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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 | // SPDX-License-Identifier: GPL-2.0+ /* * u_serial.c - utilities for USB gadget "serial port"/TTY support * * Copyright (C) 2003 Al Borchers (alborchers@steinerpoint.com) * Copyright (C) 2008 David Brownell * Copyright (C) 2008 by Nokia Corporation * * This code also borrows from usbserial.c, which is * Copyright (C) 1999 - 2002 Greg Kroah-Hartman (greg@kroah.com) * Copyright (C) 2000 Peter Berger (pberger@brimson.com) * Copyright (C) 2000 Al Borchers (alborchers@steinerpoint.com) */ /* #define VERBOSE_DEBUG */ #include <linux/kernel.h> #include <linux/sched.h> #include <linux/device.h> #include <linux/delay.h> #include <linux/tty.h> #include <linux/tty_flip.h> #include <linux/slab.h> #include <linux/export.h> #include <linux/module.h> #include <linux/console.h> #include <linux/kthread.h> #include <linux/workqueue.h> #include <linux/kfifo.h> #include "u_serial.h" /* * This component encapsulates the TTY layer glue needed to provide basic * "serial port" functionality through the USB gadget stack. Each such * port is exposed through a /dev/ttyGS* node. * * After this module has been loaded, the individual TTY port can be requested * (gserial_alloc_line()) and it will stay available until they are removed * (gserial_free_line()). Each one may be connected to a USB function * (gserial_connect), or disconnected (with gserial_disconnect) when the USB * host issues a config change event. Data can only flow when the port is * connected to the host. * * A given TTY port can be made available in multiple configurations. * For example, each one might expose a ttyGS0 node which provides a * login application. In one case that might use CDC ACM interface 0, * while another configuration might use interface 3 for that. The * work to handle that (including descriptor management) is not part * of this component. * * Configurations may expose more than one TTY port. For example, if * ttyGS0 provides login service, then ttyGS1 might provide dialer access * for a telephone or fax link. And ttyGS2 might be something that just * needs a simple byte stream interface for some messaging protocol that * is managed in userspace ... OBEX, PTP, and MTP have been mentioned. * * * gserial is the lifecycle interface, used by USB functions * gs_port is the I/O nexus, used by the tty driver * tty_struct links to the tty/filesystem framework * * gserial <---> gs_port ... links will be null when the USB link is * inactive; managed by gserial_{connect,disconnect}(). each gserial * instance can wrap its own USB control protocol. * gserial->ioport == usb_ep->driver_data ... gs_port * gs_port->port_usb ... gserial * * gs_port <---> tty_struct ... links will be null when the TTY file * isn't opened; managed by gs_open()/gs_close() * gserial->port_tty ... tty_struct * tty_struct->driver_data ... gserial */ /* RX and TX queues can buffer QUEUE_SIZE packets before they hit the * next layer of buffering. For TX that's a circular buffer; for RX * consider it a NOP. A third layer is provided by the TTY code. */ #define QUEUE_SIZE 16 #define WRITE_BUF_SIZE 8192 /* TX only */ #define GS_CONSOLE_BUF_SIZE 8192 /* console info */ struct gs_console { struct console console; struct work_struct work; spinlock_t lock; struct usb_request *req; struct kfifo buf; size_t missed; }; /* * The port structure holds info for each port, one for each minor number * (and thus for each /dev/ node). */ struct gs_port { struct tty_port port; spinlock_t port_lock; /* guard port_* access */ struct gserial *port_usb; #ifdef CONFIG_U_SERIAL_CONSOLE struct gs_console *console; #endif u8 port_num; struct list_head read_pool; int read_started; int read_allocated; struct list_head read_queue; unsigned n_read; struct delayed_work push; struct list_head write_pool; int write_started; int write_allocated; struct kfifo port_write_buf; wait_queue_head_t drain_wait; /* wait while writes drain */ bool write_busy; wait_queue_head_t close_wait; bool suspended; /* port suspended */ bool start_delayed; /* delay start when suspended */ /* REVISIT this state ... */ struct usb_cdc_line_coding port_line_coding; /* 8-N-1 etc */ }; static struct portmaster { struct mutex lock; /* protect open/close */ struct gs_port *port; } ports[MAX_U_SERIAL_PORTS]; #define GS_CLOSE_TIMEOUT 15 /* seconds */ #ifdef VERBOSE_DEBUG #ifndef