/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2000-2002 Maxim Krasnyansky * Copyright (C) 2003-2011 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 "parser.h" #include "sdp.h" #include "l2cap.h" #include "lib/hci.h" #include "lib/a2mp.h" #include "lib/amp.h" typedef struct { uint16_t handle; struct frame frm; } handle_info; #define HANDLE_TABLE_SIZE 10 static handle_info handle_table[HANDLE_TABLE_SIZE]; typedef struct { uint16_t handle; uint16_t cid; uint16_t psm; uint16_t num; uint8_t mode; uint8_t ext_ctrl; } cid_info; #define CID_TABLE_SIZE 20 static cid_info cid_table[2][CID_TABLE_SIZE]; #define SCID cid_table[0] #define DCID cid_table[1] /* Can we move this to l2cap.h? */ struct features { char *name; int flag; }; static struct features l2cap_features[] = { { "Flow control mode", L2CAP_FEAT_FLOWCTL }, { "Retransmission mode", L2CAP_FEAT_RETRANS }, { "Bi-directional QoS", L2CAP_FEAT_BIDIR_QOS }, { "Enhanced Retransmission mode", L2CAP_FEAT_ERTM }, { "Streaming mode", L2CAP_FEAT_STREAMING }, { "FCS Option", L2CAP_FEAT_FCS }, { "Extended Flow Specification", L2CAP_FEAT_EXT_FLOW }, { "Fixed Channels", L2CAP_FEAT_FIXED_CHAN }, { "Extended Window Size", L2CAP_FEAT_EXT_WINDOW }, { "Unicast Connectless Data Reception", L2CAP_FEAT_UCD }, { 0 } }; static struct features l2cap_fix_chan[] = { { "L2CAP Signalling Channel", L2CAP_FC_L2CAP }, { "L2CAP Connless", L2CAP_FC_CONNLESS }, { "AMP Manager Protocol", L2CAP_FC_A2MP }, { 0 } }; static struct frame *add_handle(uint16_t handle) { register handle_info *t = handle_table; register int i; for (i = 0; i < HANDLE_TABLE_SIZE; i++) if (!t[i].handle) { t[i].handle = handle; return &t[i].frm; } return NULL; } static struct frame *get_frame(uint16_t handle) { register handle_info *t = handle_table; register int i; for (i = 0; i < HANDLE_TABLE_SIZE; i++) if (t[i].handle == handle) return &t[i].frm; return add_handle(handle); } static void add_cid(int in, uint16_t handle, uint16_t cid, uint16_t psm) { register cid_info *table = cid_table[in]; register int i, pos = -1; uint16_t num = 1; for (i = 0; i < CID_TABLE_SIZE; i++) { if ((pos < 0 && !table[i].cid) || table[i].cid == cid) pos = i; if (table[i].psm == psm) num++; } if (pos >= 0) { table[pos].handle = handle; table[pos].cid = cid; table[pos].psm = psm; table[pos].num = num; table[pos].mode = 0; } } static void del_cid(int in, uint16_t dcid, uint16_t scid) { register int t, i; uint16_t cid[2]; if (!in) { cid[0] = dcid; cid[1] = scid; } else { cid[0] = scid; cid[1] = dcid; } for (t = 0; t < 2; t++) { for (i = 0; i < CID_TABLE_SIZE; i++) if (cid_table[t][i].cid == cid[t]) { cid_table[t][i].handle = 0; cid_table[t][i].cid = 0; cid_table[t][i].psm = 0; cid_table[t][i].num = 0; cid_table[t][i].mode = 0; break; } } } static void del_handle(uint16_t handle) { register int t, i; for (t = 0; t < 2; t++) { for (i = 0; i < CID_TABLE_SIZE; i++) if (cid_table[t][i].handle == handle) { cid_table[t][i].handle = 0; cid_table[t][i].cid = 0; cid_table[t][i].psm = 0; cid_table[t][i].num = 0; cid_table[t][i].mode = 0; break; } } } static uint16_t get_psm(int in, uint16_t handle, uint16_t cid) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) return table[i].psm; return parser.defpsm; } static uint16_t get_num(int in, uint16_t handle, uint16_t cid) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) return table[i].num; return 0; } static void set_mode(int in, uint16_t handle, uint16_t cid, uint8_t mode) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) table[i].mode = mode; } static uint8_t get_mode(int in, uint16_t handle, uint16_t cid) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) return table[i].mode; return 0; } static void set_ext_ctrl(int in, uint16_t handle, uint16_t cid, uint8_t ext_ctrl) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) table[i].ext_ctrl = ext_ctrl; } static uint8_t get_ext_ctrl(int in, uint16_t handle, uint16_t cid) { register cid_info *table = cid_table[in]; register int i; for (i = 0; i < CID_TABLE_SIZE; i++) if (table[i].handle == handle && table[i].cid == cid) return table[i].ext_ctrl; return 0; } static uint32_t get_val(uint8_t *ptr, uint8_t len) { switch (len) { case 1: return *ptr; case 2: return get_le16(ptr); case 4: return get_le32(ptr); } return 0; } static char *reason2str(uint16_t reason) { switch (reason) { case 0x0000: return "Command not understood"; case 0x0001: return "Signalling MTU exceeded"; case 0x0002: return "Invalid CID in request"; default: return "Reserved"; } } static char *a2mpreason2str(uint16_t reason) { switch (reason) { case A2MP_COMMAND_NOT_RECOGNIZED: return "Command not recognized"; default: return "Reserved"; } } static char *connresult2str(uint16_t result) { switch (result) { case 0x0000: return "Connection successful"; case 0x0001: return "Connection pending"; case 0x0002: return "Connection refused - PSM not supported"; case 0x0003: return "Connection refused - security block"; case 0x0004: return "Connection refused - no resources available"; default: return "Reserved"; } } static char *status2str(uint16_t status) { switch (status) { case 0x0000: return "No futher information available"; case 0x0001: return "Authentication pending"; case 0x0002: return "Authorization pending"; default: return "Reserved"; } } static char *confresult2str(uint16_t result) { switch (result) { case L2CAP_CONF_SUCCESS: return "Success"; case L2CAP_CONF_UNACCEPT: return "Failure - unacceptable parameters"; case L2CAP_CONF_REJECT: return "Failure - rejected (no reason provided)"; case L2CAP_CONF_UNKNOWN: return "Failure - unknown options"; case L2CAP_CONF_PENDING: return "Pending"; case L2CAP_CONF_EFS_REJECT: return "Failure - flowspec reject"; default: return "Reserved"; } } static char *inforesult2str(uint16_t result) { switch (result) { case 0x0000: return "Success"; case 0x0001: return "Not supported"; default: return "Reserved"; } } static char *type2str(uint8_t type) { switch (type) { case L2CAP_SERVTYPE_NOTRAFFIC: return "No traffic"; case L2CAP_SERVTYPE_BESTEFFORT: return "Best Effort"; case L2CAP_SERVTYPE_GUARANTEED: return "Guaranteed"; default: return "Reserved"; } } static char *mode2str(uint8_t mode) { switch (mode) { case 0x00: return "Basic"; case 0x01: return "Retransmission"; case 0x02: return "Flow control"; case 0x03: return "Enhanced Retransmission"; case 0x04: return "Streaming"; default: return "Reserved"; } } static char *fcs2str(uint8_t fcs) { switch (fcs) { case 0x00: return "No FCS"; case 0x01: return "CRC16 Check"; default: return "Reserved"; } } static char *sar2str(uint8_t sar) { switch (sar) { case L2CAP_SAR_UNSEGMENTED: return "Unsegmented"; case L2CAP_SAR_START: return "Start"; case L2CAP_SAR_END: return "End"; case L2CAP_SAR_CONTINUE: return "Continuation"; default: return "Bad SAR"; } } static char *supervisory2str(uint8_t supervisory) { switch (supervisory) { case L2CAP_SUPER_RR: return "Receiver Ready (RR)"; case L2CAP_SUPER_REJ: return "Reject (REJ)"; case L2CAP_SUPER_RNR: return "Receiver Not Ready (RNR)"; case L2CAP_SUPER_SREJ: return "Select Reject (SREJ)"; default: return "Bad Supervisory"; } } static char *ampctrltype2str(uint8_t type) { switch (type) { case HCI_BREDR: return "BR-EDR"; case HCI_AMP: return "802.11 AMP"; default: return "Reserved"; } } static char *ampctrlstatus2str(uint8_t status) { switch (status) { case AMP_CTRL_POWERED_DOWN: return "Powered down"; case AMP_CTRL_BLUETOOTH_ONLY: return "Bluetooth only"; case AMP_CTRL_NO_CAPACITY: return "No capacity"; case AMP_CTRL_LOW_CAPACITY: return "Low capacity"; case AMP_CTRL_MEDIUM_CAPACITY: return "Medium capacity"; case AMP_CTRL_HIGH_CAPACITY: return "High capacity"; case AMP_CTRL_FULL_CAPACITY: return "Full capacity"; default: return "Reserved"; } } static char *a2mpstatus2str(uint8_t status) { switch (status) { case A2MP_STATUS_SUCCESS: return "Success"; case A2MP_STATUS_INVALID_CTRL_ID: return "Invalid