// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2005-2007 Takahiro Hirofuchi */ #include "usbip_common.h" #include "vhci_driver.h" #include <limits.h> #include <netdb.h> #include <libudev.h> #include <dirent.h> #include "sysfs_utils.h" #undef PROGNAME #define PROGNAME "libusbip" struct usbip_vhci_driver *vhci_driver; struct udev *udev_context; static struct usbip_imported_device * imported_device_init(struct usbip_imported_device *idev, char *busid) { struct udev_device *sudev; sudev = udev_device_new_from_subsystem_sysname(udev_context, "usb", busid); if (!sudev) { dbg("udev_device_new_from_subsystem_sysname failed: %s", busid); goto err; } read_usb_device(sudev, &idev->udev); udev_device_unref(sudev); return idev; err: return NULL; } static int parse_status(const char *value) { int ret = 0; char *c; /* skip a header line */ c = strchr(value, '\n'); if (!c) return -1; c++; while (*c != '\0') { int port, status, speed, devid; int sockfd; char lbusid[SYSFS_BUS_ID_SIZE]; struct usbip_imported_device *idev; char hub[3]; ret = sscanf(c, "%2s %d %d %d %x %u %31s\n", hub, &port, &status, &speed, &devid, &sockfd, lbusid); if (ret < 5) { dbg("sscanf failed: %d", ret); BUG(); } dbg("hub %s port %d status %d speed %d devid %x", hub, port, status, speed, devid); dbg("sockfd %u lbusid %s", sockfd, lbusid); /* if a device is connected, look at it */ idev = &vhci_driver->idev[port]; memset(idev, 0, sizeof(*idev)); if (strncmp("hs", hub, 2) == 0) idev->hub = HUB_SPEED_HIGH; else /* strncmp("ss", hub, 2) == 0 */ idev->hub = HUB_SPEED_SUPER; idev->port = port; idev->status = status; idev->devid = devid; idev->busnum = (devid >> 16); idev->devnum = (devid & 0x0000ffff); if (idev->status != VDEV_ST_NULL && idev->status != VDEV_ST_NOTASSIGNED) { idev = imported_device_init(idev, lbusid); if (!idev) { dbg("imported_device_init failed"); return -1; } } /* go to the next line */ c = strchr(c, '\n'); if (!c) break; c++; } dbg("exit"); return 0; } #define MAX_STATUS_NAME 18 static int refresh_imported_device_list(void) { const char *attr_status; char status[MAX_STATUS_NAME+1] = "status"; int i, ret; for (i = 0; i < vhci_driver->ncontrollers; i++) { if (i > 0) snprintf(status, sizeof(status), "status.%d", i); attr_status = udev_device_get_sysattr_value(vhci_driver->hc_device, status); if (!attr_status) { err("udev_device_get_sysattr_value failed"); return -1; } dbg("controller %d", i); ret = parse_status(attr_status); if (ret != 0) return ret; } return 0; } static int get_nports(struct udev_device *hc_device) { const char *attr_nports; attr_nports = udev_device_get_sysattr_value(hc_device, "nports"); if (!attr_nports) { err("udev_device_get_sysattr_value nports failed"); return -1; } return (int)strtoul(attr_nports, NULL, 10); } static int vhci_hcd_filter(const struct dirent *dirent) { return !strncmp(dirent->d_name, "vhci_hcd.", 9); } static int get_ncontrollers(void) { struct dirent **namelist; struct udev_device *platform; int n; platform = udev_device_get_parent(vhci_driver->hc_device); if (platform == NULL) return -1; n = scandir(udev_device_get_syspath(platform), &namelist, vhci_hcd_filter, NULL); if (n < 0) err("scandir failed"); else { for (int i = 0; i < n; i++) free(namelist[i]); free(namelist); } return n; } /* * Read the given port's record. * * To avoid buffer overflow we will read the entire line and * validate each part's size. The initial buffer is padded by 4 to * accommodate the 2 spaces, 1 newline and an additional character * which is needed to properly validate the 3rd part without it being * truncated to an acceptable length. */ static int read_record(int rhport, char *host, unsigned long host_len, char *port, unsigned long port_len, char *busid) { int part; FILE *file; char path[PATH_MAX+1]; char *buffer, *start, *end; char delim[] = {' ', ' ', '\n'}; int max_len[] = {(int)host_len, (int)port_len, SYSFS_BUS_ID_SIZE}; size_t buffer_len = host_len + port_len + SYSFS_BUS_ID_SIZE + 4; buffer = malloc(buffer_len); if (!buffer) return -1; snprintf(path, PATH_MAX, VHCI_STATE_PATH"/port%d", rhport); file = fopen(path, "r"); if (!file) { err("fopen"); free(buffer); return -1; } if (fgets(buffer, buffer_len, file) == NULL) { err("fgets"); free(buffer); fclose(file); return -1; } fclose(file); /* validate the length of each of the 3 parts */ start = buffer; for (part = 0; part < 3; part++) { end = strchr(start, delim[part]); if (end == NULL || (end - start) > max_len[part]) { free(buffer); return -1; } start = end + 1; } if (sscanf(buffer, "%s %s %s\n", host, port, busid) != 3) { err("sscanf"); free(buffer); return -1; } free(buffer); return 