pr_vdebug #define pr_vdebug(fmt, arg...) \ pr_debug(fmt, ##arg) #endif /* pr_vdebug */ #else #ifndef pr_vdebug #define pr_vdebug(fmt, arg...) \ ({ if (0) pr_debug(fmt, ##arg); }) #endif /* pr_vdebug */ #endif /*-------------------------------------------------------------------------*/ /* I/O glue between TTY (upper) and USB function (lower) driver layers */ /* * gs_alloc_req * * Allocate a usb_request and its buffer. Returns a pointer to the * usb_request or NULL if there is an error. */ struct usb_request * gs_alloc_req(struct usb_ep *ep, unsigned len, gfp_t kmalloc_flags) { struct usb_request *req; req = usb_ep_alloc_request(ep, kmalloc_flags); if (req != NULL) { req->length = len; req->buf = kmalloc(len, kmalloc_flags); if (req->buf == NULL) { usb_ep_free_request(ep, req); return NULL; } } return req; } EXPORT_SYMBOL_GPL(gs_alloc_req); /* * gs_free_req * * Free a usb_request and its buffer. */ void gs_free_req(struct usb_ep *ep, struct usb_request *req) { kfree(req->buf); usb_ep_free_request(ep, req); } EXPORT_SYMBOL_GPL(gs_free_req); /* * gs_send_packet * * If there is data to send, a packet is built in the given * buffer and the size is returned. If there is no data to * send, 0 is returned. * * Called with port_lock held. */ static unsigned gs_send_packet(struct gs_port *port, char *packet, unsigned size) { unsigned len; len = kfifo_len(&port->port_write_buf); if (len < size) size = len; if (size != 0) size = kfifo_out(&port->port_write_buf, packet, size); return size; } /* * gs_start_tx * * This function finds available write requests, calls * gs_send_packet to fill these packets with data, and * continues until either there are no more write requests * available or no more data to send. This function is * run whenever data arrives or write requests are available. * * Context: caller owns port_lock; port_usb is non-null. */ static int gs_start_tx(struct gs_port *port) /* __releases(&port->port_lock) __acquires(&port->port_lock) */ { struct list_head *pool = &port->write_pool; struct usb_ep *in; int status = 0; bool do_tty_wake = false; if (!port->port_usb) return status; in = port->port_usb->in; while (!port->write_busy && !list_empty(pool)) { struct usb_request *req; int len; if (port->write_started >= QUEUE_SIZE) break; req = list_entry(pool->next, struct usb_request, list); len = gs_send_packet(port, req->buf, in->maxpacket); if (len == 0) { wake_up_interruptible(&port->drain_wait); break; } do_tty_wake = true; req->length = len; list_del(&req->list); req->zero = kfifo_is_empty(&port->port_write_buf); pr_vdebug("ttyGS%d: tx len=%d, 0x%02x 0x%02x 0x%02x ...\n", port->port_num, len, *((u8 *)req->buf), *((u8 *)req->buf+1), *((u8 *)req->buf+2)); /* Drop lock while we call out of driver; completions * could be issued while we do so. Disconnection may * happen too; maybe immediately before we queue this! * * NOTE that we may keep sending data for a while after * the TTY closed (dev->ioport->port_tty is NULL). */ port->write_busy = true; spin_unlock(&port->port_lock); status = usb_ep_queue(in, req, GFP_ATOMIC); spin_lock(&port->port_lock); port->write_busy = false; if (status) { pr_debug("%s: %s %s err %d\n", __func__, "queue", in->name, status); list_add(&req->list, pool); break; } port->write_started++; /* abort immediately after disconnect */ if (!port->port_usb) break; } if (do_tty_wake && port->port.tty) tty_wakeup(port->port.tty); return status; } /* * Context: caller owns port_lock, and port_usb is set */ static unsigned gs_start_rx(struct gs_port *port) /* __releases(&port->port_lock) __acquires(&port->port_lock) */ { struct list_head *pool = &port->read_pool; struct usb_ep *out = port->port_usb->out; while (!list_empty(pool)) { struct usb_request *req; int status; struct tty_struct *tty; /* no more rx if closed */ tty = port->port.tty; if (!tty) break; if (port->read_started >= QUEUE_SIZE) break; req = list_entry(pool->next, struct usb_request, list); list_del(&req->list); req->length = out->maxpacket; /* drop lock while we call out; the controller driver * may need to call us back (e.g. for disconnect) */ spin_unlock(&port->port_lock); status = usb_ep_queue(out, req, GFP_ATOMIC); spin_lock(&port->port_lock); if (status) { pr_debug("%s: %s %s err %d\n", __func__, "queue", out->name, status); list_add(&req->list, pool); break; } port->read_started++; /* abort immediately after disconnect */ if (!port->port_usb) break; } return