/* * xen paravirt usb device backend * * (c) Juergen Gross * * 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; under version 2 of the License. * * 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. * * You should have received a copy of the GNU General Public License along * with this program; if not, see . * * Contributions after 2012-01-13 are licensed under the terms of the * GNU GPL, version 2 or (at your option) any later version. */ #include "qemu/osdep.h" #include #include #include "qemu/config-file.h" #include "qemu/option.h" #include "hw/sysbus.h" #include "hw/usb.h" #include "hw/xen/xen_backend.h" #include "monitor/qdev.h" #include "qapi/qmp/qdict.h" #include "qapi/qmp/qstring.h" #include "hw/xen/io/ring.h" #include /* * Check for required support of usbif.h: USBIF_SHORT_NOT_OK was the last * macro added we rely on. */ #ifdef USBIF_SHORT_NOT_OK #define TR(xendev, lvl, fmt, args...) \ { \ struct timeval tv; \ \ gettimeofday(&tv, NULL); \ xen_pv_printf(xendev, lvl, "%8ld.%06ld xen-usb(%s):" fmt, \ tv.tv_sec, tv.tv_usec, __func__, ##args); \ } #define TR_BUS(xendev, fmt, args...) TR(xendev, 2, fmt, ##args) #define TR_REQ(xendev, fmt, args...) TR(xendev, 3, fmt, ##args) #define USBBACK_MAXPORTS USBIF_PIPE_PORT_MASK #define USB_DEV_ADDR_SIZE (USBIF_PIPE_DEV_MASK + 1) /* USB wire protocol: structure describing control request parameter. */ struct usbif_ctrlrequest { uint8_t bRequestType; uint8_t bRequest; uint16_t wValue; uint16_t wIndex; uint16_t wLength; }; struct usbback_info; struct usbback_req; struct usbback_stub { USBDevice *dev; USBPort port; unsigned int speed; bool attached; QTAILQ_HEAD(submit_q_head, usbback_req) submit_q; }; struct usbback_req { struct usbback_info *usbif; struct usbback_stub *stub; struct usbif_urb_request req; USBPacket packet; unsigned int nr_buffer_segs; /* # of transfer_buffer segments */ unsigned int nr_extra_segs; /* # of iso_frame_desc segments */ QTAILQ_ENTRY(usbback_req) q; void *buffer; void *isoc_buffer; struct libusb_transfer *xfer; bool cancelled; }; struct usbback_hotplug { QSIMPLEQ_ENTRY(usbback_hotplug) q; unsigned port; }; struct usbback_info { struct XenDevice xendev; /* must be first */ USBBus bus; void *urb_sring; void *conn_sring; struct usbif_urb_back_ring urb_ring; struct usbif_conn_back_ring conn_ring; int num_ports; int usb_ver; bool ring_error; QTAILQ_HEAD(req_free_q_head, usbback_req) req_free_q; QSIMPLEQ_HEAD(hotplug_q_head, usbback_hotplug) hotplug_q; struct usbback_stub ports[USBBACK_MAXPORTS]; struct usbback_stub *addr_table[USB_DEV_ADDR_SIZE]; QEMUBH *bh; }; static struct usbback_req *usbback_get_req(struct usbback_info *usbif) { struct usbback_req *usbback_req; if (QTAILQ_EMPTY(&usbif->req_free_q)) { usbback_req = g_new0(struct usbback_req, 1); } else { usbback_req = QTAILQ_FIRST(&usbif->req_free_q); QTAILQ_REMOVE(&usbif->req_free_q, usbback_req, q); } return usbback_req; } static void usbback_put_req(struct usbback_req *usbback_req) { struct usbback_info *usbif; usbif = usbback_req->usbif; memset(usbback_req, 0, sizeof(*usbback_req)); QTAILQ_INSERT_HEAD(&usbif->req_free_q, usbback_req, q); } static int usbback_gnttab_map(struct usbback_req *usbback_req) { unsigned int nr_segs, i, prot; uint32_t ref[USBIF_MAX_SEGMENTS_PER_REQUEST]; struct