Controller ID"; default: return "Reserved"; } } static char *a2mpcplstatus2str(uint8_t status) { switch (status) { case A2MP_STATUS_SUCCESS: return "Success"; case A2MP_STATUS_INVALID_CTRL_ID: return "Invalid Controller ID"; case A2MP_STATUS_UNABLE_START_LINK_CREATION: return "Failed - Unable to start link creation"; case A2MP_STATUS_COLLISION_OCCURED: return "Failed - Collision occured"; case A2MP_STATUS_DISCONN_REQ_RECVD: return "Failed - Disconnect physical link received"; case A2MP_STATUS_PHYS_LINK_EXISTS: return "Failed - Physical link already exists"; case A2MP_STATUS_SECURITY_VIOLATION: return "Failed - Security violation"; default: return "Reserved"; } } static char *a2mpdplstatus2str(uint8_t status) { switch (status) { case A2MP_STATUS_SUCCESS: return "Success"; case A2MP_STATUS_INVALID_CTRL_ID: return "Invalid Controller ID"; case A2MP_STATUS_NO_PHYSICAL_LINK_EXISTS: return "Failed - No Physical Link exists"; default: return "Reserved"; } } static inline void command_rej(int level, struct frame *frm) { l2cap_cmd_rej *h = frm->ptr; uint16_t reason = btohs(h->reason); uint32_t cid; printf("Command rej: reason %d", reason); switch (reason) { case 0x0001: printf(" mtu %d\n", get_val(frm->ptr + L2CAP_CMD_REJ_SIZE, 2)); break; case 0x0002: cid = get_val(frm->ptr + L2CAP_CMD_REJ_SIZE, 4); printf(" dcid 0x%4.4x scid 0x%4.4x\n", cid & 0xffff, cid >> 16); break; default: printf("\n"); break; } p_indent(level + 1, frm); printf("%s\n", reason2str(reason)); } static inline void conn_req(int level, struct frame *frm) { l2cap_conn_req *h = frm->ptr; uint16_t psm = btohs(h->psm); uint16_t scid = btohs(h->scid); add_cid(frm->in, frm->handle, scid, psm); if (p_filter(FILT_L2CAP)) return; printf("Connect req: psm %d scid 0x%4.4x\n", psm, scid); } static inline void conn_rsp(int level, struct frame *frm) { l2cap_conn_rsp *h = frm->ptr; uint16_t scid = btohs(h->scid); uint16_t dcid = btohs(h->dcid); uint16_t result = btohs(h->result); uint16_t status = btohs(h->status); uint16_t psm; switch (h->result) { case L2CAP_CR_SUCCESS: if ((psm = get_psm(!frm->in, frm->handle, scid))) add_cid(frm->in, frm->handle, dcid, psm); break; case L2CAP_CR_PEND: break; default: del_cid(frm->in, dcid, scid); break; } if (p_filter(FILT_L2CAP)) return; printf("Connect rsp: dcid 0x%4.4x scid 0x%4.4x result %d status %d\n", dcid, scid, result, status); p_indent(level + 1, frm); printf("%s", connresult2str(result)); if (result == 0x0001) printf(" - %s\n", status2str(status)); else printf("\n"); } static void conf_rfc(void *ptr, int len, int in, uint16_t handle, uint16_t cid) { uint8_t mode; mode = *((uint8_t *) ptr); set_mode(!in, handle, cid, mode); printf("RFC 0x%02x (%s", mode, mode2str(mode)); if (mode >= 0x01 && mode <= 0x04) { uint8_t txwin, maxtrans; uint16_t rto, mto, mps; txwin = *((uint8_t *) (ptr + 1)); maxtrans = *((uint8_t *) (ptr + 2)); rto = get_le16(ptr + 3); mto = get_le16(ptr + 5); mps = get_le16(ptr + 7); printf(", TxWin %d, MaxTx %d, RTo %d, MTo %d, MPS %d", txwin, maxtrans, rto, mto, mps); } printf(")"); } static void conf_efs(void *ptr) { uint8_t id, ser_type; uint16_t max_sdu; uint32_t sdu_itime, access_lat, flush_to; id = get_val(ptr, sizeof(id)); ser_type = get_val(ptr + 1, sizeof(ser_type)); max_sdu = get_val(ptr + 2, sizeof(max_sdu)); sdu_itime = get_val(ptr + 4, sizeof(sdu_itime)); access_lat = get_val(ptr + 8, sizeof(access_lat)); flush_to = get_val(ptr + 12, sizeof(flush_to)); printf("EFS (Id 0x%02x, SerType %s, MaxSDU 0x%04x, SDUitime 0x%08x, " "AccLat 0x%08x, FlushTO 0x%08x)", id, type2str(ser_type), max_sdu, sdu_itime, access_lat, flush_to); } static void conf_fcs(void *ptr, int len) { uint8_t fcs; fcs = *((uint8_t *) ptr); printf("FCS Option"); if (len > 0) printf(" 0x%2.2x (%s)", fcs, fcs2str(fcs)); } static void conf_opt(int level, void *ptr, int len, int in, uint16_t handle, uint16_t cid) { int indent = 0; p_indent(level, 0); while (len > 0) { l2cap_conf_opt *h = ptr; ptr += L2CAP_CONF_OPT_SIZE + h->len; len -= L2CAP_CONF_OPT_SIZE + h->len; if (h->type & 0x80) printf("["); if (indent++) { printf("\n"); p_indent(level, 0); } switch (h->type & 0x7f) { case L2CAP_CONF_MTU: set_mode(in, handle, cid, 0x00); printf("MTU"); if (h->len > 0) printf(" %d", get_val(h->val, h->len)); break; case L2CAP_CONF_FLUSH_TO: printf("FlushTO"); if (h->len > 0) printf(" %d", get_val(h->val, h->len)); break; case L2CAP_CONF_QOS: printf("QoS"); if (h->len > 0) printf(" 0x%02x (%s)", *(h->val + 1), type2str(*(h->val + 1))); break; case L2CAP_CONF_RFC: conf_rfc(h->val, h->len, in, handle, cid); break; case L2CAP_CONF_FCS: conf_fcs(h->val, h->len); break; case L2CAP_CONF_EFS: conf_efs(h->val); break; case L2CAP_CONF_EWS: printf("EWS"); if (h->len > 0) printf(" %d", get_val(h->val, h->len)); set_ext_ctrl(in, handle, cid, 1); break; default: printf("Unknown (type %2.2x, len %d)", h->type & 0x7f, h->len); break; } if (h->type & 0x80) printf("] "); else printf(" "); } printf("\n"); } static void conf_list(int level, uint8_t *list, int len) { int i; p_indent(level, 0); for (i = 0; i < len; i++) { switch (list[i] & 0x7f) { case L2CAP_CONF_MTU: printf("MTU "); break; case L2CAP_CONF_FLUSH_TO: printf("FlushTo "); break; case L2CAP_CONF_QOS: printf("QoS "); break; case L2CAP_CONF_RFC: printf("RFC "); break; case L2CAP_CONF_FCS: printf("FCS "); break; case L2CAP_CONF_EFS: printf("EFS "); break; case L2CAP_CONF_EWS: printf("EWS "); break; default: printf("%2.2x ", list[i] & 0x7f); break; } } printf("\n"); } static inline void conf_req(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_conf_req *h = frm->ptr; uint16_t dcid = btohs(h->dcid); int clen = btohs(cmd->len) - L2CAP_CONF_REQ_SIZE; if (p_filter(FILT_L2CAP)) return; printf("Config req: dcid 0x%4.4x flags 0x%2.2x clen %d\n", dcid, btohs(h->flags), clen); if (clen > 0) conf_opt(level + 1, h->data, clen, frm->in, frm->handle, dcid); } static inline void conf_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_conf_rsp *h = frm->ptr; uint16_t scid = btohs(h->scid); uint16_t result = btohs(h->result); int clen = btohs(cmd->len) - L2CAP_CONF_RSP_SIZE; if (p_filter(FILT_L2CAP)) return; printf("Config rsp: scid 0x%4.4x flags 0x%2.2x result %d clen %d\n", scid, btohs(h->flags), result, clen); if (clen > 0) { if (result) { p_indent(level + 1, frm); printf("%s\n", confresult2str(result)); } if (result == 0x0003) conf_list(level + 1, h->data, clen); else conf_opt(level + 1, h->data, clen, frm->in, frm->handle, scid); } else { p_indent(level + 1, frm); printf("%s\n", confresult2str(result)); } } static inline void disconn_req(int level, struct frame *frm) { l2cap_disconn_req *h = frm->ptr; if (p_filter(FILT_L2CAP)) return; printf("Disconn req: dcid 0x%4.4x scid 0x%4.4x\n", btohs(h->dcid), btohs(h->scid)); } static inline void disconn_rsp(int level, struct frame *frm) { l2cap_disconn_rsp *h = frm->ptr; uint16_t dcid = btohs(h->dcid); uint16_t scid = btohs(h->scid); del_cid(frm->in, dcid, scid); if (p_filter(FILT_L2CAP)) return; printf("Disconn rsp: dcid 0x%4.4x scid 0x%4.4x\n", btohs(h->dcid), btohs(h->scid)); } static inline void echo_req(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { if (p_filter(FILT_L2CAP)) return; printf("Echo req: dlen %d\n", btohs(cmd->len)); raw_dump(level, frm); } static inline void echo_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { if (p_filter(FILT_L2CAP)) return; printf("Echo rsp: dlen %d\n", btohs(cmd->len)); raw_dump(level, frm); } static void info_opt(int level, int type, void *ptr, int len) { uint32_t mask; uint64_t fc_mask; int i; p_indent(level, 0); switch (type) { case 0x0001: printf("Connectionless MTU %d\n", get_val(ptr, len)); break; case 0x0002: mask = get_val(ptr, len); printf("Extended feature mask 0x%4.4x\n", mask); if (parser.flags & DUMP_VERBOSE) for (i=0; l2cap_features[i].name; i++) if (mask & l2cap_features[i].flag) { p_indent(level + 1, 0); printf("%s\n", l2cap_features[i].name); } break; case 