch->lock); ret = (ch->state == cmp); spin_unlock_bh(&ch->lock); return ret; } static int riocm_cmp_exch(struct rio_channel *ch, enum rio_cm_state cmp, enum rio_cm_state exch) { int ret; spin_lock_bh(&ch->lock); ret = (ch->state == cmp); if (ret) ch->state = exch; spin_unlock_bh(&ch->lock); return ret; } static enum rio_cm_state riocm_exch(struct rio_channel *ch, enum rio_cm_state exch) { enum rio_cm_state old; spin_lock_bh(&ch->lock); old = ch->state; ch->state = exch; spin_unlock_bh(&ch->lock); return old; } static struct rio_channel *riocm_get_channel(u16 nr) { struct rio_channel *ch; spin_lock_bh(&idr_lock); ch = idr_find(&ch_idr, nr); if (ch) kref_get(&ch->ref); spin_unlock_bh(&idr_lock); return ch; } static void riocm_put_channel(struct rio_channel *ch) { kref_put(&ch->ref, riocm_ch_free); } static void *riocm_rx_get_msg(struct cm_dev *cm) { void *msg; int i; msg = rio_get_inb_message(cm->mport, cmbox); if (msg) { for (i = 0; i < RIOCM_RX_RING_SIZE; i++) { if (cm->rx_buf[i] == msg) { cm->rx_buf[i] = NULL; cm->rx_slots++; break; } } if (i == RIOCM_RX_RING_SIZE) riocm_warn("no record for buffer 0x%p", msg); } return msg; } /* * riocm_rx_fill - fills a ring of receive buffers for given cm device * @cm: cm_dev object * @nent: max number of entries to fill * * Returns: none */ static void riocm_rx_fill(struct cm_dev *cm, int nent) { int i; if (cm->rx_slots == 0) return; for (i = 0; i < RIOCM_RX_RING_SIZE && cm->rx_slots && nent; i++) { if (cm->rx_buf[i] == NULL) { cm->rx_buf[i] = kmalloc(RIO_MAX_MSG_SIZE, GFP_KERNEL); if (cm->rx_buf[i] == NULL) break; rio_add_inb_buffer(cm->mport, cmbox, cm->rx_buf[i]); cm->rx_slots--; nent--; } } } /* * riocm_rx_free - frees all receive buffers associated with given cm device * @cm: cm_dev object * * Returns: none */ static void riocm_rx_free(struct cm_dev *cm) { int i; for (i = 0; i < RIOCM_RX_RING_SIZE; i++) { if (cm->rx_buf[i] != NULL) { kfree(cm->rx_buf[i]); cm->rx_buf[i] = NULL; } } } /* * riocm_req_handler - connection request handler * @cm: cm_dev object * @req_data: pointer to the request packet * * Returns: 0 if success, or * -EINVAL if channel is not in correct state, * -ENODEV if cannot find a channel with specified ID, * -ENOMEM if unable to allocate memory to store the request */ static int riocm_req_handler(struct cm_dev *cm, void *req_data) { struct rio_channel *ch; struct conn_req *req; struct rio_ch_chan_hdr *hh = req_data; u16 chnum; chnum = ntohs(hh->dst_ch); ch = riocm_get_channel(chnum); if (!ch) return -ENODEV; if (ch->state != RIO_CM_LISTEN) { riocm_debug(RX_CMD, "channel %d is not in listen state", chnum); riocm_put_channel(ch); return -EINVAL; } req = kzalloc(sizeof(*req), GFP_KERNEL); if (!req) { riocm_put_channel(ch); return -ENOMEM; } req->destid = ntohl(hh->bhdr.src_id); req->chan = ntohs(hh->src_ch); req->cmdev = cm; spin_lock_bh(&ch->lock); list_add_tail(&req->node, &ch->accept_queue); spin_unlock_bh(&ch->lock); complete(&ch->comp); riocm_put_channel(ch); return 0; } /* * riocm_resp_handler - response to connection request handler * @resp_data: pointer to the response packet * * Returns: 0 if success, or * -EINVAL if channel is not in correct state, * -ENODEV if cannot find a channel with specified ID, */ static int riocm_resp_handler(void *resp_data) { struct rio_channel *ch; struct rio_ch_chan_hdr *hh = resp_data; u16 chnum; chnum = ntohs(hh->dst_ch); ch = riocm_get_channel(chnum); if (!ch) return -ENODEV; if (ch->state != RIO_CM_CONNECT) { riocm_put_channel(ch); return -EINVAL; } riocm_exch(ch, RIO_CM_CONNECTED); ch->rem_channel = ntohs(hh->src_ch); complete(&ch->comp); riocm_put_channel(ch); return 0; } /* * riocm_close_handler - channel close request handler * @req_data: pointer to the request packet * * Returns: 0 if success, or * -ENODEV if cannot find a channel with specified ID, * + error codes returned by riocm_ch_close. */ static int riocm_close_handler(void *data) { struct rio_channel *ch; struct rio_ch_chan_hdr *hh = data; int ret; riocm_debug(RX_CMD, "for ch=%d", ntohs(hh->dst_ch)); spin_lock_bh(&idr_lock); ch = idr_find(&ch_idr, ntohs(hh->dst_ch)); if (!ch) { spin_unlock_bh(&idr_lock); return -ENODEV; } idr_remove(&ch_idr, ch->id); spin_unlock_bh(&idr_lock); riocm_exch(ch, RIO_CM_DISCONNECT); ret = riocm_ch_close(ch); if (ret) riocm_debug(RX_CMD, "riocm_ch_close() returned %d", ret); return 0; } /* * rio_cm_handler - function that services request (non-data) packets * @cm: cm_dev object * @data: pointer to the packet */ static void rio_cm_handler(struct cm_dev *cm, void *data) { struct rio_ch_chan_hdr *hdr; if (!rio_mport_is_running(cm->mport)) goto out; hdr = data; riocm_debug(RX_CMD, "OP=%x for ch=%d from %d", hdr->ch_op, ntohs(hdr->dst_ch), ntohs(hdr->src_ch)); switch (hdr->ch_op) { case CM_CONN_REQ: riocm_req_handler(cm, data); break; case CM_CONN_ACK: riocm_resp_handler(data); break; case CM_CONN_CLOSE: riocm_close_handler(data); break; default: riocm_error("Invalid packet header"); break; } out: kfree(data); } /* * rio_rx_data_handler - received data packet handler * @cm: cm_dev object * @buf: data packet * * Returns: 0 if success, or * -ENODEV if cannot find a channel with specified ID, * -EIO if channel is not in CONNECTED state, * -ENOMEM if channel RX queue is full (packet discarded) */ static int rio_rx_data_handler(struct cm_dev *cm, void *buf) { struct rio_ch_chan_hdr *hdr; struct rio_channel *ch; hdr = buf; riocm_debug(RX_DATA, "for ch=%d", ntohs(hdr->dst_ch)); ch = riocm_get_channel(ntohs(hdr->dst_ch)); if (!ch) { /* Discard data message for non-existing channel */ kfree(buf); return -ENODEV; } /* Place pointer to the buffer into channel's RX queue */ spin_lock(&ch->lock); if (ch->state != RIO_CM_CONNECTED) { /* Channel is not ready to receive