/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2000-2001 Qualcomm Incorporated * Copyright (C) 2002-2003 Maxim Krasnyansky * Copyright (C) 2002-2010 Marcel Holtmann * * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "textfile.h" #include "oui.h" #define for_each_opt(opt, long, short) while ((opt=getopt_long(argc, argv, short ? short:"+", long, NULL)) != -1) static void usage(void); static int dev_info(int s, int dev_id, long arg) { struct hci_dev_info di = { dev_id: dev_id }; char addr[18]; if (ioctl(s, HCIGETDEVINFO, (void *) &di)) return 0; ba2str(&di.bdaddr, addr); printf("\t%s\t%s\n", di.name, addr); return 0; } static char *type2str(uint8_t type) { switch (type) { case SCO_LINK: return "SCO"; case ACL_LINK: return "ACL"; case ESCO_LINK: return "eSCO"; default: return "Unknown"; } } static int conn_list(int s, int dev_id, long arg) { struct hci_conn_list_req *cl; struct hci_conn_info *ci; int id = arg; int i; if (id != -1 && dev_id != id) return 0; if (!(cl = malloc(10 * sizeof(*ci) + sizeof(*cl)))) { perror("Can't allocate memory"); exit(1); } cl->dev_id = dev_id; cl->conn_num = 10; ci = cl->conn_info; if (ioctl(s, HCIGETCONNLIST, (void *) cl)) { perror("Can't get connection list"); exit(1); } for (i = 0; i < cl->conn_num; i++, ci++) { char addr[18]; char *str; ba2str(&ci->bdaddr, addr); str = hci_lmtostr(ci->link_mode); printf("\t%s %s %s handle %d state %d lm %s\n", ci->out ? "<" : ">", type2str(ci->type), addr, ci->handle, ci->state, str); bt_free(str); } free(cl); return 0; } static int find_conn(int s, int dev_id, long arg) { struct hci_conn_list_req *cl; struct hci_conn_info *ci; int i; if (!(cl = malloc(10 * sizeof(*ci) + sizeof(*cl)))) { perror("Can't allocate memory"); exit(1); } cl->dev_id = dev_id; cl->conn_num = 10; ci = cl->conn_info; if (ioctl(s, HCIGETCONNLIST, (void *) cl)) { perror("Can't get connection list"); exit(1); } for (i = 0; i < cl->conn_num; i++, ci++) if (!bacmp((bdaddr_t *) arg, &ci->bdaddr)) { free(cl); return 1; } free(cl); return 0; } static void hex_dump(char *pref, int width, unsigned char *buf, int len) { register int i,n; for (i = 0, n = 1; i < len; i++, n++) { if (n == 1) printf("%s", pref); printf("%2.2X ", buf[i]); if (n == width) { printf("\n"); n = 0; } } if (i && n!=1) printf("\n"); } static char *get_minor_device_name(int major, int minor) { switch (major) { case 0: /* misc */ return ""; case 1: /* computer */ switch(minor) { case 0: return "Uncategorized"; case 1: return "Desktop workstation"; case 2: return "Server"; case 3: return "Laptop"; case 4: return "Handheld"; case 5: return "Palm"; case 6: return "Wearable"; } break; case 2: /* phone */ switch(minor) { case 0: return "Uncategorized"; case 1: return "Cellular"; case 2: return "Cordless"; case 3: return "Smart phone"; case 4: return "Wired modem or voice gateway"; case 5: return "Common ISDN Access"; case 6: return "Sim Card Reader"; } break; case 3: /* lan access */ if (minor == 0) return "Uncategorized"; switch(minor / 8) { case 0: return "Fully available"; case 1: return "1-17% utilized"; case 2: return "17-33% utilized"; case 3: return "33-50% utilized"; case 4: return "50-67% utilized"; case 5: return "67-83% utilized"; case 6: return "83-99% utilized"; case 7: return "No service available"; } break; case 4: /* audio/video */ switch(minor) { case 0: return "Uncategorized"; case 1: return "Device conforms to the Headset profile"; case 2: return "Hands-free"; /* 3 is reserved */ case 4: return "Microphone"; case 5: return "Loudspeaker"; case 6: return "Headphones"; case 7: return "Portable Audio"; case 8: return "Car Audio"; case 9: return "Set-top box"; case 10: return "HiFi Audio Device"; case 11: return "VCR"; case 12: return "Video Camera"; case 13: return "Camcorder"; case 14: return "Video Monitor"; case 15: return "Video Display and Loudspeaker"; case 16: return "Video Conferencing"; /* 17 is reserved */ case 18: return "Gaming/Toy"; } break; case 5: /* peripheral */ { static char cls_str[48]; cls_str[0] = 0; switch(minor & 48) { case 16: strncpy(cls_str, "Keyboard", sizeof(cls_str)); break; case 32: strncpy(cls_str, "Pointing device", sizeof(cls_str)); break; case 48: strncpy(cls_str, "Combo keyboard/pointing device", sizeof(cls_str)); break; } if((minor & 15) && (strlen(cls_str) > 0)) strcat(cls_str, "/"); switch(minor & 15) { case 0: break; case 1: strncat(cls_str, "Joystick", sizeof(cls_str) - strlen(cls_str)); break; case 2: strncat(cls_str, "Gamepad", sizeof(cls_str) - strlen(cls_str)); break; case 3: strncat(cls_str, "Remote control", sizeof(cls_str) - strlen(cls_str)); break; case 4: strncat(cls_str, "Sensing device", sizeof(cls_str) - strlen(cls_str)); break; case 5: strncat(cls_str, "Digitizer