port->read_started; } /* * RX tasklet takes data out of the RX queue and hands it up to the TTY * layer until it refuses to take any more data (or is throttled back). * Then it issues reads for any further data. * * If the RX queue becomes full enough that no usb_request is queued, * the OUT endpoint may begin NAKing as soon as its FIFO fills up. * So QUEUE_SIZE packets plus however many the FIFO holds (usually two) * can be buffered before the TTY layer's buffers (currently 64 KB). */ static void gs_rx_push(struct work_struct *work) { struct delayed_work *w = to_delayed_work(work); struct gs_port *port = container_of(w, struct gs_port, push); struct tty_struct *tty; struct list_head *queue = &port->read_queue; bool disconnect = false; bool do_push = false; /* hand any queued data to the tty */ spin_lock_irq(&port->port_lock); tty = port->port.tty; while (!list_empty(queue)) { struct usb_request *req; req = list_first_entry(queue, struct usb_request, list); /* leave data queued if tty was rx throttled */ if (tty && tty_throttled(tty)) break; switch (req->status) { case -ESHUTDOWN: disconnect = true; pr_vdebug("ttyGS%d: shutdown\n", port->port_num); break; default: /* presumably a transient fault */ pr_warn("ttyGS%d: unexpected RX status %d\n", port->port_num, req->status); fallthrough; case 0: /* normal completion */ break; } /* push data to (open) tty */ if (req->actual && tty) { char *packet = req->buf; unsigned size = req->actual; unsigned n; int count; /* we may have pushed part of this packet already... */ n = port->n_read; if (n) { packet += n; size -= n; } count = tty_insert_flip_string(&port->port, packet, size); if (count) do_push = true; if (count != size) { /* stop pushing; TTY layer can't handle more */ port->n_read += count; pr_vdebug("ttyGS%d: rx block %d/%d\n", port->port_num, count, req->actual); break; } port->n_read = 0; } list_move(&req->list, &port->read_pool); port->read_started--; } /* Push from tty to ldisc; this is handled by a workqueue, * so we won't get callbacks and can hold port_lock */ if (do_push) tty_flip_buffer_push(&port->port); /* We want our data queue to become empty ASAP, keeping data * in the tty and ldisc (not here). If we couldn't push any * this time around, RX may be starved, so wait until next jiffy. * * We may leave non-empty queue only when there is a tty, and * either it is throttled or there is no more room in flip buffer. */ if (!list_empty(queue) && !tty_throttled(tty)) schedule_delayed_work(&port->push, 1); /* If we're still connected, refill the USB RX queue. */ if (!disconnect && port->port_usb) gs_start_rx(port); spin_unlock_irq(&port->port_lock); } static void gs_read_complete(struct usb_ep *ep, struct usb_request *req) { struct gs_port *port = ep->driver_data; /* Queue all received data until the tty layer is ready for it. */ spin_lock(&port->port_lock); list_add_tail(&req->list, &port->read_queue); schedule_delayed_work(&port->push, 0); spin_unlock(&port->port_lock); } static void gs_write_complete(struct usb_ep *ep, struct usb_request *req) { struct gs_port *port = ep->driver_data; spin_lock(&port->port_lock); list_add(&req->list, &port->write_pool); port->write_started--; switch (req->status) { default: /* presumably a transient fault */ pr_warn("%s: unexpected %s status %d\n", __func__, ep->name, req->status); fallthrough; case 0: /* normal completion */ gs_start_tx(port); break; case -ESHUTDOWN: /* disconnect */ pr_vdebug("%s: %s shutdown\n", __func__, ep->name); break; } spin_unlock(&port->port_lock); } static void gs_free_requests(struct usb_ep *ep, struct list_head *head, int *allocated) { struct usb_request *req; while (!list_empty(head)) { req = list_entry(head->next, struct usb_request, list); list_del(&req->list); gs_free_req(ep, req); if (allocated) (*allocated)--; } } static int gs_alloc_requests(struct usb_ep *ep, struct list_head *head, void (*fn)(struct usb_ep *, struct usb_request *), int *allocated) { int i; struct usb_request *req; int n = allocated ? QUEUE_SIZE - *allocated : QUEUE_SIZE; /* Pre-allocate up to QUEUE_SIZE transfers, but if we can't * do quite that many this time, don't fail ... we just won't * be as speedy as we might otherwise be. */ for (i = 0; i < n; i++) { req = gs_alloc_req(ep, ep->maxpacket, GFP_ATOMIC); if (!req) return list_empty(head) ? -ENOMEM : 0; req->complete = fn; list_add_tail(&req->list, head); if (allocated) (*allocated)++; } return 