data, discard a packet */ riocm_debug(RX_DATA, "ch=%d is in wrong state=%d", ch->id, ch->state); spin_unlock(&ch->lock); kfree(buf); riocm_put_channel(ch); return -EIO; } if (ch->rx_ring.count == RIOCM_RX_RING_SIZE) { /* If RX ring is full, discard a packet */ riocm_debug(RX_DATA, "ch=%d is full", ch->id); spin_unlock(&ch->lock); kfree(buf); riocm_put_channel(ch); return -ENOMEM; } ch->rx_ring.buf[ch->rx_ring.head] = buf; ch->rx_ring.head++; ch->rx_ring.count++; ch->rx_ring.head %= RIOCM_RX_RING_SIZE; complete(&ch->comp); spin_unlock(&ch->lock); riocm_put_channel(ch); return 0; } /* * rio_ibmsg_handler - inbound message packet handler */ static void rio_ibmsg_handler(struct work_struct *work) { struct cm_dev *cm = container_of(work, struct cm_dev, rx_work); void *data; struct rio_ch_chan_hdr *hdr; if (!rio_mport_is_running(cm->mport)) return; while (1) { mutex_lock(&cm->rx_lock); data = riocm_rx_get_msg(cm); if (data) riocm_rx_fill(cm, 1); mutex_unlock(&cm->rx_lock); if (data == NULL) break; hdr = data; if (hdr->bhdr.type != RIO_CM_CHAN) { /* For now simply discard packets other than channel */ riocm_error("Unsupported TYPE code (0x%x). Msg dropped", hdr->bhdr.type); kfree(data); continue; } /* Process a channel message */ if (hdr->ch_op == CM_DATA_MSG) rio_rx_data_handler(cm, data); else rio_cm_handler(cm, data); } } static void riocm_inb_msg_event(struct rio_mport *mport, void *dev_id, int mbox, int slot) { struct cm_dev *cm = dev_id; if (rio_mport_is_running(cm->mport) && !work_pending(&cm->rx_work)) queue_work(cm->rx_wq, &cm->rx_work); } /* * rio_txcq_handler - TX completion handler * @cm: cm_dev object * @slot: TX queue slot * * TX completion handler also ensures that pending request packets are placed * into transmit queue as soon as a free slot becomes available. This is done * to give higher priority to request packets during high intensity data flow. */ static void rio_txcq_handler(struct cm_dev *cm, int slot) { int ack_slot; /* ATTN: Add TX completion notification if/when direct buffer * transfer is implemented. At this moment only correct tracking * of tx_count is important. */ riocm_debug(TX_EVENT, "for mport_%d slot %d tx_cnt %d", cm->mport->id, slot, cm->tx_cnt); spin_lock(&cm->tx_lock); ack_slot = cm->tx_ack_slot; if (ack_slot == slot) riocm_debug(TX_EVENT, "slot == ack_slot"); while (cm->tx_cnt && ((ack_slot != slot) || (cm->tx_cnt == RIOCM_TX_RING_SIZE))) { cm->tx_buf[ack_slot] = NULL; ++ack_slot; ack_slot &= (RIOCM_TX_RING_SIZE - 1); cm->tx_cnt--; } if (cm->tx_cnt < 0 || cm->tx_cnt > RIOCM_TX_RING_SIZE) riocm_error("tx_cnt %d out of sync", cm->tx_cnt); WARN_ON((cm->tx_cnt < 0) || (cm->tx_cnt > RIOCM_TX_RING_SIZE)); cm->tx_ack_slot = ack_slot; /* * If there are pending requests, insert them into transmit queue */ if (!list_empty(&cm->tx_reqs) && (cm->tx_cnt < RIOCM_TX_RING_SIZE)) { struct tx_req *req, *_req; int rc; list_for_each_entry_safe(req, _req, &cm->tx_reqs, node) { list_del(&req->node); cm->tx_buf[cm->tx_slot] = req->buffer; rc = rio_add_outb_message(cm->mport, req->rdev, cmbox, req->buffer, req->len); kfree(req->buffer); kfree(req); ++cm->tx_cnt; ++cm->tx_slot; cm->tx_slot &= (RIOCM_TX_RING_SIZE - 1); if (cm->tx_cnt == RIOCM_TX_RING_SIZE) break; } } spin_unlock(&cm->tx_lock); } static void riocm_outb_msg_event(struct rio_mport *mport, void *dev_id, int mbox, int slot) { struct cm_dev *cm = dev_id; if (cm && rio_mport_is_running(cm->mport)) rio_txcq_handler(cm, slot); } static int riocm_queue_req(struct cm_dev *cm, struct rio_dev *rdev, void *buffer, size_t len) { unsigned long flags; struct tx_req *treq; treq = kzalloc(sizeof(*treq), GFP_KERNEL); if (treq == NULL) return -ENOMEM; treq->rdev = rdev; treq->buffer = buffer; treq->len = len; spin_lock_irqsave(&cm->tx_lock, flags); list_add_tail(&treq->node, &cm->tx_reqs); spin_unlock_irqrestore(&cm->tx_lock, flags); return 0; } /* * riocm_post_send - helper function that places packet into msg TX queue * @cm: cm_dev object * @rdev: target RapidIO device object (required by outbound msg interface) * @buffer: pointer to a packet buffer to send * @len: length of data to transfer * @req: request priority flag * * Returns: 0 if success, or error code otherwise. */ static int riocm_post_send(struct cm_dev *cm, struct rio_dev *rdev, void *buffer, size_t len) { int rc; unsigned long flags; spin_lock_irqsave(&cm->tx_lock, flags); if (cm->mport == NULL) { rc = -ENODEV; goto err_out; } if (cm->tx_cnt == RIOCM_TX_RING_SIZE) { riocm_debug(TX, "Tx Queue is full"); rc = -EBUSY; goto err_out; } cm->tx_buf[cm->tx_slot] = buffer; rc = rio_add_outb_message(cm->mport, rdev, cmbox, buffer, len); riocm_debug(TX, "Add buf@%p destid=%x tx_slot=%d tx_cnt=%d", buffer, rdev->destid, cm->tx_slot, cm->tx_cnt); ++cm->tx_cnt; ++cm->tx_slot; cm->tx_slot &= (RIOCM_TX_RING_SIZE - 1); err_out: spin_unlock_irqrestore(&cm->tx_lock, flags); return rc; } /* * riocm_ch_send - sends a data packet to a remote device * @ch_id: local channel ID * @buf: pointer to a data buffer to send (including CM header) * @len: length of data to transfer (including CM header) * * ATTN: ASSUMES THAT THE HEADER SPACE IS RESERVED PART OF THE DATA PACKET * * Returns: 0 if success, or * -EINVAL if one or more input parameters is/are not valid, * -ENODEV if cannot find a channel with specified ID, * -EAGAIN if a channel is not in CONNECTED state, * + error codes returned by HW send routine. */ static int riocm_ch_send(u16 ch_id, void *buf, int len) { struct rio_channel *ch; struct rio_ch_chan_hdr *hdr; int ret; if (buf == NULL || ch_id == 0 || len == 0 || len > RIO_MAX_MSG_SIZE) return -EINVAL; ch = riocm_get_channel(ch_id); if (!ch) { riocm_error("%s(%d) ch_%d not found", current->comm, task_pid_nr(current), ch_id); return -ENODEV; } if (!riocm_cmp(ch, RIO_CM_CONNECTED)) { ret = -EAGAIN; goto err_out; } /* * Fill buffer header section with corresponding channel data */ hdr = buf; hdr->bhdr.src_id = htonl(ch->loc_destid); hdr->bhdr.dst_id = htonl(ch->rem_destid); hdr->bhdr.src_mbox = cmbox; hdr->bhdr.dst_mbox = cmbox; hdr->bhdr.type = RIO_CM_CHAN; hdr->ch_op = CM_DATA_MSG; hdr->dst_ch = htons(ch->rem_channel); hdr->src_ch = htons(ch->id); hdr->msg_len = htons((u16)len); /* ATTN: the function call below relies on the fact that underlying * HW-specific add_outb_message() routine copies TX data into its own * internal transfer buffer (true for all RIONET compatible mport * drivers). Must be reviewed if mport driver uses the buffer directly. */ ret = riocm_post_send(ch->cmdev, ch->rdev, buf, len); if (ret) riocm_debug(TX, "ch %d send_err=%d", ch->id, ret); err_out: riocm_put_channel(ch); return ret; } static int riocm_ch_free_rxbuf(struct rio_channel *ch, void *buf) { int i, ret = -EINVAL; spin_lock_bh(&ch->lock); for (i = 0; i < RIOCM_RX_RING_SIZE; i++) { if (ch->rx_ring.inuse[i] == buf) { ch->rx_ring.inuse[i] = NULL; ch->rx_ring.inuse_cnt--; ret = 0; break; } } spin_unlock_bh(&ch->lock); if (!ret) kfree(buf); return ret; } /* * riocm_ch_receive - fetch a data packet received for the specified channel * @ch: local channel ID * @buf: pointer to a packet buffer * @timeout: timeout to wait for incoming packet (in jiffies) * * Returns: 0 and valid buffer pointer if success, or NULL pointer and one of: * -EAGAIN if a channel is not in CONNECTED state, * -ENOMEM if in-use tracking queue is full, * -ETIME if wait timeout expired, * -EINTR if wait was interrupted. */ static int riocm_ch_receive(struct rio_channel *ch, void **buf, long timeout) { void *rxmsg = NULL; int i, ret = 0; long wret; if (!riocm_cmp(ch, RIO_CM_CONNECTED)) { ret = -EAGAIN; goto out; } if (ch->rx_ring.inuse_cnt == RIOCM_RX_RING_SIZE) { /* If we do not have entries to track buffers given to upper * layer, reject request. */ ret = -ENOMEM; goto out; } wret = wait_for_completion_interruptible_timeout(&ch->comp, timeout); riocm_debug(WAIT, "wait on %d returned %ld", ch->id, wret); if (!wret) ret = -ETIME; else if (wret == -ERESTARTSYS) ret = -EINTR; else ret = riocm_cmp(ch, RIO_CM_CONNECTED) ? 0 : -ECONNRESET; if (ret) goto out; spin_lock_bh(&ch->lock); rxmsg = ch->rx_ring.buf[ch->rx_ring.tail]; ch->rx_ring.buf[ch->rx_ring.tail] = NULL; ch->rx_ring.count--; ch->rx_ring.tail++; ch->rx_ring.tail %= RIOCM_RX_RING_SIZE; ret = -ENOMEM; for (i = 0; i < RIOCM_RX_RING_SIZE; i++) { if (ch->rx_ring.inuse[i] == NULL) { ch->rx_ring.inuse[i] = rxmsg; ch->rx_ring.inuse_cnt++; ret = 0; break; } } if (ret) { /* We have no entry to store pending message: drop it */ kfree(rxmsg); rxmsg = NULL; } spin_unlock_bh(&ch->lock); out: *buf = rxmsg; return ret; } /* * riocm_ch_connect - sends a connect request to a remote device * @loc_ch: local channel ID * @cm: CM device to send connect request * @peer: target RapidIO device * @rem_ch: remote channel ID * * Returns: 0 if success, or * -EINVAL if the channel is not in IDLE state, * -EAGAIN if no connection request available immediately, * -ETIME if ACK response timeout expired, * -EINTR if wait for response was interrupted. */ static int riocm_ch_connect(u16 loc_ch, struct cm_dev *cm, struct cm_peer *peer, u16 rem_ch) { struct rio_channel *ch = NULL; struct rio_ch_chan_hdr *hdr; int ret; long wret; ch = riocm_get_channel(loc_ch); if (!ch) return -ENODEV; if (!riocm_cmp_exch(ch, RIO_CM_IDLE, RIO_CM_CONNECT)) { ret = -EINVAL; goto conn_done; } ch->cmdev = cm; ch->rdev = peer->rdev; ch->context = NULL; ch->loc_destid = cm->mport->host_deviceid; ch->rem_channel = rem_ch; /* * Send connect request to the remote RapidIO device */ hdr = kzalloc(sizeof(*hdr), GFP_KERNEL); if (hdr == NULL) { ret = -ENOMEM; goto conn_done; } hdr->bhdr.src_id = htonl(ch->loc_destid); hdr->bhdr.dst_id = htonl(peer->rdev->destid); hdr->bhdr.src_mbox = cmbox; hdr->bhdr.dst_mbox = cmbox; hdr->bhdr.type = RIO_CM_CHAN; hdr->ch_op = CM_CONN_REQ; hdr->dst_ch = htons(rem_ch); hdr->src_ch = htons(loc_ch); /* ATTN: the function call below relies on the fact that underlying * HW-specific add_outb_message() routine copies TX data into its * internal transfer buffer. Must be reviewed if mport driver uses * this buffer directly. */ ret = riocm_post_send(cm, peer->rdev, hdr, sizeof(*hdr)); if (ret != -EBUSY) { kfree(hdr); } else { ret = riocm_queue_req(cm, peer->rdev, hdr, sizeof(*hdr)); if (ret) kfree(hdr); } if (ret) { riocm_cmp_exch(ch, RIO_CM_CONNECT, RIO_CM_IDLE); goto conn_done; } /* Wait for connect response from the remote device */ wret = wait_for_completion_interruptible_timeout(&ch->comp, RIOCM_CONNECT_TO * HZ); riocm_debug(WAIT, "wait on %d returns %ld", ch->id, wret); if (!wret) ret = -ETIME; else if (wret == -ERESTARTSYS) ret = -EINTR; else ret = riocm_cmp(ch, RIO_CM_CONNECTED) ? 