tablet", sizeof(cls_str) - strlen(cls_str)); break; case 6: strncat(cls_str, "Card reader", sizeof(cls_str) - strlen(cls_str)); break; default: strncat(cls_str, "(reserved)", sizeof(cls_str) - strlen(cls_str)); break; } if(strlen(cls_str) > 0) return cls_str; } case 6: /* imaging */ if (minor & 4) return "Display"; if (minor & 8) return "Camera"; if (minor & 16) return "Scanner"; if (minor & 32) return "Printer"; break; case 7: /* wearable */ switch(minor) { case 1: return "Wrist Watch"; case 2: return "Pager"; case 3: return "Jacket"; case 4: return "Helmet"; case 5: return "Glasses"; } break; case 8: /* toy */ switch(minor) { case 1: return "Robot"; case 2: return "Vehicle"; case 3: return "Doll / Action Figure"; case 4: return "Controller"; case 5: return "Game"; } break; case 63: /* uncategorised */ return ""; } return "Unknown (reserved) minor device class"; } static char *major_classes[] = { "Miscellaneous", "Computer", "Phone", "LAN Access", "Audio/Video", "Peripheral", "Imaging", "Uncategorized" }; static char *get_device_name(const bdaddr_t *local, const bdaddr_t *peer) { char filename[PATH_MAX + 1], addr[18]; ba2str(local, addr); create_name(filename, PATH_MAX, STORAGEDIR, addr, "names"); ba2str(peer, addr); return textfile_get(filename, addr); } /* Display local devices */ static struct option dev_options[] = { { "help", 0, 0, 'h' }, {0, 0, 0, 0 } }; static const char *dev_help = "Usage:\n" "\tdev\n"; static void cmd_dev(int dev_id, int argc, char **argv) { int opt; for_each_opt(opt, dev_options, NULL) { switch (opt) { default: printf("%s", dev_help); return; } } printf("Devices:\n"); hci_for_each_dev(HCI_UP, dev_info, 0); } /* Inquiry */ static struct option inq_options[] = { { "help", 0, 0, 'h' }, { "length", 1, 0, 'l' }, { "numrsp", 1, 0, 'n' }, { "iac", 1, 0, 'i' }, { "flush", 0, 0, 'f' }, { 0, 0, 0, 0 } }; static const char *inq_help = "Usage:\n" "\tinq [--length=N] maximum inquiry duration in 1.28 s units\n" "\t [--numrsp=N] specify maximum number of inquiry responses\n" "\t [--iac=lap] specify the inquiry access code\n" "\t [--flush] flush the inquiry cache\n"; static void cmd_inq(int dev_id, int argc, char **argv) { inquiry_info *info = NULL; uint8_t lap[3] = { 0x33, 0x8b, 0x9e }; int num_rsp, length, flags; char addr[18]; int i, l, opt; length = 8; /* ~10 seconds */ num_rsp = 0; flags = 0; for_each_opt(opt, inq_options, NULL) { switch (opt) { case 'l': length = atoi(optarg); break; case 'n': num_rsp = atoi(optarg); break; case 'i': l = strtoul(optarg, 0, 16); if (!strcasecmp(optarg, "giac")) { l = 0x9e8b33; } else if (!strcasecmp(optarg, "liac")) { l = 0x9e8b00; } if (l < 0x9e8b00 || l > 0x9e8b3f) { printf("Invalid access code 0x%x\n", l); exit(1); } lap[0] = (l & 0xff); lap[1] = (l >> 8) & 0xff; lap[2] = (l >> 16) & 0xff; break; case 'f': flags |= IREQ_CACHE_FLUSH; break; default: printf("%s", inq_help); return; } } printf("Inquiring ...\n"); num_rsp = hci_inquiry(dev_id, length, num_rsp, lap, &info, flags); if (num_rsp < 0) { perror("Inquiry failed."); exit(1); } for (i = 0; i < num_rsp; i++) { ba2str(&(info+i)->bdaddr, addr); printf("\t%s\tclock offset: 0x%4.4x\tclass: 0x%2.2x%2.2x%2.2x\n", addr, btohs((info+i)->clock_offset), (info+i)->dev_class[2], (info+i)->dev_class[1], (info+i)->dev_class[0]); } bt_free(info); } /* Device scanning */ static struct option scan_options[] = { { "help", 0, 0, 'h' }, { "length", 1, 0, 'l' }, { "numrsp", 1, 0, 'n' }, { "iac", 1, 0, 'i' }, { "flush", 0, 0, 'f' }, { "refresh", 0, 0, 'r' }, { "class", 0, 0, 'C' }, { "info", 0, 0, 'I' }, { "oui", 0, 0, 'O' }, { "all", 0, 0, 'A' }, { "ext", 0, 0, 'A' }, { 0, 0, 0, 0 } }; static const char *scan_help = "Usage:\n" "\tscan [--length=N] [--numrsp=N] [--iac=lap] [--flush] [--class] [--info] [--oui] [--refresh]\n"; static void cmd_scan(int dev_id, int argc, char **argv) { inquiry_info *info = NULL; uint8_t lap[3] = { 0x33, 0x8b, 0x9e }; int num_rsp, length, flags; uint8_t cls[3], features[8]; char addr[18], name[249], oui[9], *comp, *tmp; struct hci_version version; struct hci_dev_info di; struct hci_conn_info_req *cr; int refresh = 0, extcls = 0, extinf = 0, extoui = 0; int i, n, l, opt, dd, cc, nc; length = 8; /* ~10 seconds */ num_rsp = 0; flags = 0; for_each_opt(opt, scan_options, NULL) { switch (opt) { case 'l': length = atoi(optarg); break; case 'n': num_rsp = atoi(optarg); break; case 'i': l = strtoul(optarg, 0, 16); if (!strcasecmp(optarg, "giac")) { l = 0x9e8b33; } else if (!strcasecmp(optarg, "liac")) { l = 0x9e8b00; } else if (l < 0x9e8b00 || l > 0x9e8b3f) { printf("Invalid access code 0x%x\n", l); exit(1); } lap[0] = (l & 0xff); lap[1] = (l >> 8) & 0xff; lap[2] = (l >> 16) & 0xff; break; case 'f': flags |= IREQ_CACHE_FLUSH; break; case 'r': refresh = 1; break; case 'C': extcls = 1; break; case 'I': extinf = 1; break; case 'O': extoui = 1; break; case 'A': extcls = 1; extinf = 1; extoui = 1; break; default: printf("%s", scan_help); return; } } if (dev_id < 0) { dev_id = hci_get_route(NULL); if (dev_id < 0) { perror("Device is not available"); exit(1); } } if (hci_devinfo(dev_id, &di) < 0) { perror("Can't get device info"); exit(1); } printf("Scanning ...