0; } /** * gs_start_io - start USB I/O streams * @port: port to use * Context: holding port_lock; port_tty and port_usb are non-null * * We only start I/O when something is connected to both sides of * this port. If nothing is listening on the host side, we may * be pointlessly filling up our TX buffers and FIFO. */ static int gs_start_io(struct gs_port *port) { struct list_head *head = &port->read_pool; struct usb_ep *ep = port->port_usb->out; int status; unsigned started; /* Allocate RX and TX I/O buffers. We can't easily do this much * earlier (with GFP_KERNEL) because the requests are coupled to * endpoints, as are the packet sizes we'll be using. Different * configurations may use different endpoints with a given port; * and high speed vs full speed changes packet sizes too. */ status = gs_alloc_requests(ep, head, gs_read_complete, &port->read_allocated); if (status) return status; status = gs_alloc_requests(port->port_usb->in, &port->write_pool, gs_write_complete, &port->write_allocated); if (status) { gs_free_requests(ep, head, &port->read_allocated); return status; } /* queue read requests */ port->n_read = 0; started = gs_start_rx(port); if (started) { gs_start_tx(port); /* Unblock any pending writes into our circular buffer, in case * we didn't in gs_start_tx() */ tty_wakeup(port->port.tty); } else { gs_free_requests(ep, head, &port->read_allocated); gs_free_requests(port->port_usb->in, &port->write_pool, &port->write_allocated); status = -EIO; } return status; } /*-------------------------------------------------------------------------*/ /* TTY Driver */ /* * gs_open sets up the link between a gs_port and its associated TTY. * That link is broken *only* by TTY close(), and all driver methods * know that. */ static int gs_open(struct tty_struct *tty, struct file *file) { int port_num = tty->index; struct gs_port *port; int status = 0; mutex_lock(&ports[port_num].lock); port = ports[port_num].port; if (!port) { status = -ENODEV; goto out; } spin_lock_irq(&port->port_lock); /* allocate circular buffer on first open */ if (!kfifo_initialized(&port->port_write_buf)) { spin_unlock_irq(&port->port_lock); /* * portmaster's mutex still protects from simultaneous open(), * and close() can't happen, yet. */ status = kfifo_alloc(&port->port_write_buf, WRITE_BUF_SIZE, GFP_KERNEL); if (status) { pr_debug("gs_open: ttyGS%d (%p,%p) no buffer\n", port_num, tty, file); goto out; } spin_lock_irq(&port->port_lock); } /* already open? Great. */ if (port->port.count++) goto exit_unlock_port; tty->driver_data = port; port->port.tty = tty; /* if connected, start the I/O stream */ if (port->port_usb) { /* if port is suspended, wait resume to start I/0 stream */ if (!port->suspended) { struct gserial *gser = port->port_usb; pr_debug("gs_open: start ttyGS%d\n", port->port_num); gs_start_io(port); if (gser->connect) gser->connect(gser); } else { pr_debug("delay start of ttyGS%d\n", port->port_num); port->start_delayed = true; } } pr_debug("gs_open: ttyGS%d (%p,%p)\n", port->port_num, tty, file); exit_unlock_port: spin_unlock_irq(&port->port_lock); out: mutex_unlock(&ports[port_num].lock); return status; } static int gs_close_flush_done(struct gs_port *p) { int cond; /* return true on disconnect or empty buffer or if raced with open() */ spin_lock_irq(&p->port_lock); cond = p->port_usb == NULL || !kfifo_len(&p->port_write_buf) || p->port.count > 1; spin_unlock_irq(&p->port_lock); return cond; } static void gs_close(struct tty_struct *tty, struct file *file) { struct gs_port *port = tty->driver_data; struct gserial *gser; spin_lock_irq(&port->port_lock); if (port->port.count != 1) { raced_with_open: if (port->port.count == 0) WARN_ON(1); else --port->port.count; goto exit; } pr_debug("gs_close: ttyGS%d (%p,%p) ...\n", port->port_num, tty, file); gser = port->port_usb; if (gser && !port->suspended && gser->disconnect) gser->disconnect(gser); /* wait for circular write buffer to drain, disconnect, or at * most GS_CLOSE_TIMEOUT seconds; then discard the rest */ if (kfifo_len(&port->port_write_buf) > 0 && gser) { spin_unlock_irq(&port->port_lock); wait_event_interruptible_timeout(port->drain_wait, gs_close_flush_done(port), GS_CLOSE_TIMEOUT * HZ); spin_lock_irq(&port->port_lock); if (port->port.count != 1) goto raced_with_open; gser = port->port_usb; } /* Iff we're disconnected, there can be no I/O in flight so it's * ok to free the circular buffer; else just scrub it. And don't * let the push tasklet fire again until we're re-opened. */ if (gser == NULL) kfifo_free(&port->port_write_buf); else kfifo_reset(&port->port_write_buf); port->start_delayed = false; port->port.count = 0; port->port.tty = NULL; pr_debug("gs_close: ttyGS%d (%p,%p) done!