usbback_info *usbif = usbback_req->usbif; struct XenDevice *xendev = &usbif->xendev; struct usbif_request_segment *seg; void *addr; nr_segs = usbback_req->nr_buffer_segs + usbback_req->nr_extra_segs; if (!nr_segs) { return 0; } if (nr_segs > USBIF_MAX_SEGMENTS_PER_REQUEST) { xen_pv_printf(xendev, 0, "bad number of segments in request (%d)\n", nr_segs); return -EINVAL; } for (i = 0; i < nr_segs; i++) { if ((unsigned)usbback_req->req.seg[i].offset + (unsigned)usbback_req->req.seg[i].length > XC_PAGE_SIZE) { xen_pv_printf(xendev, 0, "segment crosses page boundary\n"); return -EINVAL; } } if (usbback_req->nr_buffer_segs) { prot = PROT_READ; if (usbif_pipein(usbback_req->req.pipe)) { prot |= PROT_WRITE; } for (i = 0; i < usbback_req->nr_buffer_segs; i++) { ref[i] = usbback_req->req.seg[i].gref; } usbback_req->buffer = xengnttab_map_domain_grant_refs(xendev->gnttabdev, usbback_req->nr_buffer_segs, xendev->dom, ref, prot); if (!usbback_req->buffer) { return -ENOMEM; } for (i = 0; i < usbback_req->nr_buffer_segs; i++) { seg = usbback_req->req.seg + i; addr = usbback_req->buffer + i * XC_PAGE_SIZE + seg->offset; qemu_iovec_add(&usbback_req->packet.iov, addr, seg->length); } } if (!usbif_pipeisoc(usbback_req->req.pipe)) { return 0; } /* * Right now isoc requests are not supported. * Prepare supporting those by doing the work needed on the guest * interface side. */ if (!usbback_req->nr_extra_segs) { xen_pv_printf(xendev, 0, "iso request without descriptor segments\n"); return -EINVAL; } prot = PROT_READ | PROT_WRITE; for (i = 0; i < usbback_req->nr_extra_segs; i++) { ref[i] = usbback_req->req.seg[i + usbback_req->req.nr_buffer_segs].gref; } usbback_req->isoc_buffer = xengnttab_map_domain_grant_refs( xendev->gnttabdev, usbback_req->nr_extra_segs, xendev->dom, ref, prot); if (!usbback_req->isoc_buffer) { return -ENOMEM; } return 0; } static int usbback_init_packet(struct usbback_req *usbback_req) { struct XenDevice *xendev = &usbback_req->usbif->xendev; USBPacket *packet = &usbback_req->packet; USBDevice *dev = usbback_req->stub->dev; USBEndpoint *ep; unsigned int pid, ep_nr; bool sok; int ret = 0; qemu_iovec_init(&packet->iov, USBIF_MAX_SEGMENTS_PER_REQUEST); pid = usbif_pipein(usbback_req->req.pipe) ? USB_TOKEN_IN : USB_TOKEN_OUT; ep_nr = usbif_pipeendpoint(usbback_req->req.pipe); sok = !!(usbback_req->req.transfer_flags & USBIF_SHORT_NOT_OK); if (usbif_pipectrl(usbback_req->req.pipe)) { ep_nr = 0; sok = false; } ep = usb_ep_get(dev, pid, ep_nr); usb_packet_setup(packet, pid, ep, 0, 1, sok, true); switch (usbif_pipetype(usbback_req->req.pipe)) { case USBIF_PIPE_TYPE_ISOC: TR_REQ(xendev, "iso transfer %s: buflen: %x, %d frames\n", (pid == USB_TOKEN_IN) ? "in" : "out", usbback_req->req.buffer_length, usbback_req->req.u.isoc.nr_frame_desc_segs); ret = -EINVAL; /* isoc not implemented yet */ break; case USBIF_PIPE_TYPE_INT: TR_REQ(xendev, "int transfer %s: buflen: %x\n", (pid == USB_TOKEN_IN) ? "in" : "out", usbback_req->req.buffer_length); break; case USBIF_PIPE_TYPE_CTRL: packet->parameter = *(uint64_t *)usbback_req->req.u.ctrl; TR_REQ(xendev, "ctrl parameter: %"PRIx64", buflen: %x\n", packet->parameter, usbback_req->req.buffer_length); break; case USBIF_PIPE_TYPE_BULK: TR_REQ(xendev, "bulk transfer %s: buflen: %x\n", (pid == USB_TOKEN_IN) ? "in" : "out", usbback_req->req.buffer_length); break; default: ret = -EINVAL; break; } return ret; } static void usbback_do_response(struct usbback_req *usbback_req, int32_t status, int32_t actual_length, int32_t error_count) { struct usbback_info *usbif; struct usbif_urb_response *res; struct XenDevice *xendev; unsigned int notify; usbif = usbback_req->usbif; xendev = &usbif->xendev; TR_REQ(xendev, "id %d, status %d, length %d, errcnt %d\n", usbback_req->req.id, status, actual_length, error_count); if (usbback_req->packet.iov.iov) { qemu_iovec_destroy(&usbback_req->packet.iov); } if (usbback_req->buffer) { xengnttab_unmap(xendev->gnttabdev, usbback_req->buffer, usbback_req->nr_buffer_segs); usbback_req->buffer = NULL; } if (usbback_req->isoc_buffer) { xengnttab_unmap(xendev->gnttabdev, usbback_req->isoc_buffer, usbback_req->nr_extra_segs); usbback_req->isoc_buffer = NULL; } if (usbif->urb_sring) { res = RING_GET_RESPONSE(&usbif->urb_ring, usbif->urb_ring.rsp_prod_pvt); res->id = usbback_req->req.id; res->status = status; res->actual_length = actual_length; res->error_count = error_count; res->start_frame = 0; usbif->urb_ring.rsp_prod_pvt++; RING_PUSH_RESPONSES_AND_CHECK_NOTIFY(&usbif->urb_ring, notify); if (notify) { xen_pv_send_notify(xendev); } } if (!usbback_req->cancelled) usbback_put_req(usbback_req); } static void usbback_do_response_ret(struct usbback_req *usbback_req, int32_t status) { usbback_do_response(usbback_req, status, 0, 0); } static int32_t usbback_xlat_status(int status) { switch (status) { case USB_RET_SUCCESS: return 0; case USB_RET_NODEV: return -ENODEV; case USB_RET_STALL: return -EPIPE; case USB_RET_BABBLE: return -EOVERFLOW; case USB_RET_IOERROR: return -EPROTO; } return -ESHUTDOWN; } static void usbback_packet_complete(USBPacket *packet) { struct usbback_req *usbback_req; int32_t status; usbback_req = container_of(packet, struct usbback_req, packet); QTAILQ_REMOVE(&usbback_req->stub->submit_q, usbback_req, q); status = usbback_xlat_status(packet->status); usbback_do_response(usbback_req, status, packet->actual_length, 0); } static void usbback_set_address(struct usbback_info *usbif, struct usbback_stub *stub, unsigned int cur_addr, unsigned int new_addr) { if (cur_addr) { usbif->addr_table[cur_addr] = NULL; } if (new_addr) { usbif->addr_table[new_addr] = stub; } } static void usbback_cancel_req(struct usbback_req *usbback_req) { if (usb_packet_is_inflight(&usbback_req->packet)) { usb_cancel_packet(&usbback_req->packet); QTAILQ_REMOVE(&usbback_req->stub->submit_q, usbback_req, q); usbback_req->cancelled = true; usbback_do_response_ret(usbback_req, -EPROTO); } } static void usbback_process_unlink_req(struct usbback_req *usbback_req) { struct usbback_info *usbif; struct usbback_req *unlink_req; unsigned int id, devnum; int ret; usbif = usbback_req->usbif; ret = 0; id = usbback_req->req.u.unlink.unlink_id; TR_REQ(&usbif->xendev, "unlink id %d\n", id); devnum = usbif_pipedevice(usbback_req->req.pipe); if (unlikely(devnum == 0)) { usbback_req->stub = usbif->ports + usbif_pipeportnum(usbback_req->req.pipe) - 1; if (unlikely(!usbback_req->stub)) { ret = -ENODEV; goto fail_response; } } else { if (unlikely(!usbif->addr_table[devnum])) { ret = -ENODEV; goto fail_response; } usbback_req->stub = usbif->addr_table[devnum]; } QTAILQ_FOREACH(unlink_req, &usbback_req->stub->submit_q, q) { if (unlink_req->req.id == id) { usbback_cancel_req(unlink_req); break; } } fail_response: usbback_do_response_ret(usbback_req, ret); } /* * Checks whether a request can be handled at once or should be forwarded * to the usb framework. * Return value is: * 0 in case of usb framework is needed * 1 in case of local handling (no error) * The request response has been queued already if return value not 0. */ static int usbback_check_and_submit(struct usbback_req *usbback_req) { struct usbback_info *usbif; unsigned int devnum; struct usbback_stub *stub; struct usbif_ctrlrequest *ctrl; int ret; uint16_t wValue; usbif = usbback_req->usbif; stub = NULL; devnum = usbif_pipedevice(usbback_req->req.pipe); ctrl = (struct usbif_ctrlrequest *)usbback_req->req.u.ctrl; wValue = le16_to_cpu(ctrl->wValue); /* * When the device is first connected or resetted, USB device has no * address. In this initial state, following requests are sent to device * address (#0), * * 1. GET_DESCRIPTOR (with Descriptor Type is "DEVICE") is sent, * and OS knows what device is connected to. * * 2. SET_ADDRESS is sent, and then device has its address. * * In the next step, SET_CONFIGURATION is sent to addressed device, and * then the device is finally ready to use. */ if (unlikely(devnum == 0)) { stub = usbif->ports + usbif_pipeportnum(usbback_req->req.pipe) - 1; if (!stub->dev || !stub->attached) { ret = -ENODEV; goto do_response; } switch (ctrl->bRequest) { case USB_REQ_GET_DESCRIPTOR: /* * GET_DESCRIPTOR request to device #0. * through normal transfer. */ TR_REQ(&usbif->xendev, "devnum 0 GET_DESCRIPTOR\n"); usbback_req->stub = stub; return 0; case USB_REQ_SET_ADDRESS: /* * SET_ADDRESS request to device #0. * add attached device to addr_table. */ TR_REQ(&usbif->xendev, "devnum 0 SET_ADDRESS\n"); usbback_set_address(usbif, stub, 0, wValue); ret = 0; break; default: ret = -EINVAL; break; } goto do_response; } if (unlikely(!usbif->addr_table[devnum])) { ret = -ENODEV; goto do_response; } usbback_req->stub = usbif->addr_table[devnum]; /* * Check special request */ if (ctrl->bRequest != USB_REQ_SET_ADDRESS) { return 0; } /* * SET_ADDRESS request to addressed device. * change addr or remove from addr_table. */ usbback_set_address(usbif, usbback_req->stub, devnum, wValue); ret = 0; do_response: usbback_do_response_ret(usbback_req, ret); return 1; } static void usbback_dispatch(struct usbback_req *usbback_req) { int ret; unsigned int devnum; struct usbback_info *usbif; usbif = usbback_req->usbif; TR_REQ(&usbif->xendev, "start req_id %d pipe %08x\n", usbback_req->req.id, usbback_req->req.pipe); /* unlink request */ if (unlikely(usbif_pipeunlink(usbback_req->req.pipe))) { usbback_process_unlink_req(usbback_req); return; } if (usbif_pipectrl(usbback_req->req.pipe)) { if (usbback_check_and_submit(usbback_req)) { return; } } else { devnum = usbif_pipedevice(usbback_req->req.pipe); usbback_req->stub = usbif->addr_table[devnum]; if (!usbback_req->stub || !usbback_req->stub->attached) { ret = -ENODEV; goto fail_response; } } QTAILQ_INSERT_TAIL(&usbback_req->stub->submit_q, usbback_req, q); usbback_req->nr_buffer_segs = usbback_req->req.nr_buffer_segs; usbback_req->nr_extra_segs = usbif_pipeisoc(usbback_req->req.pipe) ? usbback_req->req.u.isoc.nr_frame_desc_segs : 0; ret = usbback_init_packet(usbback_req); if (ret) { xen_pv_printf(&usbif->xendev, 0, "invalid request\n"); ret = -ESHUTDOWN; goto fail_free_urb; } ret = usbback_gnttab_map(usbback_req); if (ret) { xen_pv_printf(&usbif->xendev, 0, "invalid buffer, ret=%d\n", ret); ret = -ESHUTDOWN; goto fail_free_urb; } usb_handle_packet(usbback_req->stub->dev, &usbback_req->packet); if (usbback_req->packet.status != USB_RET_ASYNC) { usbback_packet_complete(&usbback_req->packet); } return; fail_free_urb: QTAILQ_REMOVE(&usbback_req->stub->submit_q, usbback_req, q); fail_response: usbback_do_response_ret(usbback_req, ret); } static void usbback_hotplug_notify(struct usbback_info *usbif) { struct usbif_conn_back_ring *ring = &usbif->conn_ring; struct usbif_conn_request req; struct usbif_conn_response *res; struct usbback_hotplug *usb_hp; unsigned int notify; if (!usbif->conn_sring) { return; } /* Check for full ring. */ if ((RING_SIZE(ring) - ring->rsp_prod_pvt - ring->req_cons) == 0) { xen_pv_send_notify(&usbif->xendev); return; } usb_hp = QSIMPLEQ_FIRST(&usbif->hotplug_q); QSIMPLEQ_REMOVE_HEAD(&usbif->hotplug_q, q); RING_COPY_REQUEST(ring, ring->req_cons, &req); ring->req_cons++; ring->sring->req_event = ring->req_cons + 1; res = RING_GET_RESPONSE(ring, ring->rsp_prod_pvt); res->id = req.id; res->portnum = usb_hp->port; res->speed = usbif->ports[usb_hp->port - 1].speed; ring->rsp_prod_pvt++; RING_PUSH_RESPONSES_AND_CHECK_NOTIFY(ring, notify); if (notify) { xen_pv_send_notify(&usbif->xendev); } TR_BUS(&usbif->xendev, "hotplug port %d speed %d\n", usb_hp->port, res->speed); g_free(usb_hp); if (!QSIMPLEQ_EMPTY(&usbif->hotplug_q)) { qemu_bh_schedule(usbif->bh); } } static void usbback_bh(void *opaque) { struct usbback_info *usbif; struct usbif_urb_back_ring *urb_ring; struct usbback_req *usbback_req; RING_IDX rc, rp; unsigned int more_to_do; usbif = opaque; if (usbif->ring_error) { return; } if (!QSIMPLEQ_EMPTY(&usbif->hotplug_q)) { usbback_hotplug_notify(usbif); } urb_ring = &usbif->urb_ring; rc = urb_ring->req_cons; rp = urb_ring->sring->req_prod; xen_rmb(); /* Ensure we see queued requests up to 'rp'. */ if (RING_REQUEST_PROD_OVERFLOW(urb_ring, rp)) { rc = urb_ring->rsp_prod_pvt; xen_pv_printf(&usbif->xendev, 0, "domU provided bogus ring requests " "(%#x - %#x = %u). Halting ring processing.\n", rp, rc, rp - rc); usbif->ring_error = true; return; } while (rc != rp) { if (RING_REQUEST_CONS_OVERFLOW(urb_ring, rc)) { break; } usbback_req = usbback_get_req(usbif); RING_COPY_REQUEST(urb_ring, rc, &usbback_req->req); usbback_req->usbif = usbif; usbback_dispatch(usbback_req); urb_ring->req_cons = ++rc; } RING_FINAL_CHECK_FOR_REQUESTS(urb_ring, more_to_do); if (more_to_do) { qemu_bh_schedule(usbif->bh); } } static void usbback_hotplug_enq(struct usbback_info *usbif, unsigned port) { struct usbback_hotplug *usb_hp; usb_hp = g_new0(struct usbback_hotplug, 1); usb_hp->port = port; QSIMPLEQ_INSERT_TAIL(&usbif->hotplug_q, usb_hp, q); usbback_hotplug_notify(usbif); } static void usbback_portid_drain(struct usbback_info *usbif, unsigned port) { struct usbback_req *req, *tmp; bool sched = false; QTAILQ_FOREACH_SAFE(req, &usbif->ports[port - 1].submit_q, q, tmp) { usbback_cancel_req(req); sched = true; } if (sched) { qemu_bh_schedule(usbif->bh); } } static void usbback_portid_detach(struct usbback_info *usbif, unsigned port) { if (!usbif->ports[port - 1].attached) { return; } usbif->ports[port - 1].speed = USBIF_SPEED_NONE; usbif->ports[port - 1].attached = false; usbback_portid_drain(usbif, port); usbback_hotplug_enq(usbif, port); } static void usbback_portid_remove(struct usbback_info *usbif, unsigned port) { if (!usbif->ports[port - 1].dev) { return; } object_unparent(OBJECT(usbif->ports[port - 1].dev)); usbif->ports[port - 1].dev = NULL; usbback_portid_detach(usbif, port); TR_BUS(&usbif->xendev, "port %d removed\n", port); } static void usbback_portid_add(struct usbback_info *usbif, unsigned port, char *busid) { unsigned speed; char *portname; Error *local_err = NULL; QDict *qdict; QemuOpts *opts; char *tmp; if (usbif->ports[port - 1].dev) { return; } portname = strchr(busid, '-'); if (!portname) { xen_pv_printf(&usbif->xendev, 0, "device %s illegal specification\n", busid); return; } portname++; qdict = qdict_new(); qdict_put_str(qdict, "driver", "usb-host"); tmp = g_strdup_printf("%s.0", usbif->xendev.qdev.id); qdict_put_str(qdict, "bus", tmp); g_free(tmp); tmp = g_strdup_printf("%s-%u", usbif->xendev.qdev.id, port); qdict_put_str(qdict, "id", tmp); g_free(tmp); qdict_put_int(qdict, "port", port); qdict_put_int(qdict, "hostbus", atoi(busid)); qdict_put_str(qdict, "hostport", portname); opts = qemu_opts_from_qdict(qemu_find_opts("device"), qdict, &local_err); if (local_err) { goto err; } usbif->ports[port - 1].dev = USB_DEVICE(qdev_device_add(opts, &local_err)); if (!usbif->ports[port - 1].dev) { goto err; } qobject_unref(qdict); speed = usbif->ports[port - 1].dev->speed; switch (speed) { case USB_SPEED_LOW: speed = USBIF_SPEED_LOW; break; case USB_SPEED_FULL: speed = USBIF_SPEED_FULL; break; case USB_SPEED_HIGH: speed = (usbif->usb_ver < USB_VER_USB20) ? USBIF_SPEED_NONE : USBIF_SPEED_HIGH; break; default: speed = USBIF_SPEED_NONE; break; } if (speed == USBIF_SPEED_NONE) { xen_pv_printf(&usbif->xendev, 0, "device %s wrong speed\n", busid); object_unparent(OBJECT(usbif->ports[port - 1].dev)); usbif->ports[port - 1].dev = NULL; return; } usb_device_reset(usbif->ports[port - 1].dev); usbif->ports[port - 1].speed = speed; usbif->ports[port - 1].attached = true; QTAILQ_INIT(&usbif->ports[port - 1].submit_q); usbback_hotplug_enq(usbif, port); TR_BUS(&usbif->xendev, "port %d attached\n", port); return; err: qobject_unref(qdict); xen_pv_printf(&usbif->xendev, 0, "device %s could not be opened\n", busid); } static void usbback_process_port(struct usbback_info *usbif, unsigned port) { char node[8]; char *busid; snprintf(node, sizeof(node), "port/%d", port); busid = xenstore_read_be_str(&usbif->xendev, node); if (busid == NULL) { xen_pv_printf(&usbif->xendev, 0, "xenstore_read %s failed\n", node); return; } /* Remove portid, if the port is not connected. */ if (strlen(busid) == 0) { usbback_portid_remove(usbif, port); } else { usbback_portid_add(usbif, port, busid); } g_free(busid); } static void usbback_disconnect(struct XenDevice *xendev) { struct usbback_info *usbif; unsigned int