\n"); num_rsp = hci_inquiry(dev_id, length, num_rsp, lap, &info, flags); if (num_rsp < 0) { perror("Inquiry failed"); exit(1); } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); free(info); exit(1); } if (extcls || extinf || extoui) printf("\n"); for (i = 0; i < num_rsp; i++) { uint16_t handle = 0; if (!refresh) { memset(name, 0, sizeof(name)); tmp = get_device_name(&di.bdaddr, &(info+i)->bdaddr); if (tmp) { strncpy(name, tmp, 249); free(tmp); nc = 1; } else nc = 0; } else nc = 0; if (!extcls && !extinf && !extoui) { ba2str(&(info+i)->bdaddr, addr); if (nc) { printf("\t%s\t%s\n", addr, name); continue; } if (hci_read_remote_name_with_clock_offset(dd, &(info+i)->bdaddr, (info+i)->pscan_rep_mode, (info+i)->clock_offset | 0x8000, sizeof(name), name, 100000) < 0) strcpy(name, "n/a"); for (n = 0; n < 248 && name[n]; n++) { if ((unsigned char) name[i] < 32 || name[i] == 127) name[i] = '.'; } name[248] = '\0'; printf("\t%s\t%s\n", addr, name); continue; } ba2str(&(info+i)->bdaddr, addr); printf("BD Address:\t%s [mode %d, clkoffset 0x%4.4x]\n", addr, (info+i)->pscan_rep_mode, btohs((info+i)->clock_offset)); if (extoui) { ba2oui(&(info+i)->bdaddr, oui); comp = ouitocomp(oui); if (comp) { printf("OUI company:\t%s (%s)\n", comp, oui); free(comp); } } cc = 0; if (extinf) { cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (cr) { bacpy(&cr->bdaddr, &(info+i)->bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { handle = 0; cc = 1; } else { handle = htobs(cr->conn_info->handle); cc = 0; } free(cr); } if (cc) { if (hci_create_connection(dd, &(info+i)->bdaddr, htobs(di.pkt_type & ACL_PTYPE_MASK), (info+i)->clock_offset | 0x8000, 0x01, &handle, 25000) < 0) { handle = 0; cc = 0; } } } if (handle > 0 || !nc) { if (hci_read_remote_name_with_clock_offset(dd, &(info+i)->bdaddr, (info+i)->pscan_rep_mode, (info+i)->clock_offset | 0x8000, sizeof(name), name, 100000) < 0) { if (!nc) strcpy(name, "n/a"); } else { for (n = 0; n < 248 && name[n]; n++) { if ((unsigned char) name[i] < 32 || name[i] == 127) name[i] = '.'; } name[248] = '\0'; nc = 0; } } if (strlen(name) > 0) printf("Device name:\t%s%s\n", name, nc ? " [cached]" : ""); if (extcls) { memcpy(cls, (info+i)->dev_class, 3); printf("Device class:\t"); if ((cls[1] & 0x1f) > sizeof(major_classes) / sizeof(char *)) printf("Invalid"); else printf("%s, %s", major_classes[cls[1] & 0x1f], get_minor_device_name(cls[1] & 0x1f, cls[0] >> 2)); printf(" (0x%2.2x%2.2x%2.2x)\n", cls[2], cls[1], cls[0]); } if (extinf && handle > 0) { if (hci_read_remote_version(dd, handle, &version, 20000) == 0) { char *ver = lmp_vertostr(version.lmp_ver); printf("Manufacturer:\t%s (%d)\n", bt_compidtostr(version.manufacturer), version.manufacturer); printf("LMP version:\t%s (0x%x) [subver 0x%x]\n", ver ? ver : "n/a", version.lmp_ver, version.lmp_subver); if (ver) bt_free(ver); } if (hci_read_remote_features(dd, handle, features, 20000) == 0) { char *tmp = lmp_featurestostr(features, "\t\t", 63); printf("LMP features:\t0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x" " 0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x\n", features[0], features[1], features[2], features[3], features[4], features[5], features[6], features[7]); printf("%s\n", tmp); bt_free(tmp); } if (cc) { usleep(10000); hci_disconnect(dd, handle, HCI_OE_USER_ENDED_CONNECTION, 10000); } } printf("\n"); } bt_free(info); hci_close_dev(dd); } /* Remote name */ static struct option name_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *name_help = "Usage:\n" "\tname \n"; static void cmd_name(int dev_id, int argc, char **argv) { bdaddr_t bdaddr; char name[248]; int opt, dd; for_each_opt(opt, name_options, NULL) { switch (opt) { default: printf("%s", name_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", name_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_get_route(&bdaddr); if (dev_id < 0) { fprintf(stderr, "Device is not available.