\n", port->port_num, tty, file); wake_up(&port->close_wait); exit: spin_unlock_irq(&port->port_lock); } static int gs_write(struct tty_struct *tty, const unsigned char *buf, int count) { struct gs_port *port = tty->driver_data; unsigned long flags; pr_vdebug("gs_write: ttyGS%d (%p) writing %d bytes\n", port->port_num, tty, count); spin_lock_irqsave(&port->port_lock, flags); if (count) count = kfifo_in(&port->port_write_buf, buf, count); /* treat count == 0 as flush_chars() */ if (port->port_usb) gs_start_tx(port); spin_unlock_irqrestore(&port->port_lock, flags); return count; } static int gs_put_char(struct tty_struct *tty, unsigned char ch) { struct gs_port *port = tty->driver_data; unsigned long flags; int status; pr_vdebug("gs_put_char: (%d,%p) char=0x%x, called from %ps\n", port->port_num, tty, ch, __builtin_return_address(0)); spin_lock_irqsave(&port->port_lock, flags); status = kfifo_put(&port->port_write_buf, ch); spin_unlock_irqrestore(&port->port_lock, flags); return status; } static void gs_flush_chars(struct tty_struct *tty) { struct gs_port *port = tty->driver_data; unsigned long flags; pr_vdebug("gs_flush_chars: (%d,%p)\n", port->port_num, tty); spin_lock_irqsave(&port->port_lock, flags); if (port->port_usb) gs_start_tx(port); spin_unlock_irqrestore(&port->port_lock, flags); } static int gs_write_room(struct tty_struct *tty) { struct gs_port *port = tty->driver_data; unsigned long flags; int room = 0; spin_lock_irqsave(&port->port_lock, flags); if (port->port_usb) room = kfifo_avail(&port->port_write_buf); spin_unlock_irqrestore(&port->port_lock, flags); pr_vdebug("gs_write_room: (%d,%p) room=%d\n", port->port_num, tty, room); return room; } static int gs_chars_in_buffer(struct tty_struct *tty) { struct gs_port *port = tty->driver_data; unsigned long flags; int chars = 0; spin_lock_irqsave(&port->port_lock, flags); chars = kfifo_len(&port->port_write_buf); spin_unlock_irqrestore(&port->port_lock, flags); pr_vdebug("gs_chars_in_buffer: (%d,%p) chars=%d\n", port->port_num, tty, chars); return chars; } /* undo side effects of setting TTY_THROTTLED */ static void gs_unthrottle(struct tty_struct *tty) { struct gs_port *port = tty->driver_data; unsigned long flags; spin_lock_irqsave(&port->port_lock, flags); if (port->port_usb) { /* Kickstart read queue processing. We don't do xon/xoff, * rts/cts, or other handshaking with the host, but if the * read queue backs up enough we'll be NAKing OUT packets. */ pr_vdebug("ttyGS%d: unthrottle\n", port->port_num); schedule_delayed_work(&port->push, 0); } spin_unlock_irqrestore(&port->port_lock, flags); } static int gs_break_ctl(struct tty_struct *tty, int duration) { struct gs_port *port = tty->driver_data; int status = 0; struct gserial *gser; pr_vdebug("gs_break_ctl: ttyGS%d, send break (%d) \n", port->port_num, duration); spin_lock_irq(&port->port_lock); gser = port->port_usb; if (gser && gser->send_break) status = gser->send_break(gser, duration); spin_unlock_irq(&port->port_lock); return status; } static const struct tty_operations gs_tty_ops = { .open = gs_open, .close = gs_close, .write = gs_write, .put_char = gs_put_char, .flush_chars = gs_flush_chars, .write_room = gs_write_room, .chars_in_buffer = gs_chars_in_buffer, .unthrottle = gs_unthrottle, .break_ctl = gs_break_ctl, }; /*-------------------------------------------------------------------------*/ static struct tty_driver *gs_tty_driver; #ifdef CONFIG_U_SERIAL_CONSOLE static void gs_console_complete_out(struct usb_ep *ep, struct usb_request *req) { struct gs_console *cons = req->context; switch (req->status) { default: pr_warn("%s: unexpected %s status %d\n", __func__, ep->name, req->status); fallthrough; case 0: /* normal completion */ spin_lock(&cons->lock); req->length = 0; schedule_work(&cons->work); spin_unlock(&cons->lock); break; case -ECONNRESET: case -ESHUTDOWN: /* disconnect */ pr_vdebug("%s: %s shutdown\n", __func__, ep->name); break; } } static void __gs_console_push(struct gs_console *cons) { struct usb_request *req = cons->req; struct usb_ep *ep; size_t size; if (!req) return; /* disconnected */ if (req->length) return; /* busy */ ep = cons->console.data; size = kfifo_out(&cons->buf, req->buf, ep->maxpacket); if (!size) return; if (cons->missed && ep->maxpacket >= 64) { char buf[64]; size_t len; len = sprintf(buf, "\n[missed %zu bytes]\n", cons->missed); kfifo_in(&cons->buf, buf, len); cons->missed = 0; } req->length = size; if (usb_ep_queue(ep, req, GFP_ATOMIC)) req->length = 0; } static void gs_console_work(struct work_struct *work) { struct gs_console *cons = container_of(work, struct gs_console, work); spin_lock_irq(&cons->lock); __gs_console_push(cons); spin_unlock_irq(&cons->lock); } static void gs_console_write(struct console *co, const char *buf, unsigned count) { struct gs_console *cons = container_of(co, struct gs_console, console); unsigned long flags; size_t n; spin_lock_irqsave(&cons->lock, flags); n = kfifo_in(&cons->buf, buf, count); if (n < count) cons->missed += count - n; if (cons->req && !cons->req->length) schedule_work(&cons->work); spin_unlock_irqrestore(&cons->lock, flags); } static struct tty_driver *gs_console_device(struct console *co, int *index) { *index = co->index; return gs_tty_driver; } static int gs_console_connect(struct gs_port *port) { struct gs_console *cons = port->console; struct usb_request *req; struct usb_ep *ep; if (!cons) return 0; ep = port->port_usb->in; req = gs_alloc_req(ep, ep->maxpacket, GFP_ATOMIC); if (!req) return -ENOMEM; req->complete = gs_console_complete_out; req->context = cons; req->length = 0; spin_lock(&cons->lock); cons->req = req; cons->console.data = ep; spin_unlock(&cons->lock); pr_debug("ttyGS%d: console connected!\n", port->port_num); schedule_work(&cons->work); return 0; } static void gs_console_disconnect(struct gs_port *port) { struct gs_console *cons = port->console; struct usb_request *req; struct usb_ep *ep; if (!cons) return; spin_lock(&cons->lock); req = cons->req; ep = cons->console.data; cons->req = NULL; spin_unlock(&cons->lock); if (!req) return; usb_ep_dequeue(ep, req); gs_free_req(ep, req); } static int gs_console_init(struct gs_port *port) { struct gs_console *cons; int err; if (port->console) return 0; cons = kzalloc(sizeof(*port->console), GFP_KERNEL); if (!cons) return -ENOMEM; strcpy(cons->console.name, "ttyGS"); cons->console.write = gs_console_write; cons->console.device = gs_console_device; cons->console.flags = CON_PRINTBUFFER; cons->console.index = port->port_num; INIT_WORK(&cons->work, gs_console_work); spin_lock_init(&cons->lock); err = kfifo_alloc(&cons->buf, GS_CONSOLE_BUF_SIZE, GFP_KERNEL); if (err) { pr_err("ttyGS%d: allocate console buffer failed\n", port->port_num); kfree(cons); return err; } port->console = cons; register_console(&cons->console); spin_lock_irq(&port->port_lock); if (port->port_usb) gs_console_connect(port); spin_unlock_irq(&port->port_lock); return 0; } static void gs_console_exit(struct gs_port *port) { struct gs_console *cons = port->console; if (!cons) return; unregister_console(&cons->console); spin_lock_irq(&port->port_lock); if (cons->req) gs_console_disconnect(port); spin_unlock_irq(&port->port_lock); cancel_work_sync(&cons->work); kfifo_free(&cons->buf); kfree(cons); port->console = NULL; } ssize_t gserial_set_console(unsigned char port_num, const char *page, size_t count) { struct gs_port *port; bool enable; int ret; ret = strtobool(page, &enable); if (ret) return ret; mutex_lock(&ports[port_num].lock); port = ports[port_num].port; if (WARN_ON(port == NULL)) { ret = -ENXIO; goto out; } if (enable) ret = gs_console_init(port); else gs_console_exit(port); out: mutex_unlock(&ports[port_num].lock); return ret < 0 ? ret : count; } EXPORT_SYMBOL_GPL(gserial_set_console); ssize_t gserial_get_console(unsigned char port_num, char *page) { struct gs_port *port; ssize_t ret; mutex_lock(&ports[port_num].lock); port = ports[port_num].port; if (WARN_ON(port == NULL)) ret = -ENXIO; else ret = sprintf(page, "%u\n", !!port->console); mutex_unlock(&ports[port_num].lock); return ret; } EXPORT_SYMBOL_GPL(gserial_get_console); #else static int gs_console_connect(struct gs_port *port) { return 0; } static void gs_console_disconnect(struct gs_port *port) { } static int gs_console_init(struct gs_port *port) { return -ENOSYS; } static void gs_console_exit(struct gs_port *port) { } #endif static int gs_port_alloc(unsigned port_num, struct usb_cdc_line_coding *coding) { struct gs_port *port; int ret = 0; mutex_lock(&ports[port_num].lock); if (ports[port_num].port) { ret = -EBUSY; goto