0x0003: fc_mask = get_le64(ptr); printf("Fixed channel list 0x%8.8" PRIx64 "\n", fc_mask); if (parser.flags & DUMP_VERBOSE) for (i=0; l2cap_fix_chan[i].name; i++) if (fc_mask & l2cap_fix_chan[i].flag) { p_indent(level + 1, 0); printf("%s\n", l2cap_fix_chan[i].name); } break; default: printf("Unknown (len %d)\n", len); break; } } static inline void info_req(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_info_req *h = frm->ptr; if (p_filter(FILT_L2CAP)) return; printf("Info req: type %d\n", btohs(h->type)); } static inline void info_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_info_rsp *h = frm->ptr; uint16_t type = btohs(h->type); uint16_t result = btohs(h->result); int ilen = btohs(cmd->len) - L2CAP_INFO_RSP_SIZE; if (p_filter(FILT_L2CAP)) return; printf("Info rsp: type %d result %d\n", type, result); if (ilen > 0) { info_opt(level + 1, type, h->data, ilen); } else { p_indent(level + 1, frm); printf("%s\n", inforesult2str(result)); } } static void l2cap_ctrl_ext_parse(int level, struct frame *frm, uint32_t ctrl) { p_indent(level, frm); printf("%s:", ctrl & L2CAP_EXT_CTRL_FRAME_TYPE ? "S-frame" : "I-frame"); if (ctrl & L2CAP_EXT_CTRL_FRAME_TYPE) { printf(" %s", supervisory2str((ctrl & L2CAP_EXT_CTRL_SUPERVISE_MASK) >> L2CAP_EXT_CTRL_SUPER_SHIFT)); if (ctrl & L2CAP_EXT_CTRL_POLL) printf(" P-bit"); } else { uint8_t sar = (ctrl & L2CAP_EXT_CTRL_SAR_MASK) >> L2CAP_EXT_CTRL_SAR_SHIFT; printf(" %s", sar2str(sar)); if (sar == L2CAP_SAR_START) { uint16_t len; len = get_le16(frm->ptr); frm->ptr += L2CAP_SDULEN_SIZE; frm->len -= L2CAP_SDULEN_SIZE; printf(" (len %d)", len); } printf(" TxSeq %d", (ctrl & L2CAP_EXT_CTRL_TXSEQ_MASK) >> L2CAP_EXT_CTRL_TXSEQ_SHIFT); } printf(" ReqSeq %d", (ctrl & L2CAP_EXT_CTRL_REQSEQ_MASK) >> L2CAP_EXT_CTRL_REQSEQ_SHIFT); if (ctrl & L2CAP_EXT_CTRL_FINAL) printf(" F-bit"); } static void l2cap_ctrl_parse(int level, struct frame *frm, uint32_t ctrl) { p_indent(level, frm); printf("%s:", ctrl & L2CAP_CTRL_FRAME_TYPE ? "S-frame" : "I-frame"); if (ctrl & 0x01) { printf(" %s", supervisory2str((ctrl & L2CAP_CTRL_SUPERVISE_MASK) >> L2CAP_CTRL_SUPER_SHIFT)); if (ctrl & L2CAP_CTRL_POLL) printf(" P-bit"); } else { uint8_t sar = (ctrl & L2CAP_CTRL_SAR_MASK) >> L2CAP_CTRL_SAR_SHIFT; printf(" %s", sar2str(sar)); if (sar == L2CAP_SAR_START) { uint16_t len; len = get_le16(frm->ptr); frm->ptr += L2CAP_SDULEN_SIZE; frm->len -= L2CAP_SDULEN_SIZE; printf(" (len %d)", len); } printf(" TxSeq %d", (ctrl & L2CAP_CTRL_TXSEQ_MASK) >> L2CAP_CTRL_TXSEQ_SHIFT); } printf(" ReqSeq %d", (ctrl & L2CAP_CTRL_REQSEQ_MASK) >> L2CAP_CTRL_REQSEQ_SHIFT); if (ctrl & L2CAP_CTRL_FINAL) printf(" F-bit"); } static inline void create_req(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_create_req *h = frm->ptr; uint16_t psm = btohs(h->psm); uint16_t scid = btohs(h->scid); if (p_filter(FILT_L2CAP)) return; printf("Create chan req: psm 0x%4.4x scid 0x%4.4x ctrl id %d\n", psm, scid, h->id); } static inline void create_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_create_rsp *h = frm->ptr; uint16_t scid = btohs(h->scid); uint16_t dcid = btohs(h->dcid); uint16_t result = btohs(h->result); uint16_t status = btohs(h->status); if (p_filter(FILT_L2CAP)) return; printf("Create chan rsp: dcid 0x%4.4x scid 0x%4.4x result %d status %d\n", dcid, scid, result, status); } static inline void move_req(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_move_req *h = frm->ptr; uint16_t icid = btohs(h->icid); if (p_filter(FILT_L2CAP)) return; printf("Move chan req: icid 0x%4.4x ctrl id %d\n", icid, h->id); } static inline void move_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_move_rsp *h = frm->ptr; uint16_t icid = btohs(h->icid); uint16_t result = btohs(h->result); if (p_filter(FILT_L2CAP)) return; printf("Move chan rsp: icid 0x%4.4x result %d\n", icid, result); } static inline void move_cfm(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_move_cfm *h = frm->ptr; uint16_t