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } if (hci_read_remote_name(dd, &bdaddr, sizeof(name), name, 25000) == 0) printf("%s\n", name); hci_close_dev(dd); } /* Info about remote device */ static struct option info_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *info_help = "Usage:\n" "\tinfo \n"; static void cmd_info(int dev_id, int argc, char **argv) { bdaddr_t bdaddr; uint16_t handle; uint8_t features[8], max_page = 0; char name[249], oui[9], *comp, *tmp; struct hci_version version; struct hci_dev_info di; struct hci_conn_info_req *cr; int i, opt, dd, cc = 0; for_each_opt(opt, info_options, NULL) { switch (opt) { default: printf("%s", info_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", info_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) dev_id = hci_get_route(&bdaddr); if (dev_id < 0) { fprintf(stderr, "Device is not available or not connected.\n"); exit(1); } if (hci_devinfo(dev_id, &di) < 0) { perror("Can't get device info"); exit(1); } printf("Requesting information ...\n"); dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't get connection info"); close(dd); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { if (hci_create_connection(dd, &bdaddr, htobs(di.pkt_type & ACL_PTYPE_MASK), 0, 0x01, &handle, 25000) < 0) { perror("Can't create connection"); close(dd); exit(1); } sleep(1); cc = 1; } else handle = htobs(cr->conn_info->handle); printf("\tBD Address: %s\n", argv[0]); ba2oui(&bdaddr, oui); comp = ouitocomp(oui); if (comp) { printf("\tOUI Company: %s (%s)\n", comp, oui); free(comp); } if (hci_read_remote_name(dd, &bdaddr, sizeof(name), name, 25000) == 0) printf("\tDevice Name: %s\n", name); if (hci_read_remote_version(dd, handle, &version, 20000) == 0) { char *ver = lmp_vertostr(version.lmp_ver); printf("\tLMP Version: %s (0x%x) LMP Subversion: 0x%x\n" "\tManufacturer: %s (%d)\n", ver ? ver : "n/a", version.lmp_ver, version.lmp_subver, bt_compidtostr(version.manufacturer), version.manufacturer); if (ver) bt_free(ver); } memset(features, 0, sizeof(features)); hci_read_remote_features(dd, handle, features, 20000); if ((di.features[7] & LMP_EXT_FEAT) && (features[7] & LMP_EXT_FEAT)) hci_read_remote_ext_features(dd, handle, 0, &max_page, features, 20000); printf("\tFeatures%s: 0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x " "0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x\n", (max_page > 0) ? " page 0" : "", features[0], features[1], features[2], features[3], features[4], features[5], features[6], features[7]); tmp = lmp_featurestostr(features, "\t\t", 63); printf("%s\n", tmp); bt_free(tmp); for (i = 1; i <= max_page; i++) { if (hci_read_remote_ext_features(dd, handle, i, NULL, features, 20000) < 0) continue; printf("\tFeatures page %d: 0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x " "0x%2.2x 0x%2.2x 0x%2.2x 0x%2.2x\n", i, features[0], features[1], features[2], features[3], features[4], features[5], features[6], features[7]); } if (cc) { usleep(10000); hci_disconnect(dd, handle, HCI_OE_USER_ENDED_CONNECTION, 10000); } hci_close_dev(dd); } /* Start periodic inquiry */ static struct option spinq_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *spinq_help = "Usage:\n" "\tspinq\n"; static void cmd_spinq(int dev_id, int argc, char **argv) { uint8_t lap[3] = { 0x33, 0x8b, 0x9e }; struct hci_request rq; periodic_inquiry_cp cp; int opt, dd; for_each_opt(opt, spinq_options, NULL) { switch (opt) { default: printf("%s", spinq_help); return; } } if (dev_id < 0) dev_id = hci_get_route(NULL); dd = hci_open_dev(dev_id); if (dd < 0) { perror("Device open failed"); exit(EXIT_FAILURE); } memset(&cp, 0, sizeof(cp)); memcpy(cp.lap, lap, 3); cp.max_period = htobs(16); cp.min_period = htobs(10); cp.length = 8; cp.num_rsp = 0; memset(&rq, 0, sizeof(rq)); rq.ogf = OGF_LINK_CTL; rq.ocf = OCF_PERIODIC_INQUIRY; rq.cparam = &cp; rq.clen = PERIODIC_INQUIRY_CP_SIZE; if (hci_send_req(dd, &rq, 100) < 0) { perror("Periodic inquiry failed"); exit(EXIT_FAILURE); } hci_close_dev(dd); } /* Exit periodic inquiry */ static struct option epinq_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *epinq_help = "Usage:\n" "\tspinq\n"; static void cmd_epinq(int dev_id, int argc, char **argv) { int opt, dd; for_each_opt(opt, epinq_options, NULL) { switch (opt) { default: printf("%s", epinq_help); return; } } if (dev_id < 0) dev_id = hci_get_route(NULL); dd = hci_open_dev(dev_id); if (dd < 0) { perror("Device open failed"); exit(EXIT_FAILURE); } if (hci_send_cmd(dd, OGF_LINK_CTL, OCF_EXIT_PERIODIC_INQUIRY, 0, NULL) < 0) { perror("Exit periodic inquiry failed"); exit(EXIT_FAILURE); } hci_close_dev(dd); } /* Send arbitrary HCI commands */ static struct option cmd_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *cmd_help = "Usage:\n" "\tcmd [parameters]\n" "Example:\n" "\tcmd 0x03 0x0013 0x41 0x42 0x43 0x44\n"; static void cmd_cmd(int dev_id, int argc, char **argv) { unsigned char buf[HCI_MAX_EVENT_SIZE], *ptr = buf; struct hci_filter flt; hci_event_hdr *hdr; int i, opt, len, dd; uint16_t ocf; uint8_t ogf; for_each_opt(opt, cmd_options, NULL) { switch (opt) { default: printf("%s", cmd_help); return; } } argc -= optind; argv += optind; if (argc < 2) { printf("%s", cmd_help); return; } if (dev_id < 0) dev_id = hci_get_route(NULL); errno = 0; ogf = strtol(argv[0], NULL, 16); ocf = strtol(argv[1], NULL, 16); if (errno == ERANGE || (ogf > 0x3f) || (ocf > 0x3ff)) { printf("%s", cmd_help); return; } for (i = 2, len = 0; i < argc && len < (int) sizeof(buf); i++, len++) *ptr++ = (uint8_t) strtol(argv[i], NULL, 16); dd = hci_open_dev(dev_id); if (dd < 0) { perror("Device open failed"); exit(EXIT_FAILURE); } /* Setup filter */ hci_filter_clear(&flt); hci_filter_set_ptype(HCI_EVENT_PKT, &flt); hci_filter_all_events(&flt); if (setsockopt(dd, SOL_HCI, HCI_FILTER, &flt, sizeof(flt)) < 0) { perror("HCI filter setup failed"); exit(EXIT_FAILURE); } printf("< HCI Command: ogf 0x%02x, ocf 0x%04x, plen %d\n", ogf, ocf, len); hex_dump(" ", 20, buf, len); fflush(stdout); if (hci_send_cmd(dd, ogf, ocf, len, buf) < 0) { perror("Send failed"); exit(EXIT_FAILURE); } len = read(dd, buf, sizeof(buf)); if (len < 0) { perror("Read failed"); exit(EXIT_FAILURE); } hdr = (void *)(buf + 1); ptr = buf + (1 + HCI_EVENT_HDR_SIZE); len -= (1 + HCI_EVENT_HDR_SIZE); printf("> HCI Event: 0x%02x plen %d\n", hdr->evt, hdr->plen); hex_dump(" ", 20, ptr, len); fflush(stdout); hci_close_dev(dd); } /* Display active connections */ static struct option con_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *con_help = "Usage:\n" "\tcon\n"; static void cmd_con(int dev_id, int argc, char **argv) { int opt; for_each_opt(opt, con_options, NULL) { switch (opt) { default: printf("%s", con_help); return; } } printf("Connections:\n"); hci_for_each_dev(HCI_UP, conn_list, dev_id); } /* Create connection */ static struct option cc_options[] = { { "help", 0, 0, 'h' }, { "role", 1, 0, 'r' }, { "ptype", 1, 0, 'p' }, { 0, 0, 0, 0 } }; static const char *cc_help = "Usage:\n" "\tcc [--role=m|s] [--ptype=pkt_types] \n" "Example:\n" "\tcc --ptype=dm1,dh3,dh5 01:02:03:04:05:06\n" "\tcc --role=m 01:02:03:04:05:06\n"; static void cmd_cc(int dev_id, int argc, char **argv) { bdaddr_t bdaddr; uint16_t handle; uint8_t role; unsigned int ptype; int dd, opt; role = 0x01; ptype = HCI_DM1 | HCI_DM3 | HCI_DM5 | HCI_DH1 | HCI_DH3 | HCI_DH5; for_each_opt(opt, cc_options, NULL) { switch (opt) { case 'p': hci_strtoptype(optarg, &ptype); break; case 'r': role = optarg[0] == 'm' ? 0 : 1; break; default: printf("%s", cc_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", cc_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_get_route(&bdaddr); if (dev_id < 0) { fprintf(stderr, "Device is not available.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } if (hci_create_connection(dd, &bdaddr, htobs(ptype), htobs(0x0000), role, &handle, 25000) < 0) perror("Can't create connection"); hci_close_dev(dd); } /* Close connection */ static struct option dc_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *dc_help = "Usage:\n" "\tdc [reason]\n"; static void cmd_dc(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint8_t reason; int opt, dd; for_each_opt(opt, dc_options, NULL) { switch (opt) { default: printf("%s", dc_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", dc_help); return; } str2ba(argv[0], &bdaddr); reason = (argc > 1) ? atoi(argv[1]) : HCI_OE_USER_ENDED_CONNECTION; if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_disconnect(dd, htobs(cr->conn_info->handle), reason, 10000) < 0) perror("Disconnect failed"); free(cr); hci_close_dev(dd); } /* Role switch */ static struct option sr_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *sr_help = "Usage:\n" "\tsr \n"; static void cmd_sr(int dev_id, int argc, char **argv) { bdaddr_t bdaddr; uint8_t role; int opt, dd; for_each_opt(opt, sr_options, NULL) { switch (opt) { default: printf("%s", sr_help); return; } } argc -= optind; argv += optind; if (argc < 2) { printf("%s", sr_help); return; } str2ba(argv[0], &bdaddr); switch (argv[1][0]) { case 'm': role = 0; break; case 's': role = 1; break; default: role = atoi(argv[1]); break; } if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } if (hci_switch_role(dd, &bdaddr, role, 10000) < 0) { perror("Switch role request failed"); exit(1); } hci_close_dev(dd); } /* Read RSSI */ static struct option rssi_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *rssi_help = "Usage:\n" "\trssi \n"; static void cmd_rssi(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; int8_t rssi; int opt, dd; for_each_opt(opt, rssi_options, NULL) { switch (opt) { default: printf("%s", rssi_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", rssi_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_read_rssi(dd, htobs(cr->conn_info->handle), &rssi, 1000) < 0) { perror("Read RSSI failed"); exit(1); } printf("RSSI return value: %d\n", rssi); free(cr); hci_close_dev(dd); } /* Get link quality */ static struct option lq_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *lq_help = "Usage:\n" "\tlq \n"; static void cmd_lq(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint8_t lq; int opt, dd; for_each_opt(opt, lq_options, NULL) { switch (opt) { default: printf("%s", lq_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", lq_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_read_link_quality(dd, htobs(cr->conn_info->handle), &lq, 1000) < 0) { perror("HCI read_link_quality request failed"); exit(1); } printf("Link quality: %d\n", lq); free(cr); hci_close_dev(dd); } /* Get transmit power level */ static struct option tpl_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *tpl_help = "Usage:\n" "\ttpl [type]\n"; static void cmd_tpl(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint8_t type; int8_t level; int opt, dd; for_each_opt(opt, tpl_options, NULL) { switch (opt) { default: printf("%s", tpl_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", tpl_help); return; } str2ba(argv[0], &bdaddr); type = (argc > 1) ? atoi(argv[1]) : 0; if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_read_transmit_power_level(dd, htobs(cr->conn_info->handle), type, &level, 1000) < 0) { perror("HCI read transmit power level request failed"); exit(1); } printf("%s transmit power level: %d\n", (type == 0) ? "Current" : "Maximum", level); free(cr); hci_close_dev(dd); } /* Get AFH channel map */ static struct option afh_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *afh_help = "Usage:\n" "\tafh \n"; static void cmd_afh(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint16_t handle; uint8_t mode, map[10]; int opt, dd; for_each_opt(opt, afh_options, NULL) { switch (opt) { default: printf("%s", afh_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", afh_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } handle = htobs(cr->conn_info->handle); if (hci_read_afh_map(dd, handle, &mode, map, 1000) < 0) { perror("HCI read AFH map request failed"); exit(1); } if (mode == 0x01) { int i; printf("AFH map: 0x"); for (i = 0; i < 10; i++) printf("%02x", map[i]); printf("\n"); } else printf("AFH disabled\n"); free(cr); hci_close_dev(dd); } /* Set connection packet type */ static struct option cpt_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *cpt_help = "Usage:\n" "\tcpt \n"; static void cmd_cpt(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; struct hci_request rq; set_conn_ptype_cp cp; evt_conn_ptype_changed rp; bdaddr_t bdaddr; unsigned int ptype; int dd, opt; for_each_opt(opt, cpt_options, NULL) { switch (opt) { default: printf("%s", cpt_help); return; } } argc -= optind; argv += optind; if (argc < 2) { printf("%s", cpt_help); return; } str2ba(argv[0], &bdaddr); hci_strtoptype(argv[1], &ptype); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } cp.handle = htobs(cr->conn_info->handle); cp.pkt_type = ptype; memset(&rq, 0, sizeof(rq)); rq.ogf = OGF_LINK_CTL; rq.ocf = OCF_SET_CONN_PTYPE; rq.cparam = &cp; rq.clen = SET_CONN_PTYPE_CP_SIZE; rq.rparam = &rp; rq.rlen = EVT_CONN_PTYPE_CHANGED_SIZE; rq.event = EVT_CONN_PTYPE_CHANGED; if (hci_send_req(dd, &rq, 100) < 0) { perror("Packet type change failed"); exit(1); } free(cr); hci_close_dev(dd); } /* Get/Set link policy settings */ static struct option lp_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *lp_help = "Usage:\n" "\tlp [link policy]\n"; static void cmd_lp(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint16_t policy; int opt, dd; for_each_opt(opt, lp_options, NULL) { switch (opt) { default: printf("%s", lp_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", lp_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (argc == 1) { char *str; if (hci_read_link_policy(dd, htobs(cr->conn_info->handle), &policy, 1000) < 0) { perror("HCI read_link_policy_settings request failed"); exit(1); } policy = btohs(policy); str = hci_lptostr(policy); if (str) { printf("Link policy settings: %s\n", str); bt_free(str); } else { fprintf(stderr, "Invalig settings\n"); exit(1); } } else { unsigned int val; if (hci_strtolp(argv[1], &val) < 0) { fprintf(stderr, "Invalig arguments\n"); exit(1); } policy = val; if (hci_write_link_policy(dd, htobs(cr->conn_info->handle), htobs(policy), 1000) < 0) { perror("HCI write_link_policy_settings request failed"); exit(1); } } free(cr); hci_close_dev(dd); } /* Get/Set link supervision timeout */ static struct option lst_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *lst_help = "Usage:\n" "\tlst [new value in slots]\n"; static void cmd_lst(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint16_t timeout; int opt, dd; for_each_opt(opt, lst_options, NULL) { switch (opt) { default: printf("%s", lst_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", lst_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (argc == 1) { if (hci_read_link_supervision_timeout(dd, htobs(cr->conn_info->handle), &timeout, 1000) < 0) { perror("HCI read_link_supervision_timeout request failed"); exit(1); } timeout = btohs(timeout); if (timeout) printf("Link supervision timeout: %u slots (%.2f msec)\n", timeout, (float) timeout * 0.625); else printf("Link supervision timeout never expires\n"); } else { timeout = strtol(argv[1], NULL, 10); if (hci_write_link_supervision_timeout(dd, htobs(cr->conn_info->handle), htobs(timeout), 1000) < 0) { perror("HCI write_link_supervision_timeout request failed"); exit(1); } } free(cr); hci_close_dev(dd); } /* Request authentication */ static struct option auth_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *auth_help = "Usage:\n" "\tauth \n"; static void cmd_auth(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; int opt, dd; for_each_opt(opt, auth_options, NULL) { switch (opt) { default: printf("%s", auth_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", auth_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_authenticate_link(dd, htobs(cr->conn_info->handle), 25000) < 0) { perror("HCI authentication request failed"); exit(1); } free(cr); hci_close_dev(dd); } /* Activate encryption */ static struct option enc_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *enc_help = "Usage:\n" "\tenc [encrypt enable]\n"; static void cmd_enc(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint8_t encrypt; int opt, dd; for_each_opt(opt, enc_options, NULL) { switch (opt) { default: printf("%s", enc_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", enc_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } encrypt = (argc > 1) ? atoi(argv[1]) : 1; if (hci_encrypt_link(dd, htobs(cr->conn_info->handle), encrypt, 25000) < 0) { perror("HCI set encryption request failed"); exit(1); } free(cr); hci_close_dev(dd); } /* Change connection link key */ static struct option key_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *key_help = "Usage:\n" "\tkey \n"; static void cmd_key(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; int opt, dd; for_each_opt(opt, key_options, NULL) { switch (opt) { default: printf("%s", key_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", key_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_change_link_key(dd, htobs(cr->conn_info->handle), 25000) < 0) { perror("Changing link key failed"); exit(1); } free(cr); hci_close_dev(dd); } /* Read clock offset */ static struct option clkoff_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *clkoff_help = "Usage:\n" "\tclkoff \n"; static void cmd_clkoff(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint16_t offset; int opt, dd; for_each_opt(opt, clkoff_options, NULL) { switch (opt) { default: printf("%s", clkoff_help); return; } } argc -= optind; argv += optind; if (argc < 1) { printf("%s", clkoff_help); return; } str2ba(argv[0], &bdaddr); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); exit(1); } if (hci_read_clock_offset(dd, htobs(cr->conn_info->handle), &offset, 1000) < 0) { perror("Reading clock offset failed"); exit(1); } printf("Clock offset: 0x%4.4x\n", btohs(offset)); free(cr); hci_close_dev(dd); } /* Read clock */ static struct option clock_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *clock_help = "Usage:\n" "\tclock [bdaddr] [which clock]\n"; static void cmd_clock(int dev_id, int argc, char **argv) { struct hci_conn_info_req *cr; bdaddr_t bdaddr; uint8_t which; uint32_t handle, clock; uint16_t accuracy; int opt, dd; for_each_opt(opt, clock_options, NULL) { switch (opt) { default: printf("%s", clock_help); return; } } argc -= optind; argv += optind; if (argc > 0) str2ba(argv[0], &bdaddr); else bacpy(&bdaddr, BDADDR_ANY); if (dev_id < 0 && !bacmp(&bdaddr, BDADDR_ANY)) dev_id = hci_get_route(NULL); if (dev_id < 0) { dev_id = hci_for_each_dev(HCI_UP, find_conn, (long) &bdaddr); if (dev_id < 0) { fprintf(stderr, "Not connected.