out; } port = kzalloc(sizeof(struct gs_port), GFP_KERNEL); if (port == NULL) { ret = -ENOMEM; goto out; } tty_port_init(&port->port); spin_lock_init(&port->port_lock); init_waitqueue_head(&port->drain_wait); init_waitqueue_head(&port->close_wait); INIT_DELAYED_WORK(&port->push, gs_rx_push); INIT_LIST_HEAD(&port->read_pool); INIT_LIST_HEAD(&port->read_queue); INIT_LIST_HEAD(&port->write_pool); port->port_num = port_num; port->port_line_coding = *coding; ports[port_num].port = port; out: mutex_unlock(&ports[port_num].lock); return ret; } static int gs_closed(struct gs_port *port) { int cond; spin_lock_irq(&port->port_lock); cond = port->port.count == 0; spin_unlock_irq(&port->port_lock); return cond; } static void gserial_free_port(struct gs_port *port) { cancel_delayed_work_sync(&port->push); /* wait for old opens to finish */ wait_event(port->close_wait, gs_closed(port)); WARN_ON(port->port_usb != NULL); tty_port_destroy(&port->port); kfree(port); } void gserial_free_line(unsigned char port_num) { struct gs_port *port; mutex_lock(&ports[port_num].lock); if (WARN_ON(!ports[port_num].port)) { mutex_unlock(&ports[port_num].lock); return; } port = ports[port_num].port; gs_console_exit(port); ports[port_num].port = NULL; mutex_unlock(&ports[port_num].lock); gserial_free_port(port); tty_unregister_device(gs_tty_driver, port_num); } EXPORT_SYMBOL_GPL(gserial_free_line); int gserial_alloc_line_no_console(unsigned char *line_num) { struct usb_cdc_line_coding coding; struct gs_port *port; struct device *tty_dev; int ret; int port_num; coding.dwDTERate = cpu_to_le32(9600); coding.bCharFormat = 8; coding.bParityType = USB_CDC_NO_PARITY; coding.bDataBits = USB_CDC_1_STOP_BITS; for (port_num = 0; port_num < MAX_U_SERIAL_PORTS; port_num++) { ret = gs_port_alloc(port_num, &coding); if (ret == -EBUSY) continue; if (ret) return ret; break; } if (ret) return ret; /* ... and sysfs class devices, so mdev/udev make /dev/ttyGS* */ port = ports[port_num].port; tty_dev = tty_port_register_device(&port->port, gs_tty_driver, port_num, NULL); if (IS_ERR(tty_dev)) { pr_err("%s: failed to register tty for port %d, err %ld\n", __func__, port_num, PTR_ERR(tty_dev)); ret = PTR_ERR(tty_dev); mutex_lock(&ports[port_num].lock); ports[port_num].port = NULL; mutex_unlock(&ports[port_num].lock); gserial_free_port(port); goto err; } *line_num = port_num; err: return ret; } EXPORT_SYMBOL_GPL(gserial_alloc_line_no_console); int gserial_alloc_line(unsigned char *line_num) { int ret = gserial_alloc_line_no_console(line_num); if (!ret && !*line_num) gs_console_init(ports[*line_num].port); return ret; } EXPORT_SYMBOL_GPL(gserial_alloc_line); /** * gserial_connect - notify TTY I/O glue that USB link is active * @gser: the function, set up with endpoints and descriptors * @port_num: which port is active * Context: any (usually from irq) * * This is called activate endpoints and let the TTY layer know that * the connection is active ... not unlike "carrier detect". It won't * necessarily start I/O queues; unless the TTY is held open by any * task, there would be no point. However, the endpoints will be * activated so the USB host can perform I/O, subject to basic USB * hardware flow control. * * Caller needs to have set up the endpoints and USB function in @dev * before calling this, as well as the appropriate (speed-specific) * endpoint descriptors, and also have allocate @port_num by calling * @gserial_alloc_line(). * * Returns negative errno or zero. * On success, ep->driver_data will be overwritten. */ int gserial_connect(struct gserial *gser, u8 port_num) { struct gs_port *port; unsigned long flags; int status; if (port_num >= MAX_U_SERIAL_PORTS) return -ENXIO; port = ports[port_num].port; if (!port) { pr_err("serial line %d not allocated.\n", port_num); return -EINVAL; } if (port->port_usb) { pr_err("serial line %d is in use.