i; TR_BUS(xendev, "start\n"); usbif = container_of(xendev, struct usbback_info, xendev); xen_pv_unbind_evtchn(xendev); if (usbif->urb_sring) { xengnttab_unmap(xendev->gnttabdev, usbif->urb_sring, 1); usbif->urb_sring = NULL; } if (usbif->conn_sring) { xengnttab_unmap(xendev->gnttabdev, usbif->conn_sring, 1); usbif->conn_sring = NULL; } for (i = 0; i < usbif->num_ports; i++) { if (usbif->ports[i].dev) { usbback_portid_drain(usbif, i + 1); } } TR_BUS(xendev, "finished\n"); } static int usbback_connect(struct XenDevice *xendev) { struct usbback_info *usbif; struct usbif_urb_sring *urb_sring; struct usbif_conn_sring *conn_sring; int urb_ring_ref; int conn_ring_ref; unsigned int i; TR_BUS(xendev, "start\n"); usbif = container_of(xendev, struct usbback_info, xendev); if (xenstore_read_fe_int(xendev, "urb-ring-ref", &urb_ring_ref)) { xen_pv_printf(xendev, 0, "error reading urb-ring-ref\n"); return -1; } if (xenstore_read_fe_int(xendev, "conn-ring-ref", &conn_ring_ref)) { xen_pv_printf(xendev, 0, "error reading conn-ring-ref\n"); return -1; } if (xenstore_read_fe_int(xendev, "event-channel", &xendev->remote_port)) { xen_pv_printf(xendev, 0, "error reading event-channel\n"); return -1; } usbif->urb_sring = xengnttab_map_grant_ref(xendev->gnttabdev, xendev->dom, urb_ring_ref, PROT_READ | PROT_WRITE); usbif->conn_sring = xengnttab_map_grant_ref(xendev->gnttabdev, xendev->dom, conn_ring_ref, PROT_READ | PROT_WRITE); if (!usbif->urb_sring || !usbif->conn_sring) { xen_pv_printf(xendev, 0, "error mapping rings\n"); usbback_disconnect(xendev); return -1; } urb_sring = usbif->urb_sring; conn_sring = usbif->conn_sring; BACK_RING_INIT(&usbif->urb_ring, urb_sring, XC_PAGE_SIZE); BACK_RING_INIT(&usbif->conn_ring, conn_sring, XC_PAGE_SIZE); xen_be_bind_evtchn(xendev); xen_pv_printf(xendev, 1, "urb-ring-ref %d, conn-ring-ref %d, " "remote port %d, local port %d\n", urb_ring_ref, conn_ring_ref, xendev->remote_port, xendev->local_port); for (i = 1; i <= usbif->num_ports; i++) { if (usbif->ports[i - 1].dev) { usbback_hotplug_enq(usbif, i); } } return 0; } static void usbback_backend_changed(struct XenDevice *xendev, const char *node) { struct usbback_info *usbif; unsigned int i; TR_BUS(xendev, "path %s\n", node); usbif = container_of(xendev, struct usbback_info, xendev); for (i = 1; i <= usbif->num_ports; i++) { usbback_process_port(usbif, i); } } static int usbback_init(struct XenDevice *xendev) { struct usbback_info *usbif; TR_BUS(xendev, "start\n"); usbif = container_of(xendev, struct usbback_info, xendev); if (xenstore_read_be_int(xendev, "num-ports", &usbif->num_ports) || usbif->num_ports < 1 || usbif->num_ports > USBBACK_MAXPORTS) { xen_pv_printf(xendev, 0, "num-ports not readable or out of bounds\n"); return -1; } if (xenstore_read_be_int(xendev, "usb-ver", &usbif->usb_ver) || (usbif->usb_ver != USB_VER_USB11 && usbif->usb_ver != USB_VER_USB20)) { xen_pv_printf(xendev, 0, "usb-ver not readable or out of bounds\n"); return -1; } usbback_backend_changed(xendev, "port"); TR_BUS(xendev, "finished\n"); return 0; } static void xen_bus_attach(USBPort *port) { struct usbback_info *usbif; usbif = port->opaque; TR_BUS(&usbif->xendev, "\n"); usbif->ports[port->index].attached = true; usbback_hotplug_enq(usbif, port->index + 1); } static void