0; } /* ---------------------------------------------------------------------- */ int usbip_vhci_driver_open(void) { int nports; struct udev_device *hc_device; udev_context = udev_new(); if (!udev_context) { err("udev_new failed"); return -1; } /* will be freed in usbip_driver_close() */ hc_device = udev_device_new_from_subsystem_sysname(udev_context, USBIP_VHCI_BUS_TYPE, USBIP_VHCI_DEVICE_NAME); if (!hc_device) { err("udev_device_new_from_subsystem_sysname failed"); goto err; } nports = get_nports(hc_device); if (nports <= 0) { err("no available ports"); goto err; } dbg("available ports: %d", nports); vhci_driver = calloc(1, sizeof(struct usbip_vhci_driver) + nports * sizeof(struct usbip_imported_device)); if (!vhci_driver) { err("vhci_driver allocation failed"); goto err; } vhci_driver->nports = nports; vhci_driver->hc_device = hc_device; vhci_driver->ncontrollers = get_ncontrollers(); dbg("available controllers: %d", vhci_driver->ncontrollers); if (vhci_driver->ncontrollers <=0) { err("no available usb controllers"); goto err; } if (refresh_imported_device_list()) goto err; return 0; err: udev_device_unref(hc_device); if (vhci_driver) free(vhci_driver); vhci_driver = NULL; udev_unref(udev_context); return -1; } void usbip_vhci_driver_close(void) { if (!vhci_driver) return; udev_device_unref(vhci_driver->hc_device); free(vhci_driver); vhci_driver = NULL; udev_unref(udev_context); } int usbip_vhci_refresh_device_list(void) { if (refresh_imported_device_list()) goto err; return 0; err: dbg("failed to refresh device list"); return -1; } int usbip_vhci_get_free_port(uint32_t speed) { for (int i = 0; i < vhci_driver->nports; i++) { switch (speed) { case USB_SPEED_SUPER: if (vhci_driver->idev[i].hub != HUB_SPEED_SUPER) continue; break; default: if (vhci_driver->idev[i].hub != HUB_SPEED_HIGH) continue; break; } if (vhci_driver->idev[i].status == VDEV_ST_NULL) return vhci_driver->idev[i].port; } return -1; } int usbip_vhci_attach_device2(uint8_t port, int sockfd, uint32_t devid, uint32_t speed) { char buff[200]; /* what size should be ? */ char attach_attr_path[SYSFS_PATH_MAX]; char attr_attach[] = "attach"; const char *path; int ret; snprintf(buff, sizeof(buff), "%u %d %u %u", port, sockfd, devid, speed); dbg("writing: %s", buff); path = udev_device_get_syspath(vhci_driver->hc_device); snprintf(attach_attr_path, sizeof(attach_attr_path), "%s/%s", path, attr_attach); dbg("attach attribute path: %s", attach_attr_path); ret = write_sysfs_attribute(attach_attr_path, buff, strlen(buff)); if (ret < 0) { dbg("write_sysfs_attribute failed"); return -1; } dbg("attached port: %d", port); return 0; } static unsigned long get_devid(uint8_t busnum, uint8_t devnum) { return (busnum << 16) | devnum; } /* will be removed */ int usbip_vhci_attach_device(uint8_t port, int sockfd, uint8_t busnum, uint8_t devnum, uint32_t speed) { int devid = get_devid(busnum, devnum); return usbip_vhci_attach_device2(port, sockfd, devid, speed); } int usbip_vhci_detach_device(uint8_t port) { char detach_attr_path[SYSFS_PATH_MAX]; char attr_detach[] = "detach"; char buff[200]; /* what size should be ? */ const char *path; int ret; snprintf(buff, sizeof(buff), "%u", port); dbg("writing: %s", buff); path = udev_device_get_syspath(vhci_driver->hc_device); snprintf(detach_attr_path, sizeof(detach_attr_path), "%s/%s", path, attr_detach); dbg("detach attribute path: %s", detach_attr_path); ret = write_sysfs_attribute(detach_attr_path, buff, strlen(buff)); if (ret < 0) { dbg("write_sysfs_attribute failed"); return -1; } dbg("detached port: %d", port); return 0; } int usbip_vhci_imported_device_dump(struct usbip_imported_device *idev) { char product_name[100]; char host[NI_MAXHOST] = "unknown host"; char serv[NI_MAXSERV] = "unknown port"; char remote_busid[SYSFS_BUS_ID_SIZE]; int ret; int read_record_error = 0; if (idev->status == VDEV_ST_NULL || idev->status == VDEV_ST_NOTASSIGNED) return 0; ret = read_record(idev->port, host, sizeof(host), serv, sizeof(serv), remote_busid); if (ret) { err("read_record"); read_record_error = 1; } printf("Port %02d: <%s> at %s\n", idev->port, usbip_status_string(idev->status), usbip_speed_string(idev->udev.speed)); usbip_names_get_product(product_name, sizeof(product_name), idev->udev.idVendor, idev->udev.idProduct); printf(" %s\n", product_name); if (!read_record_error) { printf("%10s -> usbip://%s:%s/%s\n", idev->udev.busid, host, serv, remote_busid); printf("%10s -> remote bus/dev %03d/%03d\n", " ", idev->busnum, idev->devnum); } else { printf("%10s -> unknown host, remote port and remote busid\n", idev->udev.busid); printf("%10s -> remote bus/dev %03d/%03d\n", " ", idev->busnum, idev->devnum); } return 0; }