icid = btohs(h->icid); uint16_t result = btohs(h->result); if (p_filter(FILT_L2CAP)) return; printf("Move chan cfm: icid 0x%4.4x result %d\n", icid, result); } static inline void move_cfm_rsp(int level, l2cap_cmd_hdr *cmd, struct frame *frm) { l2cap_move_cfm_rsp *h = frm->ptr; uint16_t icid = btohs(h->icid); if (p_filter(FILT_L2CAP)) return; printf("Move chan cfm rsp: icid 0x%4.4x\n", icid); } static inline void a2mp_command_rej(int level, struct frame *frm) { struct a2mp_command_rej *h = frm->ptr; uint16_t reason = btohs(h->reason); printf("Command Reject: reason %d\n", reason); p_indent(level + 1, 0); printf("%s\n", a2mpreason2str(reason)); } static inline void a2mp_discover_req(int level, struct frame *frm, uint16_t len) { struct a2mp_discover_req *h = frm->ptr; uint16_t mtu = btohs(h->mtu); uint8_t *octet = (uint8_t *)&(h->mask); uint16_t mask; uint8_t extension; printf("Discover req: mtu/mps %d ", mtu); len -= 2; printf("mask:"); do { len -= 2; mask = get_le16(octet); printf(" 0x%4.4x", mask); extension = octet[1] & 0x80; octet += 2; } while ((extension != 0) && (len >= 2)); printf("\n"); } static inline void a2mp_ctrl_list_dump(int level, struct a2mp_ctrl *list, uint16_t len) { p_indent(level, 0); printf("Controller list:\n"); while (len >= 3) { p_indent(level + 1, 0); printf("id %d type %d (%s) status 0x%2.2x (%s)\n", list->id, list->type, ampctrltype2str(list->type), list->status, ampctrlstatus2str(list->status)); list++; len -= 3; } } static inline void a2mp_discover_rsp(int level, struct frame *frm, uint16_t len) { struct a2mp_discover_rsp *h = frm->ptr; uint16_t mtu = btohs(h->mtu); uint8_t *octet = (uint8_t *)&(h->mask); uint16_t mask; uint8_t extension; printf("Discover rsp: mtu/mps %d ", mtu); len -= 2; printf("mask:"); do { len -= 2; mask = get_le16(octet); printf(" 0x%4.4x", mask); extension = octet[1] & 0x80; octet += 2; } while ((extension != 0) && (len >= 2)); printf("\n"); if (len >= 3) { a2mp_ctrl_list_dump(level + 1, (struct a2mp_ctrl *) octet, len); } } static inline void a2mp_change_notify(int level, struct frame *frm, uint16_t len) { struct a2mp_ctrl *list = frm->ptr; printf("Change Notify\n"); if (len >= 3) { a2mp_ctrl_list_dump(level + 1, list, len); } } static inline void a2mp_change_rsp(int level, struct frame *frm) { printf("Change Response\n"); } static inline void a2mp_info_req(int level, struct frame *frm) { struct a2mp_info_req *h = frm->ptr; printf("Get Info req: id %d\n", h->id); } static inline void a2mp_info_rsp(int level, struct frame *frm) { struct a2mp_info_rsp *h = frm->ptr; printf("Get Info rsp: id %d status %d (%s)\n", h->id, h->status, a2mpstatus2str(h->status)); p_indent(level + 1, 0); printf("Total bandwidth %d\n", btohl(h->total_bw)); p_indent(level + 1, 0); printf("Max guaranteed bandwidth %d\n", btohl(h->max_bw)); p_indent(level + 1, 0); printf("Min latency %d\n", btohl(h->min_latency)); p_indent(level + 1, 0); printf("Pal capabilities 0x%4.4x\n", btohs(h->pal_caps)); p_indent(level + 1, 0); printf("Assoc size %d\n", btohs(h->assoc_size)); } static inline void a2mp_assoc_req(int level, struct frame *frm) { struct a2mp_assoc_req *h = frm->ptr; printf("Get AMP Assoc req: id %d\n", h->id); } static inline void a2mp_assoc_rsp(int level, struct frame *frm, uint16_t len) { struct a2mp_assoc_rsp *h = frm->ptr; printf("Get AMP Assoc rsp: id %d status (%d) %s\n", h->id, h->status, a2mpstatus2str(h->status)); amp_assoc_dump(level + 1, h->assoc_data, len - sizeof(*h)); } static inline void a2mp_create_req(int level, struct frame *frm, uint16_t len) { struct a2mp_create_req *h = frm->ptr; printf("Create Physical Link req: local id %d remote id %d\n", h->local_id, h->remote_id); amp_assoc_dump(level + 1, h->assoc_data, len - sizeof(*h)); } static inline void a2mp_create_rsp(int level, struct frame *frm) { struct a2mp_create_rsp *h = frm->ptr; printf("Create Physical Link rsp: local id %d remote id %d status %d\n", h->local_id, h->remote_id, h->status); p_indent(level+1, 