0 : -1; conn_done: riocm_put_channel(ch); return ret; } static int riocm_send_ack(struct rio_channel *ch) { struct rio_ch_chan_hdr *hdr; int ret; hdr = kzalloc(sizeof(*hdr), GFP_KERNEL); if (hdr == NULL) return -ENOMEM; hdr->bhdr.src_id = htonl(ch->loc_destid); hdr->bhdr.dst_id = htonl(ch->rem_destid); hdr->dst_ch = htons(ch->rem_channel); hdr->src_ch = htons(ch->id); hdr->bhdr.src_mbox = cmbox; hdr->bhdr.dst_mbox = cmbox; hdr->bhdr.type = RIO_CM_CHAN; hdr->ch_op = CM_CONN_ACK; /* ATTN: the function call below relies on the fact that underlying * add_outb_message() routine copies TX data into its internal transfer * buffer. Review if switching to direct buffer version. */ ret = riocm_post_send(ch->cmdev, ch->rdev, hdr, sizeof(*hdr)); if (ret == -EBUSY && !riocm_queue_req(ch->cmdev, ch->rdev, hdr, sizeof(*hdr))) return 0; kfree(hdr); if (ret) riocm_error("send ACK to ch_%d on %s failed (ret=%d)", ch->id, rio_name(ch->rdev), ret); return ret; } /* * riocm_ch_accept - accept incoming connection request * @ch_id: channel ID * @new_ch_id: local mport device * @timeout: wait timeout (if 0 non-blocking call, do not wait if connection * request is not available). * * Returns: pointer to new channel struct if success, or error-valued pointer: * -ENODEV - cannot find specified channel or mport, * -EINVAL - the channel is not in IDLE state, * -EAGAIN - no connection request available immediately (timeout=0), * -ENOMEM - unable to allocate new channel, * -ETIME - wait timeout expired, * -EINTR - wait was interrupted. */ static struct rio_channel *riocm_ch_accept(u16 ch_id, u16 *new_ch_id, long timeout) { struct rio_channel *ch; struct rio_channel *new_ch; struct conn_req *req; struct cm_peer *peer; int found = 0; int err = 0; long wret; ch = riocm_get_channel(ch_id); if (!ch) return ERR_PTR(-EINVAL); if (!riocm_cmp(ch, RIO_CM_LISTEN)) { err = -EINVAL; goto err_put; } /* Don't sleep if this is a non blocking call */ if (!timeout) { if (!try_wait_for_completion(&ch->comp)) { err = -EAGAIN; goto err_put; } } else { riocm_debug(WAIT, "on %d", ch->id); wret = wait_for_completion_interruptible_timeout(&ch->comp, timeout); if (!wret) { err = -ETIME; goto err_put; } else if (wret == -ERESTARTSYS) { err = -EINTR; goto err_put; } } spin_lock_bh(&ch->lock); if (ch->state != RIO_CM_LISTEN) { err = -ECANCELED; } else if (list_empty(&ch->accept_queue)) { riocm_debug(WAIT, "on %d accept_queue is empty on completion", ch->id); err = -EIO; } spin_unlock_bh(&ch->lock); if (err) { riocm_debug(WAIT, "on %d returns %d", ch->id, err); goto err_put; } /* Create new channel for this connection */ new_ch = riocm_ch_alloc(RIOCM_CHNUM_AUTO); if (IS_ERR(new_ch)) { riocm_error("failed to get channel for new req (%ld)", PTR_ERR(new_ch)); err = -ENOMEM; goto err_put; } spin_lock_bh(&ch->lock); req = list_first_entry(&ch->accept_queue, struct conn_req, node); list_del(&req->node); new_ch->cmdev = ch->cmdev; new_ch->loc_destid = ch->loc_destid; new_ch->rem_destid = req->destid; new_ch->rem_channel = req->chan; spin_unlock_bh(&ch->lock); riocm_put_channel(ch); ch = NULL; kfree(req); down_read(&rdev_sem); /* Find requester's device object */ list_for_each_entry(peer, &new_ch->cmdev->peers, node) { if (peer->rdev->destid == new_ch->rem_destid) { riocm_debug(RX_CMD, "found matching device(%s)", rio_name(peer->rdev)); found = 1; break; } } up_read(&rdev_sem); if (!found) { /* If peer device object not found, simply ignore the request */ err = -ENODEV; goto err_put_new_ch; } new_ch->rdev = peer->rdev; new_ch->state = RIO_CM_CONNECTED; spin_lock_init(&new_ch->lock); /* Acknowledge the connection request. */ riocm_send_ack(new_ch); *new_ch_id = new_ch->id; return new_ch; err_put_new_ch: spin_lock_bh(&idr_lock); idr_remove(&ch_idr, new_ch->id); spin_unlock_bh(&idr_lock); riocm_put_channel(new_ch); err_put: if (ch) riocm_put_channel(ch); *new_ch_id = 0; return ERR_PTR(err); } /* * riocm_ch_listen - puts a channel into LISTEN state * @ch_id: channel ID * * Returns: 0 if success, or * -EINVAL if the specified channel does not exists or * is not in CHAN_BOUND state. */ static int riocm_ch_listen(u16 ch_id) { struct rio_channel *ch = NULL; int ret = 0; riocm_debug(CHOP, "(ch_%d)", ch_id); ch = riocm_get_channel(ch_id); if (!ch || !riocm_cmp_exch(ch, RIO_CM_CHAN_BOUND, RIO_CM_LISTEN)) ret = -EINVAL; riocm_put_channel(ch); return ret; } /* * riocm_ch_bind - associate a channel object and an mport device * @ch_id: channel ID * @mport_id: local mport device ID * @context: pointer to the additional caller's context * * Returns: 0 if success, or * -ENODEV if cannot find specified mport, * -EINVAL if the specified channel does not exist or * is not in IDLE state. */ static int riocm_ch_bind(u16 ch_id, u8 mport_id, void *context) { struct rio_channel *ch = NULL; struct cm_dev *cm; int rc = -ENODEV; riocm_debug(CHOP, "ch_%d to mport_%d", ch_id, mport_id); /* Find matching cm_dev object */ down_read(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if ((cm->mport->id == mport_id) && rio_mport_is_running(cm->mport)) { rc = 0; break; } } if (rc) goto exit; ch = riocm_get_channel(ch_id); if (!ch) { rc = -EINVAL; goto exit; } spin_lock_bh(&ch->lock); if (ch->state != RIO_CM_IDLE) { spin_unlock_bh(&ch->lock); rc = -EINVAL; goto err_put; } ch->cmdev = cm; ch->loc_destid = cm->mport->host_deviceid; ch->context = context; ch->state = RIO_CM_CHAN_BOUND; spin_unlock_bh(&ch->lock); err_put: riocm_put_channel(ch); exit: up_read(&rdev_sem); return rc; } /* * riocm_ch_alloc - channel object allocation helper routine * @ch_num: channel ID (1 ... RIOCM_MAX_CHNUM, 0 = automatic) * * Return value: pointer to newly created channel object, * or error-valued pointer */ static struct rio_channel *riocm_ch_alloc(u16 ch_num) { int id; int start, end; struct rio_channel *ch; ch = kzalloc(sizeof(*ch), GFP_KERNEL); if (!ch) return ERR_PTR(-ENOMEM); if (ch_num) { /* If requested, try to obtain the specified channel ID */ start = ch_num; end = ch_num + 1; } else { /* Obtain channel ID from the dynamic allocation range */ start = chstart; end = RIOCM_MAX_CHNUM + 1; } idr_preload(GFP_KERNEL); spin_lock_bh(&idr_lock); id = idr_alloc_cyclic(&ch_idr, ch, start, end, GFP_NOWAIT); spin_unlock_bh(&idr_lock); idr_preload_end(); if (id < 0) { kfree(ch); return ERR_PTR(id == -ENOSPC ? -EBUSY : id); } ch->id = (u16)id; ch->state = RIO_CM_IDLE; spin_lock_init(&ch->lock); INIT_LIST_HEAD(&ch->accept_queue); INIT_LIST_HEAD(&ch->ch_node); init_completion(&ch->comp); init_completion(&ch->comp_close); kref_init(&ch->ref); ch->rx_ring.head = 0; ch->rx_ring.tail = 