\n", port_num); return -EBUSY; } /* activate the endpoints */ status = usb_ep_enable(gser->in); if (status < 0) return status; gser->in->driver_data = port; status = usb_ep_enable(gser->out); if (status < 0) goto fail_out; gser->out->driver_data = port; /* then tell the tty glue that I/O can work */ spin_lock_irqsave(&port->port_lock, flags); gser->ioport = port; port->port_usb = gser; /* REVISIT unclear how best to handle this state... * we don't really couple it with the Linux TTY. */ gser->port_line_coding = port->port_line_coding; /* REVISIT if waiting on "carrier detect", signal. */ /* if it's already open, start I/O ... and notify the serial * protocol about open/close status (connect/disconnect). */ if (port->port.count) { pr_debug("gserial_connect: start ttyGS%d\n", port->port_num); gs_start_io(port); if (gser->connect) gser->connect(gser); } else { if (gser->disconnect) gser->disconnect(gser); } status = gs_console_connect(port); spin_unlock_irqrestore(&port->port_lock, flags); return status; fail_out: usb_ep_disable(gser->in); return status; } EXPORT_SYMBOL_GPL(gserial_connect); /** * gserial_disconnect - notify TTY I/O glue that USB link is inactive * @gser: the function, on which gserial_connect() was called * Context: any (usually from irq) * * This is called to deactivate endpoints and let the TTY layer know * that the connection went inactive ... not unlike "hangup". * * On return, the state is as if gserial_connect() had never been called; * there is no active USB I/O on these endpoints. */ void gserial_disconnect(struct gserial *gser) { struct gs_port *port = gser->ioport; unsigned long flags; if (!port) return; /* tell the TTY glue not to do I/O here any more */ spin_lock_irqsave(&port->port_lock, flags); gs_console_disconnect(port); /* REVISIT as above: how best to track this? */ port->port_line_coding = gser->port_line_coding; port->port_usb = NULL; gser->ioport = NULL; if (port->port.count > 0) { wake_up_interruptible(&port->drain_wait); if (port->port.tty) tty_hangup(port->port.tty); } port->suspended = false; spin_unlock_irqrestore(&port->port_lock, flags); /* disable endpoints, aborting down any active I/O */ usb_ep_disable(gser->out); usb_ep_disable(gser->in); /* finally, free any unused/unusable I/O buffers */ spin_lock_irqsave(&port->port_lock, flags); if (port->port.count == 0) kfifo_free(&port->port_write_buf); gs_free_requests(gser->out, &port->read_pool, NULL); gs_free_requests(gser->out, &port->read_queue, NULL); gs_free_requests(gser->in, &port->write_pool, NULL); port->read_allocated = port->read_started = port->write_allocated = port->write_started = 0; spin_unlock_irqrestore(&port->port_lock, flags); } EXPORT_SYMBOL_GPL(gserial_disconnect); void gserial_suspend(struct gserial *gser) { struct gs_port *port = gser->ioport; unsigned long flags; spin_lock_irqsave(&port->port_lock, flags); port->suspended = true; spin_unlock_irqrestore(&port->port_lock, flags); } EXPORT_SYMBOL_GPL(gserial_suspend); void gserial_resume(struct gserial *gser) { struct gs_port *port = gser->ioport; unsigned long flags; spin_lock_irqsave(&port->port_lock, flags); port->suspended = false; if (!port->start_delayed) { spin_unlock_irqrestore(&port->port_lock, flags); return; } pr_debug("delayed start ttyGS%d\n", port->port_num); gs_start_io(port); if (gser->connect) gser->connect(gser); port->start_delayed = false; spin_unlock_irqrestore(&port->port_lock, flags); } EXPORT_SYMBOL_GPL(gserial_resume); static int userial_init(void) { unsigned i; int status; gs_tty_driver = alloc_tty_driver(MAX_U_SERIAL_PORTS); if (!gs_tty_driver) return -ENOMEM; gs_tty_driver->driver_name = "g_serial"; gs_tty_driver->name = "ttyGS"; /* uses dynamically assigned dev_t values */ gs_tty_driver->type = TTY_DRIVER_TYPE_SERIAL; gs_tty_driver->subtype = SERIAL_TYPE_NORMAL; gs_tty_driver->flags = TTY_DRIVER_REAL_RAW | TTY_DRIVER_DYNAMIC_DEV; gs_tty_driver->init_termios = tty_std_termios; /* 9600-8-N-1 ... matches defaults expected by "usbser.sys" on * MS-Windows. Otherwise, most of these flags shouldn't affect * anything unless we were to actually hook up to a serial line. */ gs_tty_driver->init_termios.c_cflag = B9600 | CS8 | CREAD | HUPCL | CLOCAL; gs_tty_driver->init_termios.c_ispeed = 9600; gs_tty_driver->init_termios.c_ospeed = 9600; tty_set_operations(gs_tty_driver, &gs_tty_ops); for (i = 0; i < MAX_U_SERIAL_PORTS; i++) mutex_init(&ports[i].lock); /* export the driver ... */ status = tty_register_driver(gs_tty_driver); if (status) { pr_err("%s: cannot register, err %d\n", __func__, status); goto fail; } pr_debug("%s: registered %d ttyGS* device%s\n", __func__, MAX_U_SERIAL_PORTS, (MAX_U_SERIAL_PORTS == 1) ? "" : "s"); return status; fail: put_tty_driver(gs_tty_driver); gs_tty_driver = NULL; return status; } module_init(userial_init); static void userial_cleanup(void) { tty_unregister_driver(gs_tty_driver); put_tty_driver(gs_tty_driver); gs_tty_driver = NULL; } module_exit(userial_cleanup); MODULE_LICENSE("GPL"); |