0); printf("%s\n", a2mpcplstatus2str(h->status)); } static inline void a2mp_disconn_req(int level, struct frame *frm) { struct a2mp_disconn_req *h = frm->ptr; printf("Disconnect Physical Link req: local id %d remote id %d\n", h->local_id, h->remote_id); } static inline void a2mp_disconn_rsp(int level, struct frame *frm) { struct a2mp_disconn_rsp *h = frm->ptr; printf("Disconnect Physical Link rsp: local id %d remote id %d status %d\n", h->local_id, h->remote_id, h->status); p_indent(level+1, 0); printf("%s\n", a2mpdplstatus2str(h->status)); } static void l2cap_parse(int level, struct frame *frm) { l2cap_hdr *hdr = (void *)frm->ptr; uint16_t dlen = btohs(hdr->len); uint16_t cid = btohs(hdr->cid); uint16_t psm; frm->ptr += L2CAP_HDR_SIZE; frm->len -= L2CAP_HDR_SIZE; if (cid == 0x1) { /* Signaling channel */ while (frm->len >= L2CAP_CMD_HDR_SIZE) { l2cap_cmd_hdr *hdr = frm->ptr; frm->ptr += L2CAP_CMD_HDR_SIZE; frm->len -= L2CAP_CMD_HDR_SIZE; if (!p_filter(FILT_L2CAP)) { p_indent(level, frm); printf("L2CAP(s): "); } switch (hdr->code) { case L2CAP_COMMAND_REJ: command_rej(level, frm); break; case L2CAP_CONN_REQ: conn_req(level, frm); break; case L2CAP_CONN_RSP: conn_rsp(level, frm); break; case L2CAP_CONF_REQ: conf_req(level, hdr, frm); break; case L2CAP_CONF_RSP: conf_rsp(level, hdr, frm); break; case L2CAP_DISCONN_REQ: disconn_req(level, frm); break; case L2CAP_DISCONN_RSP: disconn_rsp(level, frm); break; case L2CAP_ECHO_REQ: echo_req(level, hdr, frm); break; case L2CAP_ECHO_RSP: echo_rsp(level, hdr, frm); break; case L2CAP_INFO_REQ: info_req(level, hdr, frm); break; case L2CAP_INFO_RSP: info_rsp(level, hdr, frm); break; case L2CAP_CREATE_REQ: create_req(level, hdr, frm); break; case L2CAP_CREATE_RSP: create_rsp(level, hdr, frm); break; case L2CAP_MOVE_REQ: move_req(level, hdr, frm); break; case L2CAP_MOVE_RSP: move_rsp(level, hdr, frm); break; case L2CAP_MOVE_CFM: move_cfm(level, hdr, frm); break; case L2CAP_MOVE_CFM_RSP: move_cfm_rsp(level, hdr, frm); break; default: if (p_filter(FILT_L2CAP)) break; printf("code 0x%2.2x ident %d len %d\n", hdr->code, hdr->ident, btohs(hdr->len)); raw_dump(level, frm); } if (frm->len > btohs(hdr->len)) { frm->len -= btohs(hdr->len); frm->ptr += btohs(hdr->len); } else frm->len = 0; } } else if (cid == 0x2) { /* Connectionless channel */ if (p_filter(FILT_L2CAP)) return; psm = get_le16(frm->ptr); frm->ptr += 2; frm->len -= 2; p_indent(level, frm); printf("L2CAP(c): len %d psm %d\n", dlen, psm); raw_dump(level, frm); } else if (cid == 0x3) { /* AMP Manager channel */ if (p_filter(FILT_A2MP)) return; /* Adjust for ERTM control bytes */ frm->ptr += 2; frm->len -= 2; while (frm->len >= A2MP_HDR_SIZE) { struct a2mp_hdr *hdr = frm->ptr; frm->ptr += A2MP_HDR_SIZE; frm->len -= A2MP_HDR_SIZE; p_indent(level, frm); printf("A2MP: "); switch (hdr->code) { case A2MP_COMMAND_REJ: a2mp_command_rej(level, frm); break; case A2MP_DISCOVER_REQ: a2mp_discover_req(level, frm, btohs(hdr->len)); break; case A2MP_DISCOVER_RSP: a2mp_discover_rsp(level, frm, btohs(hdr->len)); break; case A2MP_CHANGE_NOTIFY: a2mp_change_notify(level, frm, btohs(hdr->len)); break; case A2MP_CHANGE_RSP: a2mp_change_rsp(level, frm); break; case A2MP_INFO_REQ: a2mp_info_req(level, frm); break; case A2MP_INFO_RSP: a2mp_info_rsp(level, frm); break; case A2MP_ASSOC_REQ: a2mp_assoc_req(level, frm); break; case A2MP_ASSOC_RSP: a2mp_assoc_rsp(level, frm, btohs(hdr->len)); break; case A2MP_CREATE_REQ: a2mp_create_req(level, frm, btohs(hdr->len)); break; case A2MP_CREATE_RSP: a2mp_create_rsp(level, frm); break; case A2MP_DISCONN_REQ: a2mp_disconn_req(level, frm); break; case A2MP_DISCONN_RSP: a2mp_disconn_rsp(level, frm); break; default: printf("code 0x%2.2x ident %d len %d\n", hdr->code, hdr->ident, btohs(hdr->len)); raw_dump(level, frm); } if (frm->len > btohs(hdr->len)) { frm->len -= btohs(hdr->len); frm->ptr += btohs(hdr->len); } else frm->len = 0; } } else if (cid == 