0; ch->rx_ring.count = 0; ch->rx_ring.inuse_cnt = 0; return ch; } /* * riocm_ch_create - creates a new channel object and allocates ID for it * @ch_num: channel ID (1 ... RIOCM_MAX_CHNUM, 0 = automatic) * * Allocates and initializes a new channel object. If the parameter ch_num > 0 * and is within the valid range, riocm_ch_create tries to allocate the * specified ID for the new channel. If ch_num = 0, channel ID will be assigned * automatically from the range (chstart ... RIOCM_MAX_CHNUM). * Module parameter 'chstart' defines start of an ID range available for dynamic * allocation. Range below 'chstart' is reserved for pre-defined ID numbers. * Available channel numbers are limited by 16-bit size of channel numbers used * in the packet header. * * Return value: PTR to rio_channel structure if successful (with channel number * updated via pointer) or error-valued pointer if error. */ static struct rio_channel *riocm_ch_create(u16 *ch_num) { struct rio_channel *ch = NULL; ch = riocm_ch_alloc(*ch_num); if (IS_ERR(ch)) riocm_debug(CHOP, "Failed to allocate channel %d (err=%ld)", *ch_num, PTR_ERR(ch)); else *ch_num = ch->id; return ch; } /* * riocm_ch_free - channel object release routine * @ref: pointer to a channel's kref structure */ static void riocm_ch_free(struct kref *ref) { struct rio_channel *ch = container_of(ref, struct rio_channel, ref); int i; riocm_debug(CHOP, "(ch_%d)", ch->id); if (ch->rx_ring.inuse_cnt) { for (i = 0; i < RIOCM_RX_RING_SIZE && ch->rx_ring.inuse_cnt; i++) { if (ch->rx_ring.inuse[i] != NULL) { kfree(ch->rx_ring.inuse[i]); ch->rx_ring.inuse_cnt--; } } } if (ch->rx_ring.count) for (i = 0; i < RIOCM_RX_RING_SIZE && ch->rx_ring.count; i++) { if (ch->rx_ring.buf[i] != NULL) { kfree(ch->rx_ring.buf[i]); ch->rx_ring.count--; } } complete(&ch->comp_close); } static int riocm_send_close(struct rio_channel *ch) { struct rio_ch_chan_hdr *hdr; int ret; /* * Send CH_CLOSE notification to the remote RapidIO device */ hdr = kzalloc(sizeof(*hdr), GFP_KERNEL); if (hdr == NULL) return -ENOMEM; hdr->bhdr.src_id = htonl(ch->loc_destid); hdr->bhdr.dst_id = htonl(ch->rem_destid); hdr->bhdr.src_mbox = cmbox; hdr->bhdr.dst_mbox = cmbox; hdr->bhdr.type = RIO_CM_CHAN; hdr->ch_op = CM_CONN_CLOSE; hdr->dst_ch = htons(ch->rem_channel); hdr->src_ch = htons(ch->id); /* ATTN: the function call below relies on the fact that underlying * add_outb_message() routine copies TX data into its internal transfer * buffer. Needs to be reviewed if switched to direct buffer mode. */ ret = riocm_post_send(ch->cmdev, ch->rdev, hdr, sizeof(*hdr)); if (ret == -EBUSY && !riocm_queue_req(ch->cmdev, ch->rdev, hdr, sizeof(*hdr))) return 0; kfree(hdr); if (ret) riocm_error("ch(%d) send CLOSE failed (ret=%d)", ch->id, ret); return ret; } /* * riocm_ch_close - closes a channel object with specified ID (by local request) * @ch: channel to be closed */ static int riocm_ch_close(struct rio_channel *ch) { unsigned long tmo = msecs_to_jiffies(3000); enum rio_cm_state state; long wret; int ret = 0; riocm_debug(CHOP, "ch_%d by %s(%d)", ch->id, current->comm, task_pid_nr(current)); state = riocm_exch(ch, RIO_CM_DESTROYING); if (state == RIO_CM_CONNECTED) riocm_send_close(ch); complete_all(&ch->comp); riocm_put_channel(ch); wret = wait_for_completion_interruptible_timeout(&ch->comp_close, tmo); riocm_debug(WAIT, "wait on %d returns %ld", ch->id, wret); if (wret == 0) { /* Timeout on wait occurred */ riocm_debug(CHOP, "%s(%d) timed out waiting for ch %d", current->comm, task_pid_nr(current), ch->id); ret = -ETIMEDOUT; } else if (wret == -ERESTARTSYS) { /* Wait_for_completion was interrupted by a signal */ riocm_debug(CHOP, "%s(%d) wait for ch %d was interrupted", current->comm, task_pid_nr(current), ch->id); ret = -EINTR; } if (!ret) { riocm_debug(CHOP, "ch_%d resources released", ch->id); kfree(ch); } else { riocm_debug(CHOP, "failed to release ch_%d resources", ch->id); } return ret; } /* * riocm_cdev_open() - Open character device */ static int riocm_cdev_open(struct inode *inode, struct file *filp) { riocm_debug(INIT, "by %s(%d) filp=%p ", current->comm, task_pid_nr(current), filp); if (list_empty(&cm_dev_list)) return -ENODEV; return 0; } /* * riocm_cdev_release() - Release character device */ static int riocm_cdev_release(struct inode *inode, struct file *filp) { struct rio_channel *ch, *_c; unsigned int i; LIST_HEAD(list); riocm_debug(EXIT, "by %s(%d) filp=%p", current->comm, task_pid_nr(current), filp); /* Check if there are channels associated with this file descriptor */ spin_lock_bh(&idr_lock); idr_for_each_entry(&ch_idr, ch, i) { if (ch && ch->filp == filp) { riocm_debug(EXIT, "ch_%d not released by %s(%d)", ch->id, current->comm, task_pid_nr(current)); idr_remove(&ch_idr, ch->id); list_add(&ch->ch_node, &list); } } spin_unlock_bh(&idr_lock); if (!list_empty(&list)) { list_for_each_entry_safe(ch, _c, &list, ch_node) { list_del(&ch->ch_node); riocm_ch_close(ch); } } return 0; } /* * cm_ep_get_list_size() - Reports number of endpoints in the network */ static int cm_ep_get_list_size(void __user *arg) { u32 __user *p = arg; u32 mport_id; u32 count = 0; struct cm_dev *cm; if (get_user(mport_id, p)) return -EFAULT; if (mport_id >= RIO_MAX_MPORTS) return -EINVAL; /* Find a matching cm_dev object */ down_read(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if (cm->mport->id == mport_id) { count = cm->npeers; up_read(&rdev_sem); if (copy_to_user(arg, &count, sizeof(u32))) return -EFAULT; return 0; } } up_read(&rdev_sem); return -ENODEV; } /* * cm_ep_get_list() - Returns list of attached endpoints */ static int cm_ep_get_list(void __user *arg) { struct cm_dev *cm; struct cm_peer *peer; u32 info[2]; void *buf; u32 nent; u32 *entry_ptr; u32 i = 0; int ret = 0; if (copy_from_user(&info, arg, sizeof(info))) return -EFAULT; if (info[1] >= RIO_MAX_MPORTS || info[0] > RIOCM_MAX_EP_COUNT) return -EINVAL; /* Find a matching cm_dev object */ down_read(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) if (cm->mport->id == (u8)info[1]) goto found; up_read(&rdev_sem); return -ENODEV; found: nent = min(info[0], cm->npeers); buf = kcalloc(nent + 2, sizeof(u32), GFP_KERNEL); if (!buf) { up_read(&rdev_sem); return -ENOMEM; } entry_ptr = (u32 *)((uintptr_t)buf + 2*sizeof(u32)); list_for_each_entry(peer, &cm->peers, node) { *entry_ptr = (u32)peer->rdev->destid; entry_ptr++; if (++i == nent) break; } up_read(&rdev_sem); ((u32 *)buf)[0] = i; /* report an updated number of entries */ ((u32 *)buf)[1] = info[1]; /* put back an mport ID */ if (copy_to_user(arg, buf, sizeof(u32) * (info[0] + 2))) ret = -EFAULT; kfree(buf); return ret; } /* * cm_mport_get_list() - Returns list of available local mport devices */ static int cm_mport_get_list(void __user *arg) { int ret = 0; u32 entries; void *buf; struct cm_dev *cm; u32 *entry_ptr; int count = 0; if (copy_from_user(&entries, arg, sizeof(entries))) return -EFAULT; if (entries == 0 || entries > RIO_MAX_MPORTS) return -EINVAL; buf = kcalloc(entries + 1, sizeof(u32), GFP_KERNEL); if (!buf) return -ENOMEM; /* Scan all registered cm_dev objects */ entry_ptr = (u32 *)((uintptr_t)buf + sizeof(u32)); down_read(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if (count++ < entries) { *entry_ptr = (cm->mport->id << 16) | cm->mport->host_deviceid; entry_ptr++; } } up_read(&rdev_sem); *((u32 *)buf) = count; /* report a real number of entries */ if (copy_to_user(arg, buf, sizeof(u32) * (count + 1))) ret = -EFAULT; kfree(buf); return ret; } /* * cm_chan_create() - Create a message exchange channel */ static int cm_chan_create(struct file *filp, void __user *arg) { u16 __user *p = arg; u16 ch_num; struct rio_channel *ch; if (get_user(ch_num, p)) return -EFAULT; riocm_debug(CHOP, "ch_%d requested by %s(%d)", ch_num, current->comm, task_pid_nr(current)); ch = riocm_ch_create(&ch_num); if (IS_ERR(ch)) return PTR_ERR(ch); ch->filp = filp; riocm_debug(CHOP, "ch_%d created by %s(%d)", ch_num, current->comm, task_pid_nr(current)); return put_user(ch_num, p); } /* * cm_chan_close() - Close channel * @filp: Pointer to file object * @arg: Channel to close */ static int cm_chan_close(struct file *filp, void __user *arg) { u16 __user *p = arg; u16 ch_num; struct rio_channel *ch; if (get_user(ch_num, p)) return -EFAULT; riocm_debug(CHOP, "ch_%d by %s(%d)", ch_num, current->comm, task_pid_nr(current)); spin_lock_bh(&idr_lock); ch = idr_find(&ch_idr, ch_num); if (!ch) { spin_unlock_bh(&idr_lock); return 0; } if (ch->filp != filp) { spin_unlock_bh(&idr_lock); return -EINVAL; } idr_remove(&ch_idr, ch->id); spin_unlock_bh(&idr_lock); return riocm_ch_close(ch); } /* * cm_chan_bind() - Bind channel * @arg: Channel number */ static int cm_chan_bind(void __user *arg) { struct rio_cm_channel chan; if (copy_from_user(&chan, arg, sizeof(chan))) return -EFAULT; if (chan.mport_id >= RIO_MAX_MPORTS) return -EINVAL; return riocm_ch_bind(chan.id, chan.mport_id, NULL); } /* * cm_chan_listen() - Listen on channel * @arg: Channel number */ static int cm_chan_listen(void __user *arg) { u16 __user *p = arg; u16 ch_num; if (get_user(ch_num, p)) return -EFAULT; return riocm_ch_listen(ch_num); } /* * cm_chan_accept() - Accept incoming connection * @filp: Pointer to file object * @arg: Channel number */ static int cm_chan_accept(struct file *filp, void __user *arg) { struct rio_cm_accept param; long accept_to; struct rio_channel *ch; if (copy_from_user(¶m, arg, sizeof(param))) return -EFAULT; riocm_debug(CHOP, "on ch_%d by %s(%d)", param.ch_num, current->comm, task_pid_nr(current)); accept_to = param.wait_to ? msecs_to_jiffies(param.wait_to) : 0; ch = riocm_ch_accept(param.ch_num, ¶m.ch_num, accept_to); if (IS_ERR(ch)) return PTR_ERR(ch); ch->filp = filp; riocm_debug(CHOP, "new ch_%d for %s(%d)", ch->id, current->comm, task_pid_nr(current)); if (copy_to_user(arg, ¶m, sizeof(param))) return -EFAULT; return 0; } /* * cm_chan_connect() - Connect on channel * @arg: Channel information */ static int cm_chan_connect(void __user *arg) { struct rio_cm_channel chan; struct cm_dev *cm; struct cm_peer *peer; int ret = -ENODEV; if (copy_from_user(&chan, arg, sizeof(chan))) return -EFAULT; if (chan.mport_id >= RIO_MAX_MPORTS) return -EINVAL; down_read(&rdev_sem); /* Find matching cm_dev object */ list_for_each_entry(cm, &cm_dev_list, list) { if (cm->mport->id == chan.mport_id) { ret = 0; break; } } if (ret) goto err_out; if (chan.remote_destid >= RIO_ANY_DESTID(cm->mport->sys_size)) { ret = -EINVAL; goto err_out; } /* Find corresponding RapidIO endpoint device object */ ret = -ENODEV; list_for_each_entry(peer, &cm->peers, node) { if (peer->rdev->destid == chan.remote_destid) { ret = 0; break; } } if (ret) goto err_out; up_read(&rdev_sem); return riocm_ch_connect(chan.id, cm, peer, chan.remote_channel); err_out: up_read(&rdev_sem); return ret; } /* * cm_chan_msg_send() - Send a message through channel * @arg: Outbound message information */ static int cm_chan_msg_send(void __user *arg) { struct rio_cm_msg msg; void *buf; int ret; if (copy_from_user(&msg, arg, sizeof(msg))) return -EFAULT; if (msg.size > RIO_MAX_MSG_SIZE) return -EINVAL; buf = memdup_user((void __user *)(uintptr_t)msg.msg, msg.size); if (IS_ERR(buf)) return PTR_ERR(buf); ret = riocm_ch_send(msg.ch_num, buf, msg.size); kfree(buf); return ret; } /* * cm_chan_msg_rcv() - Receive a message through channel * @arg: Inbound message information */ static int cm_chan_msg_rcv(void __user *arg) { struct rio_cm_msg msg; struct rio_channel *ch; void *buf; long rxto; int ret = 0, msg_size; if (copy_from_user(&msg, arg, sizeof(msg))) return -EFAULT; if (msg.ch_num == 0 || msg.size == 0) return -EINVAL; ch = riocm_get_channel(msg.ch_num); if (!ch) return -ENODEV; rxto = msg.rxto ? msecs_to_jiffies(msg.rxto) : MAX_SCHEDULE_TIMEOUT; ret = riocm_ch_receive(ch, &buf, rxto); if (ret) goto out; msg_size = min(msg.size, (u16)(RIO_MAX_MSG_SIZE)); if (copy_to_user((void __user *)(uintptr_t)msg.msg, buf, msg_size)) ret = -EFAULT; riocm_ch_free_rxbuf(ch, buf); out: riocm_put_channel(ch); return ret; } /* * riocm_cdev_ioctl() - IOCTL requests handler */ static long riocm_cdev_ioctl(struct file *filp, unsigned int cmd, unsigned long arg) { switch (cmd) { case RIO_CM_EP_GET_LIST_SIZE: return cm_ep_get_list_size((void __user *)arg); case RIO_CM_EP_GET_LIST: return cm_ep_get_list((void __user *)arg); case RIO_CM_CHAN_CREATE: return cm_chan_create(filp, (void __user *)arg); case RIO_CM_CHAN_CLOSE: return cm_chan_close(filp, (void __user *)arg); case RIO_CM_CHAN_BIND: return cm_chan_bind((void __user *)arg); case RIO_CM_CHAN_LISTEN: return cm_chan_listen((void __user *)arg); case RIO_CM_CHAN_ACCEPT: return cm_chan_accept(filp, (void __user *)arg); case RIO_CM_CHAN_CONNECT: return cm_chan_connect((void __user *)arg); case RIO_CM_CHAN_SEND: return cm_chan_msg_send((void __user *)arg); case RIO_CM_CHAN_RECEIVE: return cm_chan_msg_rcv((void __user *)arg); case RIO_CM_MPORT_GET_LIST: return cm_mport_get_list((void __user *)arg); default: break; } return -EINVAL; } static const struct file_operations riocm_cdev_fops = { .owner = THIS_MODULE, .open = riocm_cdev_open, .release = riocm_cdev_release, .unlocked_ioctl = riocm_cdev_ioctl, }; /* * riocm_add_dev - add new remote RapidIO device into channel management core * @dev: device object associated with RapidIO device * @sif: subsystem interface * * Adds the specified RapidIO device (if applicable) into peers list of * the corresponding channel management device (cm_dev). */ static int riocm_add_dev(struct device *dev, struct subsys_interface *sif) { struct cm_peer *peer; struct rio_dev *rdev = to_rio_dev(dev); struct cm_dev *cm; /* Check if the remote device has capabilities required to support CM */ if (!dev_cm_capable(rdev)) return 0; riocm_debug(RDEV, "(%s)", rio_name(rdev)); peer = kmalloc(sizeof(*peer), GFP_KERNEL); if (!peer) return -ENOMEM; /* Find a corresponding cm_dev object */ down_write(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if (cm->mport == rdev->net->hport) goto found; } up_write(&rdev_sem); kfree(peer); return -ENODEV; found: peer->rdev = rdev; list_add_tail(&peer->node, &cm->peers); cm->npeers++; up_write(&rdev_sem); return 0; } /* * riocm_remove_dev - remove remote RapidIO device from channel management core * @dev: device object associated with RapidIO device * @sif: subsystem interface * * Removes the specified RapidIO device (if applicable) from peers list of * the corresponding channel management device (cm_dev). */ static void riocm_remove_dev(struct device *dev, struct subsys_interface *sif) { struct rio_dev *rdev = to_rio_dev(dev); struct cm_dev *cm; struct cm_peer *peer; struct rio_channel *ch, *_c; unsigned int i; bool found = false; LIST_HEAD(list); /* Check if the remote device has capabilities required to support CM */ if (!dev_cm_capable(rdev)) return; riocm_debug(RDEV, "(%s)", rio_name(rdev)); /* Find matching cm_dev object */ down_write(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if (cm->mport == rdev->net->hport) { found = true; break; } } if (!found) { up_write(&rdev_sem); return; } /* Remove remote device from the list of peers */ found = false; list_for_each_entry(peer, &cm->peers, node) { if (peer->rdev == rdev) { riocm_debug(RDEV, "removing peer %s", rio_name(rdev)); found = true; list_del(&peer->node); cm->npeers--; kfree(peer); break; } } up_write(&rdev_sem); if (!found) return; /* * Release channels associated with this peer */ spin_lock_bh(&idr_lock); idr_for_each_entry(&ch_idr, ch, i) { if (ch && ch->rdev == rdev) { if (atomic_read(&rdev->state) != RIO_DEVICE_SHUTDOWN) riocm_exch(ch, RIO_CM_DISCONNECT); idr_remove(&ch_idr, ch->id); list_add(&ch->ch_node, &list); } } spin_unlock_bh(&idr_lock); if (!list_empty(&list)) { list_for_each_entry_safe(ch, _c, &list, ch_node) { list_del(&ch->ch_node); riocm_ch_close(ch); } } } /* * riocm_cdev_add() - Create rio_cm char device * @devno: device number assigned to device (MAJ + MIN) */ static int riocm_cdev_add(dev_t devno) { int ret; cdev_init(&riocm_cdev.cdev, &riocm_cdev_fops); riocm_cdev.cdev.owner = THIS_MODULE; ret = cdev_add(&riocm_cdev.cdev, devno, 1); if (ret < 0) { riocm_error("Cannot register a device with error %d", ret); return ret; } riocm_cdev.dev = device_create(dev_class, NULL, devno, NULL, DEV_NAME); if (IS_ERR(riocm_cdev.dev)) { cdev_del(&riocm_cdev.cdev); return PTR_ERR(riocm_cdev.dev); } riocm_debug(MPORT, "Added %s cdev(%d:%d)", DEV_NAME, MAJOR(devno), MINOR(devno)); return 0; } /* * riocm_add_mport - add new local mport device into channel management core * @dev: device object associated with mport * @class_intf: class interface * * When a new mport device is added, CM immediately reserves inbound and * outbound RapidIO mailboxes that will be used. */ static int riocm_add_mport(struct device *dev, struct class_interface *class_intf) { int rc; int i; struct cm_dev *cm; struct rio_mport *mport = to_rio_mport(dev); riocm_debug(MPORT, "add mport %s", mport->name); cm = kzalloc(sizeof(*cm), GFP_KERNEL); if (!cm) return -ENOMEM; cm->mport = mport; rc = rio_request_outb_mbox(mport, cm, cmbox, RIOCM_TX_RING_SIZE, riocm_outb_msg_event); if (rc) { riocm_error("failed to allocate OBMBOX_%d on %s", cmbox, mport->name); kfree(cm); return -ENODEV; } rc = rio_request_inb_mbox(mport, cm, cmbox, RIOCM_RX_RING_SIZE, riocm_inb_msg_event); if (rc) { riocm_error("failed to allocate IBMBOX_%d on %s", cmbox, mport->name); rio_release_outb_mbox(mport, cmbox); kfree(cm); return -ENODEV; } /* * Allocate and register inbound messaging buffers to be ready * to receive channel and system management requests */ for (i = 0; i < RIOCM_RX_RING_SIZE; i++) cm->rx_buf[i] = NULL; cm->rx_slots = RIOCM_RX_RING_SIZE; mutex_init(&cm->rx_lock); riocm_rx_fill(cm, RIOCM_RX_RING_SIZE); cm->rx_wq = create_workqueue(DRV_NAME "/rxq"); INIT_WORK(&cm->rx_work, rio_ibmsg_handler); cm->tx_slot = 0; cm->tx_cnt = 0; cm->tx_ack_slot = 0; spin_lock_init(&cm->tx_lock); INIT_LIST_HEAD(&cm->peers); cm->npeers = 0; INIT_LIST_HEAD(&cm->tx_reqs); down_write(&rdev_sem); list_add_tail(&cm->list, &cm_dev_list); up_write(&rdev_sem); return 0; } /* * riocm_remove_mport - remove local mport device from channel management core * @dev: device object associated with mport * @class_intf: class interface * * Removes a local mport device from the list of registered devices that provide * channel management services. Returns an error if the specified mport is not * registered with the CM core. */ static void riocm_remove_mport(struct device *dev, struct class_interface *class_intf) { struct rio_mport *mport = to_rio_mport(dev); struct cm_dev *cm; struct cm_peer *peer, *temp; struct rio_channel *ch, *_c; unsigned int i; bool found = false; LIST_HEAD(list); riocm_debug(MPORT, "%s", mport->name); /* Find a matching cm_dev object */ down_write(&rdev_sem); list_for_each_entry(cm, &cm_dev_list, list) { if (cm->mport == mport) { list_del(&cm->list); found = true; break; } } up_write(&rdev_sem); if (!found) return; flush_workqueue(cm->rx_wq); destroy_workqueue(cm->rx_wq); /* Release channels bound to this mport */ spin_lock_bh(&idr_lock); idr_for_each_entry(&ch_idr, ch, i) { if (ch->cmdev == cm) { riocm_debug(RDEV, "%s drop ch_%d", mport->name, ch->id); idr_remove(&ch_idr, ch->id); list_add(&ch->ch_node, &list); } } spin_unlock_bh(&idr_lock); if (!list_empty(&list)) { list_for_each_entry_safe(ch, _c, &list, ch_node) { list_del(&ch->ch_node); riocm_ch_close(ch); } } rio_release_inb_mbox(mport, cmbox); rio_release_outb_mbox(mport, cmbox); /* Remove and free peer entries */ if (!list_empty(&cm->peers)) riocm_debug(RDEV, "ATTN: peer list not empty"); list_for_each_entry_safe(peer, temp, &cm->peers, node) { riocm_debug(RDEV, "removing peer %s", rio_name(peer->rdev)); list_del(&peer->node); kfree(peer); } riocm_rx_free(cm); kfree(cm); riocm_debug(MPORT, "%s done", mport->name); } static int rio_cm_shutdown(struct notifier_block *nb, unsigned long code, void *unused) { struct rio_channel *ch; unsigned int i; LIST_HEAD(list); riocm_debug(EXIT, "."); /* * If there are any channels left in connected state send * close notification to the connection partner. * First build a list of channels that require a closing * notification because function riocm_send_close() should * be called outside of spinlock protected code. */ spin_lock_bh(&idr_lock); idr_for_each_entry(&ch_idr, ch, i) { if (ch->state == RIO_CM_CONNECTED) { riocm_debug(EXIT, "close ch %d", ch->id); idr_remove(&ch_idr, ch->id); list_add(&ch->ch_node, &list); } } spin_unlock_bh(&idr_lock); list_for_each_entry(ch, &list, ch_node) riocm_send_close(ch); return NOTIFY_DONE; } /* * riocm_interface handles addition/removal of remote RapidIO devices */ static struct subsys_interface riocm_interface = { .name = "rio_cm", .subsys = &rio_bus_type, .add_dev = riocm_add_dev, .remove_dev = riocm_remove_dev, }; /* * rio_mport_interface handles addition/removal local mport devices */ static struct class_interface rio_mport_interface __refdata = { .class = &rio_mport_class, .add_dev = riocm_add_mport, .remove_dev = riocm_remove_mport, }; static struct notifier_block rio_cm_notifier = { .notifier_call = rio_cm_shutdown, }; static int __init riocm_init(void) { int ret; /* Create device class needed by udev */ dev_class = class_create(THIS_MODULE, DRV_NAME); if (IS_ERR(dev_class)) { riocm_error("Cannot create " DRV_NAME " class"); return PTR_ERR(dev_class); } ret = alloc_chrdev_region(&dev_number, 0, 1, DRV_NAME); if (ret) { class_destroy(dev_class); return ret; } dev_major = MAJOR(dev_number); dev_minor_base = MINOR(dev_number); riocm_debug(INIT, "Registered class with %d major", dev_major); /* * Register as rapidio_port class interface to get notifications about * mport additions and removals. */ ret = class_interface_register(&rio_mport_interface); if (ret) { riocm_error("class_interface_register error: %d", ret); goto err_reg; } /* * Register as RapidIO bus interface to get notifications about * addition/removal of remote RapidIO devices. */ ret = subsys_interface_register(&riocm_interface); if (ret) { riocm_error("subsys_interface_register error: %d", ret); goto err_cl; } ret = register_reboot_notifier(&rio_cm_notifier); if (ret) { riocm_error("failed to register reboot notifier (err=%d)", ret); goto err_sif; } ret = riocm_cdev_add(dev_number); if (ret) { unregister_reboot_notifier(&rio_cm_notifier); ret = -ENODEV; goto err_sif; } return 0; err_sif: subsys_interface_unregister(&riocm_interface); err_cl: class_interface_unregister(&rio_mport_interface); err_reg: unregister_chrdev_region(dev_number, 1); class_destroy(dev_class); return ret; } static void __exit riocm_exit(void) { riocm_debug(EXIT, "enter"); unregister_reboot_notifier(&rio_cm_notifier); subsys_interface_unregister(&riocm_interface); class_interface_unregister(&rio_mport_interface); idr_destroy(&ch_idr); device_unregister(riocm_cdev.dev); cdev_del(&(riocm_cdev.cdev)); class_destroy(dev_class); unregister_chrdev_region(dev_number, 1); } late_initcall(riocm_init); module_exit(riocm_exit); |