\n"); exit(1); } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); exit(1); } if (bacmp(&bdaddr, BDADDR_ANY)) { cr = malloc(sizeof(*cr) + sizeof(struct hci_conn_info)); if (!cr) { perror("Can't allocate memory"); exit(1); } bacpy(&cr->bdaddr, &bdaddr); cr->type = ACL_LINK; if (ioctl(dd, HCIGETCONNINFO, (unsigned long) cr) < 0) { perror("Get connection info failed"); free(cr); exit(1); } handle = htobs(cr->conn_info->handle); which = (argc > 1) ? atoi(argv[1]) : 0x01; free(cr); } else { handle = 0x00; which = 0x00; } if (hci_read_clock(dd, handle, which, &clock, &accuracy, 1000) < 0) { perror("Reading clock failed"); exit(1); } accuracy = btohs(accuracy); printf("Clock: 0x%4.4x\n", btohl(clock)); printf("Accuracy: %.2f msec\n", (float) accuracy * 0.3125); hci_close_dev(dd); } static int print_advertising_devices(int dd) { unsigned char buf[HCI_MAX_EVENT_SIZE], *ptr; struct hci_filter nf, of; socklen_t olen; hci_event_hdr *hdr; int num, len; olen = sizeof(of); if (getsockopt(dd, SOL_HCI, HCI_FILTER, &of, &olen) < 0) { printf("Could not get socket options\n"); return -1; } hci_filter_clear(&nf); hci_filter_set_ptype(HCI_EVENT_PKT, &nf); hci_filter_set_event(EVT_LE_META_EVENT, &nf); if (setsockopt(dd, SOL_HCI, HCI_FILTER, &nf, sizeof(nf)) < 0) { printf("Could not set socket options\n"); return -1; } /* Wait for 10 report events */ num = 10; while (num--) { evt_le_meta_event *meta; le_advertising_info *info; char addr[18]; while ((len = read(dd, buf, sizeof(buf))) < 0) { if (errno == EAGAIN || errno == EINTR) continue; goto done; } hdr = (void *) (buf + 1); ptr = buf + (1 + HCI_EVENT_HDR_SIZE); len -= (1 + HCI_EVENT_HDR_SIZE); meta = (void *) ptr; if (meta->subevent != 0x02) goto done; /* Ignoring multiple reports */ info = (le_advertising_info *) (meta->data + 1); ba2str(&info->bdaddr, addr); printf("%s\n", addr); } done: setsockopt(dd, SOL_HCI, HCI_FILTER, &of, sizeof(of)); if (len < 0) return -1; return 0; } static struct option lescan_options[] = { { "help", 0, 0, 'h' }, { 0, 0, 0, 0 } }; static const char *lescan_help = "Usage:\n" "\tlescan\n"; static void cmd_lescan(int dev_id, int argc, char **argv) { int err, opt, dd; for_each_opt(opt, lescan_options, NULL) { switch (opt) { default: printf("%s", lescan_help); return; } } dd = hci_open_dev(dev_id); if (dd < 0) { perror("Could not open device"); exit(1); } err = hci_le_set_scan_parameters(dd, 0x01, 0x0010, 0x0010, 0x00, 0x00); if (err < 0) { perror("Set scan parameters failed"); exit(1); } err = hci_le_set_scan_enable(dd, 0x01, 0x00); if (err < 0) { perror("Enable scan failed"); exit(1); } printf("LE Scan ...\n"); err = print_advertising_devices(dd); if (err < 0) { perror("Could not receive advertising events"); exit(1); } err = hci_le_set_scan_enable(dd, 0x00, 0x00); if (err < 0) { perror("Disable scan failed"); exit(1); } hci_close_dev(dd); } static struct { char *cmd; void (*func)(int dev_id, int argc, char **argv); char *doc; } command[] = { { "dev", cmd_dev, "Display local devices" }, { "inq", cmd_inq, "Inquire remote devices" }, { "scan", cmd_scan, "Scan for remote devices" }, { "name", cmd_name, "Get name from remote device" }, { "info", cmd_info, "Get information from remote device" }, { "spinq", cmd_spinq, "Start periodic inquiry" }, { "epinq", cmd_epinq, "Exit periodic inquiry" }, { "cmd", cmd_cmd, "Submit arbitrary HCI commands" }, { "con", cmd_con, "Display active connections" }, { "cc", cmd_cc, "Create connection to remote device" }, { "dc", cmd_dc, "Disconnect from remote device" }, { "sr", cmd_sr, "Switch master/slave role" }, { "cpt", cmd_cpt, "Change connection packet type" }, { "rssi", cmd_rssi, "Display connection RSSI" }, { "lq", cmd_lq, "Display link quality" }, { "tpl", cmd_tpl, "Display transmit power level" }, { "afh", cmd_afh, "Display AFH channel map" }, { "lp", cmd_lp, "Set/display link policy settings" }, { "lst", cmd_lst, "Set/display link supervision timeout" }, { "auth", cmd_auth, "Request authentication" }, { "enc", cmd_enc, "Set connection encryption" }, { "key", cmd_key, "Change connection link key" }, { "clkoff", cmd_clkoff, "Read clock offset" }, { "clock", cmd_clock, "Read local or remote clock" }, { "lescan", cmd_lescan, "Start LE scan" }, { NULL, NULL, 0 } }; static void usage(void) { int i; printf("hcitool - HCI Tool ver %s\n", VERSION); printf("Usage:\n" "\thcitool [options] [command parameters]\n"); printf("Options:\n" "\t--help\tDisplay help\n" "\t-i dev\tHCI device\n"); printf("Commands:\n"); for (i = 0; command[i].cmd; i++) printf("\t%-4s\t%s\n", command[i].cmd, command[i].doc); printf("\n" "For more information on the usage of each command use:\n" "\thcitool --help\n" ); } static struct option main_options[] = { { "help", 0, 0, 'h' }, { "device", 1, 0, 'i' }, { 0, 0, 0, 0 } }; int main(int argc, char *argv[]) { int opt, i, dev_id = -1; bdaddr_t ba; while ((opt=getopt_long(argc, argv, "+i:h", main_options, NULL)) != -1) { switch (opt) { case 'i': dev_id = hci_devid(optarg); if (dev_id < 0) { perror("Invalid device"); exit(1); } break; case 'h': default: usage(); exit(0); } } argc -= optind; argv += optind; optind = 0; if (argc < 1) { usage(); exit(0); } if (dev_id != -1 && hci_devba(dev_id, &ba) < 0) { perror("Device is not available"); exit(1); } for (i = 0; command[i].cmd; i++) { if (strncmp(command[i].cmd, argv[0], 3)) continue; command[i].func(dev_id, argc, argv); break; } return 0; }