0x04) { if (!p_filter(FILT_ATT)) att_dump(level, frm); else raw_dump(level + 1, frm); } else if (cid == 0x06) { if (!p_filter(FILT_SMP)) smp_dump(level, frm); else raw_dump(level + 1, frm); } else { /* Connection oriented channel */ uint8_t mode = get_mode(!frm->in, frm->handle, cid); uint8_t ext_ctrl = get_ext_ctrl(!frm->in, frm->handle, cid); uint16_t psm = get_psm(!frm->in, frm->handle, cid); uint16_t fcs = 0; uint32_t proto, ctrl = 0; frm->cid = cid; frm->num = get_num(!frm->in, frm->handle, cid); if (mode > 0) { if (ext_ctrl) { ctrl = get_val(frm->ptr, 4); frm->ptr += 4; frm->len -= 6; } else { ctrl = get_val(frm->ptr, 2); frm->ptr += 2; frm->len -= 4; } fcs = get_le16(frm->ptr + frm->len); } if (!p_filter(FILT_L2CAP)) { p_indent(level, frm); printf("L2CAP(d): cid 0x%4.4x len %d", cid, dlen); if (mode > 0) { if (ext_ctrl) printf(" ext_ctrl 0x%8.8x fcs 0x%4.4x", ctrl, fcs); else printf(" ctrl 0x%4.4x fcs 0x%4.4x", ctrl, fcs); } printf(" [psm %d]\n", psm); level++; if (mode > 0) { if (ext_ctrl) l2cap_ctrl_ext_parse(level, frm, ctrl); else l2cap_ctrl_parse(level, frm, ctrl); printf("\n"); } } switch (psm) { case 0x01: if (!p_filter(FILT_SDP)) sdp_dump(level + 1, frm); else raw_dump(level + 1, frm); break; case 0x03: if (!p_filter(FILT_RFCOMM)) rfcomm_dump(level, frm); else raw_dump(level + 1, frm); break; case 0x0f: if (!p_filter(FILT_BNEP)) bnep_dump(level, frm); else raw_dump(level + 1, frm); break; case 0x11: case 0x13: if (!p_filter(FILT_HIDP)) hidp_dump(level, frm); else raw_dump(level + 1, frm); break; case 0x17: case 0x1B: if (!p_filter(FILT_AVCTP)) avctp_dump(level, frm, psm); else raw_dump(level + 1, frm); break; case 0x19: if (!p_filter(FILT_AVDTP)) avdtp_dump(level, frm); else raw_dump(level + 1, frm); break; case 0x1f: if (!p_filter(FILT_ATT)) att_dump(level, frm); else raw_dump(level + 1, frm); break; default: proto = get_proto(frm->handle, psm, 0); switch (proto) { case SDP_UUID_CMTP: if (!p_filter(FILT_CMTP)) cmtp_dump(level, frm); else raw_dump(level + 1, frm); break; case SDP_UUID_HARDCOPY_CONTROL_CHANNEL: if (!p_filter(FILT_HCRP)) hcrp_dump(level, frm); else raw_dump(level + 1, frm); break; case SDP_UUID_OBEX: if (!p_filter(FILT_OBEX)) obex_dump(level, frm); else raw_dump(level + 1, frm); break; default: if (p_filter(FILT_L2CAP)) break; raw_dump(level, frm); break; } break; } } } void l2cap_dump(int level, struct frame *frm) { struct frame *fr; l2cap_hdr *hdr; uint16_t dlen; if ((frm->flags & ACL_START) || frm->flags == ACL_START_NO_FLUSH) { hdr = frm->ptr; dlen = btohs(hdr->len); if (dlen + L2CAP_HDR_SIZE < (int) frm->len) { /* invalid frame */ raw_dump(level,frm); return; } if ((int) frm->len == (dlen + L2CAP_HDR_SIZE)) { /* Complete frame */ l2cap_parse(level, frm); return; } if (!(fr = get_frame(frm->handle))) { fprintf(stderr, "Not enough connection handles\n"); raw_dump(level, frm); return; } if (fr->data) free(fr->data); if (!(fr->data = malloc(dlen + L2CAP_HDR_SIZE))) { perror("Can't allocate L2CAP reassembly buffer"); return; } memcpy(fr->data, frm->ptr, frm->len); fr->data_len = dlen + L2CAP_HDR_SIZE; fr->len = frm->len; fr->ptr = fr->data; fr->dev_id = frm->dev_id; fr->in = frm->in; fr->ts = frm->ts; fr->handle = frm->handle; fr->cid = frm->cid; fr->num = frm->num; fr->dlci = frm->dlci; fr->channel = frm->channel; fr->pppdump_fd = frm->pppdump_fd; fr->audio_fd = frm->audio_fd; } else { if (!(fr = get_frame(frm->handle))) { fprintf(stderr, "Not enough connection handles\n"); raw_dump(level, frm); return; } if (!fr->data) { /* Unexpected fragment */ raw_dump(level, frm); return; } if (frm->len > (fr->data_len - fr->len)) { /* Bad fragment */ raw_dump(level, frm); free(fr->data); fr->data = NULL; return; } memcpy(fr->data + fr->len, frm->ptr, frm->len); fr->len += frm->len; if (fr->len == fr->data_len) { /* Complete frame */ l2cap_parse(level, fr); free(fr->data); fr->data = NULL; return; } } } void l2cap_clear(uint16_t handle) { del_handle(handle); }