xen_bus_detach(USBPort *port) { struct usbback_info *usbif; usbif = port->opaque; TR_BUS(&usbif->xendev, "\n"); usbback_portid_detach(usbif, port->index + 1); } static void xen_bus_child_detach(USBPort *port, USBDevice *child) { struct usbback_info *usbif; usbif = port->opaque; TR_BUS(&usbif->xendev, "\n"); } static void xen_bus_complete(USBPort *port, USBPacket *packet) { struct usbback_req *usbback_req; struct usbback_info *usbif; usbback_req = container_of(packet, struct usbback_req, packet); if (usbback_req->cancelled) { g_free(usbback_req); return; } usbif = usbback_req->usbif; TR_REQ(&usbif->xendev, "\n"); usbback_packet_complete(packet); } static USBPortOps xen_usb_port_ops = { .attach = xen_bus_attach, .detach = xen_bus_detach, .child_detach = xen_bus_child_detach, .complete = xen_bus_complete, }; static USBBusOps xen_usb_bus_ops = { }; static void usbback_alloc(struct XenDevice *xendev) { struct usbback_info *usbif; USBPort *p; unsigned int i, max_grants; usbif = container_of(xendev, struct usbback_info, xendev); usb_bus_new(&usbif->bus, sizeof(usbif->bus), &xen_usb_bus_ops, DEVICE(&xendev->qdev)); for (i = 0; i < USBBACK_MAXPORTS; i++) { p = &(usbif->ports[i].port); usb_register_port(&usbif->bus, p, usbif, i, &xen_usb_port_ops, USB_SPEED_MASK_LOW | USB_SPEED_MASK_FULL | USB_SPEED_MASK_HIGH); } QTAILQ_INIT(&usbif->req_free_q); QSIMPLEQ_INIT(&usbif->hotplug_q); usbif->bh = qemu_bh_new(usbback_bh, usbif); /* max_grants: for each request and for the rings (request and connect). */ max_grants = USBIF_MAX_SEGMENTS_PER_REQUEST * USB_URB_RING_SIZE + 2; if (xengnttab_set_max_grants(xendev->gnttabdev, max_grants) < 0) { xen_pv_printf(xendev, 0, "xengnttab_set_max_grants failed: %s\n", strerror(errno)); } } static int usbback_free(struct XenDevice *xendev) { struct usbback_info *usbif; struct usbback_req *usbback_req; struct usbback_hotplug *usb_hp; unsigned int i; TR_BUS(xendev, "start\n"); usbback_disconnect(xendev); usbif = container_of(xendev, struct usbback_info, xendev); for (i = 1; i <= usbif->num_ports; i++) { usbback_portid_remove(usbif, i); } while (!QTAILQ_EMPTY(&usbif->req_free_q)) { usbback_req = QTAILQ_FIRST(&usbif->req_free_q); QTAILQ_REMOVE(&usbif->req_free_q, usbback_req, q); g_free(usbback_req); } while (!QSIMPLEQ_EMPTY(&usbif->hotplug_q)) { usb_hp = QSIMPLEQ_FIRST(&usbif->hotplug_q); QSIMPLEQ_REMOVE_HEAD(&usbif->hotplug_q, q); g_free(usb_hp); } qemu_bh_delete(usbif->bh); for (i = 0; i < USBBACK_MAXPORTS; i++) { usb_unregister_port(&usbif->bus, &(usbif->ports[i].port)); } usb_bus_release(&usbif->bus); TR_BUS(xendev, "finished\n"); return 0; } static void usbback_event(struct XenDevice *xendev) { struct usbback_info *usbif; usbif = container_of(xendev, struct usbback_info, xendev); qemu_bh_schedule(usbif->bh); } struct XenDevOps xen_usb_ops = { .size = sizeof(struct usbback_info), .flags = DEVOPS_FLAG_NEED_GNTDEV, .init = usbback_init, .alloc = usbback_alloc, .free = usbback_free, .backend_changed = usbback_backend_changed, .initialise = usbback_connect, .disconnect = usbback_disconnect, .event = usbback_event, }; #else /* USBIF_SHORT_NOT_OK */ static int usbback_not_supported(void) { return -EINVAL; } struct XenDevOps xen_usb_ops = { .backend_register = usbback_not_supported, }; #endif